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I*I+C*C}manhattanDistanceTo(A){return Math.abs(this.x-A.x)+Math.abs(this.y-A.y)}setLength(A){return this.normalize().multiplyScalar(A)}lerp(A,I){return this.x+=(A.x-this.x)*I,this.y+=(A.y-this.y)*I,this}lerpVectors(A,I,C){return this.x=A.x+(I.x-A.x)*C,this.y=A.y+(I.y-A.y)*C,this}equals(A){return A.x===this.x&&A.y===this.y}fromArray(A,I=0){return this.x=A[I],this.y=A[I+1],this}toArray(A=[],I=0){return A[I]=this.x,A[I+1]=this.y,A}fromBufferAttribute(A,I){return this.x=A.getX(I),this.y=A.getY(I),this}rotateAround(A,I){const C=Math.cos(I),B=Math.sin(I),Q=this.x-A.x,E=this.y-A.y;return this.x=Q*C-E*B+A.x,this.y=Q*B+E*C+A.y,this}random(){return this.x=Math.random(),this.y=Math.random(),this}*[Symbol.iterator](){yield this.x,yield this.y}}class XC{constructor(A=0,I=0,C=0,B=1){this.isQuaternion=!0,this._x=A,this._y=I,this._z=C,this._w=B}static slerpFlat(A,I,C,B,Q,E,i){let o=C[B+0],t=C[B+1],e=C[B+2],s=C[B+3];const a=Q[E+0],D=Q[E+1],n=Q[E+2],c=Q[E+3];if(i===0){A[I+0]=o,A[I+1]=t,A[I+2]=e,A[I+3]=s;return}if(i===1){A[I+0]=a,A[I+1]=D,A[I+2]=n,A[I+3]=c;return}if(s!==c||o!==a||t!==D||e!==n){let S=1-i;const r=o*a+t*D+e*n+s*c,l=r>=0?1:-1,y=1-r*r;if(y>Number.EPSILON){const N=Math.sqrt(y),U=Math.atan2(N,r*l);S=Math.sin(S*U)/N,i=Math.sin(i*U)/N}const w=i*l;if(o=o*S+a*w,t=t*S+D*w,e=e*S+n*w,s=s*S+c*w,S===1-i){const N=1/Math.sqrt(o*o+t*t+e*e+s*s);o*=N,t*=N,e*=N,s*=N}}A[I]=o,A[I+1]=t,A[I+2]=e,A[I+3]=s}static multiplyQuaternionsFlat(A,I,C,B,Q,E){const i=C[B],o=C[B+1],t=C[B+2],e=C[B+3],s=Q[E],a=Q[E+1],D=Q[E+2],n=Q[E+3];return A[I]=i*n+e*s+o*D-t*a,A[I+1]=o*n+e*a+t*s-i*D,A[I+2]=t*n+e*D+i*a-o*s,A[I+3]=e*n-i*s-o*a-t*D,A}get x(){return this._x}set x(A){this._x=A,this._onChangeCallback()}get y(){return this._y}set y(A){this._y=A,this._onChangeCallback()}get z(){return this._z}set z(A){this._z=A,this._onChangeCallback()}get w(){return this._w}set w(A){this._w=A,this._onChangeCallback()}set(A,I,C,B){return this._x=A,this._y=I,this._z=C,this._w=B,this._onChangeCallback(),this}clone(){return new this.constructor(this._x,this._y,this._z,this._w)}copy(A){return this._x=A.x,this._y=A.y,this._z=A.z,this._w=A.w,this._onChangeCallback(),this}setFromEuler(A,I=!0){const C=A._x,B=A._y,Q=A._z,E=A._order,i=Math.cos,o=Math.sin,t=i(C/2),e=i(B/2),s=i(Q/2),a=o(C/2),D=o(B/2),n=o(Q/2);switch(E){case"XYZ":this._x=a*e*s+t*D*n,this._y=t*D*s-a*e*n,this._z=t*e*n+a*D*s,this._w=t*e*s-a*D*n;break;case"YXZ":this._x=a*e*s+t*D*n,this._y=t*D*s-a*e*n,this._z=t*e*n-a*D*s,this._w=t*e*s+a*D*n;break;case"ZXY":this._x=a*e*s-t*D*n,this._y=t*D*s+a*e*n,this._z=t*e*n+a*D*s,this._w=t*e*s-a*D*n;break;case"ZYX":this._x=a*e*s-t*D*n,this._y=t*D*s+a*e*n,this._z=t*e*n-a*D*s,this._w=t*e*s+a*D*n;break;case"YZX":this._x=a*e*s+t*D*n,this._y=t*D*s+a*e*n,this._z=t*e*n-a*D*s,this._w=t*e*s-a*D*n;break;case"XZY":this._x=a*e*s-t*D*n,this._y=t*D*s-a*e*n,this._z=t*e*n+a*D*s,this._w=t*e*s+a*D*n;break;default:console.warn("THREE.Quaternion: .setFromEuler() encountered an unknown order: "+E)}return I===!0&&this._onChangeCallback(),this}setFromAxisAngle(A,I){const C=I/2,B=Math.sin(C);return this._x=A.x*B,this._y=A.y*B,this._z=A.z*B,this._w=Math.cos(C),this._onChangeCallback(),this}setFromRotationMatrix(A){const I=A.elements,C=I[0],B=I[4],Q=I[8],E=I[1],i=I[5],o=I[9],t=I[2],e=I[6],s=I[10],a=C+i+s;if(a>0){const D=.5/Math.sqrt(a+1);this._w=.25/D,this._x=(e-o)*D,this._y=(Q-t)*D,this._z=(E-B)*D}else if(C>i&&C>s){const D=2*Math.sqrt(1+C-i-s);this._w=(e-o)/D,this._x=.25*D,this._y=(B+E)/D,this._z=(Q+t)/D}else if(i>s){const D=2*Math.sqrt(1+i-C-s);this._w=(Q-t)/D,this._x=(B+E)/D,this._y=.25*D,this._z=(o+e)/D}else{const D=2*Math.sqrt(1+s-C-i);this._w=(E-B)/D,this._x=(Q+t)/D,this._y=(o+e)/D,this._z=.25*D}return this._onChangeCallback(),this}setFromUnitVectors(A,I){let C=A.dot(I)+1;return C<1e-8?(C=0,Math.abs(A.x)>Math.abs(A.z)?(this._x=-A.y,this._y=A.x,this._z=0,this._w=C):(this._x=0,this._y=-A.z,this._z=A.y,this._w=C)):(this._x=A.y*I.z-A.z*I.y,this._y=A.z*I.x-A.x*I.z,this._z=A.x*I.y-A.y*I.x,this._w=C),this.normalize()}angleTo(A){return 2*Math.acos(Math.abs(sI(this.dot(A),-1,1)))}rotateTowards(A,I){const C=this.angleTo(A);if(C===0)return this;const B=Math.min(1,I/C);return this.slerp(A,B),this}identity(){return this.set(0,0,0,1)}invert(){return this.conjugate()}conjugate(){return this._x*=-1,this._y*=-1,this._z*=-1,this._onChangeCallback(),this}dot(A){return this._x*A._x+this._y*A._y+this._z*A._z+this._w*A._w}lengthSq(){return this._x*this._x+this._y*this._y+this._z*this._z+this._w*this._w}length(){return Math.sqrt(this._x*this._x+this._y*this._y+this._z*this._z+this._w*this._w)}normalize(){let A=this.length();return A===0?(this._x=0,this._y=0,this._z=0,this._w=1):(A=1/A,this._x=this._x*A,this._y=this._y*A,this._z=this._z*A,this._w=this._w*A),this._onChangeCallback(),this}multiply(A){return this.multiplyQuaternions(this,A)}premultiply(A){return this.multiplyQuaternions(A,this)}multiplyQuaternions(A,I){const C=A._x,B=A._y,Q=A._z,E=A._w,i=I._x,o=I._y,t=I._z,e=I._w;return this._x=C*e+E*i+B*t-Q*o,this._y=B*e+E*o+Q*i-C*t,this._z=Q*e+E*t+C*o-B*i,this._w=E*e-C*i-B*o-Q*t,this._onChangeCallback(),this}slerp(A,I){if(I===0)return this;if(I===1)return this.copy(A);const C=this._x,B=this._y,Q=this._z,E=this._w;let i=E*A._w+C*A._x+B*A._y+Q*A._z;if(i<0?(this._w=-A._w,this._x=-A._x,this._y=-A._y,this._z=-A._z,i=-i):this.copy(A),i>=1)return this._w=E,this._x=C,this._y=B,this._z=Q,this;const o=1-i*i;if(o<=Number.EPSILON){const D=1-I;return this._w=D*E+I*this._w,this._x=D*C+I*this._x,this._y=D*B+I*this._y,this._z=D*Q+I*this._z,this.normalize(),this}const t=Math.sqrt(o),e=Math.atan2(t,i),s=Math.sin((1-I)*e)/t,a=Math.sin(I*e)/t;return this._w=E*s+this._w*a,this._x=C*s+this._x*a,this._y=B*s+this._y*a,this._z=Q*s+this._z*a,this._onChangeCallback(),this}slerpQuaternions(A,I,C){return this.copy(A).slerp(I,C)}random(){const A=2*Math.PI*Math.random(),I=2*Math.PI*Math.random(),C=Math.random(),B=Math.sqrt(1-C),Q=Math.sqrt(C);return this.set(B*Math.sin(A),B*Math.cos(A),Q*Math.sin(I),Q*Math.cos(I))}equals(A){return A._x===this._x&&A._y===this._y&&A._z===this._z&&A._w===this._w}fromArray(A,I=0){return this._x=A[I],this._y=A[I+1],this._z=A[I+2],this._w=A[I+3],this._onChangeCallback(),this}toArray(A=[],I=0){return A[I]=this._x,A[I+1]=this._y,A[I+2]=this._z,A[I+3]=this._w,A}fromBufferAttribute(A,I){return this._x=A.getX(I),this._y=A.getY(I),this._z=A.getZ(I),this._w=A.getW(I),this._onChangeCallback(),this}toJSON(){return this.toArray()}_onChange(A){return this._onChangeCallback=A,this}_onChangeCallback(){}*[Symbol.iterator](){yield this._x,yield this._y,yield this._z,yield this._w}}class v{constructor(A=0,I=0,C=0){v.prototype.isVector3=!0,this.x=A,this.y=I,this.z=C}set(A,I,C){return C===void 0&&(C=this.z),this.x=A,this.y=I,this.z=C,this}setScalar(A){return this.x=A,this.y=A,this.z=A,this}setX(A){return this.x=A,this}setY(A){return this.y=A,this}setZ(A){return this.z=A,this}setComponent(A,I){switch(A){case 0:this.x=I;break;case 1:this.y=I;break;case 2:this.z=I;break;default:throw new Error("index is out of range: "+A)}return this}getComponent(A){switch(A){case 0:return this.x;case 1:return this.y;case 2:return this.z;default:throw new Error("index is out of range: "+A)}}clone(){return new this.constructor(this.x,this.y,this.z)}copy(A){return this.x=A.x,this.y=A.y,this.z=A.z,this}add(A){return this.x+=A.x,this.y+=A.y,this.z+=A.z,this}addScalar(A){return this.x+=A,this.y+=A,this.z+=A,this}addVectors(A,I){return this.x=A.x+I.x,this.y=A.y+I.y,this.z=A.z+I.z,this}addScaledVector(A,I){return this.x+=A.x*I,this.y+=A.y*I,this.z+=A.z*I,this}sub(A){return this.x-=A.x,this.y-=A.y,this.z-=A.z,this}subScalar(A){return this.x-=A,this.y-=A,this.z-=A,this}subVectors(A,I){return this.x=A.x-I.x,this.y=A.y-I.y,this.z=A.z-I.z,this}multiply(A){return this.x*=A.x,this.y*=A.y,this.z*=A.z,this}multiplyScalar(A){return this.x*=A,this.y*=A,this.z*=A,this}multiplyVectors(A,I){return this.x=A.x*I.x,this.y=A.y*I.y,this.z=A.z*I.z,this}applyEuler(A){return this.applyQuaternion(Wn.setFromEuler(A))}applyAxisAngle(A,I){return this.applyQuaternion(Wn.setFromAxisAngle(A,I))}applyMatrix3(A){const I=this.x,C=this.y,B=this.z,Q=A.elements;return this.x=Q[0]*I+Q[3]*C+Q[6]*B,this.y=Q[1]*I+Q[4]*C+Q[7]*B,this.z=Q[2]*I+Q[5]*C+Q[8]*B,this}applyNormalMatrix(A){return this.applyMatrix3(A).normalize()}applyMatrix4(A){const I=this.x,C=this.y,B=this.z,Q=A.elements,E=1/(Q[3]*I+Q[7]*C+Q[11]*B+Q[15]);return this.x=(Q[0]*I+Q[4]*C+Q[8]*B+Q[12])*E,this.y=(Q[1]*I+Q[5]*C+Q[9]*B+Q[13])*E,this.z=(Q[2]*I+Q[6]*C+Q[10]*B+Q[14])*E,this}applyQuaternion(A){const I=this.x,C=this.y,B=this.z,Q=A.x,E=A.y,i=A.z,o=A.w,t=2*(E*B-i*C),e=2*(i*I-Q*B),s=2*(Q*C-E*I);return this.x=I+o*t+E*s-i*e,this.y=C+o*e+i*t-Q*s,this.z=B+o*s+Q*e-E*t,this}project(A){return this.applyMatrix4(A.matrixWorldInverse).applyMatrix4(A.projectionMatrix)}unproject(A){return this.applyMatrix4(A.projectionMatrixInverse).applyMatrix4(A.matrixWorld)}transformDirection(A){const I=this.x,C=this.y,B=this.z,Q=A.elements;return this.x=Q[0]*I+Q[4]*C+Q[8]*B,this.y=Q[1]*I+Q[5]*C+Q[9]*B,this.z=Q[2]*I+Q[6]*C+Q[10]*B,this.normalize()}divide(A){return this.x/=A.x,this.y/=A.y,this.z/=A.z,this}divideScalar(A){return this.multiplyScalar(1/A)}min(A){return this.x=Math.min(this.x,A.x),this.y=Math.min(this.y,A.y),this.z=Math.min(this.z,A.z),this}max(A){return this.x=Math.max(this.x,A.x),this.y=Math.max(this.y,A.y),this.z=Math.max(this.z,A.z),this}clamp(A,I){return this.x=sI(this.x,A.x,I.x),this.y=sI(this.y,A.y,I.y),this.z=sI(this.z,A.z,I.z),this}clampScalar(A,I){return this.x=sI(this.x,A,I),this.y=sI(this.y,A,I),this.z=sI(this.z,A,I),this}clampLength(A,I){const C=this.length();return this.divideScalar(C||1).multiplyScalar(sI(C,A,I))}floor(){return this.x=Math.floor(this.x),this.y=Math.floor(this.y),this.z=Math.floor(this.z),this}ceil(){return this.x=Math.ceil(this.x),this.y=Math.ceil(this.y),this.z=Math.ceil(this.z),this}round(){return this.x=Math.round(this.x),this.y=Math.round(this.y),this.z=Math.round(this.z),this}roundToZero(){return this.x=Math.trunc(this.x),this.y=Math.trunc(this.y),this.z=Math.trunc(this.z),this}negate(){return this.x=-this.x,this.y=-this.y,this.z=-this.z,this}dot(A){return this.x*A.x+this.y*A.y+this.z*A.z}lengthSq(){return this.x*this.x+this.y*this.y+this.z*this.z}length(){return Math.sqrt(this.x*this.x+this.y*this.y+this.z*this.z)}manhattanLength(){return Math.abs(this.x)+Math.abs(this.y)+Math.abs(this.z)}normalize(){return this.divideScalar(this.length()||1)}setLength(A){return this.normalize().multiplyScalar(A)}lerp(A,I){return this.x+=(A.x-this.x)*I,this.y+=(A.y-this.y)*I,this.z+=(A.z-this.z)*I,this}lerpVectors(A,I,C){return this.x=A.x+(I.x-A.x)*C,this.y=A.y+(I.y-A.y)*C,this.z=A.z+(I.z-A.z)*C,this}cross(A){return this.crossVectors(this,A)}crossVectors(A,I){const C=A.x,B=A.y,Q=A.z,E=I.x,i=I.y,o=I.z;return this.x=B*o-Q*i,this.y=Q*E-C*o,this.z=C*i-B*E,this}projectOnVector(A){const I=A.lengthSq();if(I===0)return this.set(0,0,0);const C=A.dot(this)/I;return this.copy(A).multiplyScalar(C)}projectOnPlane(A){return qe.copy(this).projectOnVector(A),this.sub(qe)}reflect(A){return this.sub(qe.copy(A).multiplyScalar(2*this.dot(A)))}angleTo(A){const I=Math.sqrt(this.lengthSq()*A.lengthSq());if(I===0)return Math.PI/2;const C=this.dot(A)/I;return Math.acos(sI(C,-1,1))}distanceTo(A){return Math.sqrt(this.distanceToSquared(A))}distanceToSquared(A){const I=this.x-A.x,C=this.y-A.y,B=this.z-A.z;return I*I+C*C+B*B}manhattanDistanceTo(A){return Math.abs(this.x-A.x)+Math.abs(this.y-A.y)+Math.abs(this.z-A.z)}setFromSpherical(A){return this.setFromSphericalCoords(A.radius,A.phi,A.theta)}setFromSphericalCoords(A,I,C){const B=Math.sin(I)*A;return this.x=B*Math.sin(C),this.y=Math.cos(I)*A,this.z=B*Math.cos(C),this}setFromCylindrical(A){return this.setFromCylindricalCoords(A.radius,A.theta,A.y)}setFromCylindricalCoords(A,I,C){return this.x=A*Math.sin(I),this.y=C,this.z=A*Math.cos(I),this}setFromMatrixPosition(A){const I=A.elements;return this.x=I[12],this.y=I[13],this.z=I[14],this}setFromMatrixScale(A){const I=this.setFromMatrixColumn(A,0).length(),C=this.setFromMatrixColumn(A,1).length(),B=this.setFromMatrixColumn(A,2).length();return this.x=I,this.y=C,this.z=B,this}setFromMatrixColumn(A,I){return this.fromArray(A.elements,I*4)}setFromMatrix3Column(A,I){return this.fromArray(A.elements,I*3)}setFromEuler(A){return this.x=A._x,this.y=A._y,this.z=A._z,this}setFromColor(A){return this.x=A.r,this.y=A.g,this.z=A.b,this}equals(A){return A.x===this.x&&A.y===this.y&&A.z===this.z}fromArray(A,I=0){return this.x=A[I],this.y=A[I+1],this.z=A[I+2],this}toArray(A=[],I=0){return A[I]=this.x,A[I+1]=this.y,A[I+2]=this.z,A}fromBufferAttribute(A,I){return this.x=A.getX(I),this.y=A.getY(I),this.z=A.getZ(I),this}random(){return this.x=Math.random(),this.y=Math.random(),this.z=Math.random(),this}randomDirection(){const A=Math.random()*Math.PI*2,I=Math.random()*2-1,C=Math.sqrt(1-I*I);return this.x=C*Math.cos(A),this.y=I,this.z=C*Math.sin(A),this}*[Symbol.iterator](){yield this.x,yield this.y,yield this.z}}const qe=new v,Wn=new XC;class CI{constructor(A,I,C,B,Q,E,i,o,t){CI.prototype.isMatrix3=!0,this.elements=[1,0,0,0,1,0,0,0,1],A!==void 0&&this.set(A,I,C,B,Q,E,i,o,t)}set(A,I,C,B,Q,E,i,o,t){const e=this.elements;return e[0]=A,e[1]=B,e[2]=i,e[3]=I,e[4]=Q,e[5]=o,e[6]=C,e[7]=E,e[8]=t,this}identity(){return this.set(1,0,0,0,1,0,0,0,1),this}copy(A){const I=this.elements,C=A.elements;return I[0]=C[0],I[1]=C[1],I[2]=C[2],I[3]=C[3],I[4]=C[4],I[5]=C[5],I[6]=C[6],I[7]=C[7],I[8]=C[8],this}extractBasis(A,I,C){return A.setFromMatrix3Column(this,0),I.setFromMatrix3Column(this,1),C.setFromMatrix3Column(this,2),this}setFromMatrix4(A){const I=A.elements;return this.set(I[0],I[4],I[8],I[1],I[5],I[9],I[2],I[6],I[10]),this}multiply(A){return this.multiplyMatrices(this,A)}premultiply(A){return this.multiplyMatrices(A,this)}multiplyMatrices(A,I){const C=A.elements,B=I.elements,Q=this.elements,E=C[0],i=C[3],o=C[6],t=C[1],e=C[4],s=C[7],a=C[2],D=C[5],n=C[8],c=B[0],S=B[3],r=B[6],l=B[1],y=B[4],w=B[7],N=B[2],U=B[5],F=B[8];return Q[0]=E*c+i*l+o*N,Q[3]=E*S+i*y+o*U,Q[6]=E*r+i*w+o*F,Q[1]=t*c+e*l+s*N,Q[4]=t*S+e*y+s*U,Q[7]=t*r+e*w+s*F,Q[2]=a*c+D*l+n*N,Q[5]=a*S+D*y+n*U,Q[8]=a*r+D*w+n*F,this}multiplyScalar(A){const I=this.elements;return I[0]*=A,I[3]*=A,I[6]*=A,I[1]*=A,I[4]*=A,I[7]*=A,I[2]*=A,I[5]*=A,I[8]*=A,this}determinant(){const A=this.elements,I=A[0],C=A[1],B=A[2],Q=A[3],E=A[4],i=A[5],o=A[6],t=A[7],e=A[8];return I*E*e-I*i*t-C*Q*e+C*i*o+B*Q*t-B*E*o}invert(){const A=this.elements,I=A[0],C=A[1],B=A[2],Q=A[3],E=A[4],i=A[5],o=A[6],t=A[7],e=A[8],s=e*E-i*t,a=i*o-e*Q,D=t*Q-E*o,n=I*s+C*a+B*D;if(n===0)return this.set(0,0,0,0,0,0,0,0,0);const c=1/n;return A[0]=s*c,A[1]=(B*t-e*C)*c,A[2]=(i*C-B*E)*c,A[3]=a*c,A[4]=(e*I-B*o)*c,A[5]=(B*Q-i*I)*c,A[6]=D*c,A[7]=(C*o-t*I)*c,A[8]=(E*I-C*Q)*c,this}transpose(){let A;const I=this.elements;return A=I[1],I[1]=I[3],I[3]=A,A=I[2],I[2]=I[6],I[6]=A,A=I[5],I[5]=I[7],I[7]=A,this}getNormalMatrix(A){return this.setFromMatrix4(A).invert().transpose()}transposeIntoArray(A){const I=this.elements;return A[0]=I[0],A[1]=I[3],A[2]=I[6],A[3]=I[1],A[4]=I[4],A[5]=I[7],A[6]=I[2],A[7]=I[5],A[8]=I[8],this}setUvTransform(A,I,C,B,Q,E,i){const o=Math.cos(Q),t=Math.sin(Q);return this.set(C*o,C*t,-C*(o*E+t*i)+E+A,-B*t,B*o,-B*(-t*E+o*i)+i+I,0,0,1),this}scale(A,I){return this.premultiply(fe.makeScale(A,I)),this}rotate(A){return this.premultiply(fe.makeRotation(-A)),this}translate(A,I){return this.premultiply(fe.makeTranslation(A,I)),this}makeTranslation(A,I){return A.isVector2?this.set(1,0,A.x,0,1,A.y,0,0,1):this.set(1,0,A,0,1,I,0,0,1),this}makeRotation(A){const I=Math.cos(A),C=Math.sin(A);return this.set(I,-C,0,C,I,0,0,0,1),this}makeScale(A,I){return this.set(A,0,0,0,I,0,0,0,1),this}equals(A){const I=this.elements,C=A.elements;for(let B=0;B<9;B++)if(I[B]!==C[B])return!1;return!0}fromArray(A,I=0){for(let C=0;C<9;C++)this.elements[C]=A[C+I];return this}toArray(A=[],I=0){const C=this.elements;return A[I]=C[0],A[I+1]=C[1],A[I+2]=C[2],A[I+3]=C[3],A[I+4]=C[4],A[I+5]=C[5],A[I+6]=C[6],A[I+7]=C[7],A[I+8]=C[8],A}clone(){return new this.constructor().fromArray(this.elements)}}const fe=new CI;function Ic(g){for(let A=g.length-1;A>=0;--A)if(g[A]>=65535)return!0;return!1}function dt(g){return document.createElementNS("http://www.w3.org/1999/xhtml",g)}function Jy(){const g=dt("canvas");return g.style.display="block",g}const Pn={};function Eo(g){g in Pn||(Pn[g]=!0,console.warn(g))}function Fy(g,A,I){return new Promise(function(C,B){function Q(){switch(g.clientWaitSync(A,g.SYNC_FLUSH_COMMANDS_BIT,0)){case g.WAIT_FAILED:B();break;case g.TIMEOUT_EXPIRED:setTimeout(Q,I);break;default:C()}}setTimeout(Q,I)})}const jn=new CI().set(.4123908,.3575843,.1804808,.212639,.7151687,.0721923,.0193308,.1191948,.9505322),Xn=new CI().set(3.2409699,-1.5373832,-.4986108,-.9692436,1.8759675,.0415551,.0556301,-.203977,1.0569715);function py(){const g={enabled:!0,workingColorSpace:kQ,spaces:{},convert:function(B,Q,E){return this.enabled===!1||Q===E||!Q||!E||(this.spaces[Q].transfer===YI&&(B.r=ZB(B.r),B.g=ZB(B.g),B.b=ZB(B.b)),this.spaces[Q].primaries!==this.spaces[E].primaries&&(B.applyMatrix3(this.spaces[Q].toXYZ),B.applyMatrix3(this.spaces[E].fromXYZ)),this.spaces[E].transfer===YI&&(B.r=_E(B.r),B.g=_E(B.g),B.b=_E(B.b))),B},workingToColorSpace:function(B,Q){return this.convert(B,this.workingColorSpace,Q)},colorSpaceToWorking:function(B,Q){return this.convert(B,Q,this.workingColorSpace)},getPrimaries:function(B){return this.spaces[B].primaries},getTransfer:function(B){return B===GB?pt:this.spaces[B].transfer},getToneMappingMode:function(B){return this.spaces[B].outputColorSpaceConfig.toneMappingMode||"standard"},getLuminanceCoefficients:function(B,Q=this.workingColorSpace){return B.fromArray(this.spaces[Q].luminanceCoefficients)},define:function(B){Object.assign(this.spaces,B)},_getMatrix:function(B,Q,E){return B.copy(this.spaces[Q].toXYZ).multiply(this.spaces[E].fromXYZ)},_getDrawingBufferColorSpace:function(B){return this.spaces[B].outputColorSpaceConfig.drawingBufferColorSpace},_getUnpackColorSpace:function(B=this.workingColorSpace){return this.spaces[B].workingColorSpaceConfig.unpackColorSpace},fromWorkingColorSpace:function(B,Q){return Eo("THREE.ColorManagement: .fromWorkingColorSpace() has been renamed to .workingToColorSpace()."),g.workingToColorSpace(B,Q)},toWorkingColorSpace:function(B,Q){return Eo("THREE.ColorManagement: .toWorkingColorSpace() has been renamed to .colorSpaceToWorking()."),g.colorSpaceToWorking(B,Q)}},A=[.64,.33,.3,.6,.15,.06],I=[.2126,.7152,.0722],C=[.3127,.329];return g.define({[kQ]:{primaries:A,whitePoint:C,transfer:pt,toXYZ:jn,fromXYZ:Xn,luminanceCoefficients:I,workingColorSpaceConfig:{unpackColorSpace:qI},outputColorSpaceConfig:{drawingBufferColorSpace:qI}},[qI]:{primaries:A,whitePoint:C,transfer:YI,toXYZ:jn,fromXYZ:Xn,luminanceCoefficients:I,outputColorSpaceConfig:{drawingBufferColorSpace:qI}}}),g}const kI=py();function ZB(g){return g<.04045?g*.0773993808:Math.pow(g*.9478672986+.0521327014,2.4)}function _E(g){return g<.0031308?g*12.92:1.055*Math.pow(g,.41666)-.055}let rE;class Ry{static getDataURL(A,I="image/png"){if(/^data:/i.test(A.src)||typeof HTMLCanvasElement>"u")return A.src;let C;if(A instanceof HTMLCanvasElement)C=A;else{rE===void 0&&(rE=dt("canvas")),rE.width=A.width,rE.height=A.height;const B=rE.getContext("2d");A instanceof ImageData?B.putImageData(A,0,0):B.drawImage(A,0,0,A.width,A.height),C=rE}return C.toDataURL(I)}static sRGBToLinear(A){if(typeof HTMLImageElement<"u"&&A instanceof HTMLImageElement||typeof HTMLCanvasElement<"u"&&A instanceof HTMLCanvasElement||typeof ImageBitmap<"u"&&A instanceof ImageBitmap){const I=dt("canvas");I.width=A.width,I.height=A.height;const C=I.getContext("2d");C.drawImage(A,0,0,A.width,A.height);const B=C.getImageData(0,0,A.width,A.height),Q=B.data;for(let E=0;E<Q.length;E++)Q[E]=ZB(Q[E]/255)*255;return C.putImageData(B,0,0),I}else if(A.data){const I=A.data.slice(0);for(let C=0;C<I.length;C++)I instanceof Uint8Array||I instanceof Uint8ClampedArray?I[C]=Math.floor(ZB(I[C]/255)*255):I[C]=ZB(I[C]);return{data:I,width:A.width,height:A.height}}else return console.warn("THREE.ImageUtils.sRGBToLinear(): Unsupported image type. No color space conversion applied."),A}}let dy=0;class ND{constructor(A=null){this.isSource=!0,Object.defineProperty(this,"id",{value:dy++}),this.uuid=No(),this.data=A,this.dataReady=!0,this.version=0}getSize(A){const I=this.data;return typeof HTMLVideoElement<"u"&&I instanceof HTMLVideoElement?A.set(I.videoWidth,I.videoHeight,0):I instanceof VideoFrame?A.set(I.displayHeight,I.displayWidth,0):I!==null?A.set(I.width,I.height,I.depth||0):A.set(0,0,0),A}set needsUpdate(A){A===!0&&this.version++}toJSON(A){const I=A===void 0||typeof A=="string";if(!I&&A.images[this.uuid]!==void 0)return A.images[this.uuid];const C={uuid:this.uuid,url:""},B=this.data;if(B!==null){let Q;if(Array.isArray(B)){Q=[];for(let E=0,i=B.length;E<i;E++)B[E].isDataTexture?Q.push(Le(B[E].image)):Q.push(Le(B[E]))}else Q=Le(B);C.url=Q}return I||(A.images[this.uuid]=C),C}}function Le(g){return typeof HTMLImageElement<"u"&&g instanceof HTMLImageElement||typeof HTMLCanvasElement<"u"&&g instanceof HTMLCanvasElement||typeof ImageBitmap<"u"&&g instanceof ImageBitmap?Ry.getDataURL(g):g.data?{data:Array.from(g.data),width:g.width,height:g.height,type:g.data.constructor.name}:(console.warn("THREE.Texture: Unable to serialize Texture."),{})}let Yy=0;const He=new v;class Og extends CQ{constructor(A=Og.DEFAULT_IMAGE,I=Og.DEFAULT_MAPPING,C=PQ,B=PQ,Q=DC,E=nQ,i=sB,o=Zg,t=Og.DEFAULT_ANISOTROPY,e=GB){super(),this.isTexture=!0,Object.defineProperty(this,"id",{value:Yy++}),this.uuid=No(),this.name="",this.source=new ND(A),this.mipmaps=[],this.mapping=I,this.channel=0,this.wrapS=C,this.wrapT=B,this.magFilter=Q,this.minFilter=E,this.anisotropy=t,this.format=i,this.internalFormat=null,this.type=o,this.offset=new PA(0,0),this.repeat=new PA(1,1),this.center=new PA(0,0),this.rotation=0,this.matrixAutoUpdate=!0,this.matrix=new CI,this.generateMipmaps=!0,this.premultiplyAlpha=!1,this.flipY=!0,this.unpackAlignment=4,this.colorSpace=e,this.userData={},this.updateRanges=[],this.version=0,this.onUpdate=null,this.renderTarget=null,this.isRenderTargetTexture=!1,this.isArrayTexture=!!(A&&A.depth&&A.depth>1),this.pmremVersion=0}get width(){return this.source.getSize(He).x}get height(){return this.source.getSize(He).y}get depth(){return this.source.getSize(He).z}get image(){return this.source.data}set image(A=null){this.source.data=A}updateMatrix(){this.matrix.setUvTransform(this.offset.x,this.offset.y,this.repeat.x,this.repeat.y,this.rotation,this.center.x,this.center.y)}addUpdateRange(A,I){this.updateRanges.push({start:A,count:I})}clearUpdateRanges(){this.updateRanges.length=0}clone(){return new this.constructor().copy(this)}copy(A){return this.name=A.name,this.source=A.source,this.mipmaps=A.mipmaps.slice(0),this.mapping=A.mapping,this.channel=A.channel,this.wrapS=A.wrapS,this.wrapT=A.wrapT,this.magFilter=A.magFilter,this.minFilter=A.minFilter,this.anisotropy=A.anisotropy,this.format=A.format,this.internalFormat=A.internalFormat,this.type=A.type,this.offset.copy(A.offset),this.repeat.copy(A.repeat),this.center.copy(A.center),this.rotation=A.rotation,this.matrixAutoUpdate=A.matrixAutoUpdate,this.matrix.copy(A.matrix),this.generateMipmaps=A.generateMipmaps,this.premultiplyAlpha=A.premultiplyAlpha,this.flipY=A.flipY,this.unpackAlignment=A.unpackAlignment,this.colorSpace=A.colorSpace,this.renderTarget=A.renderTarget,this.isRenderTargetTexture=A.isRenderTargetTexture,this.isArrayTexture=A.isArrayTexture,this.userData=JSON.parse(JSON.stringify(A.userData)),this.needsUpdate=!0,this}setValues(A){for(const I in A){const C=A[I];if(C===void 0){console.warn(`THREE.Texture.setValues(): parameter '${I}' has value of undefined.`);continue}const B=this[I];if(B===void 0){console.warn(`THREE.Texture.setValues(): property '${I}' does not exist.`);continue}B&&C&&B.isVector2&&C.isVector2||B&&C&&B.isVector3&&C.isVector3||B&&C&&B.isMatrix3&&C.isMatrix3?B.copy(C):this[I]=C}}toJSON(A){const I=A===void 0||typeof A=="string";if(!I&&A.textures[this.uuid]!==void 0)return A.textures[this.uuid];const C={metadata:{version:4.7,type:"Texture",generator:"Texture.toJSON"},uuid:this.uuid,name:this.name,image:this.source.toJSON(A).uuid,mapping:this.mapping,channel:this.channel,repeat:[this.repeat.x,this.repeat.y],offset:[this.offset.x,this.offset.y],center:[this.center.x,this.center.y],rotation:this.rotation,wrap:[this.wrapS,this.wrapT],format:this.format,internalFormat:this.internalFormat,type:this.type,colorSpace:this.colorSpace,minFilter:this.minFilter,magFilter:this.magFilter,anisotropy:this.anisotropy,flipY:this.flipY,generateMipmaps:this.generateMipmaps,premultiplyAlpha:this.premultiplyAlpha,unpackAlignment:this.unpackAlignment};return Object.keys(this.userData).length>0&&(C.userData=this.userData),I||(A.textures[this.uuid]=C),C}dispose(){this.dispatchEvent({type:"dispose"})}transformUv(A){if(this.mapping!==_S)return A;if(A.applyMatrix3(this.matrix),A.x<0||A.x>1)switch(this.wrapS){case Qa:A.x=A.x-Math.floor(A.x);break;case PQ:A.x=A.x<0?0:1;break;case Ea:Math.abs(Math.floor(A.x)%2)===1?A.x=Math.ceil(A.x)-A.x:A.x=A.x-Math.floor(A.x);break}if(A.y<0||A.y>1)switch(this.wrapT){case Qa:A.y=A.y-Math.floor(A.y);break;case PQ:A.y=A.y<0?0:1;break;case Ea:Math.abs(Math.floor(A.y)%2)===1?A.y=Math.ceil(A.y)-A.y:A.y=A.y-Math.floor(A.y);break}return this.flipY&&(A.y=1-A.y),A}set needsUpdate(A){A===!0&&(this.version++,this.source.needsUpdate=!0)}set needsPMREMUpdate(A){A===!0&&this.pmremVersion++}}Og.DEFAULT_IMAGE=null;Og.DEFAULT_MAPPING=_S;Og.DEFAULT_ANISOTROPY=1;class Bg{constructor(A=0,I=0,C=0,B=1){Bg.prototype.isVector4=!0,this.x=A,this.y=I,this.z=C,this.w=B}get width(){return this.z}set width(A){this.z=A}get height(){return this.w}set height(A){this.w=A}set(A,I,C,B){return this.x=A,this.y=I,this.z=C,this.w=B,this}setScalar(A){return this.x=A,this.y=A,this.z=A,this.w=A,this}setX(A){return this.x=A,this}setY(A){return this.y=A,this}setZ(A){return this.z=A,this}setW(A){return this.w=A,this}setComponent(A,I){switch(A){case 0:this.x=I;break;case 1:this.y=I;break;case 2:this.z=I;break;case 3:this.w=I;break;default:throw new Error("index is out of range: "+A)}return this}getComponent(A){switch(A){case 0:return this.x;case 1:return this.y;case 2:return this.z;case 3:return this.w;default:throw new Error("index is out of range: "+A)}}clone(){return new this.constructor(this.x,this.y,this.z,this.w)}copy(A){return this.x=A.x,this.y=A.y,this.z=A.z,this.w=A.w!==void 0?A.w:1,this}add(A){return this.x+=A.x,this.y+=A.y,this.z+=A.z,this.w+=A.w,this}addScalar(A){return this.x+=A,this.y+=A,this.z+=A,this.w+=A,this}addVectors(A,I){return this.x=A.x+I.x,this.y=A.y+I.y,this.z=A.z+I.z,this.w=A.w+I.w,this}addScaledVector(A,I){return this.x+=A.x*I,this.y+=A.y*I,this.z+=A.z*I,this.w+=A.w*I,this}sub(A){return this.x-=A.x,this.y-=A.y,this.z-=A.z,this.w-=A.w,this}subScalar(A){return this.x-=A,this.y-=A,this.z-=A,this.w-=A,this}subVectors(A,I){return this.x=A.x-I.x,this.y=A.y-I.y,this.z=A.z-I.z,this.w=A.w-I.w,this}multiply(A){return this.x*=A.x,this.y*=A.y,this.z*=A.z,this.w*=A.w,this}multiplyScalar(A){return this.x*=A,this.y*=A,this.z*=A,this.w*=A,this}applyMatrix4(A){const I=this.x,C=this.y,B=this.z,Q=this.w,E=A.elements;return this.x=E[0]*I+E[4]*C+E[8]*B+E[12]*Q,this.y=E[1]*I+E[5]*C+E[9]*B+E[13]*Q,this.z=E[2]*I+E[6]*C+E[10]*B+E[14]*Q,this.w=E[3]*I+E[7]*C+E[11]*B+E[15]*Q,this}divide(A){return this.x/=A.x,this.y/=A.y,this.z/=A.z,this.w/=A.w,this}divideScalar(A){return this.multiplyScalar(1/A)}setAxisAngleFromQuaternion(A){this.w=2*Math.acos(A.w);const I=Math.sqrt(1-A.w*A.w);return I<1e-4?(this.x=1,this.y=0,this.z=0):(this.x=A.x/I,this.y=A.y/I,this.z=A.z/I),this}setAxisAngleFromRotationMatrix(A){let I,C,B,Q;const o=A.elements,t=o[0],e=o[4],s=o[8],a=o[1],D=o[5],n=o[9],c=o[2],S=o[6],r=o[10];if(Math.abs(e-a)<.01&&Math.abs(s-c)<.01&&Math.abs(n-S)<.01){if(Math.abs(e+a)<.1&&Math.abs(s+c)<.1&&Math.abs(n+S)<.1&&Math.abs(t+D+r-3)<.1)return this.set(1,0,0,0),this;I=Math.PI;const y=(t+1)/2,w=(D+1)/2,N=(r+1)/2,U=(e+a)/4,F=(s+c)/4,p=(n+S)/4;return y>w&&y>N?y<.01?(C=0,B=.707106781,Q=.707106781):(C=Math.sqrt(y),B=U/C,Q=F/C):w>N?w<.01?(C=.707106781,B=0,Q=.707106781):(B=Math.sqrt(w),C=U/B,Q=p/B):N<.01?(C=.707106781,B=.707106781,Q=0):(Q=Math.sqrt(N),C=F/Q,B=p/Q),this.set(C,B,Q,I),this}let l=Math.sqrt((S-n)*(S-n)+(s-c)*(s-c)+(a-e)*(a-e));return Math.abs(l)<.001&&(l=1),this.x=(S-n)/l,this.y=(s-c)/l,this.z=(a-e)/l,this.w=Math.acos((t+D+r-1)/2),this}setFromMatrixPosition(A){const I=A.elements;return this.x=I[12],this.y=I[13],this.z=I[14],this.w=I[15],this}min(A){return this.x=Math.min(this.x,A.x),this.y=Math.min(this.y,A.y),this.z=Math.min(this.z,A.z),this.w=Math.min(this.w,A.w),this}max(A){return this.x=Math.max(this.x,A.x),this.y=Math.max(this.y,A.y),this.z=Math.max(this.z,A.z),this.w=Math.max(this.w,A.w),this}clamp(A,I){return this.x=sI(this.x,A.x,I.x),this.y=sI(this.y,A.y,I.y),this.z=sI(this.z,A.z,I.z),this.w=sI(this.w,A.w,I.w),this}clampScalar(A,I){return this.x=sI(this.x,A,I),this.y=sI(this.y,A,I),this.z=sI(this.z,A,I),this.w=sI(this.w,A,I),this}clampLength(A,I){const C=this.length();return this.divideScalar(C||1).multiplyScalar(sI(C,A,I))}floor(){return this.x=Math.floor(this.x),this.y=Math.floor(this.y),this.z=Math.floor(this.z),this.w=Math.floor(this.w),this}ceil(){return this.x=Math.ceil(this.x),this.y=Math.ceil(this.y),this.z=Math.ceil(this.z),this.w=Math.ceil(this.w),this}round(){return this.x=Math.round(this.x),this.y=Math.round(this.y),this.z=Math.round(this.z),this.w=Math.round(this.w),this}roundToZero(){return this.x=Math.trunc(this.x),this.y=Math.trunc(this.y),this.z=Math.trunc(this.z),this.w=Math.trunc(this.w),this}negate(){return this.x=-this.x,this.y=-this.y,this.z=-this.z,this.w=-this.w,this}dot(A){return this.x*A.x+this.y*A.y+this.z*A.z+this.w*A.w}lengthSq(){return this.x*this.x+this.y*this.y+this.z*this.z+this.w*this.w}length(){return Math.sqrt(this.x*this.x+this.y*this.y+this.z*this.z+this.w*this.w)}manhattanLength(){return Math.abs(this.x)+Math.abs(this.y)+Math.abs(this.z)+Math.abs(this.w)}normalize(){return this.divideScalar(this.length()||1)}setLength(A){return this.normalize().multiplyScalar(A)}lerp(A,I){return this.x+=(A.x-this.x)*I,this.y+=(A.y-this.y)*I,this.z+=(A.z-this.z)*I,this.w+=(A.w-this.w)*I,this}lerpVectors(A,I,C){return this.x=A.x+(I.x-A.x)*C,this.y=A.y+(I.y-A.y)*C,this.z=A.z+(I.z-A.z)*C,this.w=A.w+(I.w-A.w)*C,this}equals(A){return A.x===this.x&&A.y===this.y&&A.z===this.z&&A.w===this.w}fromArray(A,I=0){return this.x=A[I],this.y=A[I+1],this.z=A[I+2],this.w=A[I+3],this}toArray(A=[],I=0){return A[I]=this.x,A[I+1]=this.y,A[I+2]=this.z,A[I+3]=this.w,A}fromBufferAttribute(A,I){return this.x=A.getX(I),this.y=A.getY(I),this.z=A.getZ(I),this.w=A.getW(I),this}random(){return this.x=Math.random(),this.y=Math.random(),this.z=Math.random(),this.w=Math.random(),this}*[Symbol.iterator](){yield this.x,yield this.y,yield this.z,yield this.w}}class uy extends CQ{constructor(A=1,I=1,C={}){super(),C=Object.assign({generateMipmaps:!1,internalFormat:null,minFilter:DC,depthBuffer:!0,stencilBuffer:!1,resolveDepthBuffer:!0,resolveStencilBuffer:!0,depthTexture:null,samples:0,count:1,depth:1,multiview:!1},C),this.isRenderTarget=!0,this.width=A,this.height=I,this.depth=C.depth,this.scissor=new Bg(0,0,A,I),this.scissorTest=!1,this.viewport=new Bg(0,0,A,I);const B={width:A,height:I,depth:C.depth},Q=new Og(B);this.textures=[];const E=C.count;for(let i=0;i<E;i++)this.textures[i]=Q.clone(),this.textures[i].isRenderTargetTexture=!0,this.textures[i].renderTarget=this;this._setTextureOptions(C),this.depthBuffer=C.depthBuffer,this.stencilBuffer=C.stencilBuffer,this.resolveDepthBuffer=C.resolveDepthBuffer,this.resolveStencilBuffer=C.resolveStencilBuffer,this._depthTexture=null,this.depthTexture=C.depthTexture,this.samples=C.samples,this.multiview=C.multiview}_setTextureOptions(A={}){const I={minFilter:DC,generateMipmaps:!1,flipY:!1,internalFormat:null};A.mapping!==void 0&&(I.mapping=A.mapping),A.wrapS!==void 0&&(I.wrapS=A.wrapS),A.wrapT!==void 0&&(I.wrapT=A.wrapT),A.wrapR!==void 0&&(I.wrapR=A.wrapR),A.magFilter!==void 0&&(I.magFilter=A.magFilter),A.minFilter!==void 0&&(I.minFilter=A.minFilter),A.format!==void 0&&(I.format=A.format),A.type!==void 0&&(I.type=A.type),A.anisotropy!==void 0&&(I.anisotropy=A.anisotropy),A.colorSpace!==void 0&&(I.colorSpace=A.colorSpace),A.flipY!==void 0&&(I.flipY=A.flipY),A.generateMipmaps!==void 0&&(I.generateMipmaps=A.generateMipmaps),A.internalFormat!==void 0&&(I.internalFormat=A.internalFormat);for(let C=0;C<this.textures.length;C++)this.textures[C].setValues(I)}get texture(){return this.textures[0]}set texture(A){this.textures[0]=A}set depthTexture(A){this._depthTexture!==null&&(this._depthTexture.renderTarget=null),A!==null&&(A.renderTarget=this),this._depthTexture=A}get depthTexture(){return this._depthTexture}setSize(A,I,C=1){if(this.width!==A||this.height!==I||this.depth!==C){this.width=A,this.height=I,this.depth=C;for(let B=0,Q=this.textures.length;B<Q;B++)this.textures[B].image.width=A,this.textures[B].image.height=I,this.textures[B].image.depth=C,this.textures[B].isArrayTexture=this.textures[B].image.depth>1;this.dispose()}this.viewport.set(0,0,A,I),this.scissor.set(0,0,A,I)}clone(){return new this.constructor().copy(this)}copy(A){this.width=A.width,this.height=A.height,this.depth=A.depth,this.scissor.copy(A.scissor),this.scissorTest=A.scissorTest,this.viewport.copy(A.viewport),this.textures.length=0;for(let I=0,C=A.textures.length;I<C;I++){this.textures[I]=A.textures[I].clone(),this.textures[I].isRenderTargetTexture=!0,this.textures[I].renderTarget=this;const B=Object.assign({},A.textures[I].image);this.textures[I].source=new ND(B)}return this.depthBuffer=A.depthBuffer,this.stencilBuffer=A.stencilBuffer,this.resolveDepthBuffer=A.resolveDepthBuffer,this.resolveStencilBuffer=A.resolveStencilBuffer,A.depthTexture!==null&&(this.depthTexture=A.depthTexture.clone()),this.samples=A.samples,this}dispose(){this.dispatchEvent({type:"dispose"})}}class Wg extends uy{constructor(A=1,I=1,C={}){super(A,I,C),this.isWebGLRenderTarget=!0}}class gc extends Og{constructor(A=null,I=1,C=1,B=1){super(null),this.isDataArrayTexture=!0,this.image={data:A,width:I,height:C,depth:B},this.magFilter=tC,this.minFilter=tC,this.wrapR=PQ,this.generateMipmaps=!1,this.flipY=!1,this.unpackAlignment=1,this.layerUpdates=new Set}addLayerUpdate(A){this.layerUpdates.add(A)}clearLayerUpdates(){this.layerUpdates.clear()}}class qy extends Og{constructor(A=null,I=1,C=1,B=1){super(null),this.isData3DTexture=!0,this.image={data:A,width:I,height:C,depth:B},this.magFilter=tC,this.minFilter=tC,this.wrapR=PQ,this.generateMipmaps=!1,this.flipY=!1,this.unpackAlignment=1}}class tE{constructor(A=new v(1/0,1/0,1/0),I=new v(-1/0,-1/0,-1/0)){this.isBox3=!0,this.min=A,this.max=I}set(A,I){return this.min.copy(A),this.max.copy(I),this}setFromArray(A){this.makeEmpty();for(let I=0,C=A.length;I<C;I+=3)this.expandByPoint($C.fromArray(A,I));return this}setFromBufferAttribute(A){this.makeEmpty();for(let I=0,C=A.count;I<C;I++)this.expandByPoint($C.fromBufferAttribute(A,I));return this}setFromPoints(A){this.makeEmpty();for(let I=0,C=A.length;I<C;I++)this.expandByPoint(A[I]);return this}setFromCenterAndSize(A,I){const C=$C.copy(I).multiplyScalar(.5);return this.min.copy(A).sub(C),this.max.copy(A).add(C),this}setFromObject(A,I=!1){return this.makeEmpty(),this.expandByObject(A,I)}clone(){return new this.constructor().copy(this)}copy(A){return this.min.copy(A.min),this.max.copy(A.max),this}makeEmpty(){return this.min.x=this.min.y=this.min.z=1/0,this.max.x=this.max.y=this.max.z=-1/0,this}isEmpty(){return this.max.x<this.min.x||this.max.y<this.min.y||this.max.z<this.min.z}getCenter(A){return this.isEmpty()?A.set(0,0,0):A.addVectors(this.min,this.max).multiplyScalar(.5)}getSize(A){return this.isEmpty()?A.set(0,0,0):A.subVectors(this.max,this.min)}expandByPoint(A){return this.min.min(A),this.max.max(A),this}expandByVector(A){return this.min.sub(A),this.max.add(A),this}expandByScalar(A){return this.min.addScalar(-A),this.max.addScalar(A),this}expandByObject(A,I=!1){A.updateWorldMatrix(!1,!1);const C=A.geometry;if(C!==void 0){const Q=C.getAttribute("position");if(I===!0&&Q!==void 0&&A.isInstancedMesh!==!0)for(let E=0,i=Q.count;E<i;E++)A.isMesh===!0?A.getVertexPosition(E,$C):$C.fromBufferAttribute(Q,E),$C.applyMatrix4(A.matrixWorld),this.expandByPoint($C);else A.boundingBox!==void 0?(A.boundingBox===null&&A.computeBoundingBox(),xo.copy(A.boundingBox)):(C.boundingBox===null&&C.computeBoundingBox(),xo.copy(C.boundingBox)),xo.applyMatrix4(A.matrixWorld),this.union(xo)}const B=A.children;for(let Q=0,E=B.length;Q<E;Q++)this.expandByObject(B[Q],I);return this}containsPoint(A){return A.x>=this.min.x&&A.x<=this.max.x&&A.y>=this.min.y&&A.y<=this.max.y&&A.z>=this.min.z&&A.z<=this.max.z}containsBox(A){return this.min.x<=A.min.x&&A.max.x<=this.max.x&&this.min.y<=A.min.y&&A.max.y<=this.max.y&&this.min.z<=A.min.z&&A.max.z<=this.max.z}getParameter(A,I){return I.set((A.x-this.min.x)/(this.max.x-this.min.x),(A.y-this.min.y)/(this.max.y-this.min.y),(A.z-this.min.z)/(this.max.z-this.min.z))}intersectsBox(A){return A.max.x>=this.min.x&&A.min.x<=this.max.x&&A.max.y>=this.min.y&&A.min.y<=this.max.y&&A.max.z>=this.min.z&&A.min.z<=this.max.z}intersectsSphere(A){return this.clampPoint(A.center,$C),$C.distanceToSquared(A.center)<=A.radius*A.radius}intersectsPlane(A){let I,C;return A.normal.x>0?(I=A.normal.x*this.min.x,C=A.normal.x*this.max.x):(I=A.normal.x*this.max.x,C=A.normal.x*this.min.x),A.normal.y>0?(I+=A.normal.y*this.min.y,C+=A.normal.y*this.max.y):(I+=A.normal.y*this.max.y,C+=A.normal.y*this.min.y),A.normal.z>0?(I+=A.normal.z*this.min.z,C+=A.normal.z*this.max.z):(I+=A.normal.z*this.max.z,C+=A.normal.z*this.min.z),I<=-A.constant&&C>=-A.constant}intersectsTriangle(A){if(this.isEmpty())return!1;this.getCenter(Ji),bo.subVectors(this.max,Ji),hE.subVectors(A.a,Ji),SE.subVectors(A.b,Ji),cE.subVectors(A.c,Ji),BQ.subVectors(SE,hE),QQ.subVectors(cE,SE),RQ.subVectors(hE,cE);let I=[0,-BQ.z,BQ.y,0,-QQ.z,QQ.y,0,-RQ.z,RQ.y,BQ.z,0,-BQ.x,QQ.z,0,-QQ.x,RQ.z,0,-RQ.x,-BQ.y,BQ.x,0,-QQ.y,QQ.x,0,-RQ.y,RQ.x,0];return!me(I,hE,SE,cE,bo)||(I=[1,0,0,0,1,0,0,0,1],!me(I,hE,SE,cE,bo))?!1:(Oo.crossVectors(BQ,QQ),I=[Oo.x,Oo.y,Oo.z],me(I,hE,SE,cE,bo))}clampPoint(A,I){return I.copy(A).clamp(this.min,this.max)}distanceToPoint(A){return this.clampPoint(A,$C).distanceTo(A)}getBoundingSphere(A){return this.isEmpty()?A.makeEmpty():(this.getCenter(A.center),A.radius=this.getSize($C).length()*.5),A}intersect(A){return this.min.max(A.min),this.max.min(A.max),this.isEmpty()&&this.makeEmpty(),this}union(A){return this.min.min(A.min),this.max.max(A.max),this}applyMatrix4(A){return this.isEmpty()?this:(fB[0].set(this.min.x,this.min.y,this.min.z).applyMatrix4(A),fB[1].set(this.min.x,this.min.y,this.max.z).applyMatrix4(A),fB[2].set(this.min.x,this.max.y,this.min.z).applyMatrix4(A),fB[3].set(this.min.x,this.max.y,this.max.z).applyMatrix4(A),fB[4].set(this.max.x,this.min.y,this.min.z).applyMatrix4(A),fB[5].set(this.max.x,this.min.y,this.max.z).applyMatrix4(A),fB[6].set(this.max.x,this.max.y,this.min.z).applyMatrix4(A),fB[7].set(this.max.x,this.max.y,this.max.z).applyMatrix4(A),this.setFromPoints(fB),this)}translate(A){return this.min.add(A),this.max.add(A),this}equals(A){return A.min.equals(this.min)&&A.max.equals(this.max)}toJSON(){return{min:this.min.toArray(),max:this.max.toArray()}}fromJSON(A){return this.min.fromArray(A.min),this.max.fromArray(A.max),this}}const fB=[new v,new v,new v,new v,new v,new v,new v,new v],$C=new v,xo=new tE,hE=new v,SE=new v,cE=new v,BQ=new v,QQ=new v,RQ=new v,Ji=new v,bo=new v,Oo=new v,dQ=new v;function me(g,A,I,C,B){for(let Q=0,E=g.length-3;Q<=E;Q+=3){dQ.fromArray(g,Q);const i=B.x*Math.abs(dQ.x)+B.y*Math.abs(dQ.y)+B.z*Math.abs(dQ.z),o=A.dot(dQ),t=I.dot(dQ),e=C.dot(dQ);if(Math.max(-Math.max(o,t,e),Math.min(o,t,e))>i)return!1}return!0}const fy=new tE,Fi=new v,Te=new v;class Jo{constructor(A=new v,I=-1){this.isSphere=!0,this.center=A,this.radius=I}set(A,I){return this.center.copy(A),this.radius=I,this}setFromPoints(A,I){const C=this.center;I!==void 0?C.copy(I):fy.setFromPoints(A).getCenter(C);let B=0;for(let Q=0,E=A.length;Q<E;Q++)B=Math.max(B,C.distanceToSquared(A[Q]));return this.radius=Math.sqrt(B),this}copy(A){return this.center.copy(A.center),this.radius=A.radius,this}isEmpty(){return this.radius<0}makeEmpty(){return this.center.set(0,0,0),this.radius=-1,this}containsPoint(A){return A.distanceToSquared(this.center)<=this.radius*this.radius}distanceToPoint(A){return A.distanceTo(this.center)-this.radius}intersectsSphere(A){const I=this.radius+A.radius;return A.center.distanceToSquared(this.center)<=I*I}intersectsBox(A){return A.intersectsSphere(this)}intersectsPlane(A){return Math.abs(A.distanceToPoint(this.center))<=this.radius}clampPoint(A,I){const C=this.center.distanceToSquared(A);return I.copy(A),C>this.radius*this.radius&&(I.sub(this.center).normalize(),I.multiplyScalar(this.radius).add(this.center)),I}getBoundingBox(A){return this.isEmpty()?(A.makeEmpty(),A):(A.set(this.center,this.center),A.expandByScalar(this.radius),A)}applyMatrix4(A){return this.center.applyMatrix4(A),this.radius=this.radius*A.getMaxScaleOnAxis(),this}translate(A){return this.center.add(A),this}expandByPoint(A){if(this.isEmpty())return this.center.copy(A),this.radius=0,this;Fi.subVectors(A,this.center);const I=Fi.lengthSq();if(I>this.radius*this.radius){const C=Math.sqrt(I),B=(C-this.radius)*.5;this.center.addScaledVector(Fi,B/C),this.radius+=B}return this}union(A){return A.isEmpty()?this:this.isEmpty()?(this.copy(A),this):(this.center.equals(A.center)===!0?this.radius=Math.max(this.radius,A.radius):(Te.subVectors(A.center,this.center).setLength(A.radius),this.expandByPoint(Fi.copy(A.center).add(Te)),this.expandByPoint(Fi.copy(A.center).sub(Te))),this)}equals(A){return A.center.equals(this.center)&&A.radius===this.radius}clone(){return new this.constructor().copy(this)}toJSON(){return{radius:this.radius,center:this.center.toArray()}}fromJSON(A){return this.radius=A.radius,this.center.fromArray(A.center),this}}const LB=new v,xe=new v,vo=new v,EQ=new v,be=new v,_o=new v,Oe=new v;class Ly{constructor(A=new v,I=new v(0,0,-1)){this.origin=A,this.direction=I}set(A,I){return this.origin.copy(A),this.direction.copy(I),this}copy(A){return this.origin.copy(A.origin),this.direction.copy(A.direction),this}at(A,I){return I.copy(this.origin).addScaledVector(this.direction,A)}lookAt(A){return this.direction.copy(A).sub(this.origin).normalize(),this}recast(A){return this.origin.copy(this.at(A,LB)),this}closestPointToPoint(A,I){I.subVectors(A,this.origin);const C=I.dot(this.direction);return C<0?I.copy(this.origin):I.copy(this.origin).addScaledVector(this.direction,C)}distanceToPoint(A){return Math.sqrt(this.distanceSqToPoint(A))}distanceSqToPoint(A){const I=LB.subVectors(A,this.origin).dot(this.direction);return I<0?this.origin.distanceToSquared(A):(LB.copy(this.origin).addScaledVector(this.direction,I),LB.distanceToSquared(A))}distanceSqToSegment(A,I,C,B){xe.copy(A).add(I).multiplyScalar(.5),vo.copy(I).sub(A).normalize(),EQ.copy(this.origin).sub(xe);const Q=A.distanceTo(I)*.5,E=-this.direction.dot(vo),i=EQ.dot(this.direction),o=-EQ.dot(vo),t=EQ.lengthSq(),e=Math.abs(1-E*E);let s,a,D,n;if(e>0)if(s=E*o-i,a=E*i-o,n=Q*e,s>=0)if(a>=-n)if(a<=n){const c=1/e;s*=c,a*=c,D=s*(s+E*a+2*i)+a*(E*s+a+2*o)+t}else a=Q,s=Math.max(0,-(E*a+i)),D=-s*s+a*(a+2*o)+t;else a=-Q,s=Math.max(0,-(E*a+i)),D=-s*s+a*(a+2*o)+t;else a<=-n?(s=Math.max(0,-(-E*Q+i)),a=s>0?-Q:Math.min(Math.max(-Q,-o),Q),D=-s*s+a*(a+2*o)+t):a<=n?(s=0,a=Math.min(Math.max(-Q,-o),Q),D=a*(a+2*o)+t):(s=Math.max(0,-(E*Q+i)),a=s>0?Q:Math.min(Math.max(-Q,-o),Q),D=-s*s+a*(a+2*o)+t);else a=E>0?-Q:Q,s=Math.max(0,-(E*a+i)),D=-s*s+a*(a+2*o)+t;return C&&C.copy(this.origin).addScaledVector(this.direction,s),B&&B.copy(xe).addScaledVector(vo,a),D}intersectSphere(A,I){LB.subVectors(A.center,this.origin);const C=LB.dot(this.direction),B=LB.dot(LB)-C*C,Q=A.radius*A.radius;if(B>Q)return null;const E=Math.sqrt(Q-B),i=C-E,o=C+E;return o<0?null:i<0?this.at(o,I):this.at(i,I)}intersectsSphere(A){return A.radius<0?!1:this.distanceSqToPoint(A.center)<=A.radius*A.radius}distanceToPlane(A){const I=A.normal.dot(this.direction);if(I===0)return A.distanceToPoint(this.origin)===0?0:null;const C=-(this.origin.dot(A.normal)+A.constant)/I;return C>=0?C:null}intersectPlane(A,I){const C=this.distanceToPlane(A);return C===null?null:this.at(C,I)}intersectsPlane(A){const I=A.distanceToPoint(this.origin);return I===0||A.normal.dot(this.direction)*I<0}intersectBox(A,I){let C,B,Q,E,i,o;const t=1/this.direction.x,e=1/this.direction.y,s=1/this.direction.z,a=this.origin;return t>=0?(C=(A.min.x-a.x)*t,B=(A.max.x-a.x)*t):(C=(A.max.x-a.x)*t,B=(A.min.x-a.x)*t),e>=0?(Q=(A.min.y-a.y)*e,E=(A.max.y-a.y)*e):(Q=(A.max.y-a.y)*e,E=(A.min.y-a.y)*e),C>E||Q>B||((Q>C||isNaN(C))&&(C=Q),(E<B||isNaN(B))&&(B=E),s>=0?(i=(A.min.z-a.z)*s,o=(A.max.z-a.z)*s):(i=(A.max.z-a.z)*s,o=(A.min.z-a.z)*s),C>o||i>B)||((i>C||C!==C)&&(C=i),(o<B||B!==B)&&(B=o),B<0)?null:this.at(C>=0?C:B,I)}intersectsBox(A){return this.intersectBox(A,LB)!==null}intersectTriangle(A,I,C,B,Q){be.subVectors(I,A),_o.subVectors(C,A),Oe.crossVectors(be,_o);let E=this.direction.dot(Oe),i;if(E>0){if(B)return null;i=1}else if(E<0)i=-1,E=-E;else return null;EQ.subVectors(this.origin,A);const o=i*this.direction.dot(_o.crossVectors(EQ,_o));if(o<0)return null;const t=i*this.direction.dot(be.cross(EQ));if(t<0||o+t>E)return null;const e=-i*EQ.dot(Oe);return e<0?null:this.at(e/E,Q)}applyMatrix4(A){return this.origin.applyMatrix4(A),this.direction.transformDirection(A),this}equals(A){return A.origin.equals(this.origin)&&A.direction.equals(this.direction)}clone(){return new this.constructor().copy(this)}}class UI{constructor(A,I,C,B,Q,E,i,o,t,e,s,a,D,n,c,S){UI.prototype.isMatrix4=!0,this.elements=[1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1],A!==void 0&&this.set(A,I,C,B,Q,E,i,o,t,e,s,a,D,n,c,S)}set(A,I,C,B,Q,E,i,o,t,e,s,a,D,n,c,S){const r=this.elements;return r[0]=A,r[4]=I,r[8]=C,r[12]=B,r[1]=Q,r[5]=E,r[9]=i,r[13]=o,r[2]=t,r[6]=e,r[10]=s,r[14]=a,r[3]=D,r[7]=n,r[11]=c,r[15]=S,this}identity(){return this.set(1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1),this}clone(){return new UI().fromArray(this.elements)}copy(A){const I=this.elements,C=A.elements;return I[0]=C[0],I[1]=C[1],I[2]=C[2],I[3]=C[3],I[4]=C[4],I[5]=C[5],I[6]=C[6],I[7]=C[7],I[8]=C[8],I[9]=C[9],I[10]=C[10],I[11]=C[11],I[12]=C[12],I[13]=C[13],I[14]=C[14],I[15]=C[15],this}copyPosition(A){const I=this.elements,C=A.elements;return I[12]=C[12],I[13]=C[13],I[14]=C[14],this}setFromMatrix3(A){const I=A.elements;return this.set(I[0],I[3],I[6],0,I[1],I[4],I[7],0,I[2],I[5],I[8],0,0,0,0,1),this}extractBasis(A,I,C){return A.setFromMatrixColumn(this,0),I.setFromMatrixColumn(this,1),C.setFromMatrixColumn(this,2),this}makeBasis(A,I,C){return this.set(A.x,I.x,C.x,0,A.y,I.y,C.y,0,A.z,I.z,C.z,0,0,0,0,1),this}extractRotation(A){const I=this.elements,C=A.elements,B=1/wE.setFromMatrixColumn(A,0).length(),Q=1/wE.setFromMatrixColumn(A,1).length(),E=1/wE.setFromMatrixColumn(A,2).length();return I[0]=C[0]*B,I[1]=C[1]*B,I[2]=C[2]*B,I[3]=0,I[4]=C[4]*Q,I[5]=C[5]*Q,I[6]=C[6]*Q,I[7]=0,I[8]=C[8]*E,I[9]=C[9]*E,I[10]=C[10]*E,I[11]=0,I[12]=0,I[13]=0,I[14]=0,I[15]=1,this}makeRotationFromEuler(A){const I=this.elements,C=A.x,B=A.y,Q=A.z,E=Math.cos(C),i=Math.sin(C),o=Math.cos(B),t=Math.sin(B),e=Math.cos(Q),s=Math.sin(Q);if(A.order==="XYZ"){const a=E*e,D=E*s,n=i*e,c=i*s;I[0]=o*e,I[4]=-o*s,I[8]=t,I[1]=D+n*t,I[5]=a-c*t,I[9]=-i*o,I[2]=c-a*t,I[6]=n+D*t,I[10]=E*o}else if(A.order==="YXZ"){const a=o*e,D=o*s,n=t*e,c=t*s;I[0]=a+c*i,I[4]=n*i-D,I[8]=E*t,I[1]=E*s,I[5]=E*e,I[9]=-i,I[2]=D*i-n,I[6]=c+a*i,I[10]=E*o}else if(A.order==="ZXY"){const a=o*e,D=o*s,n=t*e,c=t*s;I[0]=a-c*i,I[4]=-E*s,I[8]=n+D*i,I[1]=D+n*i,I[5]=E*e,I[9]=c-a*i,I[2]=-E*t,I[6]=i,I[10]=E*o}else if(A.order==="ZYX"){const a=E*e,D=E*s,n=i*e,c=i*s;I[0]=o*e,I[4]=n*t-D,I[8]=a*t+c,I[1]=o*s,I[5]=c*t+a,I[9]=D*t-n,I[2]=-t,I[6]=i*o,I[10]=E*o}else if(A.order==="YZX"){const a=E*o,D=E*t,n=i*o,c=i*t;I[0]=o*e,I[4]=c-a*s,I[8]=n*s+D,I[1]=s,I[5]=E*e,I[9]=-i*e,I[2]=-t*e,I[6]=D*s+n,I[10]=a-c*s}else if(A.order==="XZY"){const a=E*o,D=E*t,n=i*o,c=i*t;I[0]=o*e,I[4]=-s,I[8]=t*e,I[1]=a*s+c,I[5]=E*e,I[9]=D*s-n,I[2]=n*s-D,I[6]=i*e,I[10]=c*s+a}return I[3]=0,I[7]=0,I[11]=0,I[12]=0,I[13]=0,I[14]=0,I[15]=1,this}makeRotationFromQuaternion(A){return this.compose(Hy,A,my)}lookAt(A,I,C){const B=this.elements;return yC.subVectors(A,I),yC.lengthSq()===0&&(yC.z=1),yC.normalize(),iQ.crossVectors(C,yC),iQ.lengthSq()===0&&(Math.abs(C.z)===1?yC.x+=1e-4:yC.z+=1e-4,yC.normalize(),iQ.crossVectors(C,yC)),iQ.normalize(),Zo.crossVectors(yC,iQ),B[0]=iQ.x,B[4]=Zo.x,B[8]=yC.x,B[1]=iQ.y,B[5]=Zo.y,B[9]=yC.y,B[2]=iQ.z,B[6]=Zo.z,B[10]=yC.z,this}multiply(A){return this.multiplyMatrices(this,A)}premultiply(A){return this.multiplyMatrices(A,this)}multiplyMatrices(A,I){const C=A.elements,B=I.elements,Q=this.elements,E=C[0],i=C[4],o=C[8],t=C[12],e=C[1],s=C[5],a=C[9],D=C[13],n=C[2],c=C[6],S=C[10],r=C[14],l=C[3],y=C[7],w=C[11],N=C[15],U=B[0],F=B[4],p=B[8],k=B[12],K=B[1],u=B[5],T=B[9],O=B[13],W=B[2],X=B[6],Z=B[10],CA=B[14],V=B[3],sA=B[7],rA=B[11],MA=B[15];return Q[0]=E*U+i*K+o*W+t*V,Q[4]=E*F+i*u+o*X+t*sA,Q[8]=E*p+i*T+o*Z+t*rA,Q[12]=E*k+i*O+o*CA+t*MA,Q[1]=e*U+s*K+a*W+D*V,Q[5]=e*F+s*u+a*X+D*sA,Q[9]=e*p+s*T+a*Z+D*rA,Q[13]=e*k+s*O+a*CA+D*MA,Q[2]=n*U+c*K+S*W+r*V,Q[6]=n*F+c*u+S*X+r*sA,Q[10]=n*p+c*T+S*Z+r*rA,Q[14]=n*k+c*O+S*CA+r*MA,Q[3]=l*U+y*K+w*W+N*V,Q[7]=l*F+y*u+w*X+N*sA,Q[11]=l*p+y*T+w*Z+N*rA,Q[15]=l*k+y*O+w*CA+N*MA,this}multiplyScalar(A){const I=this.elements;return I[0]*=A,I[4]*=A,I[8]*=A,I[12]*=A,I[1]*=A,I[5]*=A,I[9]*=A,I[13]*=A,I[2]*=A,I[6]*=A,I[10]*=A,I[14]*=A,I[3]*=A,I[7]*=A,I[11]*=A,I[15]*=A,this}determinant(){const A=this.elements,I=A[0],C=A[4],B=A[8],Q=A[12],E=A[1],i=A[5],o=A[9],t=A[13],e=A[2],s=A[6],a=A[10],D=A[14],n=A[3],c=A[7],S=A[11],r=A[15];return n*(+Q*o*s-B*t*s-Q*i*a+C*t*a+B*i*D-C*o*D)+c*(+I*o*D-I*t*a+Q*E*a-B*E*D+B*t*e-Q*o*e)+S*(+I*t*s-I*i*D-Q*E*s+C*E*D+Q*i*e-C*t*e)+r*(-B*i*e-I*o*s+I*i*a+B*E*s-C*E*a+C*o*e)}transpose(){const A=this.elements;let I;return I=A[1],A[1]=A[4],A[4]=I,I=A[2],A[2]=A[8],A[8]=I,I=A[6],A[6]=A[9],A[9]=I,I=A[3],A[3]=A[12],A[12]=I,I=A[7],A[7]=A[13],A[13]=I,I=A[11],A[11]=A[14],A[14]=I,this}setPosition(A,I,C){const B=this.elements;return A.isVector3?(B[12]=A.x,B[13]=A.y,B[14]=A.z):(B[12]=A,B[13]=I,B[14]=C),this}invert(){const A=this.elements,I=A[0],C=A[1],B=A[2],Q=A[3],E=A[4],i=A[5],o=A[6],t=A[7],e=A[8],s=A[9],a=A[10],D=A[11],n=A[12],c=A[13],S=A[14],r=A[15],l=s*S*t-c*a*t+c*o*D-i*S*D-s*o*r+i*a*r,y=n*a*t-e*S*t-n*o*D+E*S*D+e*o*r-E*a*r,w=e*c*t-n*s*t+n*i*D-E*c*D-e*i*r+E*s*r,N=n*s*o-e*c*o-n*i*a+E*c*a+e*i*S-E*s*S,U=I*l+C*y+B*w+Q*N;if(U===0)return this.set(0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0);const F=1/U;return A[0]=l*F,A[1]=(c*a*Q-s*S*Q-c*B*D+C*S*D+s*B*r-C*a*r)*F,A[2]=(i*S*Q-c*o*Q+c*B*t-C*S*t-i*B*r+C*o*r)*F,A[3]=(s*o*Q-i*a*Q-s*B*t+C*a*t+i*B*D-C*o*D)*F,A[4]=y*F,A[5]=(e*S*Q-n*a*Q+n*B*D-I*S*D-e*B*r+I*a*r)*F,A[6]=(n*o*Q-E*S*Q-n*B*t+I*S*t+E*B*r-I*o*r)*F,A[7]=(E*a*Q-e*o*Q+e*B*t-I*a*t-E*B*D+I*o*D)*F,A[8]=w*F,A[9]=(n*s*Q-e*c*Q-n*C*D+I*c*D+e*C*r-I*s*r)*F,A[10]=(E*c*Q-n*i*Q+n*C*t-I*c*t-E*C*r+I*i*r)*F,A[11]=(e*i*Q-E*s*Q-e*C*t+I*s*t+E*C*D-I*i*D)*F,A[12]=N*F,A[13]=(e*c*B-n*s*B+n*C*a-I*c*a-e*C*S+I*s*S)*F,A[14]=(n*i*B-E*c*B-n*C*o+I*c*o+E*C*S-I*i*S)*F,A[15]=(E*s*B-e*i*B+e*C*o-I*s*o-E*C*a+I*i*a)*F,this}scale(A){const I=this.elements,C=A.x,B=A.y,Q=A.z;return I[0]*=C,I[4]*=B,I[8]*=Q,I[1]*=C,I[5]*=B,I[9]*=Q,I[2]*=C,I[6]*=B,I[10]*=Q,I[3]*=C,I[7]*=B,I[11]*=Q,this}getMaxScaleOnAxis(){const A=this.elements,I=A[0]*A[0]+A[1]*A[1]+A[2]*A[2],C=A[4]*A[4]+A[5]*A[5]+A[6]*A[6],B=A[8]*A[8]+A[9]*A[9]+A[10]*A[10];return Math.sqrt(Math.max(I,C,B))}makeTranslation(A,I,C){return A.isVector3?this.set(1,0,0,A.x,0,1,0,A.y,0,0,1,A.z,0,0,0,1):this.set(1,0,0,A,0,1,0,I,0,0,1,C,0,0,0,1),this}makeRotationX(A){const I=Math.cos(A),C=Math.sin(A);return this.set(1,0,0,0,0,I,-C,0,0,C,I,0,0,0,0,1),this}makeRotationY(A){const I=Math.cos(A),C=Math.sin(A);return this.set(I,0,C,0,0,1,0,0,-C,0,I,0,0,0,0,1),this}makeRotationZ(A){const I=Math.cos(A),C=Math.sin(A);return this.set(I,-C,0,0,C,I,0,0,0,0,1,0,0,0,0,1),this}makeRotationAxis(A,I){const C=Math.cos(I),B=Math.sin(I),Q=1-C,E=A.x,i=A.y,o=A.z,t=Q*E,e=Q*i;return this.set(t*E+C,t*i-B*o,t*o+B*i,0,t*i+B*o,e*i+C,e*o-B*E,0,t*o-B*i,e*o+B*E,Q*o*o+C,0,0,0,0,1),this}makeScale(A,I,C){return this.set(A,0,0,0,0,I,0,0,0,0,C,0,0,0,0,1),this}makeShear(A,I,C,B,Q,E){return this.set(1,C,Q,0,A,1,E,0,I,B,1,0,0,0,0,1),this}compose(A,I,C){const B=this.elements,Q=I._x,E=I._y,i=I._z,o=I._w,t=Q+Q,e=E+E,s=i+i,a=Q*t,D=Q*e,n=Q*s,c=E*e,S=E*s,r=i*s,l=o*t,y=o*e,w=o*s,N=C.x,U=C.y,F=C.z;return B[0]=(1-(c+r))*N,B[1]=(D+w)*N,B[2]=(n-y)*N,B[3]=0,B[4]=(D-w)*U,B[5]=(1-(a+r))*U,B[6]=(S+l)*U,B[7]=0,B[8]=(n+y)*F,B[9]=(S-l)*F,B[10]=(1-(a+c))*F,B[11]=0,B[12]=A.x,B[13]=A.y,B[14]=A.z,B[15]=1,this}decompose(A,I,C){const B=this.elements;let Q=wE.set(B[0],B[1],B[2]).length();const E=wE.set(B[4],B[5],B[6]).length(),i=wE.set(B[8],B[9],B[10]).length();this.determinant()<0&&(Q=-Q),A.x=B[12],A.y=B[13],A.z=B[14],AB.copy(this);const t=1/Q,e=1/E,s=1/i;return AB.elements[0]*=t,AB.elements[1]*=t,AB.elements[2]*=t,AB.elements[4]*=e,AB.elements[5]*=e,AB.elements[6]*=e,AB.elements[8]*=s,AB.elements[9]*=s,AB.elements[10]*=s,I.setFromRotationMatrix(AB),C.x=Q,C.y=E,C.z=i,this}makePerspective(A,I,C,B,Q,E,i=UB,o=!1){const t=this.elements,e=2*Q/(I-A),s=2*Q/(C-B),a=(I+A)/(I-A),D=(C+B)/(C-B);let n,c;if(o)n=Q/(E-Q),c=E*Q/(E-Q);else if(i===UB)n=-(E+Q)/(E-Q),c=-2*E*Q/(E-Q);else if(i===Rt)n=-E/(E-Q),c=-E*Q/(E-Q);else throw new Error("THREE.Matrix4.makePerspective(): Invalid coordinate system: "+i);return t[0]=e,t[4]=0,t[8]=a,t[12]=0,t[1]=0,t[5]=s,t[9]=D,t[13]=0,t[2]=0,t[6]=0,t[10]=n,t[14]=c,t[3]=0,t[7]=0,t[11]=-1,t[15]=0,this}makeOrthographic(A,I,C,B,Q,E,i=UB,o=!1){const t=this.elements,e=2/(I-A),s=2/(C-B),a=-(I+A)/(I-A),D=-(C+B)/(C-B);let n,c;if(o)n=1/(E-Q),c=E/(E-Q);else if(i===UB)n=-2/(E-Q),c=-(E+Q)/(E-Q);else if(i===Rt)n=-1/(E-Q),c=-Q/(E-Q);else throw new Error("THREE.Matrix4.makeOrthographic(): Invalid coordinate system: "+i);return t[0]=e,t[4]=0,t[8]=0,t[12]=a,t[1]=0,t[5]=s,t[9]=0,t[13]=D,t[2]=0,t[6]=0,t[10]=n,t[14]=c,t[3]=0,t[7]=0,t[11]=0,t[15]=1,this}equals(A){const I=this.elements,C=A.elements;for(let B=0;B<16;B++)if(I[B]!==C[B])return!1;return!0}fromArray(A,I=0){for(let C=0;C<16;C++)this.elements[C]=A[C+I];return this}toArray(A=[],I=0){const C=this.elements;return A[I]=C[0],A[I+1]=C[1],A[I+2]=C[2],A[I+3]=C[3],A[I+4]=C[4],A[I+5]=C[5],A[I+6]=C[6],A[I+7]=C[7],A[I+8]=C[8],A[I+9]=C[9],A[I+10]=C[10],A[I+11]=C[11],A[I+12]=C[12],A[I+13]=C[13],A[I+14]=C[14],A[I+15]=C[15],A}}const wE=new v,AB=new UI,Hy=new v(0,0,0),my=new v(1,1,1),iQ=new v,Zo=new v,yC=new v,Vn=new UI,zn=new XC;class fC{constructor(A=0,I=0,C=0,B=fC.DEFAULT_ORDER){this.isEuler=!0,this._x=A,this._y=I,this._z=C,this._order=B}get x(){return this._x}set x(A){this._x=A,this._onChangeCallback()}get y(){return this._y}set y(A){this._y=A,this._onChangeCallback()}get z(){return this._z}set z(A){this._z=A,this._onChangeCallback()}get order(){return this._order}set order(A){this._order=A,this._onChangeCallback()}set(A,I,C,B=this._order){return this._x=A,this._y=I,this._z=C,this._order=B,this._onChangeCallback(),this}clone(){return new this.constructor(this._x,this._y,this._z,this._order)}copy(A){return this._x=A._x,this._y=A._y,this._z=A._z,this._order=A._order,this._onChangeCallback(),this}setFromRotationMatrix(A,I=this._order,C=!0){const B=A.elements,Q=B[0],E=B[4],i=B[8],o=B[1],t=B[5],e=B[9],s=B[2],a=B[6],D=B[10];switch(I){case"XYZ":this._y=Math.asin(sI(i,-1,1)),Math.abs(i)<.9999999?(this._x=Math.atan2(-e,D),this._z=Math.atan2(-E,Q)):(this._x=Math.atan2(a,t),this._z=0);break;case"YXZ":this._x=Math.asin(-sI(e,-1,1)),Math.abs(e)<.9999999?(this._y=Math.atan2(i,D),this._z=Math.atan2(o,t)):(this._y=Math.atan2(-s,Q),this._z=0);break;case"ZXY":this._x=Math.asin(sI(a,-1,1)),Math.abs(a)<.9999999?(this._y=Math.atan2(-s,D),this._z=Math.atan2(-E,t)):(this._y=0,this._z=Math.atan2(o,Q));break;case"ZYX":this._y=Math.asin(-sI(s,-1,1)),Math.abs(s)<.9999999?(this._x=Math.atan2(a,D),this._z=Math.atan2(o,Q)):(this._x=0,this._z=Math.atan2(-E,t));break;case"YZX":this._z=Math.asin(sI(o,-1,1)),Math.abs(o)<.9999999?(this._x=Math.atan2(-e,t),this._y=Math.atan2(-s,Q)):(this._x=0,this._y=Math.atan2(i,D));break;case"XZY":this._z=Math.asin(-sI(E,-1,1)),Math.abs(E)<.9999999?(this._x=Math.atan2(a,t),this._y=Math.atan2(i,Q)):(this._x=Math.atan2(-e,D),this._y=0);break;default:console.warn("THREE.Euler: .setFromRotationMatrix() encountered an unknown order: "+I)}return this._order=I,C===!0&&this._onChangeCallback(),this}setFromQuaternion(A,I,C){return Vn.makeRotationFromQuaternion(A),this.setFromRotationMatrix(Vn,I,C)}setFromVector3(A,I=this._order){return this.set(A.x,A.y,A.z,I)}reorder(A){return zn.setFromEuler(this),this.setFromQuaternion(zn,A)}equals(A){return A._x===this._x&&A._y===this._y&&A._z===this._z&&A._order===this._order}fromArray(A){return this._x=A[0],this._y=A[1],this._z=A[2],A[3]!==void 0&&(this._order=A[3]),this._onChangeCallback(),this}toArray(A=[],I=0){return A[I]=this._x,A[I+1]=this._y,A[I+2]=this._z,A[I+3]=this._order,A}_onChange(A){return this._onChangeCallback=A,this}_onChangeCallback(){}*[Symbol.iterator](){yield this._x,yield this._y,yield this._z,yield this._order}}fC.DEFAULT_ORDER="XYZ";class Cc{constructor(){this.mask=1}set(A){this.mask=(1<<A|0)>>>0}enable(A){this.mask|=1<<A|0}enableAll(){this.mask=-1}toggle(A){this.mask^=1<<A|0}disable(A){this.mask&=~(1<<A|0)}disableAll(){this.mask=0}test(A){return(this.mask&A.mask)!==0}isEnabled(A){return(this.mask&(1<<A|0))!==0}}let Ty=0;const $n=new v,lE=new XC,HB=new UI,Wo=new v,pi=new v,xy=new v,by=new XC,Ar=new v(1,0,0),Ir=new v(0,1,0),gr=new v(0,0,1),Cr={type:"added"},Oy={type:"removed"},GE={type:"childadded",child:null},ve={type:"childremoved",child:null};class vg extends CQ{constructor(){super(),this.isObject3D=!0,Object.defineProperty(this,"id",{value:Ty++}),this.uuid=No(),this.name="",this.type="Object3D",this.parent=null,this.children=[],this.up=vg.DEFAULT_UP.clone();const A=new v,I=new fC,C=new XC,B=new v(1,1,1);function Q(){C.setFromEuler(I,!1)}function E(){I.setFromQuaternion(C,void 0,!1)}I._onChange(Q),C._onChange(E),Object.defineProperties(this,{position:{configurable:!0,enumerable:!0,value:A},rotation:{configurable:!0,enumerable:!0,value:I},quaternion:{configurable:!0,enumerable:!0,value:C},scale:{configurable:!0,enumerable:!0,value:B},modelViewMatrix:{value:new UI},normalMatrix:{value:new CI}}),this.matrix=new UI,this.matrixWorld=new UI,this.matrixAutoUpdate=vg.DEFAULT_MATRIX_AUTO_UPDATE,this.matrixWorldAutoUpdate=vg.DEFAULT_MATRIX_WORLD_AUTO_UPDATE,this.matrixWorldNeedsUpdate=!1,this.layers=new Cc,this.visible=!0,this.castShadow=!1,this.receiveShadow=!1,this.frustumCulled=!0,this.renderOrder=0,this.animations=[],this.customDepthMaterial=void 0,this.customDistanceMaterial=void 0,this.userData={}}onBeforeShadow(){}onAfterShadow(){}onBeforeRender(){}onAfterRender(){}applyMatrix4(A){this.matrixAutoUpdate&&this.updateMatrix(),this.matrix.premultiply(A),this.matrix.decompose(this.position,this.quaternion,this.scale)}applyQuaternion(A){return this.quaternion.premultiply(A),this}setRotationFromAxisAngle(A,I){this.quaternion.setFromAxisAngle(A,I)}setRotationFromEuler(A){this.quaternion.setFromEuler(A,!0)}setRotationFromMatrix(A){this.quaternion.setFromRotationMatrix(A)}setRotationFromQuaternion(A){this.quaternion.copy(A)}rotateOnAxis(A,I){return lE.setFromAxisAngle(A,I),this.quaternion.multiply(lE),this}rotateOnWorldAxis(A,I){return lE.setFromAxisAngle(A,I),this.quaternion.premultiply(lE),this}rotateX(A){return this.rotateOnAxis(Ar,A)}rotateY(A){return this.rotateOnAxis(Ir,A)}rotateZ(A){return this.rotateOnAxis(gr,A)}translateOnAxis(A,I){return $n.copy(A).applyQuaternion(this.quaternion),this.position.add($n.multiplyScalar(I)),this}translateX(A){return this.translateOnAxis(Ar,A)}translateY(A){return this.translateOnAxis(Ir,A)}translateZ(A){return this.translateOnAxis(gr,A)}localToWorld(A){return this.updateWorldMatrix(!0,!1),A.applyMatrix4(this.matrixWorld)}worldToLocal(A){return this.updateWorldMatrix(!0,!1),A.applyMatrix4(HB.copy(this.matrixWorld).invert())}lookAt(A,I,C){A.isVector3?Wo.copy(A):Wo.set(A,I,C);const B=this.parent;this.updateWorldMatrix(!0,!1),pi.setFromMatrixPosition(this.matrixWorld),this.isCamera||this.isLight?HB.lookAt(pi,Wo,this.up):HB.lookAt(Wo,pi,this.up),this.quaternion.setFromRotationMatrix(HB),B&&(HB.extractRotation(B.matrixWorld),lE.setFromRotationMatrix(HB),this.quaternion.premultiply(lE.invert()))}add(A){if(arguments.length>1){for(let I=0;I<arguments.length;I++)this.add(arguments[I]);return this}return A===this?(console.error("THREE.Object3D.add: object can't be added as a child of itself.",A),this):(A&&A.isObject3D?(A.removeFromParent(),A.parent=this,this.children.push(A),A.dispatchEvent(Cr),GE.child=A,this.dispatchEvent(GE),GE.child=null):console.error("THREE.Object3D.add: object not an instance of THREE.Object3D.",A),this)}remove(A){if(arguments.length>1){for(let C=0;C<arguments.length;C++)this.remove(arguments[C]);return this}const I=this.children.indexOf(A);return I!==-1&&(A.parent=null,this.children.splice(I,1),A.dispatchEvent(Oy),ve.child=A,this.dispatchEvent(ve),ve.child=null),this}removeFromParent(){const A=this.parent;return A!==null&&A.remove(this),this}clear(){return this.remove(...this.children)}attach(A){return this.updateWorldMatrix(!0,!1),HB.copy(this.matrixWorld).invert(),A.parent!==null&&(A.parent.updateWorldMatrix(!0,!1),HB.multiply(A.parent.matrixWorld)),A.applyMatrix4(HB),A.removeFromParent(),A.parent=this,this.children.push(A),A.updateWorldMatrix(!1,!0),A.dispatchEvent(Cr),GE.child=A,this.dispatchEvent(GE),GE.child=null,this}getObjectById(A){return this.getObjectByProperty("id",A)}getObjectByName(A){return this.getObjectByProperty("name",A)}getObjectByProperty(A,I){if(this[A]===I)return this;for(let C=0,B=this.children.length;C<B;C++){const E=this.children[C].getObjectByProperty(A,I);if(E!==void 0)return E}}getObjectsByProperty(A,I,C=[]){this[A]===I&&C.push(this);const B=this.children;for(let Q=0,E=B.length;Q<E;Q++)B[Q].getObjectsByProperty(A,I,C);return C}getWorldPosition(A){return this.updateWorldMatrix(!0,!1),A.setFromMatrixPosition(this.matrixWorld)}getWorldQuaternion(A){return this.updateWorldMatrix(!0,!1),this.matrixWorld.decompose(pi,A,xy),A}getWorldScale(A){return this.updateWorldMatrix(!0,!1),this.matrixWorld.decompose(pi,by,A),A}getWorldDirection(A){this.updateWorldMatrix(!0,!1);const I=this.matrixWorld.elements;return A.set(I[8],I[9],I[10]).normalize()}raycast(){}traverse(A){A(this);const I=this.children;for(let C=0,B=I.length;C<B;C++)I[C].traverse(A)}traverseVisible(A){if(this.visible===!1)return;A(this);const I=this.children;for(let C=0,B=I.length;C<B;C++)I[C].traverseVisible(A)}traverseAncestors(A){const I=this.parent;I!==null&&(A(I),I.traverseAncestors(A))}updateMatrix(){this.matrix.compose(this.position,this.quaternion,this.scale),this.matrixWorldNeedsUpdate=!0}updateMatrixWorld(A){this.matrixAutoUpdate&&this.updateMatrix(),(this.matrixWorldNeedsUpdate||A)&&(this.matrixWorldAutoUpdate===!0&&(this.parent===null?this.matrixWorld.copy(this.matrix):this.matrixWorld.multiplyMatrices(this.parent.matrixWorld,this.matrix)),this.matrixWorldNeedsUpdate=!1,A=!0);const I=this.children;for(let C=0,B=I.length;C<B;C++)I[C].updateMatrixWorld(A)}updateWorldMatrix(A,I){const C=this.parent;if(A===!0&&C!==null&&C.updateWorldMatrix(!0,!1),this.matrixAutoUpdate&&this.updateMatrix(),this.matrixWorldAutoUpdate===!0&&(this.parent===null?this.matrixWorld.copy(this.matrix):this.matrixWorld.multiplyMatrices(this.parent.matrixWorld,this.matrix)),I===!0){const B=this.children;for(let Q=0,E=B.length;Q<E;Q++)B[Q].updateWorldMatrix(!1,!0)}}toJSON(A){const I=A===void 0||typeof A=="string",C={};I&&(A={geometries:{},materials:{},textures:{},images:{},shapes:{},skeletons:{},animations:{},nodes:{}},C.metadata={version:4.7,type:"Object",generator:"Object3D.toJSON"});const B={};B.uuid=this.uuid,B.type=this.type,this.name!==""&&(B.name=this.name),this.castShadow===!0&&(B.castShadow=!0),this.receiveShadow===!0&&(B.receiveShadow=!0),this.visible===!1&&(B.visible=!1),this.frustumCulled===!1&&(B.frustumCulled=!1),this.renderOrder!==0&&(B.renderOrder=this.renderOrder),Object.keys(this.userData).length>0&&(B.userData=this.userData),B.layers=this.layers.mask,B.matrix=this.matrix.toArray(),B.up=this.up.toArray(),this.matrixAutoUpdate===!1&&(B.matrixAutoUpdate=!1),this.isInstancedMesh&&(B.type="InstancedMesh",B.count=this.count,B.instanceMatrix=this.instanceMatrix.toJSON(),this.instanceColor!==null&&(B.instanceColor=this.instanceColor.toJSON())),this.isBatchedMesh&&(B.type="BatchedMesh",B.perObjectFrustumCulled=this.perObjectFrustumCulled,B.sortObjects=this.sortObjects,B.drawRanges=this._drawRanges,B.reservedRanges=this._reservedRanges,B.geometryInfo=this._geometryInfo.map(i=>({...i,boundingBox:i.boundingBox?i.boundingBox.toJSON():void 0,boundingSphere:i.boundingSphere?i.boundingSphere.toJSON():void 0})),B.instanceInfo=this._instanceInfo.map(i=>({...i})),B.availableInstanceIds=this._availableInstanceIds.slice(),B.availableGeometryIds=this._availableGeometryIds.slice(),B.nextIndexStart=this._nextIndexStart,B.nextVertexStart=this._nextVertexStart,B.geometryCount=this._geometryCount,B.maxInstanceCount=this._maxInstanceCount,B.maxVertexCount=this._maxVertexCount,B.maxIndexCount=this._maxIndexCount,B.geometryInitialized=this._geometryInitialized,B.matricesTexture=this._matricesTexture.toJSON(A),B.indirectTexture=this._indirectTexture.toJSON(A),this._colorsTexture!==null&&(B.colorsTexture=this._colorsTexture.toJSON(A)),this.boundingSphere!==null&&(B.boundingSphere=this.boundingSphere.toJSON()),this.boundingBox!==null&&(B.boundingBox=this.boundingBox.toJSON()));function Q(i,o){return i[o.uuid]===void 0&&(i[o.uuid]=o.toJSON(A)),o.uuid}if(this.isScene)this.background&&(this.background.isColor?B.background=this.background.toJSON():this.background.isTexture&&(B.background=this.background.toJSON(A).uuid)),this.environment&&this.environment.isTexture&&this.environment.isRenderTargetTexture!==!0&&(B.environment=this.environment.toJSON(A).uuid);else if(this.isMesh||this.isLine||this.isPoints){B.geometry=Q(A.geometries,this.geometry);const i=this.geometry.parameters;if(i!==void 0&&i.shapes!==void 0){const o=i.shapes;if(Array.isArray(o))for(let t=0,e=o.length;t<e;t++){const s=o[t];Q(A.shapes,s)}else Q(A.shapes,o)}}if(this.isSkinnedMesh&&(B.bindMode=this.bindMode,B.bindMatrix=this.bindMatrix.toArray(),this.skeleton!==void 0&&(Q(A.skeletons,this.skeleton),B.skeleton=this.skeleton.uuid)),this.material!==void 0)if(Array.isArray(this.material)){const i=[];for(let o=0,t=this.material.length;o<t;o++)i.push(Q(A.materials,this.material[o]));B.material=i}else B.material=Q(A.materials,this.material);if(this.children.length>0){B.children=[];for(let i=0;i<this.children.length;i++)B.children.push(this.children[i].toJSON(A).object)}if(this.animations.length>0){B.animations=[];for(let i=0;i<this.animations.length;i++){const o=this.animations[i];B.animations.push(Q(A.animations,o))}}if(I){const i=E(A.geometries),o=E(A.materials),t=E(A.textures),e=E(A.images),s=E(A.shapes),a=E(A.skeletons),D=E(A.animations),n=E(A.nodes);i.length>0&&(C.geometries=i),o.length>0&&(C.materials=o),t.length>0&&(C.textures=t),e.length>0&&(C.images=e),s.length>0&&(C.shapes=s),a.length>0&&(C.skeletons=a),D.length>0&&(C.animations=D),n.length>0&&(C.nodes=n)}return C.object=B,C;function E(i){const o=[];for(const t in i){const e=i[t];delete e.metadata,o.push(e)}return o}}clone(A){return new this.constructor().copy(this,A)}copy(A,I=!0){if(this.name=A.name,this.up.copy(A.up),this.position.copy(A.position),this.rotation.order=A.rotation.order,this.quaternion.copy(A.quaternion),this.scale.copy(A.scale),this.matrix.copy(A.matrix),this.matrixWorld.copy(A.matrixWorld),this.matrixAutoUpdate=A.matrixAutoUpdate,this.matrixWorldAutoUpdate=A.matrixWorldAutoUpdate,this.matrixWorldNeedsUpdate=A.matrixWorldNeedsUpdate,this.layers.mask=A.layers.mask,this.visible=A.visible,this.castShadow=A.castShadow,this.receiveShadow=A.receiveShadow,this.frustumCulled=A.frustumCulled,this.renderOrder=A.renderOrder,this.animations=A.animations.slice(),this.userData=JSON.parse(JSON.stringify(A.userData)),I===!0)for(let C=0;C<A.children.length;C++){const B=A.children[C];this.add(B.clone())}return this}}vg.DEFAULT_UP=new v(0,1,0);vg.DEFAULT_MATRIX_AUTO_UPDATE=!0;vg.DEFAULT_MATRIX_WORLD_AUTO_UPDATE=!0;const IB=new v,mB=new v,_e=new v,TB=new v,yE=new v,kE=new v,Br=new v,Ze=new v,We=new v,Pe=new v,je=new Bg,Xe=new Bg,Ve=new Bg;class eB{constructor(A=new v,I=new v,C=new v){this.a=A,this.b=I,this.c=C}static getNormal(A,I,C,B){B.subVectors(C,I),IB.subVectors(A,I),B.cross(IB);const Q=B.lengthSq();return Q>0?B.multiplyScalar(1/Math.sqrt(Q)):B.set(0,0,0)}static getBarycoord(A,I,C,B,Q){IB.subVectors(B,I),mB.subVectors(C,I),_e.subVectors(A,I);const E=IB.dot(IB),i=IB.dot(mB),o=IB.dot(_e),t=mB.dot(mB),e=mB.dot(_e),s=E*t-i*i;if(s===0)return Q.set(0,0,0),null;const a=1/s,D=(t*o-i*e)*a,n=(E*e-i*o)*a;return Q.set(1-D-n,n,D)}static containsPoint(A,I,C,B){return this.getBarycoord(A,I,C,B,TB)===null?!1:TB.x>=0&&TB.y>=0&&TB.x+TB.y<=1}static getInterpolation(A,I,C,B,Q,E,i,o){return this.getBarycoord(A,I,C,B,TB)===null?(o.x=0,o.y=0,"z"in o&&(o.z=0),"w"in o&&(o.w=0),null):(o.setScalar(0),o.addScaledVector(Q,TB.x),o.addScaledVector(E,TB.y),o.addScaledVector(i,TB.z),o)}static getInterpolatedAttribute(A,I,C,B,Q,E){return je.setScalar(0),Xe.setScalar(0),Ve.setScalar(0),je.fromBufferAttribute(A,I),Xe.fromBufferAttribute(A,C),Ve.fromBufferAttribute(A,B),E.setScalar(0),E.addScaledVector(je,Q.x),E.addScaledVector(Xe,Q.y),E.addScaledVector(Ve,Q.z),E}static isFrontFacing(A,I,C,B){return IB.subVectors(C,I),mB.subVectors(A,I),IB.cross(mB).dot(B)<0}set(A,I,C){return this.a.copy(A),this.b.copy(I),this.c.copy(C),this}setFromPointsAndIndices(A,I,C,B){return this.a.copy(A[I]),this.b.copy(A[C]),this.c.copy(A[B]),this}setFromAttributeAndIndices(A,I,C,B){return this.a.fromBufferAttribute(A,I),this.b.fromBufferAttribute(A,C),this.c.fromBufferAttribute(A,B),this}clone(){return new this.constructor().copy(this)}copy(A){return this.a.copy(A.a),this.b.copy(A.b),this.c.copy(A.c),this}getArea(){return IB.subVectors(this.c,this.b),mB.subVectors(this.a,this.b),IB.cross(mB).length()*.5}getMidpoint(A){return A.addVectors(this.a,this.b).add(this.c).multiplyScalar(1/3)}getNormal(A){return eB.getNormal(this.a,this.b,this.c,A)}getPlane(A){return A.setFromCoplanarPoints(this.a,this.b,this.c)}getBarycoord(A,I){return eB.getBarycoord(A,this.a,this.b,this.c,I)}getInterpolation(A,I,C,B,Q){return eB.getInterpolation(A,this.a,this.b,this.c,I,C,B,Q)}containsPoint(A){return eB.containsPoint(A,this.a,this.b,this.c)}isFrontFacing(A){return eB.isFrontFacing(this.a,this.b,this.c,A)}intersectsBox(A){return A.intersectsTriangle(this)}closestPointToPoint(A,I){const C=this.a,B=this.b,Q=this.c;let E,i;yE.subVectors(B,C),kE.subVectors(Q,C),Ze.subVectors(A,C);const o=yE.dot(Ze),t=kE.dot(Ze);if(o<=0&&t<=0)return I.copy(C);We.subVectors(A,B);const e=yE.dot(We),s=kE.dot(We);if(e>=0&&s<=e)return I.copy(B);const a=o*s-e*t;if(a<=0&&o>=0&&e<=0)return E=o/(o-e),I.copy(C).addScaledVector(yE,E);Pe.subVectors(A,Q);const D=yE.dot(Pe),n=kE.dot(Pe);if(n>=0&&D<=n)return I.copy(Q);const c=D*t-o*n;if(c<=0&&t>=0&&n<=0)return i=t/(t-n),I.copy(C).addScaledVector(kE,i);const S=e*n-D*s;if(S<=0&&s-e>=0&&D-n>=0)return Br.subVectors(Q,B),i=(s-e)/(s-e+(D-n)),I.copy(B).addScaledVector(Br,i);const r=1/(S+c+a);return E=c*r,i=a*r,I.copy(C).addScaledVector(yE,E).addScaledVector(kE,i)}equals(A){return A.a.equals(this.a)&&A.b.equals(this.b)&&A.c.equals(this.c)}}const Bc={aliceblue:15792383,antiquewhite:16444375,aqua:65535,aquamarine:8388564,azure:15794175,beige:16119260,bisque:16770244,black:0,blanchedalmond:16772045,blue:255,blueviolet:9055202,brown:10824234,burlywood:14596231,cadetblue:6266528,chartreuse:8388352,chocolate:13789470,coral:16744272,cornflowerblue:6591981,cornsilk:16775388,crimson:14423100,cyan:65535,darkblue:139,darkcyan:35723,darkgoldenrod:12092939,darkgray:11119017,darkgreen:25600,darkgrey:11119017,darkkhaki:12433259,darkmagenta:9109643,darkolivegreen:5597999,darkorange:16747520,darkorchid:10040012,darkred:9109504,darksalmon:15308410,darkseagreen:9419919,darkslateblue:4734347,darkslategray:3100495,darkslategrey:3100495,darkturquoise:52945,darkviolet:9699539,deeppink:16716947,deepskyblue:49151,dimgray:6908265,dimgrey:6908265,dodgerblue:2003199,firebrick:11674146,floralwhite:16775920,forestgreen:2263842,fuchsia:16711935,gainsboro:14474460,ghostwhite:16316671,gold:16766720,goldenrod:14329120,gray:8421504,green:32768,greenyellow:11403055,grey:8421504,honeydew:15794160,hotpink:16738740,indianred:13458524,indigo:4915330,ivory:16777200,khaki:15787660,lavender:15132410,lavenderblush:16773365,lawngreen:8190976,lemonchiffon:16775885,lightblue:11393254,lightcoral:15761536,lightcyan:14745599,lightgoldenrodyellow:16448210,lightgray:13882323,lightgreen:9498256,lightgrey:13882323,lightpink:16758465,lightsalmon:16752762,lightseagreen:2142890,lightskyblue:8900346,lightslategray:7833753,lightslategrey:7833753,lightsteelblue:11584734,lightyellow:16777184,lime:65280,limegreen:3329330,linen:16445670,magenta:16711935,maroon:8388608,mediumaquamarine:6737322,mediumblue:205,mediumorchid:12211667,mediumpurple:9662683,mediumseagreen:3978097,mediumslateblue:8087790,mediumspringgreen:64154,mediumturquoise:4772300,mediumvioletred:13047173,midnightblue:1644912,mintcream:16121850,mistyrose:16770273,moccasin:16770229,navajowhite:16768685,navy:128,oldlace:16643558,olive:8421376,olivedrab:7048739,orange:16753920,orangered:16729344,orchid:14315734,palegoldenrod:15657130,palegreen:10025880,paleturquoise:11529966,palevioletred:14381203,papayawhip:16773077,peachpuff:16767673,peru:13468991,pink:16761035,plum:14524637,powderblue:11591910,purple:8388736,rebeccapurple:6697881,red:16711680,rosybrown:12357519,royalblue:4286945,saddlebrown:9127187,salmon:16416882,sandybrown:16032864,seagreen:3050327,seashell:16774638,sienna:10506797,silver:12632256,skyblue:8900331,slateblue:6970061,slategray:7372944,slategrey:7372944,snow:16775930,springgreen:65407,steelblue:4620980,tan:13808780,teal:32896,thistle:14204888,tomato:16737095,turquoise:4251856,violet:15631086,wheat:16113331,white:16777215,whitesmoke:16119285,yellow:16776960,yellowgreen:10145074},oQ={h:0,s:0,l:0},Po={h:0,s:0,l:0};function ze(g,A,I){return I<0&&(I+=1),I>1&&(I-=1),I<1/6?g+(A-g)*6*I:I<1/2?A:I<2/3?g+(A-g)*6*(2/3-I):g}class cI{constructor(A,I,C){return this.isColor=!0,this.r=1,this.g=1,this.b=1,this.set(A,I,C)}set(A,I,C){if(I===void 0&&C===void 0){const B=A;B&&B.isColor?this.copy(B):typeof B=="number"?this.setHex(B):typeof B=="string"&&this.setStyle(B)}else this.setRGB(A,I,C);return this}setScalar(A){return this.r=A,this.g=A,this.b=A,this}setHex(A,I=qI){return A=Math.floor(A),this.r=(A>>16&255)/255,this.g=(A>>8&255)/255,this.b=(A&255)/255,kI.colorSpaceToWorking(this,I),this}setRGB(A,I,C,B=kI.workingColorSpace){return this.r=A,this.g=I,this.b=C,kI.colorSpaceToWorking(this,B),this}setHSL(A,I,C,B=kI.workingColorSpace){if(A=Ny(A,1),I=sI(I,0,1),C=sI(C,0,1),I===0)this.r=this.g=this.b=C;else{const Q=C<=.5?C*(1+I):C+I-C*I,E=2*C-Q;this.r=ze(E,Q,A+1/3),this.g=ze(E,Q,A),this.b=ze(E,Q,A-1/3)}return kI.colorSpaceToWorking(this,B),this}setStyle(A,I=qI){function C(Q){Q!==void 0&&parseFloat(Q)<1&&console.warn("THREE.Color: Alpha component of "+A+" will be ignored.")}let B;if(B=/^(\w+)\(([^\)]*)\)/.exec(A)){let Q;const E=B[1],i=B[2];switch(E){case"rgb":case"rgba":if(Q=/^\s*(\d+)\s*,\s*(\d+)\s*,\s*(\d+)\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec(i))return C(Q[4]),this.setRGB(Math.min(255,parseInt(Q[1],10))/255,Math.min(255,parseInt(Q[2],10))/255,Math.min(255,parseInt(Q[3],10))/255,I);if(Q=/^\s*(\d+)\%\s*,\s*(\d+)\%\s*,\s*(\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec(i))return C(Q[4]),this.setRGB(Math.min(100,parseInt(Q[1],10))/100,Math.min(100,parseInt(Q[2],10))/100,Math.min(100,parseInt(Q[3],10))/100,I);break;case"hsl":case"hsla":if(Q=/^\s*(\d*\.?\d+)\s*,\s*(\d*\.?\d+)\%\s*,\s*(\d*\.?\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec(i))return C(Q[4]),this.setHSL(parseFloat(Q[1])/360,parseFloat(Q[2])/100,parseFloat(Q[3])/100,I);break;default:console.warn("THREE.Color: Unknown color model "+A)}}else if(B=/^\#([A-Fa-f\d]+)$/.exec(A)){const Q=B[1],E=Q.length;if(E===3)return this.setRGB(parseInt(Q.charAt(0),16)/15,parseInt(Q.charAt(1),16)/15,parseInt(Q.charAt(2),16)/15,I);if(E===6)return this.setHex(parseInt(Q,16),I);console.warn("THREE.Color: Invalid hex color "+A)}else if(A&&A.length>0)return this.setColorName(A,I);return this}setColorName(A,I=qI){const C=Bc[A.toLowerCase()];return C!==void 0?this.setHex(C,I):console.warn("THREE.Color: Unknown color "+A),this}clone(){return new this.constructor(this.r,this.g,this.b)}copy(A){return this.r=A.r,this.g=A.g,this.b=A.b,this}copySRGBToLinear(A){return this.r=ZB(A.r),this.g=ZB(A.g),this.b=ZB(A.b),this}copyLinearToSRGB(A){return this.r=_E(A.r),this.g=_E(A.g),this.b=_E(A.b),this}convertSRGBToLinear(){return this.copySRGBToLinear(this),this}convertLinearToSRGB(){return this.copyLinearToSRGB(this),this}getHex(A=qI){return kI.workingToColorSpace(Xg.copy(this),A),Math.round(sI(Xg.r*255,0,255))*65536+Math.round(sI(Xg.g*255,0,255))*256+Math.round(sI(Xg.b*255,0,255))}getHexString(A=qI){return("000000"+this.getHex(A).toString(16)).slice(-6)}getHSL(A,I=kI.workingColorSpace){kI.workingToColorSpace(Xg.copy(this),I);const C=Xg.r,B=Xg.g,Q=Xg.b,E=Math.max(C,B,Q),i=Math.min(C,B,Q);let o,t;const e=(i+E)/2;if(i===E)o=0,t=0;else{const s=E-i;switch(t=e<=.5?s/(E+i):s/(2-E-i),E){case C:o=(B-Q)/s+(B<Q?6:0);break;case B:o=(Q-C)/s+2;break;case Q:o=(C-B)/s+4;break}o/=6}return A.h=o,A.s=t,A.l=e,A}getRGB(A,I=kI.workingColorSpace){return kI.workingToColorSpace(Xg.copy(this),I),A.r=Xg.r,A.g=Xg.g,A.b=Xg.b,A}getStyle(A=qI){kI.workingToColorSpace(Xg.copy(this),A);const I=Xg.r,C=Xg.g,B=Xg.b;return A!==qI?`color(${A} ${I.toFixed(3)} ${C.toFixed(3)} ${B.toFixed(3)})`:`rgb(${Math.round(I*255)},${Math.round(C*255)},${Math.round(B*255)})`}offsetHSL(A,I,C){return this.getHSL(oQ),this.setHSL(oQ.h+A,oQ.s+I,oQ.l+C)}add(A){return this.r+=A.r,this.g+=A.g,this.b+=A.b,this}addColors(A,I){return this.r=A.r+I.r,this.g=A.g+I.g,this.b=A.b+I.b,this}addScalar(A){return this.r+=A,this.g+=A,this.b+=A,this}sub(A){return this.r=Math.max(0,this.r-A.r),this.g=Math.max(0,this.g-A.g),this.b=Math.max(0,this.b-A.b),this}multiply(A){return this.r*=A.r,this.g*=A.g,this.b*=A.b,this}multiplyScalar(A){return this.r*=A,this.g*=A,this.b*=A,this}lerp(A,I){return this.r+=(A.r-this.r)*I,this.g+=(A.g-this.g)*I,this.b+=(A.b-this.b)*I,this}lerpColors(A,I,C){return this.r=A.r+(I.r-A.r)*C,this.g=A.g+(I.g-A.g)*C,this.b=A.b+(I.b-A.b)*C,this}lerpHSL(A,I){this.getHSL(oQ),A.getHSL(Po);const C=ue(oQ.h,Po.h,I),B=ue(oQ.s,Po.s,I),Q=ue(oQ.l,Po.l,I);return this.setHSL(C,B,Q),this}setFromVector3(A){return this.r=A.x,this.g=A.y,this.b=A.z,this}applyMatrix3(A){const I=this.r,C=this.g,B=this.b,Q=A.elements;return this.r=Q[0]*I+Q[3]*C+Q[6]*B,this.g=Q[1]*I+Q[4]*C+Q[7]*B,this.b=Q[2]*I+Q[5]*C+Q[8]*B,this}equals(A){return A.r===this.r&&A.g===this.g&&A.b===this.b}fromArray(A,I=0){return this.r=A[I],this.g=A[I+1],this.b=A[I+2],this}toArray(A=[],I=0){return A[I]=this.r,A[I+1]=this.g,A[I+2]=this.b,A}fromBufferAttribute(A,I){return this.r=A.getX(I),this.g=A.getY(I),this.b=A.getZ(I),this}toJSON(){return this.getHex()}*[Symbol.iterator](){yield this.r,yield this.g,yield this.b}}const Xg=new cI;cI.NAMES=Bc;let vy=0;class eE extends CQ{constructor(){super(),this.isMaterial=!0,Object.defineProperty(this,"id",{value:vy++}),this.uuid=No(),this.name="",this.type="Material",this.blending=vE,this.side=jB,this.vertexColors=!1,this.opacity=1,this.transparent=!1,this.alphaHash=!1,this.blendSrc=Ps,this.blendDst=js,this.blendEquation=vQ,this.blendSrcAlpha=null,this.blendDstAlpha=null,this.blendEquationAlpha=null,this.blendColor=new cI(0,0,0),this.blendAlpha=0,this.depthFunc=gi,this.depthTest=!0,this.depthWrite=!0,this.stencilWriteMask=255,this.stencilFunc=vn,this.stencilRef=0,this.stencilFuncMask=255,this.stencilFail=nE,this.stencilZFail=nE,this.stencilZPass=nE,this.stencilWrite=!1,this.clippingPlanes=null,this.clipIntersection=!1,this.clipShadows=!1,this.shadowSide=null,this.colorWrite=!0,this.precision=null,this.polygonOffset=!1,this.polygonOffsetFactor=0,this.polygonOffsetUnits=0,this.dithering=!1,this.alphaToCoverage=!1,this.premultipliedAlpha=!1,this.forceSinglePass=!1,this.allowOverride=!0,this.visible=!0,this.toneMapped=!0,this.userData={},this.version=0,this._alphaTest=0}get alphaTest(){return this._alphaTest}set alphaTest(A){this._alphaTest>0!=A>0&&this.version++,this._alphaTest=A}onBeforeRender(){}onBeforeCompile(){}customProgramCacheKey(){return this.onBeforeCompile.toString()}setValues(A){if(A!==void 0)for(const I in A){const C=A[I];if(C===void 0){console.warn(`THREE.Material: parameter '${I}' has value of undefined.`);continue}const B=this[I];if(B===void 0){console.warn(`THREE.Material: '${I}' is not a property of THREE.${this.type}.`);continue}B&&B.isColor?B.set(C):B&&B.isVector3&&C&&C.isVector3?B.copy(C):this[I]=C}}toJSON(A){const I=A===void 0||typeof A=="string";I&&(A={textures:{},images:{}});const C={metadata:{version:4.7,type:"Material",generator:"Material.toJSON"}};C.uuid=this.uuid,C.type=this.type,this.name!==""&&(C.name=this.name),this.color&&this.color.isColor&&(C.color=this.color.getHex()),this.roughness!==void 0&&(C.roughness=this.roughness),this.metalness!==void 0&&(C.metalness=this.metalness),this.sheen!==void 0&&(C.sheen=this.sheen),this.sheenColor&&this.sheenColor.isColor&&(C.sheenColor=this.sheenColor.getHex()),this.sheenRoughness!==void 0&&(C.sheenRoughness=this.sheenRoughness),this.emissive&&this.emissive.isColor&&(C.emissive=this.emissive.getHex()),this.emissiveIntensity!==void 0&&this.emissiveIntensity!==1&&(C.emissiveIntensity=this.emissiveIntensity),this.specular&&this.specular.isColor&&(C.specular=this.specular.getHex()),this.specularIntensity!==void 0&&(C.specularIntensity=this.specularIntensity),this.specularColor&&this.specularColor.isColor&&(C.specularColor=this.specularColor.getHex()),this.shininess!==void 0&&(C.shininess=this.shininess),this.clearcoat!==void 0&&(C.clearcoat=this.clearcoat),this.clearcoatRoughness!==void 0&&(C.clearcoatRoughness=this.clearcoatRoughness),this.clearcoatMap&&this.clearcoatMap.isTexture&&(C.clearcoatMap=this.clearcoatMap.toJSON(A).uuid),this.clearcoatRoughnessMap&&this.clearcoatRoughnessMap.isTexture&&(C.clearcoatRoughnessMap=this.clearcoatRoughnessMap.toJSON(A).uuid),this.clearcoatNormalMap&&this.clearcoatNormalMap.isTexture&&(C.clearcoatNormalMap=this.clearcoatNormalMap.toJSON(A).uuid,C.clearcoatNormalScale=this.clearcoatNormalScale.toArray()),this.sheenColorMap&&this.sheenColorMap.isTexture&&(C.sheenColorMap=this.sheenColorMap.toJSON(A).uuid),this.sheenRoughnessMap&&this.sheenRoughnessMap.isTexture&&(C.sheenRoughnessMap=this.sheenRoughnessMap.toJSON(A).uuid),this.dispersion!==void 0&&(C.dispersion=this.dispersion),this.iridescence!==void 0&&(C.iridescence=this.iridescence),this.iridescenceIOR!==void 0&&(C.iridescenceIOR=this.iridescenceIOR),this.iridescenceThicknessRange!==void 0&&(C.iridescenceThicknessRange=this.iridescenceThicknessRange),this.iridescenceMap&&this.iridescenceMap.isTexture&&(C.iridescenceMap=this.iridescenceMap.toJSON(A).uuid),this.iridescenceThicknessMap&&this.iridescenceThicknessMap.isTexture&&(C.iridescenceThicknessMap=this.iridescenceThicknessMap.toJSON(A).uuid),this.anisotropy!==void 0&&(C.anisotropy=this.anisotropy),this.anisotropyRotation!==void 0&&(C.anisotropyRotation=this.anisotropyRotation),this.anisotropyMap&&this.anisotropyMap.isTexture&&(C.anisotropyMap=this.anisotropyMap.toJSON(A).uuid),this.map&&this.map.isTexture&&(C.map=this.map.toJSON(A).uuid),this.matcap&&this.matcap.isTexture&&(C.matcap=this.matcap.toJSON(A).uuid),this.alphaMap&&this.alphaMap.isTexture&&(C.alphaMap=this.alphaMap.toJSON(A).uuid),this.lightMap&&this.lightMap.isTexture&&(C.lightMap=this.lightMap.toJSON(A).uuid,C.lightMapIntensity=this.lightMapIntensity),this.aoMap&&this.aoMap.isTexture&&(C.aoMap=this.aoMap.toJSON(A).uuid,C.aoMapIntensity=this.aoMapIntensity),this.bumpMap&&this.bumpMap.isTexture&&(C.bumpMap=this.bumpMap.toJSON(A).uuid,C.bumpScale=this.bumpScale),this.normalMap&&this.normalMap.isTexture&&(C.normalMap=this.normalMap.toJSON(A).uuid,C.normalMapType=this.normalMapType,C.normalScale=this.normalScale.toArray()),this.displacementMap&&this.displacementMap.isTexture&&(C.displacementMap=this.displacementMap.toJSON(A).uuid,C.displacementScale=this.displacementScale,C.displacementBias=this.displacementBias),this.roughnessMap&&this.roughnessMap.isTexture&&(C.roughnessMap=this.roughnessMap.toJSON(A).uuid),this.metalnessMap&&this.metalnessMap.isTexture&&(C.metalnessMap=this.metalnessMap.toJSON(A).uuid),this.emissiveMap&&this.emissiveMap.isTexture&&(C.emissiveMap=this.emissiveMap.toJSON(A).uuid),this.specularMap&&this.specularMap.isTexture&&(C.specularMap=this.specularMap.toJSON(A).uuid),this.specularIntensityMap&&this.specularIntensityMap.isTexture&&(C.specularIntensityMap=this.specularIntensityMap.toJSON(A).uuid),this.specularColorMap&&this.specularColorMap.isTexture&&(C.specularColorMap=this.specularColorMap.toJSON(A).uuid),this.envMap&&this.envMap.isTexture&&(C.envMap=this.envMap.toJSON(A).uuid,this.combine!==void 0&&(C.combine=this.combine)),this.envMapRotation!==void 0&&(C.envMapRotation=this.envMapRotation.toArray()),this.envMapIntensity!==void 0&&(C.envMapIntensity=this.envMapIntensity),this.reflectivity!==void 0&&(C.reflectivity=this.reflectivity),this.refractionRatio!==void 0&&(C.refractionRatio=this.refractionRatio),this.gradientMap&&this.gradientMap.isTexture&&(C.gradientMap=this.gradientMap.toJSON(A).uuid),this.transmission!==void 0&&(C.transmission=this.transmission),this.transmissionMap&&this.transmissionMap.isTexture&&(C.transmissionMap=this.transmissionMap.toJSON(A).uuid),this.thickness!==void 0&&(C.thickness=this.thickness),this.thicknessMap&&this.thicknessMap.isTexture&&(C.thicknessMap=this.thicknessMap.toJSON(A).uuid),this.attenuationDistance!==void 0&&this.attenuationDistance!==1/0&&(C.attenuationDistance=this.attenuationDistance),this.attenuationColor!==void 0&&(C.attenuationColor=this.attenuationColor.getHex()),this.size!==void 0&&(C.size=this.size),this.shadowSide!==null&&(C.shadowSide=this.shadowSide),this.sizeAttenuation!==void 0&&(C.sizeAttenuation=this.sizeAttenuation),this.blending!==vE&&(C.blending=this.blending),this.side!==jB&&(C.side=this.side),this.vertexColors===!0&&(C.vertexColors=!0),this.opacity<1&&(C.opacity=this.opacity),this.transparent===!0&&(C.transparent=!0),this.blendSrc!==Ps&&(C.blendSrc=this.blendSrc),this.blendDst!==js&&(C.blendDst=this.blendDst),this.blendEquation!==vQ&&(C.blendEquation=this.blendEquation),this.blendSrcAlpha!==null&&(C.blendSrcAlpha=this.blendSrcAlpha),this.blendDstAlpha!==null&&(C.blendDstAlpha=this.blendDstAlpha),this.blendEquationAlpha!==null&&(C.blendEquationAlpha=this.blendEquationAlpha),this.blendColor&&this.blendColor.isColor&&(C.blendColor=this.blendColor.getHex()),this.blendAlpha!==0&&(C.blendAlpha=this.blendAlpha),this.depthFunc!==gi&&(C.depthFunc=this.depthFunc),this.depthTest===!1&&(C.depthTest=this.depthTest),this.depthWrite===!1&&(C.depthWrite=this.depthWrite),this.colorWrite===!1&&(C.colorWrite=this.colorWrite),this.stencilWriteMask!==255&&(C.stencilWriteMask=this.stencilWriteMask),this.stencilFunc!==vn&&(C.stencilFunc=this.stencilFunc),this.stencilRef!==0&&(C.stencilRef=this.stencilRef),this.stencilFuncMask!==255&&(C.stencilFuncMask=this.stencilFuncMask),this.stencilFail!==nE&&(C.stencilFail=this.stencilFail),this.stencilZFail!==nE&&(C.stencilZFail=this.stencilZFail),this.stencilZPass!==nE&&(C.stencilZPass=this.stencilZPass),this.stencilWrite===!0&&(C.stencilWrite=this.stencilWrite),this.rotation!==void 0&&this.rotation!==0&&(C.rotation=this.rotation),this.polygonOffset===!0&&(C.polygonOffset=!0),this.polygonOffsetFactor!==0&&(C.polygonOffsetFactor=this.polygonOffsetFactor),this.polygonOffsetUnits!==0&&(C.polygonOffsetUnits=this.polygonOffsetUnits),this.linewidth!==void 0&&this.linewidth!==1&&(C.linewidth=this.linewidth),this.dashSize!==void 0&&(C.dashSize=this.dashSize),this.gapSize!==void 0&&(C.gapSize=this.gapSize),this.scale!==void 0&&(C.scale=this.scale),this.dithering===!0&&(C.dithering=!0),this.alphaTest>0&&(C.alphaTest=this.alphaTest),this.alphaHash===!0&&(C.alphaHash=!0),this.alphaToCoverage===!0&&(C.alphaToCoverage=!0),this.premultipliedAlpha===!0&&(C.premultipliedAlpha=!0),this.forceSinglePass===!0&&(C.forceSinglePass=!0),this.wireframe===!0&&(C.wireframe=!0),this.wireframeLinewidth>1&&(C.wireframeLinewidth=this.wireframeLinewidth),this.wireframeLinecap!=="round"&&(C.wireframeLinecap=this.wireframeLinecap),this.wireframeLinejoin!=="round"&&(C.wireframeLinejoin=this.wireframeLinejoin),this.flatShading===!0&&(C.flatShading=!0),this.visible===!1&&(C.visible=!1),this.toneMapped===!1&&(C.toneMapped=!1),this.fog===!1&&(C.fog=!1),Object.keys(this.userData).length>0&&(C.userData=this.userData);function B(Q){const E=[];for(const i in Q){const o=Q[i];delete o.metadata,E.push(o)}return E}if(I){const Q=B(A.textures),E=B(A.images);Q.length>0&&(C.textures=Q),E.length>0&&(C.images=E)}return C}clone(){return new this.constructor().copy(this)}copy(A){this.name=A.name,this.blending=A.blending,this.side=A.side,this.vertexColors=A.vertexColors,this.opacity=A.opacity,this.transparent=A.transparent,this.blendSrc=A.blendSrc,this.blendDst=A.blendDst,this.blendEquation=A.blendEquation,this.blendSrcAlpha=A.blendSrcAlpha,this.blendDstAlpha=A.blendDstAlpha,this.blendEquationAlpha=A.blendEquationAlpha,this.blendColor.copy(A.blendColor),this.blendAlpha=A.blendAlpha,this.depthFunc=A.depthFunc,this.depthTest=A.depthTest,this.depthWrite=A.depthWrite,this.stencilWriteMask=A.stencilWriteMask,this.stencilFunc=A.stencilFunc,this.stencilRef=A.stencilRef,this.stencilFuncMask=A.stencilFuncMask,this.stencilFail=A.stencilFail,this.stencilZFail=A.stencilZFail,this.stencilZPass=A.stencilZPass,this.stencilWrite=A.stencilWrite;const I=A.clippingPlanes;let C=null;if(I!==null){const B=I.length;C=new Array(B);for(let Q=0;Q!==B;++Q)C[Q]=I[Q].clone()}return this.clippingPlanes=C,this.clipIntersection=A.clipIntersection,this.clipShadows=A.clipShadows,this.shadowSide=A.shadowSide,this.colorWrite=A.colorWrite,this.precision=A.precision,this.polygonOffset=A.polygonOffset,this.polygonOffsetFactor=A.polygonOffsetFactor,this.polygonOffsetUnits=A.polygonOffsetUnits,this.dithering=A.dithering,this.alphaTest=A.alphaTest,this.alphaHash=A.alphaHash,this.alphaToCoverage=A.alphaToCoverage,this.premultipliedAlpha=A.premultipliedAlpha,this.forceSinglePass=A.forceSinglePass,this.visible=A.visible,this.toneMapped=A.toneMapped,this.userData=JSON.parse(JSON.stringify(A.userData)),this}dispose(){this.dispatchEvent({type:"dispose"})}set needsUpdate(A){A===!0&&this.version++}}class Qc extends eE{constructor(A){super(),this.isMeshBasicMaterial=!0,this.type="MeshBasicMaterial",this.color=new cI(16777215),this.map=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.specularMap=null,this.alphaMap=null,this.envMap=null,this.envMapRotation=new fC,this.combine=vS,this.reflectivity=1,this.refractionRatio=.98,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.color.copy(A.color),this.map=A.map,this.lightMap=A.lightMap,this.lightMapIntensity=A.lightMapIntensity,this.aoMap=A.aoMap,this.aoMapIntensity=A.aoMapIntensity,this.specularMap=A.specularMap,this.alphaMap=A.alphaMap,this.envMap=A.envMap,this.envMapRotation.copy(A.envMapRotation),this.combine=A.combine,this.reflectivity=A.reflectivity,this.refractionRatio=A.refractionRatio,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.wireframeLinecap=A.wireframeLinecap,this.wireframeLinejoin=A.wireframeLinejoin,this.fog=A.fog,this}}const Gg=new v,jo=new PA;let _y=0;class dC{constructor(A,I,C=!1){if(Array.isArray(A))throw new TypeError("THREE.BufferAttribute: array should be a Typed Array.");this.isBufferAttribute=!0,Object.defineProperty(this,"id",{value:_y++}),this.name="",this.array=A,this.itemSize=I,this.count=A!==void 0?A.length/I:0,this.normalized=C,this.usage=_n,this.updateRanges=[],this.gpuType=MB,this.version=0}onUploadCallback(){}set needsUpdate(A){A===!0&&this.version++}setUsage(A){return this.usage=A,this}addUpdateRange(A,I){this.updateRanges.push({start:A,count:I})}clearUpdateRanges(){this.updateRanges.length=0}copy(A){return this.name=A.name,this.array=new A.array.constructor(A.array),this.itemSize=A.itemSize,this.count=A.count,this.normalized=A.normalized,this.usage=A.usage,this.gpuType=A.gpuType,this}copyAt(A,I,C){A*=this.itemSize,C*=I.itemSize;for(let B=0,Q=this.itemSize;B<Q;B++)this.array[A+B]=I.array[C+B];return this}copyArray(A){return this.array.set(A),this}applyMatrix3(A){if(this.itemSize===2)for(let I=0,C=this.count;I<C;I++)jo.fromBufferAttribute(this,I),jo.applyMatrix3(A),this.setXY(I,jo.x,jo.y);else if(this.itemSize===3)for(let I=0,C=this.count;I<C;I++)Gg.fromBufferAttribute(this,I),Gg.applyMatrix3(A),this.setXYZ(I,Gg.x,Gg.y,Gg.z);return this}applyMatrix4(A){for(let I=0,C=this.count;I<C;I++)Gg.fromBufferAttribute(this,I),Gg.applyMatrix4(A),this.setXYZ(I,Gg.x,Gg.y,Gg.z);return this}applyNormalMatrix(A){for(let I=0,C=this.count;I<C;I++)Gg.fromBufferAttribute(this,I),Gg.applyNormalMatrix(A),this.setXYZ(I,Gg.x,Gg.y,Gg.z);return this}transformDirection(A){for(let I=0,C=this.count;I<C;I++)Gg.fromBufferAttribute(this,I),Gg.transformDirection(A),this.setXYZ(I,Gg.x,Gg.y,Gg.z);return this}set(A,I=0){return this.array.set(A,I),this}getComponent(A,I){let C=this.array[A*this.itemSize+I];return this.normalized&&(C=Ni(C,this.array)),C}setComponent(A,I,C){return this.normalized&&(C=sC(C,this.array)),this.array[A*this.itemSize+I]=C,this}getX(A){let I=this.array[A*this.itemSize];return this.normalized&&(I=Ni(I,this.array)),I}setX(A,I){return this.normalized&&(I=sC(I,this.array)),this.array[A*this.itemSize]=I,this}getY(A){let I=this.array[A*this.itemSize+1];return this.normalized&&(I=Ni(I,this.array)),I}setY(A,I){return this.normalized&&(I=sC(I,this.array)),this.array[A*this.itemSize+1]=I,this}getZ(A){let I=this.array[A*this.itemSize+2];return this.normalized&&(I=Ni(I,this.array)),I}setZ(A,I){return this.normalized&&(I=sC(I,this.array)),this.array[A*this.itemSize+2]=I,this}getW(A){let I=this.array[A*this.itemSize+3];return this.normalized&&(I=Ni(I,this.array)),I}setW(A,I){return this.normalized&&(I=sC(I,this.array)),this.array[A*this.itemSize+3]=I,this}setXY(A,I,C){return A*=this.itemSize,this.normalized&&(I=sC(I,this.array),C=sC(C,this.array)),this.array[A+0]=I,this.array[A+1]=C,this}setXYZ(A,I,C,B){return A*=this.itemSize,this.normalized&&(I=sC(I,this.array),C=sC(C,this.array),B=sC(B,this.array)),this.array[A+0]=I,this.array[A+1]=C,this.array[A+2]=B,this}setXYZW(A,I,C,B,Q){return A*=this.itemSize,this.normalized&&(I=sC(I,this.array),C=sC(C,this.array),B=sC(B,this.array),Q=sC(Q,this.array)),this.array[A+0]=I,this.array[A+1]=C,this.array[A+2]=B,this.array[A+3]=Q,this}onUpload(A){return this.onUploadCallback=A,this}clone(){return new this.constructor(this.array,this.itemSize).copy(this)}toJSON(){const A={itemSize:this.itemSize,type:this.array.constructor.name,array:Array.from(this.array),normalized:this.normalized};return this.name!==""&&(A.name=this.name),this.usage!==_n&&(A.usage=this.usage),A}}class Ec extends dC{constructor(A,I,C){super(new Uint16Array(A),I,C)}}class ic extends dC{constructor(A,I,C){super(new Uint32Array(A),I,C)}}class YC extends dC{constructor(A,I,C){super(new Float32Array(A),I,C)}}let Zy=0;const bC=new UI,$e=new vg,ME=new v,kC=new tE,Ri=new tE,ug=new v;class YB extends CQ{constructor(){super(),this.isBufferGeometry=!0,Object.defineProperty(this,"id",{value:Zy++}),this.uuid=No(),this.name="",this.type="BufferGeometry",this.index=null,this.indirect=null,this.attributes={},this.morphAttributes={},this.morphTargetsRelative=!1,this.groups=[],this.boundingBox=null,this.boundingSphere=null,this.drawRange={start:0,count:1/0},this.userData={}}getIndex(){return this.index}setIndex(A){return Array.isArray(A)?this.index=new(Ic(A)?ic:Ec)(A,1):this.index=A,this}setIndirect(A){return this.indirect=A,this}getIndirect(){return this.indirect}getAttribute(A){return this.attributes[A]}setAttribute(A,I){return this.attributes[A]=I,this}deleteAttribute(A){return delete this.attributes[A],this}hasAttribute(A){return this.attributes[A]!==void 0}addGroup(A,I,C=0){this.groups.push({start:A,count:I,materialIndex:C})}clearGroups(){this.groups=[]}setDrawRange(A,I){this.drawRange.start=A,this.drawRange.count=I}applyMatrix4(A){const I=this.attributes.position;I!==void 0&&(I.applyMatrix4(A),I.needsUpdate=!0);const C=this.attributes.normal;if(C!==void 0){const Q=new CI().getNormalMatrix(A);C.applyNormalMatrix(Q),C.needsUpdate=!0}const B=this.attributes.tangent;return B!==void 0&&(B.transformDirection(A),B.needsUpdate=!0),this.boundingBox!==null&&this.computeBoundingBox(),this.boundingSphere!==null&&this.computeBoundingSphere(),this}applyQuaternion(A){return bC.makeRotationFromQuaternion(A),this.applyMatrix4(bC),this}rotateX(A){return bC.makeRotationX(A),this.applyMatrix4(bC),this}rotateY(A){return bC.makeRotationY(A),this.applyMatrix4(bC),this}rotateZ(A){return bC.makeRotationZ(A),this.applyMatrix4(bC),this}translate(A,I,C){return bC.makeTranslation(A,I,C),this.applyMatrix4(bC),this}scale(A,I,C){return bC.makeScale(A,I,C),this.applyMatrix4(bC),this}lookAt(A){return $e.lookAt(A),$e.updateMatrix(),this.applyMatrix4($e.matrix),this}center(){return this.computeBoundingBox(),this.boundingBox.getCenter(ME).negate(),this.translate(ME.x,ME.y,ME.z),this}setFromPoints(A){const I=this.getAttribute("position");if(I===void 0){const C=[];for(let B=0,Q=A.length;B<Q;B++){const E=A[B];C.push(E.x,E.y,E.z||0)}this.setAttribute("position",new YC(C,3))}else{const C=Math.min(A.length,I.count);for(let B=0;B<C;B++){const Q=A[B];I.setXYZ(B,Q.x,Q.y,Q.z||0)}A.length>I.count&&console.warn("THREE.BufferGeometry: Buffer size too small for points data. Use .dispose() and create a new geometry."),I.needsUpdate=!0}return this}computeBoundingBox(){this.boundingBox===null&&(this.boundingBox=new tE);const A=this.attributes.position,I=this.morphAttributes.position;if(A&&A.isGLBufferAttribute){console.error("THREE.BufferGeometry.computeBoundingBox(): GLBufferAttribute requires a manual bounding box.",this),this.boundingBox.set(new v(-1/0,-1/0,-1/0),new v(1/0,1/0,1/0));return}if(A!==void 0){if(this.boundingBox.setFromBufferAttribute(A),I)for(let C=0,B=I.length;C<B;C++){const Q=I[C];kC.setFromBufferAttribute(Q),this.morphTargetsRelative?(ug.addVectors(this.boundingBox.min,kC.min),this.boundingBox.expandByPoint(ug),ug.addVectors(this.boundingBox.max,kC.max),this.boundingBox.expandByPoint(ug)):(this.boundingBox.expandByPoint(kC.min),this.boundingBox.expandByPoint(kC.max))}}else this.boundingBox.makeEmpty();(isNaN(this.boundingBox.min.x)||isNaN(this.boundingBox.min.y)||isNaN(this.boundingBox.min.z))&&console.error('THREE.BufferGeometry.computeBoundingBox(): Computed min/max have NaN values. The "position" attribute is likely to have NaN values.',this)}computeBoundingSphere(){this.boundingSphere===null&&(this.boundingSphere=new Jo);const A=this.attributes.position,I=this.morphAttributes.position;if(A&&A.isGLBufferAttribute){console.error("THREE.BufferGeometry.computeBoundingSphere(): GLBufferAttribute requires a manual bounding sphere.",this),this.boundingSphere.set(new v,1/0);return}if(A){const C=this.boundingSphere.center;if(kC.setFromBufferAttribute(A),I)for(let Q=0,E=I.length;Q<E;Q++){const i=I[Q];Ri.setFromBufferAttribute(i),this.morphTargetsRelative?(ug.addVectors(kC.min,Ri.min),kC.expandByPoint(ug),ug.addVectors(kC.max,Ri.max),kC.expandByPoint(ug)):(kC.expandByPoint(Ri.min),kC.expandByPoint(Ri.max))}kC.getCenter(C);let B=0;for(let Q=0,E=A.count;Q<E;Q++)ug.fromBufferAttribute(A,Q),B=Math.max(B,C.distanceToSquared(ug));if(I)for(let Q=0,E=I.length;Q<E;Q++){const i=I[Q],o=this.morphTargetsRelative;for(let t=0,e=i.count;t<e;t++)ug.fromBufferAttribute(i,t),o&&(ME.fromBufferAttribute(A,t),ug.add(ME)),B=Math.max(B,C.distanceToSquared(ug))}this.boundingSphere.radius=Math.sqrt(B),isNaN(this.boundingSphere.radius)&&console.error('THREE.BufferGeometry.computeBoundingSphere(): Computed radius is NaN. The "position" attribute is likely to have NaN values.',this)}}computeTangents(){const A=this.index,I=this.attributes;if(A===null||I.position===void 0||I.normal===void 0||I.uv===void 0){console.error("THREE.BufferGeometry: .computeTangents() failed. Missing required attributes (index, position, normal or uv)");return}const C=I.position,B=I.normal,Q=I.uv;this.hasAttribute("tangent")===!1&&this.setAttribute("tangent",new dC(new Float32Array(4*C.count),4));const E=this.getAttribute("tangent"),i=[],o=[];for(let p=0;p<C.count;p++)i[p]=new v,o[p]=new v;const t=new v,e=new v,s=new v,a=new PA,D=new PA,n=new PA,c=new v,S=new v;function r(p,k,K){t.fromBufferAttribute(C,p),e.fromBufferAttribute(C,k),s.fromBufferAttribute(C,K),a.fromBufferAttribute(Q,p),D.fromBufferAttribute(Q,k),n.fromBufferAttribute(Q,K),e.sub(t),s.sub(t),D.sub(a),n.sub(a);const u=1/(D.x*n.y-n.x*D.y);isFinite(u)&&(c.copy(e).multiplyScalar(n.y).addScaledVector(s,-D.y).multiplyScalar(u),S.copy(s).multiplyScalar(D.x).addScaledVector(e,-n.x).multiplyScalar(u),i[p].add(c),i[k].add(c),i[K].add(c),o[p].add(S),o[k].add(S),o[K].add(S))}let l=this.groups;l.length===0&&(l=[{start:0,count:A.count}]);for(let p=0,k=l.length;p<k;++p){const K=l[p],u=K.start,T=K.count;for(let O=u,W=u+T;O<W;O+=3)r(A.getX(O+0),A.getX(O+1),A.getX(O+2))}const y=new v,w=new v,N=new v,U=new v;function F(p){N.fromBufferAttribute(B,p),U.copy(N);const k=i[p];y.copy(k),y.sub(N.multiplyScalar(N.dot(k))).normalize(),w.crossVectors(U,k);const u=w.dot(o[p])<0?-1:1;E.setXYZW(p,y.x,y.y,y.z,u)}for(let p=0,k=l.length;p<k;++p){const K=l[p],u=K.start,T=K.count;for(let O=u,W=u+T;O<W;O+=3)F(A.getX(O+0)),F(A.getX(O+1)),F(A.getX(O+2))}}computeVertexNormals(){const A=this.index,I=this.getAttribute("position");if(I!==void 0){let C=this.getAttribute("normal");if(C===void 0)C=new dC(new Float32Array(I.count*3),3),this.setAttribute("normal",C);else for(let a=0,D=C.count;a<D;a++)C.setXYZ(a,0,0,0);const B=new v,Q=new v,E=new v,i=new v,o=new v,t=new v,e=new v,s=new v;if(A)for(let a=0,D=A.count;a<D;a+=3){const n=A.getX(a+0),c=A.getX(a+1),S=A.getX(a+2);B.fromBufferAttribute(I,n),Q.fromBufferAttribute(I,c),E.fromBufferAttribute(I,S),e.subVectors(E,Q),s.subVectors(B,Q),e.cross(s),i.fromBufferAttribute(C,n),o.fromBufferAttribute(C,c),t.fromBufferAttribute(C,S),i.add(e),o.add(e),t.add(e),C.setXYZ(n,i.x,i.y,i.z),C.setXYZ(c,o.x,o.y,o.z),C.setXYZ(S,t.x,t.y,t.z)}else for(let a=0,D=I.count;a<D;a+=3)B.fromBufferAttribute(I,a+0),Q.fromBufferAttribute(I,a+1),E.fromBufferAttribute(I,a+2),e.subVectors(E,Q),s.subVectors(B,Q),e.cross(s),C.setXYZ(a+0,e.x,e.y,e.z),C.setXYZ(a+1,e.x,e.y,e.z),C.setXYZ(a+2,e.x,e.y,e.z);this.normalizeNormals(),C.needsUpdate=!0}}normalizeNormals(){const A=this.attributes.normal;for(let I=0,C=A.count;I<C;I++)ug.fromBufferAttribute(A,I),ug.normalize(),A.setXYZ(I,ug.x,ug.y,ug.z)}toNonIndexed(){function A(i,o){const t=i.array,e=i.itemSize,s=i.normalized,a=new t.constructor(o.length*e);let D=0,n=0;for(let c=0,S=o.length;c<S;c++){i.isInterleavedBufferAttribute?D=o[c]*i.data.stride+i.offset:D=o[c]*e;for(let r=0;r<e;r++)a[n++]=t[D++]}return new dC(a,e,s)}if(this.index===null)return console.warn("THREE.BufferGeometry.toNonIndexed(): BufferGeometry is already non-indexed."),this;const I=new YB,C=this.index.array,B=this.attributes;for(const i in B){const o=B[i],t=A(o,C);I.setAttribute(i,t)}const Q=this.morphAttributes;for(const i in Q){const o=[],t=Q[i];for(let e=0,s=t.length;e<s;e++){const a=t[e],D=A(a,C);o.push(D)}I.morphAttributes[i]=o}I.morphTargetsRelative=this.morphTargetsRelative;const E=this.groups;for(let i=0,o=E.length;i<o;i++){const t=E[i];I.addGroup(t.start,t.count,t.materialIndex)}return I}toJSON(){const A={metadata:{version:4.7,type:"BufferGeometry",generator:"BufferGeometry.toJSON"}};if(A.uuid=this.uuid,A.type=this.type,this.name!==""&&(A.name=this.name),Object.keys(this.userData).length>0&&(A.userData=this.userData),this.parameters!==void 0){const o=this.parameters;for(const t in o)o[t]!==void 0&&(A[t]=o[t]);return A}A.data={attributes:{}};const I=this.index;I!==null&&(A.data.index={type:I.array.constructor.name,array:Array.prototype.slice.call(I.array)});const C=this.attributes;for(const o in C){const t=C[o];A.data.attributes[o]=t.toJSON(A.data)}const B={};let Q=!1;for(const o in this.morphAttributes){const t=this.morphAttributes[o],e=[];for(let s=0,a=t.length;s<a;s++){const D=t[s];e.push(D.toJSON(A.data))}e.length>0&&(B[o]=e,Q=!0)}Q&&(A.data.morphAttributes=B,A.data.morphTargetsRelative=this.morphTargetsRelative);const E=this.groups;E.length>0&&(A.data.groups=JSON.parse(JSON.stringify(E)));const i=this.boundingSphere;return i!==null&&(A.data.boundingSphere=i.toJSON()),A}clone(){return new this.constructor().copy(this)}copy(A){this.index=null,this.attributes={},this.morphAttributes={},this.groups=[],this.boundingBox=null,this.boundingSphere=null;const I={};this.name=A.name;const C=A.index;C!==null&&this.setIndex(C.clone());const B=A.attributes;for(const t in B){const e=B[t];this.setAttribute(t,e.clone(I))}const Q=A.morphAttributes;for(const t in Q){const e=[],s=Q[t];for(let a=0,D=s.length;a<D;a++)e.push(s[a].clone(I));this.morphAttributes[t]=e}this.morphTargetsRelative=A.morphTargetsRelative;const E=A.groups;for(let t=0,e=E.length;t<e;t++){const s=E[t];this.addGroup(s.start,s.count,s.materialIndex)}const i=A.boundingBox;i!==null&&(this.boundingBox=i.clone());const o=A.boundingSphere;return o!==null&&(this.boundingSphere=o.clone()),this.drawRange.start=A.drawRange.start,this.drawRange.count=A.drawRange.count,this.userData=A.userData,this}dispose(){this.dispatchEvent({type:"dispose"})}}const Qr=new UI,YQ=new Ly,Xo=new Jo,Er=new v,Vo=new v,zo=new v,$o=new v,As=new v,At=new v,ir=new v,It=new v;class _C extends vg{constructor(A=new YB,I=new Qc){super(),this.isMesh=!0,this.type="Mesh",this.geometry=A,this.material=I,this.morphTargetDictionary=void 0,this.morphTargetInfluences=void 0,this.count=1,this.updateMorphTargets()}copy(A,I){return super.copy(A,I),A.morphTargetInfluences!==void 0&&(this.morphTargetInfluences=A.morphTargetInfluences.slice()),A.morphTargetDictionary!==void 0&&(this.morphTargetDictionary=Object.assign({},A.morphTargetDictionary)),this.material=Array.isArray(A.material)?A.material.slice():A.material,this.geometry=A.geometry,this}updateMorphTargets(){const I=this.geometry.morphAttributes,C=Object.keys(I);if(C.length>0){const B=I[C[0]];if(B!==void 0){this.morphTargetInfluences=[],this.morphTargetDictionary={};for(let Q=0,E=B.length;Q<E;Q++){const i=B[Q].name||String(Q);this.morphTargetInfluences.push(0),this.morphTargetDictionary[i]=Q}}}}getVertexPosition(A,I){const C=this.geometry,B=C.attributes.position,Q=C.morphAttributes.position,E=C.morphTargetsRelative;I.fromBufferAttribute(B,A);const i=this.morphTargetInfluences;if(Q&&i){At.set(0,0,0);for(let o=0,t=Q.length;o<t;o++){const e=i[o],s=Q[o];e!==0&&(As.fromBufferAttribute(s,A),E?At.addScaledVector(As,e):At.addScaledVector(As.sub(I),e))}I.add(At)}return I}raycast(A,I){const C=this.geometry,B=this.material,Q=this.matrixWorld;B!==void 0&&(C.boundingSphere===null&&C.computeBoundingSphere(),Xo.copy(C.boundingSphere),Xo.applyMatrix4(Q),YQ.copy(A.ray).recast(A.near),!(Xo.containsPoint(YQ.origin)===!1&&(YQ.intersectSphere(Xo,Er)===null||YQ.origin.distanceToSquared(Er)>(A.far-A.near)**2))&&(Qr.copy(Q).invert(),YQ.copy(A.ray).applyMatrix4(Qr),!(C.boundingBox!==null&&YQ.intersectsBox(C.boundingBox)===!1)&&this._computeIntersections(A,I,YQ)))}_computeIntersections(A,I,C){let B;const Q=this.geometry,E=this.material,i=Q.index,o=Q.attributes.position,t=Q.attributes.uv,e=Q.attributes.uv1,s=Q.attributes.normal,a=Q.groups,D=Q.drawRange;if(i!==null)if(Array.isArray(E))for(let n=0,c=a.length;n<c;n++){const S=a[n],r=E[S.materialIndex],l=Math.max(S.start,D.start),y=Math.min(i.count,Math.min(S.start+S.count,D.start+D.count));for(let w=l,N=y;w<N;w+=3){const U=i.getX(w),F=i.getX(w+1),p=i.getX(w+2);B=gt(this,r,A,C,t,e,s,U,F,p),B&&(B.faceIndex=Math.floor(w/3),B.face.materialIndex=S.materialIndex,I.push(B))}}else{const n=Math.max(0,D.start),c=Math.min(i.count,D.start+D.count);for(let S=n,r=c;S<r;S+=3){const l=i.getX(S),y=i.getX(S+1),w=i.getX(S+2);B=gt(this,E,A,C,t,e,s,l,y,w),B&&(B.faceIndex=Math.floor(S/3),I.push(B))}}else if(o!==void 0)if(Array.isArray(E))for(let n=0,c=a.length;n<c;n++){const S=a[n],r=E[S.materialIndex],l=Math.max(S.start,D.start),y=Math.min(o.count,Math.min(S.start+S.count,D.start+D.count));for(let w=l,N=y;w<N;w+=3){const U=w,F=w+1,p=w+2;B=gt(this,r,A,C,t,e,s,U,F,p),B&&(B.faceIndex=Math.floor(w/3),B.face.materialIndex=S.materialIndex,I.push(B))}}else{const n=Math.max(0,D.start),c=Math.min(o.count,D.start+D.count);for(let S=n,r=c;S<r;S+=3){const l=S,y=S+1,w=S+2;B=gt(this,E,A,C,t,e,s,l,y,w),B&&(B.faceIndex=Math.floor(S/3),I.push(B))}}}}function Wy(g,A,I,C,B,Q,E,i){let o;if(A.side===Tg?o=C.intersectTriangle(E,Q,B,!0,i):o=C.intersectTriangle(B,Q,E,A.side===jB,i),o===null)return null;It.copy(i),It.applyMatrix4(g.matrixWorld);const t=I.ray.origin.distanceTo(It);return t<I.near||t>I.far?null:{distance:t,point:It.clone(),object:g}}function gt(g,A,I,C,B,Q,E,i,o,t){g.getVertexPosition(i,Vo),g.getVertexPosition(o,zo),g.getVertexPosition(t,$o);const e=Wy(g,A,I,C,Vo,zo,$o,ir);if(e){const s=new v;eB.getBarycoord(ir,Vo,zo,$o,s),B&&(e.uv=eB.getInterpolatedAttribute(B,i,o,t,s,new PA)),Q&&(e.uv1=eB.getInterpolatedAttribute(Q,i,o,t,s,new PA)),E&&(e.normal=eB.getInterpolatedAttribute(E,i,o,t,s,new v),e.normal.dot(C.direction)>0&&e.normal.multiplyScalar(-1));const a={a:i,b:o,c:t,normal:new v,materialIndex:0};eB.getNormal(Vo,zo,$o,a.normal),e.face=a,e.barycoord=s}return e}class wi extends YB{constructor(A=1,I=1,C=1,B=1,Q=1,E=1){super(),this.type="BoxGeometry",this.parameters={width:A,height:I,depth:C,widthSegments:B,heightSegments:Q,depthSegments:E};const i=this;B=Math.floor(B),Q=Math.floor(Q),E=Math.floor(E);const o=[],t=[],e=[],s=[];let a=0,D=0;n("z","y","x",-1,-1,C,I,A,E,Q,0),n("z","y","x",1,-1,C,I,-A,E,Q,1),n("x","z","y",1,1,A,C,I,B,E,2),n("x","z","y",1,-1,A,C,-I,B,E,3),n("x","y","z",1,-1,A,I,C,B,Q,4),n("x","y","z",-1,-1,A,I,-C,B,Q,5),this.setIndex(o),this.setAttribute("position",new YC(t,3)),this.setAttribute("normal",new YC(e,3)),this.setAttribute("uv",new YC(s,2));function n(c,S,r,l,y,w,N,U,F,p,k){const K=w/F,u=N/p,T=w/2,O=N/2,W=U/2,X=F+1,Z=p+1;let CA=0,V=0;const sA=new v;for(let rA=0;rA<Z;rA++){const MA=rA*u-O;for(let BI=0;BI<X;BI++){const DI=BI*K-T;sA[c]=DI*l,sA[S]=MA*y,sA[r]=W,t.push(sA.x,sA.y,sA.z),sA[c]=0,sA[S]=0,sA[r]=U>0?1:-1,e.push(sA.x,sA.y,sA.z),s.push(BI/F),s.push(1-rA/p),CA+=1}}for(let rA=0;rA<p;rA++)for(let MA=0;MA<F;MA++){const BI=a+MA+X*rA,DI=a+MA+X*(rA+1),GI=a+(MA+1)+X*(rA+1),KI=a+(MA+1)+X*rA;o.push(BI,DI,KI),o.push(DI,GI,KI),V+=6}i.addGroup(D,V,k),D+=V,a+=CA}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new wi(A.width,A.height,A.depth,A.widthSegments,A.heightSegments,A.depthSegments)}}function ii(g){const A={};for(const I in g){A[I]={};for(const C in g[I]){const B=g[I][C];B&&(B.isColor||B.isMatrix3||B.isMatrix4||B.isVector2||B.isVector3||B.isVector4||B.isTexture||B.isQuaternion)?B.isRenderTargetTexture?(console.warn("UniformsUtils: Textures of render targets cannot be cloned via cloneUniforms() or mergeUniforms()."),A[I][C]=null):A[I][C]=B.clone():Array.isArray(B)?A[I][C]=B.slice():A[I][C]=B}}return A}function QC(g){const A={};for(let I=0;I<g.length;I++){const C=ii(g[I]);for(const B in C)A[B]=C[B]}return A}function Py(g){const A=[];for(let I=0;I<g.length;I++)A.push(g[I].clone());return A}function oc(g){const A=g.getRenderTarget();return A===null?g.outputColorSpace:A.isXRRenderTarget===!0?A.texture.colorSpace:kI.workingColorSpace}const jy={clone:ii,merge:QC};var Xy=`void main() {
	gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
}`,Vy=`void main() {
	gl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 );
}`;class CC extends eE{constructor(A){super(),this.isShaderMaterial=!0,this.type="ShaderMaterial",this.defines={},this.uniforms={},this.uniformsGroups=[],this.vertexShader=Xy,this.fragmentShader=Vy,this.linewidth=1,this.wireframe=!1,this.wireframeLinewidth=1,this.fog=!1,this.lights=!1,this.clipping=!1,this.forceSinglePass=!0,this.extensions={clipCullDistance:!1,multiDraw:!1},this.defaultAttributeValues={color:[1,1,1],uv:[0,0],uv1:[0,0]},this.index0AttributeName=void 0,this.uniformsNeedUpdate=!1,this.glslVersion=null,A!==void 0&&this.setValues(A)}copy(A){return super.copy(A),this.fragmentShader=A.fragmentShader,this.vertexShader=A.vertexShader,this.uniforms=ii(A.uniforms),this.uniformsGroups=Py(A.uniformsGroups),this.defines=Object.assign({},A.defines),this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.fog=A.fog,this.lights=A.lights,this.clipping=A.clipping,this.extensions=Object.assign({},A.extensions),this.glslVersion=A.glslVersion,this}toJSON(A){const I=super.toJSON(A);I.glslVersion=this.glslVersion,I.uniforms={};for(const B in this.uniforms){const E=this.uniforms[B].value;E&&E.isTexture?I.uniforms[B]={type:"t",value:E.toJSON(A).uuid}:E&&E.isColor?I.uniforms[B]={type:"c",value:E.getHex()}:E&&E.isVector2?I.uniforms[B]={type:"v2",value:E.toArray()}:E&&E.isVector3?I.uniforms[B]={type:"v3",value:E.toArray()}:E&&E.isVector4?I.uniforms[B]={type:"v4",value:E.toArray()}:E&&E.isMatrix3?I.uniforms[B]={type:"m3",value:E.toArray()}:E&&E.isMatrix4?I.uniforms[B]={type:"m4",value:E.toArray()}:I.uniforms[B]={value:E}}Object.keys(this.defines).length>0&&(I.defines=this.defines),I.vertexShader=this.vertexShader,I.fragmentShader=this.fragmentShader,I.lights=this.lights,I.clipping=this.clipping;const C={};for(const B in this.extensions)this.extensions[B]===!0&&(C[B]=!0);return Object.keys(C).length>0&&(I.extensions=C),I}}class JD extends vg{constructor(){super(),this.isCamera=!0,this.type="Camera",this.matrixWorldInverse=new UI,this.projectionMatrix=new UI,this.projectionMatrixInverse=new UI,this.coordinateSystem=UB,this._reversedDepth=!1}get reversedDepth(){return this._reversedDepth}copy(A,I){return super.copy(A,I),this.matrixWorldInverse.copy(A.matrixWorldInverse),this.projectionMatrix.copy(A.projectionMatrix),this.projectionMatrixInverse.copy(A.projectionMatrixInverse),this.coordinateSystem=A.coordinateSystem,this}getWorldDirection(A){return super.getWorldDirection(A).negate()}updateMatrixWorld(A){super.updateMatrixWorld(A),this.matrixWorldInverse.copy(this.matrixWorld).invert()}updateWorldMatrix(A,I){super.updateWorldMatrix(A,I),this.matrixWorldInverse.copy(this.matrixWorld).invert()}clone(){return new this.constructor().copy(this)}}const tQ=new v,or=new PA,tr=new PA;class JC extends JD{constructor(A=50,I=1,C=.1,B=2e3){super(),this.isPerspectiveCamera=!0,this.type="PerspectiveCamera",this.fov=A,this.zoom=1,this.near=C,this.far=B,this.focus=10,this.aspect=I,this.view=null,this.filmGauge=35,this.filmOffset=0,this.updateProjectionMatrix()}copy(A,I){return super.copy(A,I),this.fov=A.fov,this.zoom=A.zoom,this.near=A.near,this.far=A.far,this.focus=A.focus,this.aspect=A.aspect,this.view=A.view===null?null:Object.assign({},A.view),this.filmGauge=A.filmGauge,this.filmOffset=A.filmOffset,this}setFocalLength(A){const I=.5*this.getFilmHeight()/A;this.fov=qa*2*Math.atan(I),this.updateProjectionMatrix()}getFocalLength(){const A=Math.tan(Ye*.5*this.fov);return .5*this.getFilmHeight()/A}getEffectiveFOV(){return qa*2*Math.atan(Math.tan(Ye*.5*this.fov)/this.zoom)}getFilmWidth(){return this.filmGauge*Math.min(this.aspect,1)}getFilmHeight(){return this.filmGauge/Math.max(this.aspect,1)}getViewBounds(A,I,C){tQ.set(-1,-1,.5).applyMatrix4(this.projectionMatrixInverse),I.set(tQ.x,tQ.y).multiplyScalar(-A/tQ.z),tQ.set(1,1,.5).applyMatrix4(this.projectionMatrixInverse),C.set(tQ.x,tQ.y).multiplyScalar(-A/tQ.z)}getViewSize(A,I){return this.getViewBounds(A,or,tr),I.subVectors(tr,or)}setViewOffset(A,I,C,B,Q,E){this.aspect=A/I,this.view===null&&(this.view={enabled:!0,fullWidth:1,fullHeight:1,offsetX:0,offsetY:0,width:1,height:1}),this.view.enabled=!0,this.view.fullWidth=A,this.view.fullHeight=I,this.view.offsetX=C,this.view.offsetY=B,this.view.width=Q,this.view.height=E,this.updateProjectionMatrix()}clearViewOffset(){this.view!==null&&(this.view.enabled=!1),this.updateProjectionMatrix()}updateProjectionMatrix(){const A=this.near;let I=A*Math.tan(Ye*.5*this.fov)/this.zoom,C=2*I,B=this.aspect*C,Q=-.5*B;const E=this.view;if(this.view!==null&&this.view.enabled){const o=E.fullWidth,t=E.fullHeight;Q+=E.offsetX*B/o,I-=E.offsetY*C/t,B*=E.width/o,C*=E.height/t}const i=this.filmOffset;i!==0&&(Q+=A*i/this.getFilmWidth()),this.projectionMatrix.makePerspective(Q,Q+B,I,I-C,A,this.far,this.coordinateSystem,this.reversedDepth),this.projectionMatrixInverse.copy(this.projectionMatrix).invert()}toJSON(A){const I=super.toJSON(A);return I.object.fov=this.fov,I.object.zoom=this.zoom,I.object.near=this.near,I.object.far=this.far,I.object.focus=this.focus,I.object.aspect=this.aspect,this.view!==null&&(I.object.view=Object.assign({},this.view)),I.object.filmGauge=this.filmGauge,I.object.filmOffset=this.filmOffset,I}}const UE=-90,KE=1;class zy extends vg{constructor(A,I,C){super(),this.type="CubeCamera",this.renderTarget=C,this.coordinateSystem=null,this.activeMipmapLevel=0;const B=new JC(UE,KE,A,I);B.layers=this.layers,this.add(B);const Q=new JC(UE,KE,A,I);Q.layers=this.layers,this.add(Q);const E=new JC(UE,KE,A,I);E.layers=this.layers,this.add(E);const i=new JC(UE,KE,A,I);i.layers=this.layers,this.add(i);const o=new JC(UE,KE,A,I);o.layers=this.layers,this.add(o);const t=new JC(UE,KE,A,I);t.layers=this.layers,this.add(t)}updateCoordinateSystem(){const A=this.coordinateSystem,I=this.children.concat(),[C,B,Q,E,i,o]=I;for(const t of I)this.remove(t);if(A===UB)C.up.set(0,1,0),C.lookAt(1,0,0),B.up.set(0,1,0),B.lookAt(-1,0,0),Q.up.set(0,0,-1),Q.lookAt(0,1,0),E.up.set(0,0,1),E.lookAt(0,-1,0),i.up.set(0,1,0),i.lookAt(0,0,1),o.up.set(0,1,0),o.lookAt(0,0,-1);else if(A===Rt)C.up.set(0,-1,0),C.lookAt(-1,0,0),B.up.set(0,-1,0),B.lookAt(1,0,0),Q.up.set(0,0,1),Q.lookAt(0,1,0),E.up.set(0,0,-1),E.lookAt(0,-1,0),i.up.set(0,-1,0),i.lookAt(0,0,1),o.up.set(0,-1,0),o.lookAt(0,0,-1);else throw new Error("THREE.CubeCamera.updateCoordinateSystem(): Invalid coordinate system: "+A);for(const t of I)this.add(t),t.updateMatrixWorld()}update(A,I){this.parent===null&&this.updateMatrixWorld();const{renderTarget:C,activeMipmapLevel:B}=this;this.coordinateSystem!==A.coordinateSystem&&(this.coordinateSystem=A.coordinateSystem,this.updateCoordinateSystem());const[Q,E,i,o,t,e]=this.children,s=A.getRenderTarget(),a=A.getActiveCubeFace(),D=A.getActiveMipmapLevel(),n=A.xr.enabled;A.xr.enabled=!1;const c=C.texture.generateMipmaps;C.texture.generateMipmaps=!1,A.setRenderTarget(C,0,B),A.render(I,Q),A.setRenderTarget(C,1,B),A.render(I,E),A.setRenderTarget(C,2,B),A.render(I,i),A.setRenderTarget(C,3,B),A.render(I,o),A.setRenderTarget(C,4,B),A.render(I,t),C.texture.generateMipmaps=c,A.setRenderTarget(C,5,B),A.render(I,e),A.setRenderTarget(s,a,D),A.xr.enabled=n,C.texture.needsPMREMUpdate=!0}}class tc extends Og{constructor(A=[],I=Ci,C,B,Q,E,i,o,t,e){super(A,I,C,B,Q,E,i,o,t,e),this.isCubeTexture=!0,this.flipY=!1}get images(){return this.image}set images(A){this.image=A}}class $y extends Wg{constructor(A=1,I={}){super(A,A,I),this.isWebGLCubeRenderTarget=!0;const C={width:A,height:A,depth:1},B=[C,C,C,C,C,C];this.texture=new tc(B),this._setTextureOptions(I),this.texture.isRenderTargetTexture=!0}fromEquirectangularTexture(A,I){this.texture.type=I.type,this.texture.colorSpace=I.colorSpace,this.texture.generateMipmaps=I.generateMipmaps,this.texture.minFilter=I.minFilter,this.texture.magFilter=I.magFilter;const C={uniforms:{tEquirect:{value:null}},vertexShader:`

