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cocos-enhance-kit/engine/cocos2d/particle/CCTIFFReader.js
SmallMain ef0589e8e5 初始化
2022-06-25 00:23:03 +08:00

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/****************************************************************************
Copyright (c) 2011 Gordon P. Hemsley
http://gphemsley.org/
Copyright (c) 2008-2010 Ricardo Quesada
Copyright (c) 2011-2012 cocos2d-x.org
Copyright (c) 2013-2016 Chukong Technologies Inc.
Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd.
https://www.cocos.com/
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated engine source code (the "Software"), a limited,
worldwide, royalty-free, non-assignable, revocable and non-exclusive license
to use Cocos Creator solely to develop games on your target platforms. You shall
not use Cocos Creator software for developing other software or tools that's
used for developing games. You are not granted to publish, distribute,
sublicense, and/or sell copies of Cocos Creator.
The software or tools in this License Agreement are licensed, not sold.
Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
****************************************************************************/
const debug = require('../core/CCDebug');
/**
* cc.tiffReader is a singleton object, it's a tiff file reader, it can parse byte array to draw into a canvas
* @class
* @name tiffReader
*/
var tiffReader = /** @lends tiffReader# */{
_littleEndian: false,
_tiffData: null,
_fileDirectories: [],
getUint8: function (offset) {
return this._tiffData[offset];
},
getUint16: function (offset) {
if (this._littleEndian)
return (this._tiffData[offset + 1] << 8) | (this._tiffData[offset]);
else
return (this._tiffData[offset] << 8) | (this._tiffData[offset + 1]);
},
getUint32: function (offset) {
var a = this._tiffData;
if (this._littleEndian)
return (a[offset + 3] << 24) | (a[offset + 2] << 16) | (a[offset + 1] << 8) | (a[offset]);
else
return (a[offset] << 24) | (a[offset + 1] << 16) | (a[offset + 2] << 8) | (a[offset + 3]);
},
checkLittleEndian: function () {
var BOM = this.getUint16(0);
if (BOM === 0x4949) {
this.littleEndian = true;
} else if (BOM === 0x4D4D) {
this.littleEndian = false;
} else {
console.log(BOM);
throw TypeError(debug.getError(6019));
}
return this.littleEndian;
},
hasTowel: function () {
// Check for towel.
if (this.getUint16(2) !== 42) {
throw RangeError(debug.getError(6020));
return false;
}
return true;
},
getFieldTypeName: function (fieldType) {
var typeNames = this.fieldTypeNames;
if (fieldType in typeNames) {
return typeNames[fieldType];
}
return null;
},
getFieldTagName: function (fieldTag) {
var tagNames = this.fieldTagNames;
if (fieldTag in tagNames) {
return tagNames[fieldTag];
} else {
cc.logID(6021, fieldTag);
return "Tag" + fieldTag;
}
},
getFieldTypeLength: function (fieldTypeName) {
if (['BYTE', 'ASCII', 'SBYTE', 'UNDEFINED'].indexOf(fieldTypeName) !== -1) {
return 1;
} else if (['SHORT', 'SSHORT'].indexOf(fieldTypeName) !== -1) {
return 2;
} else if (['LONG', 'SLONG', 'FLOAT'].indexOf(fieldTypeName) !== -1) {
return 4;
} else if (['RATIONAL', 'SRATIONAL', 'DOUBLE'].indexOf(fieldTypeName) !== -1) {
return 8;
}
return null;
},
getFieldValues: function (fieldTagName, fieldTypeName, typeCount, valueOffset) {
var fieldValues = [];
var fieldTypeLength = this.getFieldTypeLength(fieldTypeName);
var fieldValueSize = fieldTypeLength * typeCount;
if (fieldValueSize <= 4) {
// The value is stored at the big end of the valueOffset.
