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-rw-r--r--src/gvcore/qxcfi.h176
1 files changed, 88 insertions, 88 deletions
diff --git a/src/gvcore/qxcfi.h b/src/gvcore/qxcfi.h
index ac82173..e98f226 100644
--- a/src/gvcore/qxcfi.h
+++ b/src/gvcore/qxcfi.h
@@ -1,10 +1,10 @@
-#ifndef QXCFI_H
-#define QXCFI_H
+#ifndef TQXCFI_H
+#define TQXCFI_H
-#include <qimage.h>
-#include <qimageformatplugin.h>
-#include <qvaluestack.h>
-#include <qvaluevector.h>
+#include <tqimage.h>
+#include <tqimageformatplugin.h>
+#include <tqvaluestack.h>
+#include <tqvaluevector.h>
#include "gimp.h"
namespace Gwenview {
@@ -12,11 +12,11 @@ namespace Gwenview {
// Safe readBlock helper functions
class SafeDataStream {
public:
- SafeDataStream(QIODevice* device)
+ SafeDataStream(TQIODevice* device)
: mDevice(device), mFailed(false) {}
bool failed() const { return mFailed; }
- QIODevice* device() const { return mDevice; }
+ TQIODevice* device() const { return mDevice; }
SafeDataStream& readRawBytes(char* data, uint length) {
if (mFailed) return *this;
@@ -26,11 +26,11 @@ public:
return *this;
}
- SafeDataStream& operator>>(Q_INT8& value) {
+ SafeDataStream& operator>>(TQ_INT8& value) {
return readRawBytes((char*)&value, 1);
}
- SafeDataStream& operator>>(Q_UINT32& value) {
+ SafeDataStream& operator>>(TQ_UINT32& value) {
if (mFailed) return *this;
uchar *p = (uchar *)(&value);
char b[4];
@@ -45,18 +45,18 @@ public:
return *this;
}
- SafeDataStream& operator>>(Q_INT32& value) {
- return *this >>((Q_UINT32&)value);
+ SafeDataStream& operator>>(TQ_INT32& value) {
+ return *this >>((TQ_UINT32&)value);
}
SafeDataStream& operator>>(float& value) {
- return *this >>((Q_UINT32&)value);
+ return *this >>((TQ_UINT32&)value);
}
SafeDataStream& operator>>(char*& value) {
if (mFailed) return *this;
- Q_UINT32 len;
+ TQ_UINT32 len;
*this >> len;
if (mFailed) return *this;
if ( len == 0 ) {
@@ -95,17 +95,17 @@ public:
int at() const;
private:
- QIODevice* mDevice;
+ TQIODevice* mDevice;
bool mFailed;
};
//! Plug-in for loading a GIMP XCF image file directly.
/*!
- * This class uses the Qt 3.0 Image format plug-in loader to provide
+ * This class uses the TQt 3.0 Image format plug-in loader to provide
* the ability to read The GIMP XCF image files. This plug-in will
* be dynamically loaded as needed.
*/
-class XCFImageFormat : public QImageFormatPlugin {
+class XCFImageFormat : public TQImageFormatPlugin {
/*!
* Each layer in an XCF file is stored as a matrix of
@@ -114,7 +114,7 @@ class XCFImageFormat : public QImageFormatPlugin {
* parallel processing on a tile-by-tile basis. Here, though,
* we just read them in en-masse and store them in a matrix.
*/
- typedef QValueVector< QValueVector< QImage > > Tiles;
+ typedef TQValueVector< TQValueVector< TQImage > > Tiles;
/*!
* Each GIMP image is composed of one or more layers. A layer can
@@ -122,15 +122,15 @@ class XCFImageFormat : public QImageFormatPlugin {
* optional alpha channel, there are six possible types altogether.
*
* Note: there is only ever one instance of this structure. The
- * layer info is discarded after it is merged into the final QImage.
+ * layer info is discarded after it is merged into the final TQImage.
*/
struct Layer {
- Q_UINT32 width; //!< Width of the layer
- Q_UINT32 height; //!< Height of the layer
- Q_INT32 type; //!< Type of the layer (GimpImageType)
+ TQ_UINT32 width; //!< Width of the layer
+ TQ_UINT32 height; //!< Height of the layer
+ TQ_INT32 type; //!< Type of the layer (GimpImageType)
char* name; //!< Name of the layer
- Q_UINT32 hierarchy_offset; //!< File position of Tile hierarchy
- Q_UINT32 mask_offset; //!< File position of mask image
+ TQ_UINT32 hierarchy_offset; //!< File position of Tile hierarchy
+ TQ_UINT32 tqmask_offset; //!< File position of tqmask image
uint nrows; //!< Number of rows of tiles (y direction)
uint ncols; //!< Number of columns of tiles (x direction)
@@ -139,36 +139,36 @@ class XCFImageFormat : public QImageFormatPlugin {
//! For Grayscale and Indexed images, the alpha channel is stored
//! separately (in this data structure, anyway).
