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- /**
- * Octahedron and Quantization encodings based on work by:
- *
- * @link https://github.com/tsherif/mesh-quantization-example
- *
- */
- import {
- BufferAttribute,
- Matrix3,
- Matrix4,
- Vector3
- } from 'three';
- import { PackedPhongMaterial } from './PackedPhongMaterial.js';
- /**
- * Make the input mesh.geometry's normal attribute encoded and compressed by 3 different methods.
- * Also will change the mesh.material to `PackedPhongMaterial` which let the vertex shader program decode the normal data.
- *
- * @param {THREE.Mesh} mesh
- * @param {String} encodeMethod "DEFAULT" || "OCT1Byte" || "OCT2Byte" || "ANGLES"
- *
- */
- function compressNormals( mesh, encodeMethod ) {
- if ( ! mesh.geometry ) {
- console.error( 'Mesh must contain geometry. ' );
- }
- const normal = mesh.geometry.attributes.normal;
- if ( ! normal ) {
- console.error( 'Geometry must contain normal attribute. ' );
- }
- if ( normal.isPacked ) return;
- if ( normal.itemSize != 3 ) {
- console.error( 'normal.itemSize is not 3, which cannot be encoded. ' );
- }
- const array = normal.array;
- const count = normal.count;
- let result;
- if ( encodeMethod == 'DEFAULT' ) {
- // TODO: Add 1 byte to the result, making the encoded length to be 4 bytes.
- result = new Uint8Array( count * 3 );
- for ( let idx = 0; idx < array.length; idx += 3 ) {
- const encoded = defaultEncode( array[ idx ], array[ idx + 1 ], array[ idx + 2 ], 1 );
- result[ idx + 0 ] = encoded[ 0 ];
- result[ idx + 1 ] = encoded[ 1 ];
- result[ idx + 2 ] = encoded[ 2 ];
- }
- mesh.geometry.setAttribute( 'normal', new BufferAttribute( result, 3, true ) );
- mesh.geometry.attributes.normal.bytes = result.length * 1;
- } else if ( encodeMethod == 'OCT1Byte' ) {
- /**
- * It is not recommended to use 1-byte octahedron normals encoding unless you want to extremely reduce the memory usage
- * As it makes vertex data not aligned to a 4 byte boundary which may harm some WebGL implementations and sometimes the normal distortion is visible
- * Please refer to @zeux 's comments in https://github.com/mrdoob/three.js/pull/18208
- */
- result = new Int8Array( count * 2 );
- for ( let idx = 0; idx < array.length; idx += 3 ) {
- const encoded = octEncodeBest( array[ idx ], array[ idx + 1 ], array[ idx + 2 ], 1 );
- result[ idx / 3 * 2 + 0 ] = encoded[ 0 ];
- result[ idx / 3 * 2 + 1 ] = encoded[ 1 ];
- }
- mesh.geometry.setAttribute( 'normal', new BufferAttribute( result, 2, true ) );
- mesh.geometry.attributes.normal.bytes = result.length * 1;
- } else if ( encodeMethod == 'OCT2Byte' ) {
- result = new Int16Array( count * 2 );
- for ( let idx = 0; idx < array.length; idx += 3 ) {
- const encoded = octEncodeBest( array[ idx ], array[ idx + 1 ], array[ idx + 2 ], 2 );
- result[ idx / 3 * 2 + 0 ] = encoded[ 0 ];
- result[ idx / 3 * 2 + 1 ] = encoded[ 1 ];
- }
- mesh.geometry.setAttribute( 'normal', new BufferAttribute( result, 2, true ) );
- mesh.geometry.attributes.normal.bytes = result.length * 2;
- } else if ( encodeMethod == 'ANGLES' ) {
- result = new Uint16Array( count * 2 );
