diff options
Diffstat (limited to 'kimgio/xcf.cpp')
| -rw-r--r-- | kimgio/xcf.cpp | 174 |
1 files changed, 87 insertions, 87 deletions
diff --git a/kimgio/xcf.cpp b/kimgio/xcf.cpp index 298d17109..64b18f060 100644 --- a/kimgio/xcf.cpp +++ b/kimgio/xcf.cpp @@ -42,7 +42,7 @@ KDE_EXPORT void kimgio_xcf_read(TQImageIO *io) KDE_EXPORT void kimgio_xcf_write(TQImageIO *io) { kdDebug(399) << "XCF: write support not implemented" << endl; - io->setStatus(-1); + io->setqStatus(-1); } /////////////////////////////////////////////////////////////////////////////// @@ -78,9 +78,9 @@ const XCFImageFormat::LayerModes XCFImageFormat::layer_modes[] = { //! Change a QRgb value's alpha only. -inline QRgb qRgba ( QRgb rgb, int a ) +inline QRgb tqRgba ( QRgb rgb, int a ) { - return ((a & 0xff) << 24 | (rgb & RGB_MASK)); + return ((a & 0xff) << 24 | (rgb & TQRGB_MASK)); } @@ -127,14 +127,14 @@ void XCFImageFormat::readXCF(TQImageIO *io) char tag[14]; xcf_io.readRawBytes(tag, sizeof(tag)); - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on header tag" << endl; return; } xcf_io >> xcf_image.width >> xcf_image.height >> xcf_image.type; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on image info" << endl; return; } @@ -149,14 +149,14 @@ kdDebug() << tag << " " << xcf_image.width << " " << xcf_image.height << " " << // all the data of all layers before beginning to construct the // merged image). - TQValueStack<Q_INT32> layer_offsets; + TQValueStack<TQ_INT32> layer_offsets; while (true) { - Q_INT32 layer_offset; + TQ_INT32 layer_offset; xcf_io >> layer_offset; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on layer offsets" << endl; return; } @@ -176,9 +176,9 @@ kdDebug() << tag << " " << xcf_image.width << " " << xcf_image.height << " " << // Load each layer and add it to the image while (!layer_offsets.isEmpty()) { - Q_INT32 layer_offset = layer_offsets.pop(); + TQ_INT32 layer_offset = layer_offsets.pop(); - xcf_io.device()->at(layer_offset); + xcf_io.tqdevice()->at(layer_offset); if (!loadLayer(xcf_io, xcf_image)) return; @@ -190,7 +190,7 @@ kdDebug() << tag << " " << xcf_image.width << " " << xcf_image.height << " " << } io->setImage(xcf_image.image); - io->setStatus(0); + io->setqStatus(0); } @@ -233,11 +233,11 @@ bool XCFImageFormat::loadImageProperties(TQDataStream& xcf_io, XCFImage& xcf_ima case PROP_PARASITES: while (!property.atEnd()) { char* tag; - Q_UINT32 size; + TQ_UINT32 size; property.readBytes(tag, size); - Q_UINT32 flags; + TQ_UINT32 flags; char* data=0; property >> flags >> data; @@ -269,7 +269,7 @@ bool XCFImageFormat::loadImageProperties(TQDataStream& xcf_io, XCFImage& xcf_ima for (int i = 0; i < xcf_image.num_colors; i++) { uchar r, g, b; property >> r >> g >> b; - xcf_image.palette.push_back( qRgb(r,g,b) ); + xcf_image.palette.push_back( tqRgb(r,g,b) ); } break; @@ -290,17 +290,17 @@ bool XCFImageFormat::loadImageProperties(TQDataStream& xcf_io, XCFImage& xcf_ima * \return true if there were no IO errors. */ bool XCFImageFormat::loadProperty(TQDataStream& xcf_io, PropType& type, TQByteArray& bytes) { - Q_UINT32 foo; + TQ_UINT32 foo; xcf_io >> foo; type=PropType(foo); // TODO urks - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on property type" << type << endl; return false; } char* data; - Q_UINT32 size; + TQ_UINT32 size; // The colormap property size is not the correct number of bytes: // The GIMP source xcf.c has size = 4 + ncolors, but it should be @@ -309,7 +309,7 @@ bool XCFImageFormat::loadProperty(TQDataStream& xcf_io, PropType& type, TQByteAr