				varying vec3 vWorldDirection;

				vec3 transformDirection( in vec3 dir, in mat4 matrix ) {

					return normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );

				}

				void main() {

					vWorldDirection = transformDirection( position, modelMatrix );

					#include <begin_vertex>
					#include <project_vertex>

				}
			`,fragmentShader:`

				uniform sampler2D tEquirect;

				varying vec3 vWorldDirection;

				#include <common>

				void main() {

					vec3 direction = normalize( vWorldDirection );

					vec2 sampleUV = equirectUv( direction );

					gl_FragColor = texture2D( tEquirect, sampleUV );

				}
			`},B=new wi(5,5,5),Q=new CC({name:"CubemapFromEquirect",uniforms:ii(C.uniforms),vertexShader:C.vertexShader,fragmentShader:C.fragmentShader,side:Tg,blending:oC});Q.uniforms.tEquirect.value=I;const E=new _C(B,Q),i=I.minFilter;return I.minFilter===nQ&&(I.minFilter=DC),new zy(1,10,this).update(A,E),I.minFilter=i,E.geometry.dispose(),E.material.dispose(),this}clear(A,I=!0,C=!0,B=!0){const Q=A.getRenderTarget();for(let E=0;E<6;E++)A.setRenderTarget(this,E),A.clear(I,C,B);A.setRenderTarget(Q)}}class Ct extends vg{constructor(){super(),this.isGroup=!0,this.type="Group"}}const Ak={type:"move"};class Is{constructor(){this._targetRay=null,this._grip=null,this._hand=null}getHandSpace(){return this._hand===null&&(this._hand=new Ct,this._hand.matrixAutoUpdate=!1,this._hand.visible=!1,this._hand.joints={},this._hand.inputState={pinching:!1}),this._hand}getTargetRaySpace(){return this._targetRay===null&&(this._targetRay=new Ct,this._targetRay.matrixAutoUpdate=!1,this._targetRay.visible=!1,this._targetRay.hasLinearVelocity=!1,this._targetRay.linearVelocity=new v,this._targetRay.hasAngularVelocity=!1,this._targetRay.angularVelocity=new v),this._targetRay}getGripSpace(){return this._grip===null&&(this._grip=new Ct,this._grip.matrixAutoUpdate=!1,this._grip.visible=!1,this._grip.hasLinearVelocity=!1,this._grip.linearVelocity=new v,this._grip.hasAngularVelocity=!1,this._grip.angularVelocity=new v),this._grip}dispatchEvent(A){return this._targetRay!==null&&this._targetRay.dispatchEvent(A),this._grip!==null&&this._grip.dispatchEvent(A),this._hand!==null&&this._hand.dispatchEvent(A),this}connect(A){if(A&&A.hand){const I=this._hand;if(I)for(const C of A.hand.values())this._getHandJoint(I,C)}return this.dispatchEvent({type:"connected",data:A}),this}disconnect(A){return this.dispatchEvent({type:"disconnected",data:A}),this._targetRay!==null&&(this._targetRay.visible=!1),this._grip!==null&&(this._grip.visible=!1),this._hand!==null&&(this._hand.visible=!1),this}update(A,I,C){let B=null,Q=null,E=null;const i=this._targetRay,o=this._grip,t=this._hand;if(A&&I.session.visibilityState!=="visible-blurred"){if(t&&A.hand){E=!0;for(const c of A.hand.values()){const S=I.getJointPose(c,C),r=this._getHandJoint(t,c);S!==null&&(r.matrix.fromArray(S.transform.matrix),r.matrix.decompose(r.position,r.rotation,r.scale),r.matrixWorldNeedsUpdate=!0,r.jointRadius=S.radius),r.visible=S!==null}const e=t.joints["index-finger-tip"],s=t.joints["thumb-tip"],a=e.position.distanceTo(s.position),D=.02,n=.005;t.inputState.pinching&&a>D+n?(t.inputState.pinching=!1,this.dispatchEvent({type:"pinchend",handedness:A.handedness,target:this})):!t.inputState.pinching&&a<=D-n&&(t.inputState.pinching=!0,this.dispatchEvent({type:"pinchstart",handedness:A.handedness,target:this}))}else o!==null&&A.gripSpace&&(Q=I.getPose(A.gripSpace,C),Q!==null&&(o.matrix.fromArray(Q.transform.matrix),o.matrix.decompose(o.position,o.rotation,o.scale),o.matrixWorldNeedsUpdate=!0,Q.linearVelocity?(o.hasLinearVelocity=!0,o.linearVelocity.copy(Q.linearVelocity)):o.hasLinearVelocity=!1,Q.angularVelocity?(o.hasAngularVelocity=!0,o.angularVelocity.copy(Q.angularVelocity)):o.hasAngularVelocity=!1));i!==null&&(B=I.getPose(A.targetRaySpace,C),B===null&&Q!==null&&(B=Q),B!==null&&(i.matrix.fromArray(B.transform.matrix),i.matrix.decompose(i.position,i.rotation,i.scale),i.matrixWorldNeedsUpdate=!0,B.linearVelocity?(i.hasLinearVelocity=!0,i.linearVelocity.copy(B.linearVelocity)):i.hasLinearVelocity=!1,B.angularVelocity?(i.hasAngularVelocity=!0,i.angularVelocity.copy(B.angularVelocity)):i.hasAngularVelocity=!1,this.dispatchEvent(Ak)))}return i!==null&&(i.visible=B!==null),o!==null&&(o.visible=Q!==null),t!==null&&(t.visible=E!==null),this}_getHandJoint(A,I){if(A.joints[I.jointName]===void 0){const C=new Ct;C.matrixAutoUpdate=!1,C.visible=!1,A.joints[I.jointName]=C,A.add(C)}return A.joints[I.jointName]}}class fa extends vg{constructor(){super(),this.isScene=!0,this.type="Scene",this.background=null,this.environment=null,this.fog=null,this.backgroundBlurriness=0,this.backgroundIntensity=1,this.backgroundRotation=new fC,this.environmentIntensity=1,this.environmentRotation=new fC,this.overrideMaterial=null,typeof __THREE_DEVTOOLS__<"u"&&__THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("observe",{detail:this}))}copy(A,I){return super.copy(A,I),A.background!==null&&(this.background=A.background.clone()),A.environment!==null&&(this.environment=A.environment.clone()),A.fog!==null&&(this.fog=A.fog.clone()),this.backgroundBlurriness=A.backgroundBlurriness,this.backgroundIntensity=A.backgroundIntensity,this.backgroundRotation.copy(A.backgroundRotation),this.environmentIntensity=A.environmentIntensity,this.environmentRotation.copy(A.environmentRotation),A.overrideMaterial!==null&&(this.overrideMaterial=A.overrideMaterial.clone()),this.matrixAutoUpdate=A.matrixAutoUpdate,this}toJSON(A){const I=super.toJSON(A);return this.fog!==null&&(I.object.fog=this.fog.toJSON()),this.backgroundBlurriness>0&&(I.object.backgroundBlurriness=this.backgroundBlurriness),this.backgroundIntensity!==1&&(I.object.backgroundIntensity=this.backgroundIntensity),I.object.backgroundRotation=this.backgroundRotation.toArray(),this.environmentIntensity!==1&&(I.object.environmentIntensity=this.environmentIntensity),I.object.environmentRotation=this.environmentRotation.toArray(),I}}class Ik extends Og{constructor(A=null,I=1,C=1,B,Q,E,i,o,t=tC,e=tC,s,a){super(null,E,i,o,t,e,B,Q,s,a),this.isDataTexture=!0,this.image={data:A,width:I,height:C},this.generateMipmaps=!1,this.flipY=!1,this.unpackAlignment=1}}class er extends dC{constructor(A,I,C,B=1){super(A,I,C),this.isInstancedBufferAttribute=!0,this.meshPerAttribute=B}copy(A){return super.copy(A),this.meshPerAttribute=A.meshPerAttribute,this}toJSON(){const A=super.toJSON();return A.meshPerAttribute=this.meshPerAttribute,A.isInstancedBufferAttribute=!0,A}}const NE=new UI,sr=new UI,Bt=[],ar=new tE,gk=new UI,di=new _C,Yi=new Jo;class Ck extends _C{constructor(A,I,C){super(A,I),this.isInstancedMesh=!0,this.instanceMatrix=new er(new Float32Array(C*16),16),this.instanceColor=null,this.morphTexture=null,this.count=C,this.boundingBox=null,this.boundingSphere=null;for(let B=0;B<C;B++)this.setMatrixAt(B,gk)}computeBoundingBox(){const A=this.geometry,I=this.count;this.boundingBox===null&&(this.boundingBox=new tE),A.boundingBox===null&&A.computeBoundingBox(),this.boundingBox.makeEmpty();for(let C=0;C<I;C++)this.getMatrixAt(C,NE),ar.copy(A.boundingBox).applyMatrix4(NE),this.boundingBox.union(ar)}computeBoundingSphere(){const A=this.geometry,I=this.count;this.boundingSphere===null&&(this.boundingSphere=new Jo),A.boundingSphere===null&&A.computeBoundingSphere(),this.boundingSphere.makeEmpty();for(let C=0;C<I;C++)this.getMatrixAt(C,NE),Yi.copy(A.boundingSphere).applyMatrix4(NE),this.boundingSphere.union(Yi)}copy(A,I){return super.copy(A,I),this.instanceMatrix.copy(A.instanceMatrix),A.morphTexture!==null&&(this.morphTexture=A.morphTexture.clone()),A.instanceColor!==null&&(this.instanceColor=A.instanceColor.clone()),this.count=A.count,A.boundingBox!==null&&(this.boundingBox=A.boundingBox.clone()),A.boundingSphere!==null&&(this.boundingSphere=A.boundingSphere.clone()),this}getColorAt(A,I){I.fromArray(this.instanceColor.array,A*3)}getMatrixAt(A,I){I.fromArray(this.instanceMatrix.array,A*16)}getMorphAt(A,I){const C=I.morphTargetInfluences,B=this.morphTexture.source.data.data,Q=C.length+1,E=A*Q+1;for(let i=0;i<C.length;i++)C[i]=B[E+i]}raycast(A,I){const C=this.matrixWorld,B=this.count;if(di.geometry=this.geometry,di.material=this.material,di.material!==void 0&&(this.boundingSphere===null&&this.computeBoundingSphere(),Yi.copy(this.boundingSphere),Yi.applyMatrix4(C),A.ray.intersectsSphere(Yi)!==!1))for(let Q=0;Q<B;Q++){this.getMatrixAt(Q,NE),sr.multiplyMatrices(C,NE),di.matrixWorld=sr,di.raycast(A,Bt);for(let E=0,i=Bt.length;E<i;E++){const o=Bt[E];o.instanceId=Q,o.object=this,I.push(o)}Bt.length=0}}setColorAt(A,I){this.instanceColor===null&&(this.instanceColor=new er(new Float32Array(this.instanceMatrix.count*3).fill(1),3)),I.toArray(this.instanceColor.array,A*3)}setMatrixAt(A,I){I.toArray(this.instanceMatrix.array,A*16)}setMorphAt(A,I){const C=I.morphTargetInfluences,B=C.length+1;this.morphTexture===null&&(this.morphTexture=new Ik(new Float32Array(B*this.count),B,this.count,kD,MB));const Q=this.morphTexture.source.data.data;let E=0;for(let t=0;t<C.length;t++)E+=C[t];const i=this.geometry.morphTargetsRelative?1:1-E,o=B*A;Q[o]=i,Q.set(C,o+1)}updateMorphTargets(){}dispose(){this.dispatchEvent({type:"dispose"}),this.morphTexture!==null&&(this.morphTexture.dispose(),this.morphTexture=null)}}const gs=new v,Bk=new v,Qk=new CI;class TQ{constructor(A=new v(1,0,0),I=0){this.isPlane=!0,this.normal=A,this.constant=I}set(A,I){return this.normal.copy(A),this.constant=I,this}setComponents(A,I,C,B){return this.normal.set(A,I,C),this.constant=B,this}setFromNormalAndCoplanarPoint(A,I){return this.normal.copy(A),this.constant=-I.dot(this.normal),this}setFromCoplanarPoints(A,I,C){const B=gs.subVectors(C,I).cross(Bk.subVectors(A,I)).normalize();return this.setFromNormalAndCoplanarPoint(B,A),this}copy(A){return this.normal.copy(A.normal),this.constant=A.constant,this}normalize(){const A=1/this.normal.length();return this.normal.multiplyScalar(A),this.constant*=A,this}negate(){return this.constant*=-1,this.normal.negate(),this}distanceToPoint(A){return this.normal.dot(A)+this.constant}distanceToSphere(A){return this.distanceToPoint(A.center)-A.radius}projectPoint(A,I){return I.copy(A).addScaledVector(this.normal,-this.distanceToPoint(A))}intersectLine(A,I){const C=A.delta(gs),B=this.normal.dot(C);if(B===0)return this.distanceToPoint(A.start)===0?I.copy(A.start):null;const Q=-(A.start.dot(this.normal)+this.constant)/B;return Q<0||Q>1?null:I.copy(A.start).addScaledVector(C,Q)}intersectsLine(A){const I=this.distanceToPoint(A.start),C=this.distanceToPoint(A.end);return I<0&&C>0||C<0&&I>0}intersectsBox(A){return A.intersectsPlane(this)}intersectsSphere(A){return A.intersectsPlane(this)}coplanarPoint(A){return A.copy(this.normal).multiplyScalar(-this.constant)}applyMatrix4(A,I){const C=I||Qk.getNormalMatrix(A),B=this.coplanarPoint(gs).applyMatrix4(A),Q=this.normal.applyMatrix3(C).normalize();return this.constant=-B.dot(Q),this}translate(A){return this.constant-=A.dot(this.normal),this}equals(A){return A.normal.equals(this.normal)&&A.constant===this.constant}clone(){return new this.constructor().copy(this)}}const uQ=new Jo,Ek=new PA(.5,.5),Qt=new v;class FD{constructor(A=new TQ,I=new TQ,C=new TQ,B=new TQ,Q=new TQ,E=new TQ){this.planes=[A,I,C,B,Q,E]}set(A,I,C,B,Q,E){const i=this.planes;return i[0].copy(A),i[1].copy(I),i[2].copy(C),i[3].copy(B),i[4].copy(Q),i[5].copy(E),this}copy(A){const I=this.planes;for(let C=0;C<6;C++)I[C].copy(A.planes[C]);return this}setFromProjectionMatrix(A,I=UB,C=!1){const B=this.planes,Q=A.elements,E=Q[0],i=Q[1],o=Q[2],t=Q[3],e=Q[4],s=Q[5],a=Q[6],D=Q[7],n=Q[8],c=Q[9],S=Q[10],r=Q[11],l=Q[12],y=Q[13],w=Q[14],N=Q[15];if(B[0].setComponents(t-E,D-e,r-n,N-l).normalize(),B[1].setComponents(t+E,D+e,r+n,N+l).normalize(),B[2].setComponents(t+i,D+s,r+c,N+y).normalize(),B[3].setComponents(t-i,D-s,r-c,N-y).normalize(),C)B[4].setComponents(o,a,S,w).normalize(),B[5].setComponents(t-o,D-a,r-S,N-w).normalize();else if(B[4].setComponents(t-o,D-a,r-S,N-w).normalize(),I===UB)B[5].setComponents(t+o,D+a,r+S,N+w).normalize();else if(I===Rt)B[5].setComponents(o,a,S,w).normalize();else throw new Error("THREE.Frustum.setFromProjectionMatrix(): Invalid coordinate system: "+I);return this}intersectsObject(A){if(A.boundingSphere!==void 0)A.boundingSphere===null&&A.computeBoundingSphere(),uQ.copy(A.boundingSphere).applyMatrix4(A.matrixWorld);else{const I=A.geometry;I.boundingSphere===null&&I.computeBoundingSphere(),uQ.copy(I.boundingSphere).applyMatrix4(A.matrixWorld)}return this.intersectsSphere(uQ)}intersectsSprite(A){uQ.center.set(0,0,0);const I=Ek.distanceTo(A.center);return uQ.radius=.7071067811865476+I,uQ.applyMatrix4(A.matrixWorld),this.intersectsSphere(uQ)}intersectsSphere(A){const I=this.planes,C=A.center,B=-A.radius;for(let Q=0;Q<6;Q++)if(I[Q].distanceToPoint(C)<B)return!1;return!0}intersectsBox(A){const I=this.planes;for(let C=0;C<6;C++){const B=I[C];if(Qt.x=B.normal.x>0?A.max.x:A.min.x,Qt.y=B.normal.y>0?A.max.y:A.min.y,Qt.z=B.normal.z>0?A.max.z:A.min.z,B.distanceToPoint(Qt)<0)return!1}return!0}containsPoint(A){const I=this.planes;for(let C=0;C<6;C++)if(I[C].distanceToPoint(A)<0)return!1;return!0}clone(){return new this.constructor().copy(this)}}class pD extends Og{constructor(A,I,C=yQ,B,Q,E,i=tC,o=tC,t,e=Qo,s=1){if(e!==Qo&&e!==Ei)throw new Error("DepthTexture format must be either THREE.DepthFormat or THREE.DepthStencilFormat");const a={width:A,height:I,depth:s};super(a,B,Q,E,i,o,e,C,t),this.isDepthTexture=!0,this.flipY=!1,this.generateMipmaps=!1,this.compareFunction=null}copy(A){return super.copy(A),this.source=new ND(Object.assign({},A.image)),this.compareFunction=A.compareFunction,this}toJSON(A){const I=super.toJSON(A);return this.compareFunction!==null&&(I.compareFunction=this.compareFunction),I}}class ec extends Og{constructor(A=null){super(),this.sourceTexture=A,this.isExternalTexture=!0}copy(A){return super.copy(A),this.sourceTexture=A.sourceTexture,this}}class RD extends YB{constructor(A=1,I=1,C=1,B=32,Q=1,E=!1,i=0,o=Math.PI*2){super(),this.type="CylinderGeometry",this.parameters={radiusTop:A,radiusBottom:I,height:C,radialSegments:B,heightSegments:Q,openEnded:E,thetaStart:i,thetaLength:o};const t=this;B=Math.floor(B),Q=Math.floor(Q);const e=[],s=[],a=[],D=[];let n=0;const c=[],S=C/2;let r=0;l(),E===!1&&(A>0&&y(!0),I>0&&y(!1)),this.setIndex(e),this.setAttribute("position",new YC(s,3)),this.setAttribute("normal",new YC(a,3)),this.setAttribute("uv",new YC(D,2));function l(){const w=new v,N=new v;let U=0;const F=(I-A)/C;for(let p=0;p<=Q;p++){const k=[],K=p/Q,u=K*(I-A)+A;for(let T=0;T<=B;T++){const O=T/B,W=O*o+i,X=Math.sin(W),Z=Math.cos(W);N.x=u*X,N.y=-K*C+S,N.z=u*Z,s.push(N.x,N.y,N.z),w.set(X,F,Z).normalize(),a.push(w.x,w.y,w.z),D.push(O,1-K),k.push(n++)}c.push(k)}for(let p=0;p<B;p++)for(let k=0;k<Q;k++){const K=c[k][p],u=c[k+1][p],T=c[k+1][p+1],O=c[k][p+1];(A>0||k!==0)&&(e.push(K,u,O),U+=3),(I>0||k!==Q-1)&&(e.push(u,T,O),U+=3)}t.addGroup(r,U,0),r+=U}function y(w){const N=n,U=new PA,F=new v;let p=0;const k=w===!0?A:I,K=w===!0?1:-1;for(let T=1;T<=B;T++)s.push(0,S*K,0),a.push(0,K,0),D.push(.5,.5),n++;const u=n;for(let T=0;T<=B;T++){const W=T/B*o+i,X=Math.cos(W),Z=Math.sin(W);F.x=k*Z,F.y=S*K,F.z=k*X,s.push(F.x,F.y,F.z),a.push(0,K,0),U.x=X*.5+.5,U.y=Z*.5*K+.5,D.push(U.x,U.y),n++}for(let T=0;T<B;T++){const O=N+T,W=u+T;w===!0?e.push(W,W+1,O):e.push(W+1,W,O),p+=3}t.addGroup(r,p,w===!0?1:2),r+=p}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new RD(A.radiusTop,A.radiusBottom,A.height,A.radialSegments,A.heightSegments,A.openEnded,A.thetaStart,A.thetaLength)}}class Fo extends YB{constructor(A=1,I=1,C=1,B=1){super(),this.type="PlaneGeometry",this.parameters={width:A,height:I,widthSegments:C,heightSegments:B};const Q=A/2,E=I/2,i=Math.floor(C),o=Math.floor(B),t=i+1,e=o+1,s=A/i,a=I/o,D=[],n=[],c=[],S=[];for(let r=0;r<e;r++){const l=r*a-E;for(let y=0;y<t;y++){const w=y*s-Q;n.push(w,-l,0),c.push(0,0,1),S.push(y/i),S.push(1-r/o)}}for(let r=0;r<o;r++)for(let l=0;l<i;l++){const y=l+t*r,w=l+t*(r+1),N=l+1+t*(r+1),U=l+1+t*r;D.push(y,w,U),D.push(w,N,U)}this.setIndex(D),this.setAttribute("position",new YC(n,3)),this.setAttribute("normal",new YC(c,3)),this.setAttribute("uv",new YC(S,2))}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new Fo(A.width,A.height,A.widthSegments,A.heightSegments)}}class dD extends YB{constructor(A=1,I=32,C=16,B=0,Q=Math.PI*2,E=0,i=Math.PI){super(),this.type="SphereGeometry",this.parameters={radius:A,widthSegments:I,heightSegments:C,phiStart:B,phiLength:Q,thetaStart:E,thetaLength:i},I=Math.max(3,Math.floor(I)),C=Math.max(2,Math.floor(C));const o=Math.min(E+i,Math.PI);let t=0;const e=[],s=new v,a=new v,D=[],n=[],c=[],S=[];for(let r=0;r<=C;r++){const l=[],y=r/C;let w=0;r===0&&E===0?w=.5/I:r===C&&o===Math.PI&&(w=-.5/I);for(let N=0;N<=I;N++){const U=N/I;s.x=-A*Math.cos(B+U*Q)*Math.sin(E+y*i),s.y=A*Math.cos(E+y*i),s.z=A*Math.sin(B+U*Q)*Math.sin(E+y*i),n.push(s.x,s.y,s.z),a.copy(s).normalize(),c.push(a.x,a.y,a.z),S.push(U+w,1-y),l.push(t++)}e.push(l)}for(let r=0;r<C;r++)for(let l=0;l<I;l++){const y=e[r][l+1],w=e[r][l],N=e[r+1][l],U=e[r+1][l+1];(r!==0||E>0)&&D.push(y,w,U),(r!==C-1||o<Math.PI)&&D.push(w,N,U)}this.setIndex(D),this.setAttribute("position",new YC(n,3)),this.setAttribute("normal",new YC(c,3)),this.setAttribute("uv",new YC(S,2))}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new dD(A.radius,A.widthSegments,A.heightSegments,A.phiStart,A.phiLength,A.thetaStart,A.thetaLength)}}class ik extends eE{constructor(A){super(),this.isMeshStandardMaterial=!0,this.type="MeshStandardMaterial",this.defines={STANDARD:""},this.color=new cI(16777215),this.roughness=1,this.metalness=0,this.map=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.emissive=new cI(0),this.emissiveIntensity=1,this.emissiveMap=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=$S,this.normalScale=new PA(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.roughnessMap=null,this.metalnessMap=null,this.alphaMap=null,this.envMap=null,this.envMapRotation=new fC,this.envMapIntensity=1,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.flatShading=!1,this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.defines={STANDARD:""},this.color.copy(A.color),this.roughness=A.roughness,this.metalness=A.metalness,this.map=A.map,this.lightMap=A.lightMap,this.lightMapIntensity=A.lightMapIntensity,this.aoMap=A.aoMap,this.aoMapIntensity=A.aoMapIntensity,this.emissive.copy(A.emissive),this.emissiveMap=A.emissiveMap,this.emissiveIntensity=A.emissiveIntensity,this.bumpMap=A.bumpMap,this.bumpScale=A.bumpScale,this.normalMap=A.normalMap,this.normalMapType=A.normalMapType,this.normalScale.copy(A.normalScale),this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this.roughnessMap=A.roughnessMap,this.metalnessMap=A.metalnessMap,this.alphaMap=A.alphaMap,this.envMap=A.envMap,this.envMapRotation.copy(A.envMapRotation),this.envMapIntensity=A.envMapIntensity,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.wireframeLinecap=A.wireframeLinecap,this.wireframeLinejoin=A.wireframeLinejoin,this.flatShading=A.flatShading,this.fog=A.fog,this}}class ok extends eE{constructor(A){super(),this.isMeshDepthMaterial=!0,this.type="MeshDepthMaterial",this.depthPacking=Ko,this.map=null,this.alphaMap=null,this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.wireframe=!1,this.wireframeLinewidth=1,this.setValues(A)}copy(A){return super.copy(A),this.depthPacking=A.depthPacking,this.map=A.map,this.alphaMap=A.alphaMap,this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this}}class tk extends eE{constructor(A){super(),this.isMeshDistanceMaterial=!0,this.type="MeshDistanceMaterial",this.map=null,this.alphaMap=null,this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.setValues(A)}copy(A){return super.copy(A),this.map=A.map,this.alphaMap=A.alphaMap,this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this}}class sc extends vg{constructor(A,I=1){super(),this.isLight=!0,this.type="Light",this.color=new cI(A),this.intensity=I}dispose(){}copy(A,I){return super.copy(A,I),this.color.copy(A.color),this.intensity=A.intensity,this}toJSON(A){const I=super.toJSON(A);return I.object.color=this.color.getHex(),I.object.intensity=this.intensity,this.groundColor!==void 0&&(I.object.groundColor=this.groundColor.getHex()),this.distance!==void 0&&(I.object.distance=this.distance),this.angle!==void 0&&(I.object.angle=this.angle),this.decay!==void 0&&(I.object.decay=this.decay),this.penumbra!==void 0&&(I.object.penumbra=this.penumbra),this.shadow!==void 0&&(I.object.shadow=this.shadow.toJSON()),this.target!==void 0&&(I.object.target=this.target.uuid),I}}class ac extends sc{constructor(A,I,C){super(A,C),this.isHemisphereLight=!0,this.type="HemisphereLight",this.position.copy(vg.DEFAULT_UP),this.updateMatrix(),this.groundColor=new cI(I)}copy(A,I){return super.copy(A,I),this.groundColor.copy(A.groundColor),this}}const Cs=new UI,Dr=new v,nr=new v;class ek{constructor(A){this.camera=A,this.intensity=1,this.bias=0,this.normalBias=0,this.radius=1,this.blurSamples=8,this.mapSize=new PA(512,512),this.mapType=Zg,this.map=null,this.mapPass=null,this.matrix=new UI,this.autoUpdate=!0,this.needsUpdate=!1,this._frustum=new FD,this._frameExtents=new PA(1,1),this._viewportCount=1,this._viewports=[new Bg(0,0,1,1)]}getViewportCount(){return this._viewportCount}getFrustum(){return this._frustum}updateMatrices(A){const I=this.camera,C=this.matrix;Dr.setFromMatrixPosition(A.matrixWorld),I.position.copy(Dr),nr.setFromMatrixPosition(A.target.matrixWorld),I.lookAt(nr),I.updateMatrixWorld(),Cs.multiplyMatrices(I.projectionMatrix,I.matrixWorldInverse),this._frustum.setFromProjectionMatrix(Cs,I.coordinateSystem,I.reversedDepth),I.reversedDepth?C.set(.5,0,0,.5,0,.5,0,.5,0,0,1,0,0,0,0,1):C.set(.5,0,0,.5,0,.5,0,.5,0,0,.5,.5,0,0,0,1),C.multiply(Cs)}getViewport(A){return this._viewports[A]}getFrameExtents(){return this._frameExtents}dispose(){this.map&&this.map.dispose(),this.mapPass&&this.mapPass.dispose()}copy(A){return this.camera=A.camera.clone(),this.intensity=A.intensity,this.bias=A.bias,this.radius=A.radius,this.autoUpdate=A.autoUpdate,this.needsUpdate=A.needsUpdate,this.normalBias=A.normalBias,this.blurSamples=A.blurSamples,this.mapSize.copy(A.mapSize),this}clone(){return new this.constructor().copy(this)}toJSON(){const A={};return this.intensity!==1&&(A.intensity=this.intensity),this.bias!==0&&(A.bias=this.bias),this.normalBias!==0&&(A.normalBias=this.normalBias),this.radius!==1&&(A.radius=this.radius),(this.mapSize.x!==512||this.mapSize.y!==512)&&(A.mapSize=this.mapSize.toArray()),A.camera=this.camera.toJSON(!1).object,delete A.camera.matrix,A}}class Dc extends JD{constructor(A=-1,I=1,C=1,B=-1,Q=.1,E=2e3){super(),this.isOrthographicCamera=!0,this.type="OrthographicCamera",this.zoom=1,this.view=null,this.left=A,this.right=I,this.top=C,this.bottom=B,this.near=Q,this.far=E,this.updateProjectionMatrix()}copy(A,I){return super.copy(A,I),this.left=A.left,this.right=A.right,this.top=A.top,this.bottom=A.bottom,this.near=A.near,this.far=A.far,this.zoom=A.zoom,this.view=A.view===null?null:Object.assign({},A.view),this}setViewOffset(A,I,C,B,Q,E){this.view===null&&(this.view={enabled:!0,fullWidth:1,fullHeight:1,offsetX:0,offsetY:0,width:1,height:1}),this.view.enabled=!0,this.view.fullWidth=A,this.view.fullHeight=I,this.view.offsetX=C,this.view.offsetY=B,this.view.width=Q,this.view.height=E,this.updateProjectionMatrix()}clearViewOffset(){this.view!==null&&(this.view.enabled=!1),this.updateProjectionMatrix()}updateProjectionMatrix(){const A=(this.right-this.left)/(2*this.zoom),I=(this.top-this.bottom)/(2*this.zoom),C=(this.right+this.left)/2,B=(this.top+this.bottom)/2;let Q=C-A,E=C+A,i=B+I,o=B-I;if(this.view!==null&&this.view.enabled){const t=(this.right-this.left)/this.view.fullWidth/this.zoom,e=(this.top-this.bottom)/this.view.fullHeight/this.zoom;Q+=t*this.view.offsetX,E=Q+t*this.view.width,i-=e*this.view.offsetY,o=i-e*this.view.height}this.projectionMatrix.makeOrthographic(Q,E,i,o,this.near,this.far,this.coordinateSystem,this.reversedDepth),this.projectionMatrixInverse.copy(this.projectionMatrix).invert()}toJSON(A){const I=super.toJSON(A);return I.object.zoom=this.zoom,I.object.left=this.left,I.object.right=this.right,I.object.top=this.top,I.object.bottom=this.bottom,I.object.near=this.near,I.object.far=this.far,this.view!==null&&(I.object.view=Object.assign({},this.view)),I}}class sk extends ek{constructor(){super(new Dc(-5,5,5,-5,.5,500)),this.isDirectionalLightShadow=!0}}class nc extends sc{constructor(A,I){super(A,I),this.isDirectionalLight=!0,this.type="DirectionalLight",this.position.copy(vg.DEFAULT_UP),this.updateMatrix(),this.target=new vg,this.shadow=new sk}dispose(){this.shadow.dispose()}copy(A){return super.copy(A),this.target=A.target.clone(),this.shadow=A.shadow.clone(),this}}class ak extends JC{constructor(A=[]){super(),this.isArrayCamera=!0,this.isMultiViewCamera=!1,this.cameras=A}}class VA{constructor(A){this.value=A}clone(){return new VA(this.value.clone===void 0?this.value:this.value.clone())}}class Dk{constructor(A=1,I=0,C=0){this.radius=A,this.phi=I,this.theta=C}set(A,I,C){return this.radius=A,this.phi=I,this.theta=C,this}copy(A){return this.radius=A.radius,this.phi=A.phi,this.theta=A.theta,this}makeSafe(){return this.phi=sI(this.phi,1e-6,Math.PI-1e-6),this}setFromVector3(A){return this.setFromCartesianCoords(A.x,A.y,A.z)}setFromCartesianCoords(A,I,C){return this.radius=Math.sqrt(A*A+I*I+C*C),this.radius===0?(this.theta=0,this.phi=0):(this.theta=Math.atan2(A,C),this.phi=Math.acos(sI(I/this.radius,-1,1))),this}clone(){return new this.constructor().copy(this)}}function rr(g,A,I,C){const B=nk(C);switch(I){case XS:return g*A;case kD:return g*A/B.components*B.byteLength;case MD:return g*A/B.components*B.byteLength;case zS:return g*A*2/B.components*B.byteLength;case UD:return g*A*2/B.components*B.byteLength;case VS:return g*A*3/B.components*B.byteLength;case sB:return g*A*4/B.components*B.byteLength;case KD:return g*A*4/B.components*B.byteLength;case lt:case Gt:return Math.floor((g+3)/4)*Math.floor((A+3)/4)*8;case yt:case kt:return Math.floor((g+3)/4)*Math.floor((A+3)/4)*16;case oa:case ea:return Math.max(g,16)*Math.max(A,8)/4;case ia:case ta:return Math.max(g,8)*Math.max(A,8)/2;case sa:case aa:return Math.floor((g+3)/4)*Math.floor((A+3)/4)*8;case Da:return Math.floor((g+3)/4)*Math.floor((A+3)/4)*16;case na:return Math.floor((g+3)/4)*Math.floor((A+3)/4)*16;case ra:return Math.floor((g+4)/5)*Math.floor((A+3)/4)*16;case ha:return Math.floor((g+4)/5)*Math.floor((A+4)/5)*16;case Sa:return Math.floor((g+5)/6)*Math.floor((A+4)/5)*16;case ca:return Math.floor((g+5)/6)*Math.floor((A+5)/6)*16;case wa:return Math.floor((g+7)/8)*Math.floor((A+4)/5)*16;case la:return Math.floor((g+7)/8)*Math.floor((A+5)/6)*16;case Ga:return Math.floor((g+7)/8)*Math.floor((A+7)/8)*16;case ya:return Math.floor((g+9)/10)*Math.floor((A+4)/5)*16;case ka:return Math.floor((g+9)/10)*Math.floor((A+5)/6)*16;case Ma:return Math.floor((g+9)/10)*Math.floor((A+7)/8)*16;case Ua:return Math.floor((g+9)/10)*Math.floor((A+9)/10)*16;case Ka:return Math.floor((g+11)/12)*Math.floor((A+9)/10)*16;case Na:return Math.floor((g+11)/12)*Math.floor((A+11)/12)*16;case Ja:case Fa:case pa:return Math.ceil(g/4)*Math.ceil(A/4)*16;case Ra:case da:return Math.ceil(g/4)*Math.ceil(A/4)*8;case Ya:case ua:return Math.ceil(g/4)*Math.ceil(A/4)*16}throw new Error(`Unable to determine texture byte length for ${I} format.`)}function nk(g){switch(g){case Zg:case ZS:return{byteLength:1,components:1};case Bo:case WS:case Uo:return{byteLength:2,components:1};case GD:case yD:return{byteLength:2,components:4};case yQ:case lD:case MB:return{byteLength:4,components:1};case PS:case jS:return{byteLength:4,components:3}}throw new Error(`Unknown texture type ${g}.`)}typeof __THREE_DEVTOOLS__<"u"&&__THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("register",{detail:{revision:ci}}));typeof window<"u"&&(window.__THREE__?console.warn("WARNING: Multiple instances of Three.js being imported."):window.__THREE__=ci);/**
 * @license
 * Copyright 2010-2025 Three.js Authors
 * SPDX-License-Identifier: MIT
 */function rc(){let g=null,A=!1,I=null,C=null;function B(Q,E){I(Q,E),C=g.requestAnimationFrame(B)}return{start:function(){A!==!0&&I!==null&&(C=g.requestAnimationFrame(B),A=!0)},stop:function(){g.cancelAnimationFrame(C),A=!1},setAnimationLoop:function(Q){I=Q},setContext:function(Q){g=Q}}}function rk(g){const A=new WeakMap;function I(i,o){const t=i.array,e=i.usage,s=t.byteLength,a=g.createBuffer();g.bindBuffer(o,a),g.bufferData(o,t,e),i.onUploadCallback();let D;if(t instanceof Float32Array)D=g.FLOAT;else if(typeof Float16Array<"u"&&t instanceof Float16Array)D=g.HALF_FLOAT;else if(t instanceof Uint16Array)i.isFloat16BufferAttribute?D=g.HALF_FLOAT:D=g.UNSIGNED_SHORT;else if(t instanceof Int16Array)D=g.SHORT;else if(t instanceof Uint32Array)D=g.UNSIGNED_INT;else if(t instanceof Int32Array)D=g.INT;else if(t instanceof Int8Array)D=g.BYTE;else if(t instanceof Uint8Array)D=g.UNSIGNED_BYTE;else if(t instanceof Uint8ClampedArray)D=g.UNSIGNED_BYTE;else throw new Error("THREE.WebGLAttributes: Unsupported buffer data format: "+t);return{buffer:a,type:D,bytesPerElement:t.BYTES_PER_ELEMENT,version:i.version,size:s}}function C(i,o,t){const e=o.array,s=o.updateRanges;if(g.bindBuffer(t,i),s.length===0)g.bufferSubData(t,0,e);else{s.sort((D,n)=>D.start-n.start);let a=0;for(let D=1;D<s.length;D++){const n=s[a],c=s[D];c.start<=n.start+n.count+1?n.count=Math.max(n.count,c.start+c.count-n.start):(++a,s[a]=c)}s.length=a+1;for(let D=0,n=s.length;D<n;D++){const c=s[D];g.bufferSubData(t,c.start*e.BYTES_PER_ELEMENT,e,c.start,c.count)}o.clearUpdateRanges()}o.onUploadCallback()}function B(i){return i.isInterleavedBufferAttribute&&(i=i.data),A.get(i)}function Q(i){i.isInterleavedBufferAttribute&&(i=i.data);const o=A.get(i);o&&(g.deleteBuffer(o.buffer),A.delete(i))}function E(i,o){if(i.isInterleavedBufferAttribute&&(i=i.data),i.isGLBufferAttribute){const e=A.get(i);(!e||e.version<i.version)&&A.set(i,{buffer:i.buffer,type:i.type,bytesPerElement:i.elementSize,version:i.version});return}const t=A.get(i);if(t===void 0)A.set(i,I(i,o));else if(t.version<i.version){if(t.size!==i.array.byteLength)throw new Error("THREE.WebGLAttributes: The size of the buffer attribute's array buffer does not match the original size. Resizing buffer attributes is not supported.");C(t.buffer,i,o),t.version=i.version}}return{get:B,remove:Q,update:E}}var hk=`#ifdef USE_ALPHAHASH
	if ( diffuseColor.a < getAlphaHashThreshold( vPosition ) ) discard;
#endif`,Sk=`#ifdef USE_ALPHAHASH
	const float ALPHA_HASH_SCALE = 0.05;
	float hash2D( vec2 value ) {
		return fract( 1.0e4 * sin( 17.0 * value.x + 0.1 * value.y ) * ( 0.1 + abs( sin( 13.0 * value.y + value.x ) ) ) );
	}
	float hash3D( vec3 value ) {
		return hash2D( vec2( hash2D( value.xy ), value.z ) );
	}
	float getAlphaHashThreshold( vec3 position ) {
		float maxDeriv = max(
			length( dFdx( position.xyz ) ),
			length( dFdy( position.xyz ) )
		);
		float pixScale = 1.0 / ( ALPHA_HASH_SCALE * maxDeriv );
		vec2 pixScales = vec2(
			exp2( floor( log2( pixScale ) ) ),
			exp2( ceil( log2( pixScale ) ) )
		);
		vec2 alpha = vec2(
			hash3D( floor( pixScales.x * position.xyz ) ),
			hash3D( floor( pixScales.y * position.xyz ) )
		);
		float lerpFactor = fract( log2( pixScale ) );
		float x = ( 1.0 - lerpFactor ) * alpha.x + lerpFactor * alpha.y;
		float a = min( lerpFactor, 1.0 - lerpFactor );
		vec3 cases = vec3(
			x * x / ( 2.0 * a * ( 1.0 - a ) ),
			( x - 0.5 * a ) / ( 1.0 - a ),
			1.0 - ( ( 1.0 - x ) * ( 1.0 - x ) / ( 2.0 * a * ( 1.0 - a ) ) )
		);
		float threshold = ( x < ( 1.0 - a ) )
			? ( ( x < a ) ? cases.x : cases.y )
			: cases.z;
		return clamp( threshold , 1.0e-6, 1.0 );
	}
#endif`,ck=`#ifdef USE_ALPHAMAP
	diffuseColor.a *= texture2D( alphaMap, vAlphaMapUv ).g;
#endif`,wk=`#ifdef USE_ALPHAMAP
	uniform sampler2D alphaMap;
#endif`,lk=`#ifdef USE_ALPHATEST
	#ifdef ALPHA_TO_COVERAGE
	diffuseColor.a = smoothstep( alphaTest, alphaTest + fwidth( diffuseColor.a ), diffuseColor.a );
	if ( diffuseColor.a == 0.0 ) discard;
	#else
	if ( diffuseColor.a < alphaTest ) discard;
	#endif
#endif`,Gk=`#ifdef USE_ALPHATEST
	uniform float alphaTest;
#endif`,yk=`#ifdef USE_AOMAP
	float ambientOcclusion = ( texture2D( aoMap, vAoMapUv ).r - 1.0 ) * aoMapIntensity + 1.0;
	reflectedLight.indirectDiffuse *= ambientOcclusion;
	#if defined( USE_CLEARCOAT ) 
		clearcoatSpecularIndirect *= ambientOcclusion;
	#endif
	#if defined( USE_SHEEN ) 
		sheenSpecularIndirect *= ambientOcclusion;
	#endif
	#if defined( USE_ENVMAP ) && defined( STANDARD )
		float dotNV = saturate( dot( geometryNormal, geometryViewDir ) );
		reflectedLight.indirectSpecular *= computeSpecularOcclusion( dotNV, ambientOcclusion, material.roughness );
	#endif
#endif`,kk=`#ifdef USE_AOMAP
	uniform sampler2D aoMap;
	uniform float aoMapIntensity;
#endif`,Mk=`#ifdef USE_BATCHING
	#if ! defined( GL_ANGLE_multi_draw )
	#define gl_DrawID _gl_DrawID
	uniform int _gl_DrawID;
	#endif
	uniform highp sampler2D batchingTexture;
	uniform highp usampler2D batchingIdTexture;
	mat4 getBatchingMatrix( const in float i ) {
		int size = textureSize( batchingTexture, 0 ).x;
		int j = int( i ) * 4;
		int x = j % size;
		int y = j / size;
		vec4 v1 = texelFetch( batchingTexture, ivec2( x, y ), 0 );
		vec4 v2 = texelFetch( batchingTexture, ivec2( x + 1, y ), 0 );
		vec4 v3 = texelFetch( batchingTexture, ivec2( x + 2, y ), 0 );
		vec4 v4 = texelFetch( batchingTexture, ivec2( x + 3, y ), 0 );
		return mat4( v1, v2, v3, v4 );
	}
	float getIndirectIndex( const in int i ) {
		int size = textureSize( batchingIdTexture, 0 ).x;
		int x = i % size;
		int y = i / size;
		return float( texelFetch( batchingIdTexture, ivec2( x, y ), 0 ).r );
	}
#endif
#ifdef USE_BATCHING_COLOR
	uniform sampler2D batchingColorTexture;
	vec3 getBatchingColor( const in float i ) {
		int size = textureSize( batchingColorTexture, 0 ).x;
		int j = int( i );
		int x = j % size;
		int y = j / size;
		return texelFetch( batchingColorTexture, ivec2( x, y ), 0 ).rgb;
	}
#endif`,Uk=`#ifdef USE_BATCHING
	mat4 batchingMatrix = getBatchingMatrix( getIndirectIndex( gl_DrawID ) );
#endif`,Kk=`vec3 transformed = vec3( position );
#ifdef USE_ALPHAHASH
	vPosition = vec3( position );
#endif`,Nk=`vec3 objectNormal = vec3( normal );
#ifdef USE_TANGENT
	vec3 objectTangent = vec3( tangent.xyz );
#endif`,Jk=`float G_BlinnPhong_Implicit( ) {
	return 0.25;
}
float D_BlinnPhong( const in float shininess, const in float dotNH ) {
	return RECIPROCAL_PI * ( shininess * 0.5 + 1.0 ) * pow( dotNH, shininess );
}
vec3 BRDF_BlinnPhong( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, const in vec3 specularColor, const in float shininess ) {
	vec3 halfDir = normalize( lightDir + viewDir );
	float dotNH = saturate( dot( normal, halfDir ) );
	float dotVH = saturate( dot( viewDir, halfDir ) );
	vec3 F = F_Schlick( specularColor, 1.0, dotVH );
	float G = G_BlinnPhong_Implicit( );
	float D = D_BlinnPhong( shininess, dotNH );
	return F * ( G * D );
} // validated`,Fk=`#ifdef USE_IRIDESCENCE
	const mat3 XYZ_TO_REC709 = mat3(
		 3.2404542, -0.9692660,  0.0556434,
		-1.5371385,  1.8760108, -0.2040259,
		-0.4985314,  0.0415560,  1.0572252
	);
	vec3 Fresnel0ToIor( vec3 fresnel0 ) {
		vec3 sqrtF0 = sqrt( fresnel0 );
		return ( vec3( 1.0 ) + sqrtF0 ) / ( vec3( 1.0 ) - sqrtF0 );
	}
	vec3 IorToFresnel0( vec3 transmittedIor, float incidentIor ) {
		return pow2( ( transmittedIor - vec3( incidentIor ) ) / ( transmittedIor + vec3( incidentIor ) ) );
	}
	float IorToFresnel0( float transmittedIor, float incidentIor ) {
		return pow2( ( transmittedIor - incidentIor ) / ( transmittedIor + incidentIor ));
	}
	vec3 evalSensitivity( float OPD, vec3 shift ) {
		float phase = 2.0 * PI * OPD * 1.0e-9;
		vec3 val = vec3( 5.4856e-13, 4.4201e-13, 5.2481e-13 );
		vec3 pos = vec3( 1.6810e+06, 1.7953e+06, 2.2084e+06 );
		vec3 var = vec3( 4.3278e+09, 9.3046e+09, 6.6121e+09 );
		vec3 xyz = val * sqrt( 2.0 * PI * var ) * cos( pos * phase + shift ) * exp( - pow2( phase ) * var );
		xyz.x += 9.7470e-14 * sqrt( 2.0 * PI * 4.5282e+09 ) * cos( 2.2399e+06 * phase + shift[ 0 ] ) * exp( - 4.5282e+09 * pow2( phase ) );
		xyz /= 1.0685e-7;
		vec3 rgb = XYZ_TO_REC709 * xyz;
		return rgb;
	}
	vec3 evalIridescence( float outsideIOR, float eta2, float cosTheta1, float thinFilmThickness, vec3 baseF0 ) {
		vec3 I;
		float iridescenceIOR = mix( outsideIOR, eta2, smoothstep( 0.0, 0.03, thinFilmThickness ) );
		float sinTheta2Sq = pow2( outsideIOR / iridescenceIOR ) * ( 1.0 - pow2( cosTheta1 ) );
		float cosTheta2Sq = 1.0 - sinTheta2Sq;
		if ( cosTheta2Sq < 0.0 ) {
			return vec3( 1.0 );
		}
		float cosTheta2 = sqrt( cosTheta2Sq );
		float R0 = IorToFresnel0( iridescenceIOR, outsideIOR );
		float R12 = F_Schlick( R0, 1.0, cosTheta1 );
		float T121 = 1.0 - R12;
		float phi12 = 0.0;
		if ( iridescenceIOR < outsideIOR ) phi12 = PI;
		float phi21 = PI - phi12;
		vec3 baseIOR = Fresnel0ToIor( clamp( baseF0, 0.0, 0.9999 ) );		vec3 R1 = IorToFresnel0( baseIOR, iridescenceIOR );
		vec3 R23 = F_Schlick( R1, 1.0, cosTheta2 );
		vec3 phi23 = vec3( 0.0 );
		if ( baseIOR[ 0 ] < iridescenceIOR ) phi23[ 0 ] = PI;
		if ( baseIOR[ 1 ] < iridescenceIOR ) phi23[ 1 ] = PI;
		if ( baseIOR[ 2 ] < iridescenceIOR ) phi23[ 2 ] = PI;
		float OPD = 2.0 * iridescenceIOR * thinFilmThickness * cosTheta2;
		vec3 phi = vec3( phi21 ) + phi23;
		vec3 R123 = clamp( R12 * R23, 1e-5, 0.9999 );
		vec3 r123 = sqrt( R123 );
		vec3 Rs = pow2( T121 ) * R23 / ( vec3( 1.0 ) - R123 );
		vec3 C0 = R12 + Rs;
		I = C0;
		vec3 Cm = Rs - T121;
		for ( int m = 1; m <= 2; ++ m ) {
			Cm *= r123;
			vec3 Sm = 2.0 * evalSensitivity( float( m ) * OPD, float( m ) * phi );
			I += Cm * Sm;
		}
		return max( I, vec3( 0.0 ) );
	}
#endif`,pk=`#ifdef USE_BUMPMAP
	uniform sampler2D bumpMap;
	uniform float bumpScale;
	vec2 dHdxy_fwd() {
		vec2 dSTdx = dFdx( vBumpMapUv );
		vec2 dSTdy = dFdy( vBumpMapUv );
		float Hll = bumpScale * texture2D( bumpMap, vBumpMapUv ).x;
		float dBx = bumpScale * texture2D( bumpMap, vBumpMapUv + dSTdx ).x - Hll;
		float dBy = bumpScale * texture2D( bumpMap, vBumpMapUv + dSTdy ).x - Hll;
		return vec2( dBx, dBy );
	}
	vec3 perturbNormalArb( vec3 surf_pos, vec3 surf_norm, vec2 dHdxy, float faceDirection ) {
		vec3 vSigmaX = normalize( dFdx( surf_pos.xyz ) );
		vec3 vSigmaY = normalize( dFdy( surf_pos.xyz ) );
		vec3 vN = surf_norm;
		vec3 R1 = cross( vSigmaY, vN );
		vec3 R2 = cross( vN, vSigmaX );
		float fDet = dot( vSigmaX, R1 ) * faceDirection;
		vec3 vGrad = sign( fDet ) * ( dHdxy.x * R1 + dHdxy.y * R2 );
		return normalize( abs( fDet ) * surf_norm - vGrad );
	}
#endif`,Rk=`#if NUM_CLIPPING_PLANES > 0
	vec4 plane;
	#ifdef ALPHA_TO_COVERAGE
		float distanceToPlane, distanceGradient;
		float clipOpacity = 1.0;
		#pragma unroll_loop_start
		for ( int i = 0; i < UNION_CLIPPING_PLANES; i ++ ) {
			plane = clippingPlanes[ i ];
			distanceToPlane = - dot( vClipPosition, plane.xyz ) + plane.w;
			distanceGradient = fwidth( distanceToPlane ) / 2.0;
			clipOpacity *= smoothstep( - distanceGradient, distanceGradient, distanceToPlane );
			if ( clipOpacity == 0.0 ) discard;
		}
		#pragma unroll_loop_end
		#if UNION_CLIPPING_PLANES < NUM_CLIPPING_PLANES
			float unionClipOpacity = 1.0;
			#pragma unroll_loop_start
			for ( int i = UNION_CLIPPING_PLANES; i < NUM_CLIPPING_PLANES; i ++ ) {
				plane = clippingPlanes[ i ];
				distanceToPlane = - dot( vClipPosition, plane.xyz ) + plane.w;
				distanceGradient = fwidth( distanceToPlane ) / 2.0;
				unionClipOpacity *= 1.0 - smoothstep( - distanceGradient, distanceGradient, distanceToPlane );
			}
			#pragma unroll_loop_end
			clipOpacity *= 1.0 - unionClipOpacity;
		#endif
		diffuseColor.a *= clipOpacity;
		if ( diffuseColor.a == 0.0 ) discard;
	#else
		#pragma unroll_loop_start
		for ( int i = 0; i < UNION_CLIPPING_PLANES; i ++ ) {
			plane = clippingPlanes[ i ];
			if ( dot( vClipPosition, plane.xyz ) > plane.w ) discard;
		}
		#pragma unroll_loop_end
		#if UNION_CLIPPING_PLANES < NUM_CLIPPING_PLANES
			bool clipped = true;
			#pragma unroll_loop_start
			for ( int i = UNION_CLIPPING_PLANES; i < NUM_CLIPPING_PLANES; i ++ ) {
				plane = clippingPlanes[ i ];
				clipped = ( dot( vClipPosition, plane.xyz ) > plane.w ) && clipped;
			}
			#pragma unroll_loop_end
			if ( clipped ) discard;
		#endif
	#endif
#endif`,dk=`#if NUM_CLIPPING_PLANES > 0
	varying vec3 vClipPosition;
	uniform vec4 clippingPlanes[ NUM_CLIPPING_PLANES ];
#endif`,Yk=`#if NUM_CLIPPING_PLANES > 0
	varying vec3 vClipPosition;
#endif`,uk=`#if NUM_CLIPPING_PLANES > 0
	vClipPosition = - mvPosition.xyz;
#endif`,qk=`#if defined( USE_COLOR_ALPHA )
	diffuseColor *= vColor;
#elif defined( USE_COLOR )
	diffuseColor.rgb *= vColor;
#endif`,fk=`#if defined( USE_COLOR_ALPHA )
	varying vec4 vColor;
#elif defined( USE_COLOR )
	varying vec3 vColor;
#endif`,Lk=`#if defined( USE_COLOR_ALPHA )
	varying vec4 vColor;
#elif defined( USE_COLOR ) || defined( USE_INSTANCING_COLOR ) || defined( USE_BATCHING_COLOR )
	varying vec3 vColor;
#endif`,Hk=`#if defined( USE_COLOR_ALPHA )
	vColor = vec4( 1.0 );
#elif defined( USE_COLOR ) || defined( USE_INSTANCING_COLOR ) || defined( USE_BATCHING_COLOR )
	vColor = vec3( 1.0 );
#endif
#ifdef USE_COLOR
	vColor *= color;
#endif
#ifdef USE_INSTANCING_COLOR
	vColor.xyz *= instanceColor.xyz;
#endif
#ifdef USE_BATCHING_COLOR
	vec3 batchingColor = getBatchingColor( getIndirectIndex( gl_DrawID ) );
	vColor.xyz *= batchingColor.xyz;
#endif`,mk=`#define PI 3.141592653589793
#define PI2 6.283185307179586
#define PI_HALF 1.5707963267948966
#define RECIPROCAL_PI 0.3183098861837907
#define RECIPROCAL_PI2 0.15915494309189535
#define EPSILON 1e-6
#ifndef saturate
#define saturate( a ) clamp( a, 0.0, 1.0 )
#endif
#define whiteComplement( a ) ( 1.0 - saturate( a ) )
float pow2( const in float x ) { return x*x; }
vec3 pow2( const in vec3 x ) { return x*x; }
float pow3( const in float x ) { return x*x*x; }
float pow4( const in float x ) { float x2 = x*x; return x2*x2; }
float max3( const in vec3 v ) { return max( max( v.x, v.y ), v.z ); }
float average( const in vec3 v ) { return dot( v, vec3( 0.3333333 ) ); }
highp float rand( const in vec2 uv ) {
	const highp float a = 12.9898, b = 78.233, c = 43758.5453;
	highp float dt = dot( uv.xy, vec2( a,b ) ), sn = mod( dt, PI );
	return fract( sin( sn ) * c );
}
#ifdef HIGH_PRECISION
	float precisionSafeLength( vec3 v ) { return length( v ); }
#else
	float precisionSafeLength( vec3 v ) {
		float maxComponent = max3( abs( v ) );
		return length( v / maxComponent ) * maxComponent;
	}
#endif
struct IncidentLight {
	vec3 color;
	vec3 direction;
	bool visible;
};
struct ReflectedLight {
	vec3 directDiffuse;
	vec3 directSpecular;
	vec3 indirectDiffuse;
	vec3 indirectSpecular;
};
#ifdef USE_ALPHAHASH
	varying vec3 vPosition;
#endif
vec3 transformDirection( in vec3 dir, in mat4 matrix ) {
	return normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );
}
vec3 inverseTransformDirection( in vec3 dir, in mat4 matrix ) {
	return normalize( ( vec4( dir, 0.0 ) * matrix ).xyz );
}
mat3 transposeMat3( const in mat3 m ) {
	mat3 tmp;
	tmp[ 0 ] = vec3( m[ 0 ].x, m[ 1 ].x, m[ 2 ].x );
	tmp[ 1 ] = vec3( m[ 0 ].y, m[ 1 ].y, m[ 2 ].y );
	tmp[ 2 ] = vec3( m[ 0 ].z, m[ 1 ].z, m[ 2 ].z );
	return tmp;
}
bool isPerspectiveMatrix( mat4 m ) {
	return m[ 2 ][ 3 ] == - 1.0;
}
vec2 equirectUv( in vec3 dir ) {
	float u = atan( dir.z, dir.x ) * RECIPROCAL_PI2 + 0.5;
	float v = asin( clamp( dir.y, - 1.0, 1.0 ) ) * RECIPROCAL_PI + 0.5;
	return vec2( u, v );
}
vec3 BRDF_Lambert( const in vec3 diffuseColor ) {
	return RECIPROCAL_PI * diffuseColor;
}
vec3 F_Schlick( const in vec3 f0, const in float f90, const in float dotVH ) {
	float fresnel = exp2( ( - 5.55473 * dotVH - 6.98316 ) * dotVH );
	return f0 * ( 1.0 - fresnel ) + ( f90 * fresnel );
}
float F_Schlick( const in float f0, const in float f90, const in float dotVH ) {
	float fresnel = exp2( ( - 5.55473 * dotVH - 6.98316 ) * dotVH );
	return f0 * ( 1.0 - fresnel ) + ( f90 * fresnel );
} // validated`,Tk=`#ifdef ENVMAP_TYPE_CUBE_UV
	#define cubeUV_minMipLevel 4.0
	#define cubeUV_minTileSize 16.0
	float getFace( vec3 direction ) {
		vec3 absDirection = abs( direction );
		float face = - 1.0;
		if ( absDirection.x > absDirection.z ) {
			if ( absDirection.x > absDirection.y )
				face = direction.x > 0.0 ? 0.0 : 3.0;
			else
				face = direction.y > 0.0 ? 1.0 : 4.0;
		} else {
			if ( absDirection.z > absDirection.y )
				face = direction.z > 0.0 ? 2.0 : 5.0;
			else
				face = direction.y > 0.0 ? 1.0 : 4.0;
		}
		return face;
	}
	vec2 getUV( vec3 direction, float face ) {
		vec2 uv;
		if ( face == 0.0 ) {
			uv = vec2( direction.z, direction.y ) / abs( direction.x );
		} else if ( face == 1.0 ) {
			uv = vec2( - direction.x, - direction.z ) / abs( direction.y );
		} else if ( face == 2.0 ) {
			uv = vec2( - direction.x, direction.y ) / abs( direction.z );
		} else if ( face == 3.0 ) {
			uv = vec2( - direction.z, direction.y ) / abs( direction.x );
		} else if ( face == 4.0 ) {
			uv = vec2( - direction.x, direction.z ) / abs( direction.y );
		} else {
			uv = vec2( direction.x, direction.y ) / abs( direction.z );
		}
		return 0.5 * ( uv + 1.0 );
	}
	vec3 bilinearCubeUV( sampler2D envMap, vec3 direction, float mipInt ) {
		float face = getFace( direction );
		float filterInt = max( cubeUV_minMipLevel - mipInt, 0.0 );
		mipInt = max( mipInt, cubeUV_minMipLevel );
		float faceSize = exp2( mipInt );
		highp vec2 uv = getUV( direction, face ) * ( faceSize - 2.0 ) + 1.0;
		if ( face > 2.0 ) {
			uv.y += faceSize;
			face -= 3.0;
		}
		uv.x += face * faceSize;
		uv.x += filterInt * 3.0 * cubeUV_minTileSize;
		uv.y += 4.0 * ( exp2( CUBEUV_MAX_MIP ) - faceSize );
		uv.x *= CUBEUV_TEXEL_WIDTH;
		uv.y *= CUBEUV_TEXEL_HEIGHT;
		#ifdef texture2DGradEXT
			return texture2DGradEXT( envMap, uv, vec2( 0.0 ), vec2( 0.0 ) ).rgb;
		#else
			return texture2D( envMap, uv ).rgb;
		#endif
	}
	#define cubeUV_r0 1.0
	#define cubeUV_m0 - 2.0
	#define cubeUV_r1 0.8
	#define cubeUV_m1 - 1.0
	#define cubeUV_r4 0.4
	#define cubeUV_m4 2.0
	#define cubeUV_r5 0.305
	#define cubeUV_m5 3.0
	#define cubeUV_r6 0.21
	#define cubeUV_m6 4.0
	float roughnessToMip( float roughness ) {
		float mip = 0.0;
		if ( roughness >= cubeUV_r1 ) {
			mip = ( cubeUV_r0 - roughness ) * ( cubeUV_m1 - cubeUV_m0 ) / ( cubeUV_r0 - cubeUV_r1 ) + cubeUV_m0;
		} else if ( roughness >= cubeUV_r4 ) {
			mip = ( cubeUV_r1 - roughness ) * ( cubeUV_m4 - cubeUV_m1 ) / ( cubeUV_r1 - cubeUV_r4 ) + cubeUV_m1;
		} else if ( roughness >= cubeUV_r5 ) {
			mip = ( cubeUV_r4 - roughness ) * ( cubeUV_m5 - cubeUV_m4 ) / ( cubeUV_r4 - cubeUV_r5 ) + cubeUV_m4;
		} else if ( roughness >= cubeUV_r6 ) {
			mip = ( cubeUV_r5 - roughness ) * ( cubeUV_m6 - cubeUV_m5 ) / ( cubeUV_r5 - cubeUV_r6 ) + cubeUV_m5;
		} else {
			mip = - 2.0 * log2( 1.16 * roughness );		}
		return mip;
	}
	vec4 textureCubeUV( sampler2D envMap, vec3 sampleDir, float roughness ) {
		float mip = clamp( roughnessToMip( roughness ), cubeUV_m0, CUBEUV_MAX_MIP );
		float mipF = fract( mip );
		float mipInt = floor( mip );
		vec3 color0 = bilinearCubeUV( envMap, sampleDir, mipInt );
		if ( mipF == 0.0 ) {
			return vec4( color0, 1.0 );
		} else {
			vec3 color1 = bilinearCubeUV( envMap, sampleDir, mipInt + 1.0 );
			return vec4( mix( color0, color1, mipF ), 1.0 );
		}
	}
#endif`,xk=`vec3 transformedNormal = objectNormal;
#ifdef USE_TANGENT
	vec3 transformedTangent = objectTangent;
#endif
#ifdef USE_BATCHING
	mat3 bm = mat3( batchingMatrix );
	transformedNormal /= vec3( dot( bm[ 0 ], bm[ 0 ] ), dot( bm[ 1 ], bm[ 1 ] ), dot( bm[ 2 ], bm[ 2 ] ) );
	transformedNormal = bm * transformedNormal;
	#ifdef USE_TANGENT
		transformedTangent = bm * transformedTangent;
	#endif
#endif
#ifdef USE_INSTANCING
	mat3 im = mat3( instanceMatrix );
	transformedNormal /= vec3( dot( im[ 0 ], im[ 0 ] ), dot( im[ 1 ], im[ 1 ] ), dot( im[ 2 ], im[ 2 ] ) );
	transformedNormal = im * transformedNormal;
	#ifdef USE_TANGENT
		transformedTangent = im * transformedTangent;
	#endif
#endif
transformedNormal = normalMatrix * transformedNormal;
#ifdef FLIP_SIDED
	transformedNormal = - transformedNormal;
#endif
#ifdef USE_TANGENT
	transformedTangent = ( modelViewMatrix * vec4( transformedTangent, 0.0 ) ).xyz;
	#ifdef FLIP_SIDED
		transformedTangent = - transformedTangent;
	#endif
#endif`,bk=`#ifdef USE_DISPLACEMENTMAP
	uniform sampler2D displacementMap;
	uniform float displacementScale;
	uniform float displacementBias;
#endif`,Ok=`#ifdef USE_DISPLACEMENTMAP
	transformed += normalize( objectNormal ) * ( texture2D( displacementMap, vDisplacementMapUv ).x * displacementScale + displacementBias );
#endif`,vk=`#ifdef USE_EMISSIVEMAP
	vec4 emissiveColor = texture2D( emissiveMap, vEmissiveMapUv );
	#ifdef DECODE_VIDEO_TEXTURE_EMISSIVE
		emissiveColor = sRGBTransferEOTF( emissiveColor );
	#endif
	totalEmissiveRadiance *= emissiveColor.rgb;
#endif`,_k=`#ifdef USE_EMISSIVEMAP
	uniform sampler2D emissiveMap;
#endif`,Zk="gl_FragColor = linearToOutputTexel( gl_FragColor );",Wk=`vec4 LinearTransferOETF( in vec4 value ) {
	return value;
}
vec4 sRGBTransferEOTF( in vec4 value ) {
	return vec4( mix( pow( value.rgb * 0.9478672986 + vec3( 0.0521327014 ), vec3( 2.4 ) ), value.rgb * 0.0773993808, vec3( lessThanEqual( value.rgb, vec3( 0.04045 ) ) ) ), value.a );
}
vec4 sRGBTransferOETF( in vec4 value ) {
	return vec4( mix( pow( value.rgb, vec3( 0.41666 ) ) * 1.055 - vec3( 0.055 ), value.rgb * 12.92, vec3( lessThanEqual( value.rgb, vec3( 0.0031308 ) ) ) ), value.a );
}`,Pk=`#ifdef USE_ENVMAP
	#ifdef ENV_WORLDPOS
		vec3 cameraToFrag;
		if ( isOrthographic ) {
			cameraToFrag = normalize( vec3( - viewMatrix[ 0 ][ 2 ], - viewMatrix[ 1 ][ 2 ], - viewMatrix[ 2 ][ 2 ] ) );
		} else {
			cameraToFrag = normalize( vWorldPosition - cameraPosition );
		}
		vec3 worldNormal = inverseTransformDirection( normal, viewMatrix );
		#ifdef ENVMAP_MODE_REFLECTION
			vec3 reflectVec = reflect( cameraToFrag, worldNormal );
		#else
			vec3 reflectVec = refract( cameraToFrag, worldNormal, refractionRatio );
		#endif
	#else
		vec3 reflectVec = vReflect;
	#endif
	#ifdef ENVMAP_TYPE_CUBE
		vec4 envColor = textureCube( envMap, envMapRotation * vec3( flipEnvMap * reflectVec.x, reflectVec.yz ) );
	#else
		vec4 envColor = vec4( 0.0 );
	#endif
	#ifdef ENVMAP_BLENDING_MULTIPLY
		outgoingLight = mix( outgoingLight, outgoingLight * envColor.xyz, specularStrength * reflectivity );
	#elif defined( ENVMAP_BLENDING_MIX )
		outgoingLight = mix( outgoingLight, envColor.xyz, specularStrength * reflectivity );
	#elif defined( ENVMAP_BLENDING_ADD )
		outgoingLight += envColor.xyz * specularStrength * reflectivity;
	#endif
#endif`,jk=`#ifdef USE_ENVMAP
	uniform float envMapIntensity;
	uniform float flipEnvMap;
	uniform mat3 envMapRotation;
	#ifdef ENVMAP_TYPE_CUBE
		uniform samplerCube envMap;
	#else
		uniform sampler2D envMap;
	#endif
	