- for ( let idx = 0; idx < array.length; idx += 3 ) {
- const encoded = anglesEncode( array[ idx ], array[ idx + 1 ], array[ idx + 2 ] );
- result[ idx / 3 * 2 + 0 ] = encoded[ 0 ];
- result[ idx / 3 * 2 + 1 ] = encoded[ 1 ];
- }
- mesh.geometry.setAttribute( 'normal', new BufferAttribute( result, 2, true ) );
- mesh.geometry.attributes.normal.bytes = result.length * 2;
- } else {
- console.error( 'Unrecognized encoding method, should be `DEFAULT` or `ANGLES` or `OCT`. ' );
- }
- mesh.geometry.attributes.normal.needsUpdate = true;
- mesh.geometry.attributes.normal.isPacked = true;
- mesh.geometry.attributes.normal.packingMethod = encodeMethod;
- // modify material
- if ( ! ( mesh.material instanceof PackedPhongMaterial ) ) {
- mesh.material = new PackedPhongMaterial().copy( mesh.material );
- }
- if ( encodeMethod == 'ANGLES' ) {
- mesh.material.defines.USE_PACKED_NORMAL = 0;
- }
- if ( encodeMethod == 'OCT1Byte' ) {
- mesh.material.defines.USE_PACKED_NORMAL = 1;
- }
- if ( encodeMethod == 'OCT2Byte' ) {
- mesh.material.defines.USE_PACKED_NORMAL = 1;
- }
- if ( encodeMethod == 'DEFAULT' ) {
- mesh.material.defines.USE_PACKED_NORMAL = 2;
- }
- }
- /**
- * Make the input mesh.geometry's position attribute encoded and compressed.
- * Also will change the mesh.material to `PackedPhongMaterial` which let the vertex shader program decode the position data.
- *
- * @param {THREE.Mesh} mesh
- *
- */
- function compressPositions( mesh ) {
- if ( ! mesh.geometry ) {
- console.error( 'Mesh must contain geometry. ' );
- }
- const position = mesh.geometry.attributes.position;
- if ( ! position ) {
- console.error( 'Geometry must contain position attribute. ' );
- }
- if ( position.isPacked ) return;
- if ( position.itemSize != 3 ) {
- console.error( 'position.itemSize is not 3, which cannot be packed. ' );
- }
- const array = position.array;
- const encodingBytes = 2;
- const result = quantizedEncode( array, encodingBytes );
- const quantized = result.quantized;
- const decodeMat = result.decodeMat;
- // IMPORTANT: calculate original geometry bounding info first, before updating packed positions
- if ( mesh.geometry.boundingBox == null ) mesh.geometry.computeBoundingBox();
- if ( mesh.geometry.boundingSphere == null ) mesh.geometry.computeBoundingSphere();
- mesh.geometry.setAttribute( 'position', new BufferAttribute( quantized, 3 ) );
- mesh.geometry.attributes.position.isPacked = true;
- mesh.geometry.attributes.position.needsUpdate = true;
- mesh.geometry.attributes.position.bytes = quantized.length * encodingBytes;
- // modify material
- if ( ! ( mesh.material instanceof PackedPhongMaterial ) ) {
- mesh.material = new PackedPhongMaterial().copy( mesh.material );
- }
- mesh.material.defines.USE_PACKED_POSITION = 0;
- mesh.material.uniforms.quantizeMatPos.value = decodeMat;
- mesh.material.uniforms.quantizeMatPos.needsUpdate = true;
- }
- /**
- * Make the input mesh.geometry's uv attribute encoded and compressed.
- * Also will change the mesh.material to `PackedPhongMaterial` which let the vertex shader program decode the uv data.
