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376 lines
8.7 KiB
C++
376 lines
8.7 KiB
C++
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// Copyright (C) 2002-2012 Nikolaus Gebhardt
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// This file is part of the "Irrlicht Engine".
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// For conditions of distribution and use, see copyright notice in irrlicht.h
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#include "CImageLoaderPSD.h"
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#ifdef _IRR_COMPILE_WITH_PSD_LOADER_
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#include "IReadFile.h"
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#include "os.h"
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#include "CImage.h"
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#include "irrString.h"
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namespace irr
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{
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namespace video
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{
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//! constructor
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CImageLoaderPSD::CImageLoaderPSD()
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{
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#ifdef _DEBUG
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setDebugName("CImageLoaderPSD");
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#endif
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}
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//! returns true if the file maybe is able to be loaded by this class
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//! based on the file extension (e.g. ".tga")
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bool CImageLoaderPSD::isALoadableFileExtension(const io::path& filename) const
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{
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return core::hasFileExtension ( filename, "psd" );
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}
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//! returns true if the file maybe is able to be loaded by this class
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bool CImageLoaderPSD::isALoadableFileFormat(io::IReadFile* file) const
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{
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if (!file)
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return false;
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u8 type[3];
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file->read(&type, sizeof(u8)*3);
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return (type[2]==2); // we currently only handle tgas of type 2.
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}
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//! creates a surface from the file
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IImage* CImageLoaderPSD::loadImage(io::IReadFile* file) const
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{
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u32* imageData = 0;
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PsdHeader header;
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file->read(&header, sizeof(PsdHeader));
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#ifndef __BIG_ENDIAN__
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header.version = os::Byteswap::byteswap(header.version);
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header.channels = os::Byteswap::byteswap(header.channels);
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header.height = os::Byteswap::byteswap(header.height);
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header.width = os::Byteswap::byteswap(header.width);
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header.depth = os::Byteswap::byteswap(header.depth);
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header.mode = os::Byteswap::byteswap(header.mode);
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#endif
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if (header.signature[0] != '8' ||
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header.signature[1] != 'B' ||
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header.signature[2] != 'P' ||
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header.signature[3] != 'S')
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return 0;
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if (header.version != 1)
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{
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os::Printer::log("Unsupported PSD file version", file->getFileName(), ELL_ERROR);
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return 0;
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}
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if (header.mode != 3 || header.depth != 8)
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{
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os::Printer::log("Unsupported PSD color mode or depth.\n", file->getFileName(), ELL_ERROR);
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return 0;
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}
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// skip color mode data
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u32 l;
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file->read(&l, sizeof(u32));
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#ifndef __BIG_ENDIAN__
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l = os::Byteswap::byteswap(l);
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#endif
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if (!file->seek(l, true))
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{
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os::Printer::log("Error seeking file pos to image resources.\n", file->getFileName(), ELL_ERROR);
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return 0;
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}
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// skip image resources
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file->read(&l, sizeof(u32));
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#ifndef __BIG_ENDIAN__
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l = os::Byteswap::byteswap(l);
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#endif
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if (!file->seek(l, true))
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{
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os::Printer::log("Error seeking file pos to layer and mask.\n", file->getFileName(), ELL_ERROR);
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return 0;
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}
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// skip layer & mask
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file->read(&l, sizeof(u32));
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#ifndef __BIG_ENDIAN__
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l = os::Byteswap::byteswap(l);
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#endif
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if (!file->seek(l, true))
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{
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os::Printer::log("Error seeking file pos to image data section.\n", file->getFileName(), ELL_ERROR);
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return 0;
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}
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// read image data
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u16 compressionType;
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file->read(&compressionType, sizeof(u16));
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#ifndef __BIG_ENDIAN__
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compressionType = os::Byteswap::byteswap(compressionType);
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#endif
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if (compressionType != 1 && compressionType != 0)
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{
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os::Printer::log("Unsupported psd compression mode.\n", file->getFileName(), ELL_ERROR);
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return 0;
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}
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// create image data block
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imageData = new u32[header.width * header.height];
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bool res = false;
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if (compressionType == 0)
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res = readRawImageData(file, header, imageData); // RAW image data
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else
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res = readRLEImageData(file, header, imageData); // RLE compressed data
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video::IImage* image = 0;
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if (res)
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{
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// create surface
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image = new CImage(ECF_A8R8G8B8,
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core::dimension2d<u32>(header.width, header.height), imageData);
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}
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if (!image)
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delete [] imageData;
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imageData = 0;
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return image;
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}
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bool CImageLoaderPSD::readRawImageData(io::IReadFile* file, const PsdHeader& header, u32* imageData) const
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{
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u8* tmpData = new u8[header.width * header.height];
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for (s32 channel=0; channel<header.channels && channel < 3; ++channel)
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{
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if (!file->read(tmpData, sizeof(c8) * header.width * header.height))
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{
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os::Printer::log("Error reading color channel\n", file->getFileName(), ELL_ERROR);
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break;
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}
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s16 shift = getShiftFromChannel((c8)channel, header);
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if (shift != -1)
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{
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u32 mask = 0xff << shift;
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for (u32 x=0; x<header.width; ++x)
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{
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for (u32 y=0; y<header.height; ++y)
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{
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s32 index = x + y*header.width;
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imageData[index] = ~(~imageData[index] | mask);
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imageData[index] |= tmpData[index] << shift;
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}
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}
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}
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}
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delete [] tmpData;
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return true;
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}
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bool CImageLoaderPSD::readRLEImageData(io::IReadFile* file, const PsdHeader& header, u32* imageData) const
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{
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/* If the compression code is 1, the image data
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starts with the byte counts for all the scan lines in the channel
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(LayerBottom LayerTop), with each count stored as a two
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byte value. The RLE compressed data follows, with each scan line
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compressed separately. The RLE compression is the same compres-sion
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algorithm used by the Macintosh ROM routine PackBits, and
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the TIFF standard.