#endif`,Xk=`#ifdef USE_ENVMAP
	uniform float reflectivity;
	#if defined( USE_BUMPMAP ) || defined( USE_NORMALMAP ) || defined( PHONG ) || defined( LAMBERT )
		#define ENV_WORLDPOS
	#endif
	#ifdef ENV_WORLDPOS
		varying vec3 vWorldPosition;
		uniform float refractionRatio;
	#else
		varying vec3 vReflect;
	#endif
#endif`,Vk=`#ifdef USE_ENVMAP
	#if defined( USE_BUMPMAP ) || defined( USE_NORMALMAP ) || defined( PHONG ) || defined( LAMBERT )
		#define ENV_WORLDPOS
	#endif
	#ifdef ENV_WORLDPOS
		
		varying vec3 vWorldPosition;
	#else
		varying vec3 vReflect;
		uniform float refractionRatio;
	#endif
#endif`,zk=`#ifdef USE_ENVMAP
	#ifdef ENV_WORLDPOS
		vWorldPosition = worldPosition.xyz;
	#else
		vec3 cameraToVertex;
		if ( isOrthographic ) {
			cameraToVertex = normalize( vec3( - viewMatrix[ 0 ][ 2 ], - viewMatrix[ 1 ][ 2 ], - viewMatrix[ 2 ][ 2 ] ) );
		} else {
			cameraToVertex = normalize( worldPosition.xyz - cameraPosition );
		}
		vec3 worldNormal = inverseTransformDirection( transformedNormal, viewMatrix );
		#ifdef ENVMAP_MODE_REFLECTION
			vReflect = reflect( cameraToVertex, worldNormal );
		#else
			vReflect = refract( cameraToVertex, worldNormal, refractionRatio );
		#endif
	#endif
#endif`,$k=`#ifdef USE_FOG
	vFogDepth = - mvPosition.z;
#endif`,AM=`#ifdef USE_FOG
	varying float vFogDepth;
#endif`,IM=`#ifdef USE_FOG
	#ifdef FOG_EXP2
		float fogFactor = 1.0 - exp( - fogDensity * fogDensity * vFogDepth * vFogDepth );
	#else
		float fogFactor = smoothstep( fogNear, fogFar, vFogDepth );
	#endif
	gl_FragColor.rgb = mix( gl_FragColor.rgb, fogColor, fogFactor );
#endif`,gM=`#ifdef USE_FOG
	uniform vec3 fogColor;
	varying float vFogDepth;
	#ifdef FOG_EXP2
		uniform float fogDensity;
	#else
		uniform float fogNear;
		uniform float fogFar;
	#endif
#endif`,CM=`#ifdef USE_GRADIENTMAP
	uniform sampler2D gradientMap;
#endif
vec3 getGradientIrradiance( vec3 normal, vec3 lightDirection ) {
	float dotNL = dot( normal, lightDirection );
	vec2 coord = vec2( dotNL * 0.5 + 0.5, 0.0 );
	#ifdef USE_GRADIENTMAP
		return vec3( texture2D( gradientMap, coord ).r );
	#else
		vec2 fw = fwidth( coord ) * 0.5;
		return mix( vec3( 0.7 ), vec3( 1.0 ), smoothstep( 0.7 - fw.x, 0.7 + fw.x, coord.x ) );
	#endif
}`,BM=`#ifdef USE_LIGHTMAP
	uniform sampler2D lightMap;
	uniform float lightMapIntensity;
#endif`,QM=`LambertMaterial material;
material.diffuseColor = diffuseColor.rgb;
material.specularStrength = specularStrength;`,EM=`varying vec3 vViewPosition;
struct LambertMaterial {
	vec3 diffuseColor;
	float specularStrength;
};
void RE_Direct_Lambert( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in LambertMaterial material, inout ReflectedLight reflectedLight ) {
	float dotNL = saturate( dot( geometryNormal, directLight.direction ) );
	vec3 irradiance = dotNL * directLight.color;
	reflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
void RE_IndirectDiffuse_Lambert( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in LambertMaterial material, inout ReflectedLight reflectedLight ) {
	reflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
#define RE_Direct				RE_Direct_Lambert
#define RE_IndirectDiffuse		RE_IndirectDiffuse_Lambert`,iM=`uniform bool receiveShadow;
uniform vec3 ambientLightColor;
#if defined( USE_LIGHT_PROBES )
	uniform vec3 lightProbe[ 9 ];
#endif
vec3 shGetIrradianceAt( in vec3 normal, in vec3 shCoefficients[ 9 ] ) {
	float x = normal.x, y = normal.y, z = normal.z;
	vec3 result = shCoefficients[ 0 ] * 0.886227;
	result += shCoefficients[ 1 ] * 2.0 * 0.511664 * y;
	result += shCoefficients[ 2 ] * 2.0 * 0.511664 * z;
	result += shCoefficients[ 3 ] * 2.0 * 0.511664 * x;
	result += shCoefficients[ 4 ] * 2.0 * 0.429043 * x * y;
	result += shCoefficients[ 5 ] * 2.0 * 0.429043 * y * z;
	result += shCoefficients[ 6 ] * ( 0.743125 * z * z - 0.247708 );
	result += shCoefficients[ 7 ] * 2.0 * 0.429043 * x * z;
	result += shCoefficients[ 8 ] * 0.429043 * ( x * x - y * y );
	return result;
}
vec3 getLightProbeIrradiance( const in vec3 lightProbe[ 9 ], const in vec3 normal ) {
	vec3 worldNormal = inverseTransformDirection( normal, viewMatrix );
	vec3 irradiance = shGetIrradianceAt( worldNormal, lightProbe );
	return irradiance;
}
vec3 getAmbientLightIrradiance( const in vec3 ambientLightColor ) {
	vec3 irradiance = ambientLightColor;
	return irradiance;
}
float getDistanceAttenuation( const in float lightDistance, const in float cutoffDistance, const in float decayExponent ) {
	float distanceFalloff = 1.0 / max( pow( lightDistance, decayExponent ), 0.01 );
	if ( cutoffDistance > 0.0 ) {
		distanceFalloff *= pow2( saturate( 1.0 - pow4( lightDistance / cutoffDistance ) ) );
	}
	return distanceFalloff;
}
float getSpotAttenuation( const in float coneCosine, const in float penumbraCosine, const in float angleCosine ) {
	return smoothstep( coneCosine, penumbraCosine, angleCosine );
}
#if NUM_DIR_LIGHTS > 0
	struct DirectionalLight {
		vec3 direction;
		vec3 color;
	};
	uniform DirectionalLight directionalLights[ NUM_DIR_LIGHTS ];
	void getDirectionalLightInfo( const in DirectionalLight directionalLight, out IncidentLight light ) {
		light.color = directionalLight.color;
		light.direction = directionalLight.direction;
		light.visible = true;
	}
#endif
#if NUM_POINT_LIGHTS > 0
	struct PointLight {
		vec3 position;
		vec3 color;
		float distance;
		float decay;
	};
	uniform PointLight pointLights[ NUM_POINT_LIGHTS ];
	void getPointLightInfo( const in PointLight pointLight, const in vec3 geometryPosition, out IncidentLight light ) {
		vec3 lVector = pointLight.position - geometryPosition;
		light.direction = normalize( lVector );
		float lightDistance = length( lVector );
		light.color = pointLight.color;
		light.color *= getDistanceAttenuation( lightDistance, pointLight.distance, pointLight.decay );
		light.visible = ( light.color != vec3( 0.0 ) );
	}
#endif
#if NUM_SPOT_LIGHTS > 0
	struct SpotLight {
		vec3 position;
		vec3 direction;
		vec3 color;
		float distance;
		float decay;
		float coneCos;
		float penumbraCos;
	};
	uniform SpotLight spotLights[ NUM_SPOT_LIGHTS ];
	void getSpotLightInfo( const in SpotLight spotLight, const in vec3 geometryPosition, out IncidentLight light ) {
		vec3 lVector = spotLight.position - geometryPosition;
		light.direction = normalize( lVector );
		float angleCos = dot( light.direction, spotLight.direction );
		float spotAttenuation = getSpotAttenuation( spotLight.coneCos, spotLight.penumbraCos, angleCos );
		if ( spotAttenuation > 0.0 ) {
			float lightDistance = length( lVector );
			light.color = spotLight.color * spotAttenuation;
			light.color *= getDistanceAttenuation( lightDistance, spotLight.distance, spotLight.decay );
			light.visible = ( light.color != vec3( 0.0 ) );
		} else {
			light.color = vec3( 0.0 );
			light.visible = false;
		}
	}
#endif
#if NUM_RECT_AREA_LIGHTS > 0
	struct RectAreaLight {
		vec3 color;
		vec3 position;
		vec3 halfWidth;
		vec3 halfHeight;
	};
	uniform sampler2D ltc_1;	uniform sampler2D ltc_2;
	uniform RectAreaLight rectAreaLights[ NUM_RECT_AREA_LIGHTS ];
#endif
#if NUM_HEMI_LIGHTS > 0
	struct HemisphereLight {
		vec3 direction;
		vec3 skyColor;
		vec3 groundColor;
	};
	uniform HemisphereLight hemisphereLights[ NUM_HEMI_LIGHTS ];
	vec3 getHemisphereLightIrradiance( const in HemisphereLight hemiLight, const in vec3 normal ) {
		float dotNL = dot( normal, hemiLight.direction );
		float hemiDiffuseWeight = 0.5 * dotNL + 0.5;
		vec3 irradiance = mix( hemiLight.groundColor, hemiLight.skyColor, hemiDiffuseWeight );
		return irradiance;
	}
#endif`,oM=`#ifdef USE_ENVMAP
	vec3 getIBLIrradiance( const in vec3 normal ) {
		#ifdef ENVMAP_TYPE_CUBE_UV
			vec3 worldNormal = inverseTransformDirection( normal, viewMatrix );
			vec4 envMapColor = textureCubeUV( envMap, envMapRotation * worldNormal, 1.0 );
			return PI * envMapColor.rgb * envMapIntensity;
		#else
			return vec3( 0.0 );
		#endif
	}
	vec3 getIBLRadiance( const in vec3 viewDir, const in vec3 normal, const in float roughness ) {
		#ifdef ENVMAP_TYPE_CUBE_UV
			vec3 reflectVec = reflect( - viewDir, normal );
			reflectVec = normalize( mix( reflectVec, normal, roughness * roughness) );
			reflectVec = inverseTransformDirection( reflectVec, viewMatrix );
			vec4 envMapColor = textureCubeUV( envMap, envMapRotation * reflectVec, roughness );
			return envMapColor.rgb * envMapIntensity;
		#else
			return vec3( 0.0 );
		#endif
	}
	#ifdef USE_ANISOTROPY
		vec3 getIBLAnisotropyRadiance( const in vec3 viewDir, const in vec3 normal, const in float roughness, const in vec3 bitangent, const in float anisotropy ) {
			#ifdef ENVMAP_TYPE_CUBE_UV
				vec3 bentNormal = cross( bitangent, viewDir );
				bentNormal = normalize( cross( bentNormal, bitangent ) );
				bentNormal = normalize( mix( bentNormal, normal, pow2( pow2( 1.0 - anisotropy * ( 1.0 - roughness ) ) ) ) );
				return getIBLRadiance( viewDir, bentNormal, roughness );
			#else
				return vec3( 0.0 );
			#endif
		}
	#endif
#endif`,tM=`ToonMaterial material;
material.diffuseColor = diffuseColor.rgb;`,eM=`varying vec3 vViewPosition;
struct ToonMaterial {
	vec3 diffuseColor;
};
void RE_Direct_Toon( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in ToonMaterial material, inout ReflectedLight reflectedLight ) {
	vec3 irradiance = getGradientIrradiance( geometryNormal, directLight.direction ) * directLight.color;
	reflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
void RE_IndirectDiffuse_Toon( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in ToonMaterial material, inout ReflectedLight reflectedLight ) {
	reflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
#define RE_Direct				RE_Direct_Toon
#define RE_IndirectDiffuse		RE_IndirectDiffuse_Toon`,sM=`BlinnPhongMaterial material;
material.diffuseColor = diffuseColor.rgb;
material.specularColor = specular;
material.specularShininess = shininess;
material.specularStrength = specularStrength;`,aM=`varying vec3 vViewPosition;
struct BlinnPhongMaterial {
	vec3 diffuseColor;
	vec3 specularColor;
	float specularShininess;
	float specularStrength;
};
void RE_Direct_BlinnPhong( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in BlinnPhongMaterial material, inout ReflectedLight reflectedLight ) {
	float dotNL = saturate( dot( geometryNormal, directLight.direction ) );
	vec3 irradiance = dotNL * directLight.color;
	reflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
	reflectedLight.directSpecular += irradiance * BRDF_BlinnPhong( directLight.direction, geometryViewDir, geometryNormal, material.specularColor, material.specularShininess ) * material.specularStrength;
}
void RE_IndirectDiffuse_BlinnPhong( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in BlinnPhongMaterial material, inout ReflectedLight reflectedLight ) {
	reflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
#define RE_Direct				RE_Direct_BlinnPhong
#define RE_IndirectDiffuse		RE_IndirectDiffuse_BlinnPhong`,DM=`PhysicalMaterial material;
material.diffuseColor = diffuseColor.rgb * ( 1.0 - metalnessFactor );
vec3 dxy = max( abs( dFdx( nonPerturbedNormal ) ), abs( dFdy( nonPerturbedNormal ) ) );
float geometryRoughness = max( max( dxy.x, dxy.y ), dxy.z );
material.roughness = max( roughnessFactor, 0.0525 );material.roughness += geometryRoughness;
material.roughness = min( material.roughness, 1.0 );
#ifdef IOR
	material.ior = ior;
	#ifdef USE_SPECULAR
		float specularIntensityFactor = specularIntensity;
		vec3 specularColorFactor = specularColor;
		#ifdef USE_SPECULAR_COLORMAP
			specularColorFactor *= texture2D( specularColorMap, vSpecularColorMapUv ).rgb;
		#endif
		#ifdef USE_SPECULAR_INTENSITYMAP
			specularIntensityFactor *= texture2D( specularIntensityMap, vSpecularIntensityMapUv ).a;
		#endif
		material.specularF90 = mix( specularIntensityFactor, 1.0, metalnessFactor );
	#else
		float specularIntensityFactor = 1.0;
		vec3 specularColorFactor = vec3( 1.0 );
		material.specularF90 = 1.0;
	#endif
	material.specularColor = mix( min( pow2( ( material.ior - 1.0 ) / ( material.ior + 1.0 ) ) * specularColorFactor, vec3( 1.0 ) ) * specularIntensityFactor, diffuseColor.rgb, metalnessFactor );
#else
	material.specularColor = mix( vec3( 0.04 ), diffuseColor.rgb, metalnessFactor );
	material.specularF90 = 1.0;
#endif
#ifdef USE_CLEARCOAT
	material.clearcoat = clearcoat;
	material.clearcoatRoughness = clearcoatRoughness;
	material.clearcoatF0 = vec3( 0.04 );
	material.clearcoatF90 = 1.0;
	#ifdef USE_CLEARCOATMAP
		material.clearcoat *= texture2D( clearcoatMap, vClearcoatMapUv ).x;
	#endif
	#ifdef USE_CLEARCOAT_ROUGHNESSMAP
		material.clearcoatRoughness *= texture2D( clearcoatRoughnessMap, vClearcoatRoughnessMapUv ).y;
	#endif
	material.clearcoat = saturate( material.clearcoat );	material.clearcoatRoughness = max( material.clearcoatRoughness, 0.0525 );
	material.clearcoatRoughness += geometryRoughness;
	material.clearcoatRoughness = min( material.clearcoatRoughness, 1.0 );
#endif
#ifdef USE_DISPERSION
	material.dispersion = dispersion;
#endif
#ifdef USE_IRIDESCENCE
	material.iridescence = iridescence;
	material.iridescenceIOR = iridescenceIOR;
	#ifdef USE_IRIDESCENCEMAP
		material.iridescence *= texture2D( iridescenceMap, vIridescenceMapUv ).r;
	#endif
	#ifdef USE_IRIDESCENCE_THICKNESSMAP
		material.iridescenceThickness = (iridescenceThicknessMaximum - iridescenceThicknessMinimum) * texture2D( iridescenceThicknessMap, vIridescenceThicknessMapUv ).g + iridescenceThicknessMinimum;
	#else
		material.iridescenceThickness = iridescenceThicknessMaximum;
	#endif
#endif
#ifdef USE_SHEEN
	material.sheenColor = sheenColor;
	#ifdef USE_SHEEN_COLORMAP
		material.sheenColor *= texture2D( sheenColorMap, vSheenColorMapUv ).rgb;
	#endif
	material.sheenRoughness = clamp( sheenRoughness, 0.07, 1.0 );
	#ifdef USE_SHEEN_ROUGHNESSMAP
		material.sheenRoughness *= texture2D( sheenRoughnessMap, vSheenRoughnessMapUv ).a;
	#endif
#endif
#ifdef USE_ANISOTROPY
	#ifdef USE_ANISOTROPYMAP
		mat2 anisotropyMat = mat2( anisotropyVector.x, anisotropyVector.y, - anisotropyVector.y, anisotropyVector.x );
		vec3 anisotropyPolar = texture2D( anisotropyMap, vAnisotropyMapUv ).rgb;
		vec2 anisotropyV = anisotropyMat * normalize( 2.0 * anisotropyPolar.rg - vec2( 1.0 ) ) * anisotropyPolar.b;
	#else
		vec2 anisotropyV = anisotropyVector;
	#endif
	material.anisotropy = length( anisotropyV );
	if( material.anisotropy == 0.0 ) {
		anisotropyV = vec2( 1.0, 0.0 );
	} else {
		anisotropyV /= material.anisotropy;
		material.anisotropy = saturate( material.anisotropy );
	}
	material.alphaT = mix( pow2( material.roughness ), 1.0, pow2( material.anisotropy ) );
	material.anisotropyT = tbn[ 0 ] * anisotropyV.x + tbn[ 1 ] * anisotropyV.y;
	material.anisotropyB = tbn[ 1 ] * anisotropyV.x - tbn[ 0 ] * anisotropyV.y;
#endif`,nM=`struct PhysicalMaterial {
	vec3 diffuseColor;
	float roughness;
	vec3 specularColor;
	float specularF90;
	float dispersion;
	#ifdef USE_CLEARCOAT
		float clearcoat;
		float clearcoatRoughness;
		vec3 clearcoatF0;
		float clearcoatF90;
	#endif
	#ifdef USE_IRIDESCENCE
		float iridescence;
		float iridescenceIOR;
		float iridescenceThickness;
		vec3 iridescenceFresnel;
		vec3 iridescenceF0;
	#endif
	#ifdef USE_SHEEN
		vec3 sheenColor;
		float sheenRoughness;
	#endif
	#ifdef IOR
		float ior;
	#endif
	#ifdef USE_TRANSMISSION
		float transmission;
		float transmissionAlpha;
		float thickness;
		float attenuationDistance;
		vec3 attenuationColor;
	#endif
	#ifdef USE_ANISOTROPY
		float anisotropy;
		float alphaT;
		vec3 anisotropyT;
		vec3 anisotropyB;
	#endif
};
vec3 clearcoatSpecularDirect = vec3( 0.0 );
vec3 clearcoatSpecularIndirect = vec3( 0.0 );
vec3 sheenSpecularDirect = vec3( 0.0 );
vec3 sheenSpecularIndirect = vec3(0.0 );
vec3 Schlick_to_F0( const in vec3 f, const in float f90, const in float dotVH ) {
    float x = clamp( 1.0 - dotVH, 0.0, 1.0 );
    float x2 = x * x;
    float x5 = clamp( x * x2 * x2, 0.0, 0.9999 );
    return ( f - vec3( f90 ) * x5 ) / ( 1.0 - x5 );
}
float V_GGX_SmithCorrelated( const in float alpha, const in float dotNL, const in float dotNV ) {
	float a2 = pow2( alpha );
	float gv = dotNL * sqrt( a2 + ( 1.0 - a2 ) * pow2( dotNV ) );
	float gl = dotNV * sqrt( a2 + ( 1.0 - a2 ) * pow2( dotNL ) );
	return 0.5 / max( gv + gl, EPSILON );
}
float D_GGX( const in float alpha, const in float dotNH ) {
	float a2 = pow2( alpha );
	float denom = pow2( dotNH ) * ( a2 - 1.0 ) + 1.0;
	return RECIPROCAL_PI * a2 / pow2( denom );
}
#ifdef USE_ANISOTROPY
	float V_GGX_SmithCorrelated_Anisotropic( const in float alphaT, const in float alphaB, const in float dotTV, const in float dotBV, const in float dotTL, const in float dotBL, const in float dotNV, const in float dotNL ) {
		float gv = dotNL * length( vec3( alphaT * dotTV, alphaB * dotBV, dotNV ) );
		float gl = dotNV * length( vec3( alphaT * dotTL, alphaB * dotBL, dotNL ) );
		float v = 0.5 / ( gv + gl );
		return saturate(v);
	}
	float D_GGX_Anisotropic( const in float alphaT, const in float alphaB, const in float dotNH, const in float dotTH, const in float dotBH ) {
		float a2 = alphaT * alphaB;
		highp vec3 v = vec3( alphaB * dotTH, alphaT * dotBH, a2 * dotNH );
		highp float v2 = dot( v, v );
		float w2 = a2 / v2;
		return RECIPROCAL_PI * a2 * pow2 ( w2 );
	}
#endif
#ifdef USE_CLEARCOAT
	vec3 BRDF_GGX_Clearcoat( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, const in PhysicalMaterial material) {
		vec3 f0 = material.clearcoatF0;
		float f90 = material.clearcoatF90;
		float roughness = material.clearcoatRoughness;
		float alpha = pow2( roughness );
		vec3 halfDir = normalize( lightDir + viewDir );
		float dotNL = saturate( dot( normal, lightDir ) );
		float dotNV = saturate( dot( normal, viewDir ) );
		float dotNH = saturate( dot( normal, halfDir ) );
		float dotVH = saturate( dot( viewDir, halfDir ) );
		vec3 F = F_Schlick( f0, f90, dotVH );
		float V = V_GGX_SmithCorrelated( alpha, dotNL, dotNV );
		float D = D_GGX( alpha, dotNH );
		return F * ( V * D );
	}
#endif
vec3 BRDF_GGX( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, const in PhysicalMaterial material ) {
	vec3 f0 = material.specularColor;
	float f90 = material.specularF90;
	float roughness = material.roughness;
	float alpha = pow2( roughness );
	vec3 halfDir = normalize( lightDir + viewDir );
	float dotNL = saturate( dot( normal, lightDir ) );
	float dotNV = saturate( dot( normal, viewDir ) );
	float dotNH = saturate( dot( normal, halfDir ) );
	float dotVH = saturate( dot( viewDir, halfDir ) );
	vec3 F = F_Schlick( f0, f90, dotVH );
	#ifdef USE_IRIDESCENCE
		F = mix( F, material.iridescenceFresnel, material.iridescence );
	#endif
	#ifdef USE_ANISOTROPY
		float dotTL = dot( material.anisotropyT, lightDir );
		float dotTV = dot( material.anisotropyT, viewDir );
		float dotTH = dot( material.anisotropyT, halfDir );
		float dotBL = dot( material.anisotropyB, lightDir );
		float dotBV = dot( material.anisotropyB, viewDir );
		float dotBH = dot( material.anisotropyB, halfDir );
		float V = V_GGX_SmithCorrelated_Anisotropic( material.alphaT, alpha, dotTV, dotBV, dotTL, dotBL, dotNV, dotNL );
		float D = D_GGX_Anisotropic( material.alphaT, alpha, dotNH, dotTH, dotBH );
	#else
		float V = V_GGX_SmithCorrelated( alpha, dotNL, dotNV );
		float D = D_GGX( alpha, dotNH );
	#endif
	return F * ( V * D );
}
vec2 LTC_Uv( const in vec3 N, const in vec3 V, const in float roughness ) {
	const float LUT_SIZE = 64.0;
	const float LUT_SCALE = ( LUT_SIZE - 1.0 ) / LUT_SIZE;
	const float LUT_BIAS = 0.5 / LUT_SIZE;
	float dotNV = saturate( dot( N, V ) );
	vec2 uv = vec2( roughness, sqrt( 1.0 - dotNV ) );
	uv = uv * LUT_SCALE + LUT_BIAS;
	return uv;
}
float LTC_ClippedSphereFormFactor( const in vec3 f ) {
	float l = length( f );
	return max( ( l * l + f.z ) / ( l + 1.0 ), 0.0 );
}
vec3 LTC_EdgeVectorFormFactor( const in vec3 v1, const in vec3 v2 ) {
	float x = dot( v1, v2 );
	float y = abs( x );
	float a = 0.8543985 + ( 0.4965155 + 0.0145206 * y ) * y;
	float b = 3.4175940 + ( 4.1616724 + y ) * y;
	float v = a / b;
	float theta_sintheta = ( x > 0.0 ) ? v : 0.5 * inversesqrt( max( 1.0 - x * x, 1e-7 ) ) - v;
	return cross( v1, v2 ) * theta_sintheta;
}
vec3 LTC_Evaluate( const in vec3 N, const in vec3 V, const in vec3 P, const in mat3 mInv, const in vec3 rectCoords[ 4 ] ) {
	vec3 v1 = rectCoords[ 1 ] - rectCoords[ 0 ];
	vec3 v2 = rectCoords[ 3 ] - rectCoords[ 0 ];
	vec3 lightNormal = cross( v1, v2 );
	if( dot( lightNormal, P - rectCoords[ 0 ] ) < 0.0 ) return vec3( 0.0 );
	vec3 T1, T2;
	T1 = normalize( V - N * dot( V, N ) );
	T2 = - cross( N, T1 );
	mat3 mat = mInv * transposeMat3( mat3( T1, T2, N ) );
	vec3 coords[ 4 ];
	coords[ 0 ] = mat * ( rectCoords[ 0 ] - P );
	coords[ 1 ] = mat * ( rectCoords[ 1 ] - P );
	coords[ 2 ] = mat * ( rectCoords[ 2 ] - P );
	coords[ 3 ] = mat * ( rectCoords[ 3 ] - P );
	coords[ 0 ] = normalize( coords[ 0 ] );
	coords[ 1 ] = normalize( coords[ 1 ] );
	coords[ 2 ] = normalize( coords[ 2 ] );
	coords[ 3 ] = normalize( coords[ 3 ] );
	vec3 vectorFormFactor = vec3( 0.0 );
	vectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 0 ], coords[ 1 ] );
	vectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 1 ], coords[ 2 ] );
	vectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 2 ], coords[ 3 ] );
	vectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 3 ], coords[ 0 ] );
	float result = LTC_ClippedSphereFormFactor( vectorFormFactor );
	return vec3( result );
}
#if defined( USE_SHEEN )
float D_Charlie( float roughness, float dotNH ) {
	float alpha = pow2( roughness );
	float invAlpha = 1.0 / alpha;
	float cos2h = dotNH * dotNH;
	float sin2h = max( 1.0 - cos2h, 0.0078125 );
	return ( 2.0 + invAlpha ) * pow( sin2h, invAlpha * 0.5 ) / ( 2.0 * PI );
}
float V_Neubelt( float dotNV, float dotNL ) {
	return saturate( 1.0 / ( 4.0 * ( dotNL + dotNV - dotNL * dotNV ) ) );
}
vec3 BRDF_Sheen( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, vec3 sheenColor, const in float sheenRoughness ) {
	vec3 halfDir = normalize( lightDir + viewDir );
	float dotNL = saturate( dot( normal, lightDir ) );
	float dotNV = saturate( dot( normal, viewDir ) );
	float dotNH = saturate( dot( normal, halfDir ) );
	float D = D_Charlie( sheenRoughness, dotNH );
	float V = V_Neubelt( dotNV, dotNL );
	return sheenColor * ( D * V );
}
#endif
float IBLSheenBRDF( const in vec3 normal, const in vec3 viewDir, const in float roughness ) {
	float dotNV = saturate( dot( normal, viewDir ) );
	float r2 = roughness * roughness;
	float a = roughness < 0.25 ? -339.2 * r2 + 161.4 * roughness - 25.9 : -8.48 * r2 + 14.3 * roughness - 9.95;
	float b = roughness < 0.25 ? 44.0 * r2 - 23.7 * roughness + 3.26 : 1.97 * r2 - 3.27 * roughness + 0.72;
	float DG = exp( a * dotNV + b ) + ( roughness < 0.25 ? 0.0 : 0.1 * ( roughness - 0.25 ) );
	return saturate( DG * RECIPROCAL_PI );
}
vec2 DFGApprox( const in vec3 normal, const in vec3 viewDir, const in float roughness ) {
	float dotNV = saturate( dot( normal, viewDir ) );
	const vec4 c0 = vec4( - 1, - 0.0275, - 0.572, 0.022 );
	const vec4 c1 = vec4( 1, 0.0425, 1.04, - 0.04 );
	vec4 r = roughness * c0 + c1;
	float a004 = min( r.x * r.x, exp2( - 9.28 * dotNV ) ) * r.x + r.y;
	vec2 fab = vec2( - 1.04, 1.04 ) * a004 + r.zw;
	return fab;
}
vec3 EnvironmentBRDF( const in vec3 normal, const in vec3 viewDir, const in vec3 specularColor, const in float specularF90, const in float roughness ) {
	vec2 fab = DFGApprox( normal, viewDir, roughness );
	return specularColor * fab.x + specularF90 * fab.y;
}
#ifdef USE_IRIDESCENCE
void computeMultiscatteringIridescence( const in vec3 normal, const in vec3 viewDir, const in vec3 specularColor, const in float specularF90, const in float iridescence, const in vec3 iridescenceF0, const in float roughness, inout vec3 singleScatter, inout vec3 multiScatter ) {
#else
void computeMultiscattering( const in vec3 normal, const in vec3 viewDir, const in vec3 specularColor, const in float specularF90, const in float roughness, inout vec3 singleScatter, inout vec3 multiScatter ) {
#endif
	vec2 fab = DFGApprox( normal, viewDir, roughness );
	#ifdef USE_IRIDESCENCE
		vec3 Fr = mix( specularColor, iridescenceF0, iridescence );
	#else
		vec3 Fr = specularColor;
	#endif
	vec3 FssEss = Fr * fab.x + specularF90 * fab.y;
	float Ess = fab.x + fab.y;
	float Ems = 1.0 - Ess;
	vec3 Favg = Fr + ( 1.0 - Fr ) * 0.047619;	vec3 Fms = FssEss * Favg / ( 1.0 - Ems * Favg );
	singleScatter += FssEss;
	multiScatter += Fms * Ems;
}
#if NUM_RECT_AREA_LIGHTS > 0
	void RE_Direct_RectArea_Physical( const in RectAreaLight rectAreaLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight ) {
		vec3 normal = geometryNormal;
		vec3 viewDir = geometryViewDir;
		vec3 position = geometryPosition;
		vec3 lightPos = rectAreaLight.position;
		vec3 halfWidth = rectAreaLight.halfWidth;
		vec3 halfHeight = rectAreaLight.halfHeight;
		vec3 lightColor = rectAreaLight.color;
		float roughness = material.roughness;
		vec3 rectCoords[ 4 ];
		rectCoords[ 0 ] = lightPos + halfWidth - halfHeight;		rectCoords[ 1 ] = lightPos - halfWidth - halfHeight;
		rectCoords[ 2 ] = lightPos - halfWidth + halfHeight;
		rectCoords[ 3 ] = lightPos + halfWidth + halfHeight;
		vec2 uv = LTC_Uv( normal, viewDir, roughness );
		vec4 t1 = texture2D( ltc_1, uv );
		vec4 t2 = texture2D( ltc_2, uv );
		mat3 mInv = mat3(
			vec3( t1.x, 0, t1.y ),
			vec3(    0, 1,    0 ),
			vec3( t1.z, 0, t1.w )
		);
		vec3 fresnel = ( material.specularColor * t2.x + ( vec3( 1.0 ) - material.specularColor ) * t2.y );
		reflectedLight.directSpecular += lightColor * fresnel * LTC_Evaluate( normal, viewDir, position, mInv, rectCoords );
		reflectedLight.directDiffuse += lightColor * material.diffuseColor * LTC_Evaluate( normal, viewDir, position, mat3( 1.0 ), rectCoords );
	}
#endif
void RE_Direct_Physical( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight ) {
	float dotNL = saturate( dot( geometryNormal, directLight.direction ) );
	vec3 irradiance = dotNL * directLight.color;
	#ifdef USE_CLEARCOAT
		float dotNLcc = saturate( dot( geometryClearcoatNormal, directLight.direction ) );
		vec3 ccIrradiance = dotNLcc * directLight.color;
		clearcoatSpecularDirect += ccIrradiance * BRDF_GGX_Clearcoat( directLight.direction, geometryViewDir, geometryClearcoatNormal, material );
	#endif
	#ifdef USE_SHEEN
		sheenSpecularDirect += irradiance * BRDF_Sheen( directLight.direction, geometryViewDir, geometryNormal, material.sheenColor, material.sheenRoughness );
	#endif
	reflectedLight.directSpecular += irradiance * BRDF_GGX( directLight.direction, geometryViewDir, geometryNormal, material );
	reflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
void RE_IndirectDiffuse_Physical( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight ) {
	reflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
void RE_IndirectSpecular_Physical( const in vec3 radiance, const in vec3 irradiance, const in vec3 clearcoatRadiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight) {
	#ifdef USE_CLEARCOAT
		clearcoatSpecularIndirect += clearcoatRadiance * EnvironmentBRDF( geometryClearcoatNormal, geometryViewDir, material.clearcoatF0, material.clearcoatF90, material.clearcoatRoughness );
	#endif
	#ifdef USE_SHEEN
		sheenSpecularIndirect += irradiance * material.sheenColor * IBLSheenBRDF( geometryNormal, geometryViewDir, material.sheenRoughness );
	#endif
	vec3 singleScattering = vec3( 0.0 );
	vec3 multiScattering = vec3( 0.0 );
	vec3 cosineWeightedIrradiance = irradiance * RECIPROCAL_PI;
	#ifdef USE_IRIDESCENCE
		computeMultiscatteringIridescence( geometryNormal, geometryViewDir, material.specularColor, material.specularF90, material.iridescence, material.iridescenceFresnel, material.roughness, singleScattering, multiScattering );
	#else
		computeMultiscattering( geometryNormal, geometryViewDir, material.specularColor, material.specularF90, material.roughness, singleScattering, multiScattering );
	#endif
	vec3 totalScattering = singleScattering + multiScattering;
	vec3 diffuse = material.diffuseColor * ( 1.0 - max( max( totalScattering.r, totalScattering.g ), totalScattering.b ) );
	reflectedLight.indirectSpecular += radiance * singleScattering;
	reflectedLight.indirectSpecular += multiScattering * cosineWeightedIrradiance;
	reflectedLight.indirectDiffuse += diffuse * cosineWeightedIrradiance;
}
#define RE_Direct				RE_Direct_Physical
#define RE_Direct_RectArea		RE_Direct_RectArea_Physical
#define RE_IndirectDiffuse		RE_IndirectDiffuse_Physical
#define RE_IndirectSpecular		RE_IndirectSpecular_Physical
float computeSpecularOcclusion( const in float dotNV, const in float ambientOcclusion, const in float roughness ) {
	return saturate( pow( dotNV + ambientOcclusion, exp2( - 16.0 * roughness - 1.0 ) ) - 1.0 + ambientOcclusion );
}`,rM=`
vec3 geometryPosition = - vViewPosition;
vec3 geometryNormal = normal;
vec3 geometryViewDir = ( isOrthographic ) ? vec3( 0, 0, 1 ) : normalize( vViewPosition );
vec3 geometryClearcoatNormal = vec3( 0.0 );
#ifdef USE_CLEARCOAT
	geometryClearcoatNormal = clearcoatNormal;
#endif
#ifdef USE_IRIDESCENCE
	float dotNVi = saturate( dot( normal, geometryViewDir ) );
	if ( material.iridescenceThickness == 0.0 ) {
		material.iridescence = 0.0;
	} else {
		material.iridescence = saturate( material.iridescence );
	}
	if ( material.iridescence > 0.0 ) {
		material.iridescenceFresnel = evalIridescence( 1.0, material.iridescenceIOR, dotNVi, material.iridescenceThickness, material.specularColor );
		material.iridescenceF0 = Schlick_to_F0( material.iridescenceFresnel, 1.0, dotNVi );
	}
#endif
IncidentLight directLight;
#if ( NUM_POINT_LIGHTS > 0 ) && defined( RE_Direct )
	PointLight pointLight;
	#if defined( USE_SHADOWMAP ) && NUM_POINT_LIGHT_SHADOWS > 0
	PointLightShadow pointLightShadow;
	#endif
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_POINT_LIGHTS; i ++ ) {
		pointLight = pointLights[ i ];
		getPointLightInfo( pointLight, geometryPosition, directLight );
		#if defined( USE_SHADOWMAP ) && ( UNROLLED_LOOP_INDEX < NUM_POINT_LIGHT_SHADOWS )
		pointLightShadow = pointLightShadows[ i ];
		directLight.color *= ( directLight.visible && receiveShadow ) ? getPointShadow( pointShadowMap[ i ], pointLightShadow.shadowMapSize, pointLightShadow.shadowIntensity, pointLightShadow.shadowBias, pointLightShadow.shadowRadius, vPointShadowCoord[ i ], pointLightShadow.shadowCameraNear, pointLightShadow.shadowCameraFar ) : 1.0;
		#endif
		RE_Direct( directLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
	}
	#pragma unroll_loop_end
#endif
#if ( NUM_SPOT_LIGHTS > 0 ) && defined( RE_Direct )
	SpotLight spotLight;
	vec4 spotColor;
	vec3 spotLightCoord;
	bool inSpotLightMap;
	#if defined( USE_SHADOWMAP ) && NUM_SPOT_LIGHT_SHADOWS > 0
	SpotLightShadow spotLightShadow;
	#endif
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_SPOT_LIGHTS; i ++ ) {
		spotLight = spotLights[ i ];
		getSpotLightInfo( spotLight, geometryPosition, directLight );
		#if ( UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS_WITH_MAPS )
		#define SPOT_LIGHT_MAP_INDEX UNROLLED_LOOP_INDEX
		#elif ( UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS )
		#define SPOT_LIGHT_MAP_INDEX NUM_SPOT_LIGHT_MAPS
		#else
		#define SPOT_LIGHT_MAP_INDEX ( UNROLLED_LOOP_INDEX - NUM_SPOT_LIGHT_SHADOWS + NUM_SPOT_LIGHT_SHADOWS_WITH_MAPS )
		#endif
		#if ( SPOT_LIGHT_MAP_INDEX < NUM_SPOT_LIGHT_MAPS )
			spotLightCoord = vSpotLightCoord[ i ].xyz / vSpotLightCoord[ i ].w;
			inSpotLightMap = all( lessThan( abs( spotLightCoord * 2. - 1. ), vec3( 1.0 ) ) );
			spotColor = texture2D( spotLightMap[ SPOT_LIGHT_MAP_INDEX ], spotLightCoord.xy );
			directLight.color = inSpotLightMap ? directLight.color * spotColor.rgb : directLight.color;
		#endif
		#undef SPOT_LIGHT_MAP_INDEX
		#if defined( USE_SHADOWMAP ) && ( UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS )
		spotLightShadow = spotLightShadows[ i ];
		directLight.color *= ( directLight.visible && receiveShadow ) ? getShadow( spotShadowMap[ i ], spotLightShadow.shadowMapSize, spotLightShadow.shadowIntensity, spotLightShadow.shadowBias, spotLightShadow.shadowRadius, vSpotLightCoord[ i ] ) : 1.0;
		#endif
		RE_Direct( directLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
	}
	#pragma unroll_loop_end
#endif
#if ( NUM_DIR_LIGHTS > 0 ) && defined( RE_Direct )
	DirectionalLight directionalLight;
	#if defined( USE_SHADOWMAP ) && NUM_DIR_LIGHT_SHADOWS > 0
	DirectionalLightShadow directionalLightShadow;
	#endif
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_DIR_LIGHTS; i ++ ) {
		directionalLight = directionalLights[ i ];
		getDirectionalLightInfo( directionalLight, directLight );
		#if defined( USE_SHADOWMAP ) && ( UNROLLED_LOOP_INDEX < NUM_DIR_LIGHT_SHADOWS )
		directionalLightShadow = directionalLightShadows[ i ];
		directLight.color *= ( directLight.visible && receiveShadow ) ? getShadow( directionalShadowMap[ i ], directionalLightShadow.shadowMapSize, directionalLightShadow.shadowIntensity, directionalLightShadow.shadowBias, directionalLightShadow.shadowRadius, vDirectionalShadowCoord[ i ] ) : 1.0;
		#endif
		RE_Direct( directLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
	}
	#pragma unroll_loop_end
#endif
#if ( NUM_RECT_AREA_LIGHTS > 0 ) && defined( RE_Direct_RectArea )
	RectAreaLight rectAreaLight;
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_RECT_AREA_LIGHTS; i ++ ) {
		rectAreaLight = rectAreaLights[ i ];
		RE_Direct_RectArea( rectAreaLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
	}
	#pragma unroll_loop_end
#endif
#if defined( RE_IndirectDiffuse )
	vec3 iblIrradiance = vec3( 0.0 );
	vec3 irradiance = getAmbientLightIrradiance( ambientLightColor );
	#if defined( USE_LIGHT_PROBES )
		irradiance += getLightProbeIrradiance( lightProbe, geometryNormal );
	#endif
	#if ( NUM_HEMI_LIGHTS > 0 )
		#pragma unroll_loop_start
		for ( int i = 0; i < NUM_HEMI_LIGHTS; i ++ ) {
			irradiance += getHemisphereLightIrradiance( hemisphereLights[ i ], geometryNormal );
		}
		#pragma unroll_loop_end
	#endif
#endif
#if defined( RE_IndirectSpecular )
	vec3 radiance = vec3( 0.0 );
	vec3 clearcoatRadiance = vec3( 0.0 );
#endif`,hM=`#if defined( RE_IndirectDiffuse )
	#ifdef USE_LIGHTMAP
		vec4 lightMapTexel = texture2D( lightMap, vLightMapUv );
		vec3 lightMapIrradiance = lightMapTexel.rgb * lightMapIntensity;
		irradiance += lightMapIrradiance;
	#endif
	#if defined( USE_ENVMAP ) && defined( STANDARD ) && defined( ENVMAP_TYPE_CUBE_UV )
		iblIrradiance += getIBLIrradiance( geometryNormal );
	#endif
#endif
#if defined( USE_ENVMAP ) && defined( RE_IndirectSpecular )
	#ifdef USE_ANISOTROPY
		radiance += getIBLAnisotropyRadiance( geometryViewDir, geometryNormal, material.roughness, material.anisotropyB, material.anisotropy );
	#else
		radiance += getIBLRadiance( geometryViewDir, geometryNormal, material.roughness );
	#endif
	#ifdef USE_CLEARCOAT
		clearcoatRadiance += getIBLRadiance( geometryViewDir, geometryClearcoatNormal, material.clearcoatRoughness );
	#endif
#endif`,SM=`#if defined( RE_IndirectDiffuse )
	RE_IndirectDiffuse( irradiance, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
#endif
#if defined( RE_IndirectSpecular )
	RE_IndirectSpecular( radiance, iblIrradiance, clearcoatRadiance, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
#endif`,cM=`#if defined( USE_LOGARITHMIC_DEPTH_BUFFER )
	gl_FragDepth = vIsPerspective == 0.0 ? gl_FragCoord.z : log2( vFragDepth ) * logDepthBufFC * 0.5;
#endif`,wM=`#if defined( USE_LOGARITHMIC_DEPTH_BUFFER )
	uniform float logDepthBufFC;
	varying float vFragDepth;
	varying float vIsPerspective;
#endif`,lM=`#ifdef USE_LOGARITHMIC_DEPTH_BUFFER
	varying float vFragDepth;
	varying float vIsPerspective;
#endif`,GM=`#ifdef USE_LOGARITHMIC_DEPTH_BUFFER
	vFragDepth = 1.0 + gl_Position.w;
	vIsPerspective = float( isPerspectiveMatrix( projectionMatrix ) );
#endif`,yM=`#ifdef USE_MAP
	vec4 sampledDiffuseColor = texture2D( map, vMapUv );
	#ifdef DECODE_VIDEO_TEXTURE
		sampledDiffuseColor = sRGBTransferEOTF( sampledDiffuseColor );
	#endif
	diffuseColor *= sampledDiffuseColor;
#endif`,kM=`#ifdef USE_MAP
	uniform sampler2D map;
#endif`,MM=`#if defined( USE_MAP ) || defined( USE_ALPHAMAP )
	#if defined( USE_POINTS_UV )
		vec2 uv = vUv;
	#else
		vec2 uv = ( uvTransform * vec3( gl_PointCoord.x, 1.0 - gl_PointCoord.y, 1 ) ).xy;
	#endif
#endif
#ifdef USE_MAP
	diffuseColor *= texture2D( map, uv );
#endif
#ifdef USE_ALPHAMAP
	diffuseColor.a *= texture2D( alphaMap, uv ).g;
#endif`,UM=`#if defined( USE_POINTS_UV )
	varying vec2 vUv;
#else
	#if defined( USE_MAP ) || defined( USE_ALPHAMAP )
		uniform mat3 uvTransform;
	#endif
#endif
#ifdef USE_MAP
	uniform sampler2D map;
#endif
#ifdef USE_ALPHAMAP
	uniform sampler2D alphaMap;
#endif`,KM=`float metalnessFactor = metalness;
#ifdef USE_METALNESSMAP
	vec4 texelMetalness = texture2D( metalnessMap, vMetalnessMapUv );
	metalnessFactor *= texelMetalness.b;
#endif`,NM=`#ifdef USE_METALNESSMAP
	uniform sampler2D metalnessMap;
#endif`,JM=`#ifdef USE_INSTANCING_MORPH
	float morphTargetInfluences[ MORPHTARGETS_COUNT ];
	float morphTargetBaseInfluence = texelFetch( morphTexture, ivec2( 0, gl_InstanceID ), 0 ).r;
	for ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {
		morphTargetInfluences[i] =  texelFetch( morphTexture, ivec2( i + 1, gl_InstanceID ), 0 ).r;
	}
#endif`,FM=`#if defined( USE_MORPHCOLORS )
	vColor *= morphTargetBaseInfluence;
	for ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {
		#if defined( USE_COLOR_ALPHA )
			if ( morphTargetInfluences[ i ] != 0.0 ) vColor += getMorph( gl_VertexID, i, 2 ) * morphTargetInfluences[ i ];
		#elif defined( USE_COLOR )
			if ( morphTargetInfluences[ i ] != 0.0 ) vColor += getMorph( gl_VertexID, i, 2 ).rgb * morphTargetInfluences[ i ];
		#endif
	}
#endif`,pM=`#ifdef USE_MORPHNORMALS
	objectNormal *= morphTargetBaseInfluence;
	for ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {
		if ( morphTargetInfluences[ i ] != 0.0 ) objectNormal += getMorph( gl_VertexID, i, 1 ).xyz * morphTargetInfluences[ i ];
	}
#endif`,RM=`#ifdef USE_MORPHTARGETS
	#ifndef USE_INSTANCING_MORPH
		uniform float morphTargetBaseInfluence;
		uniform float morphTargetInfluences[ MORPHTARGETS_COUNT ];
	#endif
	uniform sampler2DArray morphTargetsTexture;
	uniform ivec2 morphTargetsTextureSize;
	vec4 getMorph( const in int vertexIndex, const in int morphTargetIndex, const in int offset ) {
		int texelIndex = vertexIndex * MORPHTARGETS_TEXTURE_STRIDE + offset;
		int y = texelIndex / morphTargetsTextureSize.x;
		int x = texelIndex - y * morphTargetsTextureSize.x;
		ivec3 morphUV = ivec3( x, y, morphTargetIndex );
		return texelFetch( morphTargetsTexture, morphUV, 0 );
	}
#endif`,dM=`#ifdef USE_MORPHTARGETS
	transformed *= morphTargetBaseInfluence;
	for ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {
		if ( morphTargetInfluences[ i ] != 0.0 ) transformed += getMorph( gl_VertexID, i, 0 ).xyz * morphTargetInfluences[ i ];
	}
#endif`,YM=`float faceDirection = gl_FrontFacing ? 1.0 : - 1.0;
#ifdef FLAT_SHADED
	vec3 fdx = dFdx( vViewPosition );
	vec3 fdy = dFdy( vViewPosition );
	vec3 normal = normalize( cross( fdx, fdy ) );
#else
	vec3 normal = normalize( vNormal );
	#ifdef DOUBLE_SIDED
		normal *= faceDirection;
	#endif
#endif
#if defined( USE_NORMALMAP_TANGENTSPACE ) || defined( USE_CLEARCOAT_NORMALMAP ) || defined( USE_ANISOTROPY )
	#ifdef USE_TANGENT
		mat3 tbn = mat3( normalize( vTangent ), normalize( vBitangent ), normal );
	#else
		mat3 tbn = getTangentFrame( - vViewPosition, normal,
		#if defined( USE_NORMALMAP )
			vNormalMapUv
		#elif defined( USE_CLEARCOAT_NORMALMAP )
			vClearcoatNormalMapUv
		#else
			vUv
		#endif
		);
	#endif
	#if defined( DOUBLE_SIDED ) && ! defined( FLAT_SHADED )
		tbn[0] *= faceDirection;
		tbn[1] *= faceDirection;
	#endif
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	#ifdef USE_TANGENT
		mat3 tbn2 = mat3( normalize( vTangent ), normalize( vBitangent ), normal );
	#else
		mat3 tbn2 = getTangentFrame( - vViewPosition, normal, vClearcoatNormalMapUv );
	#endif
	#if defined( DOUBLE_SIDED ) && ! defined( FLAT_SHADED )
		tbn2[0] *= faceDirection;
		tbn2[1] *= faceDirection;
	#endif
#endif
vec3 nonPerturbedNormal = normal;`,uM=`#ifdef USE_NORMALMAP_OBJECTSPACE
	normal = texture2D( normalMap, vNormalMapUv ).xyz * 2.0 - 1.0;
	#ifdef FLIP_SIDED
		normal = - normal;
	#endif
	#ifdef DOUBLE_SIDED
		normal = normal * faceDirection;
	#endif
	normal = normalize( normalMatrix * normal );
#elif defined( USE_NORMALMAP_TANGENTSPACE )
	vec3 mapN = texture2D( normalMap, vNormalMapUv ).xyz * 2.0 - 1.0;
	mapN.xy *= normalScale;
	normal = normalize( tbn * mapN );
#elif defined( USE_BUMPMAP )
	normal = perturbNormalArb( - vViewPosition, normal, dHdxy_fwd(), faceDirection );
#endif`,qM=`#ifndef FLAT_SHADED
	varying vec3 vNormal;
	#ifdef USE_TANGENT
		varying vec3 vTangent;
		varying vec3 vBitangent;
	#endif
#endif`,fM=`#ifndef FLAT_SHADED
	varying vec3 vNormal;
	#ifdef USE_TANGENT
		varying vec3 vTangent;
		varying vec3 vBitangent;
	#endif
#endif`,LM=`#ifndef FLAT_SHADED
	vNormal = normalize( transformedNormal );
	#ifdef USE_TANGENT
		vTangent = normalize( transformedTangent );
		vBitangent = normalize( cross( vNormal, vTangent ) * tangent.w );
	#endif
#endif`,HM=`#ifdef USE_NORMALMAP
	uniform sampler2D normalMap;
	uniform vec2 normalScale;
#endif
#ifdef USE_NORMALMAP_OBJECTSPACE
	uniform mat3 normalMatrix;
#endif
#if ! defined ( USE_TANGENT ) && ( defined ( USE_NORMALMAP_TANGENTSPACE ) || defined ( USE_CLEARCOAT_NORMALMAP ) || defined( USE_ANISOTROPY ) )
	mat3 getTangentFrame( vec3 eye_pos, vec3 surf_norm, vec2 uv ) {
		vec3 q0 = dFdx( eye_pos.xyz );
		vec3 q1 = dFdy( eye_pos.xyz );
		vec2 st0 = dFdx( uv.st );
		vec2 st1 = dFdy( uv.st );
		vec3 N = surf_norm;
		vec3 q1perp = cross( q1, N );
		vec3 q0perp = cross( N, q0 );
		vec3 T = q1perp * st0.x + q0perp * st1.x;
		vec3 B = q1perp * st0.y + q0perp * st1.y;
		float det = max( dot( T, T ), dot( B, B ) );
		float scale = ( det == 0.0 ) ? 0.0 : inversesqrt( det );
		return mat3( T * scale, B * scale, N );
	}
#endif`,mM=`#ifdef USE_CLEARCOAT
	vec3 clearcoatNormal = nonPerturbedNormal;
#endif`,TM=`#ifdef USE_CLEARCOAT_NORMALMAP
	vec3 clearcoatMapN = texture2D( clearcoatNormalMap, vClearcoatNormalMapUv ).xyz * 2.0 - 1.0;
	clearcoatMapN.xy *= clearcoatNormalScale;
	clearcoatNormal = normalize( tbn2 * clearcoatMapN );
#endif`,xM=`#ifdef USE_CLEARCOATMAP
	uniform sampler2D clearcoatMap;
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	uniform sampler2D clearcoatNormalMap;
	uniform vec2 clearcoatNormalScale;
#endif
#ifdef USE_CLEARCOAT_ROUGHNESSMAP
	uniform sampler2D clearcoatRoughnessMap;
#endif`,bM=`#ifdef USE_IRIDESCENCEMAP
	uniform sampler2D iridescenceMap;
#endif
#ifdef USE_IRIDESCENCE_THICKNESSMAP
	uniform sampler2D iridescenceThicknessMap;
#endif`,OM=`#ifdef OPAQUE
diffuseColor.a = 1.0;
#endif
#ifdef USE_TRANSMISSION
diffuseColor.a *= material.transmissionAlpha;
#endif
gl_FragColor = vec4( outgoingLight, diffuseColor.a );`,vM=`vec3 packNormalToRGB( const in vec3 normal ) {
	return normalize( normal ) * 0.5 + 0.5;
}
vec3 unpackRGBToNormal( const in vec3 rgb ) {
	return 2.0 * rgb.xyz - 1.0;
}
const float PackUpscale = 256. / 255.;const float UnpackDownscale = 255. / 256.;const float ShiftRight8 = 1. / 256.;
const float Inv255 = 1. / 255.;
const vec4 PackFactors = vec4( 1.0, 256.0, 256.0 * 256.0, 256.0 * 256.0 * 256.0 );
const vec2 UnpackFactors2 = vec2( UnpackDownscale, 1.0 / PackFactors.g );
const vec3 UnpackFactors3 = vec3( UnpackDownscale / PackFactors.rg, 1.0 / PackFactors.b );
const vec4 UnpackFactors4 = vec4( UnpackDownscale / PackFactors.rgb, 1.0 / PackFactors.a );
vec4 packDepthToRGBA( const in float v ) {
	if( v <= 0.0 )
		return vec4( 0., 0., 0., 0. );
	if( v >= 1.0 )
		return vec4( 1., 1., 1., 1. );
	float vuf;
	float af = modf( v * PackFactors.a, vuf );
	float bf = modf( vuf * ShiftRight8, vuf );
	float gf = modf( vuf * ShiftRight8, vuf );
	return vec4( vuf * Inv255, gf * PackUpscale, bf * PackUpscale, af );
}
vec3 packDepthToRGB( const in float v ) {
	if( v <= 0.0 )
		return vec3( 0., 0., 0. );
	if( v >= 1.0 )
		return vec3( 1., 1., 1. );
	float vuf;
	float bf = modf( v * PackFactors.b, vuf );
	float gf = modf( vuf * ShiftRight8, vuf );
	return vec3( vuf * Inv255, gf * PackUpscale, bf );
}
vec2 packDepthToRG( const in float v ) {
	if( v <= 0.0 )
		return vec2( 0., 0. );
	if( v >= 1.0 )
		return vec2( 1., 1. );
	float vuf;
	float gf = modf( v * 256., vuf );
	return vec2( vuf * Inv255, gf );
}
float unpackRGBAToDepth( const in vec4 v ) {
	return dot( v, UnpackFactors4 );
}
float unpackRGBToDepth( const in vec3 v ) {
	return dot( v, UnpackFactors3 );
}
float unpackRGToDepth( const in vec2 v ) {
	return v.r * UnpackFactors2.r + v.g * UnpackFactors2.g;
}
vec4 pack2HalfToRGBA( const in vec2 v ) {
	vec4 r = vec4( v.x, fract( v.x * 255.0 ), v.y, fract( v.y * 255.0 ) );
	return vec4( r.x - r.y / 255.0, r.y, r.z - r.w / 255.0, r.w );
}
vec2 unpackRGBATo2Half( const in vec4 v ) {
	return vec2( v.x + ( v.y / 255.0 ), v.z + ( v.w / 255.0 ) );
}
float viewZToOrthographicDepth( const in float viewZ, const in float near, const in float far ) {
	return ( viewZ + near ) / ( near - far );
}
float orthographicDepthToViewZ( const in float depth, const in float near, const in float far ) {
	return depth * ( near - far ) - near;
}
float viewZToPerspectiveDepth( const in float viewZ, const in float near, const in float far ) {
	return ( ( near + viewZ ) * far ) / ( ( far - near ) * viewZ );
}
float perspectiveDepthToViewZ( const in float depth, const in float near, const in float far ) {
	return ( near * far ) / ( ( far - near ) * depth - far );
}`,_M=`#ifdef PREMULTIPLIED_ALPHA
	gl_FragColor.rgb *= gl_FragColor.a;
#endif`,ZM=`vec4 mvPosition = vec4( transformed, 1.0 );
#ifdef USE_BATCHING
	mvPosition = batchingMatrix * mvPosition;
#endif
#ifdef USE_INSTANCING
	mvPosition = instanceMatrix * mvPosition;
#endif
mvPosition = modelViewMatrix * mvPosition;
gl_Position = projectionMatrix * mvPosition;`,WM=`#ifdef DITHERING
	gl_FragColor.rgb = dithering( gl_FragColor.rgb );
#endif`,PM=`#ifdef DITHERING
	vec3 dithering( vec3 color ) {
		float grid_position = rand( gl_FragCoord.xy );
		vec3 dither_shift_RGB = vec3( 0.25 / 255.0, -0.25 / 255.0, 0.25 / 255.0 );
		dither_shift_RGB = mix( 2.0 * dither_shift_RGB, -2.0 * dither_shift_RGB, grid_position );
		return color + dither_shift_RGB;
	}
#endif`,jM=`float roughnessFactor = roughness;
#ifdef USE_ROUGHNESSMAP
	vec4 texelRoughness = texture2D( roughnessMap, vRoughnessMapUv );
	roughnessFactor *= texelRoughness.g;
#endif`,XM=`#ifdef USE_ROUGHNESSMAP
	uniform sampler2D roughnessMap;
#endif`,VM=`#if NUM_SPOT_LIGHT_COORDS > 0
	varying vec4 vSpotLightCoord[ NUM_SPOT_LIGHT_COORDS ];
#endif
#if NUM_SPOT_LIGHT_MAPS > 0
	uniform sampler2D spotLightMap[ NUM_SPOT_LIGHT_MAPS ];
#endif
#ifdef USE_SHADOWMAP
	#if NUM_DIR_LIGHT_SHADOWS > 0
		uniform sampler2D directionalShadowMap[ NUM_DIR_LIGHT_SHADOWS ];
		varying vec4 vDirectionalShadowCoord[ NUM_DIR_LIGHT_SHADOWS ];
		struct DirectionalLightShadow {
			float shadowIntensity;
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
		};
		uniform DirectionalLightShadow directionalLightShadows[ NUM_DIR_LIGHT_SHADOWS ];
	#endif
	#if NUM_SPOT_LIGHT_SHADOWS > 0
		uniform sampler2D spotShadowMap[ NUM_SPOT_LIGHT_SHADOWS ];
		struct SpotLightShadow {
			float shadowIntensity;
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
		};
		uniform SpotLightShadow spotLightShadows[ NUM_SPOT_LIGHT_SHADOWS ];
	#endif
	#if NUM_POINT_LIGHT_SHADOWS > 0
		uniform sampler2D pointShadowMap[ NUM_POINT_LIGHT_SHADOWS ];
		varying vec4 vPointShadowCoord[ NUM_POINT_LIGHT_SHADOWS ];
		struct PointLightShadow {
			float shadowIntensity;
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
			float shadowCameraNear;
			float shadowCameraFar;
		};
		uniform PointLightShadow pointLightShadows[ NUM_POINT_LIGHT_SHADOWS ];
	#endif
	float texture2DCompare( sampler2D depths, vec2 uv, float compare ) {
		float depth = unpackRGBAToDepth( texture2D( depths, uv ) );
		#ifdef USE_REVERSED_DEPTH_BUFFER
			return step( depth, compare );
		#else
			return step( compare, depth );
		#endif
	}
	vec2 texture2DDistribution( sampler2D shadow, vec2 uv ) {
		return unpackRGBATo2Half( texture2D( shadow, uv ) );
	}
	float VSMShadow( sampler2D shadow, vec2 uv, float compare ) {
		float occlusion = 1.0;
		vec2 distribution = texture2DDistribution( shadow, uv );
		#ifdef USE_REVERSED_DEPTH_BUFFER
			float hard_shadow = step( distribution.x, compare );
		#else
			float hard_shadow = step( compare, distribution.x );
		#endif
		if ( hard_shadow != 1.0 ) {
			float distance = compare - distribution.x;
			float variance = max( 0.00000, distribution.y * distribution.y );
			float softness_probability = variance / (variance + distance * distance );			softness_probability = clamp( ( softness_probability - 0.3 ) / ( 0.95 - 0.3 ), 0.0, 1.0 );			occlusion = clamp( max( hard_shadow, softness_probability ), 0.0, 1.0 );
		}
		return occlusion;
	}
	float getShadow( sampler2D shadowMap, vec2 shadowMapSize, float shadowIntensity, float shadowBias, float shadowRadius, vec4 shadowCoord ) {
		float shadow = 1.0;
		shadowCoord.xyz /= shadowCoord.w;
		shadowCoord.z += shadowBias;
		bool inFrustum = shadowCoord.x >= 0.0 && shadowCoord.x <= 1.0 && shadowCoord.y >= 0.0 && shadowCoord.y <= 1.0;
		bool frustumTest = inFrustum && shadowCoord.z <= 1.0;
		if ( frustumTest ) {
		#if defined( SHADOWMAP_TYPE_PCF )
			vec2 texelSize = vec2( 1.0 ) / shadowMapSize;
			float dx0 = - texelSize.x * shadowRadius;
			float dy0 = - texelSize.y * shadowRadius;
			float dx1 = + texelSize.x * shadowRadius;
			float dy1 = + texelSize.y * shadowRadius;
			float dx2 = dx0 / 2.0;
			float dy2 = dy0 / 2.0;
			float dx3 = dx1 / 2.0;
			float dy3 = dy1 / 2.0;
			shadow = (
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx0, dy0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx1, dy0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx2, dy2 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy2 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx3, dy2 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx0, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx2, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy, shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx3, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx1, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx2, dy3 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy3 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx3, dy3 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx0, dy1 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy1 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx1, dy1 ), shadowCoord.z )
			) * ( 1.0 / 17.0 );
		#elif defined( SHADOWMAP_TYPE_PCF_SOFT )
			vec2 texelSize = vec2( 1.0 ) / shadowMapSize;
			float dx = texelSize.x;
			float dy = texelSize.y;
			vec2 uv = shadowCoord.xy;
			vec2 f = fract( uv * shadowMapSize + 0.5 );
			uv -= f * texelSize;
			shadow = (
				texture2DCompare( shadowMap, uv, shadowCoord.z ) +
				texture2DCompare( shadowMap, uv + vec2( dx, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, uv + vec2( 0.0, dy ), shadowCoord.z ) +
				texture2DCompare( shadowMap, uv + texelSize, shadowCoord.z ) +
				mix( texture2DCompare( shadowMap, uv + vec2( -dx, 0.0 ), shadowCoord.z ),
					 texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, 0.0 ), shadowCoord.z ),
					 f.x ) +
				mix( texture2DCompare( shadowMap, uv + vec2( -dx, dy ), shadowCoord.z ),
					 texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, dy ), shadowCoord.z ),
					 f.x ) +
				mix( texture2DCompare( shadowMap, uv + vec2( 0.0, -dy ), shadowCoord.z ),
					 texture2DCompare( shadowMap, uv + vec2( 0.0, 2.0 * dy ), shadowCoord.z ),
					 f.y ) +
				mix( texture2DCompare( shadowMap, uv + vec2( dx, -dy ), shadowCoord.z ),
					 texture2DCompare( shadowMap, uv + vec2( dx, 2.0 * dy ), shadowCoord.z ),
					 f.y ) +
				mix( mix( texture2DCompare( shadowMap, uv + vec2( -dx, -dy ), shadowCoord.z ),
						  texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, -dy ), shadowCoord.z ),
						  f.x ),
					 mix( texture2DCompare( shadowMap, uv + vec2( -dx, 2.0 * dy ), shadowCoord.z ),
						  texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, 2.0 * dy ), shadowCoord.z ),
						  f.x ),
					 f.y )
			) * ( 1.0 / 9.0 );
		#elif defined( SHADOWMAP_TYPE_VSM )
			shadow = VSMShadow( shadowMap, shadowCoord.xy, shadowCoord.z );
		#else
			shadow = texture2DCompare( shadowMap, shadowCoord.xy, shadowCoord.z );
		#endif
		}
		return mix( 1.0, shadow, shadowIntensity );
	}
	vec2 cubeToUV( vec3 v, float texelSizeY ) {
		vec3 absV = abs( v );
		float scaleToCube = 1.0 / max( absV.x, max( absV.y, absV.z ) );
		absV *= scaleToCube;
		v *= scaleToCube * ( 1.0 - 2.0 * texelSizeY );
		vec2 planar = v.xy;
		float almostATexel = 1.5 * texelSizeY;
		float almostOne = 1.0 - almostATexel;
		if ( absV.z >= almostOne ) {
			if ( v.z > 0.0 )
				planar.x = 4.0 - v.x;
		} else if ( absV.x >= almostOne ) {
			float signX = sign( v.x );
			planar.x = v.z * signX + 2.0 * signX;
		} else if ( absV.y >= almostOne ) {
			float signY = sign( v.y );
			planar.x = v.x + 2.0 * signY + 2.0;
			planar.y = v.z * signY - 2.0;
		}
		return vec2( 0.125, 0.25 ) * planar + vec2( 0.375, 0.75 );
	}
	float getPointShadow( sampler2D shadowMap, vec2 shadowMapSize, float shadowIntensity, float shadowBias, float shadowRadius, vec4 shadowCoord, float shadowCameraNear, float shadowCameraFar ) {
		float shadow = 1.0;
		vec3 lightToPosition = shadowCoord.xyz;
		
