import * as fflate from '../libs/fflate.module.js'; class USDZExporter { async parse( scene ) { const files = {}; const modelFileName = 'model.usda'; // model file should be first in USDZ archive so we init it here files[ modelFileName ] = null; let output = buildHeader(); const materials = {}; const textures = {}; scene.traverseVisible( ( object ) => { if ( object.isMesh && object.material.isMeshStandardMaterial ) { const geometry = object.geometry; const material = object.material; const geometryFileName = 'geometries/Geometry_' + geometry.id + '.usd'; if ( ! ( geometryFileName in files ) ) { const meshObject = buildMeshObject( geometry ); files[ geometryFileName ] = buildUSDFileAsString( meshObject ); } if ( ! ( material.uuid in materials ) ) { materials[ material.uuid ] = material; } output += buildXform( object, geometry, material ); } } ); output += buildMaterials( materials, textures ); files[ modelFileName ] = fflate.strToU8( output ); output = null; for ( const id in textures ) { const texture = textures[ id ]; const color = id.split( '_' )[ 1 ]; const isRGBA = texture.format === 1023; const canvas = imageToCanvas( texture.image, color ); const blob = await new Promise( resolve => canvas.toBlob( resolve, isRGBA ? 'image/png' : 'image/jpeg', 1 ) ); files[ `textures/Texture_${ id }.${ isRGBA ? 'png' : 'jpg' }` ] = new Uint8Array( await blob.arrayBuffer() ); } // 64 byte alignment // https://github.com/101arrowz/fflate/issues/39#issuecomment-777263109 let offset = 0; for ( const filename in files ) { const file = files[ filename ]; const headerSize = 34 + filename.length; offset += headerSize; const offsetMod64 = offset & 63; if ( offsetMod64 !== 4 ) { const padLength = 64 - offsetMod64; const padding = new Uint8Array( padLength ); files[ filename ] = [ file, { extra: { 12345: padding } } ]; } offset = file.length; } return fflate.zipSync( files, { level: 0 } ); } } function imageToCanvas( image, color ) { if ( ( typeof HTMLImageElement !== 'undefined' && image instanceof HTMLImageElement ) || ( typeof HTMLCanvasElement !== 'undefined' && image instanceof HTMLCanvasElement ) || ( typeof OffscreenCanvas !== 'undefined' && image instanceof OffscreenCanvas ) || ( typeof ImageBitmap !== 'undefined' && image instanceof ImageBitmap ) ) { const scale = 1024 / Math.max( image.width, image.height ); const canvas = document.createElement( 'canvas' ); canvas.width = image.width * Math.min( 1, scale ); canvas.height = image.height * Math.min( 1, scale ); const context = canvas.getContext( '2d' ); context.drawImage( image, 0, 0, canvas.width, canvas.height ); if ( color !== undefined ) { const hex = parseInt( color, 16 ); const r = ( hex >> 16 & 255 ) / 255; const g = ( hex >> 8 & 255 ) / 255; const b = ( hex & 255 ) / 255; const imagedata = context.getImageData( 0, 0, canvas.width, canvas.height ); const data = imagedata.data; for ( let i = 0; i < data.length; i += 4 ) { data[ i + 0 ] = data[ i + 0 ] * r; data[ i + 1 ] = data[ i + 1 ] * g; data[ i + 2 ] = data[ i + 2 ] * b; } context.putImageData( imagedata, 0, 0 ); } return canvas; } } // const PRECISION = 7; function buildHeader() { return `#usda 1.0 ( customLayerData = { string creator = "Three.js USDZExporter" } metersPerUnit = 1 upAxis = "Y" ) `; } function buildUSDFileAsString( dataToInsert ) { let output = buildHeader(); output += dataToInsert; return fflate.strToU8( output ); } // Xform function buildXform( object, geometry, material ) { const name = 'Object_' + object.id; const transform = buildMatrix( object.matrixWorld ); if ( object.matrixWorld.determinant() < 0 ) { console.warn( 'THREE.USDZExporter: USDZ does not support negative scales', object ); } return `def Xform "${ name }" ( prepend references = @./geometries/Geometry_${ geometry.id }.usd@ ) { matrix4d xformOp:transform = ${ transform } uniform token[] xformOpOrder = ["xformOp:transform"] rel material:binding = } `; } function buildMatrix( matrix ) { const array = matrix.elements; return `( ${ buildMatrixRow( array, 0 ) }, ${ buildMatrixRow( array, 4 ) }, ${ buildMatrixRow( array, 8 ) }, ${ buildMatrixRow( array, 12 ) } )`; } function buildMatrixRow( array, offset ) { return `(${ array[ offset + 0 ] }, ${ array[ offset + 1 ] }, ${ array[ offset + 2 ] }, ${ array[ offset + 3 ] })`; } // Mesh function buildMeshObject( geometry ) { const mesh = buildMesh( geometry ); return ` def "Geometry" { ${mesh} } `; } function buildMesh( geometry ) { const name = 'Geometry'; const attributes = geometry.attributes; const count = attributes.position.count; return ` def Mesh "${ name }" { int[] faceVertexCounts = [${ buildMeshVertexCount( geometry ) }] int[] faceVertexIndices = [${ buildMeshVertexIndices( geometry ) }] normal3f[] normals = [${ buildVector3Array( attributes.normal, count )}] ( interpolation = "vertex" ) point3f[] points = [${ buildVector3Array( attributes.position, count )}] float2[] primvars:st = [${ buildVector2Array( attributes.uv, count )}] ( interpolation = "vertex" ) uniform token subdivisionScheme = "none" } `; } function buildMeshVertexCount( geometry ) { const count = geometry.index !