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If the Layer's Size, and therefore the data, is odd, a pad byte will
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be inserted at the end of the row.
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*/
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/*
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A pseudo code fragment to unpack might look like this:
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Loop until you get the number of unpacked bytes you are expecting:
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Read the next source byte into n.
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If n is between 0 and 127 inclusive, copy the next n+1 bytes literally.
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Else if n is between -127 and -1 inclusive, copy the next byte -n+1
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times.
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Else if n is -128, noop.
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Endloop
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In the inverse routine, it is best to encode a 2-byte repeat run as a replicate run
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except when preceded and followed by a literal run. In that case, it is best to merge
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the three runs into one literal run. Always encode 3-byte repeats as replicate runs.
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That is the essence of the algorithm. Here are some additional rules:
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- Pack each row separately. Do not compress across row boundaries.
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- The number of uncompressed bytes per row is defined to be (ImageWidth + 7)
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/ 8. If the uncompressed bitmap is required to have an even number of bytes per
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row, decompress into word-aligned buffers.
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- If a run is larger than 128 bytes, encode the remainder of the run as one or more
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additional replicate runs.
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When PackBits data is decompressed, the result should be interpreted as per com-pression
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type 1 (no compression).
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*/
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u8* tmpData = new u8[header.width * header.height];
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u16 *rleCount= new u16 [header.height * header.channels];
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s32 size=0;
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for (u32 y=0; y<header.height * header.channels; ++y)
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{
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if (!file->read(&rleCount[y], sizeof(u16)))
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{
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delete [] tmpData;
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delete [] rleCount;
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os::Printer::log("Error reading rle rows\n", file->getFileName(), ELL_ERROR);
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return false;
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}
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#ifndef __BIG_ENDIAN__
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rleCount[y] = os::Byteswap::byteswap(rleCount[y]);
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#endif
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size += rleCount[y];
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}
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s8 *buf = new s8[size];
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if (!file->read(buf, size))
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{
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delete [] rleCount;
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delete [] buf;
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delete [] tmpData;
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os::Printer::log("Error reading rle rows\n", file->getFileName(), ELL_ERROR);
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return false;
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}
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u16 *rcount=rleCount;
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s8 rh;
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u16 bytesRead;
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u8 *dest;
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s8 *pBuf = buf;
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// decompress packbit rle
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for (s32 channel=0; channel<header.channels; channel++)
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{
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for (u32 y=0; y<header.height; ++y, ++rcount)
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{
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bytesRead=0;
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dest = &tmpData[y*header.width];
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while (bytesRead < *rcount)
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{
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rh = *pBuf++;
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++bytesRead;
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if (rh >= 0)
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{
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++rh;
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while (rh--)
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{
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*dest = *pBuf++;
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++bytesRead;
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++dest;
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}
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}
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else
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if (rh > -128)
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{
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rh = -rh +1;
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while (rh--)
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{
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*dest = *pBuf;
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++dest;
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}
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++pBuf;
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++bytesRead;
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}
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}
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}
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s16 shift = getShiftFromChannel((c8)channel, header);
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if (shift != -1)
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{
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u32 mask = 0xff << shift;
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for (u32 x=0; x<header.width; ++x)
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for (u32 y=0; y<header.height; ++y)
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{
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s32 index = x + y*header.width;
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imageData[index] = ~(~imageData[index] | mask);
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imageData[index] |= tmpData[index] << shift;
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}
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}
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}
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delete [] rleCount;
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delete [] buf;
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delete [] tmpData;
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return true;
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}
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s16 CImageLoaderPSD::getShiftFromChannel(c8 channelNr, const PsdHeader& header) const
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{
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switch(channelNr)
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{
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case 0:
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return 16; // red
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case 1:
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return 8; // green
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case 2:
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return 0; // blue
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case 3:
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return header.channels == 4 ? 24 : -1; // ?
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case 4:
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return 24; // alpha
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default:
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return -1;
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}
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}
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//! creates a loader which is able to load tgas
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IImageLoader* createImageLoaderPSD()
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{
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return new CImageLoaderPSD();
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}
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} // end namespace video
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} // end namespace irr
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#endif
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