if (this.littleEndian === false)
fieldValues.push(valueOffset >>> ((4 - fieldTypeLength) * 8));
else
fieldValues.push(valueOffset);
} else {
for (var i = 0; i < typeCount; i++) {
var indexOffset = fieldTypeLength * i;
if (fieldTypeLength >= 8) {
if (['RATIONAL', 'SRATIONAL'].indexOf(fieldTypeName) !== -1) {
// Numerator
fieldValues.push(this.getUint32(valueOffset + indexOffset));
// Denominator
fieldValues.push(this.getUint32(valueOffset + indexOffset + 4));
} else {
cc.logID(8000);
}
} else {
fieldValues.push(this.getBytes(fieldTypeLength, valueOffset + indexOffset));
}
}
}
if (fieldTypeName === 'ASCII') {
fieldValues.forEach(function (e, i, a) {
a[i] = String.fromCharCode(e);
});
}
return fieldValues;
},
getBytes: function (numBytes, offset) {
if (numBytes <= 0) {
cc.logID(8001);
} else if (numBytes <= 1) {
return this.getUint8(offset);
} else if (numBytes <= 2) {
return this.getUint16(offset);
} else if (numBytes <= 3) {
return this.getUint32(offset) >>> 8;
} else if (numBytes <= 4) {
return this.getUint32(offset);
} else {
cc.logID(8002);
}
},
getBits: function (numBits, byteOffset, bitOffset) {
bitOffset = bitOffset || 0;
var extraBytes = Math.floor(bitOffset / 8);
var newByteOffset = byteOffset + extraBytes;
var totalBits = bitOffset + numBits;
var shiftRight = 32 - numBits;
var shiftLeft,rawBits;
if (totalBits <= 0) {
cc.logID(6023);
} else if (totalBits <= 8) {
shiftLeft = 24 + bitOffset;
rawBits = this.getUint8(newByteOffset);
} else if (totalBits <= 16) {
shiftLeft = 16 + bitOffset;
rawBits = this.getUint16(newByteOffset);
} else if (totalBits <= 32) {
shiftLeft = bitOffset;
rawBits = this.getUint32(newByteOffset);
} else {
cc.logID(6022);
}
return {
'bits': ((rawBits << shiftLeft) >>> shiftRight),
'byteOffset': newByteOffset + Math.floor(totalBits / 8),
'bitOffset': totalBits % 8
};
},
parseFileDirectory: function (byteOffset) {
var numDirEntries = this.getUint16(byteOffset);
var tiffFields = [];
for (var i = byteOffset + 2, entryCount = 0; entryCount < numDirEntries; i += 12, entryCount++) {
var fieldTag = this.getUint16(i);
var fieldType = this.getUint16(i + 2);
var typeCount = this.getUint32(i + 4);
var valueOffset = this.getUint32(i + 8);
var fieldTagName = this.getFieldTagName(fieldTag);
var fieldTypeName = this.getFieldTypeName(fieldType);
var fieldValues = this.getFieldValues(fieldTagName, fieldTypeName, typeCount, valueOffset);
tiffFields[fieldTagName] = { type: fieldTypeName, values: fieldValues };
}
this._fileDirectories.push(tiffFields);
var nextIFDByteOffset = this.getUint32(i);
if (nextIFDByteOffset !== 0x00000000) {
this.parseFileDirectory(nextIFDByteOffset);
}
},
clampColorSample: function(colorSample, bitsPerSample) {
var multiplier = Math.pow(2, 8 - bitsPerSample);
return Math.floor((colorSample * multiplier) + (multiplier - 1));
},
/**
* @function
* @param {Array} tiffData
* @param {HTMLCanvasElement} canvas
* @returns {*}
*/
parseTIFF: function (tiffData, canvas) {
canvas = canvas || document.createElement('canvas');
this._tiffData = tiffData;
this.canvas = canvas;
this.checkLittleEndian();
if (!this.hasTowel()) {
return;
}
var firstIFDByteOffset = this.getUint32(4);
this._fileDirectories.length = 0;
this.parseFileDirectory(firstIFDByteOffset);
var fileDirectory = this._fileDirectories[0];
var imageWidth = fileDirectory['ImageWidth'].values[0];
var imageLength = fileDirectory['ImageLength'].values[0];
this.canvas.width = imageWidth;
this.canvas.height = imageLength;
var strips = [];
var compression = (fileDirectory['Compression']) ? fileDirectory['Compression'].values[0] : 1;
var samplesPerPixel = fileDirectory['SamplesPerPixel'].values[0];
var sampleProperties = [];
var bitsPerPixel = 0;
var hasBytesPerPixel = false;
fileDirectory['BitsPerSample'].values.forEach(function (bitsPerSample, i, bitsPerSampleValues) {
sampleProperties[i] = {
bitsPerSample: bitsPerSample,
hasBytesPerSample: false,
bytesPerSample: undefined
};
if ((bitsPerSample % 8) === 0) {
sampleProperties[i].hasBytesPerSample = true;
sampleProperties[i].bytesPerSample = bitsPerSample / 8;
}
bitsPerPixel += bitsPerSample;
}, this);
if ((bitsPerPixel % 8) === 0) {
hasBytesPerPixel = true;
var bytesPerPixel = bitsPerPixel / 8;
}
var stripOffsetValues = fileDirectory['StripOffsets'].values;
var numStripOffsetValues = stripOffsetValues.length;
// StripByteCounts is supposed to be required, but see if we can recover anyway.