== null ? geometry.index.array.length : geometry.attributes.position.count; return Array( count / 3 ).fill( 3 ).join( ', ' ); } function buildMeshVertexIndices( geometry ) { if ( geometry.index !== null ) { return geometry.index.array.join( ', ' ); } const array = []; const length = geometry.attributes.position.count; for ( let i = 0; i < length; i ++ ) { array.push( i ); } return array.join( ', ' ); } function buildVector3Array( attribute, count ) { if ( attribute === undefined ) { console.warn( 'USDZExporter: Normals missing.' ); return Array( count ).fill( '(0, 0, 0)' ).join( ', ' ); } const array = []; const data = attribute.array; for ( let i = 0; i < data.length; i += 3 ) { array.push( `(${ data[ i + 0 ].toPrecision( PRECISION ) }, ${ data[ i + 1 ].toPrecision( PRECISION ) }, ${ data[ i + 2 ].toPrecision( PRECISION ) })` ); } return array.join( ', ' ); } function buildVector2Array( attribute, count ) { if ( attribute === undefined ) { console.warn( 'USDZExporter: UVs missing.' ); return Array( count ).fill( '(0, 0)' ).join( ', ' ); } const array = []; const data = attribute.array; for ( let i = 0; i < data.length; i += 2 ) { array.push( `(${ data[ i + 0 ].toPrecision( PRECISION ) }, ${ 1 - data[ i + 1 ].toPrecision( PRECISION ) })` ); } return array.join( ', ' ); } // Materials function buildMaterials( materials, textures ) { const array = []; for ( const uuid in materials ) { const material = materials[ uuid ]; array.push( buildMaterial( material, textures ) ); } return `def "Materials" { ${ array.join( '' ) } } `; } function buildMaterial( material, textures ) { // https://graphics.pixar.com/usd/docs/UsdPreviewSurface-Proposal.html const pad = ' '; const inputs = []; const samplers = []; function buildTexture( texture, mapType, color ) { const id = texture.id + ( color ? '_' + color.getHexString() : '' ); const isRGBA = texture.format === 1023; textures[ id ] = texture; return ` def Shader "Transform2d_${ mapType }" ( sdrMetadata = { string role = "math" } ) { uniform token info:id = "UsdTransform2d" float2 inputs:in.connect = float2 inputs:scale = ${ buildVector2( texture.repeat ) } float2 inputs:translation = ${ buildVector2( texture.offset ) } float2 outputs:result } def Shader "Texture_${ texture.id }_${ mapType }" { uniform token info:id = "UsdUVTexture" asset inputs:file = @textures/Texture_${ id }.${ isRGBA ? 'png' : 'jpg' }@ float2 inputs:st.connect = token inputs:wrapS = "repeat" token inputs:wrapT = "repeat" float outputs:r float outputs:g float outputs:b float3 outputs:rgb }`; } if ( material.map !== null ) { inputs.push( `${ pad }color3f inputs:diffuseColor.connect = ` ); samplers.push( buildTexture( material.map, 'diffuse', material.color ) ); } else { inputs.push( `${ pad }color3f inputs:diffuseColor = ${ buildColor( material.color ) }` ); } if ( material.emissiveMap !== null ) { inputs.push( `${ pad }color3f inputs:emissiveColor.connect = ` ); samplers.push( buildTexture( material.emissiveMap, 'emissive' ) ); } else if ( material.emissive.getHex() > 0 ) { inputs.push( `${ pad }color3f inputs:emissiveColor = ${ buildColor( material.emissive ) }` ); } if ( material.normalMap !== null ) { inputs.push( `${ pad }normal3f inputs:normal.connect = ` ); samplers.push( buildTexture( material.normalMap, 'normal' ) ); } if ( material.aoMap !== null ) { inputs.push( `${ pad }float inputs:occlusion.connect = ` ); samplers.push( buildTexture( material.aoMap, 'occlusion' ) ); } if ( material.roughnessMap !== null ) { inputs.push( `${ pad }float inputs:roughness.connect = ` ); samplers.push( buildTexture( material.roughnessMap, 'roughness' ) ); } else { inputs.push( `${ pad }float inputs:roughness = ${ material.roughness }` ); } if ( material.metalnessMap !== null ) { inputs.push( `${ pad }float inputs:metallic.connect = ` ); samplers.push( buildTexture( material.metalnessMap, 'metallic' ) ); } else { inputs.push( `${ pad }float inputs:metallic = ${ material.metalness }` ); } inputs.push( `${ pad }float inputs:opacity = ${ material.opacity }` ); if ( material.isMeshPhysicalMaterial ) { inputs.push( `${ pad }float inputs:clearcoat = ${ material.clearcoat }` ); inputs.push( `${ pad }float inputs:clearcoatRoughness = ${ material.clearcoatRoughness }` ); inputs.push( `${ pad }float inputs:ior = ${ material.ior }` ); } return ` def Material "Material_${ material.id }" { def Shader "PreviewSurface" { uniform token info:id = "UsdPreviewSurface" ${ inputs.join( '\n' ) } int inputs:useSpecularWorkflow = 0 token outputs:surface } token outputs:surface.connect = token inputs:frame:stPrimvarName = "st" def Shader "uvReader_st" { uniform token info:id = "UsdPrimvarReader_float2" token inputs:varname.connect = float2 inputs:fallback = (0.0, 0.0) float2 outputs:result } ${ samplers.join( '\n' ) } } `; } function buildColor( color ) { return `(${ color.r }, ${ color.g }, ${ color.b })`; } function buildVector2( vector ) { return `(${ vector.x }, ${ vector.y })`; } export { USDZExporter };