three 基础库
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( function () {
/**
* for description see https://www.khronos.org/opengles/sdk/tools/KTX/
* for file layout see https://www.khronos.org/opengles/sdk/tools/KTX/file_format_spec/
*
* ported from https://github.com/BabylonJS/Babylon.js/blob/master/src/Tools/babylon.khronosTextureContainer.ts
*/
class KTXLoader extends THREE.CompressedTextureLoader {
constructor( manager ) {
super( manager );
}
parse( buffer, loadMipmaps ) {
const ktx = new KhronosTextureContainer( buffer, 1 );
return {
mipmaps: ktx.mipmaps( loadMipmaps ),
width: ktx.pixelWidth,
height: ktx.pixelHeight,
format: ktx.glInternalFormat,
isCubemap: ktx.numberOfFaces === 6,
mipmapCount: ktx.numberOfMipmapLevels
};
}
}
const HEADER_LEN = 12 + 13 * 4; // identifier + header elements (not including key value meta-data pairs)
// load types
const COMPRESSED_2D = 0; // uses a gl.compressedTexImage2D()
//const COMPRESSED_3D = 1; // uses a gl.compressedTexImage3D()
//const TEX_2D = 2; // uses a gl.texImage2D()
//const TEX_3D = 3; // uses a gl.texImage3D()
class KhronosTextureContainer {
/**
* @param {ArrayBuffer} arrayBuffer- contents of the KTX container file
* @param {number} facesExpected- should be either 1 or 6, based whether a cube texture or or
* @param {boolean} threeDExpected- provision for indicating that data should be a 3D texture, not implemented
* @param {boolean} textureArrayExpected- provision for indicating that data should be a texture array, not implemented
*/
constructor( arrayBuffer, facesExpected
/*, threeDExpected, textureArrayExpected */
) {
this.arrayBuffer = arrayBuffer; // Test that it is a ktx formatted file, based on the first 12 bytes, character representation is:
// '´', 'K', 'T', 'X', ' ', '1', '1', 'ª', '\r', '\n', '\x1A', '\n'
// 0xAB, 0x4B, 0x54, 0x58, 0x20, 0x31, 0x31, 0xBB, 0x0D, 0x0A, 0x1A, 0x0A
const identifier = new Uint8Array( this.arrayBuffer, 0, 12 );
if ( identifier[ 0 ] !== 0xAB || identifier[ 1 ] !== 0x4B || identifier[ 2 ] !== 0x54 || identifier[ 3 ] !== 0x58 || identifier[ 4 ] !== 0x20 || identifier[ 5 ] !== 0x31 || identifier[ 6 ] !== 0x31 || identifier[ 7 ] !== 0xBB || identifier[ 8 ] !== 0x0D || identifier[ 9 ] !== 0x0A || identifier[ 10 ] !== 0x1A || identifier[ 11 ] !== 0x0A ) {
console.error( 'texture missing KTX identifier' );
return;
} // load the reset of the header in native 32 bit uint
const dataSize = Uint32Array.BYTES_PER_ELEMENT;
const headerDataView = new DataView( this.arrayBuffer, 12, 13 * dataSize );
const endianness = headerDataView.getUint32( 0, true );
const littleEndian = endianness === 0x04030201;
this.glType = headerDataView.getUint32( 1 * dataSize, littleEndian ); // must be 0 for compressed textures
this.glTypeSize = headerDataView.getUint32( 2 * dataSize, littleEndian ); // must be 1 for compressed textures
this.glFormat = headerDataView.getUint32( 3 * dataSize, littleEndian ); // must be 0 for compressed textures
this.glInternalFormat = headerDataView.getUint32( 4 * dataSize, littleEndian ); // the value of arg passed to gl.compressedTexImage2D(,,x,,,,)
this.glBaseInternalFormat = headerDataView.getUint32( 5 * dataSize, littleEndian ); // specify GL_RGB, GL_RGBA, GL_ALPHA, etc (un-compressed only)
this.pixelWidth = headerDataView.getUint32( 6 * dataSize, littleEndian ); // level 0 value of arg passed to gl.compressedTexImage2D(,,,x,,,)
this.pixelHeight = headerDataView.getUint32( 7 * dataSize, littleEndian ); // level 0 value of arg passed to gl.compressedTexImage2D(,,,,x,,)
this.pixelDepth = headerDataView.getUint32( 8 * dataSize, littleEndian ); // level 0 value of arg passed to gl.compressedTexImage3D(,,,,,x,,)
this.numberOfArrayElements = headerDataView.getUint32( 9 * dataSize, littleEndian ); // used for texture arrays
this.numberOfFaces = headerDataView.getUint32( 10 * dataSize, littleEndian ); // used for cubemap textures, should either be 1 or 6
this.numberOfMipmapLevels = headerDataView.getUint32( 11 * dataSize, littleEndian ); // number of levels; disregard possibility of 0 for compressed textures
this.bytesOfKeyValueData = headerDataView.getUint32( 12 * dataSize, littleEndian ); // the amount of space after the header for meta-data
// Make sure we have a compressed type. Not only reduces work, but probably better to let dev know they are not compressing.
if ( this.glType !== 0 ) {
console.warn( 'only compressed formats currently supported' );
return;
} else {
// value of zero is an indication to generate mipmaps @ runtime. Not usually allowed for compressed, so disregard.
this.numberOfMipmapLevels = Math.max( 1, this.numberOfMipmapLevels );
}
if ( this.pixelHeight === 0 || this.pixelDepth !== 0 ) {
console.warn( 'only 2D textures currently supported' );
return;
}
if ( this.numberOfArrayElements !== 0 ) {
console.warn( 'texture arrays not currently supported' );
return;
}
if ( this.numberOfFaces !== facesExpected ) {
console.warn( 'number of faces expected' + facesExpected + ', but found ' + this.numberOfFaces );
return;
} // we now have a completely validated file, so could use existence of loadType as success
// would need to make this more elaborate & adjust checks above to support more than one load type
this.loadType = COMPRESSED_2D;
}
mipmaps( loadMipmaps ) {
const mipmaps = []; // initialize width & height for level 1
let dataOffset = HEADER_LEN + this.bytesOfKeyValueData;
let width = this.pixelWidth;
let height = this.pixelHeight;
const mipmapCount = loadMipmaps ? this.numberOfMipmapLevels : 1;
for ( let level = 0; level < mipmapCount; level ++ ) {
const imageSize = new Int32Array( this.arrayBuffer, dataOffset, 1 )[ 0 ]; // size per face, since not supporting array cubemaps
dataOffset += 4; // size of the image + 4 for the imageSize field
for ( let face = 0; face < this.numberOfFaces; face ++ ) {
const byteArray = new Uint8Array( this.arrayBuffer, dataOffset, imageSize );
mipmaps.push( {
'data': byteArray,
'width': width,
'height': height
} );
dataOffset += imageSize;
dataOffset += 3 - ( imageSize + 3 ) % 4; // add padding for odd sized image
}
width = Math.max( 1.0, width * 0.5 );
height = Math.max( 1.0, height * 0.5 );
}
return mipmaps;
}
}
THREE.KTXLoader = KTXLoader;
} )();