if (fileDirectory['StripByteCounts']) {
var stripByteCountValues = fileDirectory['StripByteCounts'].values;
} else {
cc.logID(8003);
// Infer StripByteCounts, if possible.
if (numStripOffsetValues === 1) {
var stripByteCountValues = [Math.ceil((imageWidth * imageLength * bitsPerPixel) / 8)];
} else {
throw Error(debug.getError(6024));
}
}
// Loop through strips and decompress as necessary.
for (var i = 0; i < numStripOffsetValues; i++) {
var stripOffset = stripOffsetValues[i];
strips[i] = [];
var stripByteCount = stripByteCountValues[i];
// Loop through pixels.
for (var byteOffset = 0, bitOffset = 0, jIncrement = 1, getHeader = true, pixel = [], numBytes = 0, sample = 0, currentSample = 0;
byteOffset < stripByteCount; byteOffset += jIncrement) {
// Decompress strip.
switch (compression) {
// Uncompressed
case 1:
// Loop through samples (sub-pixels).
for (var m = 0, pixel = []; m < samplesPerPixel; m++) {
if (sampleProperties[m].hasBytesPerSample) {
// XXX: This is wrong!
var sampleOffset = sampleProperties[m].bytesPerSample * m;
pixel.push(this.getBytes(sampleProperties[m].bytesPerSample, stripOffset + byteOffset + sampleOffset));
} else {
var sampleInfo = this.getBits(sampleProperties[m].bitsPerSample, stripOffset + byteOffset, bitOffset);
pixel.push(sampleInfo.bits);
byteOffset = sampleInfo.byteOffset - stripOffset;
bitOffset = sampleInfo.bitOffset;
throw RangeError(debug.getError(6025));
}
}
strips[i].push(pixel);
if (hasBytesPerPixel) {
jIncrement = bytesPerPixel;
} else {
jIncrement = 0;
throw RangeError(debug.getError(6026));
}
break;
// CITT Group 3 1-Dimensional Modified Huffman run-length encoding
case 2:
// XXX: Use PDF.js code?
break;
// Group 3 Fax
case 3:
// XXX: Use PDF.js code?
break;
// Group 4 Fax
case 4:
// XXX: Use PDF.js code?
break;
// LZW
case 5:
// XXX: Use PDF.js code?
break;
// Old-style JPEG (TIFF 6.0)
case 6:
// XXX: Use PDF.js code?
break;
// New-style JPEG (TIFF Specification Supplement 2)
case 7:
// XXX: Use PDF.js code?
break;
// PackBits
case 32773:
// Are we ready for a new block?
if (getHeader) {
getHeader = false;
var blockLength = 1;
var iterations = 1;
// The header byte is signed.
var header = this.getInt8(stripOffset + byteOffset);
if ((header >= 0) && (header <= 127)) { // Normal pixels.
blockLength = header + 1;
} else if ((header >= -127) && (header <= -1)) { // Collapsed pixels.
iterations = -header + 1;
} else /*if (header === -128)*/ { // Placeholder byte?
getHeader = true;
}
} else {
var currentByte = this.getUint8(stripOffset + byteOffset);
// Duplicate bytes, if necessary.
for (var m = 0; m < iterations; m++) {
if (sampleProperties[sample].hasBytesPerSample) {
// We're reading one byte at a time, so we need to handle multi-byte samples.
currentSample = (currentSample << (8 * numBytes)) | currentByte;
numBytes++;
// Is our sample complete?
if (numBytes === sampleProperties[sample].bytesPerSample) {
pixel.push(currentSample);
currentSample = numBytes = 0;
sample++;
}
} else {
throw RangeError(debug.getError(6025));
}
// Is our pixel complete?