		float lightToPositionLength = length( lightToPosition );
		if ( lightToPositionLength - shadowCameraFar <= 0.0 && lightToPositionLength - shadowCameraNear >= 0.0 ) {
			float dp = ( lightToPositionLength - shadowCameraNear ) / ( shadowCameraFar - shadowCameraNear );			dp += shadowBias;
			vec3 bd3D = normalize( lightToPosition );
			vec2 texelSize = vec2( 1.0 ) / ( shadowMapSize * vec2( 4.0, 2.0 ) );
			#if defined( SHADOWMAP_TYPE_PCF ) || defined( SHADOWMAP_TYPE_PCF_SOFT ) || defined( SHADOWMAP_TYPE_VSM )
				vec2 offset = vec2( - 1, 1 ) * shadowRadius * texelSize.y;
				shadow = (
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.xyy, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.yyy, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.xyx, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.yyx, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.xxy, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.yxy, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.xxx, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.yxx, texelSize.y ), dp )
				) * ( 1.0 / 9.0 );
			#else
				shadow = texture2DCompare( shadowMap, cubeToUV( bd3D, texelSize.y ), dp );
			#endif
		}
		return mix( 1.0, shadow, shadowIntensity );
	}
#endif`,zM=`#if NUM_SPOT_LIGHT_COORDS > 0
	uniform mat4 spotLightMatrix[ NUM_SPOT_LIGHT_COORDS ];
	varying vec4 vSpotLightCoord[ NUM_SPOT_LIGHT_COORDS ];
#endif
#ifdef USE_SHADOWMAP
	#if NUM_DIR_LIGHT_SHADOWS > 0
		uniform mat4 directionalShadowMatrix[ NUM_DIR_LIGHT_SHADOWS ];
		varying vec4 vDirectionalShadowCoord[ NUM_DIR_LIGHT_SHADOWS ];
		struct DirectionalLightShadow {
			float shadowIntensity;
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
		};
		uniform DirectionalLightShadow directionalLightShadows[ NUM_DIR_LIGHT_SHADOWS ];
	#endif
	#if NUM_SPOT_LIGHT_SHADOWS > 0
		struct SpotLightShadow {
			float shadowIntensity;
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
		};
		uniform SpotLightShadow spotLightShadows[ NUM_SPOT_LIGHT_SHADOWS ];
	#endif
	#if NUM_POINT_LIGHT_SHADOWS > 0
		uniform mat4 pointShadowMatrix[ NUM_POINT_LIGHT_SHADOWS ];
		varying vec4 vPointShadowCoord[ NUM_POINT_LIGHT_SHADOWS ];
		struct PointLightShadow {
			float shadowIntensity;
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
			float shadowCameraNear;
			float shadowCameraFar;
		};
		uniform PointLightShadow pointLightShadows[ NUM_POINT_LIGHT_SHADOWS ];
	#endif
#endif`,$M=`#if ( defined( USE_SHADOWMAP ) && ( NUM_DIR_LIGHT_SHADOWS > 0 || NUM_POINT_LIGHT_SHADOWS > 0 ) ) || ( NUM_SPOT_LIGHT_COORDS > 0 )
	vec3 shadowWorldNormal = inverseTransformDirection( transformedNormal, viewMatrix );
	vec4 shadowWorldPosition;
#endif
#if defined( USE_SHADOWMAP )
	#if NUM_DIR_LIGHT_SHADOWS > 0
		#pragma unroll_loop_start
		for ( int i = 0; i < NUM_DIR_LIGHT_SHADOWS; i ++ ) {
			shadowWorldPosition = worldPosition + vec4( shadowWorldNormal * directionalLightShadows[ i ].shadowNormalBias, 0 );
			vDirectionalShadowCoord[ i ] = directionalShadowMatrix[ i ] * shadowWorldPosition;
		}
		#pragma unroll_loop_end
	#endif
	#if NUM_POINT_LIGHT_SHADOWS > 0
		#pragma unroll_loop_start
		for ( int i = 0; i < NUM_POINT_LIGHT_SHADOWS; i ++ ) {
			shadowWorldPosition = worldPosition + vec4( shadowWorldNormal * pointLightShadows[ i ].shadowNormalBias, 0 );
			vPointShadowCoord[ i ] = pointShadowMatrix[ i ] * shadowWorldPosition;
		}
		#pragma unroll_loop_end
	#endif
#endif
#if NUM_SPOT_LIGHT_COORDS > 0
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_SPOT_LIGHT_COORDS; i ++ ) {
		shadowWorldPosition = worldPosition;
		#if ( defined( USE_SHADOWMAP ) && UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS )
			shadowWorldPosition.xyz += shadowWorldNormal * spotLightShadows[ i ].shadowNormalBias;
		#endif
		vSpotLightCoord[ i ] = spotLightMatrix[ i ] * shadowWorldPosition;
	}
	#pragma unroll_loop_end
#endif`,AU=`float getShadowMask() {
	float shadow = 1.0;
	#ifdef USE_SHADOWMAP
	#if NUM_DIR_LIGHT_SHADOWS > 0
	DirectionalLightShadow directionalLight;
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_DIR_LIGHT_SHADOWS; i ++ ) {
		directionalLight = directionalLightShadows[ i ];
		shadow *= receiveShadow ? getShadow( directionalShadowMap[ i ], directionalLight.shadowMapSize, directionalLight.shadowIntensity, directionalLight.shadowBias, directionalLight.shadowRadius, vDirectionalShadowCoord[ i ] ) : 1.0;
	}
	#pragma unroll_loop_end
	#endif
	#if NUM_SPOT_LIGHT_SHADOWS > 0
	SpotLightShadow spotLight;
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_SPOT_LIGHT_SHADOWS; i ++ ) {
		spotLight = spotLightShadows[ i ];
		shadow *= receiveShadow ? getShadow( spotShadowMap[ i ], spotLight.shadowMapSize, spotLight.shadowIntensity, spotLight.shadowBias, spotLight.shadowRadius, vSpotLightCoord[ i ] ) : 1.0;
	}
	#pragma unroll_loop_end
	#endif
	#if NUM_POINT_LIGHT_SHADOWS > 0
	PointLightShadow pointLight;
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_POINT_LIGHT_SHADOWS; i ++ ) {
		pointLight = pointLightShadows[ i ];
		shadow *= receiveShadow ? getPointShadow( pointShadowMap[ i ], pointLight.shadowMapSize, pointLight.shadowIntensity, pointLight.shadowBias, pointLight.shadowRadius, vPointShadowCoord[ i ], pointLight.shadowCameraNear, pointLight.shadowCameraFar ) : 1.0;
	}
	#pragma unroll_loop_end
	#endif
	#endif
	return shadow;
}`,IU=`#ifdef USE_SKINNING
	mat4 boneMatX = getBoneMatrix( skinIndex.x );
	mat4 boneMatY = getBoneMatrix( skinIndex.y );
	mat4 boneMatZ = getBoneMatrix( skinIndex.z );
	mat4 boneMatW = getBoneMatrix( skinIndex.w );
#endif`,gU=`#ifdef USE_SKINNING
	uniform mat4 bindMatrix;
	uniform mat4 bindMatrixInverse;
	uniform highp sampler2D boneTexture;
	mat4 getBoneMatrix( const in float i ) {
		int size = textureSize( boneTexture, 0 ).x;
		int j = int( i ) * 4;
		int x = j % size;
		int y = j / size;
		vec4 v1 = texelFetch( boneTexture, ivec2( x, y ), 0 );
		vec4 v2 = texelFetch( boneTexture, ivec2( x + 1, y ), 0 );
		vec4 v3 = texelFetch( boneTexture, ivec2( x + 2, y ), 0 );
		vec4 v4 = texelFetch( boneTexture, ivec2( x + 3, y ), 0 );
		return mat4( v1, v2, v3, v4 );
	}
#endif`,CU=`#ifdef USE_SKINNING
	vec4 skinVertex = bindMatrix * vec4( transformed, 1.0 );
	vec4 skinned = vec4( 0.0 );
	skinned += boneMatX * skinVertex * skinWeight.x;
	skinned += boneMatY * skinVertex * skinWeight.y;
	skinned += boneMatZ * skinVertex * skinWeight.z;
	skinned += boneMatW * skinVertex * skinWeight.w;
	transformed = ( bindMatrixInverse * skinned ).xyz;
#endif`,BU=`#ifdef USE_SKINNING
	mat4 skinMatrix = mat4( 0.0 );
	skinMatrix += skinWeight.x * boneMatX;
	skinMatrix += skinWeight.y * boneMatY;
	skinMatrix += skinWeight.z * boneMatZ;
	skinMatrix += skinWeight.w * boneMatW;
	skinMatrix = bindMatrixInverse * skinMatrix * bindMatrix;
	objectNormal = vec4( skinMatrix * vec4( objectNormal, 0.0 ) ).xyz;
	#ifdef USE_TANGENT
		objectTangent = vec4( skinMatrix * vec4( objectTangent, 0.0 ) ).xyz;
	#endif
#endif`,QU=`float specularStrength;
#ifdef USE_SPECULARMAP
	vec4 texelSpecular = texture2D( specularMap, vSpecularMapUv );
	specularStrength = texelSpecular.r;
#else
	specularStrength = 1.0;
#endif`,EU=`#ifdef USE_SPECULARMAP
	uniform sampler2D specularMap;
#endif`,iU=`#if defined( TONE_MAPPING )
	gl_FragColor.rgb = toneMapping( gl_FragColor.rgb );
#endif`,oU=`#ifndef saturate
#define saturate( a ) clamp( a, 0.0, 1.0 )
#endif
uniform float toneMappingExposure;
vec3 LinearToneMapping( vec3 color ) {
	return saturate( toneMappingExposure * color );
}
vec3 ReinhardToneMapping( vec3 color ) {
	color *= toneMappingExposure;
	return saturate( color / ( vec3( 1.0 ) + color ) );
}
vec3 CineonToneMapping( vec3 color ) {
	color *= toneMappingExposure;
	color = max( vec3( 0.0 ), color - 0.004 );
	return pow( ( color * ( 6.2 * color + 0.5 ) ) / ( color * ( 6.2 * color + 1.7 ) + 0.06 ), vec3( 2.2 ) );
}
vec3 RRTAndODTFit( vec3 v ) {
	vec3 a = v * ( v + 0.0245786 ) - 0.000090537;
	vec3 b = v * ( 0.983729 * v + 0.4329510 ) + 0.238081;
	return a / b;
}
vec3 ACESFilmicToneMapping( vec3 color ) {
	const mat3 ACESInputMat = mat3(
		vec3( 0.59719, 0.07600, 0.02840 ),		vec3( 0.35458, 0.90834, 0.13383 ),
		vec3( 0.04823, 0.01566, 0.83777 )
	);
	const mat3 ACESOutputMat = mat3(
		vec3(  1.60475, -0.10208, -0.00327 ),		vec3( -0.53108,  1.10813, -0.07276 ),
		vec3( -0.07367, -0.00605,  1.07602 )
	);
	color *= toneMappingExposure / 0.6;
	color = ACESInputMat * color;
	color = RRTAndODTFit( color );
	color = ACESOutputMat * color;
	return saturate( color );
}
const mat3 LINEAR_REC2020_TO_LINEAR_SRGB = mat3(
	vec3( 1.6605, - 0.1246, - 0.0182 ),
	vec3( - 0.5876, 1.1329, - 0.1006 ),
	vec3( - 0.0728, - 0.0083, 1.1187 )
);
const mat3 LINEAR_SRGB_TO_LINEAR_REC2020 = mat3(
	vec3( 0.6274, 0.0691, 0.0164 ),
	vec3( 0.3293, 0.9195, 0.0880 ),
	vec3( 0.0433, 0.0113, 0.8956 )
);
vec3 agxDefaultContrastApprox( vec3 x ) {
	vec3 x2 = x * x;
	vec3 x4 = x2 * x2;
	return + 15.5 * x4 * x2
		- 40.14 * x4 * x
		+ 31.96 * x4
		- 6.868 * x2 * x
		+ 0.4298 * x2
		+ 0.1191 * x
		- 0.00232;
}
vec3 AgXToneMapping( vec3 color ) {
	const mat3 AgXInsetMatrix = mat3(
		vec3( 0.856627153315983, 0.137318972929847, 0.11189821299995 ),
		vec3( 0.0951212405381588, 0.761241990602591, 0.0767994186031903 ),
		vec3( 0.0482516061458583, 0.101439036467562, 0.811302368396859 )
	);
	const mat3 AgXOutsetMatrix = mat3(
		vec3( 1.1271005818144368, - 0.1413297634984383, - 0.14132976349843826 ),
		vec3( - 0.11060664309660323, 1.157823702216272, - 0.11060664309660294 ),
		vec3( - 0.016493938717834573, - 0.016493938717834257, 1.2519364065950405 )
	);
	const float AgxMinEv = - 12.47393;	const float AgxMaxEv = 4.026069;
	color *= toneMappingExposure;
	color = LINEAR_SRGB_TO_LINEAR_REC2020 * color;
	color = AgXInsetMatrix * color;
	color = max( color, 1e-10 );	color = log2( color );
	color = ( color - AgxMinEv ) / ( AgxMaxEv - AgxMinEv );
	color = clamp( color, 0.0, 1.0 );
	color = agxDefaultContrastApprox( color );
	color = AgXOutsetMatrix * color;
	color = pow( max( vec3( 0.0 ), color ), vec3( 2.2 ) );
	color = LINEAR_REC2020_TO_LINEAR_SRGB * color;
	color = clamp( color, 0.0, 1.0 );
	return color;
}
vec3 NeutralToneMapping( vec3 color ) {
	const float StartCompression = 0.8 - 0.04;
	const float Desaturation = 0.15;
	color *= toneMappingExposure;
	float x = min( color.r, min( color.g, color.b ) );
	float offset = x < 0.08 ? x - 6.25 * x * x : 0.04;
	color -= offset;
	float peak = max( color.r, max( color.g, color.b ) );
	if ( peak < StartCompression ) return color;
	float d = 1. - StartCompression;
	float newPeak = 1. - d * d / ( peak + d - StartCompression );
	color *= newPeak / peak;
	float g = 1. - 1. / ( Desaturation * ( peak - newPeak ) + 1. );
	return mix( color, vec3( newPeak ), g );
}
vec3 CustomToneMapping( vec3 color ) { return color; }`,tU=`#ifdef USE_TRANSMISSION
	material.transmission = transmission;
	material.transmissionAlpha = 1.0;
	material.thickness = thickness;
	material.attenuationDistance = attenuationDistance;
	material.attenuationColor = attenuationColor;
	#ifdef USE_TRANSMISSIONMAP
		material.transmission *= texture2D( transmissionMap, vTransmissionMapUv ).r;
	#endif
	#ifdef USE_THICKNESSMAP
		material.thickness *= texture2D( thicknessMap, vThicknessMapUv ).g;
	#endif
	vec3 pos = vWorldPosition;
	vec3 v = normalize( cameraPosition - pos );
	vec3 n = inverseTransformDirection( normal, viewMatrix );
	vec4 transmitted = getIBLVolumeRefraction(
		n, v, material.roughness, material.diffuseColor, material.specularColor, material.specularF90,
		pos, modelMatrix, viewMatrix, projectionMatrix, material.dispersion, material.ior, material.thickness,
		material.attenuationColor, material.attenuationDistance );
	material.transmissionAlpha = mix( material.transmissionAlpha, transmitted.a, material.transmission );
	totalDiffuse = mix( totalDiffuse, transmitted.rgb, material.transmission );
#endif`,eU=`#ifdef USE_TRANSMISSION
	uniform float transmission;
	uniform float thickness;
	uniform float attenuationDistance;
	uniform vec3 attenuationColor;
	#ifdef USE_TRANSMISSIONMAP
		uniform sampler2D transmissionMap;
	#endif
	#ifdef USE_THICKNESSMAP
		uniform sampler2D thicknessMap;
	#endif
	uniform vec2 transmissionSamplerSize;
	uniform sampler2D transmissionSamplerMap;
	uniform mat4 modelMatrix;
	uniform mat4 projectionMatrix;
	varying vec3 vWorldPosition;
	float w0( float a ) {
		return ( 1.0 / 6.0 ) * ( a * ( a * ( - a + 3.0 ) - 3.0 ) + 1.0 );
	}
	float w1( float a ) {
		return ( 1.0 / 6.0 ) * ( a *  a * ( 3.0 * a - 6.0 ) + 4.0 );
	}
	float w2( float a ){
		return ( 1.0 / 6.0 ) * ( a * ( a * ( - 3.0 * a + 3.0 ) + 3.0 ) + 1.0 );
	}
	float w3( float a ) {
		return ( 1.0 / 6.0 ) * ( a * a * a );
	}
	float g0( float a ) {
		return w0( a ) + w1( a );
	}
	float g1( float a ) {
		return w2( a ) + w3( a );
	}
	float h0( float a ) {
		return - 1.0 + w1( a ) / ( w0( a ) + w1( a ) );
	}
	float h1( float a ) {
		return 1.0 + w3( a ) / ( w2( a ) + w3( a ) );
	}
	vec4 bicubic( sampler2D tex, vec2 uv, vec4 texelSize, float lod ) {
		uv = uv * texelSize.zw + 0.5;
		vec2 iuv = floor( uv );
		vec2 fuv = fract( uv );
		float g0x = g0( fuv.x );
		float g1x = g1( fuv.x );
		float h0x = h0( fuv.x );
		float h1x = h1( fuv.x );
		float h0y = h0( fuv.y );
		float h1y = h1( fuv.y );
		vec2 p0 = ( vec2( iuv.x + h0x, iuv.y + h0y ) - 0.5 ) * texelSize.xy;
		vec2 p1 = ( vec2( iuv.x + h1x, iuv.y + h0y ) - 0.5 ) * texelSize.xy;
		vec2 p2 = ( vec2( iuv.x + h0x, iuv.y + h1y ) - 0.5 ) * texelSize.xy;
		vec2 p3 = ( vec2( iuv.x + h1x, iuv.y + h1y ) - 0.5 ) * texelSize.xy;
		return g0( fuv.y ) * ( g0x * textureLod( tex, p0, lod ) + g1x * textureLod( tex, p1, lod ) ) +
			g1( fuv.y ) * ( g0x * textureLod( tex, p2, lod ) + g1x * textureLod( tex, p3, lod ) );
	}
	vec4 textureBicubic( sampler2D sampler, vec2 uv, float lod ) {
		vec2 fLodSize = vec2( textureSize( sampler, int( lod ) ) );
		vec2 cLodSize = vec2( textureSize( sampler, int( lod + 1.0 ) ) );
		vec2 fLodSizeInv = 1.0 / fLodSize;
		vec2 cLodSizeInv = 1.0 / cLodSize;
		vec4 fSample = bicubic( sampler, uv, vec4( fLodSizeInv, fLodSize ), floor( lod ) );
		vec4 cSample = bicubic( sampler, uv, vec4( cLodSizeInv, cLodSize ), ceil( lod ) );
		return mix( fSample, cSample, fract( lod ) );
	}
	vec3 getVolumeTransmissionRay( const in vec3 n, const in vec3 v, const in float thickness, const in float ior, const in mat4 modelMatrix ) {
		vec3 refractionVector = refract( - v, normalize( n ), 1.0 / ior );
		vec3 modelScale;
		modelScale.x = length( vec3( modelMatrix[ 0 ].xyz ) );
		modelScale.y = length( vec3( modelMatrix[ 1 ].xyz ) );
		modelScale.z = length( vec3( modelMatrix[ 2 ].xyz ) );
		return normalize( refractionVector ) * thickness * modelScale;
	}
	float applyIorToRoughness( const in float roughness, const in float ior ) {
		return roughness * clamp( ior * 2.0 - 2.0, 0.0, 1.0 );
	}
	vec4 getTransmissionSample( const in vec2 fragCoord, const in float roughness, const in float ior ) {
		float lod = log2( transmissionSamplerSize.x ) * applyIorToRoughness( roughness, ior );
		return textureBicubic( transmissionSamplerMap, fragCoord.xy, lod );
	}
	vec3 volumeAttenuation( const in float transmissionDistance, const in vec3 attenuationColor, const in float attenuationDistance ) {
		if ( isinf( attenuationDistance ) ) {
			return vec3( 1.0 );
		} else {
			vec3 attenuationCoefficient = -log( attenuationColor ) / attenuationDistance;
			vec3 transmittance = exp( - attenuationCoefficient * transmissionDistance );			return transmittance;
		}
	}
	vec4 getIBLVolumeRefraction( const in vec3 n, const in vec3 v, const in float roughness, const in vec3 diffuseColor,
		const in vec3 specularColor, const in float specularF90, const in vec3 position, const in mat4 modelMatrix,
		const in mat4 viewMatrix, const in mat4 projMatrix, const in float dispersion, const in float ior, const in float thickness,
		const in vec3 attenuationColor, const in float attenuationDistance ) {
		vec4 transmittedLight;
		vec3 transmittance;
		#ifdef USE_DISPERSION
			float halfSpread = ( ior - 1.0 ) * 0.025 * dispersion;
			vec3 iors = vec3( ior - halfSpread, ior, ior + halfSpread );
			for ( int i = 0; i < 3; i ++ ) {
				vec3 transmissionRay = getVolumeTransmissionRay( n, v, thickness, iors[ i ], modelMatrix );
				vec3 refractedRayExit = position + transmissionRay;
				vec4 ndcPos = projMatrix * viewMatrix * vec4( refractedRayExit, 1.0 );
				vec2 refractionCoords = ndcPos.xy / ndcPos.w;
				refractionCoords += 1.0;
				refractionCoords /= 2.0;
				vec4 transmissionSample = getTransmissionSample( refractionCoords, roughness, iors[ i ] );
				transmittedLight[ i ] = transmissionSample[ i ];
				transmittedLight.a += transmissionSample.a;
				transmittance[ i ] = diffuseColor[ i ] * volumeAttenuation( length( transmissionRay ), attenuationColor, attenuationDistance )[ i ];
			}
			transmittedLight.a /= 3.0;
		#else
			vec3 transmissionRay = getVolumeTransmissionRay( n, v, thickness, ior, modelMatrix );
			vec3 refractedRayExit = position + transmissionRay;
			vec4 ndcPos = projMatrix * viewMatrix * vec4( refractedRayExit, 1.0 );
			vec2 refractionCoords = ndcPos.xy / ndcPos.w;
			refractionCoords += 1.0;
			refractionCoords /= 2.0;
			transmittedLight = getTransmissionSample( refractionCoords, roughness, ior );
			transmittance = diffuseColor * volumeAttenuation( length( transmissionRay ), attenuationColor, attenuationDistance );
		#endif
		vec3 attenuatedColor = transmittance * transmittedLight.rgb;
		vec3 F = EnvironmentBRDF( n, v, specularColor, specularF90, roughness );
		float transmittanceFactor = ( transmittance.r + transmittance.g + transmittance.b ) / 3.0;
		return vec4( ( 1.0 - F ) * attenuatedColor, 1.0 - ( 1.0 - transmittedLight.a ) * transmittanceFactor );
	}
#endif`,sU=`#if defined( USE_UV ) || defined( USE_ANISOTROPY )
	varying vec2 vUv;
#endif
#ifdef USE_MAP
	varying vec2 vMapUv;
#endif
#ifdef USE_ALPHAMAP
	varying vec2 vAlphaMapUv;
#endif
#ifdef USE_LIGHTMAP
	varying vec2 vLightMapUv;
#endif
#ifdef USE_AOMAP
	varying vec2 vAoMapUv;
#endif
#ifdef USE_BUMPMAP
	varying vec2 vBumpMapUv;
#endif
#ifdef USE_NORMALMAP
	varying vec2 vNormalMapUv;
#endif
#ifdef USE_EMISSIVEMAP
	varying vec2 vEmissiveMapUv;
#endif
#ifdef USE_METALNESSMAP
	varying vec2 vMetalnessMapUv;
#endif
#ifdef USE_ROUGHNESSMAP
	varying vec2 vRoughnessMapUv;
#endif
#ifdef USE_ANISOTROPYMAP
	varying vec2 vAnisotropyMapUv;
#endif
#ifdef USE_CLEARCOATMAP
	varying vec2 vClearcoatMapUv;
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	varying vec2 vClearcoatNormalMapUv;
#endif
#ifdef USE_CLEARCOAT_ROUGHNESSMAP
	varying vec2 vClearcoatRoughnessMapUv;
#endif
#ifdef USE_IRIDESCENCEMAP
	varying vec2 vIridescenceMapUv;
#endif
#ifdef USE_IRIDESCENCE_THICKNESSMAP
	varying vec2 vIridescenceThicknessMapUv;
#endif
#ifdef USE_SHEEN_COLORMAP
	varying vec2 vSheenColorMapUv;
#endif
#ifdef USE_SHEEN_ROUGHNESSMAP
	varying vec2 vSheenRoughnessMapUv;
#endif
#ifdef USE_SPECULARMAP
	varying vec2 vSpecularMapUv;
#endif
#ifdef USE_SPECULAR_COLORMAP
	varying vec2 vSpecularColorMapUv;
#endif
#ifdef USE_SPECULAR_INTENSITYMAP
	varying vec2 vSpecularIntensityMapUv;
#endif
#ifdef USE_TRANSMISSIONMAP
	uniform mat3 transmissionMapTransform;
	varying vec2 vTransmissionMapUv;
#endif
#ifdef USE_THICKNESSMAP
	uniform mat3 thicknessMapTransform;
	varying vec2 vThicknessMapUv;
#endif`,aU=`#if defined( USE_UV ) || defined( USE_ANISOTROPY )
	varying vec2 vUv;
#endif
#ifdef USE_MAP
	uniform mat3 mapTransform;
	varying vec2 vMapUv;
#endif
#ifdef USE_ALPHAMAP
	uniform mat3 alphaMapTransform;
	varying vec2 vAlphaMapUv;
#endif
#ifdef USE_LIGHTMAP
	uniform mat3 lightMapTransform;
	varying vec2 vLightMapUv;
#endif
#ifdef USE_AOMAP
	uniform mat3 aoMapTransform;
	varying vec2 vAoMapUv;
#endif
#ifdef USE_BUMPMAP
	uniform mat3 bumpMapTransform;
	varying vec2 vBumpMapUv;
#endif
#ifdef USE_NORMALMAP
	uniform mat3 normalMapTransform;
	varying vec2 vNormalMapUv;
#endif
#ifdef USE_DISPLACEMENTMAP
	uniform mat3 displacementMapTransform;
	varying vec2 vDisplacementMapUv;
#endif
#ifdef USE_EMISSIVEMAP
	uniform mat3 emissiveMapTransform;
	varying vec2 vEmissiveMapUv;
#endif
#ifdef USE_METALNESSMAP
	uniform mat3 metalnessMapTransform;
	varying vec2 vMetalnessMapUv;
#endif
#ifdef USE_ROUGHNESSMAP
	uniform mat3 roughnessMapTransform;
	varying vec2 vRoughnessMapUv;
#endif
#ifdef USE_ANISOTROPYMAP
	uniform mat3 anisotropyMapTransform;
	varying vec2 vAnisotropyMapUv;
#endif
#ifdef USE_CLEARCOATMAP
	uniform mat3 clearcoatMapTransform;
	varying vec2 vClearcoatMapUv;
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	uniform mat3 clearcoatNormalMapTransform;
	varying vec2 vClearcoatNormalMapUv;
#endif
#ifdef USE_CLEARCOAT_ROUGHNESSMAP
	uniform mat3 clearcoatRoughnessMapTransform;
	varying vec2 vClearcoatRoughnessMapUv;
#endif
#ifdef USE_SHEEN_COLORMAP
	uniform mat3 sheenColorMapTransform;
	varying vec2 vSheenColorMapUv;
#endif
#ifdef USE_SHEEN_ROUGHNESSMAP
	uniform mat3 sheenRoughnessMapTransform;
	varying vec2 vSheenRoughnessMapUv;
#endif
#ifdef USE_IRIDESCENCEMAP
	uniform mat3 iridescenceMapTransform;
	varying vec2 vIridescenceMapUv;
#endif
#ifdef USE_IRIDESCENCE_THICKNESSMAP
	uniform mat3 iridescenceThicknessMapTransform;
	varying vec2 vIridescenceThicknessMapUv;
#endif
#ifdef USE_SPECULARMAP
	uniform mat3 specularMapTransform;
	varying vec2 vSpecularMapUv;
#endif
#ifdef USE_SPECULAR_COLORMAP
	uniform mat3 specularColorMapTransform;
	varying vec2 vSpecularColorMapUv;
#endif
#ifdef USE_SPECULAR_INTENSITYMAP
	uniform mat3 specularIntensityMapTransform;
	varying vec2 vSpecularIntensityMapUv;
#endif
#ifdef USE_TRANSMISSIONMAP
	uniform mat3 transmissionMapTransform;
	varying vec2 vTransmissionMapUv;
#endif
#ifdef USE_THICKNESSMAP
	uniform mat3 thicknessMapTransform;
	varying vec2 vThicknessMapUv;
#endif`,DU=`#if defined( USE_UV ) || defined( USE_ANISOTROPY )
	vUv = vec3( uv, 1 ).xy;
#endif
#ifdef USE_MAP
	vMapUv = ( mapTransform * vec3( MAP_UV, 1 ) ).xy;
#endif
#ifdef USE_ALPHAMAP
	vAlphaMapUv = ( alphaMapTransform * vec3( ALPHAMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_LIGHTMAP
	vLightMapUv = ( lightMapTransform * vec3( LIGHTMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_AOMAP
	vAoMapUv = ( aoMapTransform * vec3( AOMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_BUMPMAP
	vBumpMapUv = ( bumpMapTransform * vec3( BUMPMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_NORMALMAP
	vNormalMapUv = ( normalMapTransform * vec3( NORMALMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_DISPLACEMENTMAP
	vDisplacementMapUv = ( displacementMapTransform * vec3( DISPLACEMENTMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_EMISSIVEMAP
	vEmissiveMapUv = ( emissiveMapTransform * vec3( EMISSIVEMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_METALNESSMAP
	vMetalnessMapUv = ( metalnessMapTransform * vec3( METALNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_ROUGHNESSMAP
	vRoughnessMapUv = ( roughnessMapTransform * vec3( ROUGHNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_ANISOTROPYMAP
	vAnisotropyMapUv = ( anisotropyMapTransform * vec3( ANISOTROPYMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_CLEARCOATMAP
	vClearcoatMapUv = ( clearcoatMapTransform * vec3( CLEARCOATMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	vClearcoatNormalMapUv = ( clearcoatNormalMapTransform * vec3( CLEARCOAT_NORMALMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_CLEARCOAT_ROUGHNESSMAP
	vClearcoatRoughnessMapUv = ( clearcoatRoughnessMapTransform * vec3( CLEARCOAT_ROUGHNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_IRIDESCENCEMAP
	vIridescenceMapUv = ( iridescenceMapTransform * vec3( IRIDESCENCEMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_IRIDESCENCE_THICKNESSMAP
	vIridescenceThicknessMapUv = ( iridescenceThicknessMapTransform * vec3( IRIDESCENCE_THICKNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SHEEN_COLORMAP
	vSheenColorMapUv = ( sheenColorMapTransform * vec3( SHEEN_COLORMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SHEEN_ROUGHNESSMAP
	vSheenRoughnessMapUv = ( sheenRoughnessMapTransform * vec3( SHEEN_ROUGHNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SPECULARMAP
	vSpecularMapUv = ( specularMapTransform * vec3( SPECULARMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SPECULAR_COLORMAP
	vSpecularColorMapUv = ( specularColorMapTransform * vec3( SPECULAR_COLORMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SPECULAR_INTENSITYMAP
	vSpecularIntensityMapUv = ( specularIntensityMapTransform * vec3( SPECULAR_INTENSITYMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_TRANSMISSIONMAP
	vTransmissionMapUv = ( transmissionMapTransform * vec3( TRANSMISSIONMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_THICKNESSMAP
	vThicknessMapUv = ( thicknessMapTransform * vec3( THICKNESSMAP_UV, 1 ) ).xy;
#endif`,nU=`#if defined( USE_ENVMAP ) || defined( DISTANCE ) || defined ( USE_SHADOWMAP ) || defined ( USE_TRANSMISSION ) || NUM_SPOT_LIGHT_COORDS > 0
	vec4 worldPosition = vec4( transformed, 1.0 );
	#ifdef USE_BATCHING
		worldPosition = batchingMatrix * worldPosition;
	#endif
	#ifdef USE_INSTANCING
		worldPosition = instanceMatrix * worldPosition;
	#endif
	worldPosition = modelMatrix * worldPosition;
#endif`;const rU=`varying vec2 vUv;
uniform mat3 uvTransform;
void main() {
	vUv = ( uvTransform * vec3( uv, 1 ) ).xy;
	gl_Position = vec4( position.xy, 1.0, 1.0 );
}`,hU=`uniform sampler2D t2D;
uniform float backgroundIntensity;
varying vec2 vUv;
void main() {
	vec4 texColor = texture2D( t2D, vUv );
	#ifdef DECODE_VIDEO_TEXTURE
		texColor = vec4( mix( pow( texColor.rgb * 0.9478672986 + vec3( 0.0521327014 ), vec3( 2.4 ) ), texColor.rgb * 0.0773993808, vec3( lessThanEqual( texColor.rgb, vec3( 0.04045 ) ) ) ), texColor.w );
	#endif
	texColor.rgb *= backgroundIntensity;
	gl_FragColor = texColor;
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
}`,SU=`varying vec3 vWorldDirection;
#include <common>
void main() {
	vWorldDirection = transformDirection( position, modelMatrix );
	#include <begin_vertex>
	#include <project_vertex>
	gl_Position.z = gl_Position.w;
}`,cU=`#ifdef ENVMAP_TYPE_CUBE
	uniform samplerCube envMap;
#elif defined( ENVMAP_TYPE_CUBE_UV )
	uniform sampler2D envMap;
#endif
uniform float flipEnvMap;
uniform float backgroundBlurriness;
uniform float backgroundIntensity;
uniform mat3 backgroundRotation;
varying vec3 vWorldDirection;
#include <cube_uv_reflection_fragment>
void main() {
	#ifdef ENVMAP_TYPE_CUBE
		vec4 texColor = textureCube( envMap, backgroundRotation * vec3( flipEnvMap * vWorldDirection.x, vWorldDirection.yz ) );
	#elif defined( ENVMAP_TYPE_CUBE_UV )
		vec4 texColor = textureCubeUV( envMap, backgroundRotation * vWorldDirection, backgroundBlurriness );
	#else
		vec4 texColor = vec4( 0.0, 0.0, 0.0, 1.0 );
	#endif
	texColor.rgb *= backgroundIntensity;
	gl_FragColor = texColor;
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
}`,wU=`varying vec3 vWorldDirection;
#include <common>
void main() {
	vWorldDirection = transformDirection( position, modelMatrix );
	#include <begin_vertex>
	#include <project_vertex>
	gl_Position.z = gl_Position.w;
}`,lU=`uniform samplerCube tCube;
uniform float tFlip;
uniform float opacity;
varying vec3 vWorldDirection;
void main() {
	vec4 texColor = textureCube( tCube, vec3( tFlip * vWorldDirection.x, vWorldDirection.yz ) );
	gl_FragColor = texColor;
	gl_FragColor.a *= opacity;
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
}`,GU=`#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
varying vec2 vHighPrecisionZW;
void main() {
	#include <uv_vertex>
	#include <batching_vertex>
	#include <skinbase_vertex>
	#include <morphinstance_vertex>
	#ifdef USE_DISPLACEMENTMAP
		#include <beginnormal_vertex>
		#include <morphnormal_vertex>
		#include <skinnormal_vertex>
	#endif
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vHighPrecisionZW = gl_Position.zw;
}`,yU=`#if DEPTH_PACKING == 3200
	uniform float opacity;
#endif
#include <common>
#include <packing>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
varying vec2 vHighPrecisionZW;
void main() {
	vec4 diffuseColor = vec4( 1.0 );
	#include <clipping_planes_fragment>
	#if DEPTH_PACKING == 3200
		diffuseColor.a = opacity;
	#endif
	#include <map_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <logdepthbuf_fragment>
	#ifdef USE_REVERSED_DEPTH_BUFFER
		float fragCoordZ = vHighPrecisionZW[ 0 ] / vHighPrecisionZW[ 1 ];
	#else
		float fragCoordZ = 0.5 * vHighPrecisionZW[ 0 ] / vHighPrecisionZW[ 1 ] + 0.5;
	#endif
	#if DEPTH_PACKING == 3200
		gl_FragColor = vec4( vec3( 1.0 - fragCoordZ ), opacity );
	#elif DEPTH_PACKING == 3201
		gl_FragColor = packDepthToRGBA( fragCoordZ );
	#elif DEPTH_PACKING == 3202
		gl_FragColor = vec4( packDepthToRGB( fragCoordZ ), 1.0 );
	#elif DEPTH_PACKING == 3203
		gl_FragColor = vec4( packDepthToRG( fragCoordZ ), 0.0, 1.0 );
	#endif
}`,kU=`#define DISTANCE
varying vec3 vWorldPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <batching_vertex>
	#include <skinbase_vertex>
	#include <morphinstance_vertex>
	#ifdef USE_DISPLACEMENTMAP
		#include <beginnormal_vertex>
		#include <morphnormal_vertex>
		#include <skinnormal_vertex>
	#endif
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <worldpos_vertex>
	#include <clipping_planes_vertex>
	vWorldPosition = worldPosition.xyz;
}`,MU=`#define DISTANCE
uniform vec3 referencePosition;
uniform float nearDistance;
uniform float farDistance;
varying vec3 vWorldPosition;
#include <common>
#include <packing>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <clipping_planes_pars_fragment>
void main () {
	vec4 diffuseColor = vec4( 1.0 );
	#include <clipping_planes_fragment>
	#include <map_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	float dist = length( vWorldPosition - referencePosition );
	dist = ( dist - nearDistance ) / ( farDistance - nearDistance );
	dist = saturate( dist );
	gl_FragColor = packDepthToRGBA( dist );
}`,UU=`varying vec3 vWorldDirection;
#include <common>
void main() {
	vWorldDirection = transformDirection( position, modelMatrix );
	#include <begin_vertex>
	#include <project_vertex>
}`,KU=`uniform sampler2D tEquirect;
varying vec3 vWorldDirection;
#include <common>
void main() {
	vec3 direction = normalize( vWorldDirection );
	vec2 sampleUV = equirectUv( direction );
	gl_FragColor = texture2D( tEquirect, sampleUV );
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
}`,NU=`uniform float scale;
attribute float lineDistance;
varying float vLineDistance;
#include <common>
#include <uv_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <morphtarget_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	vLineDistance = scale * lineDistance;
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <fog_vertex>
}`,JU=`uniform vec3 diffuse;
uniform float opacity;
uniform float dashSize;
uniform float totalSize;
varying float vLineDistance;
#include <common>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <fog_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	if ( mod( vLineDistance, totalSize ) > dashSize ) {
		discard;
	}
	vec3 outgoingLight = vec3( 0.0 );
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	outgoingLight = diffuseColor.rgb;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
}`,FU=`#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <envmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#if defined ( USE_ENVMAP ) || defined ( USE_SKINNING )
		#include <beginnormal_vertex>
		#include <morphnormal_vertex>
		#include <skinbase_vertex>
		#include <skinnormal_vertex>
		#include <defaultnormal_vertex>
	#endif
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <worldpos_vertex>
	#include <envmap_vertex>
	#include <fog_vertex>
}`,pU=`uniform vec3 diffuse;
uniform float opacity;
#ifndef FLAT_SHADED
	varying vec3 vNormal;
#endif
#include <common>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <envmap_common_pars_fragment>
#include <envmap_pars_fragment>
#include <fog_pars_fragment>
#include <specularmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <specularmap_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	#ifdef USE_LIGHTMAP
		vec4 lightMapTexel = texture2D( lightMap, vLightMapUv );
		reflectedLight.indirectDiffuse += lightMapTexel.rgb * lightMapIntensity * RECIPROCAL_PI;
	#else
		reflectedLight.indirectDiffuse += vec3( 1.0 );
	#endif
	#include <aomap_fragment>
	reflectedLight.indirectDiffuse *= diffuseColor.rgb;
	vec3 outgoingLight = reflectedLight.indirectDiffuse;
	#include <envmap_fragment>
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,RU=`#define LAMBERT
varying vec3 vViewPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <envmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <shadowmap_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vViewPosition = - mvPosition.xyz;
	#include <worldpos_vertex>
	#include <envmap_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
}`,dU=`#define LAMBERT
uniform vec3 diffuse;
uniform vec3 emissive;
uniform float opacity;
#include <common>
#include <packing>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <emissivemap_pars_fragment>
#include <envmap_common_pars_fragment>
#include <envmap_pars_fragment>
#include <fog_pars_fragment>
#include <bsdfs>
#include <lights_pars_begin>
#include <normal_pars_fragment>
#include <lights_lambert_pars_fragment>
#include <shadowmap_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <specularmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	vec3 totalEmissiveRadiance = emissive;
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <specularmap_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	#include <emissivemap_fragment>
	#include <lights_lambert_fragment>
	#include <lights_fragment_begin>
	#include <lights_fragment_maps>
	#include <lights_fragment_end>
	#include <aomap_fragment>
	vec3 outgoingLight = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse + totalEmissiveRadiance;
	#include <envmap_fragment>
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,YU=`#define MATCAP
varying vec3 vViewPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <color_pars_vertex>
#include <displacementmap_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <fog_vertex>
	vViewPosition = - mvPosition.xyz;
}`,uU=`#define MATCAP
uniform vec3 diffuse;
uniform float opacity;
uniform sampler2D matcap;
varying vec3 vViewPosition;
#include <common>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <fog_pars_fragment>
#include <normal_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	vec3 viewDir = normalize( vViewPosition );
	vec3 x = normalize( vec3( viewDir.z, 0.0, - viewDir.x ) );
	vec3 y = cross( viewDir, x );
	vec2 uv = vec2( dot( x, normal ), dot( y, normal ) ) * 0.495 + 0.5;
	#ifdef USE_MATCAP
		vec4 matcapColor = texture2D( matcap, uv );
	#else
		vec4 matcapColor = vec4( vec3( mix( 0.2, 0.8, uv.y ) ), 1.0 );
	#endif
	vec3 outgoingLight = diffuseColor.rgb * matcapColor.rgb;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,qU=`#define NORMAL
#if defined( FLAT_SHADED ) || defined( USE_BUMPMAP ) || defined( USE_NORMALMAP_TANGENTSPACE )
	varying vec3 vViewPosition;
#endif
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphinstance_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
#if defined( FLAT_SHADED ) || defined( USE_BUMPMAP ) || defined( USE_NORMALMAP_TANGENTSPACE )
	vViewPosition = - mvPosition.xyz;
#endif
}`,fU=`#define NORMAL
uniform float opacity;
#if defined( FLAT_SHADED ) || defined( USE_BUMPMAP ) || defined( USE_NORMALMAP_TANGENTSPACE )
	varying vec3 vViewPosition;
#endif
#include <packing>
#include <uv_pars_fragment>
#include <normal_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( 0.0, 0.0, 0.0, opacity );
	#include <clipping_planes_fragment>
	#include <logdepthbuf_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	gl_FragColor = vec4( packNormalToRGB( normal ), diffuseColor.a );
	#ifdef OPAQUE
		gl_FragColor.a = 1.0;
	#endif
}`,LU=`#define PHONG
varying vec3 vViewPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <envmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <shadowmap_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphinstance_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vViewPosition = - mvPosition.xyz;
	#include <worldpos_vertex>
	#include <envmap_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
}`,HU=`#define PHONG
uniform vec3 diffuse;
uniform vec3 emissive;
uniform vec3 specular;
uniform float shininess;
uniform float opacity;
#include <common>
#include <packing>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <emissivemap_pars_fragment>
#include <envmap_common_pars_fragment>
#include <envmap_pars_fragment>
#include <fog_pars_fragment>
#include <bsdfs>
#include <lights_pars_begin>
#include <normal_pars_fragment>
#include <lights_phong_pars_fragment>
#include <shadowmap_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <specularmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	vec3 totalEmissiveRadiance = emissive;
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <specularmap_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	#include <emissivemap_fragment>
	#include <lights_phong_fragment>
	#include <lights_fragment_begin>
	#include <lights_fragment_maps>
	#include <lights_fragment_end>
	#include <aomap_fragment>
	vec3 outgoingLight = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse + reflectedLight.directSpecular + reflectedLight.indirectSpecular + totalEmissiveRadiance;
	#include <envmap_fragment>
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,mU=`#define STANDARD
varying vec3 vViewPosition;
#ifdef USE_TRANSMISSION
	varying vec3 vWorldPosition;
#endif
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <shadowmap_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vViewPosition = - mvPosition.xyz;
	#include <worldpos_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
#ifdef USE_TRANSMISSION
	vWorldPosition = worldPosition.xyz;
#endif
}`,TU=`#define STANDARD
#ifdef PHYSICAL
	#define IOR
	#define USE_SPECULAR
#endif
uniform vec3 diffuse;
uniform vec3 emissive;
uniform float roughness;
uniform float metalness;
uniform float opacity;
#ifdef IOR
	uniform float ior;
#endif
#ifdef USE_SPECULAR
	uniform float specularIntensity;
	uniform vec3 specularColor;
	#ifdef USE_SPECULAR_COLORMAP
		uniform sampler2D specularColorMap;
	#endif
	#ifdef USE_SPECULAR_INTENSITYMAP
		uniform sampler2D specularIntensityMap;
	#endif
#endif
#ifdef USE_CLEARCOAT
	uniform float clearcoat;
	uniform float clearcoatRoughness;
#endif
#ifdef USE_DISPERSION
	uniform float dispersion;
#endif
#ifdef USE_IRIDESCENCE
	uniform float iridescence;
	uniform float iridescenceIOR;
	uniform float iridescenceThicknessMinimum;
	uniform float iridescenceThicknessMaximum;
#endif
#ifdef USE_SHEEN
	uniform vec3 sheenColor;
	uniform float sheenRoughness;
	#ifdef USE_SHEEN_COLORMAP
		uniform sampler2D sheenColorMap;
	#endif
	#ifdef USE_SHEEN_ROUGHNESSMAP
		uniform sampler2D sheenRoughnessMap;
	#endif
#endif
#ifdef USE_ANISOTROPY
	uniform vec2 anisotropyVector;
	#ifdef USE_ANISOTROPYMAP
		uniform sampler2D anisotropyMap;
	#endif
#endif
varying vec3 vViewPosition;
#include <common>
#include <packing>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <emissivemap_pars_fragment>
#include <iridescence_fragment>
#include <cube_uv_reflection_fragment>
#include <envmap_common_pars_fragment>
#include <envmap_physical_pars_fragment>
#include <fog_pars_fragment>
#include <lights_pars_begin>
#include <normal_pars_fragment>
#include <lights_physical_pars_fragment>
#include <transmission_pars_fragment>
#include <shadowmap_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <clearcoat_pars_fragment>
#include <iridescence_pars_fragment>
#include <roughnessmap_pars_fragment>
#include <metalnessmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	vec3 totalEmissiveRadiance = emissive;
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <roughnessmap_fragment>
	#include <metalnessmap_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	#include <clearcoat_normal_fragment_begin>
	#include <clearcoat_normal_fragment_maps>
	#include <emissivemap_fragment>
	#include <lights_physical_fragment>
	#include <lights_fragment_begin>
	#include <lights_fragment_maps>
	#include <lights_fragment_end>
	#include <aomap_fragment>
	vec3 totalDiffuse = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse;
	vec3 totalSpecular = reflectedLight.directSpecular + reflectedLight.indirectSpecular;
	#include <transmission_fragment>
	vec3 outgoingLight = totalDiffuse + totalSpecular + totalEmissiveRadiance;
	#ifdef USE_SHEEN
		float sheenEnergyComp = 1.0 - 0.157 * max3( material.sheenColor );
		outgoingLight = outgoingLight * sheenEnergyComp + sheenSpecularDirect + sheenSpecularIndirect;
	#endif
	#ifdef USE_CLEARCOAT
		float dotNVcc = saturate( dot( geometryClearcoatNormal, geometryViewDir ) );
		vec3 Fcc = F_Schlick( material.clearcoatF0, material.clearcoatF90, dotNVcc );
		outgoingLight = outgoingLight * ( 1.0 - material.clearcoat * Fcc ) + ( clearcoatSpecularDirect + clearcoatSpecularIndirect ) * material.clearcoat;
	#endif
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,xU=`#define TOON
varying vec3 vViewPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <shadowmap_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vViewPosition = - mvPosition.xyz;
	#include <worldpos_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
}`,bU=`#define TOON
uniform vec3 diffuse;
uniform vec3 emissive;
uniform float opacity;
#include <common>
#include <packing>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <emissivemap_pars_fragment>
#include <gradientmap_pars_fragment>
#include <fog_pars_fragment>
#include <bsdfs>
#include <lights_pars_begin>
#include <normal_pars_fragment>
#include <lights_toon_pars_fragment>
#include <shadowmap_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	vec3 totalEmissiveRadiance = emissive;
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	#include <emissivemap_fragment>
	#include <lights_toon_fragment>
	#include <lights_fragment_begin>
	#include <lights_fragment_maps>
	#include <lights_fragment_end>
	#include <aomap_fragment>
	vec3 outgoingLight = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse + totalEmissiveRadiance;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,OU=`uniform float size;
uniform float scale;
#include <common>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <morphtarget_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
#ifdef USE_POINTS_UV
	varying vec2 vUv;
	uniform mat3 uvTransform;
#endif
void main() {
	#ifdef USE_POINTS_UV
		vUv = ( uvTransform * vec3( uv, 1 ) ).xy;
	#endif
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <project_vertex>
	gl_PointSize = size;
	#ifdef USE_SIZEATTENUATION
		bool isPerspective = isPerspectiveMatrix( projectionMatrix );
		if ( isPerspective ) gl_PointSize *= ( scale / - mvPosition.z );
	#endif
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <worldpos_vertex>
	#include <fog_vertex>
}`,vU=`uniform vec3 diffuse;
uniform float opacity;
#include <common>
#include <color_pars_fragment>
#include <map_particle_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <fog_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	vec3 outgoingLight = vec3( 0.0 );
	#include <logdepthbuf_fragment>
	#include <map_particle_fragment>
	#include <color_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	outgoingLight = diffuseColor.rgb;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
}`,_U=`#include <common>
#include <batching_pars_vertex>
#include <fog_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <shadowmap_pars_vertex>
void main() {
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphinstance_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <worldpos_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
}`,ZU=`uniform vec3 color;
uniform float opacity;
#include <common>
#include <packing>
#include <fog_pars_fragment>
#include <bsdfs>
#include <lights_pars_begin>
#include <logdepthbuf_pars_fragment>
#include <shadowmap_pars_fragment>
#include <shadowmask_pars_fragment>
void main() {
	#include <logdepthbuf_fragment>
	gl_FragColor = vec4( color, opacity * ( 1.0 - getShadowMask() ) );
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
}`,WU=`uniform float rotation;
uniform vec2 center;
#include <common>
#include <uv_pars_vertex>
#include <fog_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	vec4 mvPosition = modelViewMatrix[ 3 ];
	vec2 scale = vec2( length( modelMatrix[ 0 ].xyz ), length( modelMatrix[ 1 ].xyz ) );
	#ifndef USE_SIZEATTENUATION
		bool isPerspective = isPerspectiveMatrix( projectionMatrix );
		if ( isPerspective ) scale *= - mvPosition.z;
	#endif
	vec2 alignedPosition = ( position.xy - ( center - vec2( 0.5 ) ) ) * scale;
	vec2 rotatedPosition;
	rotatedPosition.x = cos( rotation ) * alignedPosition.x - sin( rotation ) * alignedPosition.y;
	rotatedPosition.y = sin( rotation ) * alignedPosition.x + cos( rotation ) * alignedPosition.y;
	mvPosition.xy += rotatedPosition;
	gl_Position = projectionMatrix * mvPosition;
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <fog_vertex>
}`,PU=`uniform vec3 diffuse;
uniform float opacity;
#include <common>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <fog_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	vec3 outgoingLight = vec3( 0.0 );
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	outgoingLight = diffuseColor.rgb;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
}`,EI={alphahash_fragment:hk,alphahash_pars_fragment:Sk,alphamap_fragment:ck,alphamap_pars_fragment:wk,alphatest_fragment:lk,alphatest_pars_fragment:Gk,aomap_fragment:yk,aomap_pars_fragment:kk,batching_pars_vertex:Mk,batching_vertex:Uk,begin_vertex:Kk,beginnormal_vertex:Nk,bsdfs:Jk,iridescence_fragment:Fk,bumpmap_pars_fragment:pk,clipping_planes_fragment:Rk,clipping_planes_pars_fragment:dk,clipping_planes_pars_vertex:Yk,clipping_planes_vertex:uk,color_fragment:qk,color_pars_fragment:fk,color_pars_vertex:Lk,color_vertex:Hk,common:mk,cube_uv_reflection_fragment:Tk,defaultnormal_vertex:xk,displacementmap_pars_vertex:bk,displacementmap_vertex:Ok,emissivemap_fragment:vk,emissivemap_pars_fragment:_k,colorspace_fragment:Zk,colorspace_pars_fragment:Wk,envmap_fragment:Pk,envmap_common_pars_fragment:jk,envmap_pars_fragment:Xk,envmap_pars_vertex:Vk,envmap_physical_pars_fragment:oM,envmap_vertex:zk,fog_vertex:$k,fog_pars_vertex:AM,fog_fragment:IM,fog_pars_fragment:gM,gradientmap_pars_fragment:CM,lightmap_pars_fragment:BM,lights_lambert_fragment:QM,lights_lambert_pars_fragment:EM,lights_pars_begin:iM,lights_toon_fragment:tM,lights_toon_pars_fragment:eM,lights_phong_fragment:sM,lights_phong_pars_fragment:aM,lights_physical_fragment:DM,lights_physical_pars_fragment:nM,lights_fragment_begin:rM,lights_fragment_maps:hM,lights_fragment_end:SM,logdepthbuf_fragment:cM,logdepthbuf_pars_fragment:wM,logdepthbuf_pars_vertex:lM,logdepthbuf_vertex:GM,map_fragment:yM,map_pars_fragment:kM,map_particle_fragment:MM,map_particle_pars_fragment:UM,metalnessmap_fragment:KM,metalnessmap_pars_fragment:NM,morphinstance_vertex:JM,morphcolor_vertex:FM,morphnormal_vertex:pM,morphtarget_pars_vertex:RM,morphtarget_vertex:dM,normal_fragment_begin:YM,normal_fragment_maps:uM,normal_pars_fragment:qM,normal_pars_vertex:fM,normal_vertex:LM,normalmap_pars_fragment:HM,clearcoat_normal_fragment_begin:mM,clearcoat_normal_fragment_maps:TM,clearcoat_pars_fragment:xM,iridescence_pars_fragment:bM,opaque_fragment:OM,packing:vM,premultiplied_alpha_fragment:_M,project_vertex:ZM,dithering_fragment:WM,dithering_pars_fragment:PM,roughnessmap_fragment:jM,roughnessmap_pars_fragment:XM,shadowmap_pars_fragment:VM,shadowmap_pars_vertex:zM,shadowmap_vertex:$M,shadowmask_pars_fragment:AU,skinbase_vertex:IU,skinning_pars_vertex:gU,skinning_vertex:CU,skinnormal_vertex:BU,specularmap_fragment:QU,specularmap_pars_fragment:EU,tonemapping_fragment:iU,tonemapping_pars_fragment:oU,transmission_fragment:tU,transmission_pars_fragment:eU,uv_pars_fragment:sU,uv_pars_vertex:aU,uv_vertex:DU,worldpos_vertex:nU,background_vert:rU,background_frag:hU,backgroundCube_vert:SU,backgroundCube_frag:cU,cube_vert:wU,cube_frag:lU,depth_vert:GU,depth_frag:yU,distanceRGBA_vert:kU,distanceRGBA_frag:MU,equirect_vert:UU,equirect_frag:KU,linedashed_vert:NU,linedashed_frag:JU,meshbasic_vert:FU,meshbasic_frag:pU,meshlambert_vert:RU,meshlambert_frag:dU,meshmatcap_vert:YU,meshmatcap_frag:uU,meshnormal_vert:qU,meshnormal_frag:fU,meshphong_vert:LU,meshphong_frag:HU,meshphysical_vert:mU,meshphysical_frag:TU,meshtoon_vert:xU,meshtoon_frag:bU,points_vert:OU,points_frag:vU,shadow_vert:_U,shadow_frag:ZU,sprite_vert:WU,sprite_frag:PU},DA={common:{diffuse:{value:new cI(16777215)},opacity:{value:1},map:{value:null},mapTransform:{value:new CI},alphaMap:{value:null},alphaMapTransform:{value:new CI},alphaTest:{value:0}},specularmap:{specularMap:{value:null},specularMapTransform:{value:new CI}},envmap:{envMap:{value:null},envMapRotation:{value:new CI},flipEnvMap:{value:-1},reflectivity:{value:1},ior:{value:1.5},refractionRatio:{value:.98}},aomap:{aoMap:{value:null},aoMapIntensity:{value:1},aoMapTransform:{value:new CI}},lightmap:{lightMap:{value:null},lightMapIntensity:{value:1},lightMapTransform:{value:new CI}},bumpmap:{bumpMap:{value:null},bumpMapTransform:{value:new CI},bumpScale:{value:1}},normalmap:{normalMap:{value:null},normalMapTransform:{value:new CI},normalScale:{value:new PA(1,1)}},displacementmap:{displacementMap:{value:null},displacementMapTransform:{value:new CI},displacementScale:{value:1},displacementBias:{value:0}},emissivemap:{emissiveMap:{value:null},emissiveMapTransform:{value:new CI}},metalnessmap:{metalnessMap:{value:null},metalnessMapTransform:{value:new CI}},roughnessmap:{roughnessMap:{value:null},roughnessMapTransform:{value:new CI}},gradientmap:{gradientMap:{value:null}},fog:{fogDensity:{value:25e-5},fogNear:{value:1},fogFar:{value:2e3},fogColor:{value:new cI(16777215)}},lights:{ambientLightColor:{value:[]},lightProbe:{value:[]},directionalLights:{value:[],properties:{direction:{},color:{}}},directionalLightShadows:{value:[],properties:{shadowIntensity:1,shadowBias:{},shadowNormalBias:{},shadowRadius:{},shadowMapSize:{}}},directionalShadowMap:{value:[]},directionalShadowMatrix:{value:[]},spotLights:{value:[],properties:{color:{},position:{},direction:{},distance:{},coneCos:{},penumbraCos:{},decay:{}}},spotLightShadows:{value:[],properties:{shadowIntensity:1,shadowBias:{},shadowNormalBias:{},shadowRadius:{},shadowMapSize:{}}},spotLightMap:{value:[]},spotShadowMap:{value:[]},spotLightMatrix:{value:[]},pointLights:{value:[],properties:{color:{},position:{},decay:{},distance:{}}},pointLightShadows:{value:[],properties:{shadowIntensity:1,shadowBias:{},shadowNormalBias:{},shadowRadius:{},shadowMapSize:{},shadowCameraNear:{},shadowCameraFar:{}}},pointShadowMap:{value:[]},pointShadowMatrix:{value:[]},hemisphereLights:{value:[],properties:{direction:{},skyColor:{},groundColor:{}}},rectAreaLights:{value:[],properties:{color:{},position:{},width:{},height:{}}},ltc_1:{value:null},ltc_2:{value:null}},points:{diffuse:{value:new cI(16777215)},opacity:{value:1},size:{value:1},scale:{value:1},map:{value:null},alphaMap:{value:null},alphaMapTransform:{value:new CI},alphaTest:{value:0},uvTransform:{value:new CI}},sprite:{diffuse:{value:new cI(16777215)},opacity:{value:1},center:{value:new PA(.5,.5)},rotation:{value:0},map:{value:null},mapTransform:{value:new CI},alphaMap:{value:null},alphaMapTransform:{value:new CI},alphaTest:{value:0}}},wB={basic:{uniforms:QC([DA.common,DA.specularmap,DA.envmap,DA.aomap,DA.lightmap,DA.fog]),vertexShader:EI.meshbasic_vert,fragmentShader:EI.meshbasic_frag},lambert:{uniforms:QC([DA.common,DA.specularmap,DA.envmap,DA.aomap,DA.lightmap,DA.emissivemap,DA.bumpmap,DA.normalmap,DA.displacementmap,DA.fog,DA.lights,{emissive:{value:new cI(0)}}]),vertexShader:EI.meshlambert_vert,fragmentShader:EI.meshlambert_frag},phong:{uniforms:QC([DA.common,DA.specularmap,DA.envmap,DA.aomap,DA.lightmap,DA.emissivemap,DA.bumpmap,DA.normalmap,DA.displacementmap,DA.fog,DA.lights,{emissive:{value:new cI(0)},specular:{value:new cI(1118481)},shininess:{value:30}}]),vertexShader:EI.meshphong_vert,fragmentShader:EI.meshphong_frag},standard:{uniforms:QC([DA.common,DA.envmap,DA.aomap,DA.lightmap,DA.emissivemap,DA.bumpmap,DA.normalmap,DA.displacementmap,DA.roughnessmap,DA.metalnessmap,DA.fog,DA.lights,{emissive:{value:new cI(0)},roughness:{value:1},metalness:{value:0},envMapIntensity:{value:1}}]),vertexShader:EI.meshphysical_vert,fragmentShader:EI.meshphysical_frag},toon:{uniforms:QC([DA.common,DA.aomap,DA.lightmap,DA.emissivemap,DA.bumpmap,DA.normalmap,DA.displacementmap,DA.gradientmap,DA.fog,DA.lights,{emissive:{value:new cI(0)}}]),vertexShader:EI.meshtoon_vert,fragmentShader:EI.meshtoon_frag},matcap:{uniforms:QC([DA.common,DA.bumpmap,DA.normalmap,DA.displacementmap,DA.fog,{matcap:{value:null}}]),vertexShader:EI.meshmatcap_vert,fragmentShader:EI.meshmatcap_frag},points:{uniforms:QC([DA.points,DA.fog]),vertexShader:EI.points_vert,fragmentShader:EI.points_frag},dashed:{uniforms:QC([DA.common,DA.fog,{scale:{value:1},dashSize:{value:1},totalSize:{value:2}}]),vertexShader:EI.linedashed_vert,fragmentShader:EI.linedashed_frag},depth:{uniforms:QC([DA.common,DA.displacementmap]),vertexShader:EI.depth_vert,fragmentShader:EI.depth_frag},normal:{uniforms:QC([DA.common,DA.bumpmap,DA.normalmap,DA.displacementmap,{opacity:{value:1}}]),vertexShader:EI.meshnormal_vert,fragmentShader:EI.meshnormal_frag},sprite:{uniforms:QC([DA.sprite,DA.fog]),vertexShader:EI.sprite_vert,fragmentShader:EI.sprite_frag},background:{uniforms:{uvTransform:{value:new CI},t2D:{value:null},backgroundIntensity:{value:1}},vertexShader:EI.background_vert,fragmentShader:EI.background_frag},backgroundCube:{uniforms:{envMap:{value:null},flipEnvMap:{value:-1},backgroundBlurriness:{value:0},backgroundIntensity:{value:1},backgroundRotation:{value:new CI}},vertexShader:EI.backgroundCube_vert,fragmentShader:EI.backgroundCube_frag},cube:{uniforms:{tCube:{value:null},tFlip:{value:-1},opacity:{value:1}},vertexShader:EI.cube_vert,fragmentShader:EI.cube_frag},equirect:{uniforms:{tEquirect:{value:null}},vertexShader:EI.equirect_vert,fragmentShader:EI.equirect_frag},distanceRGBA:{uniforms:QC([DA.common,DA.displacementmap,{referencePosition:{value:new v},nearDistance:{value:1},farDistance:{value:1e3}}]),vertexShader:EI.distanceRGBA_vert,fragmentShader:EI.distanceRGBA_frag},shadow:{uniforms:QC([DA.lights,DA.fog,{color:{value:new cI(0)},opacity:{value:1}}]),vertexShader:EI.shadow_vert,fragmentShader:EI.shadow_frag}};wB.physical={uniforms:QC([wB.standard.uniforms,{clearcoat:{value:0},clearcoatMap:{value:null},clearcoatMapTransform:{value:new CI},clearcoatNormalMap:{value:null},clearcoatNormalMapTransform:{value:new CI},clearcoatNormalScale:{value:new PA(1,1)},clearcoatRoughness:{value:0},clearcoatRoughnessMap:{value:null},clearcoatRoughnessMapTransform:{value:new CI},dispersion:{value:0},iridescence:{value:0},iridescenceMap:{value:null},iridescenceMapTransform:{value:new CI},iridescenceIOR:{value:1.3},iridescenceThicknessMinimum:{value:100},iridescenceThicknessMaximum:{value:400},iridescenceThicknessMap:{value:null},iridescenceThicknessMapTransform:{value:new CI},sheen:{value:0},sheenColor:{value:new cI(0)},sheenColorMap:{value:null},sheenColorMapTransform:{value:new CI},sheenRoughness:{value:1},sheenRoughnessMap:{value:null},sheenRoughnessMapTransform:{value:new 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A=0;A<this._lodPlanes.length;A++)this._lodPlanes[A].dispose()}_cleanup(A){this._renderer.setRenderTarget(Qs,Es,is),this._renderer.xr.enabled=os,A.scissorTest=!1,it(A,0,0,A.width,A.height)}_fromTexture(A,I){A.mapping===Ci||A.mapping===Bi?this._setSize(A.image.length===0?16:A.image[0].width||A.image[0].image.width):this._setSize(A.image.width/4),Qs=this._renderer.getRenderTarget(),Es=this._renderer.getActiveCubeFace(),is=this._renderer.getActiveMipmapLevel(),os=this._renderer.xr.enabled,this._renderer.xr.enabled=!1;const C=I||this._allocateTargets();return this._textureToCubeUV(A,C),this._applyPMREM(C),this._cleanup(C),C}_allocateTargets(){const A=3*Math.max(this._cubeSize,112),I=4*this._cubeSize,C={magFilter:DC,minFilter:DC,generateMipmaps:!1,type:Uo,format:sB,colorSpace:kQ,depthBuffer:!1},B=lr(A,I,C);if(this._pingPongRenderTarget===null||this._pingPongRenderTarget.width!==A||this._pingPongRenderTarget.height!==I){this._pingPongRenderTarget!==null&&this._dispose(),this._pingPongRenderTarget=lr(A,I,C);const{_lodMax:Q}=this;({sizeLods:this._sizeLods,lodPlanes:this._lodPlanes,sigmas:this._sigmas}=CK(Q)),this._blurMaterial=BK(Q,A,I)}return B}_compileMaterial(A){const I=new _C(this._lodPlanes[0],A);this._renderer.compile(I,Bs)}_sceneToCubeUV(A,I,C,B,Q){const o=new JC(90,1,I,C),t=[1,-1,1,1,1,1],e=[1,1,1,-1,-1,-1],s=this._renderer,a=s.autoClear,D=s.toneMapping;s.getClearColor(Sr),s.toneMapping=cQ,s.autoClear=!1,s.state.buffers.depth.getReversed()&&(s.setRenderTarget(B),s.clearDepth(),s.setRenderTarget(null));const c=new Qc({name:"PMREM.Background",side:Tg,depthWrite:!1,depthTest:!1}),S=new _C(new wi,c);let r=!1;const l=A.background;l?l.isColor&&(c.color.copy(l),A.background=null,r=!0):(c.color.copy(Sr),r=!0);for(let y=0;y<6;y++){const w=y%3;w===0?(o.up.set(0,t[y],0),o.position.set(Q.x,Q.y,Q.z),o.lookAt(Q.x+e[y],Q.y,Q.z)):w===1?(o.up.set(0,0,t[y]),o.position.set(Q.x,Q.y,Q.z),o.lookAt(Q.x,Q.y+e[y],Q.z)):(o.up.set(0,t[y],0),o.position.set(Q.x,Q.y,Q.z),o.lookAt(Q.x,Q.y,Q.z+e[y]));const N=this._cubeSize;it(B,w*N,y>2?N:0,N,N),s.setRenderTarget(B),r&&s.render(S,o),s.render(A,o)}S.geometry.dispose(),S.material.dispose(),s.toneMapping=D,s.autoClear=a,A.background=l}_textureToCubeUV(A,I){const C=this._renderer,B=A.mapping===Ci||A.mapping===Bi;B?(this._cubemapMaterial===null&&(this._cubemapMaterial=yr()),this._cubemapMaterial.uniforms.flipEnvMap.value=A.isRenderTargetTexture===!1?-1:1):this._equirectMaterial===null&&(this._equirectMaterial=Gr());const Q=B?this._cubemapMaterial:this._equirectMaterial,E=new _C(this._lodPlanes[0],Q),i=Q.uniforms;i.envMap.value=A;const o=this._cubeSize;it(I,0,0,3*o,2*o),C.setRenderTarget(I),C.render(E,Bs)}_applyPMREM(A){const I=this._renderer,C=I.autoClear;I.autoClear=!1;const B=this._lodPlanes.length;for(let Q=1;Q<B;Q++){const E=Math.sqrt(this._sigmas[Q]*this._sigmas[Q]-this._sigmas[Q-1]*this._sigmas[Q-1]),i=cr[(B-Q-1)%cr.length];this._blur(A,Q-1,Q,E,i)}I.autoClear=C}_blur(A,I,C,B,Q){const E=this._pingPongRenderTarget;this._halfBlur(A,E,I,C,B,"latitudinal",Q),this._halfBlur(E,A,C,C,B,"longitudinal",Q)}_halfBlur(A,I,C,B,Q,E,i){const o=this._renderer,t=this._blurMaterial;E!=="latitudinal"&&E!=="longitudinal"&&console.error("blur direction must be either latitudinal or longitudinal!");const e=3,s=new _C(this._lodPlanes[B],t),a=t.uniforms,D=this._sizeLods[C]-1,n=isFinite(Q)?Math.PI/(2*D):2*Math.PI/(2*_Q-1),c=Q/n,S=isFinite(Q)?1+Math.floor(e*c):_Q;S>_Q&&console.warn(`sigmaRadians, ${Q}, is too large and will clip, as it requested ${S} samples when the maximum is set to ${_Q}`);const r=[];let l=0;for(let F=0;F<_Q;++F){const p=F/c,k=Math.exp(-p*p/2);r.push(k),F===0?l+=k:F<S&&(l+=2*k)}for(let F=0;F<r.length;F++)r[F]=r[F]/l;a.envMap.value=A.texture,a.samples.value=S,a.weights.value=r,a.latitudinal.value=E==="latitudinal",i&&(a.poleAxis.value=i);const{_lodMax:y}=this;a.dTheta.value=n,a.mipInt.value=y-C;const w=this._sizeLods[B],N=3*w*(B>y-uE?B-y+uE:0),U=4*(this._cubeSize-w);it(I,N,U,3*w,2*w),o.setRenderTarget(I),o.render(s,Bs)}}function CK(g){const A=[],I=[],C=[];let B=g;const Q=g-uE+1+hr.length;for(let E=0;E<Q;E++){const i=Math.pow(2,B);I.push(i);let o=1/i;E>g-uE?o=hr[E-g+uE-1]:E===0&&(o=0),C.push(o);const t=1/(i-2),e=-t,s=1+t,a=[e,e,s,e,s,s,e,e,s,s,e,s],D=6,n=6,c=3,S=2,r=1,l=new Float32Array(c*n*D),y=new Float32Array(S*n*D),w=new Float32Array(r*n*D);for(let U=0;U<D;U++){const F=U%3*2/3-1,p=U>2?0:-1,k=[F,p,0,F+2/3,p,0,F+2/3,p+1,0,F,p,0,F+2/3,p+1,0,F,p+1,0];l.set(k,c*n*U),y.set(a,S*n*U);const K=[U,U,U,U,U,U];w.set(K,r*n*U)}const N=new YB;N.setAttribute("position",new dC(l,c)),N.setAttribute("uv",new dC(y,S)),N.setAttribute("faceIndex",new dC(w,r)),A.push(N),B>uE&&B--}return{lodPlanes:A,sizeLods:I,sigmas:C}}function lr(g,A,I){const C=new Wg(g,A,I);return C.texture.mapping=Be,C.texture.name="PMREM.cubeUv",C.scissorTest=!0,C}function it(g,A,I,C,B){g.viewport.set(A,I,C,B),g.scissor.set(A,I,C,B)}function BK(g,A,I){const C=new Float32Array(_Q),B=new v(0,1,0);return new CC({name:"SphericalGaussianBlur",defines:{n:_Q,CUBEUV_TEXEL_WIDTH:1/A,CUBEUV_TEXEL_HEIGHT:1/I,CUBEUV_MAX_MIP:`${g}.0`},uniforms:{envMap:{value:null},samples:{value:1},weights:{value:C},latitudinal:{value:!1},dTheta:{value:0},mipInt:{value:0},poleAxis:{value:B}},vertexShader:YD(),fragmentShader:`

			precision mediump float;
			precision mediump int;

			varying vec3 vOutputDirection;

			uniform sampler2D envMap;
			uniform int samples;
			uniform float weights[ n ];
			uniform bool latitudinal;
			uniform float dTheta;
			uniform float mipInt;
			uniform vec3 poleAxis;

			#define ENVMAP_TYPE_CUBE_UV
			#include <cube_uv_reflection_fragment>

			vec3 getSample( float theta, vec3 axis ) {

				float cosTheta = cos( theta );
				// Rodrigues' axis-angle rotation
				vec3 sampleDirection = vOutputDirection * cosTheta
					+ cross( axis, vOutputDirection ) * sin( theta )
					+ axis * dot( axis, vOutputDirection ) * ( 1.0 - cosTheta );

				return bilinearCubeUV( envMap, sampleDirection, mipInt );

			}

			void main() {

				vec3 axis = latitudinal ? poleAxis : cross( poleAxis, vOutputDirection );

				if ( all( equal( axis, vec3( 0.0 ) ) ) ) {

					axis = vec3( vOutputDirection.z, 0.0, - vOutputDirection.x );

				}

				axis = normalize( axis );

				gl_FragColor = vec4( 0.0, 0.0, 0.0, 1.0 );
				gl_FragColor.rgb += weights[ 0 ] * getSample( 0.0, axis );

				for ( int i = 1; i < n; i++ ) {

					if ( i >= samples ) {

						break;

					}

					float theta = dTheta * float( i );
					gl_FragColor.rgb += weights[ i ] * getSample( -1.0 * theta, axis );
					gl_FragColor.rgb += weights[ i ] * getSample( theta, axis );

				}

			}
		`,blending:oC,depthTest:!1,depthWrite:!1})}function Gr(){return new CC({name:"EquirectangularToCubeUV",uniforms:{envMap:{value:null}},vertexShader:YD(),fragmentShader:`

			precision mediump float;
			precision mediump int;

			varying vec3 vOutputDirection;

			uniform sampler2D envMap;

			#include <common>

			void main() {

				vec3 outputDirection = normalize( vOutputDirection );
				vec2 uv = equirectUv( outputDirection );

				gl_FragColor = vec4( texture2D ( envMap, uv ).rgb, 1.0 );

			}
		`,blending:oC,depthTest:!1,depthWrite:!1})}function yr(){return new CC({name:"CubemapToCubeUV",uniforms:{envMap:{value:null},flipEnvMap:{value:-1}},vertexShader:YD(),fragmentShader:`

			precision mediump float;
			precision mediump int;

			uniform float flipEnvMap;

			varying vec3 vOutputDirection;

			uniform samplerCube envMap;

			void main() {

				gl_FragColor = textureCube( envMap, vec3( flipEnvMap * vOutputDirection.x, vOutputDirection.yz ) );

			}
		`,blending:oC,depthTest:!1,depthWrite:!1})}function YD(){return`

		precision mediump float;
		precision mediump int;

		attribute float faceIndex;

		varying vec3 vOutputDirection;

		// RH coordinate system; PMREM face-indexing convention
		vec3 getDirection( vec2 uv, float face ) {

			uv = 2.0 * uv - 1.0;

			vec3 direction = vec3( uv, 1.0 );

			if ( face == 0.0 ) {

				direction = direction.zyx; // ( 1, v, u ) pos x

			} else if ( face == 1.0 ) {

				direction = direction.xzy;
				direction.xz *= -1.0; // ( -u, 1, -v ) pos y

			} else if ( face == 2.0 ) {

				direction.x *= -1.0; // ( -u, v, 1 ) pos z

			} else if ( face == 3.0 ) {

				direction = direction.zyx;
				direction.xz *= -1.0; // ( -1, v, -u ) neg x

			} else if ( face == 4.0 ) {

				direction = direction.xzy;
				direction.xy *= -1.0; // ( -u, -1, v ) neg y

			} else if ( face == 5.0 ) {

				direction.z *= -1.0; // ( u, v, -1 ) neg z

			}

			return direction;

		}

		void main() {

			vOutputDirection = getDirection( uv, faceIndex );
			gl_Position = vec4( position, 1.0 );

		}
	`}function QK(g){let A=new WeakMap,I=null;function C(i){if(i&&i.isTexture){const o=i.mapping,t=o===Ca||o===Ba,e=o===Ci||o===Bi;if(t||e){let s=A.get(i);const a=s!==void 0?s.texture.pmremVersion:0;if(i.isRenderTargetTexture&&i.pmremVersion!==a)return I===null&&(I=new wr(g)),s=t?I.fromEquirectangular(i,s):I.fromCubemap(i,s),s.texture.pmremVersion=i.pmremVersion,A.set(i,s),s.texture;if(s!==void 0)return s.texture;{const D=i.image;return t&&D&&D.height>0||e&&D&&B(D)?(I===null&&(I=new wr(g)),s=t?I.fromEquirectangular(i):I.fromCubemap(i),s.texture.pmremVersion=i.pmremVersion,A.set(i,s),i.addEventListener("dispose",Q),s.texture):null}}}return i}function B(i){let o=0;const t=6;for(let e=0;e<t;e++)i[e]!==void 0&&o++;return o===t}function Q(i){const o=i.target;o.removeEventListener("dispose",Q);const t=A.get(o);t!==void 0&&(A.delete(o),t.dispose())}function E(){A=new WeakMap,I!==null&&(I.dispose(),I=null)}return{get:C,dispose:E}}function EK(g){const A={};function I(C){if(A[C]!==void 0)return A[C];let B;switch(C){case"WEBGL_depth_texture":B=g.getExtension("WEBGL_depth_texture")||g.getExtension("MOZ_WEBGL_depth_texture")||g.getExtension("WEBKIT_WEBGL_depth_texture");break;case"EXT_texture_filter_anisotropic":B=g.getExtension("EXT_texture_filter_anisotropic")||g.getExtension("MOZ_EXT_texture_filter_anisotropic")||g.getExtension("WEBKIT_EXT_texture_filter_anisotropic");break;case"WEBGL_compressed_texture_s3tc":B=g.getExtension("WEBGL_compressed_texture_s3tc")||g.getExtension("MOZ_WEBGL_compressed_texture_s3tc")||g.getExtension("WEBKIT_WEBGL_compressed_texture_s3tc");break;case"WEBGL_compressed_texture_pvrtc":B=g.getExtension("WEBGL_compressed_texture_pvrtc")||g.getExtension("WEBKIT_WEBGL_compressed_texture_pvrtc");break;default:B=g.getExtension(C)}return A[C]=B,B}return{has:function(C){return 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SHEEN_ROUGHNESSMAP_UV "+I.sheenRoughnessMapUv:"",I.specularMapUv?"#define SPECULARMAP_UV "+I.specularMapUv:"",I.specularColorMapUv?"#define SPECULAR_COLORMAP_UV "+I.specularColorMapUv:"",I.specularIntensityMapUv?"#define SPECULAR_INTENSITYMAP_UV "+I.specularIntensityMapUv:"",I.transmissionMapUv?"#define TRANSMISSIONMAP_UV "+I.transmissionMapUv:"",I.thicknessMapUv?"#define THICKNESSMAP_UV "+I.thicknessMapUv:"",I.vertexTangents&&I.flatShading===!1?"#define USE_TANGENT":"",I.vertexColors?"#define USE_COLOR":"",I.vertexAlphas?"#define USE_COLOR_ALPHA":"",I.vertexUv1s?"#define USE_UV1":"",I.vertexUv2s?"#define USE_UV2":"",I.vertexUv3s?"#define USE_UV3":"",I.pointsUvs?"#define USE_POINTS_UV":"",I.flatShading?"#define FLAT_SHADED":"",I.skinning?"#define USE_SKINNING":"",I.morphTargets?"#define USE_MORPHTARGETS":"",I.morphNormals&&I.flatShading===!1?"#define USE_MORPHNORMALS":"",I.morphColors?"#define USE_MORPHCOLORS":"",I.morphTargetsCount>0?"#define MORPHTARGETS_TEXTURE_STRIDE "+I.morphTextureStride:"",I.morphTargetsCount>0?"#define MORPHTARGETS_COUNT "+I.morphTargetsCount:"",I.doubleSided?"#define DOUBLE_SIDED":"",I.flipSided?"#define FLIP_SIDED":"",I.shadowMapEnabled?"#define USE_SHADOWMAP":"",I.shadowMapEnabled?"#define "+o:"",I.sizeAttenuation?"#define USE_SIZEATTENUATION":"",I.numLightProbes>0?"#define USE_LIGHT_PROBES":"",I.logarithmicDepthBuffer?"#define USE_LOGARITHMIC_DEPTH_BUFFER":"",I.reversedDepthBuffer?"#define USE_REVERSED_DEPTH_BUFFER":"","uniform mat4 modelMatrix;","uniform mat4 modelViewMatrix;","uniform mat4 projectionMatrix;","uniform mat4 viewMatrix;","uniform mat3 normalMatrix;","uniform vec3 cameraPosition;","uniform bool isOrthographic;","#ifdef USE_INSTANCING","	attribute mat4 instanceMatrix;","#endif","#ifdef USE_INSTANCING_COLOR","	attribute vec3 instanceColor;","#endif","#ifdef USE_INSTANCING_MORPH","	uniform sampler2D morphTexture;","#endif","attribute vec3 position;","attribute vec3 normal;","attribute vec2 uv;","#ifdef USE_UV1","	attribute vec2 uv1;","#endif","#ifdef USE_UV2","	attribute vec2 uv2;","#endif","#ifdef USE_UV3","	attribute vec2 uv3;","#endif","#ifdef USE_TANGENT","	attribute vec4 tangent;","#endif","#if defined( USE_COLOR_ALPHA )","	attribute vec4 color;","#elif defined( USE_COLOR )","	attribute vec3 color;","#endif","#ifdef USE_SKINNING","	attribute vec4 skinIndex;","	attribute vec4 skinWeight;","#endif",`
`].filter(Ti).join(`
`),r=[fr(I),"#define SHADER_TYPE "+I.shaderType,"#define SHADER_NAME "+I.shaderName,n,I.useFog&&I.fog?"#define USE_FOG":"",I.useFog&&I.fogExp2?"#define FOG_EXP2":"",I.alphaToCoverage?"#define ALPHA_TO_COVERAGE":"",I.map?"#define USE_MAP":"",I.matcap?"#define USE_MATCAP":"",I.envMap?"#define USE_ENVMAP":"",I.envMap?"#define "+t:"",I.envMap?"#define "+e:"",I.envMap?"#define "+s:"",a?"#define CUBEUV_TEXEL_WIDTH "+a.texelWidth:"",a?"#define CUBEUV_TEXEL_HEIGHT "+a.texelHeight:"",a?"#define CUBEUV_MAX_MIP "+a.maxMip+".0":"",I.lightMap?"#define USE_LIGHTMAP":"",I.aoMap?"#define USE_AOMAP":"",I.bumpMap?"#define USE_BUMPMAP":"",I.normalMap?"#define USE_NORMALMAP":"",I.normalMapObjectSpace?"#define USE_NORMALMAP_OBJECTSPACE":"",I.normalMapTangentSpace?"#define USE_NORMALMAP_TANGENTSPACE":"",I.emissiveMap?"#define USE_EMISSIVEMAP":"",I.anisotropy?"#define USE_ANISOTROPY":"",I.anisotropyMap?"#define USE_ANISOTROPYMAP":"",I.clearcoat?"#define USE_CLEARCOAT":"",I.clearcoatMap?"#define USE_CLEARCOATMAP":"",I.clearcoatRoughnessMap?"#define USE_CLEARCOAT_ROUGHNESSMAP":"",I.clearcoatNormalMap?"#define USE_CLEARCOAT_NORMALMAP":"",I.dispersion?"#define USE_DISPERSION":"",I.iridescence?"#define USE_IRIDESCENCE":"",I.iridescenceMap?"#define USE_IRIDESCENCEMAP":"",I.iridescenceThicknessMap?"#define USE_IRIDESCENCE_THICKNESSMAP":"",I.specularMap?"#define USE_SPECULARMAP":"",I.specularColorMap?"#define USE_SPECULAR_COLORMAP":"",I.specularIntensityMap?"#define USE_SPECULAR_INTENSITYMAP":"",I.roughnessMap?"#define USE_ROUGHNESSMAP":"",I.metalnessMap?"#define USE_METALNESSMAP":"",I.alphaMap?"#define USE_ALPHAMAP":"",I.alphaTest?"#define USE_ALPHATEST":"",I.alphaHash?"#define USE_ALPHAHASH":"",I.sheen?"#define USE_SHEEN":"",I.sheenColorMap?"#define USE_SHEEN_COLORMAP":"",I.sheenRoughnessMap?"#define USE_SHEEN_ROUGHNESSMAP":"",I.transmission?"#define USE_TRANSMISSION":"",I.transmissionMap?"#define USE_TRANSMISSIONMAP":"",I.thicknessMap?"#define USE_THICKNESSMAP":"",I.vertexTangents&&I.flatShading===!1?"#define USE_TANGENT":"",I.vertexColors||I.instancingColor||I.batchingColor?"#define USE_COLOR":"",I.vertexAlphas?"#define USE_COLOR_ALPHA":"",I.vertexUv1s?"#define USE_UV1":"",I.vertexUv2s?"#define USE_UV2":"",I.vertexUv3s?"#define USE_UV3":"",I.pointsUvs?"#define USE_POINTS_UV":"",I.gradientMap?"#define USE_GRADIENTMAP":"",I.flatShading?"#define FLAT_SHADED":"",I.doubleSided?"#define DOUBLE_SIDED":"",I.flipSided?"#define FLIP_SIDED":"",I.shadowMapEnabled?"#define USE_SHADOWMAP":"",I.shadowMapEnabled?"#define "+o:"",I.premultipliedAlpha?"#define PREMULTIPLIED_ALPHA":"",I.numLightProbes>0?"#define USE_LIGHT_PROBES":"",I.decodeVideoTexture?"#define DECODE_VIDEO_TEXTURE":"",I.decodeVideoTextureEmissive?"#define DECODE_VIDEO_TEXTURE_EMISSIVE":"",I.logarithmicDepthBuffer?"#define USE_LOGARITHMIC_DEPTH_BUFFER":"",I.reversedDepthBuffer?"#define USE_REVERSED_DEPTH_BUFFER":"","uniform mat4 viewMatrix;","uniform vec3 cameraPosition;","uniform bool isOrthographic;",I.toneMapping!==cQ?"#define TONE_MAPPING":"",I.toneMapping!==cQ?EI.tonemapping_pars_fragment:"",I.toneMapping!==cQ?iN("toneMapping",I.toneMapping):"",I.dithering?"#define DITHERING":"",I.opaque?"#define OPAQUE":"",EI.colorspace_pars_fragment,EN("linearToOutputTexel",I.outputColorSpace),oN(),I.useDepthPacking?"#define DEPTH_PACKING "+I.depthPacking:"",`
`].filter(Ti).join(`
`)),E=La(E),E=Yr(E,I),E=ur(E,I),i=La(i),i=Yr(i,I),i=ur(i,I),E=qr(E),i=qr(i),I.isRawShaderMaterial!==!0&&(l=`#version 300 es
`,S=[D,"#define attribute in","#define varying out","#define texture2D texture"].join(`
`)+`
`+S,r=["#define varying in",I.glslVersion===Zn?"":"layout(location = 0) out highp vec4 pc_fragColor;",I.glslVersion===Zn?"":"#define gl_FragColor pc_fragColor","#define gl_FragDepthEXT gl_FragDepth","#define texture2D texture","#define textureCube texture","#define texture2DProj textureProj","#define texture2DLodEXT textureLod","#define texture2DProjLodEXT textureProjLod","#define textureCubeLodEXT textureLod","#define texture2DGradEXT textureGrad","#define texture2DProjGradEXT textureProjGrad","#define textureCubeGradEXT textureGrad"].join(`
`)+`
`+r);const y=l+S+E,w=l+r+i,N=pr(B,B.VERTEX_SHADER,y),U=pr(B,B.FRAGMENT_SHADER,w);B.attachShader(c,N),B.attachShader(c,U),I.index0AttributeName!==void 0?B.bindAttribLocation(c,0,I.index0AttributeName):I.morphTargets===!0&&B.bindAttribLocation(c,0,"position"),B.linkProgram(c);function F(u){if(g.debug.checkShaderErrors){const T=B.getProgramInfoLog(c)||"",O=B.getShaderInfoLog(N)||"",W=B.getShaderInfoLog(U)||"",X=T.trim(),Z=O.trim(),CA=W.trim();let V=!0,sA=!0;if(B.getProgramParameter(c,B.LINK_STATUS)===!1)if(V=!1,typeof g.debug.onShaderError=="function")g.debug.onShaderError(B,c,N,U);else{const rA=dr(B,N,"vertex"),MA=dr(B,U,"fragment");console.error("THREE.WebGLProgram: Shader Error "+B.getError()+" - VALIDATE_STATUS "+B.getProgramParameter(c,B.VALIDATE_STATUS)+`