Tiles alpha_tiles;
- Tiles mask_tiles; //!< The layer mask (optional)
+ Tiles tqmask_tiles; //!< The layer tqmask (optional)
- //! Additional information about a layer mask.
+ //! Additional information about a layer tqmask.
struct {
- Q_UINT32 opacity;
- Q_UINT32 visible;
- Q_UINT32 show_masked;
+ TQ_UINT32 opacity;
+ TQ_UINT32 visible;
+ TQ_UINT32 show_tqmasked;
uchar red, green, blue;
- Q_UINT32 tattoo;
- } mask_channel;
+ TQ_UINT32 tattoo;
+ } tqmask_channel;
bool active; //!< Is this layer the active layer?
- Q_UINT32 opacity; //!< The opacity of the layer
- Q_UINT32 visible; //!< Is the layer visible?
- Q_UINT32 linked; //!< Is this layer linked (geometrically)
- Q_UINT32 preserve_transparency; //!< Preserve alpha when drawing on layer?
- Q_UINT32 apply_mask; //!< Apply the layer mask?
- Q_UINT32 edit_mask; //!< Is the layer mask the being edited?
- Q_UINT32 show_mask; //!< Show the layer mask rather than the image?
- Q_INT32 x_offset; //!< x offset of the layer relative to the image
- Q_INT32 y_offset; //!< y offset of the layer relative to the image
- Q_UINT32 mode; //!< Combining mode of layer (LayerModeEffects)
- Q_UINT32 tattoo; //!< (unique identifier?)
+ TQ_UINT32 opacity; //!< The opacity of the layer
+ TQ_UINT32 visible; //!< Is the layer visible?
+ TQ_UINT32 linked; //!< Is this layer linked (geometrically)
+ TQ_UINT32 preserve_transparency; //!< Preserve alpha when drawing on layer?
+ TQ_UINT32 apply_tqmask; //!< Apply the layer tqmask?
+ TQ_UINT32 edit_tqmask; //!< Is the layer tqmask the being edited?
+ TQ_UINT32 show_tqmask; //!< Show the layer tqmask rather than the image?
+ TQ_INT32 x_offset; //!< x offset of the layer relative to the image
+ TQ_INT32 y_offset; //!< y offset of the layer relative to the image
+ TQ_UINT32 mode; //!< Combining mode of layer (LayerModeEffects)
+ TQ_UINT32 tattoo; //!< (unique identifier?)
//! As each tile is read from the file, it is buffered here.
- uchar tile[TILE_WIDTH * TILE_HEIGHT * sizeof(QRgb)];
+ uchar tile[TILE_WIDTH * TILE_HEIGHT * sizeof(TQRgb)];
//! The data from tile buffer is copied to the Tile by this
//! method. Depending on the type of the tile (RGB, Grayscale,
- //! Indexed) and use (image or mask), the bytes in the buffer are
+ //! Indexed) and use (image or tqmask), the bytes in the buffer are
//! copied in different ways.
void (*assignBytes)( Layer& layer, uint i, uint j );
@@ -183,36 +183,36 @@ class XCFImageFormat : public QImageFormatPlugin {
* metadata items, but is mostly a container for the layer information.
*/
struct XCFImage {
- Q_UINT32 width; //!< width of the XCF image
- Q_UINT32 height; //!< height of the XCF image
- Q_INT32 type; //!< type of the XCF image (GimpImageBaseType)
+ TQ_UINT32 width; //!< width of the XCF image
+ TQ_UINT32 height; //!< height of the XCF image
+ TQ_INT32 type; //!< type of the XCF image (GimpImageBaseType)
- Q_UINT8 compression; //!< tile compression method (CompressionType)
+ TQ_UINT8 compression; //!< tile compression method (CompressionType)
float x_resolution; //!< x resolution in dots per inch
float y_resolution; //!< y resolution in dots per inch
- Q_INT32 tattoo; //!< (unique identifier?)
- Q_UINT32 unit; //!< Units of The GIMP (inch, mm, pica, etc...)
- Q_INT32 num_colors; //!< number of colors in an indexed image
- QValueVector< QRgb > palette; //!< indexed image color palette
+ TQ_INT32 tattoo; //!< (unique identifier?)
+ TQ_UINT32 unit; //!< Units of The GIMP (inch, mm, pica, etc...)