- *
- * @param {THREE.Mesh} mesh
- *
- */
- function compressUvs( mesh ) {
- if ( ! mesh.geometry ) {
- console.error( 'Mesh must contain geometry property. ' );
- }
- const uvs = mesh.geometry.attributes.uv;
- if ( ! uvs ) {
- console.error( 'Geometry must contain uv attribute. ' );
- }
- if ( uvs.isPacked ) return;
- const range = { min: Infinity, max: - Infinity };
- const array = uvs.array;
- for ( let i = 0; i < array.length; i ++ ) {
- range.min = Math.min( range.min, array[ i ] );
- range.max = Math.max( range.max, array[ i ] );
- }
- let result;
- if ( range.min >= - 1.0 && range.max <= 1.0 ) {
- // use default encoding method
- result = new Uint16Array( array.length );
- for ( let i = 0; i < array.length; i += 2 ) {
- const encoded = defaultEncode( array[ i ], array[ i + 1 ], 0, 2 );
- result[ i ] = encoded[ 0 ];
- result[ i + 1 ] = encoded[ 1 ];
- }
- mesh.geometry.setAttribute( 'uv', new BufferAttribute( result, 2, true ) );
- mesh.geometry.attributes.uv.isPacked = true;
- mesh.geometry.attributes.uv.needsUpdate = true;
- mesh.geometry.attributes.uv.bytes = result.length * 2;
- if ( ! ( mesh.material instanceof PackedPhongMaterial ) ) {
- mesh.material = new PackedPhongMaterial().copy( mesh.material );
- }
- mesh.material.defines.USE_PACKED_UV = 0;
- } else {
- // use quantized encoding method
- result = quantizedEncodeUV( array, 2 );
- mesh.geometry.setAttribute( 'uv', new BufferAttribute( result.quantized, 2 ) );
- mesh.geometry.attributes.uv.isPacked = true;
- mesh.geometry.attributes.uv.needsUpdate = true;
- mesh.geometry.attributes.uv.bytes = result.quantized.length * 2;
- if ( ! ( mesh.material instanceof PackedPhongMaterial ) ) {
- mesh.material = new PackedPhongMaterial().copy( mesh.material );
- }
- mesh.material.defines.USE_PACKED_UV = 1;
- mesh.material.uniforms.quantizeMatUV.value = result.decodeMat;
- mesh.material.uniforms.quantizeMatUV.needsUpdate = true;
- }
- }
- // Encoding functions
- function defaultEncode( x, y, z, bytes ) {
- if ( bytes == 1 ) {
- const tmpx = Math.round( ( x + 1 ) * 0.5 * 255 );
- const tmpy = Math.round( ( y + 1 ) * 0.5 * 255 );
- const tmpz = Math.round( ( z + 1 ) * 0.5 * 255 );
- return new Uint8Array( [ tmpx, tmpy, tmpz ] );
- } else if ( bytes == 2 ) {
- const tmpx = Math.round( ( x + 1 ) * 0.5 * 65535 );
- const tmpy = Math.round( ( y + 1 ) * 0.5 * 65535 );
- const tmpz = Math.round( ( z + 1 ) * 0.5 * 65535 );
- return new Uint16Array( [ tmpx, tmpy, tmpz ] );
- } else {
- console.error( 'number of bytes must be 1 or 2' );
- }
- }
- // for `Angles` encoding
- function anglesEncode( x, y, z ) {
- const normal0 = parseInt( 0.5 * ( 1.0 + Math.atan2( y, x ) / Math.PI ) * 65535 );
- const normal1 = parseInt( 0.5 * ( 1.0 + z ) * 65535 );
- return new Uint16Array( [ normal0, normal1 ] );
- }
- // for `Octahedron` encoding
- function octEncodeBest( x, y, z, bytes ) {
