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author | Timothy Pearson <kb9vqf@pearsoncomputing.net> | 2011-08-10 12:13:27 -0500 |
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committer | Timothy Pearson <kb9vqf@pearsoncomputing.net> | 2011-08-10 12:13:27 -0500 |
commit | d296f1d337dabfeae5191955fdadb874965dbbe9 (patch) | |
tree | 1a4b3b4cca01f2ea77eee2497297219d60e9bbd4 /tqtinterface/qt4/src/kernel/tqimage.cpp | |
parent | eaa7ee2e0bbca40ba3173c4304f81957e8964291 (diff) | |
download | experimental-d296f1d337dabfeae5191955fdadb874965dbbe9.tar.gz experimental-d296f1d337dabfeae5191955fdadb874965dbbe9.zip |
rename the following methods:
tqparent parent
tqmask mask
Diffstat (limited to 'tqtinterface/qt4/src/kernel/tqimage.cpp')
-rw-r--r-- | tqtinterface/qt4/src/kernel/tqimage.cpp | 62 |
1 files changed, 31 insertions, 31 deletions
diff --git a/tqtinterface/qt4/src/kernel/tqimage.cpp b/tqtinterface/qt4/src/kernel/tqimage.cpp index 2a99fc9..3483e2a 100644 --- a/tqtinterface/qt4/src/kernel/tqimage.cpp +++ b/tqtinterface/qt4/src/kernel/tqimage.cpp @@ -1606,12 +1606,12 @@ TQDataStream &operator<<( TQDataStream &s, const BMP_INFOHDR &bi ) } static -int calc_shift(int tqmask) +int calc_shift(int mask) { int result = 0; - while (!(tqmask & 1)) { + while (!(mask & 1)) { result++; - tqmask >>= 1; + mask >>= 1; } return result; } @@ -4224,10 +4224,10 @@ void TQImage::setNumColors( int numColors ) contain the alpha component. The alpha component specifies the transparency of a pixel. 0 means - completely transtqparent and 255 means opaque. The alpha component + completely transparent and 255 means opaque. The alpha component is ignored if you do not enable alpha buffer mode. - The alpha buffer is used to set a tqmask when a TQImage is translated + The alpha buffer is used to set a mask when a TQImage is translated to a TQPixmap. \sa hasAlphaBuffer() createAlphaMask() @@ -4430,7 +4430,7 @@ static bool convert_32_to_8( const TQImage *src, TQImage *dst, int conversion_fl const int tablesize = 997; // prime TQRgbMap table[tablesize]; int pix=0; - TQRgb atqmask = src->hasAlphaBuffer() ? 0xffffffff : 0x00ffffff; + TQRgb amask = src->hasAlphaBuffer() ? 0xffffffff : 0x00ffffff; if ( src->hasAlphaBuffer() ) dst->setAlphaBuffer(TRUE); @@ -4441,10 +4441,10 @@ static bool convert_32_to_8( const TQImage *src, TQImage *dst, int conversion_fl // Almost same code as pixel insertion below while ( palette_count-- > 0 ) { // Find in table... - int hash = (*p & atqmask) % tablesize; + int hash = (*p & amask) % tablesize; for (;;) { if ( table[hash].used() ) { - if ( table[hash].rgb == (*p & atqmask) ) { + if ( table[hash].rgb == (*p & amask) ) { // Found previous insertion - use it break; } else { @@ -4455,9 +4455,9 @@ static bool convert_32_to_8( const TQImage *src, TQImage *dst, int conversion_fl // Cannot be in table TQ_ASSERT ( pix != 256 ); // too many colors // Insert into table at this unused position - dst->setColor( pix, (*p & atqmask) ); + dst->setColor( pix, (*p & amask) ); table[hash].pix = pix++; - table[hash].rgb = *p & atqmask; + table[hash].rgb = *p & amask; break; } } @@ -4474,10 +4474,10 @@ static bool convert_32_to_8( const TQImage *src, TQImage *dst, int conversion_fl x = src->width(); while ( x-- ) { // Find in table... - int hash = (*p & atqmask) % tablesize; + int hash = (*p & amask) % tablesize; for (;;) { if ( table[hash].used() ) { - if ( table[hash].rgb == (*p & atqmask) ) { + if ( table[hash].rgb == (*p & amask) ) { // Found previous insertion - use it break; } else { @@ -4493,9 +4493,9 @@ static bool convert_32_to_8( const TQImage *src, TQImage *dst, int conversion_fl y = src->height(); } else { // Insert into table at this unused position - dst->setColor( pix, (*p & atqmask) ); + dst->setColor( pix, (*p & amask) ); table[hash].pix = pix++; - table[hash].rgb = (*p & atqmask); + table[hash].rgb = (*p & amask); } break; } @@ -4548,7 +4548,7 @@ static bool convert_32_to_8( const TQImage *src, TQImage *dst, int conversion_fl for ( gc=0; gc<=MAX_G; gc++ ) for ( bc=0; bc<=MAX_B; bc++ ) { dst->setColor( INDEXOF(rc,gc,bc), - (atqmask&0xff000000) + (amask&0xff000000) | tqRgb( rc*255/MAX_R, gc*255/MAX_G, bc*255/MAX_B ) ); } @@ -4679,12 +4679,12 @@ static bool convert_32_to_8( const TQImage *src, TQImage *dst, int conversion_fl #ifndef TQT_NO_IMAGE_DITHER_TO_1 if ( src->hasAlphaBuffer() ) { const int trans = 216; - dst->setColor(trans, 0x00000000); // transtqparent - TQImage tqmask = src->createAlphaMask(conversion_flags); + dst->setColor(trans, 0x00000000); // transparent + TQImage mask = src->createAlphaMask(conversion_flags); uchar* m; for ( y=0; y < src->height(); y++ ) { uchar bit = 0x80; - m = tqmask.scanLine(y); + m = mask.scanLine(y); b = dst->scanLine(y); int w = src->width(); for ( x = 0; x<w; x++ ) { @@ -5045,7 +5045,7 @@ static bool dither_to_1( const TQImage *src, TQImage *dst, if ( fromalpha ) { while ( p < end ) { if ( (*p++ >> 24) >= 128 ) - *m |= 1 << bit; // Set tqmask "on" + *m |= 1 << bit; // Set mask "on" if ( bit == 0 ) { m++; bit = 7; @@ -5077,7 +5077,7 @@ static bool dither_to_1( const TQImage *src, TQImage *dst, int bit = 7; while ( p < end ) { if ( gray[*p++] < 128 ) - *m |= 1 << bit; // Set tqmask "on"/ pixel "black" + *m |= 1 << bit; // Set mask "on"/ pixel "black" if ( bit == 0 ) { m++; bit = 7; @@ -6040,7 +6040,7 @@ TQImage TQImage::xForm( const TQWMatrix &matrix ) const break; case 8: if ( dImage.data->ncols < 256 ) { - // colors are left in the color table, so pick that one as transtqparent + // colors are left in the color table, so pick that one as transparent dImage.setNumColors( dImage.data->ncols+1 ); dImage.setColor( dImage.data->ncols-1, 0x00 ); memset( dImage.bits(), dImage.data->ncols-1, dImage.numBytes() ); @@ -6069,7 +6069,7 @@ TQImage TQImage::xForm( const TQWMatrix &matrix ) const #endif /*! - Builds and returns a 1-bpp tqmask from the alpha buffer in this + Builds and returns a 1-bpp mask from the alpha buffer in this image. Returns a \link isNull() null\endlink image if \link setAlphaBuffer() alpha buffer mode\endlink is disabled. @@ -6099,15 +6099,15 @@ TQImage TQImage::createAlphaMask( int conversion_flags ) const .createAlphaMask( conversion_flags ); } - TQImage tqmask1; - dither_to_1( this, &tqmask1, conversion_flags, TRUE ); - return tqmask1; + TQImage mask1; + dither_to_1( this, &mask1, conversion_flags, TRUE ); + return mask1; } #endif #ifndef TQT_NO_IMAGE_HEURISTIC_MASK /*! - Creates and returns a 1-bpp heuristic tqmask for this image. It + Creates and returns a 1-bpp heuristic mask for this image. It works by selecting a color from one of the corners, then chipping away pixels of that color starting at all the edges. @@ -6118,8 +6118,8 @@ TQImage TQImage::createAlphaMask( int conversion_flags ) const The returned image has little-endian bit order, which you can convert to big-endianness using convertBitOrder(). - If \a clipTight is TRUE the tqmask is just large enough to cover the - pixels; otherwise, the tqmask is larger than the data pixels. + If \a clipTight is TRUE the mask is just large enough to cover the + pixels; otherwise, the mask is larger than the data pixels. This function disregards the \link hasAlphaBuffer() alpha buffer \endlink. @@ -7644,12 +7644,12 @@ TQDataStream &operator<<( TQDataStream &s, const BMP_INFOHDR &bi ) } static -int calc_shift(int tqmask) +int calc_shift(int mask) { int result = 0; - while (!(tqmask & 1)) { + while (!(mask & 1)) { result++; - tqmask >>= 1; + mask >>= 1; } return result; } |