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This is the verbatim text of the qgfx_qws.h include file. It is provided only for illustration; the copyright remains with Trolltech.
/**************************************************************************** ** $Id: qt/qgfx_qws.h 3.3.8 edited Jan 11 14:38 $ ** ** Definition of TQGfx (graphics context) class ** ** Created : 940721 ** ** Copyright (C) 1992-2007 Trolltech ASA. All rights reserved. ** ** This file is part of the kernel module of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General Public ** License versions 2.0 or 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Alternatively you may (at your option) use any ** later version of the GNU General Public License if such license has ** been publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** Licensees holding valid TQt Commercial licenses may use this file in ** accordance with the TQt Commercial License Agreement provided with ** the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #ifndef TQGFX_QWS_H #define TQGFX_QWS_H #ifndef QT_H #include "ntqwidget.h" #include "ntqnamespace.h" #include "ntqimage.h" #include "qfontmanager_qws.h" #include "qmemorymanager_qws.h" #include "ntqpoint.h" #endif // QT_H #include <private/qtextengine_p.h> class TQScreenCursor; #if !defined( TQT_NO_IMAGE_16_BIT ) || !defined( TQT_NO_QWS_DEPTH_16 ) # ifndef QT_QWS_DEPTH16_RGB # define QT_QWS_DEPTH16_RGB 565 # endif static const int qt_rbits = (QT_QWS_DEPTH16_RGB/100); static const int qt_gbits = (QT_QWS_DEPTH16_RGB/10%10); static const int qt_bbits = (QT_QWS_DEPTH16_RGB%10); static const int qt_red_shift = qt_bbits+qt_gbits-(8-qt_rbits); static const int qt_green_shift = qt_bbits-(8-qt_gbits); static const int qt_neg_blue_shift = 8-qt_bbits; static const int qt_blue_mask = (1<<qt_bbits)-1; static const int qt_green_mask = (1<<(qt_gbits+qt_bbits))-((1<<qt_bbits)-1); static const int qt_red_mask = (1<<(qt_rbits+qt_gbits+qt_bbits))-(1<<(qt_gbits+qt_bbits)); inline ushort qt_convRgbTo16( const int r, const int g, const int b ) { const int tr = r << qt_red_shift; const int tg = g << qt_green_shift; const int tb = b >> qt_neg_blue_shift; return (tb & qt_blue_mask) | (tg & qt_green_mask) | (tr & qt_red_mask); } inline ushort qt_convRgbTo16( TQRgb c ) { const int tr = tqRed(c) << qt_red_shift; const int tg = tqGreen(c) << qt_green_shift; const int tb = tqBlue(c) >> qt_neg_blue_shift; return (tb & qt_blue_mask) | (tg & qt_green_mask) | (tr & qt_red_mask); } inline TQRgb qt_conv16ToRgb( ushort c ) { const int r=(c & qt_red_mask); const int g=(c & qt_green_mask); const int b=(c & qt_blue_mask); const int tr = r >> qt_red_shift; const int tg = g >> qt_green_shift; const int tb = b << qt_neg_blue_shift; return tqRgb(tr,tg,tb); } inline void qt_conv16ToRgb( ushort c, int& r, int& g, int& b ) { const int tr=(c & qt_red_mask); const int tg=(c & qt_green_mask); const int tb=(c & qt_blue_mask); r = tr >> qt_red_shift; g = tg >> qt_green_shift; b = tb << qt_neg_blue_shift; } #endif const int SourceSolid=0; const int SourcePixmap=1; #ifndef TQT_NO_QWS_CURSOR extern bool qt_sw_cursor; class TQGfxRasterBase; #define SW_CURSOR_DATA_SIZE 4096 // 64x64 8-bit cursor struct SWCursorData { unsigned char cursor[SW_CURSOR_DATA_SIZE]; unsigned char under[SW_CURSOR_DATA_SIZE*4]; // room for 32bpp display TQRgb clut[256]; unsigned char translut[256]; int colors; int width; int height; int x; int y; int hotx; int hoty; bool enable; TQRect bound; }; class TQScreenCursor { public: TQScreenCursor( ); virtual ~TQScreenCursor(); virtual void init(SWCursorData *da, bool init = FALSE); virtual void set( const TQImage &image, int hotx, int hoty ); virtual void move( int x, int y ); virtual void show(); virtual void hide(); virtual bool restoreUnder( const TQRect &r, TQGfxRasterBase *g = 0 ); virtual void saveUnder(); virtual void drawCursor(); //void draw(); virtual bool supportsAlphaCursor(); static bool enabled() { return qt_sw_cursor; } protected: TQGfxRasterBase *gfx; TQGfxRasterBase *gfxunder; TQImage *imgunder; TQImage *cursor; uchar *fb_start; uchar *fb_end; bool save_under; SWCursorData *data; int clipWidth; int clipHeight; int myoffset; }; extern TQScreenCursor * qt_screencursor; #endif // TQT_NO_QWS_CURSOR struct fb_cmap; // A (used) chunk of offscreen memory class TQPoolEntry { public: unsigned int start; unsigned int end; int clientId; }; class TQScreen; typedef void(*ClearCacheFunc)(TQScreen *obj, int); class TQScreen { public: TQScreen( int display_id ); virtual ~TQScreen(); virtual bool initDevice() = 0; virtual bool connect( const TQString &displaySpec ) = 0; virtual void disconnect() = 0; virtual int initCursor(void *, bool=FALSE); virtual void shutdownDevice(); virtual void setMode(int,int,int) = 0; virtual bool supportsDepth(int) const; virtual TQGfx * createGfx(unsigned char *,int,int,int,int); virtual TQGfx * screenGfx(); virtual void save(); virtual void restore(); virtual void blank(bool on); virtual int pixmapOffsetAlignment() { return 64; } virtual int pixmapLinestepAlignment() { return 64; } virtual int sharedRamSize(void *) { return 0; } virtual bool onCard(unsigned char *) const; virtual bool onCard(unsigned char *, ulong& out_offset) const; // sets a single color in the colormap virtual void set(unsigned int,unsigned int,unsigned int,unsigned int); // allocates a color virtual int alloc(unsigned int,unsigned int,unsigned int); int width() const { return w; } int height() const { return h; } int depth() const { return d; } virtual int pixmapDepth() const; int pixelType() const { return pixeltype; } int linestep() const { return lstep; } int deviceWidth() const { return dw; } int deviceHeight() const { return dh; } uchar * base() const { return data; } // Ask for memory from card cache with alignment virtual uchar * cache(int,int) { return 0; } virtual void uncache(uchar *) {} int screenSize() const { return size; } int totalSize() const { return mapsize; } TQRgb * clut() { return screenclut; } int numCols() { return screencols; } virtual TQSize mapToDevice( const TQSize & ) const; virtual TQSize mapFromDevice( const TQSize & ) const; virtual TQPoint mapToDevice( const TQPoint &, const TQSize & ) const; virtual TQPoint mapFromDevice( const TQPoint &, const TQSize & ) const; virtual TQRect mapToDevice( const TQRect &, const TQSize & ) const; virtual TQRect mapFromDevice( const TQRect &, const TQSize & ) const; virtual TQImage mapToDevice( const TQImage & ) const; virtual TQImage mapFromDevice( const TQImage & ) const; virtual TQRegion mapToDevice( const TQRegion &, const TQSize & ) const; virtual TQRegion mapFromDevice( const TQRegion &, const TQSize & ) const; virtual int transformOrientation() const; virtual bool isTransformed() const; virtual bool isInterlaced() const; virtual void setDirty( const TQRect& ); virtual int memoryNeeded(const TQString&); int * opType() { return screen_optype; } int * lastOp() { return screen_lastop; } virtual void haltUpdates(); virtual void resumeUpdates(); protected: // Only used without TQT_NO_QWS_REPEATER, but included so that // it's binary compatible regardless. int * screen_optype; int * screen_lastop; TQRgb screenclut[256]; int screencols; bool initted; uchar * data; // Table of allocated lumps, kept in sorted highest-to-lowest order // The table itself is allocated at the bottom of offscreen memory // i.e. it's similar to having a stack (the table) and a heap // (the allocated blocks). Freed space is implicitly described // by the gaps between the allocated lumps (this saves entries and // means we don't need to worry about coalescing freed lumps) TQPoolEntry * entries; int * entryp; unsigned int * lowest; int w; int lstep; int h; int d; int pixeltype; bool grayscale; int dw; int dh; int hotx; int hoty; TQImage cursor; int size; // Screen size int mapsize; // Total mapped memory int displayId; friend class TQWSServer; static ClearCacheFunc clearCacheFunc; }; extern TQScreen * qt_screen; class TQ_EXPORT TQGfx : public TQt { public: // With loadable drivers, do probe here static TQGfx *createGfx( int depth, unsigned char *buffer, int w, int h, int linestep ); virtual ~TQGfx() {} virtual