- let oct, dec, best, currentCos, bestCos;
- // Test various combinations of ceil and floor
- // to minimize rounding errors
- best = oct = octEncodeVec3( x, y, z, 'floor', 'floor' );
- dec = octDecodeVec2( oct );
- bestCos = dot( x, y, z, dec );
- oct = octEncodeVec3( x, y, z, 'ceil', 'floor' );
- dec = octDecodeVec2( oct );
- currentCos = dot( x, y, z, dec );
- if ( currentCos > bestCos ) {
- best = oct;
- bestCos = currentCos;
- }
- oct = octEncodeVec3( x, y, z, 'floor', 'ceil' );
- dec = octDecodeVec2( oct );
- currentCos = dot( x, y, z, dec );
- if ( currentCos > bestCos ) {
- best = oct;
- bestCos = currentCos;
- }
- oct = octEncodeVec3( x, y, z, 'ceil', 'ceil' );
- dec = octDecodeVec2( oct );
- currentCos = dot( x, y, z, dec );
- if ( currentCos > bestCos ) {
- best = oct;
- }
- return best;
- function octEncodeVec3( x0, y0, z0, xfunc, yfunc ) {
- let x = x0 / ( Math.abs( x0 ) + Math.abs( y0 ) + Math.abs( z0 ) );
- let y = y0 / ( Math.abs( x0 ) + Math.abs( y0 ) + Math.abs( z0 ) );
- if ( z < 0 ) {
- const tempx = ( 1 - Math.abs( y ) ) * ( x >= 0 ? 1 : - 1 );
- const tempy = ( 1 - Math.abs( x ) ) * ( y >= 0 ? 1 : - 1 );
- x = tempx;
- y = tempy;
- let diff = 1 - Math.abs( x ) - Math.abs( y );
- if ( diff > 0 ) {
- diff += 0.001;
- x += x > 0 ? diff / 2 : - diff / 2;
- y += y > 0 ? diff / 2 : - diff / 2;
- }
- }
- if ( bytes == 1 ) {
- return new Int8Array( [
- Math[ xfunc ]( x * 127.5 + ( x < 0 ? 1 : 0 ) ),
- Math[ yfunc ]( y * 127.5 + ( y < 0 ? 1 : 0 ) )
- ] );
- }
- if ( bytes == 2 ) {
- return new Int16Array( [
- Math[ xfunc ]( x * 32767.5 + ( x < 0 ? 1 : 0 ) ),
- Math[ yfunc ]( y * 32767.5 + ( y < 0 ? 1 : 0 ) )
- ] );
- }
- }
- function octDecodeVec2( oct ) {
- let x = oct[ 0 ];
- let y = oct[ 1 ];
- if ( bytes == 1 ) {
- x /= x < 0 ? 127 : 128;
- y /= y < 0 ? 127 : 128;
- } else if ( bytes == 2 ) {
- x /= x < 0 ? 32767 : 32768;
- y /= y < 0 ? 32767 : 32768;
- }
- const z = 1 - Math.abs( x ) - Math.abs( y );
- if ( z < 0 ) {
- const tmpx = x;
- x = ( 1 - Math.abs( y ) ) * ( x >= 0 ? 1 : - 1 );
- y = ( 1 - Math.abs( tmpx ) ) * ( y >= 0 ? 1 : - 1 );
- }
- const length = Math.sqrt( x * x + y * y + z * z );
- return [
- x / length,
- y / length,
- z / length
- ];
- }
- function dot( x, y, z, vec3 ) {
- return x * vec3[ 0 ] + y * vec3[ 1 ] + z * vec3[ 2 ];
- }
- }
- function quantizedEncode( array, bytes ) {
- let quantized, segments;
- if ( bytes == 1 ) {
- quantized = new Uint8Array( array.length );
- segments = 255;
- } else if ( bytes == 2 ) {
- quantized = new Uint16Array( array.length );
- segments = 65535;
- } else {
- console.error( 'number of bytes error! ' );
- }
- const decodeMat = new Matrix4();
- const min = new Float32Array( 3 );
- const max = new Float32Array( 3 );
- min[ 0 ] = min[ 1 ] = min[ 2 ] = Number.MAX_VALUE;
- max[ 0 ] = max[ 1 ] = max[ 2 ] = - Number.MAX_VALUE;