Material Name: `+u.name+`
Material Type: `+u.type+`

Program Info Log: `+X+`
`+rA+`
`+MA)}else X!==""?console.warn("THREE.WebGLProgram: Program Info Log:",X):(Z===""||CA==="")&&(sA=!1);sA&&(u.diagnostics={runnable:V,programLog:X,vertexShader:{log:Z,prefix:S},fragmentShader:{log:CA,prefix:r}})}B.deleteShader(N),B.deleteShader(U),p=new Mt(B,c),k=sN(B,c)}let p;this.getUniforms=function(){return p===void 0&&F(this),p};let k;this.getAttributes=function(){return k===void 0&&F(this),k};let K=I.rendererExtensionParallelShaderCompile===!1;return this.isReady=function(){return K===!1&&(K=B.getProgramParameter(c,gN)),K},this.destroy=function(){C.releaseStatesOfProgram(this),B.deleteProgram(c),this.program=void 0},this.type=I.shaderType,this.name=I.shaderName,this.id=CN++,this.cacheKey=A,this.usedTimes=1,this.program=c,this.vertexShader=N,this.fragmentShader=U,this}let kN=0;class MN{constructor(){this.shaderCache=new Map,this.materialCache=new Map}update(A){const I=A.vertexShader,C=A.fragmentShader,B=this._getShaderStage(I),Q=this._getShaderStage(C),E=this._getShaderCacheForMaterial(A);return E.has(B)===!1&&(E.add(B),B.usedTimes++),E.has(Q)===!1&&(E.add(Q),Q.usedTimes++),this}remove(A){const I=this.materialCache.get(A);for(const C of I)C.usedTimes--,C.usedTimes===0&&this.shaderCache.delete(C.code);return this.materialCache.delete(A),this}getVertexShaderID(A){return this._getShaderStage(A.vertexShader).id}getFragmentShaderID(A){return this._getShaderStage(A.fragmentShader).id}dispose(){this.shaderCache.clear(),this.materialCache.clear()}_getShaderCacheForMaterial(A){const I=this.materialCache;let C=I.get(A);return C===void 0&&(C=new Set,I.set(A,C)),C}_getShaderStage(A){const I=this.shaderCache;let C=I.get(A);return C===void 0&&(C=new UN(A),I.set(A,C)),C}}class UN{constructor(A){this.id=kN++,this.code=A,this.usedTimes=0}}function KN(g,A,I,C,B,Q,E){const i=new Cc,o=new MN,t=new Set,e=[],s=B.logarithmicDepthBuffer,a=B.vertexTextures;let D=B.precision;const n={MeshDepthMaterial:"depth",MeshDistanceMaterial:"distanceRGBA",MeshNormalMaterial:"normal",MeshBasicMaterial:"basic",MeshLambertMaterial:"lambert",MeshPhongMaterial:"phong",MeshToonMaterial:"toon",MeshStandardMaterial:"physical",MeshPhysicalMaterial:"physical",MeshMatcapMaterial:"matcap",LineBasicMaterial:"basic",LineDashedMaterial:"dashed",PointsMaterial:"points",ShadowMaterial:"shadow",SpriteMaterial:"sprite"};function c(k){return t.add(k),k===0?"uv":`uv${k}`}function S(k,K,u,T,O){const W=T.fog,X=O.geometry,Z=k.isMeshStandardMaterial?T.environment:null,CA=(k.isMeshStandardMaterial?I:A).get(k.envMap||Z),V=CA&&CA.mapping===Be?CA.image.height:null,sA=n[k.type];k.precision!==null&&(D=B.getMaxPrecision(k.precision),D!==k.precision&&console.warn("THREE.WebGLProgram.getParameters:",k.precision,"not supported, using",D,"instead."));const rA=X.morphAttributes.position||X.morphAttributes.normal||X.morphAttributes.color,MA=rA!==void 0?rA.length:0;let BI=0;X.morphAttributes.position!==void 0&&(BI=1),X.morphAttributes.normal!==void 0&&(BI=2),X.morphAttributes.color!==void 0&&(BI=3);let DI,GI,KI,IA;if(sA){const NI=wB[sA];DI=NI.vertexShader,GI=NI.fragmentShader}else DI=k.vertexShader,GI=k.fragmentShader,o.update(k),KI=o.getVertexShaderID(k),IA=o.getFragmentShaderID(k);const QA=g.getRenderTarget(),UA=g.state.buffers.depth.getReversed(),jA=O.isInstancedMesh===!0,qA=O.isBatchedMesh===!0,lI=!!k.map,Pg=!!k.matcap,q=!!CA,PI=!!k.aoMap,AI=!!k.lightMap,ZA=!!k.bumpMap,FA=!!k.normalMap,jI=!!k.displacementMap,pA=!!k.emissiveMap,QI=!!k.metalnessMap,Yg=!!k.roughnessMap,hg=k.anisotropy>0,R=k.clearcoat>0,G=k.dispersion>0,_=k.iridescence>0,$=k.sheen>0,BA=k.transmission>0,z=hg&&!!k.anisotropyMap,uA=R&&!!k.clearcoatMap,eA=R&&!!k.clearcoatNormalMap,RA=R&&!!k.clearcoatRoughnessMap,dA=_&&!!k.iridescenceMap,oA=_&&!!k.iridescenceThicknessMap,cA=$&&!!k.sheenColorMap,vA=$&&!!k.sheenRoughnessMap,YA=!!k.specularMap,nA=!!k.specularColorMap,gI=!!k.specularIntensityMap,H=BA&&!!k.transmissionMap,tA=BA&&!!k.thicknessMap,aA=!!k.gradientMap,GA=!!k.alphaMap,EA=k.alphaTest>0,gA=!!k.alphaHash,JA=!!k.extensions;let $A=cQ;k.toneMapped&&(QA===null||QA.isXRRenderTarget===!0)&&($A=g.toneMapping);const TI={shaderID:sA,shaderType:k.type,shaderName:k.name,vertexShader:DI,fragmentShader:GI,defines:k.defines,customVertexShaderID:KI,customFragmentShaderID:IA,isRawShaderMaterial:k.isRawShaderMaterial===!0,glslVersion:k.glslVersion,precision:D,batching:qA,batchingColor:qA&&O._colorsTexture!==null,instancing:jA,instancingColor:jA&&O.instanceColor!==null,instancingMorph:jA&&O.morphTexture!==null,supportsVertexTextures:a,outputColorSpace:QA===null?g.outputColorSpace:QA.isXRRenderTarget===!0?QA.texture.colorSpace:kQ,alphaToCoverage:!!k.alphaToCoverage,map:lI,matcap:Pg,envMap:q,envMapMode:q&&CA.mapping,envMapCubeUVHeight:V,aoMap:PI,lightMap:AI,bumpMap:ZA,normalMap:FA,displacementMap:a&&jI,emissiveMap:pA,normalMapObjectSpace:FA&&k.normalMapType===cy,normalMapTangentSpace:FA&&k.normalMapType===$S,metalnessMap:QI,roughnessMap:Yg,anisotropy:hg,anisotropyMap:z,clearcoat:R,clearcoatMap:uA,clearcoatNormalMap:eA,clearcoatRoughnessMap:RA,dispersion:G,iridescence:_,iridescenceMap:dA,iridescenceThicknessMap:oA,sheen:$,sheenColorMap:cA,sheenRoughnessMap:vA,specularMap:YA,specularColorMap:nA,specularIntensityMap:gI,transmission:BA,transmissionMap:H,thicknessMap:tA,gradientMap:aA,opaque:k.transparent===!1&&k.blending===vE&&k.alphaToCoverage===!1,alphaMap:GA,alphaTest:EA,alphaHash:gA,combine:k.combine,mapUv:lI&&c(k.map.channel),aoMapUv:PI&&c(k.aoMap.channel),lightMapUv:AI&&c(k.lightMap.channel),bumpMapUv:ZA&&c(k.bumpMap.channel),normalMapUv:FA&&c(k.normalMap.channel),displacementMapUv:jI&&c(k.displacementMap.channel),emissiveMapUv:pA&&c(k.emissiveMap.channel),metalnessMapUv:QI&&c(k.metalnessMap.channel),roughnessMapUv:Yg&&c(k.roughnessMap.channel),anisotropyMapUv:z&&c(k.anisotropyMap.channel),clearcoatMapUv:uA&&c(k.clearcoatMap.channel),clearcoatNormalMapUv:eA&&c(k.clearcoatNormalMap.channel),clearcoatRoughnessMapUv:RA&&c(k.clearcoatRoughnessMap.channel),iridescenceMapUv:dA&&c(k.iridescenceMap.channel),iridescenceThicknessMapUv:oA&&c(k.iridescenceThicknessMap.channel),sheenColorMapUv:cA&&c(k.sheenColorMap.channel),sheenRoughnessMapUv:vA&&c(k.sheenRoughnessMap.channel),specularMapUv:YA&&c(k.specularMap.channel),specularColorMapUv:nA&&c(k.specularColorMap.channel),specularIntensityMapUv:gI&&c(k.specularIntensityMap.channel),transmissionMapUv:H&&c(k.transmissionMap.channel),thicknessMapUv:tA&&c(k.thicknessMap.channel),alphaMapUv:GA&&c(k.alphaMap.channel),vertexTangents:!!X.attributes.tangent&&(FA||hg),vertexColors:k.vertexColors,vertexAlphas:k.vertexColors===!0&&!!X.attributes.color&&X.attributes.color.itemSize===4,pointsUvs:O.isPoints===!0&&!!X.attributes.uv&&(lI||GA),fog:!!W,useFog:k.fog===!0,fogExp2:!!W&&W.isFogExp2,flatShading:k.flatShading===!0&&k.wireframe===!1,sizeAttenuation:k.sizeAttenuation===!0,logarithmicDepthBuffer:s,reversedDepthBuffer:UA,skinning:O.isSkinnedMesh===!0,morphTargets:X.morphAttributes.position!==void 0,morphNormals:X.morphAttributes.normal!==void 0,morphColors:X.morphAttributes.color!==void 0,morphTargetsCount:MA,morphTextureStride:BI,numDirLights:K.directional.length,numPointLights:K.point.length,numSpotLights:K.spot.length,numSpotLightMaps:K.spotLightMap.length,numRectAreaLights:K.rectArea.length,numHemiLights:K.hemi.length,numDirLightShadows:K.directionalShadowMap.length,numPointLightShadows:K.pointShadowMap.length,numSpotLightShadows:K.spotShadowMap.length,numSpotLightShadowsWithMaps:K.numSpotLightShadowsWithMaps,numLightProbes:K.numLightProbes,numClippingPlanes:E.numPlanes,numClipIntersection:E.numIntersection,dithering:k.dithering,shadowMapEnabled:g.shadowMap.enabled&&u.length>0,shadowMapType:g.shadowMap.type,toneMapping:$A,decodeVideoTexture:lI&&k.map.isVideoTexture===!0&&kI.getTransfer(k.map.colorSpace)===YI,decodeVideoTextureEmissive:pA&&k.emissiveMap.isVideoTexture===!0&&kI.getTransfer(k.emissiveMap.colorSpace)===YI,premultipliedAlpha:k.premultipliedAlpha,doubleSided:k.side===FC,flipSided:k.side===Tg,useDepthPacking:k.depthPacking>=0,depthPacking:k.depthPacking||0,index0AttributeName:k.index0AttributeName,extensionClipCullDistance:JA&&k.extensions.clipCullDistance===!0&&C.has("WEBGL_clip_cull_distance"),extensionMultiDraw:(JA&&k.extensions.multiDraw===!0||qA)&&C.has("WEBGL_multi_draw"),rendererExtensionParallelShaderCompile:C.has("KHR_parallel_shader_compile"),customProgramCacheKey:k.customProgramCacheKey()};return TI.vertexUv1s=t.has(1),TI.vertexUv2s=t.has(2),TI.vertexUv3s=t.has(3),t.clear(),TI}function r(k){const K=[];if(k.shaderID?K.push(k.shaderID):(K.push(k.customVertexShaderID),K.push(k.customFragmentShaderID)),k.defines!==void 0)for(const u in k.defines)K.push(u),K.push(k.defines[u]);return k.isRawShaderMaterial===!1&&(l(K,k),y(K,k),K.push(g.outputColorSpace)),K.push(k.customProgramCacheKey),K.join()}function l(k,K){k.push(K.precision),k.push(K.outputColorSpace),k.push(K.envMapMode),k.push(K.envMapCubeUVHeight),k.push(K.mapUv),k.push(K.alphaMapUv),k.push(K.lightMapUv),k.push(K.aoMapUv),k.push(K.bumpMapUv),k.push(K.normalMapUv),k.push(K.displacementMapUv),k.push(K.emissiveMapUv),k.push(K.metalnessMapUv),k.push(K.roughnessMapUv),k.push(K.anisotropyMapUv),k.push(K.clearcoatMapUv),k.push(K.clearcoatNormalMapUv),k.push(K.clearcoatRoughnessMapUv),k.push(K.iridescenceMapUv),k.push(K.iridescenceThicknessMapUv),k.push(K.sheenColorMapUv),k.push(K.sheenRoughnessMapUv),k.push(K.specularMapUv),k.push(K.specularColorMapUv),k.push(K.specularIntensityMapUv),k.push(K.transmissionMapUv),k.push(K.thicknessMapUv),k.push(K.combine),k.push(K.fogExp2),k.push(K.sizeAttenuation),k.push(K.morphTargetsCount),k.push(K.morphAttributeCount),k.push(K.numDirLights),k.push(K.numPointLights),k.push(K.numSpotLights),k.push(K.numSpotLightMaps),k.push(K.numHemiLights),k.push(K.numRectAreaLights),k.push(K.numDirLightShadows),k.push(K.numPointLightShadows),k.push(K.numSpotLightShadows),k.push(K.numSpotLightShadowsWithMaps),k.push(K.numLightProbes),k.push(K.shadowMapType),k.push(K.toneMapping),k.push(K.numClippingPlanes),k.push(K.numClipIntersection),k.push(K.depthPacking)}function y(k,K){i.disableAll(),K.supportsVertexTextures&&i.enable(0),K.instancing&&i.enable(1),K.instancingColor&&i.enable(2),K.instancingMorph&&i.enable(3),K.matcap&&i.enable(4),K.envMap&&i.enable(5),K.normalMapObjectSpace&&i.enable(6),K.normalMapTangentSpace&&i.enable(7),K.clearcoat&&i.enable(8),K.iridescence&&i.enable(9),K.alphaTest&&i.enable(10),K.vertexColors&&i.enable(11),K.vertexAlphas&&i.enable(12),K.vertexUv1s&&i.enable(13),K.vertexUv2s&&i.enable(14),K.vertexUv3s&&i.enable(15),K.vertexTangents&&i.enable(16),K.anisotropy&&i.enable(17),K.alphaHash&&i.enable(18),K.batching&&i.enable(19),K.dispersion&&i.enable(20),K.batchingColor&&i.enable(21),K.gradientMap&&i.enable(22),k.push(i.mask),i.disableAll(),K.fog&&i.enable(0),K.useFog&&i.enable(1),K.flatShading&&i.enable(2),K.logarithmicDepthBuffer&&i.enable(3),K.reversedDepthBuffer&&i.enable(4),K.skinning&&i.enable(5),K.morphTargets&&i.enable(6),K.morphNormals&&i.enable(7),K.morphColors&&i.enable(8),K.premultipliedAlpha&&i.enable(9),K.shadowMapEnabled&&i.enable(10),K.doubleSided&&i.enable(11),K.flipSided&&i.enable(12),K.useDepthPacking&&i.enable(13),K.dithering&&i.enable(14),K.transmission&&i.enable(15),K.sheen&&i.enable(16),K.opaque&&i.enable(17),K.pointsUvs&&i.enable(18),K.decodeVideoTexture&&i.enable(19),K.decodeVideoTextureEmissive&&i.enable(20),K.alphaToCoverage&&i.enable(21),k.push(i.mask)}function w(k){const K=n[k.type];let u;if(K){const T=wB[K];u=jy.clone(T.uniforms)}else u=k.uniforms;return u}function N(k,K){let u;for(let T=0,O=e.length;T<O;T++){const W=e[T];if(W.cacheKey===K){u=W,++u.usedTimes;break}}return u===void 0&&(u=new yN(g,K,k,Q),e.push(u)),u}function U(k){if(--k.usedTimes===0){const K=e.indexOf(k);e[K]=e[e.length-1],e.pop(),k.destroy()}}function F(k){o.remove(k)}function p(){o.dispose()}return{getParameters:S,getProgramCacheKey:r,getUniforms:w,acquireProgram:N,releaseProgram:U,releaseShaderCache:F,programs:e,dispose:p}}function NN(){let g=new WeakMap;function A(E){return g.has(E)}function I(E){let i=g.get(E);return i===void 0&&(i={},g.set(E,i)),i}function C(E){g.delete(E)}function B(E,i,o){g.get(E)[i]=o}function Q(){g=new WeakMap}return{has:A,get:I,remove:C,update:B,dispose:Q}}function JN(g,A){return g.groupOrder!==A.groupOrder?g.groupOrder-A.groupOrder:g.renderOrder!==A.renderOrder?g.renderOrder-A.renderOrder:g.material.id!==A.material.id?g.material.id-A.material.id:g.z!==A.z?g.z-A.z:g.id-A.id}function Lr(g,A){return g.groupOrder!==A.groupOrder?g.groupOrder-A.groupOrder:g.renderOrder!==A.renderOrder?g.renderOrder-A.renderOrder:g.z!==A.z?A.z-g.z:g.id-A.id}function Hr(){const g=[];let A=0;const I=[],C=[],B=[];function Q(){A=0,I.length=0,C.length=0,B.length=0}function E(s,a,D,n,c,S){let r=g[A];return r===void 0?(r={id:s.id,object:s,geometry:a,material:D,groupOrder:n,renderOrder:s.renderOrder,z:c,group:S},g[A]=r):(r.id=s.id,r.object=s,r.geometry=a,r.material=D,r.groupOrder=n,r.renderOrder=s.renderOrder,r.z=c,r.group=S),A++,r}function i(s,a,D,n,c,S){const r=E(s,a,D,n,c,S);D.transmission>0?C.push(r):D.transparent===!0?B.push(r):I.push(r)}function o(s,a,D,n,c,S){const r=E(s,a,D,n,c,S);D.transmission>0?C.unshift(r):D.transparent===!0?B.unshift(r):I.unshift(r)}function t(s,a){I.length>1&&I.sort(s||JN),C.length>1&&C.sort(a||Lr),B.length>1&&B.sort(a||Lr)}function e(){for(let s=A,a=g.length;s<a;s++){const D=g[s];if(D.id===null)break;D.id=null,D.object=null,D.geometry=null,D.material=null,D.group=null}}return{opaque:I,transmissive:C,transparent:B,init:Q,push:i,unshift:o,finish:e,sort:t}}function FN(){let g=new WeakMap;function A(C,B){const Q=g.get(C);let E;return Q===void 0?(E=new Hr,g.set(C,[E])):B>=Q.length?(E=new Hr,Q.push(E)):E=Q[B],E}function I(){g=new WeakMap}return{get:A,dispose:I}}function pN(){const g={};return{get:function(A){if(g[A.id]!==void 0)return g[A.id];let I;switch(A.type){case"DirectionalLight":I={direction:new v,color:new cI};break;case"SpotLight":I={position:new v,direction:new v,color:new cI,distance:0,coneCos:0,penumbraCos:0,decay:0};break;case"PointLight":I={position:new v,color:new cI,distance:0,decay:0};break;case"HemisphereLight":I={direction:new v,skyColor:new cI,groundColor:new cI};break;case"RectAreaLight":I={color:new cI,position:new v,halfWidth:new v,halfHeight:new v};break}return g[A.id]=I,I}}}function RN(){const g={};return{get:function(A){if(g[A.id]!==void 0)return g[A.id];let I;switch(A.type){case"DirectionalLight":I={shadowIntensity:1,shadowBias:0,shadowNormalBias:0,shadowRadius:1,shadowMapSize:new PA};break;case"SpotLight":I={shadowIntensity:1,shadowBias:0,shadowNormalBias:0,shadowRadius:1,shadowMapSize:new PA};break;case"PointLight":I={shadowIntensity:1,shadowBias:0,shadowNormalBias:0,shadowRadius:1,shadowMapSize:new PA,shadowCameraNear:1,shadowCameraFar:1e3};break}return g[A.id]=I,I}}}let dN=0;function YN(g,A){return(A.castShadow?2:0)-(g.castShadow?2:0)+(A.map?1:0)-(g.map?1:0)}function uN(g){const A=new pN,I=RN(),C={version:0,hash:{directionalLength:-1,pointLength:-1,spotLength:-1,rectAreaLength:-1,hemiLength:-1,numDirectionalShadows:-1,numPointShadows:-1,numSpotShadows:-1,numSpotMaps:-1,numLightProbes:-1},ambient:[0,0,0],probe:[],directional:[],directionalShadow:[],directionalShadowMap:[],directionalShadowMatrix:[],spot:[],spotLightMap:[],spotShadow:[],spotShadowMap:[],spotLightMatrix:[],rectArea:[],rectAreaLTC1:null,rectAreaLTC2:null,point:[],pointShadow:[],pointShadowMap:[],pointShadowMatrix:[],hemi:[],numSpotLightShadowsWithMaps:0,numLightProbes:0};for(let t=0;t<9;t++)C.probe.push(new v);const B=new v,Q=new UI,E=new UI;function i(t){let e=0,s=0,a=0;for(let k=0;k<9;k++)C.probe[k].set(0,0,0);let D=0,n=0,c=0,S=0,r=0,l=0,y=0,w=0,N=0,U=0,F=0;t.sort(YN);for(let k=0,K=t.length;k<K;k++){const u=t[k],T=u.color,O=u.intensity,W=u.distance,X=u.shadow&&u.shadow.map?u.shadow.map.texture:null;if(u.isAmbientLight)e+=T.r*O,s+=T.g*O,a+=T.b*O;else if(u.isLightProbe){for(let Z=0;Z<9;Z++)C.probe[Z].addScaledVector(u.sh.coefficients[Z],O);F++}else if(u.isDirectionalLight){const Z=A.get(u);if(Z.color.copy(u.color).multiplyScalar(u.intensity),u.castShadow){const CA=u.shadow,V=I.get(u);V.shadowIntensity=CA.intensity,V.shadowBias=CA.bias,V.shadowNormalBias=CA.normalBias,V.shadowRadius=CA.radius,V.shadowMapSize=CA.mapSize,C.directionalShadow[D]=V,C.directionalShadowMap[D]=X,C.directionalShadowMatrix[D]=u.shadow.matrix,l++}C.directional[D]=Z,D++}else if(u.isSpotLight){const Z=A.get(u);Z.position.setFromMatrixPosition(u.matrixWorld),Z.color.copy(T).multiplyScalar(O),Z.distance=W,Z.coneCos=Math.cos(u.angle),Z.penumbraCos=Math.cos(u.angle*(1-u.penumbra)),Z.decay=u.decay,C.spot[c]=Z;const CA=u.shadow;if(u.map&&(C.spotLightMap[N]=u.map,N++,CA.updateMatrices(u),u.castShadow&&U++),C.spotLightMatrix[c]=CA.matrix,u.castShadow){const V=I.get(u);V.shadowIntensity=CA.intensity,V.shadowBias=CA.bias,V.shadowNormalBias=CA.normalBias,V.shadowRadius=CA.radius,V.shadowMapSize=CA.mapSize,C.spotShadow[c]=V,C.spotShadowMap[c]=X,w++}c++}else if(u.isRectAreaLight){const Z=A.get(u);Z.color.copy(T).multiplyScalar(O),Z.halfWidth.set(u.width*.5,0,0),Z.halfHeight.set(0,u.height*.5,0),C.rectArea[S]=Z,S++}else if(u.isPointLight){const Z=A.get(u);if(Z.color.copy(u.color).multiplyScalar(u.intensity),Z.distance=u.distance,Z.decay=u.decay,u.castShadow){const CA=u.shadow,V=I.get(u);V.shadowIntensity=CA.intensity,V.shadowBias=CA.bias,V.shadowNormalBias=CA.normalBias,V.shadowRadius=CA.radius,V.shadowMapSize=CA.mapSize,V.shadowCameraNear=CA.camera.near,V.shadowCameraFar=CA.camera.far,C.pointShadow[n]=V,C.pointShadowMap[n]=X,C.pointShadowMatrix[n]=u.shadow.matrix,y++}C.point[n]=Z,n++}else if(u.isHemisphereLight){const Z=A.get(u);Z.skyColor.copy(u.color).multiplyScalar(O),Z.groundColor.copy(u.groundColor).multiplyScalar(O),C.hemi[r]=Z,r++}}S>0&&(g.has("OES_texture_float_linear")===!0?(C.rectAreaLTC1=DA.LTC_FLOAT_1,C.rectAreaLTC2=DA.LTC_FLOAT_2):(C.rectAreaLTC1=DA.LTC_HALF_1,C.rectAreaLTC2=DA.LTC_HALF_2)),C.ambient[0]=e,C.ambient[1]=s,C.ambient[2]=a;const p=C.hash;(p.directionalLength!==D||p.pointLength!==n||p.spotLength!==c||p.rectAreaLength!==S||p.hemiLength!==r||p.numDirectionalShadows!==l||p.numPointShadows!==y||p.numSpotShadows!==w||p.numSpotMaps!==N||p.numLightProbes!==F)&&(C.directional.length=D,C.spot.length=c,C.rectArea.length=S,C.point.length=n,C.hemi.length=r,C.directionalShadow.length=l,C.directionalShadowMap.length=l,C.pointShadow.length=y,C.pointShadowMap.length=y,C.spotShadow.length=w,C.spotShadowMap.length=w,C.directionalShadowMatrix.length=l,C.pointShadowMatrix.length=y,C.spotLightMatrix.length=w+N-U,C.spotLightMap.length=N,C.numSpotLightShadowsWithMaps=U,C.numLightProbes=F,p.directionalLength=D,p.pointLength=n,p.spotLength=c,p.rectAreaLength=S,p.hemiLength=r,p.numDirectionalShadows=l,p.numPointShadows=y,p.numSpotShadows=w,p.numSpotMaps=N,p.numLightProbes=F,C.version=dN++)}function o(t,e){let s=0,a=0,D=0,n=0,c=0;const S=e.matrixWorldInverse;for(let r=0,l=t.length;r<l;r++){const y=t[r];if(y.isDirectionalLight){const w=C.directional[s];w.direction.setFromMatrixPosition(y.matrixWorld),B.setFromMatrixPosition(y.target.matrixWorld),w.direction.sub(B),w.direction.transformDirection(S),s++}else if(y.isSpotLight){const w=C.spot[D];w.position.setFromMatrixPosition(y.matrixWorld),w.position.applyMatrix4(S),w.direction.setFromMatrixPosition(y.matrixWorld),B.setFromMatrixPosition(y.target.matrixWorld),w.direction.sub(B),w.direction.transformDirection(S),D++}else if(y.isRectAreaLight){const w=C.rectArea[n];w.position.setFromMatrixPosition(y.matrixWorld),w.position.applyMatrix4(S),E.identity(),Q.copy(y.matrixWorld),Q.premultiply(S),E.extractRotation(Q),w.halfWidth.set(y.width*.5,0,0),w.halfHeight.set(0,y.height*.5,0),w.halfWidth.applyMatrix4(E),w.halfHeight.applyMatrix4(E),n++}else if(y.isPointLight){const w=C.point[a];w.position.setFromMatrixPosition(y.matrixWorld),w.position.applyMatrix4(S),a++}else if(y.isHemisphereLight){const w=C.hemi[c];w.direction.setFromMatrixPosition(y.matrixWorld),w.direction.transformDirection(S),c++}}}return{setup:i,setupView:o,state:C}}function mr(g){const A=new uN(g),I=[],C=[];function B(e){t.camera=e,I.length=0,C.length=0}function Q(e){I.push(e)}function E(e){C.push(e)}function i(){A.setup(I)}function o(e){A.setupView(I,e)}const t={lightsArray:I,shadowsArray:C,camera:null,lights:A,transmissionRenderTarget:{}};return{init:B,state:t,setupLights:i,setupLightsView:o,pushLight:Q,pushShadow:E}}function qN(g){let A=new WeakMap;function I(B,Q=0){const E=A.get(B);let i;return E===void 0?(i=new mr(g),A.set(B,[i])):Q>=E.length?(i=new mr(g),E.push(i)):i=E[Q],i}function C(){A=new WeakMap}return{get:I,dispose:C}}const fN=`void main() {
	gl_Position = vec4( position, 1.0 );
}`,LN=`uniform sampler2D shadow_pass;
uniform vec2 resolution;
uniform float radius;
#include <packing>
void main() {
	const float samples = float( VSM_SAMPLES );
	float mean = 0.0;
	float squared_mean = 0.0;
	float uvStride = samples <= 1.0 ? 0.0 : 2.0 / ( samples - 1.0 );
	float uvStart = samples <= 1.0 ? 0.0 : - 1.0;
	for ( float i = 0.0; i < samples; i ++ ) {
		float uvOffset = uvStart + i * uvStride;
		#ifdef HORIZONTAL_PASS
			vec2 distribution = unpackRGBATo2Half( texture2D( shadow_pass, ( gl_FragCoord.xy + vec2( uvOffset, 0.0 ) * radius ) / resolution ) );
			mean += distribution.x;
			squared_mean += distribution.y * distribution.y + distribution.x * distribution.x;
		#else
			float depth = unpackRGBAToDepth( texture2D( shadow_pass, ( gl_FragCoord.xy + vec2( 0.0, uvOffset ) * radius ) / resolution ) );
			mean += depth;
			squared_mean += depth * depth;
		#endif
	}
	mean = mean / samples;
	squared_mean = squared_mean / samples;
	float std_dev = sqrt( squared_mean - mean * mean );
	gl_FragColor = pack2HalfToRGBA( vec2( mean, std_dev ) );
}`;function HN(g,A,I){let C=new FD;const B=new PA,Q=new PA,E=new Bg,i=new ok({depthPacking:Sy}),o=new tk,t={},e=I.maxTextureSize,s={[jB]:Tg,[Tg]:jB,[FC]:FC},a=new CC({defines:{VSM_SAMPLES:8},uniforms:{shadow_pass:{value:null},resolution:{value:new PA},radius:{value:4}},vertexShader:fN,fragmentShader:LN}),D=a.clone();D.defines.HORIZONTAL_PASS=1;const n=new YB;n.setAttribute("position",new dC(new Float32Array([-1,-1,.5,3,-1,.5,-1,3,.5]),3));const c=new _C(n,a),S=this;this.enabled=!1,this.autoUpdate=!0,this.needsUpdate=!1,this.type=bS;let r=this.type;this.render=function(U,F,p){if(S.enabled===!1||S.autoUpdate===!1&&S.needsUpdate===!1||U.length===0)return;const k=g.getRenderTarget(),K=g.getActiveCubeFace(),u=g.getActiveMipmapLevel(),T=g.state;T.setBlending(oC),T.buffers.depth.getReversed()===!0?T.buffers.color.setClear(0,0,0,0):T.buffers.color.setClear(1,1,1,1),T.buffers.depth.setTest(!0),T.setScissorTest(!1);const O=r!==xB&&this.type===xB,W=r===xB&&this.type!==xB;for(let X=0,Z=U.length;X<Z;X++){const CA=U[X],V=CA.shadow;if(V===void 0){console.warn("THREE.WebGLShadowMap:",CA,"has no shadow.");continue}if(V.autoUpdate===!1&&V.needsUpdate===!1)continue;B.copy(V.mapSize);const sA=V.getFrameExtents();if(B.multiply(sA),Q.copy(V.mapSize),(B.x>e||B.y>e)&&(B.x>e&&(Q.x=Math.floor(e/sA.x),B.x=Q.x*sA.x,V.mapSize.x=Q.x),B.y>e&&(Q.y=Math.floor(e/sA.y),B.y=Q.y*sA.y,V.mapSize.y=Q.y)),V.map===null||O===!0||W===!0){const MA=this.type!==xB?{minFilter:tC,magFilter:tC}:{};V.map!==null&&V.map.dispose(),V.map=new Wg(B.x,B.y,MA),V.map.texture.name=CA.name+".shadowMap",V.camera.updateProjectionMatrix()}g.setRenderTarget(V.map),g.clear();const rA=V.getViewportCount();for(let MA=0;MA<rA;MA++){const BI=V.getViewport(MA);E.set(Q.x*BI.x,Q.y*BI.y,Q.x*BI.z,Q.y*BI.w),T.viewport(E),V.updateMatrices(CA,MA),C=V.getFrustum(),w(F,p,V.camera,CA,this.type)}V.isPointLightShadow!==!0&&this.type===xB&&l(V,p),V.needsUpdate=!1}r=this.type,S.needsUpdate=!1,g.setRenderTarget(k,K,u)};function l(U,F){const p=A.update(c);a.defines.VSM_SAMPLES!==U.blurSamples&&(a.defines.VSM_SAMPLES=U.blurSamples,D.defines.VSM_SAMPLES=U.blurSamples,a.needsUpdate=!0,D.needsUpdate=!0),U.mapPass===null&&(U.mapPass=new Wg(B.x,B.y)),a.uniforms.shadow_pass.value=U.map.texture,a.uniforms.resolution.value=U.mapSize,a.uniforms.radius.value=U.radius,g.setRenderTarget(U.mapPass),g.clear(),g.renderBufferDirect(F,null,p,a,c,null),D.uniforms.shadow_pass.value=U.mapPass.texture,D.uniforms.resolution.value=U.mapSize,D.uniforms.radius.value=U.radius,g.setRenderTarget(U.map),g.clear(),g.renderBufferDirect(F,null,p,D,c,null)}function y(U,F,p,k){let K=null;const u=p.isPointLight===!0?U.customDistanceMaterial:U.customDepthMaterial;if(u!==void 0)K=u;else if(K=p.isPointLight===!0?o:i,g.localClippingEnabled&&F.clipShadows===!0&&Array.isArray(F.clippingPlanes)&&F.clippingPlanes.length!==0||F.displacementMap&&F.displacementScale!==0||F.alphaMap&&F.alphaTest>0||F.map&&F.alphaTest>0||F.alphaToCoverage===!0){const 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w(U,F,p,k,K){if(U.visible===!1)return;if(U.layers.test(F.layers)&&(U.isMesh||U.isLine||U.isPoints)&&(U.castShadow||U.receiveShadow&&K===xB)&&(!U.frustumCulled||C.intersectsObject(U))){U.modelViewMatrix.multiplyMatrices(p.matrixWorldInverse,U.matrixWorld);const O=A.update(U),W=U.material;if(Array.isArray(W)){const X=O.groups;for(let Z=0,CA=X.length;Z<CA;Z++){const V=X[Z],sA=W[V.materialIndex];if(sA&&sA.visible){const rA=y(U,sA,k,K);U.onBeforeShadow(g,U,F,p,O,rA,V),g.renderBufferDirect(p,null,O,rA,U,V),U.onAfterShadow(g,U,F,p,O,rA,V)}}}else if(W.visible){const X=y(U,W,k,K);U.onBeforeShadow(g,U,F,p,O,X,null),g.renderBufferDirect(p,null,O,X,U,null),U.onAfterShadow(g,U,F,p,O,X,null)}}const T=U.children;for(let O=0,W=T.length;O<W;O++)w(T[O],F,p,k,K)}function N(U){U.target.removeEventListener("dispose",N);for(const p in t){const k=t[p],K=U.target.uuid;K in k&&(k[K].dispose(),delete k[K])}}}const mN={[Xs]:Vs,[zs]:Ia,[$s]:ga,[gi]:Aa,[Vs]:Xs,[Ia]:zs,[ga]:$s,[Aa]:gi};function TN(g,A){function 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cA=Math.max(1,G.width>>z),vA=Math.max(1,G.height>>z);BA===g.TEXTURE_3D||BA===g.TEXTURE_2D_ARRAY?I.texImage3D(BA,z,RA,cA,vA,G.depth,0,uA,eA,null):I.texImage2D(BA,z,RA,cA,vA,0,uA,eA,null)}I.bindFramebuffer(g.FRAMEBUFFER,R),pA(G)?i.framebufferTexture2DMultisampleEXT(g.FRAMEBUFFER,$,BA,oA.__webglTexture,0,jI(G)):(BA===g.TEXTURE_2D||BA>=g.TEXTURE_CUBE_MAP_POSITIVE_X&&BA<=g.TEXTURE_CUBE_MAP_NEGATIVE_Z)&&g.framebufferTexture2D(g.FRAMEBUFFER,$,BA,oA.__webglTexture,z),I.bindFramebuffer(g.FRAMEBUFFER,null)}function jA(R,G,_){if(g.bindRenderbuffer(g.RENDERBUFFER,R),G.depthBuffer){const 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G=C.get(R),_=R.isWebGLCubeRenderTarget===!0;if(G.__boundDepthTexture!==R.depthTexture){const $=R.depthTexture;if(G.__depthDisposeCallback&&G.__depthDisposeCallback(),$){const BA=()=>{delete G.__boundDepthTexture,delete G.__depthDisposeCallback,$.removeEventListener("dispose",BA)};$.addEventListener("dispose",BA),G.__depthDisposeCallback=BA}G.__boundDepthTexture=$}if(R.depthTexture&&!G.__autoAllocateDepthBuffer){if(_)throw new Error("target.depthTexture not supported in Cube render targets");const $=R.texture.mipmaps;$&&$.length>0?qA(G.__webglFramebuffer[0],R):qA(G.__webglFramebuffer,R)}else if(_){G.__webglDepthbuffer=[];for(let $=0;$<6;$++)if(I.bindFramebuffer(g.FRAMEBUFFER,G.__webglFramebuffer[$]),G.__webglDepthbuffer[$]===void 0)G.__webglDepthbuffer[$]=g.createRenderbuffer(),jA(G.__webglDepthbuffer[$],R,!1);else{const BA=R.stencilBuffer?g.DEPTH_STENCIL_ATTACHMENT:g.DEPTH_ATTACHMENT,z=G.__webglDepthbuffer[$];g.bindRenderbuffer(g.RENDERBUFFER,z),g.framebufferRenderbuffer(g.FRAMEBUFFER,BA,g.RENDERBUFFER,z)}}else{const $=R.texture.mipmaps;if($&&$.length>0?I.bindFramebuffer(g.FRAMEBUFFER,G.__webglFramebuffer[0]):I.bindFramebuffer(g.FRAMEBUFFER,G.__webglFramebuffer),G.__webglDepthbuffer===void 0)G.__webglDepthbuffer=g.createRenderbuffer(),jA(G.__webglDepthbuffer,R,!1);else{const BA=R.stencilBuffer?g.DEPTH_STENCIL_ATTACHMENT:g.DEPTH_ATTACHMENT,z=G.__webglDepthbuffer;g.bindRenderbuffer(g.RENDERBUFFER,z),g.framebufferRenderbuffer(g.FRAMEBUFFER,BA,g.RENDERBUFFER,z)}}I.bindFramebuffer(g.FRAMEBUFFER,null)}function Pg(R,G,_){const $=C.get(R);G!==void 0&&UA($.__webglFramebuffer,R,R.texture,g.COLOR_ATTACHMENT0,g.TEXTURE_2D,0),_!==void 0&&lI(R)}function q(R){const G=R.texture,_=C.get(R),$=C.get(G);R.addEventListener("dispose",F);const BA=R.textures,z=R.isWebGLCubeRenderTarget===!0,uA=BA.length>1;if(uA||($.__webglTexture===void 0&&($.__webglTexture=g.createTexture()),$.__version=G.version,E.memory.textures++),z){_.__webglFramebuffer=[];for(let eA=0;eA<6;eA++)if(G.mipmaps&&G.mipmaps.length>0){_.__webglFramebuffer[eA]=[];for(let RA=0;RA<G.mipmaps.length;RA++)_.__webglFramebuffer[eA][RA]=g.createFramebuffer()}else _.__webglFramebuffer[eA]=g.createFramebuffer()}else{if(G.mipmaps&&G.mipmaps.length>0){_.__webglFramebuffer=[];for(let eA=0;eA<G.mipmaps.length;eA++)_.__webglFramebuffer[eA]=g.createFramebuffer()}else _.__webglFramebuffer=g.createFramebuffer();if(uA)for(let eA=0,RA=BA.length;eA<RA;eA++){const dA=C.get(BA[eA]);dA.__webglTexture===void 0&&(dA.__webglTexture=g.createTexture(),E.memory.textures++)}if(R.samples>0&&pA(R)===!1){_.__webglMultisampledFramebuffer=g.createFramebuffer(),_.__webglColorRenderbuffer=[],I.bindFramebuffer(g.FRAMEBUFFER,_.__webglMultisampledFramebuffer);for(let eA=0;eA<BA.length;eA++){const RA=BA[eA];_.__webglColorRenderbuffer[eA]=g.createRenderbuffer(),g.bindRenderbuffer(g.RENDERBUFFER,_.__webglColorRenderbuffer[eA]);const dA=Q.convert(RA.format,RA.colorSpace),oA=Q.convert(RA.type),cA=y(RA.internalFormat,dA,oA,RA.colorSpace,R.isXRRenderTarget===!0),vA=jI(R);g.renderbufferStorageMultisample(g.RENDERBUFFER,vA,cA,R.width,R.height),g.framebufferRenderbuffer(g.FRAMEBUFFER,g.COLOR_ATTACHMENT0+eA,g.RENDERBUFFER,_.__webglColorRenderbuffer[eA])}g.bindRenderbuffer(g.RENDERBUFFER,null),R.depthBuffer&&(_.__webglDepthRenderbuffer=g.createRenderbuffer(),jA(_.__webglDepthRenderbuffer,R,!0)),I.bindFramebuffer(g.FRAMEBUFFER,null)}}if(z){I.bindTexture(g.TEXTURE_CUBE_MAP,$.__webglTexture),BI(g.TEXTURE_CUBE_MAP,G);for(let eA=0;eA<6;eA++)if(G.mipmaps&&G.mipmaps.length>0)for(let RA=0;RA<G.mipmaps.length;RA++)UA(_.__webglFramebuffer[eA][RA],R,G,g.COLOR_ATTACHMENT0,g.TEXTURE_CUBE_MAP_POSITIVE_X+eA,RA);else UA(_.__webglFramebuffer[eA],R,G,g.COLOR_ATTACHMENT0,g.TEXTURE_CUBE_MAP_POSITIVE_X+eA,0);S(G)&&r(g.TEXTURE_CUBE_MAP),I.unbindTexture()}else if(uA){for(let eA=0,RA=BA.length;eA<RA;eA++){const dA=BA[eA],oA=C.get(dA);let cA=g.TEXTURE_2D;(R.isWebGL3DRenderTarget||R.isWebGLArrayRenderTarget)&&(cA=R.isWebGL3DRenderTarget?g.TEXTURE_3D:g.TEXTURE_2D_ARRAY),I.bindTexture(cA,oA.__webglTexture),BI(cA,dA),UA(_.__webglFramebuffer,R,dA,g.COLOR_ATTACHMENT0+eA,cA,0),S(dA)&&r(cA)}I.unbindTexture()}else{let eA=g.TEXTURE_2D;if((R.isWebGL3DRenderTarget||R.isWebGLArrayRenderTarget)&&(eA=R.isWebGL3DRenderTarget?g.TEXTURE_3D:g.TEXTURE_2D_ARRAY),I.bindTexture(eA,$.__webglTexture),BI(eA,G),G.mipmaps&&G.mipmaps.length>0)for(let RA=0;RA<G.mipmaps.length;RA++)UA(_.__webglFramebuffer[RA],R,G,g.COLOR_ATTACHMENT0,eA,RA);else UA(_.__webglFramebuffer,R,G,g.COLOR_ATTACHMENT0,eA,0);S(G)&&r(eA),I.unbindTexture()}R.depthBuffer&&lI(R)}function PI(R){const G=R.textures;for(let _=0,$=G.length;_<$;_++){const BA=G[_];if(S(BA)){const z=l(R),uA=C.get(BA).__webglTexture;I.bindTexture(z,uA),r(z),I.unbindTexture()}}}const AI=[],ZA=[];function FA(R){if(R.samples>0){if(pA(R)===!1){const G=R.textures,_=R.width,$=R.height;let BA=g.COLOR_BUFFER_BIT;const z=R.stencilBuffer?g.DEPTH_STENCIL_ATTACHMENT:g.DEPTH_ATTACHMENT,uA=C.get(R),eA=G.length>1;if(eA)for(let dA=0;dA<G.length;dA++)I.bindFramebuffer(g.FRAMEBUFFER,uA.__webglMultisampledFramebuffer),g.framebufferRenderbuffer(g.FRAMEBUFFER,g.COLOR_ATTACHMENT0+dA,g.RENDERBUFFER,null),I.bindFramebuffer(g.FRAMEBUFFER,uA.__webglFramebuffer),g.framebufferTexture2D(g.DRAW_FRAMEBUFFER,g.COLOR_ATTACHMENT0+dA,g.TEXTURE_2D,null,0);I.bindFramebuffer(g.READ_FRAMEBUFFER,uA.__webglMultisampledFramebuffer);const RA=R.texture.mipmaps;RA&&RA.length>0?I.bindFramebuffer(g.DRAW_FRAMEBUFFER,uA.__webglFramebuffer[0]):I.bindFramebuffer(g.DRAW_FRAMEBUFFER,uA.__webglFramebuffer);for(let dA=0;dA<G.length;dA++){if(R.resolveDepthBuffer&&(R.depthBuffer&&(BA|=g.DEPTH_BUFFER_BIT),R.stencilBuffer&&R.resolveStencilBuffer&&(BA|=g.STENCIL_BUFFER_BIT)),eA){g.framebufferRenderbuffer(g.READ_FRAMEBUFFER,g.COLOR_ATTACHMENT0,g.RENDERBUFFER,uA.__webglColorRenderbuffer[dA]);const oA=C.get(G[dA]).__webglTexture;g.framebufferTexture2D(g.DRAW_FRAMEBUFFER,g.COLOR_ATTACHMENT0,g.TEXTURE_2D,oA,0)}g.blitFramebuffer(0,0,_,$,0,0,_,$,BA,g.NEAREST),o===!0&&(AI.length=0,ZA.length=0,AI.push(g.COLOR_ATTACHMENT0+dA),R.depthBuffer&&R.resolveDepthBuffer===!1&&(AI.push(z),ZA.push(z),g.invalidateFramebuffer(g.DRAW_FRAMEBUFFER,ZA)),g.invalidateFramebuffer(g.READ_FRAMEBUFFER,AI))}if(I.bindFramebuffer(g.READ_FRAMEBUFFER,null),I.bindFramebuffer(g.DRAW_FRAMEBUFFER,null),eA)for(let dA=0;dA<G.length;dA++){I.bindFramebuffer(g.FRAMEBUFFER,uA.__webglMultisampledFramebuffer),g.framebufferRenderbuffer(g.FRAMEBUFFER,g.COLOR_ATTACHMENT0+dA,g.RENDERBUFFER,uA.__webglColorRenderbuffer[dA]);const oA=C.get(G[dA]).__webglTexture;I.bindFramebuffer(g.FRAMEBUFFER,uA.__webglFramebuffer),g.framebufferTexture2D(g.DRAW_FRAMEBUFFER,g.COLOR_ATTACHMENT0+dA,g.TEXTURE_2D,oA,0)}I.bindFramebuffer(g.DRAW_FRAMEBUFFER,uA.__webglMultisampledFramebuffer)}else if(R.depthBuffer&&R.resolveDepthBuffer===!1&&o){const G=R.stencilBuffer?g.DEPTH_STENCIL_ATTACHMENT:g.DEPTH_ATTACHMENT;g.invalidateFramebuffer(g.DRAW_FRAMEBUFFER,[G])}}}function jI(R){return Math.min(B.maxSamples,R.samples)}function pA(R){const G=C.get(R);return R.samples>0&&A.has("WEBGL_multisampled_render_to_texture")===!0&&G.__useRenderToTexture!==!1}function QI(R){const G=E.render.frame;e.get(R)!==G&&(e.set(R,G),R.update())}function Yg(R,G){const _=R.colorSpace,$=R.format,BA=R.type;return R.isCompressedTexture===!0||R.isVideoTexture===!0||_!==kQ&&_!==GB&&(kI.getTransfer(_)===YI?($!==sB||BA!==Zg)&&console.warn("THREE.WebGLTextures: sRGB encoded textures have to use RGBAFormat and UnsignedByteType."):console.error("THREE.WebGLTextures: Unsupported texture color space:",_)),G}function hg(R){return typeof HTMLImageElement<"u"&&R instanceof HTMLImageElement?(t.width=R.naturalWidth||R.width,t.height=R.naturalHeight||R.height):typeof VideoFrame<"u"&&R instanceof VideoFrame?(t.width=R.displayWidth,t.height=R.displayHeight):(t.width=R.width,t.height=R.height),t}this.allocateTextureUnit=O,this.resetTextureUnits=T,this.setTexture2D=X,this.setTexture2DArray=Z,this.setTexture3D=CA,this.setTextureCube=V,this.rebindTextures=Pg,this.setupRenderTarget=q,this.updateRenderTargetMipmap=PI,this.updateMultisampleRenderTarget=FA,this.setupDepthRenderbuffer=lI,this.setupFrameBufferTexture=UA,this.useMultisampledRTT=pA}function bN(g,A){function I(C,B=GB){let Q;const E=kI.getTransfer(B);if(C===Zg)return g.UNSIGNED_BYTE;if(C===GD)return g.UNSIGNED_SHORT_4_4_4_4;if(C===yD)return g.UNSIGNED_SHORT_5_5_5_1;if(C===PS)return g.UNSIGNED_INT_5_9_9_9_REV;if(C===jS)return g.UNSIGNED_INT_10F_11F_11F_REV;if(C===ZS)return g.BYTE;if(C===WS)return g.SHORT;if(C===Bo)return g.UNSIGNED_SHORT;if(C===lD)return g.INT;if(C===yQ)return g.UNSIGNED_INT;if(C===MB)return g.FLOAT;if(C===Uo)return g.HALF_FLOAT;if(C===XS)return g.ALPHA;if(C===VS)return g.RGB;if(C===sB)return g.RGBA;if(C===Qo)return g.DEPTH_COMPONENT;if(C===Ei)return g.DEPTH_STENCIL;if(C===kD)return g.RED;if(C===MD)return g.RED_INTEGER;if(C===zS)return g.RG;if(C===UD)return g.RG_INTEGER;if(C===KD)return g.RGBA_INTEGER;if(C===lt||C===Gt||C===yt||C===kt)if(E===YI)if(Q=A.get("WEBGL_compressed_texture_s3tc_srgb"),Q!==null){if(C===lt)return Q.COMPRESSED_SRGB_S3TC_DXT1_EXT;if(C===Gt)return Q.COMPRESSED_SRGB_ALPHA_S3TC_DXT1_EXT;if(C===yt)return Q.COMPRESSED_SRGB_ALPHA_S3TC_DXT3_EXT;if(C===kt)return Q.COMPRESSED_SRGB_ALPHA_S3TC_DXT5_EXT}else return null;else if(Q=A.get("WEBGL_compressed_texture_s3tc"),Q!==null){if(C===lt)return Q.COMPRESSED_RGB_S3TC_DXT1_EXT;if(C===Gt)return Q.COMPRESSED_RGBA_S3TC_DXT1_EXT;if(C===yt)return Q.COMPRESSED_RGBA_S3TC_DXT3_EXT;if(C===kt)return Q.COMPRESSED_RGBA_S3TC_DXT5_EXT}else return null;if(C===ia||C===oa||C===ta||C===ea)if(Q=A.get("WEBGL_compressed_texture_pvrtc"),Q!==null){if(C===ia)return Q.COMPRESSED_RGB_PVRTC_4BPPV1_IMG;if(C===oa)return Q.COMPRESSED_RGB_PVRTC_2BPPV1_IMG;if(C===ta)return Q.COMPRESSED_RGBA_PVRTC_4BPPV1_IMG;if(C===ea)return Q.COMPRESSED_RGBA_PVRTC_2BPPV1_IMG}else return null;if(C===sa||C===aa||C===Da)if(Q=A.get("WEBGL_compressed_texture_etc"),Q!==null){if(C===sa||C===aa)return E===YI?Q.COMPRESSED_SRGB8_ETC2:Q.COMPRESSED_RGB8_ETC2;if(C===Da)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ETC2_EAC:Q.COMPRESSED_RGBA8_ETC2_EAC}else return null;if(C===na||C===ra||C===ha||C===Sa||C===ca||C===wa||C===la||C===Ga||C===ya||C===ka||C===Ma||C===Ua||C===Ka||C===Na)if(Q=A.get("WEBGL_compressed_texture_astc"),Q!==null){if(C===na)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_4x4_KHR:Q.COMPRESSED_RGBA_ASTC_4x4_KHR;if(C===ra)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_5x4_KHR:Q.COMPRESSED_RGBA_ASTC_5x4_KHR;if(C===ha)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_5x5_KHR:Q.COMPRESSED_RGBA_ASTC_5x5_KHR;if(C===Sa)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_6x5_KHR:Q.COMPRESSED_RGBA_ASTC_6x5_KHR;if(C===ca)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_6x6_KHR:Q.COMPRESSED_RGBA_ASTC_6x6_KHR;if(C===wa)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_8x5_KHR:Q.COMPRESSED_RGBA_ASTC_8x5_KHR;if(C===la)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_8x6_KHR:Q.COMPRESSED_RGBA_ASTC_8x6_KHR;if(C===Ga)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_8x8_KHR:Q.COMPRESSED_RGBA_ASTC_8x8_KHR;if(C===ya)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_10x5_KHR:Q.COMPRESSED_RGBA_ASTC_10x5_KHR;if(C===ka)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_10x6_KHR:Q.COMPRESSED_RGBA_ASTC_10x6_KHR;if(C===Ma)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_10x8_KHR:Q.COMPRESSED_RGBA_ASTC_10x8_KHR;if(C===Ua)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_10x10_KHR:Q.COMPRESSED_RGBA_ASTC_10x10_KHR;if(C===Ka)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_12x10_KHR:Q.COMPRESSED_RGBA_ASTC_12x10_KHR;if(C===Na)return E===YI?Q.COMPRESSED_SRGB8_ALPHA8_ASTC_12x12_KHR:Q.COMPRESSED_RGBA_ASTC_12x12_KHR}else return null;if(C===Ja||C===Fa||C===pa)if(Q=A.get("EXT_texture_compression_bptc"),Q!==null){if(C===Ja)return E===YI?Q.COMPRESSED_SRGB_ALPHA_BPTC_UNORM_EXT:Q.COMPRESSED_RGBA_BPTC_UNORM_EXT;if(C===Fa)return Q.COMPRESSED_RGB_BPTC_SIGNED_FLOAT_EXT;if(C===pa)return Q.COMPRESSED_RGB_BPTC_UNSIGNED_FLOAT_EXT}else return null;if(C===Ra||C===da||C===Ya||C===ua)if(Q=A.get("EXT_texture_compression_rgtc"),Q!==null){if(C===Ra)return Q.COMPRESSED_RED_RGTC1_EXT;if(C===da)return Q.COMPRESSED_SIGNED_RED_RGTC1_EXT;if(C===Ya)return Q.COMPRESSED_RED_GREEN_RGTC2_EXT;if(C===ua)return Q.COMPRESSED_SIGNED_RED_GREEN_RGTC2_EXT}else return null;return C===Qi?g.UNSIGNED_INT_24_8:g[C]!==void 0?g[C]:null}return{convert:I}}const ON=`
void main() {

	gl_Position = vec4( position, 1.0 );

}`,vN=`
uniform sampler2DArray depthColor;
uniform float depthWidth;
uniform float depthHeight;

void main() {

	vec2 coord = vec2( gl_FragCoord.x / depthWidth, gl_FragCoord.y / depthHeight );

	if ( coord.x >= 1.0 ) {

		gl_FragDepth = texture( depthColor, vec3( coord.x - 1.0, coord.y, 1 ) ).r;

	} else {

		gl_FragDepth = texture( depthColor, vec3( coord.x, coord.y, 0 ) ).r;