void setPen( const TQPen & )=0; virtual void setBrush( const TQBrush & )=0; virtual void setBrushPixmap( const TQPixmap * )=0; virtual void setBrushOffset( int, int ) = 0; virtual void setClipRect( int,int,int,int )=0; virtual void setClipRegion( const TQRegion & )=0; virtual void setClipDeviceRegion( const TQRegion & )=0; virtual void setClipping (bool)=0; // These will be called from qwidget_qws or qwidget_mac // to update the drawing area when a widget is moved virtual void setOffset( int,int )=0; virtual void setWidgetRect( int,int,int,int )=0; virtual void setWidgetRegion( const TQRegion & )=0; virtual void setWidgetDeviceRegion( const TQRegion & )=0; virtual void setSourceWidgetOffset(int x, int y) = 0; virtual void setGlobalRegionIndex( int idx ) = 0; virtual void setDashedLines(bool d) = 0; virtual void setDashes(char *, int) = 0; virtual void setOpaqueBackground(bool b)=0; virtual void setBackgroundColor(TQColor c)=0; // Drawing operations virtual void drawPoint( int,int )=0; virtual void drawPoints( const TQPointArray &,int,int )=0; virtual void moveTo( int,int )=0; virtual void lineTo( int,int )=0; virtual void drawLine( int,int,int,int )=0; virtual void drawPolyline( const TQPointArray &,int,int )=0; // current position virtual TQPoint pos() const = 0; // Fill operations - these use the current source (pixmap, // color, etc), and draws outline virtual void fillRect( int,int,int,int )=0; virtual void drawPolygon( const TQPointArray &,bool,int,int )=0; virtual void setLineStep(int)=0; // Special case of rect-with-pixmap-fill for speed/hardware acceleration virtual void blt( int,int,int,int,int,int )=0; virtual void scroll( int,int,int,int,int,int )=0; #if !defined(TQT_NO_MOVIE) || !defined(TQT_NO_TRANSFORMATIONS) || !defined(TQT_NO_PIXMAP_TRANSFORMATION) virtual void stretchBlt( int,int,int,int,int,int )=0; #endif virtual void tiledBlt( int,int,int,int )=0; enum SourceType { SourcePen, SourceImage, SourceAccel }; enum PixelType { NormalPixel, BGRPixel }; // Setting up source data - can be solid color or pixmap data virtual void setSource(const TQPaintDevice *)=0; virtual void setSource(const TQImage *)=0; virtual void setSource(unsigned char *,int,int,int,int,TQRgb *,int); // This one is pen virtual void setSourcePen()=0; virtual void drawAlpha(int,int,int,int,int,int,int,int) {} virtual void hsync(int) {} // These apply only to blt's. For alpha values for general // drawing operations we should probably have a separate TQGfx // class. It's not a high priority though. // Enum values: Ignore alpha information, alpha information encoded in // 32-bit rgba along with colors, alpha information in 8bpp // format in alphabits enum AlphaType { IgnoreAlpha, InlineAlpha, SeparateAlpha, LittleEndianMask, BigEndianMask, SolidAlpha }; // Can be no alpha, inline (32bit data), separate (for images), // LittleEndianMask/BigEndianMask 1bpp masks, constant alpha // value virtual void setAlphaType(AlphaType)=0; // Pointer to data, linestep virtual void setAlphaSource(unsigned char *,int)=0; virtual void setAlphaSource(int,int=-1,int=-1,int=-1)=0; virtual void drawGlyphs( TQMemoryManager::FontID font, glyph_t *glyphs, TQPoint *positions, int num_glyphs ) = 0; virtual void setClut(TQRgb *,int)=0; // Save and restore pen and brush state - necessary when setting // up a bitBlt for example virtual void save()=0; virtual void restore()=0; virtual void setRop(RasterOp)=0; virtual void setScreen(TQScreen *,TQScreenCursor *,bool,int *,int *); void setShared(void * v) { shared_data=v; } bool isScreenGfx() { return is_screen_gfx; } //for cursor.. protected: bool is_screen_gfx; void * shared_data; }; // This lives in loadable modules #ifndef QT_LOADABLE_MODULES extern "C" TQScreen * qt_get_screen( int display_id, const char* spec ); #endif // This is in main lib, loads the right module, calls qt_get_screen // In non-loadable cases just aliases to qt_get_screen const unsigned char * qt_probe_bus(); #endif // TQGFX_QWS_H
Copyright © 2007 Trolltech | Trademarks | TQt 3.3.8
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