if (type == PROP_COLORMAP) { xcf_io >> size; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on property " << type << " size" << endl; return false; } @@ -324,12 +324,12 @@ bool XCFImageFormat::loadProperty(TQDataStream& xcf_io, PropType& type, TQByteAr } else if (type == PROP_USER_UNIT) { // The USER UNIT property size is not correct. I'm not sure why, though. float factor; - Q_INT32 digits; + TQ_INT32 digits; char* unit_strings; xcf_io >> size >> factor >> digits; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on property " << type << endl; return false; } @@ -337,7 +337,7 @@ bool XCFImageFormat::loadProperty(TQDataStream& xcf_io, PropType& type, TQByteAr for (int i = 0; i < 5; i++) { xcf_io >> unit_strings; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on property " << type << endl; return false; } @@ -354,7 +354,7 @@ bool XCFImageFormat::loadProperty(TQDataStream& xcf_io, PropType& type, TQByteAr xcf_io.readRawBytes(data, size); } - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on property " << type << " data, size " << size << endl; return false; } @@ -382,7 +382,7 @@ bool XCFImageFormat::loadLayer(TQDataStream& xcf_io, XCFImage& xcf_image) xcf_io >> layer.width >> layer.height >> layer.type >> layer.name; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on layer" << endl; return false; } @@ -405,7 +405,7 @@ bool XCFImageFormat::loadLayer(TQDataStream& xcf_io, XCFImage& xcf_image) // If there are any more layers, merge them into the final TQImage. xcf_io >> layer.hierarchy_offset >> layer.mask_offset; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on layer image offsets" << endl; return false; } @@ -415,7 +415,7 @@ bool XCFImageFormat::loadLayer(TQDataStream& xcf_io, XCFImage& xcf_image) if( !composeTiles(xcf_image)) return false; - xcf_io.device()->at(layer.hierarchy_offset); + xcf_io.tqdevice()->at(layer.hierarchy_offset); // As tiles are loaded, they are copied into the layers tiles by // this routine. (loadMask(), below, uses a slightly different @@ -427,7 +427,7 @@ bool XCFImageFormat::loadLayer(TQDataStream& xcf_io, XCFImage& xcf_image) return false; if (layer.mask_offset != 0) { - xcf_io.device()->at(layer.mask_offset); + xcf_io.tqdevice()->at(layer.mask_offset); if (!loadMask(xcf_io, layer)) return false; @@ -643,7 +643,7 @@ bool XCFImageFormat::composeTiles(XCFImage& xcf_image) void XCFImageFormat::setGrayPalette(TQImage& image) { for (int i = 0; i < 256; i++) - image.setColor(i, qRgb(i, i, i)); + image.setColor(i, tqRgb(i, i, i)); } @@ -675,7 +675,7 @@ void XCFImageFormat::assignImageBytes(Layer& layer, uint i, uint j) for (int l = 0; l < layer.image_tiles[j][i].height(); l++) { for (int k = 0; k < layer.image_tiles[j][i].width(); k++) { layer.image_tiles[j][i].setPixel(k, l, - qRgb(tile[0], tile[1], tile[2])); + tqRgb(tile[0], tile[1], tile[2])); tile += sizeof(QRgb); } } @@ -685,7 +685,7 @@ void XCFImageFormat::assignImageBytes(Layer& layer, uint i, uint j) for ( int l = 0; l < layer.image_tiles[j][i].height(); l++ ) { for ( int k = 0; k < layer.image_tiles[j][i].width(); k++ ) { layer.image_tiles[j][i].setPixel(k, l, - qRgba(tile[0], tile[1], tile[2], tile[3])); + tqRgba(tile[0], tile[1], tile[2], tile[3])); tile += sizeof(QRgb); } } @@ -732,14 +732,14 @@ void XCFImageFormat::assignImageBytes(Layer& layer, uint i, uint j) */ bool XCFImageFormat::loadHierarchy(TQDataStream& xcf_io, Layer& layer) { - Q_INT32 width; - Q_INT32 height; - Q_INT32 bpp; - Q_UINT32 offset; + TQ_INT32 