	}

}`;class _N{constructor(){this.texture=null,this.mesh=null,this.depthNear=0,this.depthFar=0}init(A,I){if(this.texture===null){const C=new ec(A.texture);(A.depthNear!==I.depthNear||A.depthFar!==I.depthFar)&&(this.depthNear=A.depthNear,this.depthFar=A.depthFar),this.texture=C}}getMesh(A){if(this.texture!==null&&this.mesh===null){const I=A.cameras[0].viewport,C=new CC({vertexShader:ON,fragmentShader:vN,uniforms:{depthColor:{value:this.texture},depthWidth:{value:I.z},depthHeight:{value:I.w}}});this.mesh=new _C(new Fo(20,20),C)}return this.mesh}reset(){this.texture=null,this.mesh=null}getDepthTexture(){return this.texture}}class ZN extends CQ{constructor(A,I){super();const C=this;let B=null,Q=1,E=null,i="local-floor",o=1,t=null,e=null,s=null,a=null,D=null,n=null;const c=typeof XRWebGLBinding<"u",S=new _N,r={},l=I.getContextAttributes();let y=null,w=null;const N=[],U=[],F=new PA;let p=null;const k=new JC;k.viewport=new Bg;const K=new JC;K.viewport=new Bg;const u=[k,K],T=new ak;let 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B(S,r,l,y,w){r.isMeshBasicMaterial||r.isMeshLambertMaterial?Q(S,r):r.isMeshToonMaterial?(Q(S,r),s(S,r)):r.isMeshPhongMaterial?(Q(S,r),e(S,r)):r.isMeshStandardMaterial?(Q(S,r),a(S,r),r.isMeshPhysicalMaterial&&D(S,r,w)):r.isMeshMatcapMaterial?(Q(S,r),n(S,r)):r.isMeshDepthMaterial?Q(S,r):r.isMeshDistanceMaterial?(Q(S,r),c(S,r)):r.isMeshNormalMaterial?Q(S,r):r.isLineBasicMaterial?(E(S,r),r.isLineDashedMaterial&&i(S,r)):r.isPointsMaterial?o(S,r,l,y):r.isSpriteMaterial?t(S,r):r.isShadowMaterial?(S.color.value.copy(r.color),S.opacity.value=r.opacity):r.isShaderMaterial&&(r.uniformsNeedUpdate=!1)}function Q(S,r){S.opacity.value=r.opacity,r.color&&S.diffuse.value.copy(r.color),r.emissive&&S.emissive.value.copy(r.emissive).multiplyScalar(r.emissiveIntensity),r.map&&(S.map.value=r.map,I(r.map,S.mapTransform)),r.alphaMap&&(S.alphaMap.value=r.alphaMap,I(r.alphaMap,S.alphaMapTransform)),r.bumpMap&&(S.bumpMap.value=r.bumpMap,I(r.bumpMap,S.bumpMapTransform),S.bumpScale.value=r.bumpScale,r.side===Tg&&(S.bumpScale.value*=-1)),r.normalMap&&(S.normalMap.value=r.normalMap,I(r.normalMap,S.normalMapTransform),S.normalScale.value.copy(r.normalScale),r.side===Tg&&S.normalScale.value.negate()),r.displacementMap&&(S.displacementMap.value=r.displacementMap,I(r.displacementMap,S.displacementMapTransform),S.displacementScale.value=r.displacementScale,S.displacementBias.value=r.displacementBias),r.emissiveMap&&(S.emissiveMap.value=r.emissiveMap,I(r.emissiveMap,S.emissiveMapTransform)),r.specularMap&&(S.specularMap.value=r.specularMap,I(r.specularMap,S.specularMapTransform)),r.alphaTest>0&&(S.alphaTest.value=r.alphaTest);const l=A.get(r),y=l.envMap,w=l.envMapRotation;y&&(S.envMap.value=y,fQ.copy(w),fQ.x*=-1,fQ.y*=-1,fQ.z*=-1,y.isCubeTexture&&y.isRenderTargetTexture===!1&&(fQ.y*=-1,fQ.z*=-1),S.envMapRotation.value.setFromMatrix4(WN.makeRotationFromEuler(fQ)),S.flipEnvMap.value=y.isCubeTexture&&y.isRenderTargetTexture===!1?-1:1,S.reflectivity.value=r.reflectivity,S.ior.value=r.ior,S.refractionRatio.value=r.refractionRatio),r.lightMap&&(S.lightMap.value=r.lightMap,S.lightMapIntensity.value=r.lightMapIntensity,I(r.lightMap,S.lightMapTransform)),r.aoMap&&(S.aoMap.value=r.aoMap,S.aoMapIntensity.value=r.aoMapIntensity,I(r.aoMap,S.aoMapTransform))}function E(S,r){S.diffuse.value.copy(r.color),S.opacity.value=r.opacity,r.map&&(S.map.value=r.map,I(r.map,S.mapTransform))}function i(S,r){S.dashSize.value=r.dashSize,S.totalSize.value=r.dashSize+r.gapSize,S.scale.value=r.scale}function 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D(S,r,l){S.ior.value=r.ior,r.sheen>0&&(S.sheenColor.value.copy(r.sheenColor).multiplyScalar(r.sheen),S.sheenRoughness.value=r.sheenRoughness,r.sheenColorMap&&(S.sheenColorMap.value=r.sheenColorMap,I(r.sheenColorMap,S.sheenColorMapTransform)),r.sheenRoughnessMap&&(S.sheenRoughnessMap.value=r.sheenRoughnessMap,I(r.sheenRoughnessMap,S.sheenRoughnessMapTransform))),r.clearcoat>0&&(S.clearcoat.value=r.clearcoat,S.clearcoatRoughness.value=r.clearcoatRoughness,r.clearcoatMap&&(S.clearcoatMap.value=r.clearcoatMap,I(r.clearcoatMap,S.clearcoatMapTransform)),r.clearcoatRoughnessMap&&(S.clearcoatRoughnessMap.value=r.clearcoatRoughnessMap,I(r.clearcoatRoughnessMap,S.clearcoatRoughnessMapTransform)),r.clearcoatNormalMap&&(S.clearcoatNormalMap.value=r.clearcoatNormalMap,I(r.clearcoatNormalMap,S.clearcoatNormalMapTransform),S.clearcoatNormalScale.value.copy(r.clearcoatNormalScale),r.side===Tg&&S.clearcoatNormalScale.value.negate())),r.dispersion>0&&(S.dispersion.value=r.dispersion),r.iridescence>0&&(S.iridescence.value=r.iridescence,S.iridescenceIOR.value=r.iridescenceIOR,S.iridescenceThicknessMinimum.value=r.iridescenceThicknessRange[0],S.iridescenceThicknessMaximum.value=r.iridescenceThicknessRange[1],r.iridescenceMap&&(S.iridescenceMap.value=r.iridescenceMap,I(r.iridescenceMap,S.iridescenceMapTransform)),r.iridescenceThicknessMap&&(S.iridescenceThicknessMap.value=r.iridescenceThicknessMap,I(r.iridescenceThicknessMap,S.iridescenceThicknessMapTransform))),r.transmission>0&&(S.transmission.value=r.transmission,S.transmissionSamplerMap.value=l.texture,S.transmissionSamplerSize.value.set(l.width,l.height),r.transmissionMap&&(S.transmissionMap.value=r.transmissionMap,I(r.transmissionMap,S.transmissionMapTransform)),S.thickness.value=r.thickness,r.thicknessMap&&(S.thicknessMap.value=r.thicknessMap,I(r.thicknessMap,S.thicknessMapTransform)),S.attenuationDistance.value=r.attenuationDistance,S.attenuationColor.value.copy(r.attenuationColor)),r.anisotropy>0&&(S.anisotropyVector.value.set(r.anisotropy*Math.cos(r.anisotropyRotation),r.anisotropy*Math.sin(r.anisotropyRotation)),r.anisotropyMap&&(S.anisotropyMap.value=r.anisotropyMap,I(r.anisotropyMap,S.anisotropyMapTransform))),S.specularIntensity.value=r.specularIntensity,S.specularColor.value.copy(r.specularColor),r.specularColorMap&&(S.specularColorMap.value=r.specularColorMap,I(r.specularColorMap,S.specularColorMapTransform)),r.specularIntensityMap&&(S.specularIntensityMap.value=r.specularIntensityMap,I(r.specularIntensityMap,S.specularIntensityMapTransform))}function n(S,r){r.matcap&&(S.matcap.value=r.matcap)}function c(S,r){const l=A.get(r).light;S.referencePosition.value.setFromMatrixPosition(l.matrixWorld),S.nearDistance.value=l.shadow.camera.near,S.farDistance.value=l.shadow.camera.far}return{refreshFogUniforms:C,refreshMaterialUniforms:B}}function jN(g,A,I,C){let B={},Q={},E=[];const i=g.getParameter(g.MAX_UNIFORM_BUFFER_BINDINGS);function o(l,y){const w=y.program;C.uniformBlockBinding(l,w)}function t(l,y){let w=B[l.id];w===void 0&&(n(l),w=e(l),B[l.id]=w,l.addEventListener("dispose",S));const N=y.program;C.updateUBOMapping(l,N);const U=A.render.frame;Q[l.id]!==U&&(a(l),Q[l.id]=U)}function e(l){const y=s();l.__bindingPointIndex=y;const w=g.createBuffer(),N=l.__size,U=l.usage;return g.bindBuffer(g.UNIFORM_BUFFER,w),g.bufferData(g.UNIFORM_BUFFER,N,U),g.bindBuffer(g.UNIFORM_BUFFER,null),g.bindBufferBase(g.UNIFORM_BUFFER,y,w),w}function s(){for(let l=0;l<i;l++)if(E.indexOf(l)===-1)return E.push(l),l;return console.error("THREE.WebGLRenderer: 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while VR device is presenting.");return}Z=M,CA=x,I.width=Math.floor(M*V),I.height=Math.floor(x*V),P===!0&&(I.style.width=M+"px",I.style.height=x+"px"),this.setViewport(0,0,M,x)},this.getDrawingBufferSize=function(M){return M.set(Z*V,CA*V).floor()},this.setDrawingBufferSize=function(M,x,P){Z=M,CA=x,V=P,I.width=Math.floor(M*P),I.height=Math.floor(x*P),this.setViewport(0,0,M,x)},this.getCurrentViewport=function(M){return M.copy(u)},this.getViewport=function(M){return M.copy(MA)},this.setViewport=function(M,x,P,j){M.isVector4?MA.set(M.x,M.y,M.z,M.w):MA.set(M,x,P,j),FA.viewport(u.copy(MA).multiplyScalar(V).round())},this.getScissor=function(M){return M.copy(BI)},this.setScissor=function(M,x,P,j){M.isVector4?BI.set(M.x,M.y,M.z,M.w):BI.set(M,x,P,j),FA.scissor(T.copy(BI).multiplyScalar(V).round())},this.getScissorTest=function(){return DI},this.setScissorTest=function(M){FA.setScissorTest(DI=M)},this.setOpaqueSort=function(M){sA=M},this.setTransparentSort=function(M){rA=M},this.getClearColor=function(M){return M.copy(dA.getClearColor())},this.setClearColor=function(){dA.setClearColor(...arguments)},this.getClearAlpha=function(){return dA.getClearAlpha()},this.setClearAlpha=function(){dA.setClearAlpha(...arguments)},this.clear=function(M=!0,x=!0,P=!0){let j=0;if(M){let b=!1;if(p!==null){const iA=p.texture.format;b=iA===KD||iA===UD||iA===MD}if(b){const iA=p.texture.type,hA=iA===Zg||iA===yQ||iA===Bo||iA===Qi||iA===GD||iA===yD,KA=dA.getClearColor(),lA=dA.getClearAlpha(),OA=KA.r,WA=KA.g,mA=KA.b;hA?(n[0]=OA,n[1]=WA,n[2]=mA,n[3]=lA,q.clearBufferuiv(q.COLOR,0,n)):(c[0]=OA,c[1]=WA,c[2]=mA,c[3]=lA,q.clearBufferiv(q.COLOR,0,c))}else j|=q.COLOR_BUFFER_BIT}x&&(j|=q.DEPTH_BUFFER_BIT),P&&(j|=q.STENCIL_BUFFER_BIT,this.state.buffers.stencil.setMask(4294967295)),q.clear(j)},this.clearColor=function(){this.clear(!0,!1,!1)},this.clearDepth=function(){this.clear(!1,!0,!1)},this.clearStencil=function(){this.clear(!1,!1,!0)},this.dispose=function(){I.removeEventListener("webglcontextlost",aA,!1),I.removeEventListener("webglcontextrestored",GA,!1),I.removeEventListener("webglcontextcreationerror",EA,!1),dA.dispose(),z.dispose(),uA.dispose(),pA.dispose(),Yg.dispose(),hg.dispose(),_.dispose(),nA.dispose(),gI.dispose(),$.dispose(),tA.dispose(),tA.removeEventListener("sessionstart",DB),tA.removeEventListener("sessionend",Jn),FQ.stop()};function aA(M){M.preventDefault(),console.log("THREE.WebGLRenderer: Context Lost."),N=!0}function GA(){console.log("THREE.WebGLRenderer: Context Restored."),N=!1;const M=jI.autoReset,x=RA.enabled,P=RA.autoUpdate,j=RA.needsUpdate,b=RA.type;H(),jI.autoReset=M,RA.enabled=x,RA.autoUpdate=P,RA.needsUpdate=j,RA.type=b}function EA(M){console.error("THREE.WebGLRenderer: A WebGL context could not be created. Reason: ",M.statusMessage)}function gA(M){const x=M.target;x.removeEventListener("dispose",gA),JA(x)}function JA(M){$A(M),pA.remove(M)}function $A(M){const x=pA.get(M).programs;x!==void 0&&(x.forEach(function(P){$.releaseProgram(P)}),M.isShaderMaterial&&$.releaseShaderCache(M))}this.renderBufferDirect=function(M,x,P,j,b,iA){x===null&&(x=qA);const hA=b.isMesh&&b.matrixWorld.determinant()<0,KA=AG(M,x,P,j,b);FA.setMaterial(j,hA);let lA=P.index,OA=1;if(j.wireframe===!0){if(lA=G.getWireframeAttribute(P),lA===void 0)return;OA=2}const WA=P.drawRange,mA=P.attributes.position;let nI=WA.start*OA,pI=(WA.start+WA.count)*OA;iA!==null&&(nI=Math.max(nI,iA.start*OA),pI=Math.min(pI,(iA.start+iA.count)*OA)),lA!==null?(nI=Math.max(nI,0),pI=Math.min(pI,lA.count)):mA!=null&&(nI=Math.max(nI,0),pI=Math.min(pI,mA.count));const ag=pI-nI;if(ag<0||ag===1/0)return;nA.setup(b,j,KA,P,lA);let _I,fI=cA;if(lA!==null&&(_I=R.get(lA),fI=vA,fI.setIndex(_I)),b.isMesh)j.wireframe===!0?(FA.setLineWidth(j.wireframeLinewidth*Pg()),fI.setMode(q.LINES)):fI.setMode(q.TRIANGLES);else if(b.isLine){let xA=j.linewidth;xA===void 0&&(xA=1),FA.setLineWidth(xA*Pg()),b.isLineSegments?fI.setMode(q.LINES):b.isLineLoop?fI.setMode(q.LINE_LOOP):fI.setMode(q.LINE_STRIP)}else b.isPoints?fI.setMode(q.POINTS):b.isSprite&&fI.setMode(q.TRIANGLES);if(b.isBatchedMesh)if(b._multiDrawInstances!==null)Eo("THREE.WebGLRenderer: renderMultiDrawInstances has been deprecated and will be removed in r184. 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TI(M,x,P){M.transparent===!0&&M.side===FC&&M.forceSinglePass===!1?(M.side=Tg,M.needsUpdate=!0,Ho(M,x,P),M.side=jB,M.needsUpdate=!0,Ho(M,x,P),M.side=FC):Ho(M,x,P)}this.compile=function(M,x,P=null){P===null&&(P=M),r=uA.get(P),r.init(x),y.push(r),P.traverseVisible(function(b){b.isLight&&b.layers.test(x.layers)&&(r.pushLight(b),b.castShadow&&r.pushShadow(b))}),M!==P&&M.traverseVisible(function(b){b.isLight&&b.layers.test(x.layers)&&(r.pushLight(b),b.castShadow&&r.pushShadow(b))}),r.setupLights();const j=new Set;return M.traverse(function(b){if(!(b.isMesh||b.isPoints||b.isLine||b.isSprite))return;const iA=b.material;if(iA)if(Array.isArray(iA))for(let hA=0;hA<iA.length;hA++){const KA=iA[hA];TI(KA,P,b),j.add(KA)}else TI(iA,P,b),j.add(iA)}),r=y.pop(),j},this.compileAsync=function(M,x,P=null){const j=this.compile(M,x,P);return new Promise(b=>{function iA(){if(j.forEach(function(hA){pA.get(hA).currentProgram.isReady()&&j.delete(hA)}),j.size===0){b(M);return}setTimeout(iA,10)}AI.get("KHR_parallel_shader_compile")!==null?iA():setTimeout(iA,10)})};let NI=null;function uB(M){NI&&NI(M)}function DB(){FQ.stop()}function Jn(){FQ.start()}const FQ=new rc;FQ.setAnimationLoop(uB),typeof self<"u"&&FQ.setContext(self),this.setAnimationLoop=function(M){NI=M,tA.setAnimationLoop(M),M===null?FQ.stop():FQ.start()},tA.addEventListener("sessionstart",DB),tA.addEventListener("sessionend",Jn),this.render=function(M,x){if(x!==void 0&&x.isCamera!==!0){console.error("THREE.WebGLRenderer.render: camera is not an instance of 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P=r.state.shadowsArray;RA.render(P,M,x),KI===!0&&eA.endShadows(),this.info.autoReset===!0&&this.info.reset();const j=S.opaque,b=S.transmissive;if(r.setupLights(),x.isArrayCamera){const iA=x.cameras;if(b.length>0)for(let hA=0,KA=iA.length;hA<KA;hA++){const lA=iA[hA];pn(j,b,M,lA)}lI&&dA.render(M);for(let hA=0,KA=iA.length;hA<KA;hA++){const lA=iA[hA];Fn(S,M,lA,lA.viewport)}}else b.length>0&&pn(j,b,M,x),lI&&dA.render(M),Fn(S,M,x);p!==null&&F===0&&(QI.updateMultisampleRenderTarget(p),QI.updateRenderTargetMipmap(p)),M.isScene===!0&&M.onAfterRender(w,M,x),nA.resetDefaultState(),k=-1,K=null,y.pop(),y.length>0?(r=y[y.length-1],KI===!0&&eA.setGlobalState(w.clippingPlanes,r.state.camera)):r=null,l.pop(),l.length>0?S=l[l.length-1]:S=null};function pe(M,x,P,j){if(M.visible===!1)return;if(M.layers.test(x.layers)){if(M.isGroup)P=M.renderOrder;else if(M.isLOD)M.autoUpdate===!0&&M.update(x);else if(M.isLight)r.pushLight(M),M.castShadow&&r.pushShadow(M);else if(M.isSprite){if(!M.frustumCulled||GI.intersectsSprite(M)){j&&jA.setFromMatrixPosition(M.matrixWorld).applyMatrix4(QA);const hA=_.update(M),KA=M.material;KA.visible&&S.push(M,hA,KA,P,jA.z,null)}}else if((M.isMesh||M.isLine||M.isPoints)&&(!M.frustumCulled||GI.intersectsObject(M))){const hA=_.update(M),KA=M.material;if(j&&(M.boundingSphere!==void 0?(M.boundingSphere===null&&M.computeBoundingSphere(),jA.copy(M.boundingSphere.center)):(hA.boundingSphere===null&&hA.computeBoundingSphere(),jA.copy(hA.boundingSphere.center)),jA.applyMatrix4(M.matrixWorld).applyMatrix4(QA)),Array.isArray(KA)){const lA=hA.groups;for(let OA=0,WA=lA.length;OA<WA;OA++){const mA=lA[OA],nI=KA[mA.materialIndex];nI&&nI.visible&&S.push(M,hA,nI,P,jA.z,mA)}}else KA.visible&&S.push(M,hA,KA,P,jA.z,null)}}const iA=M.children;for(let hA=0,KA=iA.length;hA<KA;hA++)pe(iA[hA],x,P,j)}function Fn(M,x,P,j){const b=M.opaque,iA=M.transmissive,hA=M.transparent;r.setupLightsView(P),KI===!0&&eA.setGlobalState(w.clippingPlanes,P),j&&FA.viewport(u.copy(j)),b.length>0&&Lo(b,x,P),iA.length>0&&Lo(iA,x,P),hA.length>0&&Lo(hA,x,P),FA.buffers.depth.setTest(!0),FA.buffers.depth.setMask(!0),FA.buffers.color.setMask(!0),FA.setPolygonOffset(!1)}function pn(M,x,P,j){if((P.isScene===!0?P.overrideMaterial:null)!==null)return;r.state.transmissionRenderTarget[j.id]===void 0&&(r.state.transmissionRenderTarget[j.id]=new Wg(1,1,{generateMipmaps:!0,type:AI.has("EXT_color_buffer_half_float")||AI.has("EXT_color_buffer_float")?Uo:Zg,minFilter:nQ,samples:4,stencilBuffer:Q,resolveDepthBuffer:!1,resolveStencilBuffer:!1,colorSpace:kI.workingColorSpace}));const iA=r.state.transmissionRenderTarget[j.id],hA=j.viewport||u;iA.setSize(hA.z*w.transmissionResolutionScale,hA.w*w.transmissionResolutionScale);const KA=w.getRenderTarget(),lA=w.getActiveCubeFace(),OA=w.getActiveMipmapLevel();w.setRenderTarget(iA),w.getClearColor(W),X=w.getClearAlpha(),X<1&&w.setClearColor(16777215,.5),w.clear(),lI&&dA.render(P);const WA=w.toneMapping;w.toneMapping=cQ;const mA=j.viewport;if(j.viewport!==void 0&&(j.viewport=void 0),r.setupLightsView(j),KI===!0&&eA.setGlobalState(w.clippingPlanes,j),Lo(M,P,j),QI.updateMultisampleRenderTarget(iA),QI.updateRenderTargetMipmap(iA),AI.has("WEBGL_multisampled_render_to_texture")===!1){let nI=!1;for(let pI=0,ag=x.length;pI<ag;pI++){const _I=x[pI],fI=_I.object,xA=_I.geometry,Eg=_I.material,yI=_I.group;if(Eg.side===FC&&fI.layers.test(j.layers)){const lC=Eg.side;Eg.side=Tg,Eg.needsUpdate=!0,Rn(fI,P,j,xA,Eg,yI),Eg.side=lC,Eg.needsUpdate=!0,nI=!0}}nI===!0&&(QI.updateMultisampleRenderTarget(iA),QI.updateRenderTargetMipmap(iA))}w.setRenderTarget(KA,lA,OA),w.setClearColor(W,X),mA!==void 0&&(j.viewport=mA),w.toneMapping=WA}function Lo(M,x,P){const j=x.isScene===!0?x.overrideMaterial:null;for(let b=0,iA=M.length;b<iA;b++){const hA=M[b],KA=hA.object,lA=hA.geometry,OA=hA.group;let WA=hA.material;WA.allowOverride===!0&&j!==null&&(WA=j),KA.layers.test(P.layers)&&Rn(KA,x,P,lA,WA,OA)}}function Rn(M,x,P,j,b,iA){M.onBeforeRender(w,x,P,j,b,iA),M.modelViewMatrix.multiplyMatrices(P.matrixWorldInverse,M.matrixWorld),M.normalMatrix.getNormalMatrix(M.modelViewMatrix),b.onBeforeRender(w,x,P,j,M,iA),b.transparent===!0&&b.side===FC&&b.forceSinglePass===!1?(b.side=Tg,b.needsUpdate=!0,w.renderBufferDirect(P,x,j,b,M,iA),b.side=jB,b.needsUpdate=!0,w.renderBufferDirect(P,x,j,b,M,iA),b.side=FC):w.renderBufferDirect(P,x,j,b,M,iA),M.onAfterRender(w,x,P,j,b,iA)}function Ho(M,x,P){x.isScene!==!0&&(x=qA);const j=pA.get(M),b=r.state.lights,iA=r.state.shadowsArray,hA=b.state.version,KA=$.getParameters(M,b.state,iA,x,P),lA=$.getProgramCacheKey(KA);let OA=j.programs;j.environment=M.isMeshStandardMaterial?x.environment:null,j.fog=x.fog,j.envMap=(M.isMeshStandardMaterial?hg:Yg).get(M.envMap||j.environment),j.envMapRotation=j.environment!==null&&M.envMap===null?x.environmentRotation:M.envMapRotation,OA===void 0&&(M.addEventListener("dispose",gA),OA=new Map,j.programs=OA);let WA=OA.get(lA);if(WA!==void 0){if(j.currentProgram===WA&&j.lightsStateVersion===hA)return Yn(M,KA),WA}else KA.uniforms=$.getUniforms(M),M.onBeforeCompile(KA,w),WA=$.acquireProgram(KA,lA),OA.set(lA,WA),j.uniforms=KA.uniforms;const mA=j.uniforms;return(!M.isShaderMaterial&&!M.isRawShaderMaterial||M.clipping===!0)&&(mA.clippingPlanes=eA.uniform),Yn(M,KA),j.needsLights=gG(M),j.lightsStateVersion=hA,j.needsLights&&(mA.ambientLightColor.value=b.state.ambient,mA.lightProbe.value=b.state.probe,mA.directionalLights.value=b.state.directional,mA.directionalLightShadows.value=b.state.directionalShadow,mA.spotLights.value=b.state.spot,mA.spotLightShadows.value=b.state.spotShadow,mA.rectAreaLights.value=b.state.rectArea,mA.ltc_1.value=b.state.rectAreaLTC1,mA.ltc_2.value=b.state.rectAreaLTC2,mA.pointLights.value=b.state.point,mA.pointLightShadows.value=b.state.pointShadow,mA.hemisphereLights.value=b.state.hemi,mA.directionalShadowMap.value=b.state.directionalShadowMap,mA.directionalShadowMatrix.value=b.state.directionalShadowMatrix,mA.spotShadowMap.value=b.state.spotShadowMap,mA.spotLightMatrix.value=b.state.spotLightMatrix,mA.spotLightMap.value=b.state.spotLightMap,mA.pointShadowMap.value=b.state.pointShadowMap,mA.pointShadowMatrix.value=b.state.pointShadowMatrix),j.currentProgram=WA,j.uniformsList=null,WA}function dn(M){if(M.uniformsList===null){const x=M.currentProgram.getUniforms();M.uniformsList=Mt.seqWithValue(x.seq,M.uniforms)}return M.uniformsList}function Yn(M,x){const P=pA.get(M);P.outputColorSpace=x.outputColorSpace,P.batching=x.batching,P.batchingColor=x.batchingColor,P.instancing=x.instancing,P.instancingColor=x.instancingColor,P.instancingMorph=x.instancingMorph,P.skinning=x.skinning,P.morphTargets=x.morphTargets,P.morphNormals=x.morphNormals,P.morphColors=x.morphColors,P.morphTargetsCount=x.morphTargetsCount,P.numClippingPlanes=x.numClippingPlanes,P.numIntersection=x.numClipIntersection,P.vertexAlphas=x.vertexAlphas,P.vertexTangents=x.vertexTangents,P.toneMapping=x.toneMapping}function AG(M,x,P,j,b){x.isScene!==!0&&(x=qA),QI.resetTextureUnits();const iA=x.fog,hA=j.isMeshStandardMaterial?x.environment:null,KA=p===null?w.outputColorSpace:p.isXRRenderTarget===!0?p.texture.colorSpace:kQ,lA=(j.isMeshStandardMaterial?hg:Yg).get(j.envMap||hA),OA=j.vertexColors===!0&&!!P.attributes.color&&P.attributes.color.itemSize===4,WA=!!P.attributes.tangent&&(!!j.normalMap||j.anisotropy>0),mA=!!P.morphAttributes.position,nI=!!P.morphAttributes.normal,pI=!!P.morphAttributes.color;let ag=cQ;j.toneMapped&&(p===null||p.isXRRenderTarget===!0)&&(ag=w.toneMapping);const _I=P.morphAttributes.position||P.morphAttributes.normal||P.morphAttributes.color,fI=_I!==void 0?_I.length:0,xA=pA.get(j),Eg=r.state.lights;if(KI===!0&&(IA===!0||M!==K)){const BC=M===K&&j.id===k;eA.setState(j,M,BC)}let yI=!1;j.version===xA.__version?(xA.needsLights&&xA.lightsStateVersion!==Eg.state.version||xA.outputColorSpace!==KA||b.isBatchedMesh&&xA.batching===!1||!b.isBatchedMesh&&xA.batching===!0||b.isBatchedMesh&&xA.batchingColor===!0&&b.colorTexture===null||b.isBatchedMesh&&xA.batchingColor===!1&&b.colorTexture!==null||b.isInstancedMesh&&xA.instancing===!1||!b.isInstancedMesh&&xA.instancing===!0||b.isSkinnedMesh&&xA.skinning===!1||!b.isSkinnedMesh&&xA.skinning===!0||b.isInstancedMesh&&xA.instancingColor===!0&&b.instanceColor===null||b.isInstancedMesh&&xA.instancingColor===!1&&b.instanceColor!==null||b.isInstancedMesh&&xA.instancingMorph===!0&&b.morphTexture===null||b.isInstancedMesh&&xA.instancingMorph===!1&&b.morphTexture!==null||xA.envMap!==lA||j.fog===!0&&xA.fog!==iA||xA.numClippingPlanes!==void 0&&(xA.numClippingPlanes!==eA.numPlanes||xA.numIntersection!==eA.numIntersection)||xA.vertexAlphas!==OA||xA.vertexTangents!==WA||xA.morphTargets!==mA||xA.morphNormals!==nI||xA.morphColors!==pI||xA.toneMapping!==ag||xA.morphTargetsCount!==fI)&&(yI=!0):(yI=!0,xA.__version=j.version);let lC=xA.currentProgram;yI===!0&&(lC=Ho(j,x,b));let DE=!1,GC=!1,Ki=!1;const ig=lC.getUniforms(),TC=xA.uniforms;if(FA.useProgram(lC.program)&&(DE=!0,GC=!0,Ki=!0),j.id!==k&&(k=j.id,GC=!0),DE||K!==M){FA.buffers.depth.getReversed()&&M.reversedDepth!==!0&&(M._reversedDepth=!0,M.updateProjectionMatrix()),ig.setValue(q,"projectionMatrix",M.projectionMatrix),ig.setValue(q,"viewMatrix",M.matrixWorldInverse);const eC=ig.map.cameraPosition;eC!==void 0&&eC.setValue(q,UA.setFromMatrixPosition(M.matrixWorld)),ZA.logarithmicDepthBuffer&&ig.setValue(q,"logDepthBufFC",2/(Math.log(M.far+1)/Math.LN2)),(j.isMeshPhongMaterial||j.isMeshToonMaterial||j.isMeshLambertMaterial||j.isMeshBasicMaterial||j.isMeshStandardMaterial||j.isShaderMaterial)&&ig.setValue(q,"isOrthographic",M.isOrthographicCamera===!0),K!==M&&(K=M,GC=!0,Ki=!0)}if(b.isSkinnedMesh){ig.setOptional(q,b,"bindMatrix"),ig.setOptional(q,b,"bindMatrixInverse");const BC=b.skeleton;BC&&(BC.boneTexture===null&&BC.computeBoneTexture(),ig.setValue(q,"boneTexture",BC.boneTexture,QI))}b.isBatchedMesh&&(ig.setOptional(q,b,"batchingTexture"),ig.setValue(q,"batchingTexture",b._matricesTexture,QI),ig.setOptional(q,b,"batchingIdTexture"),ig.setValue(q,"batchingIdTexture",b._indirectTexture,QI),ig.setOptional(q,b,"batchingColorTexture"),b._colorsTexture!==null&&ig.setValue(q,"batchingColorTexture",b._colorsTexture,QI));const xC=P.morphAttributes;if((xC.position!==void 0||xC.normal!==void 0||xC.color!==void 0)&&oA.update(b,P,lC),(GC||xA.receiveShadow!==b.receiveShadow)&&(xA.receiveShadow=b.receiveShadow,ig.setValue(q,"receiveShadow",b.receiveShadow)),j.isMeshGouraudMaterial&&j.envMap!==null&&(TC.envMap.value=lA,TC.flipEnvMap.value=lA.isCubeTexture&&lA.isRenderTargetTexture===!1?-1:1),j.isMeshStandardMaterial&&j.envMap===null&&x.environment!==null&&(TC.envMapIntensity.value=x.environmentIntensity),GC&&(ig.setValue(q,"toneMappingExposure",w.toneMappingExposure),xA.needsLights&&IG(TC,Ki),iA&&j.fog===!0&&BA.refreshFogUniforms(TC,iA),BA.refreshMaterialUniforms(TC,j,V,CA,r.state.transmissionRenderTarget[M.id]),Mt.upload(q,dn(xA),TC,QI)),j.isShaderMaterial&&j.uniformsNeedUpdate===!0&&(Mt.upload(q,dn(xA),TC,QI),j.uniformsNeedUpdate=!1),j.isSpriteMaterial&&ig.setValue(q,"center",b.center),ig.setValue(q,"modelViewMatrix",b.modelViewMatrix),ig.setValue(q,"normalMatrix",b.normalMatrix),ig.setValue(q,"modelMatrix",b.matrixWorld),j.isShaderMaterial||j.isRawShaderMaterial){const BC=j.uniformsGroups;for(let eC=0,Re=BC.length;eC<Re;eC++){const pQ=BC[eC];gI.update(pQ,lC),gI.bind(pQ,lC)}}return lC}function IG(M,x){M.ambientLightColor.needsUpdate=x,M.lightProbe.needsUpdate=x,M.directionalLights.needsUpdate=x,M.directionalLightShadows.needsUpdate=x,M.pointLights.needsUpdate=x,M.pointLightShadows.needsUpdate=x,M.spotLights.needsUpdate=x,M.spotLightShadows.needsUpdate=x,M.rectAreaLights.needsUpdate=x,M.hemisphereLights.needsUpdate=x}function gG(M){return M.isMeshLambertMaterial||M.isMeshToonMaterial||M.isMeshPhongMaterial||M.isMeshStandardMaterial||M.isShadowMaterial||M.isShaderMaterial&&M.lights===!0}this.getActiveCubeFace=function(){return U},this.getActiveMipmapLevel=function(){return F},this.getRenderTarget=function(){return p},this.setRenderTargetTextures=function(M,x,P){const j=pA.get(M);j.__autoAllocateDepthBuffer=M.resolveDepthBuffer===!1,j.__autoAllocateDepthBuffer===!1&&(j.__useRenderToTexture=!1),pA.get(M.texture).__webglTexture=x,pA.get(M.depthTexture).__webglTexture=j.__autoAllocateDepthBuffer?void 0:P,j.__hasExternalTextures=!0},this.setRenderTargetFramebuffer=function(M,x){const P=pA.get(M);P.__webglFramebuffer=x,P.__useDefaultFramebuffer=x===void 0};const CG=q.createFramebuffer();this.setRenderTarget=function(M,x=0,P=0){p=M,U=x,F=P;let j=!0,b=null,iA=!1,hA=!1;if(M){const lA=pA.get(M);if(lA.__useDefaultFramebuffer!==void 0)FA.bindFramebuffer(q.FRAMEBUFFER,null),j=!1;else if(lA.__webglFramebuffer===void 0)QI.setupRenderTarget(M);else if(lA.__hasExternalTextures)QI.rebindTextures(M,pA.get(M.texture).__webglTexture,pA.get(M.depthTexture).__webglTexture);else if(M.depthBuffer){const mA=M.depthTexture;if(lA.__boundDepthTexture!==mA){if(mA!==null&&pA.has(mA)&&(M.width!==mA.image.width||M.height!==mA.image.height))throw new Error("WebGLRenderTarget: Attached DepthTexture is initialized to the incorrect size.");QI.setupDepthRenderbuffer(M)}}const OA=M.texture;(OA.isData3DTexture||OA.isDataArrayTexture||OA.isCompressedArrayTexture)&&(hA=!0);const WA=pA.get(M).__webglFramebuffer;M.isWebGLCubeRenderTarget?(Array.isArray(WA[x])?b=WA[x][P]:b=WA[x],iA=!0):M.samples>0&&QI.useMultisampledRTT(M)===!1?b=pA.get(M).__webglMultisampledFramebuffer:Array.isArray(WA)?b=WA[P]:b=WA,u.copy(M.viewport),T.copy(M.scissor),O=M.scissorTest}else u.copy(MA).multiplyScalar(V).floor(),T.copy(BI).multiplyScalar(V).floor(),O=DI;if(P!==0&&(b=CG),FA.bindFramebuffer(q.FRAMEBUFFER,b)&&j&&FA.drawBuffers(M,b),FA.viewport(u),FA.scissor(T),FA.setScissorTest(O),iA){const lA=pA.get(M.texture);q.framebufferTexture2D(q.FRAMEBUFFER,q.COLOR_ATTACHMENT0,q.TEXTURE_CUBE_MAP_POSITIVE_X+x,lA.__webglTexture,P)}else if(hA){const lA=x;for(let OA=0;OA<M.textures.length;OA++){const WA=pA.get(M.textures[OA]);q.framebufferTextureLayer(q.FRAMEBUFFER,q.COLOR_ATTACHMENT0+OA,WA.__webglTexture,P,lA)}}else if(M!==null&&P!==0){const lA=pA.get(M.texture);q.framebufferTexture2D(q.FRAMEBUFFER,q.COLOR_ATTACHMENT0,q.TEXTURE_2D,lA.__webglTexture,P)}k=-1},this.readRenderTargetPixels=function(M,x,P,j,b,iA,hA,KA=0){if(!(M&&M.isWebGLRenderTarget)){console.error("THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not THREE.WebGLRenderTarget.");return}let lA=pA.get(M).__webglFramebuffer;if(M.isWebGLCubeRenderTarget&&hA!==void 0&&(lA=lA[hA]),lA){FA.bindFramebuffer(q.FRAMEBUFFER,lA);try{const OA=M.textures[KA],WA=OA.format,mA=OA.type;if(!ZA.textureFormatReadable(WA)){console.error("THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not in RGBA or implementation defined format.");return}if(!ZA.textureTypeReadable(mA)){console.error("THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not in UnsignedByteType or implementation defined type.");return}x>=0&&x<=M.width-j&&P>=0&&P<=M.height-b&&(M.textures.length>1&&q.readBuffer(q.COLOR_ATTACHMENT0+KA),q.readPixels(x,P,j,b,YA.convert(WA),YA.convert(mA),iA))}finally{const OA=p!==null?pA.get(p).__webglFramebuffer:null;FA.bindFramebuffer(q.FRAMEBUFFER,OA)}}},this.readRenderTargetPixelsAsync=async function(M,x,P,j,b,iA,hA,KA=0){if(!(M&&M.isWebGLRenderTarget))throw new Error("THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not THREE.WebGLRenderTarget.");let lA=pA.get(M).__webglFramebuffer;if(M.isWebGLCubeRenderTarget&&hA!==void 0&&(lA=lA[hA]),lA)if(x>=0&&x<=M.width-j&&P>=0&&P<=M.height-b){FA.bindFramebuffer(q.FRAMEBUFFER,lA);const OA=M.textures[KA],WA=OA.format,mA=OA.type;if(!ZA.textureFormatReadable(WA))throw new Error("THREE.WebGLRenderer.readRenderTargetPixelsAsync: renderTarget is not in RGBA or implementation defined format.");if(!ZA.textureTypeReadable(mA))throw new Error("THREE.WebGLRenderer.readRenderTargetPixelsAsync: renderTarget is not in UnsignedByteType or implementation defined type.");const nI=q.createBuffer();q.bindBuffer(q.PIXEL_PACK_BUFFER,nI),q.bufferData(q.PIXEL_PACK_BUFFER,iA.byteLength,q.STREAM_READ),M.textures.length>1&&q.readBuffer(q.COLOR_ATTACHMENT0+KA),q.readPixels(x,P,j,b,YA.convert(WA),YA.convert(mA),0);const pI=p!==null?pA.get(p).__webglFramebuffer:null;FA.bindFramebuffer(q.FRAMEBUFFER,pI);const ag=q.fenceSync(q.SYNC_GPU_COMMANDS_COMPLETE,0);return q.flush(),await Fy(q,ag,4),q.bindBuffer(q.PIXEL_PACK_BUFFER,nI),q.getBufferSubData(q.PIXEL_PACK_BUFFER,0,iA),q.deleteBuffer(nI),q.deleteSync(ag),iA}else throw new Error("THREE.WebGLRenderer.readRenderTargetPixelsAsync: requested read bounds are out of range.")},this.copyFramebufferToTexture=function(M,x=null,P=0){const j=Math.pow(2,-P),b=Math.floor(M.image.width*j),iA=Math.floor(M.image.height*j),hA=x!==null?x.x:0,KA=x!==null?x.y:0;QI.setTexture2D(M,0),q.copyTexSubImage2D(q.TEXTURE_2D,P,0,0,hA,KA,b,iA),FA.unbindTexture()};const BG=q.createFramebuffer(),QG=q.createFramebuffer();this.copyTextureToTexture=function(M,x,P=null,j=null,b=0,iA=null){iA===null&&(b!==0?(Eo("WebGLRenderer: copyTextureToTexture function signature has changed to support src and dst mipmap levels."),iA=b,b=0):iA=0);let hA,KA,lA,OA,WA,mA,nI,pI,ag;const _I=M.isCompressedTexture?M.mipmaps[iA]:M.image;if(P!==null)hA=P.max.x-P.min.x,KA=P.max.y-P.min.y,lA=P.isBox3?P.max.z-P.min.z:1,OA=P.min.x,WA=P.min.y,mA=P.isBox3?P.min.z:0;else{const xC=Math.pow(2,-b);hA=Math.floor(_I.width*xC),KA=Math.floor(_I.height*xC),M.isDataArrayTexture?lA=_I.depth:M.isData3DTexture?lA=Math.floor(_I.depth*xC):lA=1,OA=0,WA=0,mA=0}j!==null?(nI=j.x,pI=j.y,ag=j.z):(nI=0,pI=0,ag=0);const fI=YA.convert(x.format),xA=YA.convert(x.type);let Eg;x.isData3DTexture?(QI.setTexture3D(x,0),Eg=q.TEXTURE_3D):x.isDataArrayTexture||x.isCompressedArrayTexture?(QI.setTexture2DArray(x,0),Eg=q.TEXTURE_2D_ARRAY):(QI.setTexture2D(x,0),Eg=q.TEXTURE_2D),q.pixelStorei(q.UNPACK_FLIP_Y_WEBGL,x.flipY),q.pixelStorei(q.UNPACK_PREMULTIPLY_ALPHA_WEBGL,x.premultiplyAlpha),q.pixelStorei(q.UNPACK_ALIGNMENT,x.unpackAlignment);const yI=q.getParameter(q.UNPACK_ROW_LENGTH),lC=q.getParameter(q.UNPACK_IMAGE_HEIGHT),DE=q.getParameter(q.UNPACK_SKIP_PIXELS),GC=q.getParameter(q.UNPACK_SKIP_ROWS),Ki=q.getParameter(q.UNPACK_SKIP_IMAGES);q.pixelStorei(q.UNPACK_ROW_LENGTH,_I.width),q.pixelStorei(q.UNPACK_IMAGE_HEIGHT,_I.height),q.pixelStorei(q.UNPACK_SKIP_PIXELS,OA),q.pixelStorei(q.UNPACK_SKIP_ROWS,WA),q.pixelStorei(q.UNPACK_SKIP_IMAGES,mA);const ig=M.isDataArrayTexture||M.isData3DTexture,TC=x.isDataArrayTexture||x.isData3DTexture;if(M.isDepthTexture){const xC=pA.get(M),BC=pA.get(x),eC=pA.get(xC.__renderTarget),Re=pA.get(BC.__renderTarget);FA.bindFramebuffer(q.READ_FRAMEBUFFER,eC.__webglFramebuffer),FA.bindFramebuffer(q.DRAW_FRAMEBUFFER,Re.__webglFramebuffer);for(let pQ=0;pQ<lA;pQ++)ig&&(q.framebufferTextureLayer(q.READ_FRAMEBUFFER,q.COLOR_ATTACHMENT0,pA.get(M).__webglTexture,b,mA+pQ),q.framebufferTextureLayer(q.DRAW_FRAMEBUFFER,q.COLOR_ATTACHMENT0,pA.get(x).__webglTexture,iA,ag+pQ)),q.blitFramebuffer(OA,WA,hA,KA,nI,pI,hA,KA,q.DEPTH_BUFFER_BIT,q.NEAREST);FA.bindFramebuffer(q.READ_FRAMEBUFFER,null),FA.bindFramebuffer(q.DRAW_FRAMEBUFFER,null)}else if(b!==0||M.isRenderTargetTexture||pA.has(M)){const xC=pA.get(M),BC=pA.get(x);FA.bindFramebuffer(q.READ_FRAMEBUFFER,BG),FA.bindFramebuffer(q.DRAW_FRAMEBUFFER,QG);for(let eC=0;eC<lA;eC++)ig?q.framebufferTextureLayer(q.READ_FRAMEBUFFER,q.COLOR_ATTACHMENT0,xC.__webglTexture,b,mA+eC):q.framebufferTexture2D(q.READ_FRAMEBUFFER,q.COLOR_ATTACHMENT0,q.TEXTURE_2D,xC.__webglTexture,b),TC?q.framebufferTextureLayer(q.DRAW_FRAMEBUFFER,q.COLOR_ATTACHMENT0,BC.__webglTexture,iA,ag+eC):q.framebufferTexture2D(q.DRAW_FRAMEBUFFER,q.COLOR_ATTACHMENT0,q.TEXTURE_2D,BC.__webglTexture,iA),b!==0?q.blitFramebuffer(OA,WA,hA,KA,nI,pI,hA,KA,q.COLOR_BUFFER_BIT,q.NEAREST):TC?q.copyTexSubImage3D(Eg,iA,nI,pI,ag+eC,OA,WA,hA,KA):q.copyTexSubImage2D(Eg,iA,nI,pI,OA,WA,hA,KA);FA.bindFramebuffer(q.READ_FRAMEBUFFER,null),FA.bindFramebuffer(q.DRAW_FRAMEBUFFER,null)}else TC?M.isDataTexture||M.isData3DTexture?q.texSubImage3D(Eg,iA,nI,pI,ag,hA,KA,lA,fI,xA,_I.data):x.isCompressedArrayTexture?q.compressedTexSubImage3D(Eg,iA,nI,pI,ag,hA,KA,lA,fI,_I.data):q.texSubImage3D(Eg,iA,nI,pI,ag,hA,KA,lA,fI,xA,_I):M.isDataTexture?q.texSubImage2D(q.TEXTURE_2D,iA,nI,pI,hA,KA,fI,xA,_I.data):M.isCompressedTexture?q.compressedTexSubImage2D(q.TEXTURE_2D,iA,nI,pI,_I.width,_I.height,fI,_I.data):q.texSubImage2D(q.TEXTURE_2D,iA,nI,pI,hA,KA,fI,xA,_I);q.pixelStorei(q.UNPACK_ROW_LENGTH,yI),q.pixelStorei(q.UNPACK_IMAGE_HEIGHT,lC),q.pixelStorei(q.UNPACK_SKIP_PIXELS,DE),q.pixelStorei(q.UNPACK_SKIP_ROWS,GC),q.pixelStorei(q.UNPACK_SKIP_IMAGES,Ki),iA===0&&x.generateMipmaps&&q.generateMipmap(Eg),FA.unbindTexture()},this.initRenderTarget=function(M){pA.get(M).__webglFramebuffer===void 0&&QI.setupRenderTarget(M)},this.initTexture=function(M){M.isCubeTexture?QI.setTextureCube(M,0):M.isData3DTexture?QI.setTexture3D(M,0):M.isDataArrayTexture||M.isCompressedArrayTexture?QI.setTexture2DArray(M,0):QI.setTexture2D(M,0),FA.unbindTexture()},this.resetState=function(){U=0,F=0,p=null,FA.reset(),nA.reset()},typeof __THREE_DEVTOOLS__<"u"&&__THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("observe",{detail:this}))}get coordinateSystem(){return UB}get outputColorSpace(){return this._outputColorSpace}set outputColorSpace(A){this._outputColorSpace=A;const I=this.getContext();I.drawingBufferColorSpace=kI._getDrawingBufferColorSpace(A),I.unpackColorSpace=kI._getUnpackColorSpace()}}const XB={FIXED_TIMESTEP:1/50,DEFAULT_DELTA:1/144},tB=4294967295,pB=zA({entity:J.i32});function Vi(g){return g.replace(/([a-z0-9])([A-Z])/g,"$1-$2").replace(/([A-Z])([A-Z][a-z])/g,"$1-$2").replace(/_/g,"-").replace(/([A-Z]+)/g,A=>A.toLowerCase()).replace(/--+/g,"-").replace(/^-+|-+$/g,"").toLowerCase()}function uD(g){return g.replace(/-([a-z])/g,(A,I)=>I.toUpperCase())}class VN{parsers=new Map;componentDefaults={};componentShorthands={};componentEnums={};validations=[];register(A){if(A.parsers)for(const[I,C]of Object.entries(A.parsers))this.parsers.set(I,C);if(A.defaults)for(const[I,C]of Object.entries(A.defaults)){const B=Vi(I);this.componentDefaults[B]||(this.componentDefaults[B]={}),Object.assign(this.componentDefaults[B],C)}if(A.shorthands)for(const[I,C]of Object.entries(A.shorthands)){const B=Vi(I);this.componentShorthands[B]||(this.componentShorthands[B]={}),Object.assign(this.componentShorthands[B],C)}if(A.enums)for(const[I,C]of Object.entries(A.enums)){const 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C)this.setup.has(B)||(B.setup?.(A),this.setup.add(B)),B.update?.(A)}getSystemsByGroup(A,I){A.systems.size!==this.lastSystemsSize&&(this.systemGroupCache.clear(),this.lastSystemsSize=A.systems.size);const C=I;if(this.systemGroupCache.has(C))return this.systemGroupCache.get(C);const B=Array.from(A.systems),Q=B.filter(i=>(i.group??"simulation")===I),E=g0(Q,I,B);return this.systemGroupCache.set(C,E),E}}function B0(g,A){const I=[];for(let C=0;C<=A.length;C++)I[C]=[C];for(let C=0;C<=g.length;C++)I[0][C]=C;for(let C=1;C<=A.length;C++)for(let B=1;B<=g.length;B++)A.charAt(C-1)===g.charAt(B-1)?I[C][B]=I[C-1][B-1]:I[C][B]=Math.min(I[C-1][B-1]+1,I[C][B-1]+1,I[C-1][B]+1);return I[A.length][g.length]}function Ee(g,A,I=3){let C=null,B=I+1;for(const Q of A){const E=B0(g.toLowerCase(),Q.toLowerCase());E<B&&(B=E,C=Q)}return B<=I?C:null}function io(g,A=5){if(g.length===0)return"none";if(g.length<=A)return g.join(", ");const I=g.slice(0,A),C=g.length-A;return`${I.join(", ")} (+${C} more)`}function Ut(g,A){const I=Ee(g,A);let C=`Unknown element <${g}>`;return I&&(C+=` - did you mean <${I}>?`),A.length>0&&(C+=`
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  Shorthands: ${io(C)}`),I.length>0&&(Q+=`
  Available: ${io(I)}`),g.includes("-")&&!B&&(Q+=`
  Note: Custom components must be registered before creating the Game instance`),Q}function E0(g,A,I,C){const B=C?Ee(A,C):null;let Q=`[${g}.${A}] ${I}`;return B&&(Q+=` - did you mean "${B}"?`),C&&C.length>0&&(Q+=`
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Expected 1 or 3 numbers.`)}function h0(g){return typeof g=="number"?g:typeof g=="string"?parseFloat(g)||0:typeof g=="boolean"&&g?1:0}function lc(g,A,I={}){const C=g.getRecipe(A);if(!C){const Q=Array.from(g.getRecipeNames()),E=Ut(A,Q);throw new Error(E)}const B=g.createEntity();if(C.components)for(const Q of C.components){const E=g.getComponent(Q);E&&g.addComponent(B,E)}if(C.components)for(const Q of C.components){const E=g.getComponent(Q);if(E){const i=g.config.getDefaults(Q);for(const[o,t]of Object.entries(i))o in E&&(E[o][B]=t)}}if(C.overrides)for(const[Q,E]of Object.entries(C.overrides)){const[i,o]=Q.split("."),t=g.getComponent(i);if(t){g.hasComponent(B,t)||g.addComponent(B,t);const e=uD(o);e in t&&(t[e][B]=E)}}return w0(B,C,I,g),B}function _r(g,A,I,C){const B=uD(I);return B in A?(A[B][g]=h0(C),!0):!1}function S0(g,A,I,C,B){if(I.includes(".")){const[Q,E]=I.split("."),i=B.getComponent(Q);return i?_r(g,i,E,C):!1}if(A.components)for(const Q of A.components){const E=B.getComponent(Q);if(E&&_r(g,E,I,C))return!0}return!1}function c0(g,A){const I=new Set;if(g.components)for(const C of g.components){const B=A.config.getShorthands(C);for(const Q of Object.keys(B))I.add(Q)}for(const C of A.getComponentNames())I.add(C);if(g.components)for(const C of g.components){const B=A.getComponent(C);if(B){I.add(C);for(const Q in B)if(typeof B[Q]!="function"&&!Q.startsWith("_")){const E=Q.replace(/([A-Z])/g,"-$1").toLowerCase();I.add(`${C}.${E}`),I.add(E)}}}return I.add("id"),Array.from(I).sort()}function w0(g,A,I,C){const B=D0(I,A,C);for(const Q of C.config.getValidations())Q.condition(A.name,B)&&console.warn(`[${A.name}] Warning: ${Q.warning}`);for(const[Q,E]of Object.entries(B)){if(Q==="id")continue;const i=C.getComponent(Q);if(i&&typeof E=="string"){if(!C.hasComponent(g,i)){C.addComponent(g,i);const t=C.config.getDefaults(Q);for(const[e,s]of Object.entries(t))e in i&&(i[e][g]=s)}const o=a0(Q,E,i,C);for(const[t,e]of Object.entries(o))t in i&&(i[t][g]=e)}else if(!S0(g,A,Q,E,C)){const o=c0(A,C),t=[];if(A.components)for(const s of A.components){const a=C.config.getShorthands(s);t.push(...Object.keys(a))}for(const[s]of Object.entries(B))if(C.getComponent(s)){const a=C.config.getShorthands(s);for(const D of Object.keys(a))t.includes(D)||t.push(D)}const e=Q0(Q,A.name,o,t);console.warn(e)}}}function l0(g,A){const I=[];function C(B){if(g.hasRecipe(B.tagName)){const Q=lc(g,B.tagName,B.attributes),E=[];for(const i of B.children){const o=g.getParser(i.tagName);if(o)o(Q,i,g);else if(g.hasRecipe(i.tagName)){const t=C(i);if(t){E.push(t);const e=t.entity,s=g.getComponent("parent"),a=g.getComponent("transform");if(s&&a){if(!g.hasComponent(Q,a)){console.warn(`[${B.tagName}] Parent entity is missing Transform component. Adding automatically.
  Consider adding transform="pos: 0 0 0" to the parent element.`),g.addComponent(Q,a);const n=g.config.getDefaults("transform");for(const[c,S]of Object.entries(n))c in a&&(a[c][Q]=S)}if(!g.hasComponent(e,a)){console.warn(`[${i.tagName}] Child entity is missing Transform component. Adding automatically.
  Consider adding transform="pos: 0 0 0" to the child element.`),g.addComponent(e,a);const n=g.config.getDefaults("transform");for(const[c,S]of Object.entries(n))c in a&&(a[c][e]=S)}g.addComponent(e,s),s.entity[e]=Q;const D=g.getComponent("body");D&&g.hasComponent(Q,D)&&g.hasComponent(e,D)&&console.warn(`[Physics Warning] "${i.tagName}" has a Body component and is nested inside "${B.tagName}" which also has a Body component.
This configuration is not supported - a physics body should not be a child of another physics body.
Consider one of these solutions:
  1. Remove the Body component from the child (keep only Collider if needed)
  2. Make "${i.tagName}" a sibling of "${B.tagName}" instead of a child
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ba{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,hh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawccdsolver_free(A,0)}constructor(){const A=h.rawccdsolver_new();return this.__wbg_ptr=A>>>0,hh.register(this,this.__wbg_ptr,this),this}}const Sh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawcharactercollision_free(g>>>0,1));class $c{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Sh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawcharactercollision_free(A,0)}constructor(){const A=h.rawcharactercollision_new();return this.__wbg_ptr=A>>>0,Sh.register(this,this.__wbg_ptr,this),this}handle(){return h.rawcharactercollision_handle(this.__wbg_ptr)}translationDeltaApplied(){const A=h.rawcharactercollision_translationDeltaApplied(this.__wbg_ptr);return f.__wrap(A)}translationDeltaRemaining(){const 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I=h.rawcolliderset_coTranslation(this.__wbg_ptr,A);return f.__wrap(I)}coRotation(A){const I=h.rawcolliderset_coRotation(this.__wbg_ptr,A);return oI.__wrap(I)}coTranslationWrtParent(A){const I=h.rawcolliderset_coTranslationWrtParent(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}coRotationWrtParent(A){const I=h.rawcolliderset_coRotationWrtParent(this.__wbg_ptr,A);return I===0?void 0:oI.__wrap(I)}coSetTranslation(A,I,C,B){h.rawcolliderset_coSetTranslation(this.__wbg_ptr,A,I,C,B)}coSetTranslationWrtParent(A,I,C,B){h.rawcolliderset_coSetTranslationWrtParent(this.__wbg_ptr,A,I,C,B)}coSetRotation(A,I,C,B,Q){h.rawcolliderset_coSetRotation(this.__wbg_ptr,A,I,C,B,Q)}coSetRotationWrtParent(A,I,C,B,Q){h.rawcolliderset_coSetRotationWrtParent(this.__wbg_ptr,A,I,C,B,Q)}coIsSensor(A){return h.rawcolliderset_coIsSensor(this.__wbg_ptr,A)!==0}coShapeType(A){return h.rawcolliderset_coShapeType(this.__wbg_ptr,A)}coHalfspaceNormal(A){const I=h.rawcolliderset_coHalfspaceNormal(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}coHalfExtents(A){const I=h.rawcolliderset_coHalfExtents(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}coSetHalfExtents(A,I){d(I,f),h.rawcolliderset_coSetHalfExtents(this.__wbg_ptr,A,I.__wbg_ptr)}coRadius(A){const I=h.rawcolliderset_coRadius(this.__wbg_ptr,A);return I===4294967297?void 0:I}coSetRadius(A,I){h.rawcolliderset_coSetRadius(this.__wbg_ptr,A,I)}coHalfHeight(A){const I=h.rawcolliderset_coHalfHeight(this.__wbg_ptr,A);return I===4294967297?void 0:I}coSetHalfHeight(A,I){h.rawcolliderset_coSetHalfHeight(this.__wbg_ptr,A,I)}coRoundRadius(A){const I=h.rawcolliderset_coRoundRadius(this.__wbg_ptr,A);return I===4294967297?void 0:I}coSetRoundRadius(A,I){h.rawcolliderset_coSetRoundRadius(this.__wbg_ptr,A,I)}coVoxelData(A){try{const B=h.__wbindgen_add_to_stack_pointer(-16);h.rawcolliderset_coVoxelData(B,this.__wbg_ptr,A);var I=Lg().getInt32(B+0,!0),C=Lg().getInt32(B+4,!0);let Q;return I!==0&&(Q=bR(I,C).slice(),h.__wbindgen_export_1(I,4*C,4)),Q}finally{h.__wbindgen_add_to_stack_pointer(16)}}coVoxelSize(A){const I=h.rawcolliderset_coVoxelSize(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}coSetVoxel(A,I,C,B,Q){h.rawcolliderset_coSetVoxel(this.__wbg_ptr,A,I,C,B,Q)}coPropagateVoxelChange(A,I,C,B,Q,E,i,o){h.rawcolliderset_coPropagateVoxelChange(this.__wbg_ptr,A,I,C,B,Q,E,i,o)}coCombineVoxelStates(A,I,C,B,Q){h.rawcolliderset_coCombineVoxelStates(this.__wbg_ptr,A,I,C,B,Q)}coVertices(A){try{const B=h.__wbindgen_add_to_stack_pointer(-16);h.rawcolliderset_coVertices(B,this.__wbg_ptr,A);var I=Lg().getInt32(B+0,!0),C=Lg().getInt32(B+4,!0);let Q;return I!==0&&(Q=rh(I,C).slice(),h.__wbindgen_export_1(I,4*C,4)),Q}finally{h.__wbindgen_add_to_stack_pointer(16)}}coIndices(A){try{const B=h.__wbindgen_add_to_stack_pointer(-16);h.rawcolliderset_coIndices(B,this.__wbg_ptr,A);var I=Lg().getInt32(B+0,!0),C=Lg().getInt32(B+4,!0);let Q;return I!==0&&(Q=function(E,i){return E>>>=0,zc().subarray(E/4,E/4+i)}(I,C).slice(),h.__wbindgen_export_1(I,4*C,4)),Q}finally{h.__wbindgen_add_to_stack_pointer(16)}}coTriMeshFlags(A){const I=h.rawcolliderset_coTriMeshFlags(this.__wbg_ptr,A);return I===4294967297?void 0:I}coHeightFieldFlags(A){const I=h.rawcolliderset_coHeightFieldFlags(this.__wbg_ptr,A);return I===4294967297?void 0:I}coHeightfieldHeights(A){try{const B=h.__wbindgen_add_to_stack_pointer(-16);h.rawcolliderset_coHeightfieldHeights(B,this.__wbg_ptr,A);var I=Lg().getInt32(B+0,!0),C=Lg().getInt32(B+4,!0);let Q;return I!==0&&(Q=rh(I,C).slice(),h.__wbindgen_export_1(I,4*C,4)),Q}finally{h.__wbindgen_add_to_stack_pointer(16)}}coHeightfieldScale(A){const I=h.rawcolliderset_coHeightfieldScale(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}coHeightfieldNRows(A){const I=h.rawcolliderset_coHeightfieldNRows(this.__wbg_ptr,A);return I===4294967297?void 0:I}coHeightfieldNCols(A){const I=h.rawcolliderset_coHeightfieldNCols(this.__wbg_ptr,A);return I===4294967297?void 0:I}coParent(A){try{const B=h.__wbindgen_add_to_stack_pointer(-16);h.rawcolliderset_coParent(B,this.__wbg_ptr,A);var I=Lg().getInt32(B+0,!0),C=Lg().getFloat64(B+8,!0);return I===0?void 0:C}finally{h.__wbindgen_add_to_stack_pointer(16)}}coSetEnabled(A,I){h.rawcolliderset_coSetEnabled(this.__wbg_ptr,A,I)}coIsEnabled(A){return h.rawcolliderset_coIsEnabled(this.__wbg_ptr,A)!==0}coSetContactSkin(A,I){h.rawcolliderset_coSetContactSkin(this.__wbg_ptr,A,I)}coContactSkin(A){return h.rawcolliderset_coContactSkin(this.__wbg_ptr,A)}coFriction(A){return h.rawcolliderset_coFriction(this.__wbg_ptr,A)}coRestitution(A){return h.rawcolliderset_coRestitution(this.__wbg_ptr,A)}coDensity(A){return h.rawcolliderset_coDensity(this.__wbg_ptr,A)}coMass(A){return h.rawcolliderset_coMass(this.__wbg_ptr,A)}coVolume(A){return h.rawcolliderset_coVolume(this.__wbg_ptr,A)}coCollisionGroups(A){return h.rawcolliderset_coCollisionGroups(this.__wbg_ptr,A)>>>0}coSolverGroups(A){return h.rawcolliderset_coSolverGroups(this.__wbg_ptr,A)>>>0}coActiveHooks(A){return h.rawcolliderset_coActiveHooks(this.__wbg_ptr,A)>>>0}coActiveCollisionTypes(A){return h.rawcolliderset_coActiveCollisionTypes(this.__wbg_ptr,A)}coActiveEvents(A){return h.rawcolliderset_coActiveEvents(this.__wbg_ptr,A)>>>0}coContactForceEventThreshold(A){return h.rawcolliderset_coContactForceEventThreshold(this.__wbg_ptr,A)}coContainsPoint(A,I){return d(I,f),h.rawcolliderset_coContainsPoint(this.__wbg_ptr,A,I.__wbg_ptr)!==0}coCastShape(A,I,C,B,Q,E,i,o,t){d(I,f),d(C,fA),d(B,f),d(Q,oI),d(E,f);const e=h.rawcolliderset_coCastShape(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E.__wbg_ptr,i,o,t);return e===0?void 0:Se.__wrap(e)}coCastCollider(A,I,C,B,Q,E,i){d(I,f),d(B,f);const o=h.rawcolliderset_coCastCollider(this.__wbg_ptr,A,I.__wbg_ptr,C,B.__wbg_ptr,Q,E,i);return o===0?void 0:De.__wrap(o)}coIntersectsShape(A,I,C,B){return d(I,fA),d(C,f),d(B,oI),h.rawcolliderset_coIntersectsShape(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr)!==0}coContactShape(A,I,C,B,Q){d(I,fA),d(C,f),d(B,oI);const E=h.rawcolliderset_coContactShape(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q);return E===0?void 0:ao.__wrap(E)}coContactCollider(A,I,C){const B=h.rawcolliderset_coContactCollider(this.__wbg_ptr,A,I,C);return B===0?void 0:ao.__wrap(B)}coProjectPoint(A,I,C){d(I,f);const B=h.rawcolliderset_coProjectPoint(this.__wbg_ptr,A,I.__wbg_ptr,C);return ne.__wrap(B)}coIntersectsRay(A,I,C,B){return d(I,f),d(C,f),h.rawcolliderset_coIntersectsRay(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B)!==0}coCastRay(A,I,C,B,Q){return d(I,f),d(C,f),h.rawcolliderset_coCastRay(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B,Q)}coCastRayAndGetNormal(A,I,C,B,Q){d(I,f),d(C,f);const E=h.rawcolliderset_coCastRayAndGetNormal(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B,Q);return E===0?void 0:he.__wrap(E)}coSetSensor(A,I){h.rawcolliderset_coSetSensor(this.__wbg_ptr,A,I)}coSetRestitution(A,I){h.rawcolliderset_coSetRestitution(this.__wbg_ptr,A,I)}coSetFriction(A,I){h.rawcolliderset_coSetFriction(this.__wbg_ptr,A,I)}coFrictionCombineRule(A){return h.rawcolliderset_coFrictionCombineRule(this.__wbg_ptr,A)>>>0}coSetFrictionCombineRule(A,I){h.rawcolliderset_coSetFrictionCombineRule(this.__wbg_ptr,A,I)}coRestitutionCombineRule(A){return h.rawcolliderset_coRestitutionCombineRule(this.__wbg_ptr,A)>>>0}coSetRestitutionCombineRule(A,I){h.rawcolliderset_coSetRestitutionCombineRule(this.__wbg_ptr,A,I)}coSetCollisionGroups(A,I){h.rawcolliderset_coSetCollisionGroups(this.__wbg_ptr,A,I)}coSetSolverGroups(A,I){h.rawcolliderset_coSetSolverGroups(this.__wbg_ptr,A,I)}coSetActiveHooks(A,I){h.rawcolliderset_coSetActiveHooks(this.__wbg_ptr,A,I)}coSetActiveEvents(A,I){h.rawcolliderset_coSetActiveEvents(this.__wbg_ptr,A,I)}coSetActiveCollisionTypes(A,I){h.rawcolliderset_coSetActiveCollisionTypes(this.__wbg_ptr,A,I)}coSetShape(A,I){d(I,fA),h.rawcolliderset_coSetShape(this.__wbg_ptr,A,I.__wbg_ptr)}coSetContactForceEventThreshold(A,I){h.rawcolliderset_coSetContactForceEventThreshold(this.__wbg_ptr,A,I)}coSetDensity(A,I){h.rawcolliderset_coSetDensity(this.__wbg_ptr,A,I)}coSetMass(A,I){h.rawcolliderset_coSetMass(this.__wbg_ptr,A,I)}coSetMassProperties(A,I,C,B,Q){d(C,f),d(B,f),d(Q,oI),h.rawcolliderset_coSetMassProperties(this.__wbg_ptr,A,I,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr)}constructor(){const A=h.rawcolliderset_new();return this.__wbg_ptr=A>>>0,ns.register(this,this.__wbg_ptr,this),this}len(){return h.rawcolliderset_len(this.__wbg_ptr)>>>0}contains(A){return h.rawcolliderset_contains(this.__wbg_ptr,A)!==0}createCollider(A,I,C,B,Q,E,i,o,t,e,s,a,D,n,c,S,r,l,y,w,N,U,F,p,k){try{const T=h.__wbindgen_add_to_stack_pointer(-16);d(I,fA),d(C,f),d(B,oI),d(i,f),d(o,f),d(t,oI),d(k,bI),h.rawcolliderset_createCollider(T,this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q,E,i.__wbg_ptr,o.__wbg_ptr,t.__wbg_ptr,e,s,a,D,n,c,S,r,l,y,w,N,U,F,p,k.__wbg_ptr);var K=Lg().getInt32(T+0,!0),u=Lg().getFloat64(T+8,!0);return K===0?void 0:u}finally{h.__wbindgen_add_to_stack_pointer(16)}}remove(A,I,C,B){d(I,$B),d(C,bI),h.rawcolliderset_remove(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B)}isHandleValid(A){return h.rawcolliderset_contains(this.__wbg_ptr,A)!==0}forEachColliderHandle(A){try{h.rawcolliderset_forEachColliderHandle(this.__wbg_ptr,WI(A))}finally{SI[uI++]=void 0}}}const ch=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawcollidershapecasthit_free(g>>>0,1));class De{static __wrap(A){A>>>=0;const I=Object.create(De.prototype);return I.__wbg_ptr=A,ch.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,ch.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawcollidershapecasthit_free(A,0)}colliderHandle(){return h.rawcharactercollision_handle(this.__wbg_ptr)}time_of_impact(){return h.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}witness1(){const A=h.rawcollidershapecasthit_witness1(this.__wbg_ptr);return f.__wrap(A)}witness2(){const A=h.rawcollidershapecasthit_witness2(this.__wbg_ptr);return f.__wrap(A)}normal1(){const A=h.rawcharactercollision_translationDeltaApplied(this.__wbg_ptr);return f.__wrap(A)}normal2(){const A=h.rawcharactercollision_translationDeltaRemaining(this.__wbg_ptr);return f.__wrap(A)}}const wh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawcontactforceevent_free(g>>>0,1));class vD{static __wrap(A){A>>>=0;const I=Object.create(vD.prototype);return I.__wbg_ptr=A,wh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,wh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawcontactforceevent_free(A,0)}collider1(){return h.rawcharactercollision_handle(this.__wbg_ptr)}collider2(){return h.rawcontactforceevent_collider2(this.__wbg_ptr)}total_force(){const A=h.rawcontactforceevent_total_force(this.__wbg_ptr);return f.__wrap(A)}total_force_magnitude(){return h.rawcontactforceevent_total_force_magnitude(this.__wbg_ptr)}max_force_direction(){const A=h.rawcontactforceevent_max_force_direction(this.__wbg_ptr);return f.__wrap(A)}max_force_magnitude(){return h.rawcontactforceevent_max_force_magnitude(this.__wbg_ptr)}}const lh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawcontactmanifold_free(g>>>0,1));class _D{static __wrap(A){A>>>=0;const I=Object.create(_D.prototype);return I.__wbg_ptr=A,lh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,lh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawcontactmanifold_free(A,0)}normal(){const A=h.rawcontactmanifold_normal(this.__wbg_ptr);return f.__wrap(A)}local_n1(){const A=h.rawcontactmanifold_local_n1(this.__wbg_ptr);return f.__wrap(A)}local_n2(){const A=h.rawcontactmanifold_local_n2(this.__wbg_ptr);return f.__wrap(A)}subshape1(){return h.rawcontactmanifold_subshape1(this.__wbg_ptr)>>>0}subshape2(){return h.rawcontactmanifold_subshape2(this.__wbg_ptr)>>>0}num_contacts(){return h.rawcontactmanifold_num_contacts(this.__wbg_ptr)>>>0}contact_local_p1(A){const I=h.rawcontactmanifold_contact_local_p1(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}contact_local_p2(A){const I=h.rawcontactmanifold_contact_local_p2(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}contact_dist(A){return h.rawcontactmanifold_contact_dist(this.__wbg_ptr,A)}contact_fid1(A){return h.rawcontactmanifold_contact_fid1(this.__wbg_ptr,A)>>>0}contact_fid2(A){return h.rawcontactmanifold_contact_fid2(this.__wbg_ptr,A)>>>0}contact_impulse(A){return h.rawcontactmanifold_contact_impulse(this.__wbg_ptr,A)}contact_tangent_impulse_x(A){return h.rawcontactmanifold_contact_tangent_impulse_x(this.__wbg_ptr,A)}contact_tangent_impulse_y(A){return h.rawcontactmanifold_contact_tangent_impulse_y(this.__wbg_ptr,A)}num_solver_contacts(){return h.rawcontactmanifold_num_solver_contacts(this.__wbg_ptr)>>>0}solver_contact_point(A){const I=h.rawcontactmanifold_solver_contact_point(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}solver_contact_dist(A){return h.rawcontactmanifold_solver_contact_dist(this.__wbg_ptr,A)}solver_contact_friction(A){return h.rawcontactmanifold_solver_contact_friction(this.__wbg_ptr,A)}solver_contact_restitution(A){return h.rawcontactmanifold_solver_contact_restitution(this.__wbg_ptr,A)}solver_contact_tangent_velocity(A){const I=h.rawcontactmanifold_solver_contact_tangent_velocity(this.__wbg_ptr,A);return f.__wrap(I)}}const Gh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawcontactpair_free(g>>>0,1));class ZD{static __wrap(A){A>>>=0;const I=Object.create(ZD.prototype);return I.__wbg_ptr=A,Gh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Gh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawcontactpair_free(A,0)}collider1(){return h.rawcontactpair_collider1(this.__wbg_ptr)}collider2(){return h.rawcontactpair_collider2(this.__wbg_ptr)}numContactManifolds(){return h.rawcontactpair_numContactManifolds(this.__wbg_ptr)>>>0}contactManifold(A){const I=h.rawcontactpair_contactManifold(this.__wbg_ptr,A);return I===0?void 0:_D.__wrap(I)}}const yh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawdebugrenderpipeline_free(g>>>0,1));class OR{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,yh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawdebugrenderpipeline_free(A,0)}constructor(){const A=h.rawdebugrenderpipeline_new();return this.__wbg_ptr=A>>>0,yh.register(this,this.__wbg_ptr,this),this}vertices(){return so(h.rawdebugrenderpipeline_vertices(this.__wbg_ptr))}colors(){return so(h.rawdebugrenderpipeline_colors(this.__wbg_ptr))}render(A,I,C,B,Q,E,i){try{d(A,bI),d(I,og),d(C,zB),d(B,AQ),d(Q,kg),h.rawdebugrenderpipeline_render(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E,WI(i))}finally{SI[uI++]=void 0}}}const kh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawdeserializedworld_free(g>>>0,1));class WD{static __wrap(A){A>>>=0;const I=Object.create(WD.prototype);return I.__wbg_ptr=A,kh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,kh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawdeserializedworld_free(A,0)}takeGravity(){const A=h.rawdeserializedworld_takeGravity(this.__wbg_ptr);return A===0?void 0:f.__wrap(A)}takeIntegrationParameters(){const A=h.rawdeserializedworld_takeIntegrationParameters(this.__wbg_ptr);return A===0?void 0:QE.__wrap(A)}takeIslandManager(){const A=h.rawdeserializedworld_takeIslandManager(this.__wbg_ptr);return A===0?void 0:$B.__wrap(A)}takeBroadPhase(){const A=h.rawdeserializedworld_takeBroadPhase(this.__wbg_ptr);return A===0?void 0:VB.__wrap(A)}takeNarrowPhase(){const A=h.rawdeserializedworld_takeNarrowPhase(this.__wbg_ptr);return A===0?void 0:kg.__wrap(A)}takeBodies(){const A=h.rawdeserializedworld_takeBodies(this.__wbg_ptr);return A===0?void 0:bI.__wrap(A)}takeColliders(){const A=h.rawdeserializedworld_takeColliders(this.__wbg_ptr);return A===0?void 0:og.__wrap(A)}takeImpulseJoints(){const A=h.rawdeserializedworld_takeImpulseJoints(this.__wbg_ptr);return A===0?void 0:zB.__wrap(A)}takeMultibodyJoints(){const A=h.rawdeserializedworld_takeMultibodyJoints(this.__wbg_ptr);return A===0?void 0:AQ.__wrap(A)}}const Mh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawdynamicraycastvehiclecontroller_free(g>>>0,1));class vR{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Mh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawdynamicraycastvehiclecontroller_free(A,0)}constructor(A){const I=h.rawdynamicraycastvehiclecontroller_new(A);return this.__wbg_ptr=I>>>0,Mh.register(this,this.__wbg_ptr,this),this}current_vehicle_speed(){return h.rawdynamicraycastvehiclecontroller_current_vehicle_speed(this.__wbg_ptr)}chassis(){return h.rawdynamicraycastvehiclecontroller_chassis(this.__wbg_ptr)}index_up_axis(){return h.rawdynamicraycastvehiclecontroller_index_up_axis(this.__wbg_ptr)>>>0}set_index_up_axis(A){h.rawdynamicraycastvehiclecontroller_set_index_up_axis(this.__wbg_ptr,A)}index_forward_axis(){return h.rawdynamicraycastvehiclecontroller_index_forward_axis(this.__wbg_ptr)>>>0}set_index_forward_axis(A){h.rawdynamicraycastvehiclecontroller_set_index_forward_axis(this.__wbg_ptr,A)}add_wheel(A,I,C,B,Q){d(A,f),d(I,f),d(C,f),h.rawdynamicraycastvehiclecontroller_add_wheel(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B,Q)}num_wheels(){return h.rawdynamicraycastvehiclecontroller_num_wheels(this.__wbg_ptr)>>>0}update_vehicle(A,I,C,B,Q,E,i,o){try{d(I,VB),d(C,kg),d(B,bI),d(Q,og),h.rawdynamicraycastvehiclecontroller_update_vehicle(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E,HA(i)?4294967297:i>>>0,WI(o))}finally{SI[uI++]=void 0}}wheel_chassis_connection_point_cs(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_chassis_connection_point_cs(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}set_wheel_chassis_connection_point_cs(A,I){d(I,f),h.rawdynamicraycastvehiclecontroller_set_wheel_chassis_connection_point_cs(this.__wbg_ptr,A,I.__wbg_ptr)}wheel_suspension_rest_length(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_suspension_rest_length(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_suspension_rest_length(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_suspension_rest_length(this.__wbg_ptr,A,I)}wheel_max_suspension_travel(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_max_suspension_travel(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_max_suspension_travel(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_max_suspension_travel(this.__wbg_ptr,A,I)}wheel_radius(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_radius(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_radius(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_radius(this.__wbg_ptr,A,I)}wheel_suspension_stiffness(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_suspension_stiffness(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_suspension_stiffness(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_suspension_stiffness(this.__wbg_ptr,A,I)}wheel_suspension_compression(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_suspension_compression(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_suspension_compression(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_suspension_compression(this.__wbg_ptr,A,I)}wheel_suspension_relaxation(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_suspension_relaxation(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_suspension_relaxation(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_suspension_relaxation(this.__wbg_ptr,A,I)}wheel_max_suspension_force(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_max_suspension_force(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_max_suspension_force(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_max_suspension_force(this.__wbg_ptr,A,I)}wheel_brake(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_brake(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_brake(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_brake(this.__wbg_ptr,A,I)}wheel_steering(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_steering(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_steering(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_steering(this.__wbg_ptr,A,I)}wheel_engine_force(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_engine_force(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_engine_force(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_engine_force(this.__wbg_ptr,A,I)}wheel_direction_cs(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_direction_cs(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}set_wheel_direction_cs(A,I){d(I,f),h.rawdynamicraycastvehiclecontroller_set_wheel_direction_cs(this.__wbg_ptr,A,I.__wbg_ptr)}wheel_axle_cs(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_axle_cs(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}set_wheel_axle_cs(A,I){d(I,f),h.rawdynamicraycastvehiclecontroller_set_wheel_axle_cs(this.__wbg_ptr,A,I.__wbg_ptr)}wheel_friction_slip(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_friction_slip(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_friction_slip(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_friction_slip(this.__wbg_ptr,A,I)}wheel_side_friction_stiffness(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_side_friction_stiffness(this.__wbg_ptr,A);return I===4294967297?void 0:I}set_wheel_side_friction_stiffness(A,I){h.rawdynamicraycastvehiclecontroller_set_wheel_side_friction_stiffness(this.__wbg_ptr,A,I)}wheel_rotation(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_rotation(this.__wbg_ptr,A);return I===4294967297?void 0:I}wheel_forward_impulse(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_forward_impulse(this.__wbg_ptr,A);return I===4294967297?void 0:I}wheel_side_impulse(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_side_impulse(this.__wbg_ptr,A);return I===4294967297?void 0:I}wheel_suspension_force(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_suspension_force(this.__wbg_ptr,A);return I===4294967297?void 0:I}wheel_contact_normal_ws(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_contact_normal_ws(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}wheel_contact_point_ws(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_contact_point_ws(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}wheel_suspension_length(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_suspension_length(this.__wbg_ptr,A);return I===4294967297?void 0:I}wheel_hard_point_ws(A){const I=h.rawdynamicraycastvehiclecontroller_wheel_hard_point_ws(this.__wbg_ptr,A);return I===0?void 0:f.__wrap(I)}wheel_is_in_contact(A){return h.rawdynamicraycastvehiclecontroller_wheel_is_in_contact(this.__wbg_ptr,A)!==0}wheel_ground_object(A){try{const B=h.__wbindgen_add_to_stack_pointer(-16);h.rawdynamicraycastvehiclecontroller_wheel_ground_object(B,this.__wbg_ptr,A);var I=Lg().getInt32(B+0,!0),C=Lg().getFloat64(B+8,!0);return I===0?void 0:C}finally{h.__wbindgen_add_to_stack_pointer(16)}}}const Uh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_raweventqueue_free(g>>>0,1));class Aw{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Uh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_raweventqueue_free(A,0)}constructor(A){const I=h.raweventqueue_new(A);return this.__wbg_ptr=I>>>0,Uh.register(this,this.__wbg_ptr,this),this}drainCollisionEvents(A){try{h.raweventqueue_drainCollisionEvents(this.__wbg_ptr,WI(A))}finally{SI[uI++]=void 0}}drainContactForceEvents(A){try{h.raweventqueue_drainContactForceEvents(this.__wbg_ptr,WI(A))}finally{SI[uI++]=void 0}}clear(){h.raweventqueue_clear(this.__wbg_ptr)}}const Kh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawgenericjoint_free(g>>>0,1));class EB{static __wrap(A){A>>>=0;const I=Object.create(EB.prototype);return I.__wbg_ptr=A,Kh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Kh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawgenericjoint_free(A,0)}static generic(A,I,C,B){d(A,f),d(I,f),d(C,f);const Q=h.rawgenericjoint_generic(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B);return Q===0?void 0:EB.__wrap(Q)}static spring(A,I,C,B,Q){d(B,f),d(Q,f);const E=h.rawgenericjoint_spring(A,I,C,B.__wbg_ptr,Q.__wbg_ptr);return EB.__wrap(E)}static rope(A,I,C){d(I,f),d(C,f);const B=h.rawgenericjoint_rope(A,I.__wbg_ptr,C.__wbg_ptr);return EB.__wrap(B)}static spherical(A,I){d(A,f),d(I,f);const C=h.rawgenericjoint_spherical(A.__wbg_ptr,I.__wbg_ptr);return EB.__wrap(C)}static prismatic(A,I,C,B,Q,E){d(A,f),d(I,f),d(C,f);const i=h.rawgenericjoint_prismatic(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B,Q,E);return i===0?void 0:EB.__wrap(i)}static fixed(A,I,C,B){d(A,f),d(I,oI),d(C,f),d(B,oI);const Q=h.rawgenericjoint_fixed(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr);return EB.__wrap(Q)}static revolute(A,I,C){d(A,f),d(I,f),d(C,f);const B=h.rawgenericjoint_revolute(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr);return B===0?void 0:EB.__wrap(B)}}const rs=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawimpulsejointset_free(g>>>0,1));class zB{static __wrap(A){A>>>=0;const I=Object.create(zB.prototype);return I.__wbg_ptr=A,rs.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,rs.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawimpulsejointset_free(A,0)}jointType(A){return h.rawimpulsejointset_jointType(this.__wbg_ptr,A)}jointBodyHandle1(A){return h.rawimpulsejointset_jointBodyHandle1(this.__wbg_ptr,A)}jointBodyHandle2(A){return h.rawimpulsejointset_jointBodyHandle2(this.__wbg_ptr,A)}jointFrameX1(A){const I=h.rawimpulsejointset_jointFrameX1(this.__wbg_ptr,A);return oI.__wrap(I)}jointFrameX2(A){const I=h.rawimpulsejointset_jointFrameX2(this.__wbg_ptr,A);return oI.__wrap(I)}jointAnchor1(A){const I=h.rawimpulsejointset_jointAnchor1(this.__wbg_ptr,A);return f.__wrap(I)}jointAnchor2(A){const I=h.rawimpulsejointset_jointAnchor2(this.__wbg_ptr,A);return f.__wrap(I)}jointSetAnchor1(A,I){d(I,f),h.rawimpulsejointset_jointSetAnchor1(this.__wbg_ptr,A,I.__wbg_ptr)}jointSetAnchor2(A,I){d(I,f),h.rawimpulsejointset_jointSetAnchor2(this.__wbg_ptr,A,I.__wbg_ptr)}jointContactsEnabled(A){return h.rawimpulsejointset_jointContactsEnabled(this.__wbg_ptr,A)!==0}jointSetContactsEnabled(A,I){h.rawimpulsejointset_jointSetContactsEnabled(this.__wbg_ptr,A,I)}jointLimitsEnabled(A,I){return h.rawimpulsejointset_jointLimitsEnabled(this.__wbg_ptr,A,I)!==0}jointLimitsMin(A,I){return h.rawimpulsejointset_jointLimitsMin(this.__wbg_ptr,A,I)}jointLimitsMax(A,I){return h.rawimpulsejointset_jointLimitsMax(this.__wbg_ptr,A,I)}jointSetLimits(A,I,C,B){h.rawimpulsejointset_jointSetLimits(this.__wbg_ptr,A,I,C,B)}jointConfigureMotorModel(A,I,C){h.rawimpulsejointset_jointConfigureMotorModel(this.__wbg_ptr,A,I,C)}jointConfigureMotorVelocity(A,I,C,B){h.rawimpulsejointset_jointConfigureMotorVelocity(this.__wbg_ptr,A,I,C,B)}jointConfigureMotorPosition(A,I,C,B,Q){h.rawimpulsejointset_jointConfigureMotorPosition(this.__wbg_ptr,A,I,C,B,Q)}jointConfigureMotor(A,I,C,B,Q,E){h.rawimpulsejointset_jointConfigureMotor(this.__wbg_ptr,A,I,C,B,Q,E)}constructor(){const A=h.rawimpulsejointset_new();return this.__wbg_ptr=A>>>0,rs.register(this,this.__wbg_ptr,this),this}createJoint(A,I,C,B){return d(A,EB),h.rawimpulsejointset_createJoint(this.__wbg_ptr,A.__wbg_ptr,I,C,B)}remove(A,I){h.rawimpulsejointset_remove(this.__wbg_ptr,A,I)}len(){return h.rawimpulsejointset_len(this.__wbg_ptr)>>>0}contains(A){return h.rawimpulsejointset_contains(this.__wbg_ptr,A)!==0}forEachJointHandle(A){try{h.rawimpulsejointset_forEachJointHandle(this.__wbg_ptr,WI(A))}finally{SI[uI++]=void 0}}forEachJointAttachedToRigidBody(A,I){try{h.rawimpulsejointset_forEachJointAttachedToRigidBody(this.__wbg_ptr,A,WI(I))}finally{SI[uI++]=void 0}}}const hs=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawintegrationparameters_free(g>>>0,1));class QE{static __wrap(A){A>>>=0;const I=Object.create(QE.prototype);return I.__wbg_ptr=A,hs.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,hs.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawintegrationparameters_free(A,0)}constructor(){const A=h.rawintegrationparameters_new();return this.__wbg_ptr=A>>>0,hs.register(this,this.__wbg_ptr,this),this}get dt(){return h.rawintegrationparameters_dt(this.__wbg_ptr)}get contact_erp(){return h.rawintegrationparameters_contact_erp(this.__wbg_ptr)}get normalizedAllowedLinearError(){return h.rawdynamicraycastvehiclecontroller_current_vehicle_speed(this.__wbg_ptr)}get normalizedPredictionDistance(){return h.rawcontactforceevent_max_force_magnitude(this.__wbg_ptr)}get numSolverIterations(){return h.rawintegrationparameters_numSolverIterations(this.__wbg_ptr)>>>0}get numAdditionalFrictionIterations(){return h.rawdynamicraycastvehiclecontroller_index_up_axis(this.__wbg_ptr)>>>0}get numInternalPgsIterations(){return h.rawdynamicraycastvehiclecontroller_index_forward_axis(this.__wbg_ptr)>>>0}get minIslandSize(){return h.rawintegrationparameters_minIslandSize(this.__wbg_ptr)>>>0}get maxCcdSubsteps(){return h.rawintegrationparameters_maxCcdSubsteps(this.__wbg_ptr)>>>0}get lengthUnit(){return h.rawintegrationparameters_lengthUnit(this.__wbg_ptr)}set dt(A){h.rawintegrationparameters_set_dt(this.__wbg_ptr,A)}set contact_natural_frequency(A){h.rawintegrationparameters_set_contact_natural_frequency(this.__wbg_ptr,A)}set normalizedAllowedLinearError(A){h.rawintegrationparameters_set_normalizedAllowedLinearError(this.__wbg_ptr,A)}set normalizedPredictionDistance(A){h.rawintegrationparameters_set_normalizedPredictionDistance(this.__wbg_ptr,A)}set numSolverIterations(A){h.rawintegrationparameters_set_numSolverIterations(this.__wbg_ptr,A)}set numAdditionalFrictionIterations(A){h.rawdynamicraycastvehiclecontroller_set_index_up_axis(this.__wbg_ptr,A)}set numInternalPgsIterations(A){h.rawdynamicraycastvehiclecontroller_set_index_forward_axis(this.__wbg_ptr,A)}set minIslandSize(A){h.rawintegrationparameters_set_minIslandSize(this.__wbg_ptr,A)}set maxCcdSubsteps(A){h.rawintegrationparameters_set_maxCcdSubsteps(this.__wbg_ptr,A)}set lengthUnit(A){h.rawintegrationparameters_set_lengthUnit(this.__wbg_ptr,A)}switchToStandardPgsSolver(){h.rawintegrationparameters_switchToStandardPgsSolver(this.__wbg_ptr)}switchToSmallStepsPgsSolver(){h.rawintegrationparameters_switchToSmallStepsPgsSolver(this.__wbg_ptr)}switchToSmallStepsPgsSolverWithoutWarmstart(){h.rawintegrationparameters_switchToSmallStepsPgsSolverWithoutWarmstart(this.__wbg_ptr)}}const Ss=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawislandmanager_free(g>>>0,1));class $B{static __wrap(A){A>>>=0;const I=Object.create($B.prototype);return I.__wbg_ptr=A,Ss.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Ss.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawislandmanager_free(A,0)}constructor(){const A=h.rawislandmanager_new();return this.__wbg_ptr=A>>>0,Ss.register(this,this.__wbg_ptr,this),this}forEachActiveRigidBodyHandle(A){try{h.rawislandmanager_forEachActiveRigidBodyHandle(this.__wbg_ptr,WI(A))}finally{SI[uI++]=void 0}}}const Nh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawkinematiccharactercontroller_free(g>>>0,1));class _R{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Nh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawkinematiccharactercontroller_free(A,0)}constructor(A){const I=h.rawkinematiccharactercontroller_new(A);return this.__wbg_ptr=I>>>0,Nh.register(this,this.__wbg_ptr,this),this}up(){const A=h.rawcharactercollision_translationDeltaApplied(this.__wbg_ptr);return f.__wrap(A)}setUp(A){d(A,f),h.rawkinematiccharactercontroller_setUp(this.__wbg_ptr,A.__wbg_ptr)}normalNudgeFactor(){return h.rawkinematiccharactercontroller_normalNudgeFactor(this.__wbg_ptr)}setNormalNudgeFactor(A){h.rawkinematiccharactercontroller_setNormalNudgeFactor(this.__wbg_ptr,A)}offset(){return h.rawintegrationparameters_dt(this.__wbg_ptr)}setOffset(A){h.rawkinematiccharactercontroller_setOffset(this.__wbg_ptr,A)}slideEnabled(){return h.rawkinematiccharactercontroller_slideEnabled(this.__wbg_ptr)!==0}setSlideEnabled(A){h.rawkinematiccharactercontroller_setSlideEnabled(this.__wbg_ptr,A)}autostepMaxHeight(){const A=h.rawkinematiccharactercontroller_autostepMaxHeight(this.__wbg_ptr);return A===4294967297?void 0:A}autostepMinWidth(){const A=h.rawkinematiccharactercontroller_autostepMinWidth(this.__wbg_ptr);return A===4294967297?void 0:A}autostepIncludesDynamicBodies(){const A=h.rawkinematiccharactercontroller_autostepIncludesDynamicBodies(this.__wbg_ptr);return A===16777215?void 0:A!==0}autostepEnabled(){return h.rawkinematiccharactercontroller_autostepEnabled(this.__wbg_ptr)!==0}enableAutostep(A,I,C){h.rawkinematiccharactercontroller_enableAutostep(this.__wbg_ptr,A,I,C)}disableAutostep(){h.rawkinematiccharactercontroller_disableAutostep(this.__wbg_ptr)}maxSlopeClimbAngle(){return h.rawkinematiccharactercontroller_maxSlopeClimbAngle(this.__wbg_ptr)}setMaxSlopeClimbAngle(A){h.rawkinematiccharactercontroller_setMaxSlopeClimbAngle(this.__wbg_ptr,A)}minSlopeSlideAngle(){return h.rawkinematiccharactercontroller_minSlopeSlideAngle(this.__wbg_ptr)}setMinSlopeSlideAngle(A){h.rawkinematiccharactercontroller_setMinSlopeSlideAngle(this.__wbg_ptr,A)}snapToGroundDistance(){const A=h.rawkinematiccharactercontroller_snapToGroundDistance(this.__wbg_ptr);return A===4294967297?void 0:A}enableSnapToGround(A){h.rawkinematiccharactercontroller_enableSnapToGround(this.__wbg_ptr,A)}disableSnapToGround(){h.rawkinematiccharactercontroller_disableSnapToGround(this.__wbg_ptr)}snapToGroundEnabled(){return h.rawkinematiccharactercontroller_snapToGroundEnabled(this.__wbg_ptr)!==0}computeColliderMovement(A,I,C,B,Q,E,i,o,t,e,s,a){try{d(I,VB),d(C,kg),d(B,bI),d(Q,og),d(i,f),h.rawkinematiccharactercontroller_computeColliderMovement(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E,i.__wbg_ptr,o,HA(t)?4294967297:Math.fround(t),e,HA(s)?4294967297:s>>>0,WI(a))}finally{SI[uI++]=void 0}}computedMovement(){const A=h.rawkinematiccharactercontroller_computedMovement(this.__wbg_ptr);return f.__wrap(A)}computedGrounded(){return h.rawkinematiccharactercontroller_computedGrounded(this.__wbg_ptr)!==0}numComputedCollisions(){return h.rawkinematiccharactercontroller_numComputedCollisions(this.__wbg_ptr)>>>0}computedCollision(A,I){return d(I,$c),h.rawkinematiccharactercontroller_computedCollision(this.__wbg_ptr,A,I.__wbg_ptr)!==0}}const cs=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawmultibodyjointset_free(g>>>0,1));class AQ{static __wrap(A){A>>>=0;const I=Object.create(AQ.prototype);return I.__wbg_ptr=A,cs.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,cs.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawmultibodyjointset_free(A,0)}jointType(A){return h.rawmultibodyjointset_jointType(this.__wbg_ptr,A)}jointFrameX1(A){const I=h.rawmultibodyjointset_jointFrameX1(this.__wbg_ptr,A);return oI.__wrap(I)}jointFrameX2(A){const I=h.rawmultibodyjointset_jointFrameX2(this.__wbg_ptr,A);return oI.__wrap(I)}jointAnchor1(A){const I=h.rawmultibodyjointset_jointAnchor1(this.__wbg_ptr,A);return f.__wrap(I)}jointAnchor2(A){const I=h.rawmultibodyjointset_jointAnchor2(this.__wbg_ptr,A);return f.__wrap(I)}jointContactsEnabled(A){return h.rawmultibodyjointset_jointContactsEnabled(this.__wbg_ptr,A)!==0}jointSetContactsEnabled(A,I){h.rawmultibodyjointset_jointSetContactsEnabled(this.__wbg_ptr,A,I)}jointLimitsEnabled(A,I){return h.rawmultibodyjointset_jointLimitsEnabled(this.__wbg_ptr,A,I)!==0}jointLimitsMin(A,I){return h.rawmultibodyjointset_jointLimitsMin(this.__wbg_ptr,A,I)}jointLimitsMax(A,I){return h.rawmultibodyjointset_jointLimitsMax(this.__wbg_ptr,A,I)}constructor(){const A=h.rawmultibodyjointset_new();return this.__wbg_ptr=A>>>0,cs.register(this,this.__wbg_ptr,this),this}createJoint(A,I,C,B){return d(A,EB),h.rawmultibodyjointset_createJoint(this.__wbg_ptr,A.__wbg_ptr,I,C,B)}remove(A,I){h.rawmultibodyjointset_remove(this.__wbg_ptr,A,I)}contains(A){return h.rawmultibodyjointset_contains(this.__wbg_ptr,A)!==0}forEachJointHandle(A){try{h.rawmultibodyjointset_forEachJointHandle(this.__wbg_ptr,WI(A))}finally{SI[uI++]=void 0}}forEachJointAttachedToRigidBody(A,I){try{h.rawmultibodyjointset_forEachJointAttachedToRigidBody(this.__wbg_ptr,A,WI(I))}finally{SI[uI++]=void 0}}}const ws=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawnarrowphase_free(g>>>0,1));class kg{static __wrap(A){A>>>=0;const I=Object.create(kg.prototype);return I.__wbg_ptr=A,ws.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,ws.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawnarrowphase_free(A,0)}constructor(){const A=h.rawnarrowphase_new();return this.__wbg_ptr=A>>>0,ws.register(this,this.__wbg_ptr,this),this}contact_pairs_with(A,I){h.rawnarrowphase_contact_pairs_with(this.__wbg_ptr,A,dI(I))}contact_pair(A,I){const C=h.rawnarrowphase_contact_pair(this.__wbg_ptr,A,I);return C===0?void 0:ZD.__wrap(C)}intersection_pairs_with(A,I){h.rawnarrowphase_intersection_pairs_with(this.__wbg_ptr,A,dI(I))}intersection_pair(A,I){return h.rawnarrowphase_intersection_pair(this.__wbg_ptr,A,I)!==0}}const Jh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawphysicspipeline_free(g>>>0,1));class ZR{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Jh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawphysicspipeline_free(A,0)}constructor(){const A=h.rawphysicspipeline_new();return this.__wbg_ptr=A>>>0,Jh.register(this,this.__wbg_ptr,this),this}set_profiler_enabled(A){h.rawphysicspipeline_set_profiler_enabled(this.__wbg_ptr,A)}is_profiler_enabled(){return h.rawphysicspipeline_is_profiler_enabled(this.__wbg_ptr)!==0}timing_step(){return h.rawphysicspipeline_timing_step(this.__wbg_ptr)}timing_collision_detection(){return h.rawphysicspipeline_timing_collision_detection(this.__wbg_ptr)}timing_broad_phase(){return h.rawphysicspipeline_timing_broad_phase(this.__wbg_ptr)}timing_narrow_phase(){return h.rawphysicspipeline_timing_narrow_phase(this.__wbg_ptr)}timing_solver(){return h.rawphysicspipeline_timing_solver(this.__wbg_ptr)}timing_velocity_assembly(){return h.rawphysicspipeline_timing_velocity_assembly(this.__wbg_ptr)}timing_velocity_resolution(){return h.rawphysicspipeline_timing_velocity_resolution(this.__wbg_ptr)}timing_velocity_update(){return h.rawphysicspipeline_timing_velocity_update(this.__wbg_ptr)}timing_velocity_writeback(){return h.rawphysicspipeline_timing_velocity_writeback(this.__wbg_ptr)}timing_ccd(){return h.rawphysicspipeline_timing_ccd(this.__wbg_ptr)}timing_ccd_toi_computation(){return h.rawphysicspipeline_timing_ccd_toi_computation(this.__wbg_ptr)}timing_ccd_broad_phase(){return h.rawphysicspipeline_timing_ccd_broad_phase(this.__wbg_ptr)}timing_ccd_narrow_phase(){return h.rawphysicspipeline_timing_ccd_narrow_phase(this.__wbg_ptr)}timing_ccd_solver(){return h.rawphysicspipeline_timing_ccd_solver(this.__wbg_ptr)}timing_island_construction(){return h.rawphysicspipeline_timing_island_construction(this.__wbg_ptr)}timing_user_changes(){return h.rawphysicspipeline_timing_user_changes(this.__wbg_ptr)}step(A,I,C,B,Q,E,i,o,t,e){d(A,f),d(I,QE),d(C,$B),d(B,VB),d(Q,kg),d(E,bI),d(i,og),d(o,zB),d(t,AQ),d(e,ba),h.rawphysicspipeline_step(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E.__wbg_ptr,i.__wbg_ptr,o.__wbg_ptr,t.__wbg_ptr,e.__wbg_ptr)}stepWithEvents(A,I,C,B,Q,E,i,o,t,e,s,a,D,n){d(A,f),d(I,QE),d(C,$B),d(B,VB),d(Q,kg),d(E,bI),d(i,og),d(o,zB),d(t,AQ),d(e,ba),d(s,Aw),h.rawphysicspipeline_stepWithEvents(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E.__wbg_ptr,i.__wbg_ptr,o.__wbg_ptr,t.__wbg_ptr,e.__wbg_ptr,s.__wbg_ptr,dI(a),dI(D),dI(n))}}const Fh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawpidcontroller_free(g>>>0,1));class WR{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Fh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawpidcontroller_free(A,0)}constructor(A,I,C,B){const Q=h.rawpidcontroller_new(A,I,C,B);return this.__wbg_ptr=Q>>>0,Fh.register(this,this.__wbg_ptr,this),this}set_kp(A,I){h.rawpidcontroller_set_kp(this.__wbg_ptr,A,I)}set_ki(A,I){h.rawpidcontroller_set_ki(this.__wbg_ptr,A,I)}set_kd(A,I){h.rawpidcontroller_set_kd(this.__wbg_ptr,A,I)}set_axes_mask(A){h.rawpidcontroller_set_axes_mask(this.__wbg_ptr,A)}reset_integrals(){h.rawpidcontroller_reset_integrals(this.__wbg_ptr)}apply_linear_correction(A,I,C,B,Q){d(I,bI),d(B,f),d(Q,f),h.rawpidcontroller_apply_linear_correction(this.__wbg_ptr,A,I.__wbg_ptr,C,B.__wbg_ptr,Q.__wbg_ptr)}apply_angular_correction(A,I,C,B,Q){d(I,bI),d(B,oI),d(Q,f),h.rawpidcontroller_apply_angular_correction(this.__wbg_ptr,A,I.__wbg_ptr,C,B.__wbg_ptr,Q.__wbg_ptr)}linear_correction(A,I,C,B,Q){d(I,bI),d(B,f),d(Q,f);const E=h.rawpidcontroller_linear_correction(this.__wbg_ptr,A,I.__wbg_ptr,C,B.__wbg_ptr,Q.__wbg_ptr);return f.__wrap(E)}angular_correction(A,I,C,B,Q){d(I,bI),d(B,oI),d(Q,f);const E=h.rawpidcontroller_angular_correction(this.__wbg_ptr,A,I.__wbg_ptr,C,B.__wbg_ptr,Q.__wbg_ptr);return f.__wrap(E)}}const ph=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawpointcolliderprojection_free(g>>>0,1));class Lt{static __wrap(A){A>>>=0;const I=Object.create(Lt.prototype);return I.__wbg_ptr=A,ph.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,ph.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawpointcolliderprojection_free(A,0)}colliderHandle(){return h.rawpointcolliderprojection_colliderHandle(this.__wbg_ptr)}point(){const A=h.rawpointcolliderprojection_point(this.__wbg_ptr);return f.__wrap(A)}isInside(){return h.rawpointcolliderprojection_isInside(this.__wbg_ptr)!==0}featureType(){return h.rawpointcolliderprojection_featureType(this.__wbg_ptr)}featureId(){const A=h.rawpointcolliderprojection_featureId(this.__wbg_ptr);return A===4294967297?void 0:A}}const Rh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawpointprojection_free(g>>>0,1));class ne{static __wrap(A){A>>>=0;const I=Object.create(ne.prototype);return I.__wbg_ptr=A,Rh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Rh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawpointprojection_free(A,0)}point(){const A=h.rawpointprojection_point(this.__wbg_ptr);return f.__wrap(A)}isInside(){return h.rawpointprojection_isInside(this.__wbg_ptr)!==0}}const dh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawraycolliderhit_free(g>>>0,1));class PD{static __wrap(A){A>>>=0;const I=Object.create(PD.prototype);return I.__wbg_ptr=A,dh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,dh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawraycolliderhit_free(A,0)}colliderHandle(){return h.rawcharactercollision_handle(this.__wbg_ptr)}timeOfImpact(){return h.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}}const Yh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawraycolliderintersection_free(g>>>0,1));class re{static __wrap(A){A>>>=0;const I=Object.create(re.prototype);return I.__wbg_ptr=A,Yh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Yh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawraycolliderintersection_free(A,0)}colliderHandle(){return h.rawpointcolliderprojection_colliderHandle(this.__wbg_ptr)}normal(){const A=h.rawcollidershapecasthit_witness1(this.__wbg_ptr);return f.__wrap(A)}time_of_impact(){return h.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}featureType(){return h.rawpointcolliderprojection_featureType(this.__wbg_ptr)}featureId(){const A=h.rawpointcolliderprojection_featureId(this.__wbg_ptr);return A===4294967297?void 0:A}}const uh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawrayintersection_free(g>>>0,1));class he{static __wrap(A){A>>>=0;const I=Object.create(he.prototype);return I.__wbg_ptr=A,uh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,uh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawrayintersection_free(A,0)}normal(){const A=h.rawcollidershapecasthit_witness1(this.__wbg_ptr);return f.__wrap(A)}time_of_impact(){return h.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}featureType(){return h.rawpointcolliderprojection_featureType(this.__wbg_ptr)}featureId(){const A=h.rawpointcolliderprojection_featureId(this.__wbg_ptr);return A===4294967297?void 0:A}}const ls=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawrigidbodyset_free(g>>>0,1));class bI{static __wrap(A){A>>>=0;const I=Object.create(bI.prototype);return I.__wbg_ptr=A,ls.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,ls.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawrigidbodyset_free(A,0)}rbTranslation(A){const I=h.rawrigidbodyset_rbTranslation(this.__wbg_ptr,A);return f.__wrap(I)}rbRotation(A){const I=h.rawrigidbodyset_rbRotation(this.__wbg_ptr,A);return oI.__wrap(I)}rbSleep(A){h.rawrigidbodyset_rbSleep(this.__wbg_ptr,A)}rbIsSleeping(A){return h.rawrigidbodyset_rbIsSleeping(this.__wbg_ptr,A)!==0}rbIsMoving(A){return h.rawrigidbodyset_rbIsMoving(this.__wbg_ptr,A)!==0}rbNextTranslation(A){const I=h.rawrigidbodyset_rbNextTranslation(this.__wbg_ptr,A);return f.__wrap(I)}rbNextRotation(A){const I=h.rawrigidbodyset_rbNextRotation(this.__wbg_ptr,A);return oI.__wrap(I)}rbSetTranslation(A,I,C,B,Q){h.rawrigidbodyset_rbSetTranslation(this.__wbg_ptr,A,I,C,B,Q)}rbSetRotation(A,I,C,B,Q,E){h.rawrigidbodyset_rbSetRotation(this.__wbg_ptr,A,I,C,B,Q,E)}rbSetLinvel(A,I,C){d(I,f),h.rawrigidbodyset_rbSetLinvel(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbSetAngvel(A,I,C){d(I,f),h.rawrigidbodyset_rbSetAngvel(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbSetNextKinematicTranslation(A,I,C,B){h.rawrigidbodyset_rbSetNextKinematicTranslation(this.__wbg_ptr,A,I,C,B)}rbSetNextKinematicRotation(A,I,C,B,Q){h.rawrigidbodyset_rbSetNextKinematicRotation(this.__wbg_ptr,A,I,C,B,Q)}rbRecomputeMassPropertiesFromColliders(A,I){d(I,og),h.rawrigidbodyset_rbRecomputeMassPropertiesFromColliders(this.__wbg_ptr,A,I.__wbg_ptr)}rbSetAdditionalMass(A,I,C){h.rawrigidbodyset_rbSetAdditionalMass(this.__wbg_ptr,A,I,C)}rbSetAdditionalMassProperties(A,I,C,B,Q,E){d(C,f),d(B,f),d(Q,oI),h.rawrigidbodyset_rbSetAdditionalMassProperties(this.__wbg_ptr,A,I,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E)}rbLinvel(A){const I=h.rawrigidbodyset_rbLinvel(this.__wbg_ptr,A);return f.__wrap(I)}rbAngvel(A){const I=h.rawrigidbodyset_rbAngvel(this.__wbg_ptr,A);return f.__wrap(I)}rbVelocityAtPoint(A,I){d(I,f);const C=h.rawrigidbodyset_rbVelocityAtPoint(this.__wbg_ptr,A,I.__wbg_ptr);return f.__wrap(C)}rbLockTranslations(A,I,C){h.rawrigidbodyset_rbLockTranslations(this.__wbg_ptr,A,I,C)}rbSetEnabledTranslations(A,I,C,B,Q){h.rawrigidbodyset_rbSetEnabledTranslations(this.__wbg_ptr,A,I,C,B,Q)}rbLockRotations(A,I,C){h.rawrigidbodyset_rbLockRotations(this.__wbg_ptr,A,I,C)}rbSetEnabledRotations(A,I,C,B,Q){h.rawrigidbodyset_rbSetEnabledRotations(this.__wbg_ptr,A,I,C,B,Q)}rbDominanceGroup(A){return h.rawrigidbodyset_rbDominanceGroup(this.__wbg_ptr,A)}rbSetDominanceGroup(A,I){h.rawrigidbodyset_rbSetDominanceGroup(this.__wbg_ptr,A,I)}rbEnableCcd(A,I){h.rawrigidbodyset_rbEnableCcd(this.__wbg_ptr,A,I)}rbSetSoftCcdPrediction(A,I){h.rawrigidbodyset_rbSetSoftCcdPrediction(this.__wbg_ptr,A,I)}rbMass(A){return h.rawrigidbodyset_rbMass(this.__wbg_ptr,A)}rbInvMass(A){return h.rawrigidbodyset_rbInvMass(this.__wbg_ptr,A)}rbEffectiveInvMass(A){const I=h.rawrigidbodyset_rbEffectiveInvMass(this.__wbg_ptr,A);return f.__wrap(I)}rbLocalCom(A){const I=h.rawrigidbodyset_rbLocalCom(this.__wbg_ptr,A);return f.__wrap(I)}rbWorldCom(A){const I=h.rawrigidbodyset_rbWorldCom(this.__wbg_ptr,A);return f.__wrap(I)}rbInvPrincipalInertiaSqrt(A){const I=h.rawrigidbodyset_rbInvPrincipalInertiaSqrt(this.__wbg_ptr,A);return f.__wrap(I)}rbPrincipalInertiaLocalFrame(A){const I=h.rawrigidbodyset_rbPrincipalInertiaLocalFrame(this.__wbg_ptr,A);return oI.__wrap(I)}rbPrincipalInertia(A){const I=h.rawrigidbodyset_rbPrincipalInertia(this.__wbg_ptr,A);return f.__wrap(I)}rbEffectiveWorldInvInertiaSqrt(A){const I=h.rawrigidbodyset_rbEffectiveWorldInvInertiaSqrt(this.__wbg_ptr,A);return Ht.__wrap(I)}rbEffectiveAngularInertia(A){const I=h.rawrigidbodyset_rbEffectiveAngularInertia(this.__wbg_ptr,A);return Ht.__wrap(I)}rbWakeUp(A){h.rawrigidbodyset_rbWakeUp(this.__wbg_ptr,A)}rbIsCcdEnabled(A){return h.rawrigidbodyset_rbIsCcdEnabled(this.__wbg_ptr,A)!==0}rbSoftCcdPrediction(A){return h.rawrigidbodyset_rbSoftCcdPrediction(this.__wbg_ptr,A)}rbNumColliders(A){return h.rawrigidbodyset_rbNumColliders(this.__wbg_ptr,A)>>>0}rbCollider(A,I){return h.rawrigidbodyset_rbCollider(this.__wbg_ptr,A,I)}rbBodyType(A){return h.rawrigidbodyset_rbBodyType(this.__wbg_ptr,A)}rbSetBodyType(A,I,C){h.rawrigidbodyset_rbSetBodyType(this.__wbg_ptr,A,I,C)}rbIsFixed(A){return h.rawrigidbodyset_rbIsFixed(this.__wbg_ptr,A)!==0}rbIsKinematic(A){return h.rawrigidbodyset_rbIsKinematic(this.__wbg_ptr,A)!==0}rbIsDynamic(A){return h.rawrigidbodyset_rbIsDynamic(this.__wbg_ptr,A)!==0}rbLinearDamping(A){return h.rawrigidbodyset_rbLinearDamping(this.__wbg_ptr,A)}rbAngularDamping(A){return h.rawrigidbodyset_rbAngularDamping(this.__wbg_ptr,A)}rbSetLinearDamping(A,I){h.rawrigidbodyset_rbSetLinearDamping(this.__wbg_ptr,A,I)}rbSetAngularDamping(A,I){h.rawrigidbodyset_rbSetAngularDamping(this.__wbg_ptr,A,I)}rbSetEnabled(A,I){h.rawrigidbodyset_rbSetEnabled(this.__wbg_ptr,A,I)}rbIsEnabled(A){return h.rawrigidbodyset_rbIsEnabled(this.__wbg_ptr,A)!==0}rbGravityScale(A){return h.rawrigidbodyset_rbGravityScale(this.__wbg_ptr,A)}rbSetGravityScale(A,I,C){h.rawrigidbodyset_rbSetGravityScale(this.__wbg_ptr,A,I,C)}rbResetForces(A,I){h.rawrigidbodyset_rbResetForces(this.__wbg_ptr,A,I)}rbResetTorques(A,I){h.rawrigidbodyset_rbResetTorques(this.__wbg_ptr,A,I)}rbAddForce(A,I,C){d(I,f),h.rawrigidbodyset_rbAddForce(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbApplyImpulse(A,I,C){d(I,f),h.rawrigidbodyset_rbApplyImpulse(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbAddTorque(A,I,C){d(I,f),h.rawrigidbodyset_rbAddTorque(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbApplyTorqueImpulse(A,I,C){d(I,f),h.rawrigidbodyset_rbApplyTorqueImpulse(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbAddForceAtPoint(A,I,C,B){d(I,f),d(C,f),h.rawrigidbodyset_rbAddForceAtPoint(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B)}rbApplyImpulseAtPoint(A,I,C,B){d(I,f),d(C,f),h.rawrigidbodyset_rbApplyImpulseAtPoint(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B)}rbAdditionalSolverIterations(A){return h.rawrigidbodyset_rbAdditionalSolverIterations(this.__wbg_ptr,A)>>>0}rbSetAdditionalSolverIterations(A,I){h.rawrigidbodyset_rbSetAdditionalSolverIterations(this.__wbg_ptr,A,I)}rbUserData(A){return h.rawrigidbodyset_rbUserData(this.__wbg_ptr,A)>>>0}rbSetUserData(A,I){h.rawrigidbodyset_rbSetUserData(this.__wbg_ptr,A,I)}rbUserForce(A){const I=h.rawrigidbodyset_rbUserForce(this.__wbg_ptr,A);return f.__wrap(I)}rbUserTorque(A){const I=h.rawrigidbodyset_rbUserTorque(this.__wbg_ptr,A);return f.__wrap(I)}constructor(){const A=h.rawrigidbodyset_new();return this.__wbg_ptr=A>>>0,ls.register(this,this.__wbg_ptr,this),this}createRigidBody(A,I,C,B,Q,E,i,o,t,e,s,a,D,n,c,S,r,l,y,w,N,U,F,p,k,K){return d(I,f),d(C,oI),d(i,f),d(o,f),d(t,f),d(e,f),d(s,oI),h.rawrigidbodyset_createRigidBody(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B,Q,E,i.__wbg_ptr,o.__wbg_ptr,t.__wbg_ptr,e.__wbg_ptr,s.__wbg_ptr,a,D,n,c,S,r,l,y,w,N,U,F,p,k,K)}remove(A,I,C,B,Q){d(I,$B),d(C,og),d(B,zB),d(Q,AQ),h.rawrigidbodyset_remove(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr)}len(){return h.rawcolliderset_len(this.__wbg_ptr)>>>0}contains(A){return h.rawrigidbodyset_contains(this.__wbg_ptr,A)!==0}forEachRigidBodyHandle(A){try{h.rawrigidbodyset_forEachRigidBodyHandle(this.__wbg_ptr,WI(A))}finally{SI[uI++]=void 0}}propagateModifiedBodyPositionsToColliders(A){d(A,og),h.rawrigidbodyset_propagateModifiedBodyPositionsToColliders(this.__wbg_ptr,A.__wbg_ptr)}}const Gs=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawrotation_free(g>>>0,1));class oI{static __wrap(A){A>>>=0;const I=Object.create(oI.prototype);return I.__wbg_ptr=A,Gs.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Gs.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawrotation_free(A,0)}constructor(A,I,C,B){const Q=h.rawrotation_new(A,I,C,B);return this.__wbg_ptr=Q>>>0,Gs.register(this,this.__wbg_ptr,this),this}static identity(){const A=h.rawrotation_identity();return oI.__wrap(A)}get x(){return h.rawrotation_x(this.__wbg_ptr)}get y(){return h.rawintegrationparameters_dt(this.__wbg_ptr)}get z(){return h.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}get w(){return h.rawrotation_w(this.__wbg_ptr)}}const qh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawsdpmatrix3_free(g>>>0,1));class Ht{static __wrap(A){A>>>=0;const I=Object.create(Ht.prototype);return I.__wbg_ptr=A,qh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,qh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawsdpmatrix3_free(A,0)}elements(){return so(h.rawsdpmatrix3_elements(this.__wbg_ptr))}}const fh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawserializationpipeline_free(g>>>0,1));class PR{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,fh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawserializationpipeline_free(A,0)}constructor(){const A=h.rawccdsolver_new();return this.__wbg_ptr=A>>>0,fh.register(this,this.__wbg_ptr,this),this}serializeAll(A,I,C,B,Q,E,i,o,t){return d(A,f),d(I,QE),d(C,$B),d(B,VB),d(Q,kg),d(E,bI),d(i,og),d(o,zB),d(t,AQ),so(h.rawserializationpipeline_serializeAll(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E.__wbg_ptr,i.__wbg_ptr,o.__wbg_ptr,t.__wbg_ptr))}deserializeAll(A){const I=h.rawserializationpipeline_deserializeAll(this.__wbg_ptr,dI(A));return I===0?void 0:WD.__wrap(I)}}const Lh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawshape_free(g>>>0,1));class fA{static __wrap(A){A>>>=0;const I=Object.create(fA.prototype);return I.__wbg_ptr=A,Lh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Lh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawshape_free(A,0)}static cuboid(A,I,C){const B=h.rawshape_cuboid(A,I,C);return fA.__wrap(B)}static roundCuboid(A,I,C,B){const Q=h.rawshape_roundCuboid(A,I,C,B);return fA.__wrap(Q)}static ball(A){const I=h.rawshape_ball(A);return fA.__wrap(I)}static halfspace(A){d(A,f);const I=h.rawshape_halfspace(A.__wbg_ptr);return fA.__wrap(I)}static capsule(A,I){const C=h.rawshape_capsule(A,I);return fA.__wrap(C)}static cylinder(A,I){const C=h.rawshape_cylinder(A,I);return fA.__wrap(C)}static roundCylinder(A,I,C){const B=h.rawshape_roundCylinder(A,I,C);return fA.__wrap(B)}static cone(A,I){const C=h.rawshape_cone(A,I);return fA.__wrap(C)}static roundCone(A,I,C){const B=h.rawshape_roundCone(A,I,C);return fA.__wrap(B)}static voxels(A,I){d(A,f);const C=fi(I,h.__wbindgen_export_2),B=EC,Q=h.rawshape_voxels(A.__wbg_ptr,C,B);return fA.__wrap(Q)}static voxelsFromPoints(A,I){d(A,f);const C=eQ(I,h.__wbindgen_export_2),B=EC,Q=h.rawshape_voxelsFromPoints(A.__wbg_ptr,C,B);return fA.__wrap(Q)}static polyline(A,I){const C=eQ(A,h.__wbindgen_export_2),B=EC,Q=fi(I,h.__wbindgen_export_2),E=EC,i=h.rawshape_polyline(C,B,Q,E);return fA.__wrap(i)}static trimesh(A,I,C){const B=eQ(A,h.__wbindgen_export_2),Q=EC,E=fi(I,h.__wbindgen_export_2),i=EC,o=h.rawshape_trimesh(B,Q,E,i,C);return o===0?void 0:fA.__wrap(o)}static heightfield(A,I,C,B,Q){const E=eQ(C,h.__wbindgen_export_2),i=EC;d(B,f);const o=h.rawshape_heightfield(A,I,E,i,B.__wbg_ptr,Q);return fA.__wrap(o)}static segment(A,I){d(A,f),d(I,f);const C=h.rawshape_segment(A.__wbg_ptr,I.__wbg_ptr);return fA.__wrap(C)}static triangle(A,I,C){d(A,f),d(I,f),d(C,f);const B=h.rawshape_triangle(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr);return fA.__wrap(B)}static roundTriangle(A,I,C,B){d(A,f),d(I,f),d(C,f);const Q=h.rawshape_roundTriangle(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B);return fA.__wrap(Q)}static convexHull(A){const I=eQ(A,h.__wbindgen_export_2),C=EC,B=h.rawshape_convexHull(I,C);return B===0?void 0:fA.__wrap(B)}static roundConvexHull(A,I){const C=eQ(A,h.__wbindgen_export_2),B=EC,Q=h.rawshape_roundConvexHull(C,B,I);return Q===0?void 0:fA.__wrap(Q)}static convexMesh(A,I){const C=eQ(A,h.__wbindgen_export_2),B=EC,Q=fi(I,h.__wbindgen_export_2),E=EC,i=h.rawshape_convexMesh(C,B,Q,E);return i===0?void 0:fA.__wrap(i)}static roundConvexMesh(A,I,C){const B=eQ(A,h.__wbindgen_export_2),Q=EC,E=fi(I,h.__wbindgen_export_2),i=EC,o=h.rawshape_roundConvexMesh(B,Q,E,i,C);return o===0?void 0:fA.__wrap(o)}castShape(A,I,C,B,Q,E,i,o,t,e){d(A,f),d(I,oI),d(C,f),d(B,fA),d(Q,f),d(E,oI),d(i,f);const s=h.rawshape_castShape(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E.__wbg_ptr,i.__wbg_ptr,o,t,e);return s===0?void 0:Se.__wrap(s)}intersectsShape(A,I,C,B,Q){return d(A,f),d(I,oI),d(C,fA),d(B,f),d(Q,oI),h.rawshape_intersectsShape(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr)!==0}contactShape(A,I,C,B,Q,E){d(A,f),d(I,oI),d(C,fA),d(B,f),d(Q,oI);const i=h.rawshape_contactShape(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q.__wbg_ptr,E);return i===0?void 0:ao.__wrap(i)}containsPoint(A,I,C){return d(A,f),d(I,oI),d(C,f),h.rawshape_containsPoint(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr)!==0}projectPoint(A,I,C,B){d(A,f),d(I,oI),d(C,f);const Q=h.rawshape_projectPoint(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B);return ne.__wrap(Q)}intersectsRay(A,I,C,B,Q){return d(A,f),d(I,oI),d(C,f),d(B,f),h.rawshape_intersectsRay(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q)!==0}castRay(A,I,C,B,Q,E){return d(A,f),d(I,oI),d(C,f),d(B,f),h.rawshape_castRay(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q,E)}castRayAndGetNormal(A,I,C,B,Q,E){d(A,f),d(I,oI),d(C,f),d(B,f);const i=h.rawshape_castRayAndGetNormal(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,Q,E);return i===0?void 0:he.__wrap(i)}}const Hh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawshapecasthit_free(g>>>0,1));class Se{static __wrap(A){A>>>=0;const I=Object.create(Se.prototype);return I.__wbg_ptr=A,Hh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,Hh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawshapecasthit_free(A,0)}time_of_impact(){return h.rawrotation_x(this.__wbg_ptr)}witness1(){const A=h.rawshapecasthit_witness1(this.__wbg_ptr);return f.__wrap(A)}witness2(){const A=h.rawcontactforceevent_total_force(this.__wbg_ptr);return f.__wrap(A)}normal1(){const A=h.rawshapecasthit_normal1(this.__wbg_ptr);return f.__wrap(A)}normal2(){const A=h.rawshapecasthit_normal2(this.__wbg_ptr);return f.__wrap(A)}}const mh=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawshapecontact_free(g>>>0,1));class ao{static __wrap(A){A>>>=0;const I=Object.create(ao.prototype);return I.__wbg_ptr=A,mh.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,mh.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawshapecontact_free(A,0)}distance(){return h.rawkinematiccharactercontroller_maxSlopeClimbAngle(this.__wbg_ptr)}point1(){const A=h.rawpointprojection_point(this.__wbg_ptr);return f.__wrap(A)}point2(){const A=h.rawcollidershapecasthit_witness1(this.__wbg_ptr);return f.__wrap(A)}normal1(){const A=h.rawcollidershapecasthit_witness2(this.__wbg_ptr);return f.__wrap(A)}normal2(){const A=h.rawcharactercollision_translationDeltaApplied(this.__wbg_ptr);return f.__wrap(A)}}const ys=typeof FinalizationRegistry>"u"?{register:()=>{},unregister:()=>{}}:new FinalizationRegistry(g=>h.__wbg_rawvector_free(g>>>0,1));class f{static __wrap(A){A>>>=0;const I=Object.create(f.prototype);return I.__wbg_ptr=A,ys.register(I,I.__wbg_ptr,I),I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,ys.unregister(this),A}free(){const A=this.__destroy_into_raw();h.__wbg_rawvector_free(A,0)}static zero(){const A=h.rawvector_zero();return f.__wrap(A)}constructor(A,I,C){const B=h.rawvector_new(A,I,C);return this.__wbg_ptr=B>>>0,ys.register(this,this.__wbg_ptr,this),this}get x(){return h.rawrotation_x(this.__wbg_ptr)}set x(A){h.rawvector_set_x(this.__wbg_ptr,A)}get y(){return h.rawintegrationparameters_dt(this.__wbg_ptr)}set 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Request||typeof URL=="function"&&g instanceof URL)&&(g=fetch(g));const{instance:I,module:C}=await async function(B,Q){if(typeof Response=="function"&&B instanceof Response){if(typeof WebAssembly.instantiateStreaming=="function")try{return await WebAssembly.instantiateStreaming(B,Q)}catch(i){if(B.headers.get("Content-Type")=="application/wasm")throw i;console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\n",i)}const E=await B.arrayBuffer();return await WebAssembly.instantiate(E,Q)}{const E=await WebAssembly.instantiate(B,Q);return E instanceof WebAssembly.Instance?{instance:E,module:B}:E}}(await g,A);return function(B,Q){return h=B.exports,Iw.__wbindgen_wasm_module=Q,bQ=null,Oi=null,bi=null,vi=null,xi=null,h}(I,C)}class vI{constructor(A,I,C){this.x=A,this.y=I,this.z=C}}class m{static new(A,I,C){return new vI(A,I,C)}static intoRaw(A){return new f(A.x,A.y,A.z)}static zeros(){return m.new(0,0,0)}static fromRaw(A){if(!A)return null;let I=m.new(A.x,A.y,A.z);return A.free(),I}static copy(A,I){A.x=I.x,A.y=I.y,A.z=I.z}}class ti{constructor(A,I,C,B){this.x=A,this.y=I,this.z=C,this.w=B}}class tI{static identity(){return new ti(0,0,0,1)}static fromRaw(A){if(!A)return null;let I=new ti(A.x,A.y,A.z,A.w);return A.free(),I}static intoRaw(A){return new oI(A.x,A.y,A.z,A.w)}static copy(A,I){A.x=I.x,A.y=I.y,A.z=I.z,A.w=I.w}}class jR{constructor(A){this.elements=A}get m11(){return this.elements[0]}get m12(){return this.elements[1]}get m21(){return this.m12}get m13(){return this.elements[2]}get m31(){return this.m13}get m22(){return this.elements[3]}get m23(){return this.elements[4]}get m32(){return this.m23}get m33(){return this.elements[5]}}class Th{static fromRaw(A){const I=new jR(A.elements());return A.free(),I}}var rB,xh,bh,Oh,mt,Do,Ng,vh,_h,Zh,ei,Oa,Wh,Tt,xt,xE;(function(g){g[g.Dynamic=0]="Dynamic",g[g.Fixed=1]="Fixed",g[g.KinematicPositionBased=2]="KinematicPositionBased",g[g.KinematicVelocityBased=3]="KinematicVelocityBased"})(rB||(rB={}));class Ph{constructor(A,I,C){this.rawSet=A,this.colliderSet=I,this.handle=C}finalizeDeserialization(A){this.colliderSet=A}isValid(){return this.rawSet.contains(this.handle)}lockTranslations(A,I){return this.rawSet.rbLockTranslations(this.handle,A,I)}lockRotations(A,I){return this.rawSet.rbLockRotations(this.handle,A,I)}setEnabledTranslations(A,I,C,B){return this.rawSet.rbSetEnabledTranslations(this.handle,A,I,C,B)}restrictTranslations(A,I,C,B){this.setEnabledTranslations(A,I,C,B)}setEnabledRotations(A,I,C,B){return this.rawSet.rbSetEnabledRotations(this.handle,A,I,C,B)}restrictRotations(A,I,C,B){this.setEnabledRotations(A,I,C,B)}dominanceGroup(){return this.rawSet.rbDominanceGroup(this.handle)}setDominanceGroup(A){this.rawSet.rbSetDominanceGroup(this.handle,A)}additionalSolverIterations(){return this.rawSet.rbAdditionalSolverIterations(this.handle)}setAdditionalSolverIterations(A){this.rawSet.rbSetAdditionalSolverIterations(this.handle,A)}enableCcd(A){this.rawSet.rbEnableCcd(this.handle,A)}setSoftCcdPrediction(A){this.rawSet.rbSetSoftCcdPrediction(this.handle,A)}softCcdPrediction(){return this.rawSet.rbSoftCcdPrediction(this.handle)}translation(){let A=this.rawSet.rbTranslation(this.handle);return m.fromRaw(A)}rotation(){let A=this.rawSet.rbRotation(this.handle);return tI.fromRaw(A)}nextTranslation(){let A=this.rawSet.rbNextTranslation(this.handle);return m.fromRaw(A)}nextRotation(){let A=this.rawSet.rbNextRotation(this.handle);return tI.fromRaw(A)}setTranslation(A,I){this.rawSet.rbSetTranslation(this.handle,A.x,A.y,A.z,I)}setLinvel(A,I){let C=m.intoRaw(A);this.rawSet.rbSetLinvel(this.handle,C,I),C.free()}gravityScale(){return this.rawSet.rbGravityScale(this.handle)}setGravityScale(A,I){this.rawSet.rbSetGravityScale(this.handle,A,I)}setRotation(A,I){this.rawSet.rbSetRotation(this.handle,A.x,A.y,A.z,A.w,I)}setAngvel(A,I){let C=m.intoRaw(A);this.rawSet.rbSetAngvel(this.handle,C,I),C.free()}setNextKinematicTranslation(A){this.rawSet.rbSetNextKinematicTranslation(this.handle,A.x,A.y,A.z)}setNextKinematicRotation(A){this.rawSet.rbSetNextKinematicRotation(this.handle,A.x,A.y,A.z,A.w)}linvel(){return m.fromRaw(this.rawSet.rbLinvel(this.handle))}velocityAtPoint(A){const I=m.intoRaw(A);let C=m.fromRaw(this.rawSet.rbVelocityAtPoint(this.handle,I));return I.free(),C}angvel(){return m.fromRaw(this.rawSet.rbAngvel(this.handle))}mass(){return this.rawSet.rbMass(this.handle)}effectiveInvMass(){return m.fromRaw(this.rawSet.rbEffectiveInvMass(this.handle))}invMass(){return this.rawSet.rbInvMass(this.handle)}localCom(){return m.fromRaw(this.rawSet.rbLocalCom(this.handle))}worldCom(){return m.fromRaw(this.rawSet.rbWorldCom(this.handle))}invPrincipalInertiaSqrt(){return m.fromRaw(this.rawSet.rbInvPrincipalInertiaSqrt(this.handle))}principalInertia(){return m.fromRaw(this.rawSet.rbPrincipalInertia(this.handle))}principalInertiaLocalFrame(){return tI.fromRaw(this.rawSet.rbPrincipalInertiaLocalFrame(this.handle))}effectiveWorldInvInertiaSqrt(){return Th.fromRaw(this.rawSet.rbEffectiveWorldInvInertiaSqrt(this.handle))}effectiveAngularInertia(){return Th.fromRaw(this.rawSet.rbEffectiveAngularInertia(this.handle))}sleep(){this.rawSet.rbSleep(this.handle)}wakeUp(){this.rawSet.rbWakeUp(this.handle)}isCcdEnabled(){return this.rawSet.rbIsCcdEnabled(this.handle)}numColliders(){return this.rawSet.rbNumColliders(this.handle)}collider(A){return this.colliderSet.get(this.rawSet.rbCollider(this.handle,A))}setEnabled(A){this.rawSet.rbSetEnabled(this.handle,A)}isEnabled(){return this.rawSet.rbIsEnabled(this.handle)}bodyType(){return this.rawSet.rbBodyType(this.handle)}setBodyType(A,I){return this.rawSet.rbSetBodyType(this.handle,A,I)}isSleeping(){return this.rawSet.rbIsSleeping(this.handle)}isMoving(){return this.rawSet.rbIsMoving(this.handle)}isFixed(){return this.rawSet.rbIsFixed(this.handle)}isKinematic(){return this.rawSet.rbIsKinematic(this.handle)}isDynamic(){return this.rawSet.rbIsDynamic(this.handle)}linearDamping(){return this.rawSet.rbLinearDamping(this.handle)}angularDamping(){return this.rawSet.rbAngularDamping(this.handle)}setLinearDamping(A){this.rawSet.rbSetLinearDamping(this.handle,A)}recomputeMassPropertiesFromColliders(){this.rawSet.rbRecomputeMassPropertiesFromColliders(this.handle,this.colliderSet.raw)}setAdditionalMass(A,I){this.rawSet.rbSetAdditionalMass(this.handle,A,I)}setAdditionalMassProperties(A,I,C,B,Q){let E=m.intoRaw(I),i=m.intoRaw(C),o=tI.intoRaw(B);this.rawSet.rbSetAdditionalMassProperties(this.handle,A,E,i,o,Q),E.free(),i.free(),o.free()}setAngularDamping(A){this.rawSet.rbSetAngularDamping(this.handle,A)}resetForces(A){this.rawSet.rbResetForces(this.handle,A)}resetTorques(A){this.rawSet.rbResetTorques(this.handle,A)}addForce(A,I){const C=m.intoRaw(A);this.rawSet.rbAddForce(this.handle,C,I),C.free()}applyImpulse(A,I){const C=m.intoRaw(A);this.rawSet.rbApplyImpulse(this.handle,C,I),C.free()}addTorque(A,I){const C=m.intoRaw(A);this.rawSet.rbAddTorque(this.handle,C,I),C.free()}applyTorqueImpulse(A,I){const C=m.intoRaw(A);this.rawSet.rbApplyTorqueImpulse(this.handle,C,I),C.free()}addForceAtPoint(A,I,C){const B=m.intoRaw(A),Q=m.intoRaw(I);this.rawSet.rbAddForceAtPoint(this.handle,B,Q,C),B.free(),Q.free()}applyImpulseAtPoint(A,I,C){const B=m.intoRaw(A),Q=m.intoRaw(I);this.rawSet.rbApplyImpulseAtPoint(this.handle,B,Q,C),B.free(),Q.free()}userForce(){return m.fromRaw(this.rawSet.rbUserForce(this.handle))}userTorque(){return m.fromRaw(this.rawSet.rbUserTorque(this.handle))}}class aC{constructor(A){this.enabled=!0,this.status=A,this.translation=m.zeros(),this.rotation=tI.identity(),this.gravityScale=1,this.linvel=m.zeros(),this.mass=0,this.massOnly=!1,this.centerOfMass=m.zeros(),this.translationsEnabledX=!0,this.translationsEnabledY=!0,this.angvel=m.zeros(),this.principalAngularInertia=m.zeros(),this.angularInertiaLocalFrame=tI.identity(),this.translationsEnabledZ=!0,this.rotationsEnabledX=!0,this.rotationsEnabledY=!0,this.rotationsEnabledZ=!0,this.linearDamping=0,this.angularDamping=0,this.canSleep=!0,this.sleeping=!1,this.ccdEnabled=!1,this.softCcdPrediction=0,this.dominanceGroup=0,this.additionalSolverIterations=0}static dynamic(){return new aC(rB.Dynamic)}static kinematicPositionBased(){return new aC(rB.KinematicPositionBased)}static kinematicVelocityBased(){return new aC(rB.KinematicVelocityBased)}static fixed(){return new aC(rB.Fixed)}static newDynamic(){return new aC(rB.Dynamic)}static newKinematicPositionBased(){return new aC(rB.KinematicPositionBased)}static newKinematicVelocityBased(){return new aC(rB.KinematicVelocityBased)}static newStatic(){return new aC(rB.Fixed)}setDominanceGroup(A){return this.dominanceGroup=A,this}setAdditionalSolverIterations(A){return this.additionalSolverIterations=A,this}setEnabled(A){return this.enabled=A,this}setTranslation(A,I,C){if(typeof A!="number"||typeof I!="number"||typeof C!="number")throw TypeError("The translation components must be numbers.");return this.translation={x:A,y:I,z:C},this}setRotation(A){return tI.copy(this.rotation,A),this}setGravityScale(A){return this.gravityScale=A,this}setAdditionalMass(A){return this.mass=A,this.massOnly=!0,this}setLinvel(A,I,C){if(typeof A!="number"||typeof I!="number"||typeof C!="number")throw TypeError("The linvel components must be numbers.");return this.linvel={x:A,y:I,z:C},this}setAngvel(A){return m.copy(this.angvel,A),this}setAdditionalMassProperties(A,I,C,B){return this.mass=A,m.copy(this.centerOfMass,I),m.copy(this.principalAngularInertia,C),tI.copy(this.angularInertiaLocalFrame,B),this.massOnly=!1,this}enabledTranslations(A,I,C){return this.translationsEnabledX=A,this.translationsEnabledY=I,this.translationsEnabledZ=C,this}restrictTranslations(A,I,C){return this.enabledTranslations(A,I,C)}lockTranslations(){return this.enabledTranslations(!1,!1,!1)}enabledRotations(A,I,C){return this.rotationsEnabledX=A,this.rotationsEnabledY=I,this.rotationsEnabledZ=C,this}restrictRotations(A,I,C){return this.enabledRotations(A,I,C)}lockRotations(){return this.restrictRotations(!1,!1,!1)}setLinearDamping(A){return this.linearDamping=A,this}setAngularDamping(A){return this.angularDamping=A,this}setCanSleep(A){return this.canSleep=A,this}setSleeping(A){return this.sleeping=A,this}setCcdEnabled(A){return this.ccdEnabled=A,this}setSoftCcdPrediction(A){return this.softCcdPrediction=A,this}setUserData(A){return this.userData=A,this}}class ce{constructor(){this.fconv=new Float64Array(1),this.uconv=new Uint32Array(this.fconv.buffer),this.data=new Array,this.size=0}set(A,I){let C=this.index(A);for(;this.data.length<=C;)this.data.push(null);this.data[C]==null&&(this.size+=1),this.data[C]=I}len(){return this.size}delete(A){let I=this.index(A);I<this.data.length&&(this.data[I]!=null&&(this.size-=1),this.data[I]=null)}clear(){this.data=new Array}get(A){let I=this.index(A);return I<this.data.length?this.data[I]:null}forEach(A){for(const I of this.data)I!=null&&A(I)}getAll(){return this.data.filter(A=>A!=null)}index(A){return this.fconv[0]=A,this.uconv[0]}}class XR{constructor(A){this.raw=A||new bI,this.map=new ce,A&&A.forEachRigidBodyHandle(I=>{this.map.set(I,new Ph(A,null,I))})}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}finalizeDeserialization(A){this.map.forEach(I=>I.finalizeDeserialization(A))}createRigidBody(A,I){let C=m.intoRaw(I.translation),B=tI.intoRaw(I.rotation),Q=m.intoRaw(I.linvel),E=m.intoRaw(I.centerOfMass),i=m.intoRaw(I.angvel),o=m.intoRaw(I.principalAngularInertia),t=tI.intoRaw(I.angularInertiaLocalFrame),e=this.raw.createRigidBody(I.enabled,C,B,I.gravityScale,I.mass,I.massOnly,E,Q,i,o,t,I.translationsEnabledX,I.translationsEnabledY,I.translationsEnabledZ,I.rotationsEnabledX,I.rotationsEnabledY,I.rotationsEnabledZ,I.linearDamping,I.angularDamping,I.status,I.canSleep,I.sleeping,I.softCcdPrediction,I.ccdEnabled,I.dominanceGroup,I.additionalSolverIterations);C.free(),B.free(),Q.free(),E.free(),i.free(),o.free(),t.free();const s=new Ph(this.raw,A,e);return s.userData=I.userData,this.map.set(e,s),s}remove(A,I,C,B,Q){for(let E=0;E<this.raw.rbNumColliders(A);E+=1)C.unmap(this.raw.rbCollider(A,E));B.forEachJointHandleAttachedToRigidBody(A,E=>B.unmap(E)),Q.forEachJointHandleAttachedToRigidBody(A,E=>Q.unmap(E)),this.raw.remove(A,I.raw,C.raw,B.raw,Q.raw),this.map.delete(A)}len(){return this.map.len()}contains(A){return this.get(A)!=null}get(A){return this.map.get(A)}forEach(A){this.map.forEach(A)}forEachActiveRigidBody(A,I){A.forEachActiveRigidBodyHandle(C=>{I(this.get(C))})}getAll(){return this.map.getAll()}}class VR{constructor(A){this.raw=A||new QE}free(){this.raw&&this.raw.free(),this.raw=void 0}get dt(){return this.raw.dt}get contact_erp(){return this.raw.contact_erp}get lengthUnit(){return this.raw.lengthUnit}get normalizedAllowedLinearError(){return this.raw.normalizedAllowedLinearError}get normalizedPredictionDistance(){return this.raw.normalizedPredictionDistance}get numSolverIterations(){return this.raw.numSolverIterations}get numAdditionalFrictionIterations(){return this.raw.numAdditionalFrictionIterations}get numInternalPgsIterations(){return this.raw.numInternalPgsIterations}get minIslandSize(){return this.raw.minIslandSize}get maxCcdSubsteps(){return this.raw.maxCcdSubsteps}set dt(A){this.raw.dt=A}set contact_natural_frequency(A){this.raw.contact_natural_frequency=A}set lengthUnit(A){this.raw.lengthUnit=A}set normalizedAllowedLinearError(A){this.raw.normalizedAllowedLinearError=A}set normalizedPredictionDistance(A){this.raw.normalizedPredictionDistance=A}set numSolverIterations(A){this.raw.numSolverIterations=A}set numAdditionalFrictionIterations(A){this.raw.numAdditionalFrictionIterations=A}set numInternalPgsIterations(A){this.raw.numInternalPgsIterations=A}set minIslandSize(A){this.raw.minIslandSize=A}set maxCcdSubsteps(A){this.raw.maxCcdSubsteps=A}switchToStandardPgsSolver(){this.raw.switchToStandardPgsSolver()}switchToSmallStepsPgsSolver(){this.raw.switchToSmallStepsPgsSolver()}switchToSmallStepsPgsSolverWithoutWarmstart(){this.raw.switchToSmallStepsPgsSolverWithoutWarmstart()}}(function(g){g[g.Revolute=0]="Revolute",g[g.Fixed=1]="Fixed",g[g.Prismatic=2]="Prismatic",g[g.Rope=3]="Rope",g[g.Spring=4]="Spring",g[g.Spherical=5]="Spherical",g[g.Generic=6]="Generic"})(xh||(xh={})),function(g){g[g.AccelerationBased=0]="AccelerationBased",g[g.ForceBased=1]="ForceBased"}(bh||(bh={})),function(g){g[g.LinX=1]="LinX",g[g.LinY=2]="LinY",g[g.LinZ=4]="LinZ",g[g.AngX=8]="AngX",g[g.AngY=16]="AngY",g[g.AngZ=32]="AngZ"}(Oh||(Oh={}));class RB{constructor(A,I,C){this.rawSet=A,this.bodySet=I,this.handle=C}static newTyped(A,I,C){switch(A.jointType(C)){case iB.Revolute:return new gd(A,I,C);case iB.Prismatic:return new Id(A,I,C);case iB.Fixed:return new zR(A,I,C);case iB.Spring:return new Ad(A,I,C);case iB.Rope:return new $R(A,I,C);case iB.Spherical:return new Bd(A,I,C);case iB.Generic:return new Cd(A,I,C);default:return new RB(A,I,C)}}finalizeDeserialization(A){this.bodySet=A}isValid(){return this.rawSet.contains(this.handle)}body1(){return this.bodySet.get(this.rawSet.jointBodyHandle1(this.handle))}body2(){return this.bodySet.get(this.rawSet.jointBodyHandle2(this.handle))}type(){return this.rawSet.jointType(this.handle)}frameX1(){return tI.fromRaw(this.rawSet.jointFrameX1(this.handle))}frameX2(){return tI.fromRaw(this.rawSet.jointFrameX2(this.handle))}anchor1(){return m.fromRaw(this.rawSet.jointAnchor1(this.handle))}anchor2(){return m.fromRaw(this.rawSet.jointAnchor2(this.handle))}setAnchor1(A){const I=m.intoRaw(A);this.rawSet.jointSetAnchor1(this.handle,I),I.free()}setAnchor2(A){const I=m.intoRaw(A);this.rawSet.jointSetAnchor2(this.handle,I),I.free()}setContactsEnabled(A){this.rawSet.jointSetContactsEnabled(this.handle,A)}contactsEnabled(){return this.rawSet.jointContactsEnabled(this.handle)}}class gw extends RB{limitsEnabled(){return this.rawSet.jointLimitsEnabled(this.handle,this.rawAxis())}limitsMin(){return this.rawSet.jointLimitsMin(this.handle,this.rawAxis())}limitsMax(){return this.rawSet.jointLimitsMax(this.handle,this.rawAxis())}setLimits(A,I){this.rawSet.jointSetLimits(this.handle,this.rawAxis(),A,I)}configureMotorModel(A){this.rawSet.jointConfigureMotorModel(this.handle,this.rawAxis(),A)}configureMotorVelocity(A,I){this.rawSet.jointConfigureMotorVelocity(this.handle,this.rawAxis(),A,I)}configureMotorPosition(A,I,C){this.rawSet.jointConfigureMotorPosition(this.handle,this.rawAxis(),A,I,C)}configureMotor(A,I,C,B){this.rawSet.jointConfigureMotor(this.handle,this.rawAxis(),A,I,C,B)}}class zR extends RB{}class $R extends RB{}class Ad extends RB{}class Id extends gw{rawAxis(){return ae.LinX}}class gd extends gw{rawAxis(){return ae.AngX}}class Cd extends RB{}class Bd extends RB{}class Qd{constructor(A){this.raw=A||new zB,this.map=new ce,A&&A.forEachJointHandle(I=>{this.map.set(I,RB.newTyped(A,null,I))})}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}finalizeDeserialization(A){this.map.forEach(I=>I.finalizeDeserialization(A))}createJoint(A,I,C,B,Q){const E=I.intoRaw(),i=this.raw.createJoint(E,C,B,Q);E.free();let o=RB.newTyped(this.raw,A,i);return this.map.set(i,o),o}remove(A,I){this.raw.remove(A,I),this.unmap(A)}forEachJointHandleAttachedToRigidBody(A,I){this.raw.forEachJointAttachedToRigidBody(A,I)}unmap(A){this.map.delete(A)}len(){return this.map.len()}contains(A){return this.get(A)!=null}get(A){return this.map.get(A)}forEach(A){this.map.forEach(A)}getAll(){return this.map.getAll()}}class EE{constructor(A,I){this.rawSet=A,this.handle=I}static newTyped(A,I){switch(A.jointType(I)){case iB.Revolute:return new od(A,I);case iB.Prismatic:return new id(A,I);case iB.Fixed:return new Ed(A,I);case iB.Spherical:return new td(A,I);default:return new EE(A,I)}}isValid(){return this.rawSet.contains(this.handle)}setContactsEnabled(A){this.rawSet.jointSetContactsEnabled(this.handle,A)}contactsEnabled(){return this.rawSet.jointContactsEnabled(this.handle)}}class Cw extends EE{}class Ed extends EE{}class id extends Cw{rawAxis(){return ae.LinX}}class od extends Cw{rawAxis(){return ae.AngX}}class td extends EE{}class ed{constructor(A){this.raw=A||new AQ,this.map=new ce,A&&A.forEachJointHandle(I=>{this.map.set(I,EE.newTyped(this.raw,I))})}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}createJoint(A,I,C,B){const Q=A.intoRaw(),E=this.raw.createJoint(Q,I,C,B);Q.free();let i=EE.newTyped(this.raw,E);return this.map.set(E,i),i}remove(A,I){this.raw.remove(A,I),this.map.delete(A)}unmap(A){this.map.delete(A)}len(){return this.map.len()}contains(A){return this.get(A)!=null}get(A){return this.map.get(A)}forEach(A){this.map.forEach(A)}forEachJointHandleAttachedToRigidBody(A,I){this.raw.forEachJointAttachedToRigidBody(A,I)}getAll(){return this.map.getAll()}}(function(g){g[g.Average=0]="Average",g[g.Min=1]="Min",g[g.Multiply=2]="Multiply",g[g.Max=3]="Max"})(mt||(mt={}));class sd{constructor(A){this.raw=A||new ba}free(){this.raw&&this.raw.free(),this.raw=void 0}}class ad{constructor(A){this.raw=A||new $B}free(){this.raw&&this.raw.free(),this.raw=void 0}forEachActiveRigidBodyHandle(A){this.raw.forEachActiveRigidBodyHandle(A)}}(function(g){g[g.Vertex=0]="Vertex",g[g.Edge=1]="Edge",g[g.Face=2]="Face",g[g.Unknown=3]="Unknown"})(Do||(Do={}));class we{constructor(A,I,C,B){this.featureType=Do.Unknown,this.featureId=void 0,this.timeOfImpact=A,this.normal=I,B!==void 0&&(this.featureId=B),C!==void 0&&(this.featureType=C)}static fromRaw(A){if(!A)return null;const I=new we(A.time_of_impact(),m.fromRaw(A.normal()),A.featureType(),A.featureId());return A.free(),I}}class bt{constructor(A,I,C,B,Q){this.featureType=Do.Unknown,this.featureId=void 0,this.collider=A,this.timeOfImpact=I,this.normal=C,Q!==void 0&&(this.featureId=Q),B!==void 0&&(this.featureType=B)}static fromRaw(A,I){if(!I)return null;const C=new bt(A.get(I.colliderHandle()),I.time_of_impact(),m.fromRaw(I.normal()),I.featureType(),I.featureId());return I.free(),C}}class jD{constructor(A,I){this.collider=A,this.timeOfImpact=I}static fromRaw(A,I){if(!I)return null;const C=new jD(A.get(I.colliderHandle()),I.timeOfImpact());return I.free(),C}}class le{constructor(A,I){this.point=A,this.isInside=I}static fromRaw(A){if(!A)return null;const I=new le(m.fromRaw(A.point()),A.isInside());return A.free(),I}}class Ot{constructor(A,I,C,B,Q){this.featureType=Do.Unknown,this.featureId=void 0,this.collider=A,this.point=I,this.isInside=C,Q!