if (sample === samplesPerPixel) {
strips[i].push(pixel);
pixel = [];
sample = 0;
}
}
blockLength--;
// Is our block complete?
if (blockLength === 0) {
getHeader = true;
}
}
jIncrement = 1;
break;
// Unknown compression algorithm
default:
// Do not attempt to parse the image data.
break;
}
}
}
if (canvas.getContext) {
var ctx = this.canvas.getContext("2d");
// Set a default fill style.
ctx.fillStyle = "rgba(255, 255, 255, 0)";
// If RowsPerStrip is missing, the whole image is in one strip.
var rowsPerStrip = fileDirectory['RowsPerStrip'] ? fileDirectory['RowsPerStrip'].values[0] : imageLength;
var numStrips = strips.length;
var imageLengthModRowsPerStrip = imageLength % rowsPerStrip;
var rowsInLastStrip = (imageLengthModRowsPerStrip === 0) ? rowsPerStrip : imageLengthModRowsPerStrip;
var numRowsInStrip = rowsPerStrip;
var numRowsInPreviousStrip = 0;
var photometricInterpretation = fileDirectory['PhotometricInterpretation'].values[0];
var extraSamplesValues = [];
var numExtraSamples = 0;
if (fileDirectory['ExtraSamples']) {
extraSamplesValues = fileDirectory['ExtraSamples'].values;
numExtraSamples = extraSamplesValues.length;
}
if (fileDirectory['ColorMap']) {
var colorMapValues = fileDirectory['ColorMap'].values;
var colorMapSampleSize = Math.pow(2, sampleProperties[0].bitsPerSample);
}
// Loop through the strips in the image.
for (var i = 0; i < numStrips; i++) {
// The last strip may be short.
if ((i + 1) === numStrips) {
numRowsInStrip = rowsInLastStrip;
}
var numPixels = strips[i].length;
var yPadding = numRowsInPreviousStrip * i;
// Loop through the rows in the strip.
for (var y = 0, j = 0; y < numRowsInStrip, j < numPixels; y++) {
// Loop through the pixels in the row.
for (var x = 0; x < imageWidth; x++, j++) {
var pixelSamples = strips[i][j];
var red = 0;
var green = 0;
var blue = 0;
var opacity = 1.0;
if (numExtraSamples > 0) {
for (var k = 0; k < numExtraSamples; k++) {
if (extraSamplesValues[k] === 1 || extraSamplesValues[k] === 2) {
// Clamp opacity to the range [0,1].
opacity = pixelSamples[3 + k] / 256;
break;
}
}
}
switch (photometricInterpretation) {
// Bilevel or Grayscale
// WhiteIsZero
case 0:
if (sampleProperties[0].hasBytesPerSample) {
var invertValue = Math.pow(0x10, sampleProperties[0].bytesPerSample * 2);
}
// Invert samples.
pixelSamples.forEach(function (sample, index, samples) {
samples[index] = invertValue - sample;
});
// Bilevel or Grayscale
// BlackIsZero
case 1:
red = green = blue = this.clampColorSample(pixelSamples[0], sampleProperties[0].bitsPerSample);
break;
// RGB Full Color
case 2:
red = this.clampColorSample(pixelSamples[0], sampleProperties[0].bitsPerSample);
green = this.clampColorSample(pixelSamples[1], sampleProperties[1].bitsPerSample);
blue = this.clampColorSample(pixelSamples[2], sampleProperties[2].bitsPerSample);
break;
// RGB Color Palette
case 3:
if (colorMapValues === undefined) {
throw Error(debug.getError(6027));
}
var colorMapIndex = pixelSamples[0];
red = this.clampColorSample(colorMapValues[colorMapIndex], 16);
green = this.clampColorSample(colorMapValues[colorMapSampleSize + colorMapIndex], 16);