width; + TQ_INT32 height; + TQ_INT32 bpp; + TQ_UINT32 offset; xcf_io >> width >> height >> bpp >> offset; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on layer " << layer.name << " image header" << endl; return false; } @@ -748,23 +748,23 @@ bool XCFImageFormat::loadHierarchy(TQDataStream& xcf_io, Layer& layer) // increasingly lower resolution). Only the top level is used here, // however. - Q_UINT32 junk; + TQ_UINT32 junk; do { xcf_io >> junk; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on layer " << layer.name << " level offsets" << endl; return false; } } while (junk != 0); - TQIODevice::Offset saved_pos = xcf_io.device()->at(); + TQIODevice::Offset saved_pos = xcf_io.tqdevice()->at(); - xcf_io.device()->at(offset); + xcf_io.tqdevice()->at(offset); if (!loadLevel(xcf_io, layer, bpp)) return false; - xcf_io.device()->at(saved_pos); + xcf_io.tqdevice()->at(saved_pos); return true; } @@ -777,15 +777,15 @@ bool XCFImageFormat::loadHierarchy(TQDataStream& xcf_io, Layer& layer) * \return true if there were no I/O errors. * \sa loadTileRLE(). */ -bool XCFImageFormat::loadLevel(TQDataStream& xcf_io, Layer& layer, Q_INT32 bpp) +bool XCFImageFormat::loadLevel(TQDataStream& xcf_io, Layer& layer, TQ_INT32 bpp) { - Q_INT32 width; - Q_INT32 height; - Q_UINT32 offset; + TQ_INT32 width; + TQ_INT32 height; + TQ_UINT32 offset; xcf_io >> width >> height >> offset; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on layer " << layer.name << " level info" << endl; return false; } @@ -801,11 +801,11 @@ bool XCFImageFormat::loadLevel(TQDataStream& xcf_io, Layer& layer, Q_INT32 bpp) return false; } - TQIODevice::Offset saved_pos = xcf_io.device()->at(); - Q_UINT32 offset2; + TQIODevice::Offset saved_pos = xcf_io.tqdevice()->at(); + TQ_UINT32 offset2; xcf_io >> offset2; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on layer " << layer.name << " level offset look-ahead" << endl; return false; } @@ -815,7 +815,7 @@ bool XCFImageFormat::loadLevel(TQDataStream& xcf_io, Layer& layer, Q_INT32 bpp) if (offset2 == 0) offset2 = offset + (uint)(TILE_WIDTH * TILE_HEIGHT * 4 * 1.5); - xcf_io.device()->at(offset); + xcf_io.tqdevice()->at(offset); int size = layer.image_tiles[j][i].width() * layer.image_tiles[j][i].height(); if (!loadTileRLE(xcf_io, layer.tile, size, offset2 - offset, bpp)) @@ -827,10 +827,10 @@ bool XCFImageFormat::loadLevel(TQDataStream& xcf_io, Layer& layer, Q_INT32 bpp) layer.assignBytes(layer, i, j); - xcf_io.device()->at(saved_pos); + xcf_io.tqdevice()->at(saved_pos); xcf_io >> offset; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on layer " << layer.name << " level offset" << endl; return false; } @@ -849,13 +849,13 @@ bool XCFImageFormat::loadLevel(TQDataStream& xcf_io, Layer& layer, Q_INT32 bpp) */ bool XCFImageFormat::loadMask(TQDataStream& xcf_io, Layer& layer) { - Q_INT32 width; - Q_INT32 height; + TQ_INT32 width; + TQ_INT32 height; char* name; xcf_io >> width >> height >> name; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on mask info" << endl; return false; } @@ -865,15 +865,15 @@ bool XCFImageFormat::loadMask(TQDataStream& xcf_io, Layer& layer) if (!loadChannelProperties(xcf_io, layer)) return false; - Q_UINT32 hierarchy_offset; + TQ_UINT32 hierarchy_offset; xcf_io >> hierarchy_offset; - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { kdDebug(399) << "XCF: read failure on mask image offset" << endl; return false; } - xcf_io.device()->at(hierarchy_offset); + xcf_io.tqdevice()->at(hierarchy_offset); layer.assignBytes = assignMaskBytes; if (!loadHierarchy(xcf_io, layer)) @@ -907,7 +907,7 @@ bool XCFImageFormat::loadMask(TQDataStream& xcf_io, Layer& layer) * the RLE data. */ bool XCFImageFormat::loadTileRLE(TQDataStream& xcf_io, uchar* tile, int image_size, - int data_length, Q_INT32 bpp) + int data_length, TQ_INT32 bpp) { uchar* data; @@ -919,7 +919,7 @@ bool XCFImageFormat::loadTileRLE(TQDataStream& xcf_io, uchar* tile, int image_si xcf_io.readRawBytes((char*)xcfdata, data_length); - if (xcf_io.device()->status() != IO_Ok) { + if (xcf_io.tqdevice()->status() != IO_Ok) { delete[] xcfodata; kdDebug(399) << "XCF: read failure on tile" << endl; return false; @@ -1117,7 +1117,7 @@ bool XCFImageFormat::initializeImage(XCFImage& xcf_image) image.create( xcf_image.width, xcf_image.height, 32); if( image.isNull()) return false; - image.fill(qRgb(255, 255, 255)); + image.fill(tqRgb(255, 255, 255)); break; } // else, fall through to 32-bit representation @@ -1125,7 +1125,7 @@ bool XCFImageFormat::initializeImage(XCFImage& xcf_image) image.create(xcf_image.width, xcf_image.height, 32); if( image.isNull()) return false; - image.fill(qRgba(255, 255, 255, 0)); + image.fill(tqRgba(255, 255, 255, 0)); // Turning this on prevents fill() from affecting the alpha channel, // by the way. image.setAlphaBuffer(true); @@ -1145,7 +1145,7 @@ bool XCFImageFormat::initializeImage(XCFImage& xcf_image) image.create(xcf_image.width, xcf_image.height, 32); if( image.isNull()) return false; - image.fill(qRgba(255, 255, 255, 0)); + image.fill(tqRgba(255, 255, 255, 0)); image.setAlphaBuffer(true); break; @@ -1187,7 +1187,7 @@ bool XCFImageFormat::initializeImage(XCFImage& xcf_image) xcf_image.num_colors++; xcf_image.palette.resize(xcf_image.num_colors); xcf_image.palette[1] = xcf_image.palette[0]; - xcf_image.palette[0] = qRgba(255, 255, 255, 0); + xcf_image.palette[0] = tqRgba(255, 255, 255, 0); image.create(xcf_image.width, xcf_image.height, 1, xcf_image.num_colors, @@ -1204,7 +1204,7 @@ bool XCFImageFormat::initializeImage(XCFImage& xcf_image) for (int c = xcf_image.num_colors - 1; c >= 1; c--) xcf_image.palette[c] = xcf_image.palette[c - 1]; - xcf_image.palette[0] = qRgba(255, 255, 255, 0); + xcf_image.palette[0] = tqRgba(255, 255, 255, 0); image.create( xcf_image.width, xcf_image.height, 8, xcf_image.num_colors); if( image.isNull()) @@ -1219,7 +1219,7 @@ bool XCFImageFormat::initializeImage(XCFImage& xcf_image) image.create(xcf_image.width, xcf_image.height, 32); if( image.isNull()) return false; - image.fill(qRgba(255, 255, 255, 0)); + image.fill(tqRgba(255, 255, 255, 0)); image.setAlphaBuffer(true); } break; @@ -1324,7 +1324,7 @@ void XCFImageFormat::copyRGBToRGB(Layer& layer, uint i, uint j, int k, int l, uchar src_a = layer.opacity; if (layer.type == RGBA_GIMAGE) - src_a = INT_MULT(src_a, qAlpha(src)); + src_a = INT_MULT(src_a, tqAlpha(src)); // Apply the mask (if any) @@ -1332,7 +1332,7 @@ void XCFImageFormat::copyRGBToRGB(Layer& layer, uint i, uint j, int k, int l, layer.mask_tiles[j].size() > i) src_a = INT_MULT(src_a, layer.mask_tiles[j][i].pixelIndex(k, l)); - image.setPixel(m, n, qRgba(src, src_a)); + image.setPixel(m, n, tqRgba(src, src_a)); } @@ -1373,7 +1373,7 @@ void XCFImageFormat::copyGrayToRGB(Layer& layer, uint i, uint j, int k, int l, { QRgb src = layer.image_tiles[j][i].pixel(k, l); uchar src_a = layer.opacity; - image.setPixel(m, n, qRgba(src, src_a)); + image.setPixel(m, n, tqRgba(src, src_a)); } @@ -1403,7 +1403,7 @@ void XCFImageFormat::copyGrayAToRGB(Layer& layer, uint