==void 0&&(this.featureId=Q),B!==void 0&&(this.featureType=B)}static fromRaw(A,I){if(!I)return null;const C=new Ot(A.get(I.colliderHandle()),m.fromRaw(I.point()),I.isInside(),I.featureType(),I.featureId());return I.free(),C}}class uo{constructor(A,I,C,B,Q){this.time_of_impact=A,this.witness1=I,this.witness2=C,this.normal1=B,this.normal2=Q}static fromRaw(A,I){if(!I)return null;const C=new uo(I.time_of_impact(),m.fromRaw(I.witness1()),m.fromRaw(I.witness2()),m.fromRaw(I.normal1()),m.fromRaw(I.normal2()));return I.free(),C}}class Ge extends uo{constructor(A,I,C,B,Q,E){super(I,C,B,Q,E),this.collider=A}static fromRaw(A,I){if(!I)return null;const C=new Ge(A.get(I.colliderHandle()),I.time_of_impact(),m.fromRaw(I.witness1()),m.fromRaw(I.witness2()),m.fromRaw(I.normal1()),m.fromRaw(I.normal2()));return I.free(),C}}class Dd{constructor(A){this.raw=A||new VB}free(){this.raw&&this.raw.free(),this.raw=void 0}castRay(A,I,C,B,Q,E,i,o,t,e,s){let a=m.intoRaw(B.origin),D=m.intoRaw(B.dir),n=jD.fromRaw(C,this.raw.castRay(A.raw,I.raw,C.raw,a,D,Q,E,i,o,t,e,s));return a.free(),D.free(),n}castRayAndGetNormal(A,I,C,B,Q,E,i,o,t,e,s){let a=m.intoRaw(B.origin),D=m.intoRaw(B.dir),n=bt.fromRaw(C,this.raw.castRayAndGetNormal(A.raw,I.raw,C.raw,a,D,Q,E,i,o,t,e,s));return a.free(),D.free(),n}intersectionsWithRay(A,I,C,B,Q,E,i,o,t,e,s,a){let D=m.intoRaw(B.origin),n=m.intoRaw(B.dir);this.raw.intersectionsWithRay(A.raw,I.raw,C.raw,D,n,Q,E,c=>i(bt.fromRaw(C,c)),o,t,e,s,a),D.free(),n.free()}intersectionWithShape(A,I,C,B,Q,E,i,o,t,e,s){let a=m.intoRaw(B),D=tI.intoRaw(Q),n=E.intoRaw(),c=this.raw.intersectionWithShape(A.raw,I.raw,C.raw,a,D,n,i,o,t,e,s);return a.free(),D.free(),n.free(),c}projectPoint(A,I,C,B,Q,E,i,o,t,e){let s=m.intoRaw(B),a=Ot.fromRaw(C,this.raw.projectPoint(A.raw,I.raw,C.raw,s,Q,E,i,o,t,e));return s.free(),a}projectPointAndGetFeature(A,I,C,B,Q,E,i,o,t){let e=m.intoRaw(B),s=Ot.fromRaw(C,this.raw.projectPointAndGetFeature(A.raw,I.raw,C.raw,e,Q,E,i,o,t));return e.free(),s}intersectionsWithPoint(A,I,C,B,Q,E,i,o,t,e){let s=m.intoRaw(B);this.raw.intersectionsWithPoint(A.raw,I.raw,C.raw,s,Q,E,i,o,t,e),s.free()}castShape(A,I,C,B,Q,E,i,o,t,e,s,a,D,n,c){let S=m.intoRaw(B),r=tI.intoRaw(Q),l=m.intoRaw(E),y=i.intoRaw(),w=Ge.fromRaw(C,this.raw.castShape(A.raw,I.raw,C.raw,S,r,l,y,o,t,e,s,a,D,n,c));return S.free(),r.free(),l.free(),y.free(),w}intersectionsWithShape(A,I,C,B,Q,E,i,o,t,e,s,a){let D=m.intoRaw(B),n=tI.intoRaw(Q),c=E.intoRaw();this.raw.intersectionsWithShape(A.raw,I.raw,C.raw,D,n,c,i,o,t,e,s,a),D.free(),n.free(),c.free()}collidersWithAabbIntersectingAabb(A,I,C,B,Q,E){let i=m.intoRaw(B),o=m.intoRaw(Q);this.raw.collidersWithAabbIntersectingAabb(A.raw,I.raw,C.raw,i,o,E),i.free(),o.free()}}class nd{constructor(A){this.raw=A||new kg,this.tempManifold=new rd(null)}free(){this.raw&&this.raw.free(),this.raw=void 0}contactPairsWith(A,I){this.raw.contact_pairs_with(A,I)}intersectionPairsWith(A,I){this.raw.intersection_pairs_with(A,I)}contactPair(A,I,C){const B=this.raw.contact_pair(A,I);if(B){const Q=B.collider1()!=A;let E;for(E=0;E<B.numContactManifolds();++E)this.tempManifold.raw=B.contactManifold(E),this.tempManifold.raw&&C(this.tempManifold,Q),this.tempManifold.free();B.free()}}intersectionPair(A,I){return this.raw.intersection_pair(A,I)}}class rd{constructor(A){this.raw=A}free(){this.raw&&this.raw.free(),this.raw=void 0}normal(){return m.fromRaw(this.raw.normal())}localNormal1(){return m.fromRaw(this.raw.local_n1())}localNormal2(){return m.fromRaw(this.raw.local_n2())}subshape1(){return this.raw.subshape1()}subshape2(){return this.raw.subshape2()}numContacts(){return this.raw.num_contacts()}localContactPoint1(A){return m.fromRaw(this.raw.contact_local_p1(A))}localContactPoint2(A){return m.fromRaw(this.raw.contact_local_p2(A))}contactDist(A){return this.raw.contact_dist(A)}contactFid1(A){return this.raw.contact_fid1(A)}contactFid2(A){return this.raw.contact_fid2(A)}contactImpulse(A){return this.raw.contact_impulse(A)}contactTangentImpulseX(A){return this.raw.contact_tangent_impulse_x(A)}contactTangentImpulseY(A){return this.raw.contact_tangent_impulse_y(A)}numSolverContacts(){return this.raw.num_solver_contacts()}solverContactPoint(A){return m.fromRaw(this.raw.solver_contact_point(A))}solverContactDist(A){return this.raw.solver_contact_dist(A)}solverContactFriction(A){return this.raw.solver_contact_friction(A)}solverContactRestitution(A){return this.raw.solver_contact_restitution(A)}solverContactTangentVelocity(A){return m.fromRaw(this.raw.solver_contact_tangent_velocity(A))}}class no{constructor(A,I,C,B,Q){this.distance=A,this.point1=I,this.point2=C,this.normal1=B,this.normal2=Q}static fromRaw(A){if(!A)return null;const I=new no(A.distance(),m.fromRaw(A.point1()),m.fromRaw(A.point2()),m.fromRaw(A.normal1()),m.fromRaw(A.normal2()));return A.free(),I}}class dg{static fromRaw(A,I){const C=A.coShapeType(I);let B,Q,E,i,o,t,e;switch(C){case qg.Ball:return new Bw(A.coRadius(I));case qg.Cuboid:return B=A.coHalfExtents(I),new Qw(B.x,B.y,B.z);case qg.RoundCuboid:return B=A.coHalfExtents(I),Q=A.coRoundRadius(I),new Ew(B.x,B.y,B.z,Q);case qg.Capsule:return o=A.coHalfHeight(I),t=A.coRadius(I),new iw(o,t);case qg.Segment:return E=A.coVertices(I),new ow(m.new(E[0],E[1],E[2]),m.new(E[3],E[4],E[5]));case qg.Polyline:return E=A.coVertices(I),i=A.coIndices(I),new sw(E,i);case qg.Triangle:return E=A.coVertices(I),new tw(m.new(E[0],E[1],E[2]),m.new(E[3],E[4],E[5]),m.new(E[6],E[7],E[8]));case qg.RoundTriangle:return E=A.coVertices(I),Q=A.coRoundRadius(I),new ew(m.new(E[0],E[1],E[2]),m.new(E[3],E[4],E[5]),m.new(E[6],E[7],E[8]),Q);case qg.HalfSpace:return e=m.fromRaw(A.coHalfspaceNormal(I)),new hd(e);case qg.Voxels:const s=A.coVoxelData(I),a=A.coVoxelSize(I);return new aw(s,a);case qg.TriMesh:E=A.coVertices(I),i=A.coIndices(I);const D=A.coTriMeshFlags(I);return new Dw(E,i,D);case qg.HeightField:const n=A.coHeightfieldScale(I),c=A.coHeightfieldHeights(I),S=A.coHeightfieldNRows(I),r=A.coHeightfieldNCols(I),l=A.coHeightFieldFlags(I);return new nw(S,r,c,n,l);case qg.ConvexPolyhedron:return E=A.coVertices(I),i=A.coIndices(I),new va(E,i);case qg.RoundConvexPolyhedron:return E=A.coVertices(I),i=A.coIndices(I),Q=A.coRoundRadius(I),new _a(E,i,Q);case qg.Cylinder:return o=A.coHalfHeight(I),t=A.coRadius(I),new rw(o,t);case qg.RoundCylinder:return o=A.coHalfHeight(I),t=A.coRadius(I),Q=A.coRoundRadius(I),new hw(o,t,Q);case qg.Cone:return o=A.coHalfHeight(I),t=A.coRadius(I),new Sw(o,t);case qg.RoundCone:return o=A.coHalfHeight(I),t=A.coRadius(I),Q=A.coRoundRadius(I),new cw(o,t,Q);default:throw new Error("unknown shape type: "+C)}}castShape(A,I,C,B,Q,E,i,o,t,e){let s=m.intoRaw(A),a=tI.intoRaw(I),D=m.intoRaw(C),n=m.intoRaw(Q),c=tI.intoRaw(E),S=m.intoRaw(i),r=this.intoRaw(),l=B.intoRaw(),y=uo.fromRaw(null,r.castShape(s,a,D,l,n,c,S,o,t,e));return s.free(),a.free(),D.free(),n.free(),c.free(),S.free(),r.free(),l.free(),y}intersectsShape(A,I,C,B,Q){let E=m.intoRaw(A),i=tI.intoRaw(I),o=m.intoRaw(B),t=tI.intoRaw(Q),e=this.intoRaw(),s=C.intoRaw(),a=e.intersectsShape(E,i,s,o,t);return E.free(),i.free(),o.free(),t.free(),e.free(),s.free(),a}contactShape(A,I,C,B,Q,E){let i=m.intoRaw(A),o=tI.intoRaw(I),t=m.intoRaw(B),e=tI.intoRaw(Q),s=this.intoRaw(),a=C.intoRaw(),D=no.fromRaw(s.contactShape(i,o,a,t,e,E));return i.free(),o.free(),t.free(),e.free(),s.free(),a.free(),D}containsPoint(A,I,C){let B=m.intoRaw(A),Q=tI.intoRaw(I),E=m.intoRaw(C),i=this.intoRaw(),o=i.containsPoint(B,Q,E);return B.free(),Q.free(),E.free(),i.free(),o}projectPoint(A,I,C,B){let Q=m.intoRaw(A),E=tI.intoRaw(I),i=m.intoRaw(C),o=this.intoRaw(),t=le.fromRaw(o.projectPoint(Q,E,i,B));return Q.free(),E.free(),i.free(),o.free(),t}intersectsRay(A,I,C,B){let Q=m.intoRaw(I),E=tI.intoRaw(C),i=m.intoRaw(A.origin),o=m.intoRaw(A.dir),t=this.intoRaw(),e=t.intersectsRay(Q,E,i,o,B);return Q.free(),E.free(),i.free(),o.free(),t.free(),e}castRay(A,I,C,B,Q){let E=m.intoRaw(I),i=tI.intoRaw(C),o=m.intoRaw(A.origin),t=m.intoRaw(A.dir),e=this.intoRaw(),s=e.castRay(E,i,o,t,B,Q);return E.free(),i.free(),o.free(),t.free(),e.free(),s}castRayAndGetNormal(A,I,C,B,Q){let E=m.intoRaw(I),i=tI.intoRaw(C),o=m.intoRaw(A.origin),t=m.intoRaw(A.dir),e=this.intoRaw(),s=we.fromRaw(e.castRayAndGetNormal(E,i,o,t,B,Q));return E.free(),i.free(),o.free(),t.free(),e.free(),s}}(function(g){g[g.Ball=0]="Ball",g[g.Cuboid=1]="Cuboid",g[g.Capsule=2]="Capsule",g[g.Segment=3]="Segment",g[g.Polyline=4]="Polyline",g[g.Triangle=5]="Triangle",g[g.TriMesh=6]="TriMesh",g[g.HeightField=7]="HeightField",g[g.ConvexPolyhedron=9]="ConvexPolyhedron",g[g.Cylinder=10]="Cylinder",g[g.Cone=11]="Cone",g[g.RoundCuboid=12]="RoundCuboid",g[g.RoundTriangle=13]="RoundTriangle",g[g.RoundCylinder=14]="RoundCylinder",g[g.RoundCone=15]="RoundCone",g[g.RoundConvexPolyhedron=16]="RoundConvexPolyhedron",g[g.HalfSpace=17]="HalfSpace",g[g.Voxels=18]="Voxels"})(Ng||(Ng={})),function(g){g[g.FIX_INTERNAL_EDGES=1]="FIX_INTERNAL_EDGES"}(vh||(vh={})),function(g){g[g.DELETE_BAD_TOPOLOGY_TRIANGLES=4]="DELETE_BAD_TOPOLOGY_TRIANGLES",g[g.ORIENTED=8]="ORIENTED",g[g.MERGE_DUPLICATE_VERTICES=16]="MERGE_DUPLICATE_VERTICES",g[g.DELETE_DEGENERATE_TRIANGLES=32]="DELETE_DEGENERATE_TRIANGLES",g[g.DELETE_DUPLICATE_TRIANGLES=64]="DELETE_DUPLICATE_TRIANGLES",g[g.FIX_INTERNAL_EDGES=144]="FIX_INTERNAL_EDGES"}(_h||(_h={}));class Bw extends dg{constructor(A){super(),this.type=Ng.Ball,this.radius=A}intoRaw(){return fA.ball(this.radius)}}class hd extends dg{constructor(A){super(),this.type=Ng.HalfSpace,this.normal=A}intoRaw(){let A=m.intoRaw(this.normal),I=fA.halfspace(A);return A.free(),I}}class Qw extends dg{constructor(A,I,C){super(),this.type=Ng.Cuboid,this.halfExtents=m.new(A,I,C)}intoRaw(){return fA.cuboid(this.halfExtents.x,this.halfExtents.y,this.halfExtents.z)}}class Ew extends dg{constructor(A,I,C,B){super(),this.type=Ng.RoundCuboid,this.halfExtents=m.new(A,I,C),this.borderRadius=B}intoRaw(){return fA.roundCuboid(this.halfExtents.x,this.halfExtents.y,this.halfExtents.z,this.borderRadius)}}class iw extends dg{constructor(A,I){super(),this.type=Ng.Capsule,this.halfHeight=A,this.radius=I}intoRaw(){return fA.capsule(this.halfHeight,this.radius)}}class ow extends dg{constructor(A,I){super(),this.type=Ng.Segment,this.a=A,this.b=I}intoRaw(){let A=m.intoRaw(this.a),I=m.intoRaw(this.b),C=fA.segment(A,I);return A.free(),I.free(),C}}class tw extends dg{constructor(A,I,C){super(),this.type=Ng.Triangle,this.a=A,this.b=I,this.c=C}intoRaw(){let A=m.intoRaw(this.a),I=m.intoRaw(this.b),C=m.intoRaw(this.c),B=fA.triangle(A,I,C);return A.free(),I.free(),C.free(),B}}class ew extends dg{constructor(A,I,C,B){super(),this.type=Ng.RoundTriangle,this.a=A,this.b=I,this.c=C,this.borderRadius=B}intoRaw(){let A=m.intoRaw(this.a),I=m.intoRaw(this.b),C=m.intoRaw(this.c),B=fA.roundTriangle(A,I,C,this.borderRadius);return A.free(),I.free(),C.free(),B}}class sw extends dg{constructor(A,I){super(),this.type=Ng.Polyline,this.vertices=A,this.indices=I??new Uint32Array(0)}intoRaw(){return fA.polyline(this.vertices,this.indices)}}class aw extends dg{constructor(A,I){super(),this.type=Ng.Voxels,this.data=A,this.voxelSize=I}intoRaw(){let A,I=m.intoRaw(this.voxelSize);return A=this.data instanceof Int32Array?fA.voxels(I,this.data):fA.voxelsFromPoints(I,this.data),I.free(),A}}class Dw extends dg{constructor(A,I,C){super(),this.type=Ng.TriMesh,this.vertices=A,this.indices=I,this.flags=C}intoRaw(){return fA.trimesh(this.vertices,this.indices,this.flags)}}class va extends dg{constructor(A,I){super(),this.type=Ng.ConvexPolyhedron,this.vertices=A,this.indices=I}intoRaw(){return this.indices?fA.convexMesh(this.vertices,this.indices):fA.convexHull(this.vertices)}}class _a extends dg{constructor(A,I,C){super(),this.type=Ng.RoundConvexPolyhedron,this.vertices=A,this.indices=I,this.borderRadius=C}intoRaw(){return this.indices?fA.roundConvexMesh(this.vertices,this.indices,this.borderRadius):fA.roundConvexHull(this.vertices,this.borderRadius)}}class nw extends dg{constructor(A,I,C,B,Q){super(),this.type=Ng.HeightField,this.nrows=A,this.ncols=I,this.heights=C,this.scale=B,this.flags=Q}intoRaw(){let A=m.intoRaw(this.scale),I=fA.heightfield(this.nrows,this.ncols,this.heights,A,this.flags);return A.free(),I}}class rw extends dg{constructor(A,I){super(),this.type=Ng.Cylinder,this.halfHeight=A,this.radius=I}intoRaw(){return fA.cylinder(this.halfHeight,this.radius)}}class hw extends dg{constructor(A,I,C){super(),this.type=Ng.RoundCylinder,this.borderRadius=C,this.halfHeight=A,this.radius=I}intoRaw(){return fA.roundCylinder(this.halfHeight,this.radius,this.borderRadius)}}class Sw extends dg{constructor(A,I){super(),this.type=Ng.Cone,this.halfHeight=A,this.radius=I}intoRaw(){return fA.cone(this.halfHeight,this.radius)}}class cw extends dg{constructor(A,I,C){super(),this.type=Ng.RoundCone,this.halfHeight=A,this.radius=I,this.borderRadius=C}intoRaw(){return fA.roundCone(this.halfHeight,this.radius,this.borderRadius)}}class Sd{constructor(A){this.raw=A||new ZR}free(){this.raw&&this.raw.free(),this.raw=void 0}step(A,I,C,B,Q,E,i,o,t,e,s,a){let D=m.intoRaw(A);s?this.raw.stepWithEvents(D,I.raw,C.raw,B.raw,Q.raw,E.raw,i.raw,o.raw,t.raw,e.raw,s.raw,a,a?a.filterContactPair:null,a?a.filterIntersectionPair:null):this.raw.step(D,I.raw,C.raw,B.raw,Q.raw,E.raw,i.raw,o.raw,t.raw,e.raw),D.free()}}class jh{constructor(A){this.raw=A||new PR}free(){this.raw&&this.raw.free(),this.raw=void 0}serializeAll(A,I,C,B,Q,E,i,o,t){let e=m.intoRaw(A);const s=this.raw.serializeAll(e,I.raw,C.raw,B.raw,Q.raw,E.raw,i.raw,o.raw,t.raw);return e.free(),s}deserializeAll(A){return ye.fromRaw(this.raw.deserializeAll(A))}}class cd{constructor(A,I){this.vertices=A,this.colors=I}}class wd{constructor(A){this.raw=A||new OR}free(){this.raw&&this.raw.free(),this.raw=void 0,this.vertices=void 0,this.colors=void 0}render(A,I,C,B,Q,E,i){this.raw.render(A.raw,I.raw,C.raw,B.raw,Q.raw,E,I.castClosure(i)),this.vertices=this.raw.vertices(),this.colors=this.raw.colors()}}class ld{}class Gd{constructor(A,I,C,B,Q,E){this.params=I,this.bodies=Q,this.colliders=E,this.broadPhase=C,this.narrowPhase=B,this.raw=new _R(A),this.rawCharacterCollision=new $c,this._applyImpulsesToDynamicBodies=!1,this._characterMass=null}free(){this.raw&&(this.raw.free(),this.rawCharacterCollision.free()),this.raw=void 0,this.rawCharacterCollision=void 0}up(){return this.raw.up()}setUp(A){let I=m.intoRaw(A);return this.raw.setUp(I)}applyImpulsesToDynamicBodies(){return this._applyImpulsesToDynamicBodies}setApplyImpulsesToDynamicBodies(A){this._applyImpulsesToDynamicBodies=A}characterMass(){return this._characterMass}setCharacterMass(A){this._characterMass=A}offset(){return this.raw.offset()}setOffset(A){this.raw.setOffset(A)}normalNudgeFactor(){return this.raw.normalNudgeFactor()}setNormalNudgeFactor(A){this.raw.setNormalNudgeFactor(A)}slideEnabled(){return this.raw.slideEnabled()}setSlideEnabled(A){this.raw.setSlideEnabled(A)}autostepMaxHeight(){return this.raw.autostepMaxHeight()}autostepMinWidth(){return this.raw.autostepMinWidth()}autostepIncludesDynamicBodies(){return this.raw.autostepIncludesDynamicBodies()}autostepEnabled(){return this.raw.autostepEnabled()}enableAutostep(A,I,C){this.raw.enableAutostep(A,I,C)}disableAutostep(){return this.raw.disableAutostep()}maxSlopeClimbAngle(){return this.raw.maxSlopeClimbAngle()}setMaxSlopeClimbAngle(A){this.raw.setMaxSlopeClimbAngle(A)}minSlopeSlideAngle(){return this.raw.minSlopeSlideAngle()}setMinSlopeSlideAngle(A){this.raw.setMinSlopeSlideAngle(A)}snapToGroundDistance(){return this.raw.snapToGroundDistance()}enableSnapToGround(A){this.raw.enableSnapToGround(A)}disableSnapToGround(){this.raw.disableSnapToGround()}snapToGroundEnabled(){return this.raw.snapToGroundEnabled()}computeColliderMovement(A,I,C,B,Q){let E=m.intoRaw(I);this.raw.computeColliderMovement(this.params.dt,this.broadPhase.raw,this.narrowPhase.raw,this.bodies.raw,this.colliders.raw,A.handle,E,this._applyImpulsesToDynamicBodies,this._characterMass,C,B,this.colliders.castClosure(Q)),E.free()}computedMovement(){return m.fromRaw(this.raw.computedMovement())}computedGrounded(){return this.raw.computedGrounded()}numComputedCollisions(){return this.raw.numComputedCollisions()}computedCollision(A,I){if(this.raw.computedCollision(A,this.rawCharacterCollision)){let C=this.rawCharacterCollision;return(I=I??new ld).translationDeltaApplied=m.fromRaw(C.translationDeltaApplied()),I.translationDeltaRemaining=m.fromRaw(C.translationDeltaRemaining()),I.toi=C.toi(),I.witness1=m.fromRaw(C.worldWitness1()),I.witness2=m.fromRaw(C.worldWitness2()),I.normal1=m.fromRaw(C.worldNormal1()),I.normal2=m.fromRaw(C.worldNormal2()),I.collider=this.colliders.get(C.handle()),I}return null}}(function(g){g[g.None=0]="None",g[g.LinX=1]="LinX",g[g.LinY=2]="LinY",g[g.LinZ=4]="LinZ",g[g.AngX=8]="AngX",g[g.AngY=16]="AngY",g[g.AngZ=32]="AngZ",g[g.AllLin=7]="AllLin",g[g.AllAng=56]="AllAng",g[g.All=63]="All"})(Zh||(Zh={}));class yd{constructor(A,I,C,B,Q,E){this.params=A,this.bodies=I,this.raw=new WR(C,B,Q,E)}free(){this.raw&&this.raw.free(),this.raw=void 0}setKp(A,I){this.raw.set_kp(A,I)}setKi(A,I){this.raw.set_kp(A,I)}setKd(A,I){this.raw.set_kp(A,I)}setAxes(A){this.raw.set_axes_mask(A)}resetIntegrals(){this.raw.reset_integrals()}applyLinearCorrection(A,I,C){let B=m.intoRaw(I),Q=m.intoRaw(C);this.raw.apply_linear_correction(this.params.dt,this.bodies.raw,A.handle,B,Q),B.free(),Q.free()}applyAngularCorrection(A,I,C){let B=tI.intoRaw(I),Q=m.intoRaw(C);this.raw.apply_angular_correction(this.params.dt,this.bodies.raw,A.handle,B,Q),B.free(),Q.free()}linearCorrection(A,I,C){let B=m.intoRaw(I),Q=m.intoRaw(C),E=this.raw.linear_correction(this.params.dt,this.bodies.raw,A.handle,B,Q);return B.free(),Q.free(),m.fromRaw(E)}angularCorrection(A,I,C){let B=tI.intoRaw(I),Q=m.intoRaw(C),E=this.raw.angular_correction(this.params.dt,this.bodies.raw,A.handle,B,Q);return B.free(),Q.free(),m.fromRaw(E)}}class kd{constructor(A,I,C,B,Q){this.raw=new vR(A.handle),this.broadPhase=I,this.narrowPhase=C,this.bodies=B,this.colliders=Q,this._chassis=A}free(){this.raw&&this.raw.free(),this.raw=void 0}updateVehicle(A,I,C,B){this.raw.update_vehicle(A,this.broadPhase.raw,this.narrowPhase.raw,this.bodies.raw,this.colliders.raw,I,C,this.colliders.castClosure(B))}currentVehicleSpeed(){return this.raw.current_vehicle_speed()}chassis(){return this._chassis}get indexUpAxis(){return this.raw.index_up_axis()}set indexUpAxis(A){this.raw.set_index_up_axis(A)}get indexForwardAxis(){return this.raw.index_forward_axis()}set setIndexForwardAxis(A){this.raw.set_index_forward_axis(A)}addWheel(A,I,C,B,Q){let E=m.intoRaw(A),i=m.intoRaw(I),o=m.intoRaw(C);this.raw.add_wheel(E,i,o,B,Q),E.free(),i.free(),o.free()}numWheels(){return this.raw.num_wheels()}wheelChassisConnectionPointCs(A){return m.fromRaw(this.raw.wheel_chassis_connection_point_cs(A))}setWheelChassisConnectionPointCs(A,I){let C=m.intoRaw(I);this.raw.set_wheel_chassis_connection_point_cs(A,C),C.free()}wheelSuspensionRestLength(A){return this.raw.wheel_suspension_rest_length(A)}setWheelSuspensionRestLength(A,I){this.raw.set_wheel_suspension_rest_length(A,I)}wheelMaxSuspensionTravel(A){return this.raw.wheel_max_suspension_travel(A)}setWheelMaxSuspensionTravel(A,I){this.raw.set_wheel_max_suspension_travel(A,I)}wheelRadius(A){return this.raw.wheel_radius(A)}setWheelRadius(A,I){this.raw.set_wheel_radius(A,I)}wheelSuspensionStiffness(A){return this.raw.wheel_suspension_stiffness(A)}setWheelSuspensionStiffness(A,I){this.raw.set_wheel_suspension_stiffness(A,I)}wheelSuspensionCompression(A){return this.raw.wheel_suspension_compression(A)}setWheelSuspensionCompression(A,I){this.raw.set_wheel_suspension_compression(A,I)}wheelSuspensionRelaxation(A){return this.raw.wheel_suspension_relaxation(A)}setWheelSuspensionRelaxation(A,I){this.raw.set_wheel_suspension_relaxation(A,I)}wheelMaxSuspensionForce(A){return this.raw.wheel_max_suspension_force(A)}setWheelMaxSuspensionForce(A,I){this.raw.set_wheel_max_suspension_force(A,I)}wheelBrake(A){return this.raw.wheel_brake(A)}setWheelBrake(A,I){this.raw.set_wheel_brake(A,I)}wheelSteering(A){return this.raw.wheel_steering(A)}setWheelSteering(A,I){this.raw.set_wheel_steering(A,I)}wheelEngineForce(A){return this.raw.wheel_engine_force(A)}setWheelEngineForce(A,I){this.raw.set_wheel_engine_force(A,I)}wheelDirectionCs(A){return m.fromRaw(this.raw.wheel_direction_cs(A))}setWheelDirectionCs(A,I){let C=m.intoRaw(I);this.raw.set_wheel_direction_cs(A,C),C.free()}wheelAxleCs(A){return m.fromRaw(this.raw.wheel_axle_cs(A))}setWheelAxleCs(A,I){let C=m.intoRaw(I);this.raw.set_wheel_axle_cs(A,C),C.free()}wheelFrictionSlip(A){return this.raw.wheel_friction_slip(A)}setWheelFrictionSlip(A,I){this.raw.set_wheel_friction_slip(A,I)}wheelSideFrictionStiffness(A){return this.raw.wheel_side_friction_stiffness(A)}setWheelSideFrictionStiffness(A,I){this.raw.set_wheel_side_friction_stiffness(A,I)}wheelRotation(A){return this.raw.wheel_rotation(A)}wheelForwardImpulse(A){return this.raw.wheel_forward_impulse(A)}wheelSideImpulse(A){return this.raw.wheel_side_impulse(A)}wheelSuspensionForce(A){return this.raw.wheel_suspension_force(A)}wheelContactNormal(A){return m.fromRaw(this.raw.wheel_contact_normal_ws(A))}wheelContactPoint(A){return m.fromRaw(this.raw.wheel_contact_point_ws(A))}wheelSuspensionLength(A){return this.raw.wheel_suspension_length(A)}wheelHardPoint(A){return m.fromRaw(this.raw.wheel_hard_point_ws(A))}wheelIsInContact(A){return this.raw.wheel_is_in_contact(A)}wheelGroundObject(A){return this.colliders.get(this.raw.wheel_ground_object(A))}}class ye{constructor(A,I,C,B,Q,E,i,o,t,e,s,a,D){this.gravity=A,this.integrationParameters=new VR(I),this.islands=new ad(C),this.broadPhase=new Dd(B),this.narrowPhase=new nd(Q),this.bodies=new XR(E),this.colliders=new Kd(i),this.impulseJoints=new Qd(o),this.multibodyJoints=new ed(t),this.ccdSolver=new sd(e),this.physicsPipeline=new Sd(s),this.serializationPipeline=new jh(a),this.debugRenderPipeline=new wd(D),this.characterControllers=new Set,this.pidControllers=new Set,this.vehicleControllers=new Set,this.impulseJoints.finalizeDeserialization(this.bodies),this.bodies.finalizeDeserialization(this.colliders),this.colliders.finalizeDeserialization(this.bodies)}free(){this.integrationParameters.free(),this.islands.free(),this.broadPhase.free(),this.narrowPhase.free(),this.bodies.free(),this.colliders.free(),this.impulseJoints.free(),this.multibodyJoints.free(),this.ccdSolver.free(),this.physicsPipeline.free(),this.serializationPipeline.free(),this.debugRenderPipeline.free(),this.characterControllers.forEach(A=>A.free()),this.pidControllers.forEach(A=>A.free()),this.vehicleControllers.forEach(A=>A.free()),this.integrationParameters=void 0,this.islands=void 0,this.broadPhase=void 0,this.narrowPhase=void 0,this.bodies=void 0,this.colliders=void 0,this.ccdSolver=void 0,this.impulseJoints=void 0,this.multibodyJoints=void 0,this.physicsPipeline=void 0,this.serializationPipeline=void 0,this.debugRenderPipeline=void 0,this.characterControllers=void 0,this.pidControllers=void 0,this.vehicleControllers=void 0}static fromRaw(A){return A?new ye(m.fromRaw(A.takeGravity()),A.takeIntegrationParameters(),A.takeIslandManager(),A.takeBroadPhase(),A.takeNarrowPhase(),A.takeBodies(),A.takeColliders(),A.takeImpulseJoints(),A.takeMultibodyJoints()):null}takeSnapshot(){return this.serializationPipeline.serializeAll(this.gravity,this.integrationParameters,this.islands,this.broadPhase,this.narrowPhase,this.bodies,this.colliders,this.impulseJoints,this.multibodyJoints)}static restoreSnapshot(A){return new jh().deserializeAll(A)}debugRender(A,I){return this.debugRenderPipeline.render(this.bodies,this.colliders,this.impulseJoints,this.multibodyJoints,this.narrowPhase,A,I),new cd(this.debugRenderPipeline.vertices,this.debugRenderPipeline.colors)}step(A,I){this.physicsPipeline.step(this.gravity,this.integrationParameters,this.islands,this.broadPhase,this.narrowPhase,this.bodies,this.colliders,this.impulseJoints,this.multibodyJoints,this.ccdSolver,A,I)}propagateModifiedBodyPositionsToColliders(){this.bodies.raw.propagateModifiedBodyPositionsToColliders(this.colliders.raw)}get timestep(){return this.integrationParameters.dt}set timestep(A){this.integrationParameters.dt=A}get lengthUnit(){return this.integrationParameters.lengthUnit}set lengthUnit(A){this.integrationParameters.lengthUnit=A}get numSolverIterations(){return this.integrationParameters.numSolverIterations}set numSolverIterations(A){this.integrationParameters.numSolverIterations=A}get numAdditionalFrictionIterations(){return this.integrationParameters.numAdditionalFrictionIterations}set numAdditionalFrictionIterations(A){this.integrationParameters.numAdditionalFrictionIterations=A}get numInternalPgsIterations(){return this.integrationParameters.numInternalPgsIterations}set numInternalPgsIterations(A){this.integrationParameters.numInternalPgsIterations=A}get maxCcdSubsteps(){return this.integrationParameters.maxCcdSubsteps}set maxCcdSubsteps(A){this.integrationParameters.maxCcdSubsteps=A}switchToStandardPgsSolver(){this.integrationParameters.switchToStandardPgsSolver()}switchToSmallStepsPgsSolver(){this.integrationParameters.switchToSmallStepsPgsSolver()}switchToSmallStepsPgsSolverWithoutWarmstart(){this.integrationParameters.switchToSmallStepsPgsSolverWithoutWarmstart()}createRigidBody(A){return this.bodies.createRigidBody(this.colliders,A)}createCharacterController(A){let I=new Gd(A,this.integrationParameters,this.broadPhase,this.narrowPhase,this.bodies,this.colliders);return this.characterControllers.add(I),I}removeCharacterController(A){this.characterControllers.delete(A),A.free()}createPidController(A,I,C,B){let Q=new yd(this.integrationParameters,this.bodies,A,I,C,B);return this.pidControllers.add(Q),Q}removePidController(A){this.pidControllers.delete(A),A.free()}createVehicleController(A){let I=new kd(A,this.broadPhase,this.narrowPhase,this.bodies,this.colliders);return this.vehicleControllers.add(I),I}removeVehicleController(A){this.vehicleControllers.delete(A),A.free()}createCollider(A,I){let C=I?I.handle:void 0;return this.colliders.createCollider(this.bodies,A,C)}createImpulseJoint(A,I,C,B){return this.impulseJoints.createJoint(this.bodies,A,I.handle,C.handle,B)}createMultibodyJoint(A,I,C,B){return this.multibodyJoints.createJoint(A,I.handle,C.handle,B)}getRigidBody(A){return this.bodies.get(A)}getCollider(A){return this.colliders.get(A)}getImpulseJoint(A){return this.impulseJoints.get(A)}getMultibodyJoint(A){return this.multibodyJoints.get(A)}removeRigidBody(A){this.bodies&&this.bodies.remove(A.handle,this.islands,this.colliders,this.impulseJoints,this.multibodyJoints)}removeCollider(A,I){this.colliders&&this.colliders.remove(A.handle,this.islands,this.bodies,I)}removeImpulseJoint(A,I){this.impulseJoints&&this.impulseJoints.remove(A.handle,I)}removeMultibodyJoint(A,I){this.impulseJoints&&this.multibodyJoints.remove(A.handle,I)}forEachCollider(A){this.colliders.forEach(A)}forEachRigidBody(A){this.bodies.forEach(A)}forEachActiveRigidBody(A){this.bodies.forEachActiveRigidBody(this.islands,A)}castRay(A,I,C,B,Q,E,i,o){return this.broadPhase.castRay(this.narrowPhase,this.bodies,this.colliders,A,I,C,B,Q,E?E.handle:null,i?i.handle:null,this.colliders.castClosure(o))}castRayAndGetNormal(A,I,C,B,Q,E,i,o){return this.broadPhase.castRayAndGetNormal(this.narrowPhase,this.bodies,this.colliders,A,I,C,B,Q,E?E.handle:null,i?i.handle:null,this.colliders.castClosure(o))}intersectionsWithRay(A,I,C,B,Q,E,i,o,t){this.broadPhase.intersectionsWithRay(this.narrowPhase,this.bodies,this.colliders,A,I,C,B,Q,E,i?i.handle:null,o?o.handle:null,this.colliders.castClosure(t))}intersectionWithShape(A,I,C,B,Q,E,i,o){let t=this.broadPhase.intersectionWithShape(this.narrowPhase,this.bodies,this.colliders,A,I,C,B,Q,E?E.handle:null,i?i.handle:null,this.colliders.castClosure(o));return t!=null?this.colliders.get(t):null}projectPoint(A,I,C,B,Q,E,i){return this.broadPhase.projectPoint(this.narrowPhase,this.bodies,this.colliders,A,I,C,B,Q?Q.handle:null,E?E.handle:null,this.colliders.castClosure(i))}projectPointAndGetFeature(A,I,C,B,Q,E){return this.broadPhase.projectPointAndGetFeature(this.narrowPhase,this.bodies,this.colliders,A,I,C,B?B.handle:null,Q?Q.handle:null,this.colliders.castClosure(E))}intersectionsWithPoint(A,I,C,B,Q,E,i){this.broadPhase.intersectionsWithPoint(this.narrowPhase,this.bodies,this.colliders,A,this.colliders.castClosure(I),C,B,Q?Q.handle:null,E?E.handle:null,this.colliders.castClosure(i))}castShape(A,I,C,B,Q,E,i,o,t,e,s,a){return this.broadPhase.castShape(this.narrowPhase,this.bodies,this.colliders,A,I,C,B,Q,E,i,o,t,e?e.handle:null,s?s.handle:null,this.colliders.castClosure(a))}intersectionsWithShape(A,I,C,B,Q,E,i,o,t){this.broadPhase.intersectionsWithShape(this.narrowPhase,this.bodies,this.colliders,A,I,C,this.colliders.castClosure(B),Q,E,i?i.handle:null,o?o.handle:null,this.colliders.castClosure(t))}collidersWithAabbIntersectingAabb(A,I,C){this.broadPhase.collidersWithAabbIntersectingAabb(this.narrowPhase,this.bodies,this.colliders,A,I,this.colliders.castClosure(C))}contactPairsWith(A,I){this.narrowPhase.contactPairsWith(A.handle,this.colliders.castClosure(I))}intersectionPairsWith(A,I){this.narrowPhase.intersectionPairsWith(A.handle,this.colliders.castClosure(I))}contactPair(A,I,C){this.narrowPhase.contactPair(A.handle,I.handle,C)}intersectionPair(A,I){return this.narrowPhase.intersectionPair(A.handle,I.handle)}set profilerEnabled(A){this.physicsPipeline.raw.set_profiler_enabled(A)}get profilerEnabled(){return this.physicsPipeline.raw.is_profiler_enabled()}timingStep(){return this.physicsPipeline.raw.timing_step()}timingCollisionDetection(){return this.physicsPipeline.raw.timing_collision_detection()}timingBroadPhase(){return this.physicsPipeline.raw.timing_broad_phase()}timingNarrowPhase(){return this.physicsPipeline.raw.timing_narrow_phase()}timingSolver(){return this.physicsPipeline.raw.timing_solver()}timingVelocityAssembly(){return this.physicsPipeline.raw.timing_velocity_assembly()}timingVelocityResolution(){return this.physicsPipeline.raw.timing_velocity_resolution()}timingVelocityUpdate(){return this.physicsPipeline.raw.timing_velocity_update()}timingVelocityWriteback(){return this.physicsPipeline.raw.timing_velocity_writeback()}timingCcd(){return this.physicsPipeline.raw.timing_ccd()}timingCcdToiComputation(){return this.physicsPipeline.raw.timing_ccd_toi_computation()}timingCcdBroadPhase(){return this.physicsPipeline.raw.timing_ccd_broad_phase()}timingCcdNarrowPhase(){return this.physicsPipeline.raw.timing_ccd_narrow_phase()}timingCcdSolver(){return this.physicsPipeline.raw.timing_ccd_solver()}timingIslandConstruction(){return this.physicsPipeline.raw.timing_island_construction()}timingUserChanges(){return this.physicsPipeline.raw.timing_user_changes()}}(function(g){g[g.NONE=0]="NONE",g[g.COLLISION_EVENTS=1]="COLLISION_EVENTS",g[g.CONTACT_FORCE_EVENTS=2]="CONTACT_FORCE_EVENTS"})(ei||(ei={}));class Md{free(){this.raw&&this.raw.free(),this.raw=void 0}collider1(){return this.raw.collider1()}collider2(){return this.raw.collider2()}totalForce(){return m.fromRaw(this.raw.total_force())}totalForceMagnitude(){return this.raw.total_force_magnitude()}maxForceDirection(){return m.fromRaw(this.raw.max_force_direction())}maxForceMagnitude(){return this.raw.max_force_magnitude()}}class Ud{constructor(A,I){this.raw=I||new Aw(A)}free(){this.raw&&this.raw.free(),this.raw=void 0}drainCollisionEvents(A){this.raw.drainCollisionEvents(A)}drainContactForceEvents(A){let I=new Md;this.raw.drainContactForceEvents(C=>{I.raw=C,A(I),I.free()})}clear(){this.raw.clear()}}(function(g){g[g.NONE=0]="NONE",g[g.FILTER_CONTACT_PAIRS=1]="FILTER_CONTACT_PAIRS",g[g.FILTER_INTERSECTION_PAIRS=2]="FILTER_INTERSECTION_PAIRS"})(Oa||(Oa={})),function(g){g[g.EMPTY=0]="EMPTY",g[g.COMPUTE_IMPULSE=1]="COMPUTE_IMPULSE"}(Wh||(Wh={})),function(g){g[g.EXCLUDE_FIXED=1]="EXCLUDE_FIXED",g[g.EXCLUDE_KINEMATIC=2]="EXCLUDE_KINEMATIC",g[g.EXCLUDE_DYNAMIC=4]="EXCLUDE_DYNAMIC",g[g.EXCLUDE_SENSORS=8]="EXCLUDE_SENSORS",g[g.EXCLUDE_SOLIDS=16]="EXCLUDE_SOLIDS",g[g.ONLY_DYNAMIC=3]="ONLY_DYNAMIC",g[g.ONLY_KINEMATIC=5]="ONLY_KINEMATIC",g[g.ONLY_FIXED=6]="ONLY_FIXED"}(Tt||(Tt={})),function(g){g[g.DYNAMIC_DYNAMIC=1]="DYNAMIC_DYNAMIC",g[g.DYNAMIC_KINEMATIC=12]="DYNAMIC_KINEMATIC",g[g.DYNAMIC_FIXED=2]="DYNAMIC_FIXED",g[g.KINEMATIC_KINEMATIC=52224]="KINEMATIC_KINEMATIC",g[g.KINEMATIC_FIXED=8704]="KINEMATIC_FIXED",g[g.FIXED_FIXED=32]="FIXED_FIXED",g[g.DEFAULT=15]="DEFAULT",g[g.ALL=60943]="ALL"}(xt||(xt={}));class Xh{constructor(A,I,C,B){this.colliderSet=A,this.handle=I,this._parent=C,this._shape=B}finalizeDeserialization(A){this.handle!=null&&(this._parent=A.get(this.colliderSet.raw.coParent(this.handle)))}ensureShapeIsCached(){this._shape||(this._shape=dg.fromRaw(this.colliderSet.raw,this.handle))}get shape(){return this.ensureShapeIsCached(),this._shape}clearShapeCache(){this._shape=null}isValid(){return this.colliderSet.raw.contains(this.handle)}translation(){return m.fromRaw(this.colliderSet.raw.coTranslation(this.handle))}translationWrtParent(){return m.fromRaw(this.colliderSet.raw.coTranslationWrtParent(this.handle))}rotation(){return tI.fromRaw(this.colliderSet.raw.coRotation(this.handle))}rotationWrtParent(){return tI.fromRaw(this.colliderSet.raw.coRotationWrtParent(this.handle))}isSensor(){return this.colliderSet.raw.coIsSensor(this.handle)}setSensor(A){this.colliderSet.raw.coSetSensor(this.handle,A)}setShape(A){let I=A.intoRaw();this.colliderSet.raw.coSetShape(this.handle,I),I.free(),this._shape=A}setEnabled(A){this.colliderSet.raw.coSetEnabled(this.handle,A)}isEnabled(){return this.colliderSet.raw.coIsEnabled(this.handle)}setRestitution(A){this.colliderSet.raw.coSetRestitution(this.handle,A)}setFriction(A){this.colliderSet.raw.coSetFriction(this.handle,A)}frictionCombineRule(){return this.colliderSet.raw.coFrictionCombineRule(this.handle)}setFrictionCombineRule(A){this.colliderSet.raw.coSetFrictionCombineRule(this.handle,A)}restitutionCombineRule(){return this.colliderSet.raw.coRestitutionCombineRule(this.handle)}setRestitutionCombineRule(A){this.colliderSet.raw.coSetRestitutionCombineRule(this.handle,A)}setCollisionGroups(A){this.colliderSet.raw.coSetCollisionGroups(this.handle,A)}setSolverGroups(A){this.colliderSet.raw.coSetSolverGroups(this.handle,A)}contactSkin(){return this.colliderSet.raw.coContactSkin(this.handle)}setContactSkin(A){return this.colliderSet.raw.coSetContactSkin(this.handle,A)}activeHooks(){return this.colliderSet.raw.coActiveHooks(this.handle)}setActiveHooks(A){this.colliderSet.raw.coSetActiveHooks(this.handle,A)}activeEvents(){return this.colliderSet.raw.coActiveEvents(this.handle)}setActiveEvents(A){this.colliderSet.raw.coSetActiveEvents(this.handle,A)}activeCollisionTypes(){return this.colliderSet.raw.coActiveCollisionTypes(this.handle)}setContactForceEventThreshold(A){return this.colliderSet.raw.coSetContactForceEventThreshold(this.handle,A)}contactForceEventThreshold(){return this.colliderSet.raw.coContactForceEventThreshold(this.handle)}setActiveCollisionTypes(A){this.colliderSet.raw.coSetActiveCollisionTypes(this.handle,A)}setDensity(A){this.colliderSet.raw.coSetDensity(this.handle,A)}setMass(A){this.colliderSet.raw.coSetMass(this.handle,A)}setMassProperties(A,I,C,B){let Q=m.intoRaw(I),E=m.intoRaw(C),i=tI.intoRaw(B);this.colliderSet.raw.coSetMassProperties(this.handle,A,Q,E,i),Q.free(),E.free(),i.free()}setTranslation(A){this.colliderSet.raw.coSetTranslation(this.handle,A.x,A.y,A.z)}setTranslationWrtParent(A){this.colliderSet.raw.coSetTranslationWrtParent(this.handle,A.x,A.y,A.z)}setRotation(A){this.colliderSet.raw.coSetRotation(this.handle,A.x,A.y,A.z,A.w)}setRotationWrtParent(A){this.colliderSet.raw.coSetRotationWrtParent(this.handle,A.x,A.y,A.z,A.w)}shapeType(){return this.colliderSet.raw.coShapeType(this.handle)}halfExtents(){return m.fromRaw(this.colliderSet.raw.coHalfExtents(this.handle))}setHalfExtents(A){const I=m.intoRaw(A);this.colliderSet.raw.coSetHalfExtents(this.handle,I)}radius(){return this.colliderSet.raw.coRadius(this.handle)}setRadius(A){this.colliderSet.raw.coSetRadius(this.handle,A)}roundRadius(){return this.colliderSet.raw.coRoundRadius(this.handle)}setRoundRadius(A){this.colliderSet.raw.coSetRoundRadius(this.handle,A)}halfHeight(){return this.colliderSet.raw.coHalfHeight(this.handle)}setHalfHeight(A){this.colliderSet.raw.coSetHalfHeight(this.handle,A)}setVoxel(A,I,C,B){this.colliderSet.raw.coSetVoxel(this.handle,A,I,C,B),this._shape=null}propagateVoxelChange(A,I,C,B,Q,E,i){this.colliderSet.raw.coPropagateVoxelChange(this.handle,A.handle,I,C,B,Q,E,i),this._shape=null}combineVoxelStates(A,I,C,B){this.colliderSet.raw.coCombineVoxelStates(this.handle,A.handle,I,C,B),this._shape=null}vertices(){return this.colliderSet.raw.coVertices(this.handle)}indices(){return this.colliderSet.raw.coIndices(this.handle)}heightfieldHeights(){return this.colliderSet.raw.coHeightfieldHeights(this.handle)}heightfieldScale(){let A=this.colliderSet.raw.coHeightfieldScale(this.handle);return m.fromRaw(A)}heightfieldNRows(){return this.colliderSet.raw.coHeightfieldNRows(this.handle)}heightfieldNCols(){return this.colliderSet.raw.coHeightfieldNCols(this.handle)}parent(){return this._parent}friction(){return this.colliderSet.raw.coFriction(this.handle)}restitution(){return this.colliderSet.raw.coRestitution(this.handle)}density(){return this.colliderSet.raw.coDensity(this.handle)}mass(){return this.colliderSet.raw.coMass(this.handle)}volume(){return this.colliderSet.raw.coVolume(this.handle)}collisionGroups(){return this.colliderSet.raw.coCollisionGroups(this.handle)}solverGroups(){return this.colliderSet.raw.coSolverGroups(this.handle)}containsPoint(A){let I=m.intoRaw(A),C=this.colliderSet.raw.coContainsPoint(this.handle,I);return I.free(),C}projectPoint(A,I){let C=m.intoRaw(A),B=le.fromRaw(this.colliderSet.raw.coProjectPoint(this.handle,C,I));return C.free(),B}intersectsRay(A,I){let C=m.intoRaw(A.origin),B=m.intoRaw(A.dir),Q=this.colliderSet.raw.coIntersectsRay(this.handle,C,B,I);return C.free(),B.free(),Q}castShape(A,I,C,B,Q,E,i,o){let t=m.intoRaw(A),e=m.intoRaw(C),s=tI.intoRaw(B),a=m.intoRaw(Q),D=I.intoRaw(),n=uo.fromRaw(this.colliderSet,this.colliderSet.raw.coCastShape(this.handle,t,D,e,s,a,E,i,o));return t.free(),e.free(),s.free(),a.free(),D.free(),n}castCollider(A,I,C,B,Q,E){let i=m.intoRaw(A),o=m.intoRaw(C),t=Ge.fromRaw(this.colliderSet,this.colliderSet.raw.coCastCollider(this.handle,i,I.handle,o,B,Q,E));return i.free(),o.free(),t}intersectsShape(A,I,C){let B=m.intoRaw(I),Q=tI.intoRaw(C),E=A.intoRaw(),i=this.colliderSet.raw.coIntersectsShape(this.handle,E,B,Q);return B.free(),Q.free(),E.free(),i}contactShape(A,I,C,B){let Q=m.intoRaw(I),E=tI.intoRaw(C),i=A.intoRaw(),o=no.fromRaw(this.colliderSet.raw.coContactShape(this.handle,i,Q,E,B));return Q.free(),E.free(),i.free(),o}contactCollider(A,I){return no.fromRaw(this.colliderSet.raw.coContactCollider(this.handle,A.handle,I))}castRay(A,I,C){let B=m.intoRaw(A.origin),Q=m.intoRaw(A.dir),E=this.colliderSet.raw.coCastRay(this.handle,B,Q,I,C);return B.free(),Q.free(),E}castRayAndGetNormal(A,I,C){let B=m.intoRaw(A.origin),Q=m.intoRaw(A.dir),E=we.fromRaw(this.colliderSet.raw.coCastRayAndGetNormal(this.handle,B,Q,I,C));return B.free(),Q.free(),E}}(function(g){g[g.Density=0]="Density",g[g.Mass=1]="Mass",g[g.MassProps=2]="MassProps"})(xE||(xE={}));class XI{constructor(A){this.enabled=!0,this.shape=A,this.massPropsMode=xE.Density,this.density=1,this.friction=.5,this.restitution=0,this.rotation=tI.identity(),this.translation=m.zeros(),this.isSensor=!1,this.collisionGroups=4294967295,this.solverGroups=4294967295,this.frictionCombineRule=mt.Average,this.restitutionCombineRule=mt.Average,this.activeCollisionTypes=xt.DEFAULT,this.activeEvents=ei.NONE,this.activeHooks=Oa.NONE,this.mass=0,this.centerOfMass=m.zeros(),this.contactForceEventThreshold=0,this.contactSkin=0,this.principalAngularInertia=m.zeros(),this.angularInertiaLocalFrame=tI.identity()}static ball(A){const I=new Bw(A);return new XI(I)}static capsule(A,I){const C=new iw(A,I);return new XI(C)}static segment(A,I){const C=new ow(A,I);return new XI(C)}static triangle(A,I,C){const B=new tw(A,I,C);return new XI(B)}static roundTriangle(A,I,C,B){const Q=new ew(A,I,C,B);return new XI(Q)}static polyline(A,I){const C=new sw(A,I);return new XI(C)}static voxels(A,I){const C=new aw(A,I);return new XI(C)}static trimesh(A,I,C){const B=new Dw(A,I,C);return new XI(B)}static cuboid(A,I,C){const B=new Qw(A,I,C);return new XI(B)}static roundCuboid(A,I,C,B){const Q=new Ew(A,I,C,B);return new XI(Q)}static heightfield(A,I,C,B,Q){const E=new nw(A,I,C,B,Q);return new XI(E)}static cylinder(A,I){const C=new rw(A,I);return new XI(C)}static roundCylinder(A,I,C){const B=new hw(A,I,C);return new XI(B)}static cone(A,I){const C=new Sw(A,I);return new XI(C)}static roundCone(A,I,C){const B=new cw(A,I,C);return new XI(B)}static convexHull(A){const I=new va(A,null);return new XI(I)}static convexMesh(A,I){const C=new va(A,I);return new XI(C)}static roundConvexHull(A,I){const C=new _a(A,null,I);return new XI(C)}static roundConvexMesh(A,I,C){const B=new _a(A,I,C);return new XI(B)}setTranslation(A,I,C){if(typeof A!="number"||typeof I!="number"||typeof C!="number")throw TypeError("The translation components must be numbers.");return this.translation={x:A,y:I,z:C},this}setRotation(A){return tI.copy(this.rotation,A),this}setSensor(A){return this.isSensor=A,this}setEnabled(A){return this.enabled=A,this}setContactSkin(A){return this.contactSkin=A,this}setDensity(A){return this.massPropsMode=xE.Density,this.density=A,this}setMass(A){return this.massPropsMode=xE.Mass,this.mass=A,this}setMassProperties(A,I,C,B){return this.massPropsMode=xE.MassProps,this.mass=A,m.copy(this.centerOfMass,I),m.copy(this.principalAngularInertia,C),tI.copy(this.angularInertiaLocalFrame,B),this}setRestitution(A){return this.restitution=A,this}setFriction(A){return this.friction=A,this}setFrictionCombineRule(A){return this.frictionCombineRule=A,this}setRestitutionCombineRule(A){return this.restitutionCombineRule=A,this}setCollisionGroups(A){return this.collisionGroups=A,this}setSolverGroups(A){return this.solverGroups=A,this}setActiveHooks(A){return this.activeHooks=A,this}setActiveEvents(A){return this.activeEvents=A,this}setActiveCollisionTypes(A){return this.activeCollisionTypes=A,this}setContactForceEventThreshold(A){return this.contactForceEventThreshold=A,this}}class Kd{constructor(A){this.raw=A||new og,this.map=new ce,A&&A.forEachColliderHandle(I=>{this.map.set(I,new Xh(this,I,null))})}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}castClosure(A){return I=>A?A(this.get(I)):void 0}finalizeDeserialization(A){this.map.forEach(I=>I.finalizeDeserialization(A))}createCollider(A,I,C){let B=C!=null&&C!=null;if(B&&isNaN(C))throw Error("Cannot create a collider with a parent rigid-body handle that is not a number.");let 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L=zA({posX:J.f32,posY:J.f32,posZ:J.f32,rotX:J.f32,rotY:J.f32,rotZ:J.f32,rotW:J.f32,eulerX:J.f32,eulerY:J.f32,eulerZ:J.f32,scaleX:J.f32,scaleY:J.f32,scaleZ:J.f32}),wA=zA({posX:J.f32,posY:J.f32,posZ:J.f32,rotX:J.f32,rotY:J.f32,rotZ:J.f32,rotW:J.f32,eulerX:J.f32,eulerY:J.f32,eulerZ:J.f32,scaleX:J.f32,scaleY:J.f32,scaleZ:J.f32});function ke(g,A){const I=qD(g.rotX[A],g.rotY[A],g.rotZ[A],g.rotW[A]);g.eulerX[A]=I.x,g.eulerY[A]=I.y,g.eulerZ[A]=I.z}function Yd(g,A){const I=oo(g.eulerX[A],g.eulerY[A],g.eulerZ[A]);g.rotX[A]=I.x,g.rotY[A]=I.y,g.rotZ[A]=I.z,g.rotW[A]=I.w}function ud(g,A,I){A.posX[I]=g.posX[I],A.posY[I]=g.posY[I],A.posZ[I]=g.posZ[I],A.rotX[I]=g.rotX[I],A.rotY[I]=g.rotY[I],A.rotZ[I]=g.rotZ[I],A.rotW[I]=g.rotW[I],A.eulerX[I]=g.eulerX[I],A.eulerY[I]=g.eulerY[I],A.eulerZ[I]=g.eulerZ[I],A.scaleX[I]=g.scaleX[I],A.scaleY[I]=g.scaleY[I],A.scaleZ[I]=g.scaleZ[I]}function zh(g,A,I,C,B,Q){C.set(g.posX[A],g.posY[A],g.posZ[A]),B.set(g.rotX[A],g.rotY[A],g.rotZ[A],g.rotW[A]),Q.set(g.scaleX[A],g.scaleY[A],g.scaleZ[A]),I.compose(C,B,Q)}function qd(g,A,I,C,B,Q){g.decompose(C,B,Q),A.posX[I]=C.x,A.posY[I]=C.y,A.posZ[I]=C.z,A.rotX[I]=B.x,A.rotY[I]=B.y,A.rotZ[I]=B.z,A.rotW[I]=B.w,ke(A,I),A.scaleX[I]=Q.x,A.scaleY[I]=Q.y,A.scaleZ[I]=Q.z}const $h=new UI,Ms=new UI,Us=new v,Ks=new XC,Ns=new v,fd=bA([L]),Ld={group:"simulation",last:!0,update:g=>{const A=fd(g.world);for(const I of A)Yd(L,I);for(const I of A)if(g.hasComponent(I,wA)||(g.addComponent(I,wA),wA.rotX[I]=0,wA.rotY[I]=0,wA.rotZ[I]=0,wA.rotW[I]=1,wA.scaleX[I]=1,wA.scaleY[I]=1,wA.scaleZ[I]=1),!g.hasComponent(I,pB))ud(L,wA,I);else{const C=pB.entity[I];if(!g.hasComponent(C,wA))continue;zh(wA,C,Ms,Us,Ks,Ns),zh(L,I,$h,Us,Ks,Ns),Ms.multiply($h),qd(Ms,wA,I,Us,Ks,Ns)}for(const I of A)g.hasComponent(I,pB)&&g.hasComponent(I,wA)&&ke(wA,I)}},Hd={systems:[Ld],components:{Transform:L,WorldTransform:wA},config:{defaults:{transform:{rotW:1,scaleX:1,scaleY:1,scaleZ:1},"world-transform":{rotW:1,scaleX:1,scaleY:1,scaleZ:1}},validations:[{condition:(g,A)=>"world-transform"in A,warning:`"world-transform" is read-only.
  Use "transform" for local transforms, or "body" for physics objects`}]}},ww=-60,md=bA([SA]);function Td(g,A,I){let C;switch(g){case mI.Fixed:C=aC.fixed();break;case mI.Dynamic:C=aC.dynamic();break;case mI.KinematicVelocityBased:C=aC.kinematicVelocityBased();break;case mI.KinematicPositionBased:C=aC.kinematicPositionBased();break;default:C=aC.dynamic()}return A&&C.setTranslation(A.x,A.y,A.z),I&&C.setRotation(I),C}function xd(g,A,I,C,B,Q,E,i,o,t,e,s,a){I===mI.Dynamic&&C>0&&g.setAdditionalMass(C,!0),g.setLinvel(B,!0),g.setAngvel(Q,!0),g.setLinearDamping(E),g.setAngularDamping(i),g.setGravityScale(o,!0),g.enableCcd(!!t),(e||s||a)&&g.setEnabledRotations(!e,!s,!a,!0)}function bd(g,A,I,C,B,Q,E,i,o,t,e,s,a,D,n=ei.NONE){let c;switch(g){case zi.Box:c=XI.cuboid(A/2,I/2,C/2);break;case zi.Sphere:c=XI.ball(A/2);break;case zi.Capsule:c=XI.capsule(Q/2,B);break;default:c=XI.cuboid(.5,.5,.5)}c.setFriction(E),c.setRestitution(i),t?(c.setSensor(!0),c.setDensity(0)):c.setDensity(o);const S=e||65535,r=s||65535;return c.setCollisionGroups(S&65535|(r&65535)<<16),c.setTranslation(a.x,a.y,a.z),c.setRotation(D),c.activeEvents=n,c.activeCollisionTypes=xt.DEFAULT,c}function Od(g,A,I){Y.type[g]===mI.Dynamic&&A.addForce(new vI(LE.x[g],LE.y[g],LE.z[g]),!0),I.removeComponent(g,LE)}function vd(g,A,I){Y.type[g]===mI.Dynamic&&A.addTorque(new vI(HE.x[g],HE.y[g],HE.z[g]),!0),I.removeComponent(g,HE)}function _d(g,A,I){Y.type[g]===mI.Dynamic&&A.applyImpulse(new vI(mE.x[g],mE.y[g],mE.z[g]),!0),I.removeComponent(g,mE)}function Zd(g,A,I){Y.type[g]===mI.Dynamic&&A.applyTorqueImpulse(new vI(TE.x[g],TE.y[g],TE.z[g]),!0),I.removeComponent(g,TE)}function Wd(g,A,I){const C=Y.type[g];if(C===mI.Dynamic){const B=A.linvel(),Q=new vI(Ig.x[g],Ig.y[g],Ig.z[g]),E=new vI(Q.x-B.x,Q.y-B.y,Q.z-B.z),i=A.mass(),o=new vI(E.x*i,E.y*i,E.z*i);A.applyImpulse(o,!0)}else C===mI.KinematicVelocityBased&&A.setLinvel(new vI(Ig.x[g],Ig.y[g],Ig.z[g]),!0);I.removeComponent(g,Ig)}function Pd(g,A,I){const C=Y.type[g];if(C===mI.Dynamic){const B=A.angvel(),Q=new vI(KC.x[g],KC.y[g],KC.z[g]),E=new vI(Q.x-B.x,Q.y-B.y,Q.z-B.z),i=A.principalInertia(),o=new vI(E.x*i.x,E.y*i.y,E.z*i.z);A.applyTorqueImpulse(o,!0)}else C===mI.KinematicVelocityBased&&A.setAngvel(new vI(KC.x[g],KC.y[g],KC.z[g]),!0);I.removeComponent(g,KC)}function jd(g,A,I){const C=Y.type[g];if(C===mI.KinematicPositionBased)A.setNextKinematicTranslation(new vI(bB.x[g],bB.y[g],bB.z[g]));else if(C===mI.KinematicVelocityBased){const B=A.translation(),Q=bB.x[g],E=bB.y[g],i=bB.z[g],o=XB.FIXED_TIMESTEP;A.setLinvel(new vI((Q-B.x)/o,(E-B.y)/o,(i-B.z)/o),!0)}I.removeComponent(g,bB)}function Xd(g,A,I){Y.type[g]===mI.KinematicPositionBased&&A.setNextKinematicRotation(new ti(ZQ.x[g],ZQ.y[g],ZQ.z[g],ZQ.w[g])),I.removeComponent(g,ZQ)}function Vd(g,A){const I=A.translation(),C=A.rotation(),B=I.x!==Y.posX[g]||I.y!==Y.posY[g]||I.z!==Y.posZ[g],Q=C.x!==Y.rotX[g]||C.y!==Y.rotY[g]||C.z!==Y.rotZ[g]||C.w!==Y.rotW[g];B&&(A.setTranslation(new vI(Y.posX[g],Y.posY[g],Y.posZ[g]),!0),SA.prevPosX[g]!==void 0&&(SA.prevPosX[g]=Y.posX[g],SA.prevPosY[g]=Y.posY[g],SA.prevPosZ[g]=Y.posZ[g],SA.posX[g]=Y.posX[g],SA.posY[g]=Y.posY[g],SA.posZ[g]=Y.posZ[g])),Q&&(A.setRotation(new ti(Y.rotX[g],Y.rotY[g],Y.rotZ[g],Y.rotW[g]),!0),SA.prevRotX[g]!==void 0&&(SA.prevRotX[g]=Y.rotX[g],SA.prevRotY[g]=Y.rotY[g],SA.prevRotZ[g]=Y.rotZ[g],SA.prevRotW[g]=Y.rotW[g],SA.rotX[g]=Y.rotX[g],SA.rotY[g]=Y.rotY[g],SA.rotZ[g]=Y.rotZ[g],SA.rotW[g]=Y.rotW[g]))}function zd(g,A,I,C){const B=A.translation(),Q=A.rotation(),E=new vI(0,-1,0),i=A.shape,o=I.castShape(B,Q,E,i,.15,.15,!0,Tt.EXCLUDE_SENSORS,void 0,void 0,void 0,t=>t.handle!==A.handle);if(o){const t=o.collider.handle,e=C.get(t);if(e!==void 0&&e!==g&&o.normal1.y>.7)return e}return tB}function $d(g,A,I,C,B,Q,E,i){const o=yA.grounded[g]===1,t=Y.gravityScale[g],e=Q*t;o?hI.velocityY[g]<0&&(hI.velocityY[g]=0):hI.velocityY[g]=(hI.velocityY[g]||0)+e*B;const s=(hI.velocityY[g]||0)+(hI.desiredVelY[g]||0);let a=0,D=0,n=0,c=0,S=0,r=0;const l=yA.platform[g];if(o&&l!==tB){const T=Y.type[l];if(T===mI.KinematicPositionBased||T===mI.KinematicVelocityBased){const O=Y.posX[l]||0,W=Y.posY[l]||0,X=Y.posZ[l]||0,Z=Y.lastPosX[l]||O,CA=Y.lastPosY[l]||W,V=Y.lastPosZ[l]||X;c=O-Z,S=W-CA,r=X-V,yA.platformDeltaX[g]=c,yA.platformDeltaY[g]=S,yA.platformDeltaZ[g]=r,T===mI.KinematicVelocityBased&&(a=Y.velX[l]||0,D=Y.velY[l]||0,n=Y.velZ[l]||0),yA.platformVelX[g]=a,yA.platformVelY[g]=D,yA.platformVelZ[g]=n}}else yA.platformVelX[g]=0,yA.platformVelY[g]=0,yA.platformVelZ[g]=0,yA.platformDeltaX[g]=0,yA.platformDeltaY[g]=0,yA.platformDeltaZ[g]=0;const y=new vI((hI.desiredVelX[g]+a)*B,(s+D)*B,(hI.desiredVelZ[g]+n)*B);A.computeColliderMovement(I,y,Tt.EXCLUDE_SENSORS,void 0,T=>T.handle!==I.handle);const w=A.computedMovement(),N=Math.sqrt(hI.desiredVelX[g]**2+hI.desiredVelZ[g]**2),U=Math.sqrt((w.x/B)**2+(w.z/B)**2),F=N>.1&&U<N*.1;let p=w;if(F&&hI.velocityY[g]>0){const T=-hI.desiredVelX[g]*.001,O=-hI.desiredVelZ[g]*.001;p=new vI(w.x+T,w.y,w.z+O)}const k=C.translation(),K=new vI(k.x+p.x+c,k.y+p.y+S,k.z+p.z+r);C.setNextKinematicTranslation(K),hI.actualMoveX[g]=p.x,hI.actualMoveY[g]=p.y,hI.actualMoveZ[g]=p.z,yA.moveX[g]=p.x,yA.moveY[g]=p.y,yA.moveZ[g]=p.z;const u=A.computedGrounded()?1:0;yA.grounded[g]=u,u?yA.platform[g]=zd(g,I,i,E):yA.platform[g]=tB,u&&!o&&(hI.velocityY[g]=0)}function AY(g,A){for(const I of md(g.world)){if(!g.hasComponent(I,L))throw new Error(`[interpolateTransforms] Entity ${I} does not have the required components`);L.posX[I]=SA.prevPosX[I]*(1-A)+SA.posX[I]*A,L.posY[I]=SA.prevPosY[I]*(1-A)+SA.posY[I]*A,L.posZ[I]=SA.prevPosZ[I]*(1-A)+SA.posZ[I]*A;const C=SA.prevRotW[I],B=SA.prevRotX[I],Q=SA.prevRotY[I],E=SA.prevRotZ[I],i=SA.rotW[I],o=SA.rotX[I],t=SA.rotY[I],e=SA.rotZ[I];let s=C*i+B*o+Q*t+E*e;const a=1-A;s<0?(L.rotW[I]=C*a-i*A,L.rotX[I]=B*a-o*A,L.rotY[I]=Q*a-t*A,L.rotZ[I]=E*a-e*A):(L.rotW[I]=C*a+i*A,L.rotX[I]=B*a+o*A,L.rotY[I]=Q*a+t*A,L.rotZ[I]=E*a+e*A);const D=Math.sqrt(L.rotW[I]*L.rotW[I]+L.rotX[I]*L.rotX[I]+L.rotY[I]*L.rotY[I]+L.rotZ[I]*L.rotZ[I]);D>.001&&(L.rotW[I]/=D,L.rotX[I]/=D,L.rotY[I]/=D,L.rotZ[I]/=D),ke(L,I)}}function IY(g,A){const I=A.translation(),C=A.rotation(),B=A.linvel(),Q=A.angvel();Y.posX[g]=I.x,Y.posY[g]=I.y,Y.posZ[g]=I.z,Y.rotX[g]=C.x,Y.rotY[g]=C.y,Y.rotZ[g]=C.z,Y.rotW[g]=C.w;const E=qD(C.x,C.y,C.z,C.w);Y.eulerX[g]=E.x,Y.eulerY[g]=E.y,Y.eulerZ[g]=E.z,Y.velX[g]=B.x,Y.velY[g]=B.y,Y.velZ[g]=B.z,Y.rotVelX[g]=Q.x,Y.rotVelY[g]=Q.y,Y.rotVelZ[g]=Q.z}function gY(g,A){if(!A.hasComponent(g,L)||!A.hasComponent(g,wA)||!A.hasComponent(g,SA))throw new Error(`[copyRigidbodyToTransforms] Entity ${g} does not have the required components`);L.posX[g]=Y.posX[g],L.posY[g]=Y.posY[g],L.posZ[g]=Y.posZ[g],L.rotX[g]=Y.rotX[g],L.rotY[g]=Y.rotY[g],L.rotZ[g]=Y.rotZ[g],L.rotW[g]=Y.rotW[g],L.eulerX[g]=Y.eulerX[g],L.eulerY[g]=Y.eulerY[g],L.eulerZ[g]=Y.eulerZ[g],wA.posX[g]=Y.posX[g],wA.posY[g]=Y.posY[g],wA.posZ[g]=Y.posZ[g],wA.rotX[g]=Y.rotX[g],wA.rotY[g]=Y.rotY[g],wA.rotZ[g]=Y.rotZ[g],wA.rotW[g]=Y.rotW[g],wA.eulerX[g]=Y.eulerX[g],wA.eulerY[g]=Y.eulerY[g],wA.eulerZ[g]=Y.eulerZ[g],SA.prevPosX[g]=SA.posX[g],SA.prevPosY[g]=SA.posY[g],SA.prevPosZ[g]=SA.posZ[g],SA.prevRotX[g]=SA.rotX[g],SA.prevRotY[g]=SA.rotY[g],SA.prevRotZ[g]=SA.rotZ[g],SA.prevRotW[g]=SA.rotW[g],SA.posX[g]=Y.posX[g],SA.posY[g]=Y.posY[g],SA.posZ[g]=Y.posZ[g],SA.rotX[g]=Y.rotX[g],SA.rotY[g]=Y.rotY[g],SA.rotZ[g]=Y.rotZ[g],SA.rotW[g]=Y.rotW[g]}function CY(g){const A=oo(Y.eulerX[g],Y.eulerY[g],Y.eulerZ[g]);Y.rotX[g]=A.x,Y.rotY[g]=A.y,Y.rotZ[g]=A.z,Y.rotW[g]=A.w}const BY=bA([hB]),XD=bA([Y]),QY=bA([II]),EY=bA([yA]),iY=bA([yA,hI,Y,L]),oY=bA([LE,Y]),tY=bA([HE,Y]),eY=bA([mE,Y]),sY=bA([TE,Y]),aY=bA([Ig,Y]),DY=bA([KC,Y]),nY=bA([bB,Y]),rY=bA([ZQ,Y]),hY=bA([BB]),SY=bA([QB]),vt=new WeakMap;function mC(g){let A=vt.get(g);return A||(A={physicsWorld:null,worldEntity:null,entityToRigidbody:new Map,entityToCollider:new Map,entityToCharacterController:new Map,colliderToEntity:new Map},vt.set(g,A)),A}let AS=!1;async function cY(){AS||(await dd(),AS=!0)}const lw={group:"fixed",first:!0,update:g=>{const A=mC(g);if(!A.physicsWorld&&BY(g.world).length===0){const I=g.createEntity();g.addComponent(I,hB),A.worldEntity=I,hB.gravityX[I]=0,hB.gravityY[I]=ww,hB.gravityZ[I]=0;const C=new ye(new vI(hB.gravityX[I],hB.gravityY[I],hB.gravityZ[I]));C.timestep=XB.FIXED_TIMESTEP,A.physicsWorld=C}},dispose:g=>{const A=vt.get(g);A&&(A.physicsWorld&&A.physicsWorld.free(),A.entityToRigidbody.clear(),A.entityToCollider.clear(),A.entityToCharacterController.clear(),A.colliderToEntity.clear(),vt.delete(g))}},Gw={group:"fixed",after:[lw],update:g=>{const A=mC(g),I=A.physicsWorld;if(I){for(const C of XD(g.world))A.entityToRigidbody.has(C)||wY(C,I,g,A);for(const C of QY(g.world))A.entityToCollider.has(C)||lY(C,I,g,A);for(const C of EY(g.world))A.entityToCharacterController.has(C)||GY(C,I,A)}}};function wY(g,A,I,C){const B=new vI(Y.posX[g],Y.posY[g],Y.posZ[g]);(Y.eulerX[g]!==0||Y.eulerY[g]!==0||Y.eulerZ[g]!==0)&&CY(g);const Q=Y.rotX[g],E=Y.rotY[g],i=Y.rotZ[g],o=Y.rotW[g],t=Math.sqrt(Q*Q+E*E+i*i+o*o);if(t<.001)throw new Error(`Invalid quaternion for Rigidbody entity ${g}: (${Q}, ${E}, ${i}, ${o}). Quaternion magnitude is ${t}. Ensure Rigidbody.rotW is initialized (typically to 1 for identity rotation).`);const e=new ti(Q,E,i,o),s=Td(Y.type[g],B,e),a=A.createRigidBody(s);xd(a,g,Y.type[g],Y.mass[g],new vI(Y.velX[g],Y.velY[g],Y.velZ[g]),new vI(Y.rotVelX[g],Y.rotVelY[g],Y.rotVelZ[g]),Y.linearDamping[g],Y.angularDamping[g],Y.gravityScale[g],Y.ccd[g],Y.lockRotX[g],Y.lockRotY[g],Y.lockRotZ[g]),C.entityToRigidbody.set(g,a),I.hasComponent(g,L)||(I.addComponent(g,L),L.posX[g]=Y.posX[g],L.posY[g]=Y.posY[g],L.posZ[g]=Y.posZ[g],L.rotX[g]=Y.rotX[g],L.rotY[g]=Y.rotY[g],L.rotZ[g]=Y.rotZ[g],L.rotW[g]=Y.rotW[g],L.scaleX[g]=1,L.scaleY[g]=1,L.scaleZ[g]=1),I.hasComponent(g,wA)||(I.addComponent(g,wA),wA.posX[g]=Y.posX[g],wA.posY[g]=Y.posY[g],wA.posZ[g]=Y.posZ[g],wA.rotX[g]=Y.rotX[g],wA.rotY[g]=Y.rotY[g],wA.rotZ[g]=Y.rotZ[g],wA.rotW[g]=Y.rotW[g],wA.scaleX[g]=1,wA.scaleY[g]=1,wA.scaleZ[g]=1),I.hasComponent(g,SA)||I.addComponent(g,SA);const D=a.translation(),n=a.rotation();SA.prevPosX[g]=D.x,SA.prevPosY[g]=D.y,SA.prevPosZ[g]=D.z,SA.posX[g]=D.x,SA.posY[g]=D.y,SA.posZ[g]=D.z,SA.prevRotX[g]=n.x,SA.prevRotY[g]=n.y,SA.prevRotZ[g]=n.z,SA.prevRotW[g]=n.w,SA.rotX[g]=n.x,SA.rotY[g]=n.y,SA.rotZ[g]=n.z,SA.rotW[g]=n.w}function lY(g,A,I,C){const B=C.entityToRigidbody.get(g);if(!B||!I.hasComponent(g,Y))return;const Q=I.hasComponent(g,fE)?ei.COLLISION_EVENTS:ei.NONE,E=new vI(II.posOffsetX[g],II.posOffsetY[g],II.posOffsetZ[g]),i=II.rotOffsetX[g]||0,o=II.rotOffsetY[g]||0,t=II.rotOffsetZ[g]||0;let e=II.rotOffsetW[g];Math.sqrt(i*i+o*o+t*t+e*e)<.001&&(e=1);const s=new ti(i,o,t,e),a=bd(II.shape[g],II.sizeX[g],II.sizeY[g],II.sizeZ[g],II.radius[g],II.height[g],II.friction[g],II.restitution[g],II.density[g],II.isSensor[g],II.membershipGroups[g],II.filterGroups[g],E,s,Q),D=A.createCollider(a,B);C.entityToCollider.set(g,D),C.colliderToEntity.set(D.handle,g)}function GY(g,A,I){const C=A.createCharacterController(yA.offset[g]);C.setMaxSlopeClimbAngle(yA.maxSlope[g]),C.setMinSlopeSlideAngle(yA.maxSlide[g]),C.setNormalNudgeFactor(1e-4),yA.snapDist[g]>0?C.enableSnapToGround(yA.snapDist[g]):C.disableSnapToGround(),C.enableAutostep(yA.maxStepHeight[g],yA.minStepWidth[g],!!yA.autoStep[g]),C.setUp(new vI(yA.upX[g],yA.upY[g],yA.upZ[g])),C.setApplyImpulsesToDynamicBodies(!0),C.setCharacterMass(70),C.setSlideEnabled(!0),I.entityToCharacterController.set(g,C)}const yw={group:"fixed",after:[Gw],update:g=>{const A=mC(g),I=A.physicsWorld;if(I){for(const[C,B]of A.entityToCollider)g.hasComponent(C,II)||(I.removeCollider(B,!1),A.entityToCollider.delete(C),A.colliderToEntity.delete(B.handle));for(const[C,B]of A.entityToRigidbody)g.hasComponent(C,Y)||(I.removeRigidBody(B),A.entityToRigidbody.delete(C));for(const[C,B]of A.entityToCharacterController)g.hasComponent(C,yA)||(I.removeCharacterController(B),A.entityToCharacterController.delete(C))}}},kw={group:"fixed",after:[yw],update:g=>{const A=XD(g.world);for(const I of A)Y.lastPosX[I]=Y.posX[I],Y.lastPosY[I]=Y.posY[I],Y.lastPosZ[I]=Y.posZ[I]}},VD={group:"fixed",after:[kw],update:g=>{const A=mC(g);if(!A.physicsWorld||A.worldEntity===null)return;const I=hB.gravityY[A.worldEntity],C=iY(g.world);for(const B of C){const Q=A.entityToCharacterController.get(B),E=A.entityToCollider.get(B),i=A.entityToRigidbody.get(B);!Q||!E||!i||$d(B,Q,E,i,g.time.fixedDeltaTime,I,A.colliderToEntity,A.physicsWorld)}}},zD={group:"fixed",after:[VD],update:g=>{const A=mC(g);for(const I of oY(g.world)){const C=A.entityToRigidbody.get(I);C&&Od(I,C,g)}}},$D={group:"fixed",after:[VD],update:g=>{const A=mC(g);for(const I of tY(g.world)){const C=A.entityToRigidbody.get(I);C&&vd(I,C,g)}}},Mw={group:"fixed",after:[zD,$D],update:g=>{const A=mC(g);for(const I of eY(g.world)){const C=A.entityToRigidbody.get(I);C&&_d(I,C,g)}}},Uw={group:"fixed",after:[zD,$D],update:g=>{const A=mC(g);for(const I of sY(g.world)){const C=A.entityToRigidbody.get(I);C&&Zd(I,C,g)}}},Kw={group:"fixed",after:[Mw,Uw],update:g=>{const A=mC(g);for(const I of aY(g.world)){const C=A.entityToRigidbody.get(I);C&&Wd(I,C,g)}for(const I of DY(g.world)){const C=A.entityToRigidbody.get(I);C&&Pd(I,C,g)}}},Nw={group:"fixed",after:[Kw],update:g=>{const A=mC(g);for(const I of nY(g.world)){const C=A.entityToRigidbody.get(I);C&&jd(I,C,g)}for(const I of rY(g.world)){const C=A.entityToRigidbody.get(I);C&&Xd(I,C,g)}}},Jw={group:"fixed",after:[Nw],update:g=>{const A=mC(g);for(const I of XD(g.world)){const C=A.entityToRigidbody.get(I);C&&Vd(I,C)}}},Fw={group:"fixed",after:[Jw],update:g=>{const A=mC(g),I=A.physicsWorld;if(!I)return;const C=new Ud(!0);I.step(C),yY(C,g,A),C.free()}};function yY(g,A,I){g.drainCollisionEvents((C,B,Q)=>{const E=I.colliderToEntity.get(C),i=I.colliderToEntity.get(B);E===void 0||i===void 0||(Q?(A.hasComponent(E,fE)&&(A.addComponent(E,BB),BB.other[E]=i,BB.handle1[E]=C,BB.handle2[E]=B),A.hasComponent(i,fE)&&(A.addComponent(i,BB),BB.other[i]=E,BB.handle1[i]=B,BB.handle2[i]=C)):(A.hasComponent(E,fE)&&(A.addComponent(E,QB),QB.other[E]=i,QB.handle1[E]=C,QB.handle2[E]=B),A.hasComponent(i,fE)&&(A.addComponent(i,QB),QB.other[i]=E,QB.handle1[i]=B,QB.handle2[i]=C)))})}const kY={group:"setup",update:g=>{for(const A of hY(g.world))g.removeComponent(A,BB);for(const A of SY(g.world))g.removeComponent(A,QB)}},MY={group:"fixed",after:[Fw],update:g=>{const A=mC(g);for(const[I,C]of A.entityToRigidbody)g.hasComponent(I,Y)&&(IY(I,C),gY(I,g))}},UY={group:"simulation",first:!0,update:g=>{const A=g.scheduler.getAccumulator()/XB.FIXED_TIMESTEP;AY(g,A)}},KY={systems:[lw,Gw,yw,kw,VD,kY,zD,$D,Mw,Uw,Kw,Jw,Nw,Fw,MY,UY],recipes:[mR,TR,xR],components:{PhysicsWorld:hB,Body:Y,Collider:II,CharacterController:yA,CharacterMovement:hI,InterpolatedTransform:SA,CollisionEvents:fE,TouchedEvent:BB,TouchEndedEvent:QB,KinematicMove:bB,KinematicRotate:ZQ,ApplyForce:LE,ApplyImpulse:mE,ApplyTorque:HE,ApplyAngularImpulse:TE,SetLinearVelocity:Ig,SetAngularVelocity:KC},config:{defaults:{body:{type:0,mass:1,gravityScale:1,rotW:1,eulerX:0,eulerY:0,eulerZ:0},collider:{shape:0,sizeX:1,sizeY:1,sizeZ:1,radius:.5,height:1,friction:.5,restitution:0,density:1,isSensor:0,membershipGroups:65535,filterGroups:65535,posOffsetX:0,posOffsetY:0,posOffsetZ:0,rotOffsetX:0,rotOffsetY:0,rotOffsetZ:0,rotOffsetW:1},"character-controller":{offset:.08,maxSlope:45*(Math.PI/180),maxSlide:30*(Math.PI/180),snapDist:.5,autoStep:1,maxStepHeight:.3,minStepWidth:.05,upX:0,upY:1,upZ:0}},enums:{body:{type:{fixed:0,static:0,dynamic:1,"kinematic-position":2,"kinematic-position-based":2,kinematic:3,"kinematic-velocity":3,"kinematic-velocity-based":3}},collider:{shape:{box:0,cuboid:0,sphere:1,ball:1,capsule:2,cylinder:3,cone:4}}}}},mg=zA({shape:J.ui8,sizeX:J.f32,sizeY:J.f32,sizeZ:J.f32,color:J.ui32,visible:J.ui8}),PE=zA({clearColor:J.ui32,hasCanvas:J.ui8}),Mi=zA(),KB=zA({skyColor:J.ui32,groundColor:J.ui32,intensity:J.f32}),Sg=zA({color:J.ui32,intensity:J.f32,castShadow:J.ui8,shadowMapSize:J.ui32,directionX:J.f32,directionY:J.f32,directionZ:J.f32,distance:J.f32}),gB=zA({intensity:J.f32,luminanceThreshold:J.f32,luminanceSmoothing:J.f32,mipmapBlur:J.ui8,radius:J.f32,levels:J.ui8}),nB=zA({colorBits:J.ui8,intensity:J.f32,grayscale:J.ui8,scale:J.f32,noise:J.f32}),Vg=zA({mode:J.ui8,middleGrey:J.f32,whitePoint:J.f32,averageLuminance:J.f32,adaptationRate:J.f32}),jE={skyColor:8900331,groundColor:4868682,intensity:.6},$g={color:16777215,intensity:1,castShadow:1,shadowMapSize:4096,directionX:-1,directionY:2,directionZ:-1,distance:30},NY={name:"ambient-light",components:["ambient"]},JY={name:"directional-light",components:["directional"]},FY={name:"light",components:["ambient","directional"]};/**
 * postprocessing v6.37.8 build Fri Sep 12 2025
 * https://github.com/pmndrs/postprocessing
 * Copyright 2015-2025 Raoul van Rüschen
 * @license Zlib
 */var Js=1/1e3,pY=1e3,RY=class{constructor(){this.startTime=performance.now(),this.previousTime=0,this.currentTime=0,this._delta=0,this._elapsed=0,this._fixedDelta=1e3/60,this.timescale=1,this.useFixedDelta=!1,this._autoReset=!1}get autoReset(){return this._autoReset}set autoReset(g){typeof document<"u"&&document.hidden!==void 0&&(g?document.addEventListener("visibilitychange",this):document.removeEventListener("visibilitychange",this),this._autoReset=g)}get delta(){return this._delta*Js}get fixedDelta(){return this._fixedDelta*Js}set fixedDelta(g){this._fixedDelta=g*pY}get elapsed(){return this._elapsed*Js}update(g){this.useFixedDelta?this._delta=this.fixedDelta:(this.previousTime=this.currentTime,this.currentTime=(g!==void 0?g:performance.now())-this.startTime,this._delta=this.currentTime-this.previousTime),this._delta*=this.timescale,this._elapsed+=this._delta}reset(){this._delta=0,this._elapsed=0,this.currentTime=performance.now()-this.startTime}getDelta(){return this.delta}getElapsed(){return this.elapsed}handleEvent(g){document.hidden||(this.currentTime=performance.now()-this.startTime)}dispose(){this.autoReset=!1}},dY=(()=>{const g=new Float32Array([-1,-1,0,3,-1,0,-1,3,0]),A=new Float32Array([0,0,2,0,0,2]),I=new YB;return I.setAttribute("position",new dC(g,3)),I.setAttribute("uv",new dC(A,2)),I})(),zC=class Za{static get fullscreenGeometry(){return dY}constructor(A="Pass",I=new fa,C=new JD){this.name=A,this.renderer=null,this.scene=I,this.camera=C,this.screen=null,this.rtt=!0,this.needsSwap=!0,this.needsDepthTexture=!1,this.enabled=!0}get renderToScreen(){return!this.rtt}set renderToScreen(A){if(this.rtt===A){const I=this.fullscreenMaterial;I!==null&&(I.needsUpdate=!0),this.rtt=!A}}set mainScene(A){}set mainCamera(A){}setRenderer(A){this.renderer=A}isEnabled(){return this.enabled}setEnabled(A){this.enabled=A}get fullscreenMaterial(){return this.screen!==null?this.screen.material:null}set fullscreenMaterial(A){let I=this.screen;I!==null?I.material=A:(I=new _C(Za.fullscreenGeometry,A),I.frustumCulled=!1,this.scene===null&&(this.scene=new fa),this.scene.add(I),this.screen=I)}getFullscreenMaterial(){return this.fullscreenMaterial}setFullscreenMaterial(A){this.fullscreenMaterial=A}getDepthTexture(){return null}setDepthTexture(A,I=Ko){}render(A,I,C,B,Q){throw new Error("Render method not implemented!")}setSize(A,I){}initialize(A,I,C){}dispose(){for(const A of Object.keys(this)){const I=this[A];(I instanceof Wg||I instanceof eE||I instanceof Og||I instanceof Za)&&this[A].dispose()}this.fullscreenMaterial!==null&&this.fullscreenMaterial.dispose()}},YY=class extends zC{constructor(){super("ClearMaskPass",null,null),this.needsSwap=!1}render(g,A,I,C,B){const Q=g.state.buffers.stencil;Q.setLocked(!1),Q.setTest(!1)}},uY=`#include <common>
#include <dithering_pars_fragment>
#ifdef FRAMEBUFFER_PRECISION_HIGH
uniform mediump sampler2D inputBuffer;
#else
uniform lowp sampler2D inputBuffer;
#endif
uniform float opacity;varying vec2 vUv;void main(){vec4 texel=texture2D(inputBuffer,vUv);gl_FragColor=opacity*texel;
#include <colorspace_fragment>
#include <dithering_fragment>
}`,An="varying vec2 vUv;void main(){vUv=position.xy*0.5+0.5;gl_Position=vec4(position.xy,1.0,1.0);}",pw=class extends CC{constructor(){super({name:"CopyMaterial",uniforms:{inputBuffer:new VA(null),opacity:new VA(1)},blending:oC,toneMapped:!1,depthWrite:!1,depthTest:!1,fragmentShader:uY,vertexShader:An})}set inputBuffer(g){this.uniforms.inputBuffer.value=g}setInputBuffer(g){this.uniforms.inputBuffer.value=g}getOpacity(g){return this.uniforms.opacity.value}setOpacity(g){this.uniforms.opacity.value=g}},Rw=class extends zC{constructor(g,A=!0){super("CopyPass"),this.fullscreenMaterial=new pw,this.needsSwap=!1,this.renderTarget=g,g===void 0&&(this.renderTarget=new Wg(1,1,{minFilter:DC,magFilter:DC,stencilBuffer:!1,depthBuffer:!1}),this.renderTarget.texture.name="CopyPass.Target"),this.autoResize=A}get resize(){return this.autoResize}set resize(g){this.autoResize=g}get texture(){return this.renderTarget.texture}getTexture(){return this.renderTarget.texture}setAutoResizeEnabled(g){this.autoResize=g}render(g,A,I,C,B){this.fullscreenMaterial.inputBuffer=A.texture,g.setRenderTarget(this.renderToScreen?null:this.renderTarget),g.render(this.scene,this.camera)}setSize(g,A){this.autoResize&&this.renderTarget.setSize(g,A)}initialize(g,A,I){I!==void 0&&(this.renderTarget.texture.type=I,I!==Zg?this.fullscreenMaterial.defines.FRAMEBUFFER_PRECISION_HIGH="1":g!==null&&g.outputColorSpace===qI&&(this.renderTarget.texture.colorSpace=qI))}},IS=new cI,dw=class extends zC{constructor(g=!0,A=!0,I=!1){super("ClearPass",null,null),this.needsSwap=!1,this.color=g,this.depth=A,this.stencil=I,this.overrideClearColor=null,this.overrideClearAlpha=-1}setClearFlags(g,A,I){this.color=g,this.depth=A,this.stencil=I}getOverrideClearColor(){return this.overrideClearColor}setOverrideClearColor(g){this.overrideClearColor=g}getOverrideClearAlpha(){return this.overrideClearAlpha}setOverrideClearAlpha(g){this.overrideClearAlpha=g}render(g,A,I,C,B){const Q=this.overrideClearColor,E=this.overrideClearAlpha,i=g.getClearAlpha(),o=Q!==null,t=E>=0;o?(g.getClearColor(IS),g.setClearColor(Q,t?E:i)):t&&g.setClearAlpha(E),g.setRenderTarget(this.renderToScreen?null:A),g.clear(this.color,this.depth,this.stencil),o?g.setClearColor(IS,i):t&&g.setClearAlpha(i)}},qY=class extends zC{constructor(g,A){super("MaskPass",g,A),this.needsSwap=!1,this.clearPass=new dw(!1,!1,!0),this.inverse=!1}set mainScene(g){this.scene=g}set mainCamera(g){this.camera=g}get inverted(){return this.inverse}set inverted(g){this.inverse=g}get clear(){return this.clearPass.enabled}set clear(g){this.clearPass.enabled=g}getClearPass(){return this.clearPass}isInverted(){return this.inverted}setInverted(g){this.inverted=g}render(g,A,I,C,B){const Q=g.getContext(),E=g.state.buffers,i=this.scene,o=this.camera,t=this.clearPass,e=this.inverted?0:1,s=1-e;E.color.setMask(!1),E.depth.setMask(!1),E.color.setLocked(!0),E.depth.setLocked(!0),E.stencil.setTest(!0),E.stencil.setOp(Q.REPLACE,Q.REPLACE,Q.REPLACE),E.stencil.setFunc(Q.ALWAYS,e,4294967295),E.stencil.setClear(s),E.stencil.setLocked(!0),this.clearPass.enabled&&(this.renderToScreen?t.render(g,null):(t.render(g,A),t.render(g,I))),this.renderToScreen?(g.setRenderTarget(null),g.render(i,o)):(g.setRenderTarget(A),g.render(i,o),g.setRenderTarget(I),g.render(i,o)),E.color.setLocked(!1),E.depth.setLocked(!1),E.stencil.setLocked(!1),E.stencil.setFunc(Q.EQUAL,1,4294967295),E.stencil.setOp(Q.KEEP,Q.KEEP,Q.KEEP),E.stencil.setLocked(!0)}},fY=class{constructor(g=null,{depthBuffer:A=!0,stencilBuffer:I=!1,multisampling:C=0,frameBufferType:B}={}){this.renderer=null,this.inputBuffer=this.createBuffer(A,I,B,C),this.outputBuffer=this.inputBuffer.clone(),this.copyPass=new Rw,this.depthTexture=null,this.passes=[],this.timer=new RY,this.autoRenderToScreen=!0,this.setRenderer(g)}get multisampling(){return this.inputBuffer.samples||0}set multisampling(g){const A=this.inputBuffer,I=this.multisampling;I>0&&g>0?(this.inputBuffer.samples=g,this.outputBuffer.samples=g,this.inputBuffer.dispose(),this.outputBuffer.dispose()):I!==g&&(this.inputBuffer.dispose(),this.outputBuffer.dispose(),this.inputBuffer=this.createBuffer(A.depthBuffer,A.stencilBuffer,A.texture.type,g),this.inputBuffer.depthTexture=this.depthTexture,this.outputBuffer=this.inputBuffer.clone())}getTimer(){return this.timer}getRenderer(){return this.renderer}setRenderer(g){if(this.renderer=g,g!==null){const A=g.getSize(new PA),I=g.getContext().getContextAttributes().alpha,C=this.inputBuffer.texture.type;C===Zg&&g.outputColorSpace===qI&&(this.inputBuffer.texture.colorSpace=qI,this.outputBuffer.texture.colorSpace=qI,this.inputBuffer.dispose(),this.outputBuffer.dispose()),g.autoClear=!1,this.setSize(A.width,A.height);for(const B of this.passes)B.initialize(g,I,C)}}replaceRenderer(g,A=!0){const I=this.renderer,C=I.domElement.parentNode;return this.setRenderer(g),A&&C!==null&&(C.removeChild(I.domElement),C.appendChild(g.domElement)),I}createDepthTexture(){const g=this.depthTexture=new pD;return this.inputBuffer.depthTexture=g,this.inputBuffer.dispose(),this.inputBuffer.stencilBuffer?(g.format=Ei,g.type=Qi):g.type=yQ,g}deleteDepthTexture(){if(this.depthTexture!==null){this.depthTexture.dispose(),this.depthTexture=null,this.inputBuffer.depthTexture=null,this.inputBuffer.dispose();for(const g of this.passes)g.setDepthTexture(null)}}createBuffer(g,A,I,C){const B=this.renderer,Q=B===null?new PA:B.getDrawingBufferSize(new PA),E={minFilter:DC,magFilter:DC,stencilBuffer:A,depthBuffer:g,type:I},i=new Wg(Q.width,Q.height,E);return C>0&&(i.ignoreDepthForMultisampleCopy=!1,i.samples=C),I===Zg&&B!==null&&B.outputColorSpace===qI&&(i.texture.colorSpace=qI),i.texture.name="EffectComposer.Buffer",i.texture.generateMipmaps=!1,i}setMainScene(g){for(const A of this.passes)A.mainScene=g}setMainCamera(g){for(const A of this.passes)A.mainCamera=g}addPass(g,A){const I=this.passes,C=this.renderer,B=C.getDrawingBufferSize(new PA),Q=C.getContext().getContextAttributes().alpha,E=this.inputBuffer.texture.type;if(g.setRenderer(C),g.setSize(B.width,B.height),g.initialize(C,Q,E),this.autoRenderToScreen&&(I.length>0&&(I[I.length-1].renderToScreen=!1),g.renderToScreen&&(this.autoRenderToScreen=!1)),A!==void 0?I.splice(A,0,g):I.push(g),this.autoRenderToScreen&&(I[I.length-1].renderToScreen=!0),g.needsDepthTexture||this.depthTexture!==null)if(this.depthTexture===null){const i=this.createDepthTexture();for(g of I)g.setDepthTexture(i)}else g.setDepthTexture(this.depthTexture)}removePass(g){const A=this.passes,I=A.indexOf(g);if(I!==-1&&A.splice(I,1).length>0){if(this.depthTexture!==null){const C=(B,Q)=>B||Q.needsDepthTexture;A.reduce(C,!1)||(g.getDepthTexture()===this.depthTexture&&g.setDepthTexture(null),this.deleteDepthTexture())}this.autoRenderToScreen&&I===A.length&&(g.renderToScreen=!1,A.length>0&&(A[A.length-1].renderToScreen=!0))}}removeAllPasses(){const g=this.passes;this.deleteDepthTexture(),g.length>0&&(this.autoRenderToScreen&&(g[g.length-1].renderToScreen=!1),this.passes=[])}render(g){const A=this.renderer,I=this.copyPass;let C=this.inputBuffer,B=this.outputBuffer,Q=!1,E,i,o;g===void 0&&(this.timer.update(),g=this.timer.getDelta());for(const t of this.passes)t.enabled&&(t.render(A,C,B,g,Q),t.needsSwap&&(Q&&(I.renderToScreen=t.renderToScreen,E=A.getContext(),i=A.state.buffers.stencil,i.setFunc(E.NOTEQUAL,1,4294967295),I.render(A,C,B,g,Q),i.setFunc(E.EQUAL,1,4294967295)),o=C,C=B,B=o),t instanceof qY?Q=!0:t instanceof YY&&(Q=!1))}setSize(g,A,I){const C=this.renderer,B=C.getSize(new PA);(g===void 0||A===void 0)&&(g=B.width,A=B.height),(B.width!==g||B.height!==A)&&C.setSize(g,A,I);const Q=C.getDrawingBufferSize(new PA);this.inputBuffer.setSize(Q.width,Q.height),this.outputBuffer.setSize(Q.width,Q.height);for(const E of this.passes)E.setSize(Q.width,Q.height)}reset(){this.dispose(),this.autoRenderToScreen=!0}dispose(){for(const g of this.passes)g.dispose();this.passes=[],this.inputBuffer!==null&&this.inputBuffer.dispose(),this.outputBuffer!==null&&this.outputBuffer.dispose(),this.deleteDepthTexture(),this.copyPass.dispose(),this.timer.dispose(),zC.fullscreenGeometry.dispose()}},zQ={NONE:0,DEPTH:1,CONVOLUTION:2},MI={FRAGMENT_HEAD:"FRAGMENT_HEAD",FRAGMENT_MAIN_UV:"FRAGMENT_MAIN_UV",FRAGMENT_MAIN_IMAGE:"FRAGMENT_MAIN_IMAGE",VERTEX_HEAD:"VERTEX_HEAD",VERTEX_MAIN_SUPPORT:"VERTEX_MAIN_SUPPORT"},LY=class{constructor(){this.shaderParts=new Map([[MI.FRAGMENT_HEAD,null],[MI.FRAGMENT_MAIN_UV,null],[MI.FRAGMENT_MAIN_IMAGE,null],[MI.VERTEX_HEAD,null],[MI.VERTEX_MAIN_SUPPORT,null]]),this.defines=new Map,this.uniforms=new Map,this.blendModes=new Map,this.extensions=new Set,this.attributes=zQ.NONE,this.varyings=new Set,this.uvTransformation=!1,this.readDepth=!1,this.colorSpace=kQ}},Fs=!1,gS=class{constructor(g=null){this.originalMaterials=new Map,this.material=null,this.materials=null,this.materialsBackSide=null,this.materialsDoubleSide=null,this.materialsFlatShaded=null,this.materialsFlatShadedBackSide=null,this.materialsFlatShadedDoubleSide=null,this.setMaterial(g),this.meshCount=0,this.replaceMaterial=A=>{if(A.isMesh){let I;if(A.material.flatShading)switch(A.material.side){case FC:I=this.materialsFlatShadedDoubleSide;break;case Tg:I=this.materialsFlatShadedBackSide;break;default:I=this.materialsFlatShaded;break}else switch(A.material.side){case FC:I=this.materialsDoubleSide;break;case Tg:I=this.materialsBackSide;break;default:I=this.materials;break}this.originalMaterials.set(A,A.material),A.isSkinnedMesh?A.material=I[2]:A.isInstancedMesh?A.material=I[1]:A.material=I[0],++this.meshCount}}}cloneMaterial(g){if(!(g instanceof CC))return g.clone();const A=g.uniforms,I=new Map;for(const B in A){const Q=A[B].value;Q.isRenderTargetTexture&&(A[B].value=null,I.set(B,Q))}const C=g.clone();for(const B of I)A[B[0]].value=B[1],C.uniforms[B[0]].value=B[1];return C}setMaterial(g){if(this.disposeMaterials(),this.material=g,g!==null){const A=this.materials=[this.cloneMaterial(g),this.cloneMaterial(g),this.cloneMaterial(g)];for(const I of A)I.uniforms=Object.assign({},g.uniforms),I.side=jB;A[2].skinning=!0,this.materialsBackSide=A.map(I=>{const C=this.cloneMaterial(I);return C.uniforms=Object.assign({},g.uniforms),C.side=Tg,C}),this.materialsDoubleSide=A.map(I=>{const C=this.cloneMaterial(I);return C.uniforms=Object.assign({},g.uniforms),C.side=FC,C}),this.materialsFlatShaded=A.map(I=>{const C=this.cloneMaterial(I);return C.uniforms=Object.assign({},g.uniforms),C.flatShading=!0,C}),this.materialsFlatShadedBackSide=A.map(I=>{const C=this.cloneMaterial(I);return C.uniforms=Object.assign({},g.uniforms),C.flatShading=!0,C.side=Tg,C}),this.materialsFlatShadedDoubleSide=A.map(I=>{const C=this.cloneMaterial(I);return C.uniforms=Object.assign({},g.uniforms),C.flatShading=!0,C.side=FC,C})}}render(g,A,I){const C=g.shadowMap.enabled;if(g.shadowMap.enabled=!1,Fs){const B=this.originalMaterials;this.meshCount=0,A.traverse(this.replaceMaterial),g.render(A,I);for(const Q of B)Q[0].material=Q[1];this.meshCount!==B.size&&B.clear()}else{const B=A.overrideMaterial;A.overrideMaterial=this.material,g.render(A,I),A.overrideMaterial=B}g.shadowMap.enabled=C}disposeMaterials(){if(this.material!==null){const g=this.materials.concat(this.materialsBackSide).concat(this.materialsDoubleSide).concat(this.materialsFlatShaded).concat(this.materialsFlatShadedBackSide).concat(this.materialsFlatShadedDoubleSide);for(const A of g)A.dispose()}}dispose(){this.originalMaterials.clear(),this.disposeMaterials()}static get workaroundEnabled(){return Fs}static set workaroundEnabled(g){Fs=g}},sQ=-1,NB=class extends CQ{constructor(g,A=sQ,I=sQ,C=1){super(),this.resizable=g,this.baseSize=new PA(1,1),this.preferredSize=new PA(A,I),this.target=this.preferredSize,this.s=C,this.effectiveSize=new PA,this.addEventListener("change",()=>this.updateEffectiveSize()),this.updateEffectiveSize()}updateEffectiveSize(){const g=this.baseSize,A=this.preferredSize,I=this.effectiveSize,C=this.scale;A.width!==sQ?I.width=A.width:A.height!==sQ?I.width=Math.round(A.height*(g.width/Math.max(g.height,1))):I.width=Math.round(g.width*C),A.height!==sQ?I.height=A.height:A.width!==sQ?I.height=Math.round(A.width/Math.max(g.width/Math.max(g.height,1),1)):I.height=Math.round(g.height*C)}get width(){return this.effectiveSize.width}set width(g){this.preferredWidth=g}get height(){return this.effectiveSize.height}set height(g){this.preferredHeight=g}getWidth(){return this.width}getHeight(){return this.height}get scale(){return this.s}set scale(g){this.s!==g&&(this.s=g,this.preferredSize.setScalar(sQ),this.dispatchEvent({type:"change"}),this.resizable.setSize(this.baseSize.width,this.baseSize.height))}getScale(){return this.scale}setScale(g){this.scale=g}get baseWidth(){return this.baseSize.width}set baseWidth(g){this.baseSize.width!==g&&(this.baseSize.width=g,this.dispatchEvent({type:"change"}),this.resizable.setSize(this.baseSize.width,this.baseSize.height))}getBaseWidth(){return this.baseWidth}setBaseWidth(g){this.baseWidth=g}get baseHeight(){return this.baseSize.height}set baseHeight(g){this.baseSize.height!==g&&(this.baseSize.height=g,this.dispatchEvent({type:"change"}),this.resizable.setSize(this.baseSize.width,this.baseSize.height))}getBaseHeight(){return this.baseHeight}setBaseHeight(g){this.baseHeight=g}setBaseSize(g,A){(this.baseSize.width!==g||this.baseSize.height!==A)&&(this.baseSize.set(g,A),this.dispatchEvent({type:"change"}),this.resizable.setSize(this.baseSize.width,this.baseSize.height))}get preferredWidth(){return this.preferredSize.width}set preferredWidth(g){this.preferredSize.width!==g&&(this.preferredSize.width=g,this.dispatchEvent({type:"change"}),this.resizable.setSize(this.baseSize.width,this.baseSize.height))}getPreferredWidth(){return this.preferredWidth}setPreferredWidth(g){this.preferredWidth=g}get preferredHeight(){return this.preferredSize.height}set preferredHeight(g){this.preferredSize.height!==g&&(this.preferredSize.height=g,this.dispatchEvent({type:"change"}),this.resizable.setSize(this.baseSize.width,this.baseSize.height))}getPreferredHeight(){return this.preferredHeight}setPreferredHeight(g){this.preferredHeight=g}setPreferredSize(g,A){(this.preferredSize.width!==g||this.preferredSize.height!==A)&&(this.preferredSize.set(g,A),this.dispatchEvent({type:"change"}),this.resizable.setSize(this.baseSize.width,this.baseSize.height))}copy(g){this.s=g.scale,this.baseSize.set(g.baseWidth,g.baseHeight),this.preferredSize.set(g.preferredWidth,g.preferredHeight),this.dispatchEvent({type:"change"}),this.resizable.setSize(this.baseSize.width,this.baseSize.height)}static get AUTO_SIZE(){return sQ}},eI={ADD:0,ALPHA:1,AVERAGE:2,COLOR:3,COLOR_BURN:4,COLOR_DODGE:5,DARKEN:6,DIFFERENCE:7,DIVIDE:8,DST:9,EXCLUSION:10,HARD_LIGHT:11,HARD_MIX:12,HUE:13,INVERT:14,INVERT_RGB:15,LIGHTEN:16,LINEAR_BURN:17,LINEAR_DODGE:18,LINEAR_LIGHT:19,LUMINOSITY:20,MULTIPLY:21,NEGATION:22,NORMAL:23,OVERLAY:24,PIN_LIGHT:25,REFLECT:26,SATURATION:27,SCREEN:28,SOFT_LIGHT:29,SRC:30,SUBTRACT:31,VIVID_LIGHT:32},HY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(x.rgb+y.rgb,y.a),opacity);}",mY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,y,y.a*opacity);}",TY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4((x.rgb+y.rgb)*0.5,y.a),opacity);}",xY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 xHSL=RGBToHSL(x.rgb);vec3 yHSL=RGBToHSL(y.rgb);vec3 z=HSLToRGB(vec3(yHSL.xy,xHSL.z));return mix(x,vec4(z,y.a),opacity);}",bY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 a=x.rgb,b=y.rgb;vec3 z=mix(step(0.0,b)*(1.0-min(vec3(1.0),(1.0-a)/b)),vec3(1.0),step(1.0,a));return mix(x,vec4(z,y.a),opacity);}",OY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 a=x.rgb,b=y.rgb;vec3 z=step(0.0,a)*mix(min(vec3(1.0),a/max(1.0-b,1e-9)),vec3(1.0),step(1.0,b));return mix(x,vec4(z,y.a),opacity);}",vY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(min(x.rgb,y.rgb),y.a),opacity);}",_Y="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(abs(x.rgb-y.rgb),y.a),opacity);}",ZY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(x.rgb/max(y.rgb,1e-12),y.a),opacity);}",WY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4((x.rgb+y.rgb-2.0*x.rgb*y.rgb),y.a),opacity);}",PY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 a=min(x.rgb,1.0);vec3 b=min(y.rgb,1.0);vec3 z=mix(2.0*a*b,1.0-2.0*(1.0-a)*(1.0-b),step(0.5,b));return mix(x,vec4(z,y.a),opacity);}",jY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(step(1.0,x.rgb+y.rgb),y.a),opacity);}",XY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 xHSL=RGBToHSL(x.rgb);vec3 yHSL=RGBToHSL(y.rgb);vec3 z=HSLToRGB(vec3(yHSL.x,xHSL.yz));return mix(x,vec4(z,y.a),opacity);}",VY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(1.0-y.rgb,y.a),opacity);}",zY="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(y.rgb*(1.0-x.rgb),y.a),opacity);}",$Y="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(max(x.rgb,y.rgb),y.a),opacity);}",Au="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(clamp(y.rgb+x.rgb-1.0,0.0,1.0),y.a),opacity);}",Iu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(min(x.rgb+y.rgb,1.0),y.a),opacity);}",gu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(clamp(2.0*y.rgb+x.rgb-1.0,0.0,1.0),y.a),opacity);}",Cu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 xHSL=RGBToHSL(x.rgb);vec3 yHSL=RGBToHSL(y.rgb);vec3 z=HSLToRGB(vec3(xHSL.xy,yHSL.z));return mix(x,vec4(z,y.a),opacity);}",Bu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(x.rgb*y.rgb,y.a),opacity);}",Qu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(1.0-abs(1.0-x.rgb-y.rgb),y.a),opacity);}",Eu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,y,opacity);}",iu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 z=mix(2.0*y.rgb*x.rgb,1.0-2.0*(1.0-y.rgb)*(1.0-x.rgb),step(0.5,x.rgb));return mix(x,vec4(z,y.a),opacity);}",ou="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 y2=2.0*y.rgb;vec3 z=mix(mix(y2,x.rgb,step(0.5*x.rgb,y.rgb)),max(y2-1.0,vec3(0.0)),step(x.rgb,y2-1.0));return mix(x,vec4(z,y.a),opacity);}",tu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 z=mix(min(x.rgb*x.rgb/max(1.0-y.rgb,1e-12),1.0),y.rgb,step(1.0,y.rgb));return mix(x,vec4(z,y.a),opacity);}",eu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 xHSL=RGBToHSL(x.rgb);vec3 yHSL=RGBToHSL(y.rgb);vec3 z=HSLToRGB(vec3(xHSL.x,yHSL.y,xHSL.z));return mix(x,vec4(z,y.a),opacity);}",su="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(x.rgb+y.rgb-min(x.rgb*y.rgb,1.0),y.a),opacity);}",au="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 a=x.rgb;vec3 b=y.rgb;vec3 y2=2.0*b;vec3 w=step(0.5,b);vec3 c=a-(1.0-y2)*a*(1.0-a);vec3 d=mix(a+(y2-1.0)*(sqrt(a)-a),a+(y2-1.0)*a*((16.0*a-12.0)*a+3.0),w*(1.0-step(0.25,a)));vec3 z=mix(c,d,w);return mix(x,vec4(z,y.a),opacity);}",Du="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return y;}",nu="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){return mix(x,vec4(max(x.rgb+y.rgb-1.0,0.0),y.a),opacity);}",ru="vec4 blend(const in vec4 x,const in vec4 y,const in float opacity){vec3 z=mix(max(1.0-min((1.0-x.rgb)/(2.0*y.rgb),1.0),0.0),min(x.rgb/(2.0*(1.0-y.rgb)),1.0),step(0.5,y.rgb));return mix(x,vec4(z,y.a),opacity);}",hu=new Map([[eI.ADD,HY],[eI.ALPHA,mY],[eI.AVERAGE,TY],[eI.COLOR,xY],[eI.COLOR_BURN,bY],[eI.COLOR_DODGE,OY],[eI.DARKEN,vY],[eI.DIFFERENCE,_Y],[eI.DIVIDE,ZY],[eI.DST,null],[eI.EXCLUSION,WY],[eI.HARD_LIGHT,PY],[eI.HARD_MIX,jY],[eI.HUE,XY],[eI.INVERT,VY],[eI.INVERT_RGB,zY],[eI.LIGHTEN,$Y],[eI.LINEAR_BURN,Au],[eI.LINEAR_DODGE,Iu],[eI.LINEAR_LIGHT,gu],[eI.LUMINOSITY,Cu],[eI.MULTIPLY,Bu],[eI.NEGATION,Qu],[eI.NORMAL,Eu],[eI.OVERLAY,iu],[eI.PIN_LIGHT,ou],[eI.REFLECT,tu],[eI.SATURATION,eu],[eI.SCREEN,su],[eI.SOFT_LIGHT,au],[eI.SRC,Du],[eI.SUBTRACT,nu],[eI.VIVID_LIGHT,ru]]),Su=class extends CQ{constructor(g,A=1){super(),this._blendFunction=g,this.opacity=new VA(A)}getOpacity(){return this.opacity.value}setOpacity(g){this.opacity.value=g}get blendFunction(){return this._blendFunction}set blendFunction(g){this._blendFunction=g,this.dispatchEvent({type:"change"})}getBlendFunction(){return this.blendFunction}setBlendFunction(g){this.blendFunction=g}getShaderCode(){return hu.get(this.blendFunction)}},In=class extends CQ{constructor(g,A,{attributes:I=zQ.NONE,blendFunction:C=eI.NORMAL,defines:B=new Map,uniforms:Q=new Map,extensions:E=null,vertexShader:i=null}={}){super(),this.name=g,this.renderer=null,this.attributes=I,this.fragmentShader=A,this.vertexShader=i,this.defines=B,this.uniforms=Q,this.extensions=E,this.blendMode=new Su(C),this.blendMode.addEventListener("change",o=>this.setChanged()),this._inputColorSpace=kQ,this._outputColorSpace=GB}get inputColorSpace(){return this._inputColorSpace}set inputColorSpace(g){this._inputColorSpace=g,this.setChanged()}get outputColorSpace(){return this._outputColorSpace}set outputColorSpace(g){this._outputColorSpace=g,this.setChanged()}set mainScene(g){}set mainCamera(g){}getName(){return this.name}setRenderer(g){this.renderer=g}getDefines(){return this.defines}getUniforms(){return this.uniforms}getExtensions(){return this.extensions}getBlendMode(){return this.blendMode}getAttributes(){return this.attributes}setAttributes(g){this.attributes=g,this.setChanged()}getFragmentShader(){return this.fragmentShader}setFragmentShader(g){this.fragmentShader=g,this.setChanged()}getVertexShader(){return this.vertexShader}setVertexShader(g){this.vertexShader=g,this.setChanged()}setChanged(){this.dispatchEvent({type:"change"})}setDepthTexture(g,A=Ko){}update(g,A,I){}setSize(g,A){}initialize(g,A,I){}dispose(){for(const g of Object.keys(this)){const A=this[g];(A instanceof Wg||A instanceof eE||A instanceof Og||A instanceof zC)&&this[g].dispose()}}},gn={MEDIUM:2,LARGE:3},cu=`#ifdef FRAMEBUFFER_PRECISION_HIGH
uniform mediump sampler2D inputBuffer;
#else
uniform lowp sampler2D inputBuffer;
#endif
varying vec2 vUv0;varying vec2 vUv1;varying vec2 vUv2;varying vec2 vUv3;void main(){vec4 sum=texture2D(inputBuffer,vUv0);sum+=texture2D(inputBuffer,vUv1);sum+=texture2D(inputBuffer,vUv2);sum+=texture2D(inputBuffer,vUv3);gl_FragColor=sum*0.25;
#include <colorspace_fragment>
}`,wu="uniform vec4 texelSize;uniform float kernel;uniform float scale;varying vec2 vUv0;varying vec2 vUv1;varying vec2 vUv2;varying vec2 vUv3;void main(){vec2 uv=position.xy*0.5+0.5;vec2 dUv=(texelSize.xy*vec2(kernel)+texelSize.zw)*scale;vUv0=vec2(uv.x-dUv.x,uv.y+dUv.y);vUv1=vec2(uv.x+dUv.x,uv.y+dUv.y);vUv2=vec2(uv.x+dUv.x,uv.y-dUv.y);vUv3=vec2(uv.x-dUv.x,uv.y-dUv.y);gl_Position=vec4(position.xy,1.0,1.0);}",lu=[new Float32Array([0,0]),new Float32Array([0,1,1]),new Float32Array([0,1,1,2]),new Float32Array([0,1,2,2,3]),new Float32Array([0,1,2,3,4,4,5]),new Float32Array([0,1,2,3,4,5,7,8,9,10])],Gu=class extends CC{constructor(g=new Bg){super({name:"KawaseBlurMaterial",uniforms:{inputBuffer:new VA(null),texelSize:new VA(new Bg),scale:new VA(1),kernel:new VA(0)},blending:oC,toneMapped:!1,depthWrite:!1,depthTest:!1,fragmentShader:cu,vertexShader:wu}),this.setTexelSize(g.x,g.y),this.kernelSize=gn.MEDIUM}set inputBuffer(g){this.uniforms.inputBuffer.value=g}setInputBuffer(g){this.inputBuffer=g}get kernelSequence(){return lu[this.kernelSize]}get scale(){return this.uniforms.scale.value}set scale(g){this.uniforms.scale.value=g}getScale(){return this.uniforms.scale.value}setScale(g){this.uniforms.scale.value=g}getKernel(){return null}get kernel(){return this.uniforms.kernel.value}set kernel(g){this.uniforms.kernel.value=g}setKernel(g){this.kernel=g}setTexelSize(g,A){this.uniforms.texelSize.value.set(g,A,g*.5,A*.5)}setSize(g,A){const I=1/g,C=1/A;this.uniforms.texelSize.value.set(I,C,I*.5,C*.5)}},yu=class extends zC{constructor({kernelSize:g=gn.MEDIUM,resolutionScale:A=.5,width:I=NB.AUTO_SIZE,height:C=NB.AUTO_SIZE,resolutionX:B=I,resolutionY:Q=C}={}){super("KawaseBlurPass"),this.renderTargetA=new Wg(1,1,{depthBuffer:!1}),this.renderTargetA.texture.name="Blur.Target.A",this.renderTargetB=this.renderTargetA.clone(),this.renderTargetB.texture.name="Blur.Target.B";const E=this.resolution=new NB(this,B,Q,A);E.addEventListener("change",i=>this.setSize(E.baseWidth,E.baseHeight)),this._blurMaterial=new Gu,this._blurMaterial.kernelSize=g,this.copyMaterial=new pw}getResolution(){return this.resolution}get blurMaterial(){return this._blurMaterial}set blurMaterial(g){this._blurMaterial=g}get dithering(){return this.copyMaterial.dithering}set dithering(g){this.copyMaterial.dithering=g}get kernelSize(){return this.blurMaterial.kernelSize}set kernelSize(g){this.blurMaterial.kernelSize=g}get width(){return this.resolution.width}set width(g){this.resolution.preferredWidth=g}get height(){return this.resolution.height}set height(g){this.resolution.preferredHeight=g}get scale(){return this.blurMaterial.scale}set scale(g){this.blurMaterial.scale=g}getScale(){return this.blurMaterial.scale}setScale(g){this.blurMaterial.scale=g}getKernelSize(){return this.kernelSize}setKernelSize(g){this.kernelSize=g}getResolutionScale(){return this.resolution.scale}setResolutionScale(g){this.resolution.scale=g}render(g,A,I,C,B){const Q=this.scene,E=this.camera,i=this.renderTargetA,o=this.renderTargetB,t=this.blurMaterial,e=t.kernelSequence;let s=A;this.fullscreenMaterial=t;for(let a=0,D=e.length;a<D;++a){const n=a&1?o:i;t.kernel=e[a],t.inputBuffer=s.texture,g.setRenderTarget(n),g.render(Q,E),s=n}this.fullscreenMaterial=this.copyMaterial,this.copyMaterial.inputBuffer=s.texture,g.setRenderTarget(this.renderToScreen?null:I),g.render(Q,E)}setSize(g,A){const I=this.resolution;I.setBaseSize(g,A);const C=I.width,B=I.height;this.renderTargetA.setSize(C,B),this.renderTargetB.setSize(C,B),this.blurMaterial.setSize(g,A)}initialize(g,A,I){I!==void 0&&(this.renderTargetA.texture.type=I,this.renderTargetB.texture.type=I,I!==Zg?(this.blurMaterial.defines.FRAMEBUFFER_PRECISION_HIGH="1",this.copyMaterial.defines.FRAMEBUFFER_PRECISION_HIGH="1"):g!==null&&g.outputColorSpace===qI&&(this.renderTargetA.texture.colorSpace=qI,this.renderTargetB.texture.colorSpace=qI))}static get AUTO_SIZE(){return NB.AUTO_SIZE}},ku=`#include <common>
#ifdef FRAMEBUFFER_PRECISION_HIGH
uniform mediump sampler2D inputBuffer;
#else
uniform lowp sampler2D inputBuffer;
#endif
#ifdef RANGE
uniform vec2 range;
#elif defined(THRESHOLD)
uniform float threshold;uniform float smoothing;
#endif
varying vec2 vUv;void main(){vec4 texel=texture2D(inputBuffer,vUv);float l=luminance(texel.rgb);float mask=1.0;
#ifdef RANGE
float low=step(range.x,l);float high=step(l,range.y);mask=low*high;
#elif defined(THRESHOLD)
mask=smoothstep(threshold,threshold+smoothing,l);
#endif
#ifdef COLOR
gl_FragColor=texel*mask;
#else
gl_FragColor=vec4(l*mask);
#endif
}`,Mu=class extends CC{constructor(g=!1,A=null){super({name:"LuminanceMaterial",defines:{THREE_REVISION:ci.replace(/\D+/g,"")},uniforms:{inputBuffer:new VA(null),threshold:new VA(0),smoothing:new VA(1),range:new VA(null)},blending:oC,toneMapped:!1,depthWrite:!1,depthTest:!1,fragmentShader:ku,vertexShader:An}),this.colorOutput=g,this.luminanceRange=A}set inputBuffer(g){this.uniforms.inputBuffer.value=g}setInputBuffer(g){this.uniforms.inputBuffer.value=g}get threshold(){return this.uniforms.threshold.value}set threshold(g){this.smoothing>0||g>0?this.defines.THRESHOLD="1":delete this.defines.THRESHOLD,this.uniforms.threshold.value=g}getThreshold(){return this.threshold}setThreshold(g){this.threshold=g}get smoothing(){return this.uniforms.smoothing.value}set smoothing(g){this.threshold>0||g>0?this.defines.THRESHOLD="1":delete this.defines.THRESHOLD,this.uniforms.smoothing.value=g}getSmoothingFactor(){return this.smoothing}setSmoothingFactor(g){this.smoothing=g}get useThreshold(){return this.threshold>0||this.smoothing>0}set useThreshold(g){}get colorOutput(){return this.defines.COLOR!==void 0}set colorOutput(g){g?this.defines.COLOR="1":delete this.defines.COLOR,this.needsUpdate=!0}isColorOutputEnabled(g){return this.colorOutput}setColorOutputEnabled(g){this.colorOutput=g}get useRange(){return this.luminanceRange!==null}set useRange(g){this.luminanceRange=null}get luminanceRange(){return this.uniforms.range.value}set luminanceRange(g){g!==null?this.defines.RANGE="1":delete this.defines.RANGE,this.uniforms.range.value=g,this.needsUpdate=!0}getLuminanceRange(){return this.luminanceRange}setLuminanceRange(g){this.luminanceRange=g}},Yw=class extends zC{constructor({renderTarget:g,luminanceRange:A,colorOutput:I,resolutionScale:C=1,width:B=NB.AUTO_SIZE,height:Q=NB.AUTO_SIZE,resolutionX:E=B,resolutionY:i=Q}={}){super("LuminancePass"),this.fullscreenMaterial=new Mu(I,A),this.needsSwap=!1,this.renderTarget=g,this.renderTarget===void 0&&(this.renderTarget=new Wg(1,1,{depthBuffer:!1}),this.renderTarget.texture.name="LuminancePass.Target");const o=this.resolution=new NB(this,E,i,C);o.addEventListener("change",t=>this.setSize(o.baseWidth,o.baseHeight))}get texture(){return this.renderTarget.texture}getTexture(){return this.renderTarget.texture}getResolution(){return this.resolution}render(g,A,I,C,B){const Q=this.fullscreenMaterial;Q.inputBuffer=A.texture,g.setRenderTarget(this.renderToScreen?null:this.renderTarget),g.render(this.scene,this.camera)}setSize(g,A){const I=this.resolution;I.setBaseSize(g,A),this.renderTarget.setSize(I.width,I.height)}initialize(g,A,I){I!==void 0&&I!==Zg&&(this.renderTarget.texture.type=I,this.fullscreenMaterial.defines.FRAMEBUFFER_PRECISION_HIGH="1")}},Uu=`#ifdef FRAMEBUFFER_PRECISION_HIGH
uniform mediump sampler2D inputBuffer;
#else
uniform lowp sampler2D inputBuffer;
#endif
#define WEIGHT_INNER 0.125
#define WEIGHT_OUTER 0.0555555
varying vec2 vUv;varying vec2 vUv00;varying vec2 vUv01;varying vec2 vUv02;varying vec2 vUv03;varying vec2 vUv04;varying vec2 vUv05;varying vec2 vUv06;varying vec2 vUv07;varying vec2 vUv08;varying vec2 vUv09;varying vec2 vUv10;varying vec2 vUv11;float clampToBorder(const in vec2 uv){return float(uv.s>=0.0&&uv.s<=1.0&&uv.t>=0.0&&uv.t<=1.0);}void main(){vec4 c=vec4(0.0);vec4 w=WEIGHT_INNER*vec4(clampToBorder(vUv00),clampToBorder(vUv01),clampToBorder(vUv02),clampToBorder(vUv03));c+=w.x*texture2D(inputBuffer,vUv00);c+=w.y*texture2D(inputBuffer,vUv01);c+=w.z*texture2D(inputBuffer,vUv02);c+=w.w*texture2D(inputBuffer,vUv03);w=WEIGHT_OUTER*vec4(clampToBorder(vUv04),clampToBorder(vUv05),clampToBorder(vUv06),clampToBorder(vUv07));c+=w.x*texture2D(inputBuffer,vUv04);c+=w.y*texture2D(inputBuffer,vUv05);c+=w.z*texture2D(inputBuffer,vUv06);c+=w.w*texture2D(inputBuffer,vUv07);w=WEIGHT_OUTER*vec4(clampToBorder(vUv08),clampToBorder(vUv09),clampToBorder(vUv10),clampToBorder(vUv11));c+=w.x*texture2D(inputBuffer,vUv08);c+=w.y*texture2D(inputBuffer,vUv09);c+=w.z*texture2D(inputBuffer,vUv10);c+=w.w*texture2D(inputBuffer,vUv11);c+=WEIGHT_OUTER*texture2D(inputBuffer,vUv);gl_FragColor=c;
#include <colorspace_fragment>
}`,Ku="uniform vec2 texelSize;varying vec2 vUv;varying vec2 vUv00;varying vec2 vUv01;varying vec2 vUv02;varying vec2 vUv03;varying vec2 vUv04;varying vec2 vUv05;varying vec2 vUv06;varying vec2 vUv07;varying vec2 vUv08;varying vec2 vUv09;varying vec2 vUv10;varying vec2 vUv11;void main(){vUv=position.xy*0.5+0.5;vUv00=vUv+texelSize*vec2(-1.0,1.0);vUv01=vUv+texelSize*vec2(1.0,1.0);vUv02=vUv+texelSize*vec2(-1.0,-1.0);vUv03=vUv+texelSize*vec2(1.0,-1.0);vUv04=vUv+texelSize*vec2(-2.0,2.0);vUv05=vUv+texelSize*vec2(0.0,2.0);vUv06=vUv+texelSize*vec2(2.0,2.0);vUv07=vUv+texelSize*vec2(-2.0,0.0);vUv08=vUv+texelSize*vec2(2.0,0.0);vUv09=vUv+texelSize*vec2(-2.0,-2.0);vUv10=vUv+texelSize*vec2(0.0,-2.0);vUv11=vUv+texelSize*vec2(2.0,-2.0);gl_Position=vec4(position.xy,1.0,1.0);}",Nu=class extends CC{constructor(){super({name:"DownsamplingMaterial",uniforms:{inputBuffer:new VA(null),texelSize:new VA(new PA)},blending:oC,toneMapped:!1,depthWrite:!1,depthTest:!1,fragmentShader:Uu,vertexShader:Ku})}set inputBuffer(g){this.uniforms.inputBuffer.value=g}setSize(g,A){this.uniforms.texelSize.value.set(1/g,1/A)}},Ju=`#ifdef FRAMEBUFFER_PRECISION_HIGH
uniform mediump sampler2D inputBuffer;uniform mediump sampler2D supportBuffer;
#else
uniform lowp sampler2D inputBuffer;uniform lowp sampler2D supportBuffer;
#endif
uniform float radius;varying vec2 vUv;varying vec2 vUv0;varying vec2 vUv1;varying vec2 vUv2;varying vec2 vUv3;varying vec2 vUv4;varying vec2 vUv5;varying vec2 vUv6;varying vec2 vUv7;void main(){vec4 c=vec4(0.0);c+=texture2D(inputBuffer,vUv0)*0.0625;c+=texture2D(inputBuffer,vUv1)*0.125;c+=texture2D(inputBuffer,vUv2)*0.0625;c+=texture2D(inputBuffer,vUv3)*0.125;c+=texture2D(inputBuffer,vUv)*0.25;c+=texture2D(inputBuffer,vUv4)*0.125;c+=texture2D(inputBuffer,vUv5)*0.0625;c+=texture2D(inputBuffer,vUv6)*0.125;c+=texture2D(inputBuffer,vUv7)*0.0625;vec4 baseColor=texture2D(supportBuffer,vUv);gl_FragColor=mix(baseColor,c,radius);
#include <colorspace_fragment>
}`,Fu="uniform vec2 texelSize;varying vec2 vUv;varying vec2 vUv0;varying vec2 vUv1;varying vec2 vUv2;varying vec2 vUv3;varying vec2 vUv4;varying vec2 vUv5;varying vec2 vUv6;varying vec2 vUv7;void main(){vUv=position.xy*0.5+0.5;vUv0=vUv+texelSize*vec2(-1.0,1.0);vUv1=vUv+texelSize*vec2(0.0,1.0);vUv2=vUv+texelSize*vec2(1.0,1.0);vUv3=vUv+texelSize*vec2(-1.0,0.0);vUv4=vUv+texelSize*vec2(1.0,0.0);vUv5=vUv+texelSize*vec2(-1.0,-1.0);vUv6=vUv+texelSize*vec2(0.0,-1.0);vUv7=vUv+texelSize*vec2(1.0,-1.0);gl_Position=vec4(position.xy,1.0,1.0);}",pu=class extends CC{constructor(){super({name:"UpsamplingMaterial",uniforms:{inputBuffer:new VA(null),supportBuffer:new VA(null),texelSize:new VA(new PA),radius:new VA(.85)},blending:oC,toneMapped:!1,depthWrite:!1,depthTest:!1,fragmentShader:Ju,vertexShader:Fu})}set inputBuffer(g){this.uniforms.inputBuffer.value=g}set supportBuffer(g){this.uniforms.supportBuffer.value=g}get radius(){return this.uniforms.radius.value}set radius(g){this.uniforms.radius.value=g}setSize(g,A){this.uniforms.texelSize.value.set(1/g,1/A)}},Ru=class extends zC{constructor(){super("MipmapBlurPass"),this.needsSwap=!1,this.renderTarget=new Wg(1,1,{depthBuffer:!1}),this.renderTarget.texture.name="Upsampling.Mipmap0",this.downsamplingMipmaps=[],this.upsamplingMipmaps=[],this.downsamplingMaterial=new Nu,this.upsamplingMaterial=new pu,this.resolution=new PA}get texture(){return this.renderTarget.texture}get levels(){return this.downsamplingMipmaps.length}set levels(g){if(this.levels!==g){const A=this.renderTarget;this.dispose(),this.downsamplingMipmaps=[],this.upsamplingMipmaps=[];for(let I=0;I<g;++I){const C=A.clone();C.texture.name="Downsampling.Mipmap"+I,this.downsamplingMipmaps.push(C)}this.upsamplingMipmaps.push(A);for(let I=1,C=g-1;I<C;++I){const B=A.clone();B.texture.name="Upsampling.Mipmap"+I,this.upsamplingMipmaps.push(B)}this.setSize(this.resolution.x,this.resolution.y)}}get radius(){return this.upsamplingMaterial.radius}set radius(g){this.upsamplingMaterial.radius=g}render(g,A,I,C,B){const{scene:Q,camera:E}=this,{downsamplingMaterial:i,upsamplingMaterial:o}=this,{downsamplingMipmaps:t,upsamplingMipmaps:e}=this;let s=A;this.fullscreenMaterial=i;for(let a=0,D=t.length;a<D;++a){const n=t[a];i.setSize(s.width,s.height),i.inputBuffer=s.texture,g.setRenderTarget(n),g.render(Q,E),s=n}this.fullscreenMaterial=o;for(let a=e.length-1;a>=0;--a){const D=e[a];o.setSize(s.width,s.height),o.inputBuffer=s.texture,o.supportBuffer=t[a].texture,g.setRenderTarget(D),g.render(Q,E),s=D}}setSize(g,A){const I=this.resolution;I.set(g,A);let C=I.width,B=I.height;for(let Q=0,E=this.downsamplingMipmaps.length;Q<E;++Q)C=Math.round(C*.5),B=Math.round(B*.5),this.downsamplingMipmaps[Q].setSize(C,B),Q<this.upsamplingMipmaps.length&&this.upsamplingMipmaps[Q].setSize(C,B)}initialize(g,A,I){if(I!==void 0){const C=this.downsamplingMipmaps.concat(this.upsamplingMipmaps);for(const B of C)B.texture.type=I;if(I!==Zg)this.downsamplingMaterial.defines.FRAMEBUFFER_PRECISION_HIGH="1",this.upsamplingMaterial.defines.FRAMEBUFFER_PRECISION_HIGH="1";else if(g!==null&&g.outputColorSpace===qI)for(const B of C)B.texture.colorSpace=qI}}dispose(){super.dispose();for(const g of this.downsamplingMipmaps.concat(this.upsamplingMipmaps))g.dispose()}},du=`#ifdef FRAMEBUFFER_PRECISION_HIGH
uniform mediump sampler2D map;
#else
uniform lowp sampler2D map;
#endif
uniform float intensity;void mainImage(const in vec4 inputColor,const in vec2 uv,out vec4 outputColor){vec4 texel=texture2D(map,uv);outputColor=vec4(texel.rgb*intensity,max(inputColor.a,texel.a));}`,Yu=class extends In{constructor({blendFunction:g=eI.SCREEN,luminanceThreshold:A=1,luminanceSmoothing:I=.03,mipmapBlur:C=!0,intensity:B=1,radius:Q=.85,levels:E=8,kernelSize:i=gn.LARGE,resolutionScale:o=.5,width:t=NB.AUTO_SIZE,height:e=NB.AUTO_SIZE,resolutionX:s=t,resolutionY:a=e}={}){super("BloomEffect",du,{blendFunction:g,uniforms:new Map([["map",new VA(null)],["intensity",new VA(B)]])}),this.renderTarget=new Wg(1,1,{depthBuffer:!1}),this.renderTarget.texture.name="Bloom.Target",this.blurPass=new yu({kernelSize:i}),this.luminancePass=new Yw({colorOutput:!0}),this.luminanceMaterial.threshold=A,this.luminanceMaterial.smoothing=I,this.mipmapBlurPass=new Ru,this.mipmapBlurPass.enabled=C,this.mipmapBlurPass.radius=Q,this.mipmapBlurPass.levels=E,this.uniforms.get("map").value=C?this.mipmapBlurPass.texture:this.renderTarget.texture;const D=this.resolution=new NB(this,s,a,o);D.addEventListener("change",n=>this.setSize(D.baseWidth,D.baseHeight))}get texture(){return this.mipmapBlurPass.enabled?this.mipmapBlurPass.texture:this.renderTarget.texture}getTexture(){return this.texture}getResolution(){return this.resolution}getBlurPass(){return this.blurPass}getLuminancePass(){return this.luminancePass}get luminanceMaterial(){return this.luminancePass.fullscreenMaterial}getLuminanceMaterial(){return this.luminancePass.fullscreenMaterial}get width(){return this.resolution.width}set width(g){this.resolution.preferredWidth=g}get height(){return this.resolution.height}set height(g){this.resolution.preferredHeight=g}get dithering(){return this.blurPass.dithering}set dithering(g){this.blurPass.dithering=g}get kernelSize(){return this.blurPass.kernelSize}set kernelSize(g){this.blurPass.kernelSize=g}get distinction(){return console.warn(this.name,"distinction was removed"),1}set distinction(g){console.warn(this.name,"distinction was removed")}get intensity(){return this.uniforms.get("intensity").value}set intensity(g){this.uniforms.get("intensity").value=g}getIntensity(){return this.intensity}setIntensity(g){this.intensity=g}getResolutionScale(){return this.resolution.scale}setResolutionScale(g){this.resolution.scale=g}update(g,A,I){const C=this.renderTarget,B=this.luminancePass;B.enabled?(B.render(g,A),this.mipmapBlurPass.enabled?this.mipmapBlurPass.render(g,B.renderTarget):this.blurPass.render(g,B.renderTarget,C)):this.mipmapBlurPass.enabled?this.mipmapBlurPass.render(g,A):this.blurPass.render(g,A,C)}setSize(g,A){const I=this.resolution;I.setBaseSize(g,A),this.renderTarget.setSize(I.width,I.height),this.blurPass.resolution.copy(I),this.luminancePass.setSize(g,A),this.mipmapBlurPass.setSize(g,A)}initialize(g,A,I){this.blurPass.initialize(g,A,I),this.luminancePass.initialize(g,A,I),this.mipmapBlurPass.initialize(g,A,I),I!==void 0&&(this.renderTarget.texture.type=I,g!==null&&g.outputColorSpace===qI&&(this.renderTarget.texture.colorSpace=qI))}},uu=class extends zC{constructor(g,A,I=null){super("RenderPass",g,A),this.needsSwap=!1,this.clearPass=new dw,this.overrideMaterialManager=I===null?null:new gS(I),this.ignoreBackground=!1,this.skipShadowMapUpdate=!1,this.selection=null}set mainScene(g){this.scene=g}set mainCamera(g){this.camera=g}get renderToScreen(){return super.renderToScreen}set renderToScreen(g){super.renderToScreen=g,this.clearPass.renderToScreen=g}get overrideMaterial(){const g=this.overrideMaterialManager;return g!==null?g.material:null}set overrideMaterial(g){const A=this.overrideMaterialManager;g!==null?A!==null?A.setMaterial(g):this.overrideMaterialManager=new gS(g):A!==null&&(A.dispose(),this.overrideMaterialManager=null)}getOverrideMaterial(){return this.overrideMaterial}setOverrideMaterial(g){this.overrideMaterial=g}get clear(){return this.clearPass.enabled}set clear(g){this.clearPass.enabled=g}getSelection(){return this.selection}setSelection(g){this.selection=g}isBackgroundDisabled(){return this.ignoreBackground}setBackgroundDisabled(g){this.ignoreBackground=g}isShadowMapDisabled(){return this.skipShadowMapUpdate}setShadowMapDisabled(g){this.skipShadowMapUpdate=g}getClearPass(){return this.clearPass}render(g,A,I,C,B){const Q=this.scene,E=this.camera,i=this.selection,o=E.layers.mask,t=Q.background,e=g.shadowMap.autoUpdate,s=this.renderToScreen?null:A;i!==null&&E.layers.set(i.getLayer()),this.skipShadowMapUpdate&&(g.shadowMap.autoUpdate=!1),(this.ignoreBackground||this.clearPass.overrideClearColor!==null)&&(Q.background=null),this.clearPass.enabled&&this.clearPass.render(g,A),g.setRenderTarget(s),this.overrideMaterialManager!==null?this.overrideMaterialManager.render(g,Q,E):g.render(Q,E),E.layers.mask=o,Q.background=t,g.shadowMap.autoUpdate=e}},MC={LINEAR:0,REINHARD:1,REINHARD2:2,REINHARD2_ADAPTIVE:3,OPTIMIZED_CINEON:5,CINEON:5,ACES_FILMIC:6,AGX:7,NEUTRAL:8},qu=`#include <packing>
#define packFloatToRGBA(v) packDepthToRGBA(v)
#define unpackRGBAToFloat(v) unpackRGBAToDepth(v)
uniform lowp sampler2D luminanceBuffer0;uniform lowp sampler2D luminanceBuffer1;uniform float minLuminance;uniform float deltaTime;uniform float tau;varying vec2 vUv;void main(){float l0=unpackRGBAToFloat(texture2D(luminanceBuffer0,vUv));
#if __VERSION__ < 300
float l1=texture2DLodEXT(luminanceBuffer1,vUv,MIP_LEVEL_1X1).r;
#else
float l1=textureLod(luminanceBuffer1,vUv,MIP_LEVEL_1X1).r;
#endif
l0=max(minLuminance,l0);l1=max(minLuminance,l1);float adaptedLum=l0+(l1-l0)*(1.0-exp(-deltaTime*tau));gl_FragColor=(adaptedLum==1.0)?vec4(1.0):packFloatToRGBA(adaptedLum);}`,fu=class extends CC{constructor(){super({name:"AdaptiveLuminanceMaterial",defines:{MIP_LEVEL_1X1:"0.0"},uniforms:{luminanceBuffer0:new VA(null),luminanceBuffer1:new VA(null),minLuminance:new VA(.01),deltaTime:new VA(0),tau:new VA(1)},extensions:{shaderTextureLOD:!0},blending:oC,toneMapped:!1,depthWrite:!1,depthTest:!1,fragmentShader:qu,vertexShader:An})}set luminanceBuffer0(g){this.uniforms.luminanceBuffer0.value=g}setLuminanceBuffer0(g){this.uniforms.luminanceBuffer0.value=g}set luminanceBuffer1(g){this.uniforms.luminanceBuffer1.value=g}setLuminanceBuffer1(g){this.uniforms.luminanceBuffer1.value=g}set mipLevel1x1(g){this.defines.MIP_LEVEL_1X1=g.toFixed(1),this.needsUpdate=!0}setMipLevel1x1(g){this.mipLevel1x1=g}set deltaTime(g){this.uniforms.deltaTime.value=g}setDeltaTime(g){this.uniforms.deltaTime.value=g}get minLuminance(){return this.uniforms.minLuminance.value}set minLuminance(g){this.uniforms.minLuminance.value=g}getMinLuminance(){return this.uniforms.minLuminance.value}setMinLuminance(g){this.uniforms.minLuminance.value=g}get adaptationRate(){return this.uniforms.tau.value}set adaptationRate(g){this.uniforms.tau.value=g}getAdaptationRate(){return this.uniforms.tau.value}setAdaptationRate(g){this.uniforms.tau.value=g}},Lu=class extends zC{constructor(g,{minLuminance:A=.01,adaptationRate:I=1}={}){super("AdaptiveLuminancePass"),this.fullscreenMaterial=new fu,this.needsSwap=!1,this.renderTargetPrevious=new Wg(1,1,{minFilter:tC,magFilter:tC,depthBuffer:!1}),this.renderTargetPrevious.texture.name="Luminance.Previous";const C=this.fullscreenMaterial;C.luminanceBuffer0=this.renderTargetPrevious.texture,C.luminanceBuffer1=g,C.minLuminance=A,C.adaptationRate=I,this.renderTargetAdapted=this.renderTargetPrevious.clone(),this.renderTargetAdapted.texture.name="Luminance.Adapted",this.copyPass=new Rw(this.renderTargetPrevious,!1)}get texture(){return this.renderTargetAdapted.texture}getTexture(){return this.renderTargetAdapted.texture}set mipLevel1x1(g){this.fullscreenMaterial.mipLevel1x1=g}get adaptationRate(){return this.fullscreenMaterial.adaptationRate}set adaptationRate(g){this.fullscreenMaterial.adaptationRate=g}render(g,A,I,C,B){this.fullscreenMaterial.deltaTime=C,g.setRenderTarget(this.renderToScreen?null:this.renderTargetAdapted),g.render(this.scene,this.camera),this.copyPass.render(g,this.renderTargetAdapted)}},Hu=`#include <tonemapping_pars_fragment>
uniform float whitePoint;
#if TONE_MAPPING_MODE == 2 || TONE_MAPPING_MODE == 3
uniform float middleGrey;
#if TONE_MAPPING_MODE == 3
uniform lowp sampler2D luminanceBuffer;
#else
uniform float averageLuminance;
#endif
vec3 Reinhard2ToneMapping(vec3 color){color*=toneMappingExposure;float l=luminance(color);
#if TONE_MAPPING_MODE == 3
float lumAvg=unpackRGBAToFloat(texture2D(luminanceBuffer,vec2(0.5)));
#else
float lumAvg=averageLuminance;
#endif
float lumScaled=(l*middleGrey)/max(lumAvg,1e-6);float lumCompressed=lumScaled*(1.0+lumScaled/(whitePoint*whitePoint));lumCompressed/=(1.0+lumScaled);return clamp(lumCompressed*color,0.0,1.0);}
#elif TONE_MAPPING_MODE == 4
#define A 0.15
#define B 0.50
#define C 0.10
#define D 0.20
#define E 0.02
#define F 0.30
vec3 Uncharted2Helper(const in vec3 x){return((x*(A*x+C*B)+D*E)/(x*(A*x+B)+D*F))-E/F;}vec3 Uncharted2ToneMapping(vec3 color){color*=toneMappingExposure;return clamp(Uncharted2Helper(color)/Uncharted2Helper(vec3(whitePoint)),0.0,1.0);}
#endif
void mainImage(const in vec4 inputColor,const in vec2 uv,out vec4 outputColor){
#if TONE_MAPPING_MODE == 2 || TONE_MAPPING_MODE == 3
outputColor=vec4(Reinhard2ToneMapping(inputColor.rgb),inputColor.a);
#elif TONE_MAPPING_MODE == 4
outputColor=vec4(Uncharted2ToneMapping(inputColor.rgb),inputColor.a);
#else
outputColor=vec4(toneMapping(inputColor.rgb),inputColor.a);
#endif
}`,CS=class extends In{constructor({blendFunction:g=eI.SRC,adaptive:A=!1,mode:I=A?MC.REINHARD2_ADAPTIVE:MC.AGX,resolution:C=256,maxLuminance:B=4,whitePoint:Q=B,middleGrey:E=.6,minLuminance:i=.01,averageLuminance:o=1,adaptationRate:t=1}={}){super("ToneMappingEffect",Hu,{blendFunction:g,uniforms:new Map([["luminanceBuffer",new VA(null)],["maxLuminance",new VA(B)],["whitePoint",new VA(Q)],["middleGrey",new VA(E)],["averageLuminance",new VA(o)]])}),this.renderTargetLuminance=new Wg(1,1,{minFilter:nQ,depthBuffer:!1}),this.renderTargetLuminance.texture.generateMipmaps=!0,this.renderTargetLuminance.texture.name="Luminance",this.luminancePass=new Yw({renderTarget:this.renderTargetLuminance}),this.adaptiveLuminancePass=new Lu(this.luminancePass.texture,{minLuminance:i,adaptationRate:t}),this.uniforms.get("luminanceBuffer").value=this.adaptiveLuminancePass.texture,this.resolution=C,this.mode=I}get mode(){return Number(this.defines.get("TONE_MAPPING_MODE"))}set mode(g){if(this.mode===g)return;const A=ci.replace(/\D+/g,"")>=168?"CineonToneMapping(texel)":"OptimizedCineonToneMapping(texel)";switch(this.defines.clear(),this.defines.set("TONE_MAPPING_MODE",g.toFixed(0)),g){case MC.LINEAR:this.defines.set("toneMapping(texel)","LinearToneMapping(texel)");break;case MC.REINHARD:this.defines.set("toneMapping(texel)","ReinhardToneMapping(texel)");break;case MC.CINEON:case MC.OPTIMIZED_CINEON:this.defines.set("toneMapping(texel)",A);break;case MC.ACES_FILMIC:this.defines.set("toneMapping(texel)","ACESFilmicToneMapping(texel)");break;case MC.AGX:this.defines.set("toneMapping(texel)","AgXToneMapping(texel)");break;case MC.NEUTRAL:this.defines.set("toneMapping(texel)","NeutralToneMapping(texel)");break;default:this.defines.set("toneMapping(texel)","texel");break}this.adaptiveLuminancePass.enabled=g===MC.REINHARD2_ADAPTIVE,this.setChanged()}getMode(){return this.mode}setMode(g){this.mode=g}get whitePoint(){return this.uniforms.get("whitePoint").value}set whitePoint(g){this.uniforms.get("whitePoint").value=g}get middleGrey(){return this.uniforms.get("middleGrey").value}set middleGrey(g){this.uniforms.get("middleGrey").value=g}get averageLuminance(){return this.uniforms.get("averageLuminance").value}set averageLuminance(g){this.uniforms.get("averageLuminance").value=g}get adaptiveLuminanceMaterial(){return this.adaptiveLuminancePass.fullscreenMaterial}getAdaptiveLuminanceMaterial(){return this.adaptiveLuminanceMaterial}get resolution(){return this.luminancePass.resolution.width}set resolution(g){const A=Math.max(0,Math.ceil(Math.log2(g))),I=Math.pow(2,A);this.luminancePass.resolution.setPreferredSize(I,I),this.adaptiveLuminanceMaterial.mipLevel1x1=A}getResolution(){return this.resolution}setResolution(g){this.resolution=g}get adaptive(){return this.mode===MC.REINHARD2_ADAPTIVE}set adaptive(g){this.mode=g?MC.REINHARD2_ADAPTIVE:MC.REINHARD2}get adaptationRate(){return this.adaptiveLuminanceMaterial.adaptationRate}set adaptationRate(g){this.adaptiveLuminanceMaterial.adaptationRate=g}get distinction(){return console.warn(this.name,"distinction was removed."),1}set distinction(g){console.warn(this.name,"distinction was removed.")}update(g,A,I){this.adaptiveLuminancePass.enabled&&(this.luminancePass.render(g,A),this.adaptiveLuminancePass.render(g,null,null,I))}initialize(g,A,I){this.adaptiveLuminancePass.initialize(g,A,I)}},mu=`#include <common>
#include <packing>
#include <dithering_pars_fragment>
#define packFloatToRGBA(v) packDepthToRGBA(v)
#define unpackRGBAToFloat(v) unpackRGBAToDepth(v)
#ifdef FRAMEBUFFER_PRECISION_HIGH
uniform mediump sampler2D inputBuffer;
#else
uniform lowp sampler2D inputBuffer;
#endif
#if DEPTH_PACKING == 3201
uniform lowp sampler2D depthBuffer;
#elif defined(GL_FRAGMENT_PRECISION_HIGH)
uniform highp sampler2D depthBuffer;
#else
uniform mediump sampler2D depthBuffer;
#endif
uniform vec2 resolution;uniform vec2 texelSize;uniform float cameraNear;uniform float cameraFar;uniform float aspect;uniform float time;varying vec2 vUv;vec4 sRGBToLinear(const in vec4 value){return vec4(mix(pow(value.rgb*0.9478672986+vec3(0.0521327014),vec3(2.4)),value.rgb*0.0773993808,vec3(lessThanEqual(value.rgb,vec3(0.04045)))),value.a);}float readDepth(const in vec2 uv){
#if DEPTH_PACKING == 3201
return unpackRGBAToDepth(texture2D(depthBuffer,uv));
#else
return texture2D(depthBuffer,uv).r;
#endif
}float getViewZ(const in float depth){
#ifdef PERSPECTIVE_CAMERA
return perspectiveDepthToViewZ(depth,cameraNear,cameraFar);
#else
return orthographicDepthToViewZ(depth,cameraNear,cameraFar);
#endif
}vec3 RGBToHCV(const in vec3 RGB){vec4 P=mix(vec4(RGB.bg,-1.0,2.0/3.0),vec4(RGB.gb,0.0,-1.0/3.0),step(RGB.b,RGB.g));vec4 Q=mix(vec4(P.xyw,RGB.r),vec4(RGB.r,P.yzx),step(P.x,RGB.r));float C=Q.x-min(Q.w,Q.y);float H=abs((Q.w-Q.y)/(6.0*C+EPSILON)+Q.z);return vec3(H,C,Q.x);}vec3 RGBToHSL(const in vec3 RGB){vec3 HCV=RGBToHCV(RGB);float L=HCV.z-HCV.y*0.5;float S=HCV.y/(1.0-abs(L*2.0-1.0)+EPSILON);return vec3(HCV.x,S,L);}vec3 HueToRGB(const in float H){float R=abs(H*6.0-3.0)-1.0;float G=2.0-abs(H*6.0-2.0);float B=2.0-abs(H*6.0-4.0);return clamp(vec3(R,G,B),0.0,1.0);}vec3 HSLToRGB(const in vec3 HSL){vec3 RGB=HueToRGB(HSL.x);float C=(1.0-abs(2.0*HSL.z-1.0))*HSL.y;return(RGB-0.5)*C+HSL.z;}FRAGMENT_HEAD void main(){FRAGMENT_MAIN_UV vec4 color0=texture2D(inputBuffer,UV);vec4 color1=vec4(0.0);FRAGMENT_MAIN_IMAGE color0.a=clamp(color0.a,0.0,1.0);gl_FragColor=color0;
#ifdef ENCODE_OUTPUT
#include <colorspace_fragment>
#endif
#include <dithering_fragment>
}`,Tu="uniform vec2 resolution;uniform vec2 texelSize;uniform float cameraNear;uniform float cameraFar;uniform float aspect;uniform float time;varying vec2 vUv;VERTEX_HEAD void main(){vUv=position.xy*0.5+0.5;VERTEX_MAIN_SUPPORT gl_Position=vec4(position.xy,1.0,1.0);}",xu=class extends CC{constructor(g,A,I,C,B=!1){super({name:"EffectMaterial",defines:{THREE_REVISION:ci.replace(/\D+/g,""),DEPTH_PACKING:"0",ENCODE_OUTPUT:"1"},uniforms:{inputBuffer:new VA(null),depthBuffer:new VA(null),resolution:new VA(new PA),texelSize:new VA(new PA),cameraNear:new VA(.3),cameraFar:new VA(1e3),aspect:new VA(1),time:new VA(0)},blending:oC,toneMapped:!1,depthWrite:!1,depthTest:!1,dithering:B}),g&&this.setShaderParts(g),A&&this.setDefines(A),I&&this.setUniforms(I),this.copyCameraSettings(C)}set inputBuffer(g){this.uniforms.inputBuffer.value=g}setInputBuffer(g){this.uniforms.inputBuffer.value=g}get depthBuffer(){return this.uniforms.depthBuffer.value}set depthBuffer(g){this.uniforms.depthBuffer.value=g}get depthPacking(){return Number(this.defines.DEPTH_PACKING)}set depthPacking(g){this.defines.DEPTH_PACKING=g.toFixed(0),this.needsUpdate=!0}setDepthBuffer(g,A=Ko){this.depthBuffer=g,this.depthPacking=A}setShaderData(g){this.setShaderParts(g.shaderParts),this.setDefines(g.defines),this.setUniforms(g.uniforms),this.setExtensions(g.extensions)}setShaderParts(g){return this.fragmentShader=mu.replace(MI.FRAGMENT_HEAD,g.get(MI.FRAGMENT_HEAD)||"").replace(MI.FRAGMENT_MAIN_UV,g.get(MI.FRAGMENT_MAIN_UV)||"").replace(MI.FRAGMENT_MAIN_IMAGE,g.get(MI.FRAGMENT_MAIN_IMAGE)||""),this.vertexShader=Tu.replace(MI.VERTEX_HEAD,g.get(MI.VERTEX_HEAD)||"").replace(MI.VERTEX_MAIN_SUPPORT,g.get(MI.VERTEX_MAIN_SUPPORT)||""),this.needsUpdate=!0,this}setDefines(g){for(const A of g.entries())this.defines[A[0]]=A[1];return this.needsUpdate=!0,this}setUniforms(g){for(const A of g.entries())this.uniforms[A[0]]=A[1];return this}setExtensions(g){this.extensions={};for(const A of g)this.extensions[A]=!0;return this}get encodeOutput(){return this.defines.ENCODE_OUTPUT!==void 0}set encodeOutput(g){this.encodeOutput!==g&&(g?this.defines.ENCODE_OUTPUT="1":delete this.defines.ENCODE_OUTPUT,this.needsUpdate=!0)}isOutputEncodingEnabled(g){return this.encodeOutput}setOutputEncodingEnabled(g){this.encodeOutput=g}get time(){return this.uniforms.time.value}set time(g){this.uniforms.time.value=g}setDeltaTime(g){this.uniforms.time.value+=g}adoptCameraSettings(g){this.copyCameraSettings(g)}copyCameraSettings(g){g&&(this.uniforms.cameraNear.value=g.near,this.uniforms.cameraFar.value=g.far,g instanceof JC?this.defines.PERSPECTIVE_CAMERA="1":delete this.defines.PERSPECTIVE_CAMERA,this.needsUpdate=!0)}setSize(g,A){const I=this.uniforms;I.resolution.value.set(g,A),I.texelSize.value.set(1/g,1/A),I.aspect.value=g/A}static get Section(){return MI}};function BS(g,A,I){for(const C of A){const B="$1"+g+C.charAt(0).toUpperCase()+C.slice(1),Q=new RegExp("([^\\.])(\\b"+C+"\\b)","g");for(const E of I.entries())E[1]!==null&&I.set(E[0],E[1].replace(Q,B))}}function bu(g,A,I){let C=A.getFragmentShader(),B=A.getVertexShader();const Q=C!==void 0&&/mainImage/.test(C),E=C!==void 0&&/mainUv/.test(C);if(I.attributes|=A.getAttributes(),C===void 0)throw new Error(`Missing fragment shader (${A.name})`);if(E&&I.attributes&zQ.CONVOLUTION)throw new Error(`Effects that transform UVs are incompatible with convolution effects (${A.name})`);if(!Q&&!E)throw new Error(`Could not find mainImage or mainUv function (${A.name})`);{const i=/\w+\s+(\w+)\([\w\s,]*\)\s*{/g,o=I.shaderParts;let t=o.get(MI.FRAGMENT_HEAD)||"",e=o.get(MI.FRAGMENT_MAIN_UV)||"",s=o.get(MI.FRAGMENT_MAIN_IMAGE)||"",a=o.get(MI.VERTEX_HEAD)||"",D=o.get(MI.VERTEX_MAIN_SUPPORT)||"";const n=new Set,c=new Set;if(E&&(e+=`	${g}MainUv(UV);
`,I.uvTransformation=!0),B!==null&&/mainSupport/.test(B)){const l=/mainSupport *\([\w\s]*?uv\s*?\)/.test(B);D+=`	${g}MainSupport(`,D+=l?`vUv);
`:`);
`;for(const y of B.matchAll(/(?:varying\s+\w+\s+([\S\s]*?);)/g))for(const w of y[1].split(/\s*,\s*/))I.varyings.add(w),n.add(w),c.add(w);for(const y of B.matchAll(i))c.add(y[1])}for(const l of C.matchAll(i))c.add(l[1]);for(const l of A.defines.keys())c.add(l.replace(/\([\w\s,]*\)/g,""));for(const l of A.uniforms.keys())c.add(l);c.delete("while"),c.delete("for"),c.delete("if"),A.uniforms.forEach((l,y)=>I.uniforms.set(g+y.charAt(0).toUpperCase()+y.slice(1),l)),A.defines.forEach((l,y)=>I.defines.set(g+y.charAt(0).toUpperCase()+y.slice(1),l));const S=new Map([["fragment",C],["vertex",B]]);BS(g,c,I.defines),BS(g,c,S),C=S.get("fragment"),B=S.get("vertex");const r=A.blendMode;if(I.blendModes.set(r.blendFunction,r),Q){A.inputColorSpace!==null&&A.inputColorSpace!==I.colorSpace&&(s+=A.inputColorSpace===qI?`color0 = sRGBTransferOETF(color0);
	`:`color0 = sRGBToLinear(color0);
	`),A.outputColorSpace!==GB?I.colorSpace=A.outputColorSpace:A.inputColorSpace!==null&&(I.colorSpace=A.inputColorSpace);const l=/MainImage *\([\w\s,]*?depth[\w\s,]*?\)/;s+=`${g}MainImage(color0, UV, `,I.attributes&zQ.DEPTH&&l.test(C)&&(s+="depth, ",I.readDepth=!0),s+=`color1);
	`;const y=g+"BlendOpacity";I.uniforms.set(y,r.opacity),s+=`color0 = blend${r.blendFunction}(color0, color1, ${y});