blue = this.clampColorSample(colorMapValues[(2 * colorMapSampleSize) + colorMapIndex], 16);
break;
// Unknown Photometric Interpretation
default:
throw RangeError(debug.getError(6028, photometricInterpretation));
break;
}
ctx.fillStyle = "rgba(" + red + ", " + green + ", " + blue + ", " + opacity + ")";
ctx.fillRect(x, yPadding + y, 1, 1);
}
}
numRowsInPreviousStrip = numRowsInStrip;
}
}
return this.canvas;
},
// See: http://www.digitizationguidelines.gov/guidelines/TIFF_Metadata_Final.pdf
// See: http://www.digitalpreservation.gov/formats/content/tiff_tags.shtml
fieldTagNames: {
// TIFF Baseline
0x013B: 'Artist',
0x0102: 'BitsPerSample',
0x0109: 'CellLength',
0x0108: 'CellWidth',
0x0140: 'ColorMap',
0x0103: 'Compression',
0x8298: 'Copyright',
0x0132: 'DateTime',
0x0152: 'ExtraSamples',
0x010A: 'FillOrder',
0x0121: 'FreeByteCounts',
0x0120: 'FreeOffsets',
0x0123: 'GrayResponseCurve',
0x0122: 'GrayResponseUnit',
0x013C: 'HostComputer',
0x010E: 'ImageDescription',
0x0101: 'ImageLength',
0x0100: 'ImageWidth',
0x010F: 'Make',
0x0119: 'MaxSampleValue',
0x0118: 'MinSampleValue',
0x0110: 'Model',
0x00FE: 'NewSubfileType',
0x0112: 'Orientation',
0x0106: 'PhotometricInterpretation',
0x011C: 'PlanarConfiguration',
0x0128: 'ResolutionUnit',
0x0116: 'RowsPerStrip',
0x0115: 'SamplesPerPixel',
0x0131: 'Software',
0x0117: 'StripByteCounts',
0x0111: 'StripOffsets',
0x00FF: 'SubfileType',
0x0107: 'Threshholding',
0x011A: 'XResolution',
0x011B: 'YResolution',
// TIFF Extended
0x0146: 'BadFaxLines',
0x0147: 'CleanFaxData',
0x0157: 'ClipPath',
0x0148: 'ConsecutiveBadFaxLines',
0x01B1: 'Decode',
0x01B2: 'DefaultImageColor',
0x010D: 'DocumentName',
0x0150: 'DotRange',
0x0141: 'HalftoneHints',
0x015A: 'Indexed',
0x015B: 'JPEGTables',
0x011D: 'PageName',
0x0129: 'PageNumber',
0x013D: 'Predictor',
0x013F: 'PrimaryChromaticities',
0x0214: 'ReferenceBlackWhite',
0x0153: 'SampleFormat',
0x022F: 'StripRowCounts',
0x014A: 'SubIFDs',
0x0124: 'T4Options',
0x0125: 'T6Options',
0x0145: 'TileByteCounts',
0x0143: 'TileLength',
0x0144: 'TileOffsets',
0x0142: 'TileWidth',
0x012D: 'TransferFunction',
0x013E: 'WhitePoint',
0x0158: 'XClipPathUnits',
0x011E: 'XPosition',
0x0211: 'YCbCrCoefficients',
0x0213: 'YCbCrPositioning',
0x0212: 'YCbCrSubSampling',
0x0159: 'YClipPathUnits',
0x011F: 'YPosition',
// EXIF
0x9202: 'ApertureValue',
0xA001: 'ColorSpace',
0x9004: 'DateTimeDigitized',
0x9003: 'DateTimeOriginal',
0x8769: 'Exif IFD',
0x9000: 'ExifVersion',
0x829A: 'ExposureTime',
0xA300: 'FileSource',
0x9209: 'Flash',
0xA000: 'FlashpixVersion',
0x829D: 'FNumber',
0xA420: 'ImageUniqueID',
0x9208: 'LightSource',
0x927C: 'MakerNote',
0x9201: 'ShutterSpeedValue',
0x9286: 'UserComment',
// IPTC
0x83BB: 'IPTC',
// ICC
0x8773: 'ICC Profile',
// XMP
0x02BC: 'XMP',
// GDAL
0xA480: 'GDAL_METADATA',
0xA481: 'GDAL_NODATA',
// Photoshop
0x8649: 'Photoshop'
},
fieldTypeNames: {
0x0001: 'BYTE',
0x0002: 'ASCII',
0x0003: 'SHORT',
0x0004: 'LONG',
0x0005: 'RATIONAL',
0x0006: 'SBYTE',
0x0007: 'UNDEFINED',
0x0008: 'SSHORT',
0x0009: 'SLONG',
0x000A: 'SRATIONAL',
0x000B: 'FLOAT',
0x000C: 'DOUBLE'
}
};
module.exports = tiffReader;
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