+ TQ_INT32 num_colors; //!< number of colors in an indexed image
+ TQValueVector< TQRgb > palette; //!< indexed image color palette
int num_layers; //!< number of layers
Layer layer; //!< most recently read layer
- bool initialized; //!< Is the QImage initialized?
- QImage image; //!< final QImage
+ bool initialized; //!< Is the TQImage initialized?
+ TQImage image; //!< final TQImage
//! Simple constructor.
XCFImage ( void ) : initialized( false ) {}
};
- //! The bottom-most layer is copied into the final QImage by this
+ //! The bottom-most layer is copied into the final TQImage by this
//! routine.
typedef void (*PixelCopyOperation) ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
- //! Higher layers are merged into the the final QImage by this routine.
+ //! Higher layers are merged into the the final TQImage by this routine.
typedef void (*PixelMergeOperation) ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
//! In layer DISSOLVE mode, a random number is chosen to compare to a
//! pixel's alpha. If the alpha is greater than the random number, the
@@ -245,31 +245,31 @@ public:
/*!
* The image loader makes no (direct) use of dynamic memory
- * and the Qt infrastructure takes care of constructing and destructing
+ * and the TQt infrastructure takes care of constructing and destructing
* the loader so there is not much to do here.
*/
~XCFImageFormat () {}
/*!
- * You can query Qt about the types of image file formats it knows about
- * via QImage::inputFormats or QImage::inputFormatList().
+ * You can query TQt about the types of image file formats it knows about
+ * via TQImage::inputFormats or TQImage::inputFormatList().
* This method returns "xcf".
*/
- QStringList keys () const {
- return QStringList() << "XCF";
+ TQStringList keys () const {
+ return TQStringList() << "XCF";
}
/*!
* This method installs the XCF reader on demand.
*/
- bool installIOHandler ( const QString& );
+ bool installIOHandler ( const TQString& );
static void registerFormat();
private:
- static void readXCF ( QImageIO* image_io );
+ static void readXCF ( TQImageIO* image_io );
#ifdef TMP_WRITE
- static void writeXCF ( QImageIO* ) {}
+ static void writeXCF ( TQImageIO* ) {}
#endif
static void initializeImage ( XCFImage& xcf_image );
static void composeTiles ( XCFImage& xcf_image );
@@ -279,52 +279,52 @@ private:
static bool loadChannelProperties ( SafeDataStream& xcf_io, Layer& layer );
static bool loadHierarchy ( SafeDataStream& xcf_io, Layer& layer );
static bool loadMask ( SafeDataStream& xcf_io, Layer& layer );
- static bool loadLevel ( SafeDataStream& xcf_io, Layer& layer, Q_INT32 bpp );
+ static bool loadLevel ( SafeDataStream& xcf_io, Layer& layer, TQ_INT32 bpp );
static bool loadTileRLE ( SafeDataStream& xcf_io, uchar* tile, int size,
- int data_length, Q_INT32 bpp );
+ int data_length, TQ_INT32 bpp );
static bool loadProperty ( SafeDataStream& xcf_io, PropType& type,
- QByteArray& bytes );
- static void setGrayPalette ( QImage& image );
- static void setPalette ( XCFImage& xcf_image, QImage& image );
+ TQByteArray& bytes );
+ static void setGrayPalette ( TQImage& image );
+ static void setPalette ( XCFImage& xcf_image, TQImage& image );
static void assignImageBytes ( Layer& layer, uint i, uint j );
static void assignMaskBytes ( Layer& layer, uint i, uint j );
static void copyLayerToImage ( XCFImage& xcf_image );
static void copyRGBToRGB ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void copyGrayToGray ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void copyGrayToRGB ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void copyGrayAToRGB ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void copyIndexedToIndexed ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void copyIndexedAToIndexed ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void copyIndexedAToRGB ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void mergeLayerIntoImage ( XCFImage& xcf_image );
static void mergeRGBToRGB ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void mergeGrayToGray ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void mergeGrayAToGray ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void mergeGrayToRGB ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void mergeGrayAToRGB ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void mergeIndexedToIndexed ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void mergeIndexedAToIndexed ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
static void mergeIndexedAToRGB ( Layer& layer, uint i, uint j, int k, int l,
- QImage& image, int m, int n );
+ TQImage& image, int m, int n );
- static void dissolveRGBPixels ( QImage& image, int x, int y );
- static void dissolveAlphaPixels ( QImage& image, int x, int y );
+ static void dissolveRGBPixels ( TQImage& image, int x, int y );
+ static void dissolveAlphaPixels ( TQImage& image, int x, int y );
};
} // namespace