	`,t+=`uniform float ${y};

`}if(t+=C+`
`,B!==null&&(a+=B+`
`),o.set(MI.FRAGMENT_HEAD,t),o.set(MI.FRAGMENT_MAIN_UV,e),o.set(MI.FRAGMENT_MAIN_IMAGE,s),o.set(MI.VERTEX_HEAD,a),o.set(MI.VERTEX_MAIN_SUPPORT,D),A.extensions!==null)for(const l of A.extensions)I.extensions.add(l)}}var Ou=class extends zC{constructor(g,...A){super("EffectPass"),this.fullscreenMaterial=new xu(null,null,null,g),this.listener=I=>this.handleEvent(I),this.effects=[],this.setEffects(A),this.skipRendering=!1,this.minTime=1,this.maxTime=Number.POSITIVE_INFINITY,this.timeScale=1}set mainScene(g){for(const A of this.effects)A.mainScene=g}set mainCamera(g){this.fullscreenMaterial.copyCameraSettings(g);for(const A of this.effects)A.mainCamera=g}get encodeOutput(){return this.fullscreenMaterial.encodeOutput}set encodeOutput(g){this.fullscreenMaterial.encodeOutput=g}get dithering(){return this.fullscreenMaterial.dithering}set dithering(g){const A=this.fullscreenMaterial;A.dithering=g,A.needsUpdate=!0}setEffects(g){for(const A of this.effects)A.removeEventListener("change",this.listener);this.effects=g.sort((A,I)=>I.attributes-A.attributes);for(const A of this.effects)A.addEventListener("change",this.listener)}updateMaterial(){const g=new LY;let A=0;for(const E of this.effects)if(E.blendMode.blendFunction===eI.DST)g.attributes|=E.getAttributes()&zQ.DEPTH;else{if(g.attributes&E.getAttributes()&zQ.CONVOLUTION)throw new Error(`Convolution effects cannot be merged (${E.name})`);bu("e"+A++,E,g)}let I=g.shaderParts.get(MI.FRAGMENT_HEAD),C=g.shaderParts.get(MI.FRAGMENT_MAIN_IMAGE),B=g.shaderParts.get(MI.FRAGMENT_MAIN_UV);const Q=/\bblend\b/g;for(const E of g.blendModes.values())I+=E.getShaderCode().replace(Q,`blend${E.blendFunction}`)+`
`;g.attributes&zQ.DEPTH?(g.readDepth&&(C=`float depth = readDepth(UV);

	`+C),this.needsDepthTexture=this.getDepthTexture()===null):this.needsDepthTexture=!1,g.colorSpace===qI&&(C+=`color0 = sRGBToLinear(color0);
	`),g.uvTransformation?(B=`vec2 transformedUv = vUv;
`+B,g.defines.set("UV","transformedUv")):g.defines.set("UV","vUv"),g.shaderParts.set(MI.FRAGMENT_HEAD,I),g.shaderParts.set(MI.FRAGMENT_MAIN_IMAGE,C),g.shaderParts.set(MI.FRAGMENT_MAIN_UV,B);for(const[E,i]of g.shaderParts)i!==null&&g.shaderParts.set(E,i.trim().replace(/^#/,`
#`));this.skipRendering=A===0,this.needsSwap=!this.skipRendering,this.fullscreenMaterial.setShaderData(g)}recompile(){this.updateMaterial()}getDepthTexture(){return this.fullscreenMaterial.depthBuffer}setDepthTexture(g,A=Ko){this.fullscreenMaterial.depthBuffer=g,this.fullscreenMaterial.depthPacking=A;for(const I of this.effects)I.setDepthTexture(g,A)}render(g,A,I,C,B){for(const Q of this.effects)Q.update(g,A,C);if(!this.skipRendering||this.renderToScreen){const Q=this.fullscreenMaterial;Q.inputBuffer=A.texture,Q.time+=C*this.timeScale,g.setRenderTarget(this.renderToScreen?null:I),g.render(this.scene,this.camera)}}setSize(g,A){this.fullscreenMaterial.setSize(g,A);for(const I of this.effects)I.setSize(g,A)}initialize(g,A,I){this.renderer=g;for(const C of this.effects)C.initialize(g,A,I);this.updateMaterial(),I!==void 0&&I!==Zg&&(this.fullscreenMaterial.defines.FRAMEBUFFER_PRECISION_HIGH="1")}dispose(){super.dispose();for(const g of this.effects)g.removeEventListener("change",this.listener),g.dispose()}handleEvent(g){switch(g.type){case"change":this.recompile();break}}};const vu=`
uniform float colorBits;
uniform float intensity;
uniform float grayscale;
uniform float scale;
uniform float noise;

uint Rand(uint x) {
    x ^= x >> 16;
    x *= 0x7feb352du;
    x ^= x >> 15;
    x *= 0x846ca68bu;
    x ^= x >> 16;
    return x;
}

uint HilbertIndex(uvec2 p) {
    uint i = 0u;
    for(uint l = 0x4000u; l > 0u; l >>= 1u) {
        uvec2 r = min(p & l, 1u);

        i = (i << 2u) | ((r.x * 3u) ^ r.y);
        p = r.y == 0u ? (0x7fffu * r.x) ^ p.yx : p;
    }
    return i;
}

uint ReverseBits(uint x) {
    x = ((x & 0xaaaaaaaau) >> 1) | ((x & 0x55555555u) << 1);
    x = ((x & 0xccccccccu) >> 2) | ((x & 0x33333333u) << 2);
    x = ((x & 0xf0f0f0f0u) >> 4) | ((x & 0x0f0f0f0fu) << 4);
    x = ((x & 0xff00ff00u) >> 8) | ((x & 0x00ff00ffu) << 8);
    return (x >> 16) | (x << 16);
}

uint OwenHash(uint x, uint seed) {
    x ^= x * 0x3d20adeau;
    x += seed;
    x *= (seed >> 16) | 1u;
    x ^= x * 0x05526c56u;
    x ^= x * 0x53a22864u;
    return x;
}

float ReshapeUniformToTriangle(float v) {
    v = v * 2.0 - 1.0;
    v = sign(v) * (1.0 - sqrt(max(0.0, 1.0 - abs(v))));
    return v + 0.5;
}

float getBlueNoise(vec2 position, float patternScale) {
    vec2 scaledPos = floor(position / patternScale);
    uint m = HilbertIndex(uvec2(scaledPos));
    m = OwenHash(ReverseBits(m), 0xe7843fbfu);
    m = OwenHash(ReverseBits(m), 0x8d8fb1e0u);
    float mask = float(ReverseBits(m)) / 4294967296.0;
    return ReshapeUniformToTriangle(mask);
}

float getLuminance(vec3 color) {
  return dot(color, vec3(0.299, 0.587, 0.114));
}

void mainImage(const in vec4 inputColor, const in vec2 uv, out vec4 outputColor) {
  vec2 coord = gl_FragCoord.xy;
  vec3 color = inputColor.rgb;

  // Use blue noise for dithering
  float blueNoise = getBlueNoise(coord, scale);

  float levels = pow(2.0, colorBits);

  // Use blue noise with configurable intensity
  float threshold = blueNoise * noise - (noise * 0.5);

  if (grayscale > 0.5) {
    float lum = getLuminance(color);
    float quantized = floor(lum * levels + threshold) / levels;
    color = vec3(quantized);
  } else {
    vec3 quantized = floor(color * levels + threshold) / levels;
    color = quantized;
  }

  outputColor = vec4(mix(inputColor.rgb, color, intensity), inputColor.a);
}
`;class _u extends In{constructor(A){super("DitheringEffect",vu,{uniforms:new Map([["colorBits",new VA(A?.colorBits??4)],["intensity",new VA(A?.intensity??1)],["grayscale",new VA(A?.grayscale?1:0)],["scale",new VA(A?.scale??1)],["noise",new VA(A?.noise??1.2)]])})}get colorBits(){return this.uniforms.get("colorBits").value}set colorBits(A){this.uniforms.get("colorBits").value=A}get intensity(){return this.uniforms.get("intensity").value}set intensity(A){this.uniforms.get("intensity").value=A}get grayscale(){return this.uniforms.get("grayscale").value===1}set grayscale(A){this.uniforms.get("grayscale").value=A?1:0}get scale(){return this.uniforms.get("scale").value}set scale(A){this.uniforms.get("scale").value=A}get noise(){return this.uniforms.get("noise").value}set noise(A){this.uniforms.get("noise").value=A}}const Wa=1e3,Zu=16777215,_i={BOX:0,SPHERE:1,CYLINDER:2,PLANE:3},Cn=new Map,Bn=new Map;function Wu(g){const A=typeof window<"u"?window.innerWidth/window.innerHeight:1.7777777777777777,I=new JC(75,A,.1,1e3);return Cn.set(g,I),I}function Pu(g,A){for(let I=0;I<Wa;I++)if(g.getMatrixAt(I,A),A.elements[0]===0&&A.elements[5]===0&&A.elements[10]===0)return I;return null}function ju(g,A){const I=new Ck(g,A,Wa);I.instanceMatrix.setUsage(Ky),I.castShadow=!0,I.receiveShadow=!0,I.frustumCulled=!1;const C=new UI;C.makeScale(0,0,0);const B=new cI(Zu);for(let Q=0;Q<Wa;Q++)I.setMatrixAt(Q,C),I.setColorAt(Q,B);return I.instanceMatrix.needsUpdate=!0,I.instanceColor&&(I.instanceColor.needsUpdate=!0),I}const Pa=new WeakMap;function Xu(){const g=new Map;return g.set(_i.BOX,new wi),g.set(_i.SPHERE,new dD(1)),g.set(_i.CYLINDER,new RD(.5,.5,1)),g.set(_i.PLANE,new Fo),g}function Vu(){const g=new fa,A=new ac(11657727,12155424,1.5);g.add(A);const I=new nc(16777215,2.5);return I.castShadow=!0,I.shadow.mapSize.width=4096,I.shadow.mapSize.height=4096,g.add(I),g.add(I.target),{scene:g,meshPools:new Map,geometries:Xu(),material:new ik({metalness:0,roughness:1}),entityInstances:new Map,lights:{ambient:A,directional:I},composers:new Map,effects:new Map}}function XE(g){let A=Pa.get(g);return A||(A=Vu(),Pa.set(g,A)),A}function Qn(g){return Pa.get(g)?.scene||null}function zu(g,A){Bn.set(g,A)}function $u(g){return Bn.get(g)}function Aq(g){Bn.delete(g)}function Iq(g,A){const I=new XN({canvas:g,antialias:!0});return I.setSize(window.innerWidth,window.innerHeight),I.setPixelRatio(window.devicePixelRatio),I.shadowMap.enabled=!0,I.shadowMap.type=OS,A!==0&&I.setClearColor(A),I}function gq(g,A){A.setSize(window.innerWidth,window.innerHeight);for(const[,I]of Cn)I.aspect=window.innerWidth/window.innerHeight,I.updateProjectionMatrix()}const DQ={LIGHT_DIRECTION:new v(5,10,2).normalize(),LIGHT_DISTANCE:25,CAMERA_RADIUS:50,NEAR_PLANE:1,FAR_PLANE:200},ps=new UI,QS=new v,ES=new XC,aQ=new v,Cq=bA([Mi,wA]);function Bq(g,A){let I=g.meshPools.get(A);if(!I){const C=g.geometries.get(A);if(!C)return 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ac,I.add(E),A.lights.ambient=E),E.color.setHex(KB.skyColor[Q]),E.groundColor.setHex(KB.groundColor[Q]),E.intensity=KB.intensity[Q]}const B=tq(g.world);for(const Q of B){let E=A.lights.directional;E||(E=new nc,E.castShadow=!0,I.add(E),I.add(E.target),A.lights.directional=E),E.color.setHex(Sg.color[Q]),E.intensity=Sg.intensity[Q],Sg.castShadow[Q]===1?(E.castShadow=!0,E.shadow.mapSize.width=Sg.shadowMapSize[Q],E.shadow.mapSize.height=Sg.shadowMapSize[Q]):E.castShadow=!1;const i=uw(g.world);let o=null;for(const t of i){o=t;break}if(o!==null){const t=new v(wA.posX[o],wA.posY[o],wA.posZ[o]),e=new v(Sg.directionX[Q],Sg.directionY[Q],Sg.directionZ[Q]).normalize(),s=t.clone().add(e.multiplyScalar(Sg.distance[Q]));E.position.copy(s),E.target.position.copy(t),E.target.updateMatrixWorld();const 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e=o*cg.jump.legTuckAngle;L.eulerX[B]=e,L.eulerX[Q]=e}else{const i=E-cg.jump.anticipationDuration,o=Math.sin(i*3)*5;L.eulerX[I]=-45+o,L.eulerX[C]=-45-o;const t=Math.sin(i*4)*.02;L.scaleX[A]=1+t,L.scaleY[A]=1,L.scaleZ[A]=1+t,L.eulerX[B]=cg.jump.legTuckAngle,L.eulerX[Q]=cg.jump.legTuckAngle,L.eulerX[g]=10}}function gL(g,A,I,C,B,Q,E){const i=Math.max(0,E-.3),o=Math.sin(i*5)*cg.fall.armFlailAngle;L.eulerX[I]=-12+o,L.eulerX[C]=-12-o,L.eulerZ[I]=-20,L.eulerZ[C]=20,L.eulerX[A]=cg.fall.bodyTiltAngle,L.eulerX[B]=cg.fall.legDangleAngle,L.eulerX[Q]=cg.fall.legDangleAngle,L.eulerX[g]=20;const t=Math.sin(i*2.5)*cg.fall.windSwayAmount;L.posX[A]=t,L.posX[g]=t*.5}function CL(g,A,I){const C=I/cg.landing.duration,B=Math.exp(-C*8)*cg.landing.bounceHeight,Q=Math.sin(C*Math.PI*2)*B;L.posY[A]=_B.torso.offset.y+Q,L.posY[g]=_B.head.offset.y+Q;const E=Math.exp(-C*6)*cg.landing.squashAmount;L.scaleX[A]=1+E*.4,L.scaleY[A]=1-E*.8,L.scaleZ[A]=1+E*.4}function 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A){if(pB.entity[B]===tB)continue;const Q=pB.entity[B],E=SA.posY[Q],i=SA.prevPosY[Q],o=yA.grounded[Q]===1;let t=!1;if(g.hasComponent(Q,iI)){const n=iI.moveX[Q],c=iI.moveY[Q];t=Math.abs(n)>.1||Math.abs(c)>.1}const e=(E-i)/C;let s=1;if(g.hasComponent(Q,hI)&&t){const n=hI.actualMoveX[Q],c=hI.actualMoveZ[Q];s=Math.sqrt(n*n+c*c)/C}const a=NA.animationState[B];let D=a;switch(BL(NA.headEntity[B],NA.torsoEntity[B],NA.leftArmEntity[B],NA.rightArmEntity[B],NA.leftLegEntity[B],NA.rightLegEntity[B]),o?a===fg.FALLING||a===fg.JUMPING?(D=fg.LANDING,NA.stateTransition[B]=0):NA.animationState[B]===fg.LANDING?(NA.stateTransition[B]+=I,NA.stateTransition[B]>=cg.landing.duration?D=t?fg.WALKING:fg.IDLE:D=fg.LANDING):t?(D=fg.WALKING,NA.phase[B]+=I*s*cg.frequency,NA.phase[B]>=1&&(NA.phase[B]-=1)):D=fg.IDLE:e>1?(D=fg.JUMPING,a!==fg.JUMPING&&(NA.jumpTime[B]=0),NA.jumpTime[B]+=I):(D=fg.FALLING,a!==fg.FALLING&&(NA.fallTime[B]=0),NA.fallTime[B]+=I),NA.animationState[B]=D,D){case fg.WALKING:dS(NA.leftArmEntity[B],NA.rightArmEntity[B],NA.leftLegEntity[B],NA.rightLegEntity[B],NA.phase[B]);break;case fg.JUMPING:IL(NA.headEntity[B],NA.torsoEntity[B],NA.leftArmEntity[B],NA.rightArmEntity[B],NA.leftLegEntity[B],NA.rightLegEntity[B],NA.jumpTime[B]);break;case fg.FALLING:gL(NA.headEntity[B],NA.torsoEntity[B],NA.leftArmEntity[B],NA.rightArmEntity[B],NA.leftLegEntity[B],NA.rightLegEntity[B],NA.fallTime[B]);break;case fg.LANDING:CL(NA.headEntity[B],NA.torsoEntity[B],NA.stateTransition[B]);break;case fg.IDLE:default:dS(NA.leftArmEntity[B],NA.rightArmEntity[B],NA.leftLegEntity[B],NA.rightLegEntity[B],0);break}}}},iL={systems:[QL,EL],components:{AnimatedCharacter:NA,HasAnimator:aD},config:{defaults:{"animated-character":{headEntity:-1,torsoEntity:-1,leftArmEntity:-1,rightArmEntity:-1,leftLegEntity:-1,rightLegEntity:-1,phase:0,jumpTime:0,fallTime:0,animationState:0,stateTransition:0}}}},TA=zA({target:J.eid,currentYaw:J.f32,currentPitch:J.f32,currentDistance:J.f32,targetYaw:J.f32,targetPitch:J.f32,targetDistance:J.f32,minDistance:J.f32,maxDistance:J.f32,minPitch:J.f32,maxPitch:J.f32,smoothness:J.f32,offsetX:J.f32,offsetY:J.f32,offsetZ:J.f32}),JI={target:0,currentDistance:4,targetDistance:4,currentYaw:0,targetYaw:0,currentPitch:Math.PI/6,targetPitch:Math.PI/6,minDistance:1,maxDistance:25,minPitch:0,maxPitch:Math.PI/2,smoothness:.5,offsetX:0,offsetY:1.25,offsetZ:0},zg={posX:0,posY:8,posZ:10,rotX:0,rotY:0,rotZ:0,rotW:1,eulerX:0,eulerY:180,eulerZ:0,scaleX:1,scaleY:1,scaleZ:1},oL={name:"camera",components:["orbit-camera","transform","main-camera"],overrides:{"transform.pos-y":zg.posY,"transform.pos-z":zg.posZ,"transform.euler-y":zg.eulerY}},Co=Math.PI*2;function tL(g){return(g%Co+Co)%Co}function eL(g,A){let I=A-g;for(;I>Math.PI;)I-=Co;for(;I<-Math.PI;)I+=Co;return I}function sL(g,A){return 1-Math.pow(1-g,A*60)}function aL(g,A){const I=sL(TA.smoothness[g],A),C=eL(TA.currentYaw[g],TA.targetYaw[g]);TA.currentYaw[g]+=C*I,TA.currentYaw[g]=tL(TA.currentYaw[g]),TA.currentPitch[g]+=(TA.targetPitch[g]-TA.currentPitch[g])*I,TA.currentDistance[g]+=(TA.targetDistance[g]-TA.currentDistance[g])*I}function DL(g,A){const I=TA.currentDistance[g],C=TA.currentYaw[g],B=Math.PI/2-TA.currentPitch[g],Q=new Dk(I,B,C);return new v().setFromSpherical(Q).add(A)}function nL(g,A,I){L.posX[g]=A.x,L.posY[g]=A.y,L.posZ[g]=A.z;const C=new UI;C.lookAt(A,I,new v(0,1,0));const B=new XC().setFromRotationMatrix(C);L.rotX[g]=B.x,L.rotY[g]=B.y,L.rotZ[g]=B.z,L.rotW[g]=B.w,ke(L,g)}const rL=bA([TA,L]),hL={group:"draw",update:g=>{const A=rL(g.world);for(const I of A){const C=TA.target[I];if(!C||!g.hasComponent(C,wA))continue;aL(I,g.time.deltaTime);const B=new v(wA.posX[C]+TA.offsetX[I],wA.posY[C]+TA.offsetY[I],wA.posZ[C]+TA.offsetZ[I]),Q=DL(I,B);nL(I,Q,B)}}},SL={systems:[hL],recipes:[oL],components:{OrbitCamera:TA},config:{defaults:{"orbit-camera":{target:JI.target,currentDistance:JI.currentDistance,targetDistance:JI.targetDistance,currentYaw:JI.currentYaw,targetYaw:JI.targetYaw,currentPitch:JI.currentPitch,targetPitch:JI.targetPitch,minDistance:JI.minDistance,maxDistance:JI.maxDistance,minPitch:JI.minPitch,maxPitch:JI.maxPitch,smoothness:JI.smoothness,offsetX:JI.offsetX,offsetY:JI.offsetY,offsetZ:JI.offsetZ}}}},kA=zA({speed:J.f32,jumpHeight:J.f32,rotationSpeed:J.f32,canJump:J.ui8,isJumping:J.ui8,jumpCooldown:J.f32,lastGroundedTime:J.f32,jumpBufferTime:J.f32,cameraSensitivity:J.f32,cameraZoomSensitivity:J.f32,cameraEntity:J.eid,inheritedVelX:J.f32,inheritedVelZ:J.f32}),Ag={speed:5.3,jumpHeight:2.3,rotationSpeed:10,canJump:1,isJumping:0,jumpCooldown:0,lastGroundedTime:0,jumpBufferTime:-1e4,cameraSensitivity:.007,cameraZoomSensitivity:1.5,cameraEntity:0,inheritedVelX:0,inheritedVelZ:0},xI={type:mI.KinematicPositionBased,mass:1,posX:0,posY:0,posZ:0,eulerX:0,eulerY:180,eulerZ:0,velX:0,velY:0,velZ:0,rotVelX:0,rotVelY:0,rotVelZ:0,linearDamping:0,angularDamping:0,gravityScale:1,ccd:1,lockRotX:1,lockRotY:0,lockRotZ:1},VI={shape:zi.Capsule,radius:.3,height:.9,sizeX:1,sizeY:1,sizeZ:1,friction:0,restitution:0,density:1,isSensor:0,membershipGroups:65535,filterGroups:65535,posOffsetX:0,posOffsetY:.75,posOffsetZ:0,rotOffsetX:0,rotOffsetY:0,rotOffsetZ:0,rotOffsetW:1},$I={offset:.08,maxSlope:45*(Math.PI/180),maxSlide:30*(Math.PI/180),snapDist:.5,autoStep:1,maxStepHeight:.3,minStepWidth:.05,upX:0,upY:1,upZ:0,moveX:0,moveY:0,moveZ:0,grounded:0},cL={name:"player",components:["player","character-movement","transform","body","collider","character-controller","input-state","respawn"],overrides:{"body.eulerY":xI.eulerY,"body.type":xI.type,"body.ccd":xI.ccd,"body.lock-rot-x":xI.lockRotX,"body.lock-rot-z":xI.lockRotZ,"collider.shape":VI.shape,"collider.radius":VI.radius,"collider.height":VI.height,"collider.friction":VI.friction,"collider.pos-offset-y":VI.posOffsetY,"character-controller.offset":$I.offset,"character-controller.max-slope":$I.maxSlope,"character-controller.max-slide":$I.maxSlide,"character-controller.snap-dist":$I.snapDist,"character-controller.auto-step":$I.autoStep,"character-controller.max-step-height":$I.maxStepHeight,"character-controller.min-step-width":$I.minStepWidth,"character-controller.up-x":$I.upX,"character-controller.up-y":$I.upY,"character-controller.up-z":$I.upZ}},Wl={verticalVelocityThreshold:.001,cooldown:.2};function wL(g,A,I){const C=new v(A,0,-g);if(C.length()>0){C.normalize();const B=new UI().makeRotationY(I);C.applyMatrix4(B)}return C}function lL(g,A){const I=A-kA.lastGroundedTime[g],C=A-kA.jumpBufferTime[g],B=yA.grounded[g]===1;return C<=UC.bufferWindow&&kA.canJump[g]===1&&(B||I<=UC.gracePeriods.coyoteTime)}function GL(g){const A=Y.gravityScale[g],I=Math.abs(ww*A);return Math.sqrt(2*I*kA.jumpHeight[g])}function yL(g,A,I){if(A===1&&(kA.jumpBufferTime[g]=I),lL(g,I)){const C=GL(g);return hI.velocityY[g]=C,kA.isJumping[g]=1,kA.canJump[g]=0,kA.jumpCooldown[g]=Wl.cooldown,kA.jumpBufferTime[g]=-1e4,C}return 0}function kL(g,A,I){const C=g.dot(A),B=2*Math.acos(Math.min(1,Math.abs(C)));return B>.001?Math.min(1,I/B):1}function ML(g,A,I,C){if(A.length()<=Wl.verticalVelocityThreshold)return{x:C.rotX,y:C.rotY,z:C.rotZ,w:C.rotW};const B=Math.atan2(A.x,A.z),Q=new XC().setFromEuler(new fC(0,B,0)),E=new XC(C.rotX,C.rotY,C.rotZ,C.rotW),i=kA.rotationSpeed[g]*I,o=kL(E,Q,i);return E.slerp(Q,o),{x:E.x,y:E.y,z:E.z,w:E.w}}const UL=bA([kA,hI,L,Y,iI]),Pl=bA([TA]),KL=bA([kA,hI,yA,iI,Y]),NL=bA([kA]),JL=bA([kA,iI]),jl={group:"fixed",update:g=>{const A=UL(g.world),I=Pl(g.world),C=I.length>0?I[0]:null,B=C!==null?TA.currentYaw[C]:0,Q=g.time.fixedDeltaTime;for(const E of A){const i=wL(iI.moveY[E],iI.moveX[E],B),o=kA.speed[E],t=i.x*o,e=i.z*o,s=yL(E,iI.jump[E],g.time.elapsed*1e3);s>0&&g.hasComponent(E,yA)&&yA.platform[E]>0&&(kA.inheritedVelX[E]=yA.platformVelX[E],kA.inheritedVelZ[E]=yA.platformVelZ[E]);const a=kA.isJumping[E]===1?.85:0;hI.desiredVelX[E]=t+kA.inheritedVelX[E]*a,hI.desiredVelZ[E]=e+kA.inheritedVelZ[E]*a,kA.isJumping[E]===1&&(kA.inheritedVelX[E]*=.98,kA.inheritedVelZ[E]*=.98),s>0&&(hI.velocityY[E]=s),hI.desiredVelY[E]=0,kA.jumpCooldown[E]>0&&(kA.jumpCooldown[E]-=Q,kA.jumpCooldown[E]<=0&&(kA.jumpCooldown[E]=0,kA.canJump[E]=1));const D=ML(E,i,Q,{rotX:Y.rotX[E],rotY:Y.rotY[E],rotZ:Y.rotZ[E],rotW:Y.rotW[E]});Y.rotX[E]=D.x,Y.rotY[E]=D.y,Y.rotZ[E]=D.z,Y.rotW[E]=D.w}}},FL={group:"fixed",before:[jl],update:g=>{const A=KL(g.world);for(const I of A){const C=yA.grounded[I]===1,B=kA.isJumping[I]===1;C&&(kA.lastGroundedTime[I]=g.time.elapsed*1e3,B&&(kA.isJumping[I]=0,kA.inheritedVelX[I]=0,kA.inheritedVelZ[I]=0),kA.canJump[I]===0&&kA.jumpCooldown[I]<=0&&(kA.canJump[I]=1))}}},Xl={group:"simulation",update:g=>{const A=NL(g.world),I=Pl(g.world);for(const C of A)if(kA.cameraEntity[C]===0&&I.length>0){const B=I[0];kA.cameraEntity[C]=B,TA.target[B]=C}}},pL={group:"simulation",after:[Xl],update:g=>{const A=JL(g.world);for(const I of A){const C=kA.cameraEntity[I];if(!C||!g.hasComponent(C,TA))continue;const B=kA.cameraSensitivity[I],Q=kA.cameraZoomSensitivity[I],E=iI.lookX[I],i=iI.lookY[I],o=iI.scrollDelta[I];if(iI.rightMouse[I]===1){TA.targetYaw[C]-=E*B;const t=TA.targetPitch[C]+i*B,e=TA.minPitch[C],s=TA.maxPitch[C];TA.targetPitch[C]=Math.max(e,Math.min(s,t))}if(o!==0){const t=TA.targetDistance[C],e=TA.minDistance[C],s=TA.maxDistance[C],a=Math.max(.3,t*.08),D=o*Q*a,n=t+D;TA.targetDistance[C]=Math.max(e,Math.min(s,n))}}}},RL={systems:[Xl,pL,jl,FL],recipes:[cL],components:{Player:kA},config:{defaults:{player:{speed:Ag.speed,jumpHeight:Ag.jumpHeight,rotationSpeed:Ag.rotationSpeed,canJump:Ag.canJump,isJumping:Ag.isJumping,jumpCooldown:Ag.jumpCooldown,lastGroundedTime:Ag.lastGroundedTime,jumpBufferTime:Ag.jumpBufferTime,cameraSensitivity:Ag.cameraSensitivity,cameraZoomSensitivity:Ag.cameraZoomSensitivity,cameraEntity:Ag.cameraEntity,inheritedVelX:Ag.inheritedVelX,inheritedVelZ:Ag.inheritedVelZ}}}},cB=zA({posX:J.f32,posY:J.f32,posZ:J.f32,eulerX:J.f32,eulerY:J.f32,eulerZ:J.f32});function dL(g,A){if(!g.hasComponent(A,cB))return;const I=cB.posX[A],C=cB.posY[A],B=cB.posZ[A],Q=cB.eulerX[A],E=cB.eulerY[A],i=cB.eulerZ[A],o=oo(Q,E,i);g.hasComponent(A,L)&&(L.posX[A]=I,L.posY[A]=C,L.posZ[A]=B,L.eulerX[A]=Q,L.eulerY[A]=E,L.eulerZ[A]=i,L.rotX[A]=o.x,L.rotY[A]=o.y,L.rotZ[A]=o.z,L.rotW[A]=o.w),g.hasComponent(A,Y)&&(Y.posX[A]=I,Y.posY[A]=C,Y.posZ[A]=B,Y.rotX[A]=o.x,Y.rotY[A]=o.y,Y.rotZ[A]=o.z,Y.rotW[A]=o.w,Y.velX[A]=0,Y.velY[A]=0,Y.velZ[A]=0,Y.rotVelX[A]=0,Y.rotVelY[A]=0,Y.rotVelZ[A]=0,g.addComponent(A,Ig),Ig.x[A]=0,Ig.y[A]=0,Ig.z[A]=0,g.addComponent(A,KC),KC.x[A]=0,KC.y[A]=0,KC.z[A]=0),g.hasComponent(A,yA)&&(yA.moveX[A]=0,yA.moveY[A]=0,yA.moveZ[A]=0,yA.grounded[A]=0),g.hasComponent(A,hI)&&(hI.desiredVelX[A]=0,hI.desiredVelY[A]=0,hI.desiredVelZ[A]=0,hI.velocityY[A]=0),g.hasComponent(A,kA)&&(kA.canJump[A]=1,kA.isJumping[A]=0,kA.jumpCooldown[A]=0)}const YL=bA([cB,wA]),uL={group:"simulation",update:g=>{const A=YL(g.world);for(const I of A)wA.posY[I]<-100&&dL(g,I)}},qL={components:{Respawn:cB},systems:[uL]},fL=bA([KB]),LL=bA([Sg]),HL=bA([kA]),mL=bA([Mi]),TL=bA([kA]),xL={group:"setup",update:g=>{const A=fL(g.world),I=LL(g.world);if(A.length===0&&I.length===0){const C=g.createEntity();g.addComponent(C,KB),g.addComponent(C,Sg),KB.skyColor[C]=jE.skyColor,KB.groundColor[C]=jE.groundColor,KB.intensity[C]=jE.intensity,Sg.color[C]=$g.color,Sg.intensity[C]=$g.intensity,Sg.castShadow[C]=$g.castShadow,Sg.shadowMapSize[C]=$g.shadowMapSize,Sg.directionX[C]=$g.directionX,Sg.directionY[C]=$g.directionY,Sg.directionZ[C]=$g.directionZ,Sg.distance[C]=$g.distance}}},bL={group:"setup",update:g=>{if(HL(g.world).length===0){const A=g.createEntity();g.addComponent(A,kA),kA.speed[A]=Ag.speed,kA.jumpHeight[A]=Ag.jumpHeight,kA.rotationSpeed[A]=Ag.rotationSpeed,kA.canJump[A]=Ag.canJump,kA.isJumping[A]=Ag.isJumping,kA.jumpCooldown[A]=Ag.jumpCooldown,kA.lastGroundedTime[A]=Ag.lastGroundedTime,kA.jumpBufferTime[A]=Ag.jumpBufferTime,kA.cameraSensitivity[A]=Ag.cameraSensitivity,kA.cameraZoomSensitivity[A]=Ag.cameraZoomSensitivity,kA.cameraEntity[A]=Ag.cameraEntity,g.addComponent(A,hI),g.addComponent(A,L),L.rotW[A]=1,L.scaleX[A]=1,L.scaleY[A]=1,L.scaleZ[A]=1,g.addComponent(A,Y),Y.type[A]=xI.type,Y.mass[A]=xI.mass,Y.posX[A]=xI.posX,Y.posY[A]=xI.posY,Y.posZ[A]=xI.posZ,Y.eulerX[A]=xI.eulerX,Y.eulerY[A]=xI.eulerY,Y.eulerZ[A]=xI.eulerZ,Y.rotX[A]=0,Y.rotY[A]=0,Y.rotZ[A]=0,Y.rotW[A]=1,Y.velX[A]=xI.velX,Y.velY[A]=xI.velY,Y.velZ[A]=xI.velZ,Y.rotVelX[A]=xI.rotVelX,Y.rotVelY[A]=xI.rotVelY,Y.rotVelZ[A]=xI.rotVelZ,Y.linearDamping[A]=xI.linearDamping,Y.angularDamping[A]=xI.angularDamping,Y.gravityScale[A]=xI.gravityScale,Y.ccd[A]=xI.ccd,Y.lockRotX[A]=xI.lockRotX,Y.lockRotY[A]=xI.lockRotY,Y.lockRotZ[A]=xI.lockRotZ,g.addComponent(A,II),II.shape[A]=VI.shape,II.radius[A]=VI.radius,II.height[A]=VI.height,II.sizeX[A]=VI.sizeX,II.sizeY[A]=VI.sizeY,II.sizeZ[A]=VI.sizeZ,II.friction[A]=VI.friction,II.restitution[A]=VI.restitution,II.density[A]=VI.density,II.isSensor[A]=VI.isSensor,II.membershipGroups[A]=VI.membershipGroups,II.filterGroups[A]=VI.filterGroups,II.posOffsetX[A]=VI.posOffsetX,II.posOffsetY[A]=VI.posOffsetY,II.posOffsetZ[A]=VI.posOffsetZ,II.rotOffsetX[A]=VI.rotOffsetX,II.rotOffsetY[A]=VI.rotOffsetY,II.rotOffsetZ[A]=VI.rotOffsetZ,II.rotOffsetW[A]=VI.rotOffsetW,g.addComponent(A,yA),yA.offset[A]=$I.offset,yA.maxSlope[A]=$I.maxSlope,yA.maxSlide[A]=$I.maxSlide,yA.snapDist[A]=$I.snapDist,yA.autoStep[A]=$I.autoStep,yA.maxStepHeight[A]=$I.maxStepHeight,yA.minStepWidth[A]=$I.minStepWidth,yA.upX[A]=$I.upX,yA.upY[A]=$I.upY,yA.upZ[A]=$I.upZ,yA.moveX[A]=$I.moveX,yA.moveY[A]=$I.moveY,yA.moveZ[A]=$I.moveZ,yA.grounded[A]=$I.grounded,g.addComponent(A,iI),g.addComponent(A,cB)}}},OL={group:"setup",update:g=>{if(mL(g.world).length===0){const A=g.createEntity();g.addComponent(A,TA),g.addComponent(A,L),g.addComponent(A,Mi),TA.target[A]=JI.target,TA.currentDistance[A]=JI.currentDistance,TA.targetDistance[A]=JI.targetDistance,TA.currentYaw[A]=JI.currentYaw,TA.targetYaw[A]=JI.targetYaw,TA.currentPitch[A]=JI.currentPitch,TA.targetPitch[A]=JI.targetPitch,TA.minDistance[A]=JI.minDistance,TA.maxDistance[A]=JI.maxDistance,TA.minPitch[A]=JI.minPitch,TA.maxPitch[A]=JI.maxPitch,TA.smoothness[A]=JI.smoothness,TA.offsetX[A]=JI.offsetX,TA.offsetY[A]=JI.offsetY,TA.offsetZ[A]=JI.offsetZ,L.posX[A]=zg.posX,L.posY[A]=zg.posY,L.posZ[A]=zg.posZ,L.rotX[A]=zg.rotX,L.rotY[A]=zg.rotY,L.rotZ[A]=zg.rotZ,L.rotW[A]=zg.rotW,L.eulerX[A]=zg.eulerX,L.eulerY[A]=zg.eulerY,L.eulerZ[A]=zg.eulerZ,L.scaleX[A]=zg.scaleX,L.scaleY[A]=zg.scaleY,L.scaleZ[A]=zg.scaleZ}}},vL={group:"setup",update(g){const A=TL(g.world).filter(I=>!g.hasComponent(I,aD));for(const I of A){const C=g.createEntity();g.addComponent(I,aD),g.addComponent(C,L),g.addComponent(C,pB),g.addComponent(C,NA),L.posX[C]=0,L.posY[C]=.75,L.posZ[C]=0,L.rotX[C]=0,L.rotY[C]=0,L.rotZ[C]=0,L.rotW[C]=1,L.scaleX[C]=1,L.scaleY[C]=1,L.scaleZ[C]=1,pB.entity[C]=I,NA.headEntity[C]=tB,NA.torsoEntity[C]=tB,NA.leftArmEntity[C]=tB,NA.rightArmEntity[C]=tB,NA.leftLegEntity[C]=tB,NA.rightLegEntity[C]=tB}}},_L={systems:[xL,OL,bL,vL],components:{}},ZL=[zf,Hd,iL,Kq,KY,rq,SL,RL,_L,qL];class WL{state;options;useDefaultPlugins=!0;plugins=[];systems=[];components=new Map;recipes=[];configs=[];constructor(A={}){this.state=new G0,this.options=A}withoutDefaultPlugins(){return this.useDefaultPlugins=!1,this}withPlugin(A){return this.plugins.push(A),this}withPlugins(...A){return this.plugins.push(...A),this}withSystem(A){return this.systems.push(A),this}withSystems(...A){return this.systems.push(...A),this}withComponent(A,I){return this.components.set(A,I),this}withRecipe(A){return this.recipes.push(A),this}withConfig(A){return this.configs.push(A),this}configure(A){return this.options={...this.options,...A},this}build(){if(this.useDefaultPlugins)for(const A of ZL)this.state.registerPlugin(A);for(const A of this.plugins)this.state.registerPlugin(A);for(const A of this.systems)this.state.registerSystem(A);for(const[A,I]of this.components)this.state.registerComponent(A,I);for(const A of this.recipes)this.state.registerRecipe(A);for(const A of this.configs)this.state.registerConfig(A);return new Nq(this.state,this.options)}async run(){const A=this.build();return await A.start(),A}}let xs=null;function PL(){return xs||(xs=new WL),xs}function GH(g){return PL().withPlugin(g)}const jL={GRID_SIZE:8,WORLD_UNITS_PER_GRID:2,get WORLD_SIZE(){return this.GRID_SIZE*this.WORLD_UNITS_PER_GRID},get LOGICAL_FIELD_SIZE(){return Math.round(this.GRID_SIZE*this.GRID_SIZE*2.24)}},Ai={premium:{probability:.01,valueMultiplier:25,color:16719464,scaleMultiplier:1.2},valuable:{probability:.1,valueMultiplier:5,color:16758784,scaleMultiplier:1.1},basic:{probability:.89,valueMultiplier:1,color:4906624,scaleMultiplier:1}},yg={grassValue:{factor:10,base:1.1,intercept:1,slope:1,name:"Grass Value",getDescription:g=>`$${g.toFixed(1)} per grass`},spawnRate:{factor:25,base:1.1,intercept:1,slope:.2,name:"Spawn Rate",getDescription:g=>`${g.toFixed(2)}/s`},maxGrass:{factor:50,base:2,intercept:10,slope:10,name:"Max Grass",getDescription:g=>`${Math.floor(g)} grass cap`},moveSpeed:{factor:100,base:1.2,intercept:5,slope:.5,name:"Move Speed",getDescription:g=>`${g.toFixed(1)} m/s`},cutRange:{factor:1e3,base:2,intercept:1,slope:.5,name:"Cut Range",getDescription:g=>`${g.toFixed(1)}m radius`}},yo={minPlayerDistance:6,maxAttempts:200,initialSpawnRate:2,spatialHashCellSize:2},yH={targetUpdateInterval:.5};class XL{cellSize;grid;positions;nearbyBuffer=[];nearbyBufferIndex=0;constructor(A=yo.spatialHashCellSize){this.cellSize=A,this.grid=new Map,this.positions=new Map}getHash(A,I){const C=Math.floor(A/this.cellSize),B=Math.floor(I/this.cellSize);return`${C},${B}`}insert(A,I,C){const B=this.getHash(A,I);this.grid.has(B)||this.grid.set(B,new Set),this.grid.get(B).add(C),this.positions.set(C,{x:A,z:I})}remove(A){const I=this.positions.get(A);if(!I)return;const C=this.getHash(I.x,I.z),B=this.grid.get(C);B&&(B.delete(A),B.size===0&&this.grid.delete(C)),this.positions.delete(A)}getNearbyPositions(A,I,C){this.nearbyBufferIndex=0;const B=Math.ceil(C/this.cellSize),Q=Math.floor(A/this.cellSize),E=Math.floor(I/this.cellSize);for(let i=-B;i<=B;i++)for(let o=-B;o<=B;o++){const t=Q+i,e=E+o,s=`${t},${e}`,a=this.grid.get(s);if(a)for(const D of a){const n=this.positions.get(D);if(n&&(n.x-A)**2+(n.z-I)**2<=C*C){if(this.nearbyBufferIndex<this.nearbyBuffer.length){const S=this.nearbyBuffer[this.nearbyBufferIndex];S.x=n.x,S.z=n.z}else this.nearbyBuffer.push({x:n.x,z:n.z});this.nearbyBufferIndex++}}}return this.nearbyBuffer.slice(0,this.nearbyBufferIndex)}hasPosition(A,I){const C=this.getHash(A,I),B=this.grid.get(C);if(!B)return!1;for(const Q of B){const E=this.positions.get(Q);if(E&&E.x===A&&E.z===I)return!0}return!1}clear(){this.grid.clear(),this.positions.clear()}}class VL{spatialHash;occupiedPositions;positionKeyBuffer="";tierResult;constructor(){this.spatialHash=new XL(.5),this.occupiedPositions=new Set,this.tierResult={tier:"basic",properties:Ai.basic}}updateOccupiedPositions(A){this.spatialHash.clear(),this.occupiedPositions.clear();for(let I=0;I<A.length;I++){const C=A[I];this.positionKeyBuffer=`${C.x.toFixed(2)},${C.z.toFixed(2)}`,this.occupiedPositions.add(this.positionKeyBuffer),this.spatialHash.insert(C.x,C.z,`grass_${I}`)}}findValidSpawnPosition(A,I,C,B=14){const Q=B/A;for(let E=0;E<yo.maxAttempts;E++){const i=(Math.random()*A-A/2)*Q,o=(Math.random()*I-I/2)*Q,t=`${i.toFixed(2)},${o.toFixed(2)}`;if(!this.occupiedPositions.has(t)&&!(C&&!this.isValidDistanceFromPlayer(i,o,C)))return{x:i,z:o}}return null}isValidDistanceFromPlayer(A,I,C){return(A-C.x)**2+(I-C.z)**2>=yo.minPlayerDistance**2}determineGrassTier(){const A=Math.random();let I=0;for(const[C,B]of Object.entries(Ai))if(I+=B.probability,A<=I)return this.tierResult.tier=C,this.tierResult.properties=B,this.tierResult;return this.tierResult.tier="basic",this.tierResult.properties=Ai.basic,this.tierResult}calculateGrassValue(A,I){return A*I}}const $t=jL,Ii={basic:0,valuable:1,premium:2};function zL(g){switch(g){case Ii.premium:return Ai.premium.valueMultiplier;case Ii.valuable:return Ai.valuable.valueMultiplier;default:return Ai.basic.valueMultiplier}}const oE=zA({value:J.f32,gridX:J.i32,gridZ:J.i32,tier:J.ui8}),aB=zA({amount:J.f32,totalEarned:J.f32}),IC=zA({grassValue:J.ui32,cutRange:J.ui32,moveSpeed:J.ui32,spawnRate:J.ui32,maxGrass:J.ui32}),bg=zA({width:J.ui32,height:J.ui32,currentGrass:J.ui32,maxGrass:J.ui32,spawnCooldown:J.f32,spawnRate:J.f32}),Jg=zA({grassValue:J.f32,cutRange:J.f32,moveSpeed:J.f32,spawnRate:J.f32,maxGrass:J.ui32}),CB=zA({enabled:J.ui8,targetEntity:J.eid,lastTargetUpdateTime:J.f32,targetUpdateInterval:J.f32}),Ae=zA({entity:J.eid}),Vl={grassValue:{...yg.grassValue,getName:()=>yg.grassValue.name,getDescription:g=>yg.grassValue.getDescription(kB("grassValue",g))},cutRange:{...yg.cutRange,getName:()=>yg.cutRange.name,getDescription:g=>yg.cutRange.getDescription(kB("cutRange",g))},moveSpeed:{...yg.moveSpeed,getName:()=>yg.moveSpeed.name,getDescription:g=>yg.moveSpeed.getDescription(kB("moveSpeed",g))},spawnRate:{...yg.spawnRate,getName:()=>yg.spawnRate.name,getDescription:g=>yg.spawnRate.getDescription(kB("spawnRate",g))},maxGrass:{...yg.maxGrass,getName:()=>yg.maxGrass.name,getDescription:g=>yg.maxGrass.getDescription(Math.floor(kB("maxGrass",g)))}};function $L(g,A){const I=Vl[g];return Math.floor(I.factor*Math.pow(I.base,A))}function kB(g,A){const I=Vl[g];return I.intercept+I.slope*A}const Kn=bA([oE,L]),Ne=bA([kA,L,Y]),AH=bA([aB]),IH=bA([IC]),gH=bA([Jg]),CH=bA([bg]),BH=bA([CB,Y,kA,iI]),QH=bA([TA]),EH=bA([Ae]);function Je(g){const A=AH(g.world);if(A.length>0)return A[0];const I=g.createEntity();return g.addComponent(I,aB,{amount:0,totalEarned:0}),I}function Fe(g){const A=IH(g.world);if(A.length>0)return A[0];const I=g.createEntity();return g.addComponent(I,IC,{grassValue:0,cutRange:0,moveSpeed:0,spawnRate:0,maxGrass:0}),I}function Ui(g){const A=gH(g.world);if(A.length>0)return A[0];const I=g.createEntity();return g.addComponent(I,Jg,{grassValue:yg.grassValue.intercept,cutRange:yg.cutRange.intercept,moveSpeed:yg.moveSpeed.intercept,spawnRate:yo.initialSpawnRate,maxGrass:yg.maxGrass.intercept}),I}function Nn(g){const A=CH(g.world);if(A.length>0)return A[0];const I=g.createEntity();return g.addComponent(I,bg,{width:$t.LOGICAL_FIELD_SIZE,height:$t.LOGICAL_FIELD_SIZE,currentGrass:0,maxGrass:yg.maxGrass.intercept,spawnCooldown:0,spawnRate:yo.initialSpawnRate}),I}let bs=null;function iH(){return bs||(bs=new VL),bs}function oH(g){return kB("spawnRate",g)}function tH(g){return Math.round(kB("maxGrass",g))}function eH(g){return kB("grassValue",g)}function sH(g,A,I,C,B){const Q=g.createFromRecipe("static-part",{posX:A.x,posY:.45,posZ:A.z,scaleX:.11*C,scaleY:.9*C,scaleZ:.11*C,color:I,shape:0}),E=Ii[B]??0;return g.addComponent(Q,oE,{value:0,gridX:A.x,gridZ:A.z,tier:E}),Q}const aH={group:"simulation",update:g=>{const A=Nn(g),I=Ui(g),C=iH();if(bg.spawnRate[A]=Jg.spawnRate[I],bg.maxGrass[A]=Jg.maxGrass[I],bg.spawnCooldown[A]-=g.time.deltaTime,bg.spawnCooldown[A]<=0&&bg.currentGrass[A]<bg.maxGrass[A]){bg.spawnCooldown[A]=1/bg.spawnRate[A];const B=bg.width[A],Q=bg.height[A],i=Kn(g.world).map(s=>({x:oE.gridX[s],z:oE.gridZ[s]}));C.updateOccupiedPositions(i);const o=Ne(g.world);let t=null;if(o.length>0){const s=o[0];t={x:Math.round(Y.posX[s]),z:Math.round(Y.posZ[s])}}const e=C.findValidSpawnPosition(B,Q,t,$t.WORLD_SIZE);if(e){const{tier:s,properties:a}=C.determineGrassTier();if(sH(g,e,a.color,a.scaleMultiplier,s),bg.currentGrass[A]++,typeof window<"u"){const D=window;D.updateUI&&D.updateUI()}}}}},zl=100,DD=[];for(let g=0;g<zl;g++)DD.push({entity:0,x:0,y:0,z:0,value:0});const DH={group:"simulation",update:g=>{const A=Ne(g.world),I=Kn(g.world),C=Ui(g),B=Je(g),Q=Nn(g);if(A.length===0||I.length===0)return;const E=A[0],i=Y.posX[E],o=Y.posZ[E],t=Jg.cutRange[C],e=Jg.grassValue[C];let s=0;for(const a of I){if(s>=zl)break;const D=L.posX[a],n=L.posZ[a],c=Math.abs(i-D),S=Math.abs(o-n);if(c<=t&&S<=t){const r=oE.tier[a],l=zL(r),y=e*l,w=DD[s];w.entity=a,w.x=D,w.y=.5,w.z=n,w.value=y,s++}}if(s>0){for(let a=0;a<s;a++){const D=DD[a],n=D.value;if(aB.amount[B]+=n,aB.totalEarned[B]+=n,typeof window<"u"){const c=window,S=window.innerWidth/2+(D.x-i)*50,r=window.innerHeight/2-(D.z-o)*50-100;let l;const y=oE.tier[D.entity];y===Ii.premium?l="purple-grass":y===Ii.valuable?l="yellow-grass":l="normal-grass",c.showFloatingText&&c.showFloatingText(S,r,n,l),c.showSpecialEffect&&y===Ii.premium&&c.showSpecialEffect("premium-grass",S,r,{value:D.value})}g.destroyEntity(D.entity),bg.currentGrass[Q]--}if(typeof window<"u"){const a=window;a.updateUI&&a.updateUI()}}}},nH={group:"setup",update:g=>{const A=BH(g.world),I=Kn(g.world),C=QH(g.world);for(const B of A){if(!CB.enabled[B])continue;const Q=g.time.elapsed;if((!CB.targetEntity[B]||Q-CB.lastTargetUpdateTime[B]>CB.targetUpdateInterval[B])&&I.length>0){const i=Y.posX[B],o=Y.posZ[B];let t=0,e=1/0;for(const s of I){const a=L.posX[s],D=L.posZ[s],n=a-i,c=D-o,S=n*n+c*c;S<e&&(e=S,t=s)}CB.targetEntity[B]=t,CB.lastTargetUpdateTime[B]=Q}if(CB.targetEntity[B]){const i=CB.targetEntity[B];if(!I.includes(i)){CB.targetEntity[B]=0,iI.moveX[B]=0,iI.moveY[B]=0;continue}const o=L.posX[i],t=L.posZ[i],e=Y.posX[B],s=Y.posZ[B],a=o-e,D=t-s,n=Math.sqrt(a*a+D*D);if(n>.1){let c=0;if(C.length>0){const U=C[0];c=TA.currentYaw[U]}const S=a/n,r=D/n,l=Math.sin(c),y=Math.cos(c),w=S*y-r*l,N=S*l+r*y;iI.moveX[B]=w,iI.moveY[B]=-N}else iI.moveX[B]=0,iI.moveY[B]=0}else iI.moveX[B]=0,iI.moveY[B]=0}}},rH={group:"simulation",update:g=>{const A=Fe(g),I=Ui(g),C=IC.grassValue[A],B=IC.cutRange[A],Q=IC.moveSpeed[A],E=IC.spawnRate[A],i=IC.maxGrass[A];Jg.grassValue[I]=eH(C),Jg.cutRange[I]=kB("cutRange",B),Jg.moveSpeed[I]=kB("moveSpeed",Q),Jg.spawnRate[I]=oH(E),Jg.maxGrass[I]=tH(i)}},hH={group:"simulation",update:g=>{const A=Ne(g.world),I=Ui(g);if(A.length===0)return;const C=A[0];kA.speed[C]=Jg.moveSpeed[I]}},SH={group:"simulation",update:g=>{const A=Ne(g.world),I=EH(g.world),C=Ui(g);if(A.length===0)return;const B=A[0],Q=L.posX[B],E=L.posZ[B],i=Jg.cutRange[C];if(I.length===0){const o=g.createEntity();g.addComponent(o,L,{posX:Q,posY:.01,posZ:E,scaleX:i*2,scaleY:i*2,scaleZ:1,eulerX:-90}),g.addComponent(o,mg,{shape:3,sizeX:1,sizeY:1,sizeZ:1,color:2764597,visible:1});const t=g.createEntity();g.addComponent(t,Ae,{entity:o})}else{const o=I[0],t=Ae.entity[o];L.posX[t]=Q,L.posZ[t]=E,L.scaleX[t]=i*2,L.scaleY[t]=i*2}}};function kH(g,A){const I=Je(g),C=Fe(g),B=IC[A][C],Q=$L(A,B);if(aB.amount[I]>=Q){if(aB.amount[I]-=Q,IC[A][C]++,typeof window<"u"){const E=window;E.updateUI&&E.updateUI()}return!0}return!1}function MH(g){const A=Je(g),I=Fe(g),C=Nn(g),B=Ui(g);return{currency:aB.amount[A],totalEarned:aB.totalEarned[A],currentGrass:bg.currentGrass[C],maxGrass:bg.maxGrass[C],upgrades:{grassValue:IC.grassValue[I],cutRange:IC.cutRange[I],moveSpeed:IC.moveSpeed[I],spawnRate:IC.spawnRate[I],maxGrass:IC.maxGrass[I]},stats:{grassValue:Jg.grassValue[B],cutRange:Jg.cutRange[B],moveSpeed:Jg.moveSpeed[B],spawnRate:Jg.spawnRate[B],maxGrass:Jg.maxGrass[B]}}}let ko=null;function UH(g){ko=g}function KH(g,A){if(!ko)return console.error("Game state not initialized. Start the game first."),!1;const I=["grassValue","spawnRate","maxGrass","moveSpeed","cutRange"];if(g<0||g>=I.length)return console.error(`Invalid upgrade index: ${g}. Use 0-4.`),!1;const C=I[g],B=Fe(ko),Q=Math.max(0,A);if(IC[C][B]=Q,typeof window<"u"){const E=window;E.updateUI&&E.updateUI()}return console.log(`Set ${C} to level ${Q}`),!0}function NH(g){if(!ko){console.error("Game state not initialized. Start the game first.");return}const A=Je(ko);if(aB.amount[A]+=g,aB.totalEarned[A]+=g,typeof window<"u"){const I=window;I.updateUI&&I.updateUI()}console.log(`Added $${g} currency`)}const JH={components:{Grass:oE,Currency:aB,UpgradeManager:IC,PlayerStats:Jg,GrassField:bg,AutoMove:CB,CutRangeIndicator:Ae},systems:[aH,DH,nH,rH,hH,SH]},cH=$t.WORLD_SIZE,ht=.5,St=5,wH=1.5,XQ=cH+wH,ct=XQ/2,$l=document.getElementById("game-world"),fo=document.createElement("static-part");fo.setAttribute("pos","0 -0.5 0");fo.setAttribute("shape","box");fo.setAttribute("size",`${XQ} 1 ${XQ}`);fo.setAttribute("color","#141a26");$l.appendChild(fo);const lH=[{pos:`${ct} 2 0`,size:`${ht} ${St} ${XQ}`},{pos:`-${ct} 2 0`,size:`${ht} ${St} ${XQ}`},{pos:`0 2 ${ct}`,size:`${XQ} ${St} ${ht}`},{pos:`0 2 -${ct}`,size:`${XQ} ${St} ${ht}`}];lH.forEach(g=>{const A=document.createElement("static-part");A.setAttribute("pos",g.pos),A.setAttribute("shape","box"),A.setAttribute("size",g.size),A.setAttribute("color","#00000000"),A.setAttribute("collider","isSensor: 0"),A.setAttribute("visible","0"),$l.appendChild(A)});oG(()=>import("./main-D-7ROV92.js"),[],import.meta.url);export{CB as A,JH as G,Vl as U,$L as a,yH as b,NH as c,bA as d,GH as e,kA as f,MH as g,UH as h,iI as o,kH as p,KH as s};
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