i, uint j, int k, int l, layer.mask_tiles[j].size() > i) src_a = INT_MULT(src_a, layer.mask_tiles[j][i].pixelIndex(k, l)); - image.setPixel(m, n, qRgba(src, src_a)); + image.setPixel(m, n, tqRgba(src, src_a)); } @@ -1489,7 +1489,7 @@ void XCFImageFormat::copyIndexedAToRGB(Layer& layer, uint i, uint j, int k, int else src_a = OPAQUE_OPACITY; - image.setPixel(m, n, qRgba(src, src_a)); + image.setPixel(m, n, tqRgba(src, src_a)); } @@ -1586,15 +1586,15 @@ void XCFImageFormat::mergeRGBToRGB(Layer& layer, uint i, uint j, int k, int l, QRgb src = layer.image_tiles[j][i].pixel(k, l); QRgb dst = image.pixel(m, n); - uchar src_r = qRed(src); - uchar src_g = qGreen(src); - uchar src_b = qBlue(src); - uchar src_a = qAlpha(src); + uchar src_r = tqRed(src); + uchar src_g = tqGreen(src); + uchar src_b = tqBlue(src); + uchar src_a = tqAlpha(src); - uchar dst_r = qRed(dst); - uchar dst_g = qGreen(dst); - uchar dst_b = qBlue(dst); - uchar dst_a = qAlpha(dst); + uchar dst_r = tqRed(dst); + uchar dst_g = tqGreen(dst); + uchar dst_b = tqBlue(dst); + uchar dst_a = tqAlpha(dst); switch (layer.mode) { case MULTIPLY_MODE: { @@ -1756,7 +1756,7 @@ void XCFImageFormat::mergeRGBToRGB(Layer& layer, uint i, uint j, int k, int l, if (!layer_modes[layer.mode].affect_alpha) new_a = dst_a; - image.setPixel(m, n, qRgba(new_r, new_g, new_b, new_a)); + image.setPixel(m, n, tqRgba(new_r, new_g, new_b, new_a)); } @@ -1793,7 +1793,7 @@ void XCFImageFormat::mergeGrayToGray(Layer& layer, uint i, uint j, int k, int l, void XCFImageFormat::mergeGrayAToGray(Layer& layer, uint i, uint j, int k, int l, TQImage& image, int m, int n) { - int src = qGray(layer.image_tiles[j][i].pixel(k, l)); + int src = tqGray(layer.image_tiles[j][i].pixel(k, l)); int dst = image.pixelIndex(m, n); uchar src_a = layer.alpha_tiles[j][i].pixelIndex(k, l); @@ -1874,7 +1874,7 @@ void XCFImageFormat::mergeGrayToRGB(Layer& layer, uint i, uint j, int k, int l, { QRgb src = layer.image_tiles[j][i].pixel(k, l); uchar src_a = layer.opacity; - image.setPixel(m, n, qRgba(src, src_a)); + image.setPixel(m, n, tqRgba(src, src_a)); } @@ -1894,11 +1894,11 @@ void XCFImageFormat::mergeGrayToRGB(Layer& layer, uint i, uint j, int k, int l, void XCFImageFormat::mergeGrayAToRGB(Layer& layer, uint i, uint j, int k, int l, TQImage& image, int m, int n) { - int src = qGray(layer.image_tiles[j][i].pixel(k, l)); - int dst = qGray(image.pixel(m, n)); + int src = tqGray(layer.image_tiles[j][i].pixel(k, l)); + int dst = tqGray(image.pixel(m, n)); uchar src_a = layer.alpha_tiles[j][i].pixelIndex(k, l); - uchar dst_a = qAlpha(image.pixel(m, n)); + uchar dst_a = tqAlpha(image.pixel(m, n)); switch (layer.mode) { case MULTIPLY_MODE: { @@ -1965,7 +1965,7 @@ void XCFImageFormat::mergeGrayAToRGB(Layer& layer, uint i, uint j, int k, int l, if (!layer_modes[layer.mode].affect_alpha) new_a = dst_a; - image.setPixel(m, n, qRgba(new_g, new_g, new_g, new_a)); + image.setPixel(m, n, tqRgba(new_g, new_g, new_g, new_a)); } @@ -2049,7 +2049,7 @@ void XCFImageFormat::mergeIndexedAToRGB(Layer& layer, uint i, uint j, int k, int else src_a = OPAQUE_OPACITY; - image.setPixel(m, n, qRgba(src, src_a)); + image.setPixel(m, n, tqRgba(src, src_a)); } @@ -2075,8 +2075,8 @@ void XCFImageFormat::dissolveRGBPixels ( TQImage& image, int x, int y ) int rand_val = rand() & 0xff; QRgb pixel = image.pixel(k, l); - if (rand_val > qAlpha(pixel)) { - image.setPixel(k, l, qRgba(pixel, 0)); + if (rand_val > tqAlpha(pixel)) { + image.setPixel(k, l, tqRgba(pixel, 0)); } } } |