- for ( let i = 0; i < array.length; i += 3 ) {
- min[ 0 ] = Math.min( min[ 0 ], array[ i + 0 ] );
- min[ 1 ] = Math.min( min[ 1 ], array[ i + 1 ] );
- min[ 2 ] = Math.min( min[ 2 ], array[ i + 2 ] );
- max[ 0 ] = Math.max( max[ 0 ], array[ i + 0 ] );
- max[ 1 ] = Math.max( max[ 1 ], array[ i + 1 ] );
- max[ 2 ] = Math.max( max[ 2 ], array[ i + 2 ] );
- }
- decodeMat.scale( new Vector3(
- ( max[ 0 ] - min[ 0 ] ) / segments,
- ( max[ 1 ] - min[ 1 ] ) / segments,
- ( max[ 2 ] - min[ 2 ] ) / segments
- ) );
- decodeMat.elements[ 12 ] = min[ 0 ];
- decodeMat.elements[ 13 ] = min[ 1 ];
- decodeMat.elements[ 14 ] = min[ 2 ];
- decodeMat.transpose();
- const multiplier = new Float32Array( [
- max[ 0 ] !== min[ 0 ] ? segments / ( max[ 0 ] - min[ 0 ] ) : 0,
- max[ 1 ] !== min[ 1 ] ? segments / ( max[ 1 ] - min[ 1 ] ) : 0,
- max[ 2 ] !== min[ 2 ] ? segments / ( max[ 2 ] - min[ 2 ] ) : 0
- ] );
- for ( let i = 0; i < array.length; i += 3 ) {
- quantized[ i + 0 ] = Math.floor( ( array[ i + 0 ] - min[ 0 ] ) * multiplier[ 0 ] );
- quantized[ i + 1 ] = Math.floor( ( array[ i + 1 ] - min[ 1 ] ) * multiplier[ 1 ] );
- quantized[ i + 2 ] = Math.floor( ( array[ i + 2 ] - min[ 2 ] ) * multiplier[ 2 ] );
- }
- return {
- quantized: quantized,
- decodeMat: decodeMat
- };
- }
- function quantizedEncodeUV( array, bytes ) {
- let quantized, segments;
- if ( bytes == 1 ) {
- quantized = new Uint8Array( array.length );
- segments = 255;
- } else if ( bytes == 2 ) {
- quantized = new Uint16Array( array.length );
- segments = 65535;
- } else {
- console.error( 'number of bytes error! ' );
- }
- const decodeMat = new Matrix3();
- const min = new Float32Array( 2 );
- const max = new Float32Array( 2 );
- min[ 0 ] = min[ 1 ] = Number.MAX_VALUE;
- max[ 0 ] = max[ 1 ] = - Number.MAX_VALUE;
- for ( let i = 0; i < array.length; i += 2 ) {
- min[ 0 ] = Math.min( min[ 0 ], array[ i + 0 ] );
- min[ 1 ] = Math.min( min[ 1 ], array[ i + 1 ] );
- max[ 0 ] = Math.max( max[ 0 ], array[ i + 0 ] );
- max[ 1 ] = Math.max( max[ 1 ], array[ i + 1 ] );
- }
- decodeMat.scale(
- ( max[ 0 ] - min[ 0 ] ) / segments,
- ( max[ 1 ] - min[ 1 ] ) / segments
- );
- decodeMat.elements[ 6 ] = min[ 0 ];
- decodeMat.elements[ 7 ] = min[ 1 ];
- decodeMat.transpose();
- const multiplier = new Float32Array( [
- max[ 0 ] !== min[ 0 ] ? segments / ( max[ 0 ] - min[ 0 ] ) : 0,
- max[ 1 ] !== min[ 1 ] ? segments / ( max[ 1 ] - min[ 1 ] ) : 0
- ] );
- for ( let i = 0; i < array.length; i += 2 ) {
- quantized[ i + 0 ] = Math.floor( ( array[ i + 0 ] - min[ 0 ] ) * multiplier[ 0 ] );
- quantized[ i + 1 ] = Math.floor( ( array[ i + 1 ] - min[ 1 ] ) * multiplier[ 1 ] );
- }
- return {
- quantized: quantized,
- decodeMat: decodeMat
- };
- }
- export {
- compressNormals,
- compressPositions,
- compressUvs,
- };
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