ATI IMAGEON (W100) Accelerated support Manuel Teira # # Patch managed by http://www.holgerschurig.de/patcher.html # Index: qt-2.3.10-snapshot-20060120/configure =================================================================== --- qt-2.3.10-snapshot-20060120.orig/configure 2006-01-20 21:15:58.395868288 +0100 +++ qt-2.3.10-snapshot-20060120/configure 2006-01-20 21:17:39.451505496 +0100 @@ -366,6 +366,9 @@ -accel-matrox) QWS_ACCEL_MATROX=y ;; + -accel-w100) + QWS_ACCEL_W100=y + ;; -qvfb) QWS_QVFB=y ;; @@ -767,6 +770,10 @@ then QT_CXX="$QT_CXX -DQT_NO_QWS_MATROX" fi +if [ -z "$QWS_ACCEL_W100" -a -n "$EMB" ] +then + QT_CXX="$QT_CXX -DQT_NO_QWS_W100" +fi if [ -z "$QWS_VNC" -a -n "$EMB" ] then QT_CXX="$QT_CXX -DQT_NO_QWS_VNC" @@ -1398,6 +1405,7 @@ -accel-voodoo3 ..... Enable Voodoo3 acceleration. -accel-mach64 ...... Enable Mach64 acceleration. -accel-matrox ...... Enable Matrox MGA acceleration. + -accel-w100 ........ Enable ATI Imageon w100 acceleration (experimental). -qvfb .............. Enable X11-based Qt Virtual Frame Buffer. -vnc ............... Enable VNC server (requires network module). @@ -1522,6 +1530,7 @@ [ "x$JPEG" = "xyes" ] && QT_LIBS="${QT_LIBS} -ljpeg" [ "x$MNG" = "xyes" ] && QT_LIBS="${QT_LIBS} -lmng -ljpeg" # assume JNG support [ "x$NAS_SOUND" = "xyes" ] && QT_LIBS="${QT_LIBS} -laudio -lXt" # Xt junk in audio library +[ "x$QWS_ACCEL_W100" = "xy" ] && QT_LIBS="${QT_LIBS} -laticore" # Aticore W100 support QT_LIBS="$L_FLAGS $R_FLAGS $QT_LIBS $l_FLAGS" Index: qt-2.3.10-snapshot-20060120/src/kernel/qgfxraster_qws.cpp =================================================================== --- qt-2.3.10-snapshot-20060120.orig/src/kernel/qgfxraster_qws.cpp 2006-01-20 21:09:56.399900040 +0100 +++ qt-2.3.10-snapshot-20060120/src/kernel/qgfxraster_qws.cpp 2006-01-20 21:17:39.454505040 +0100 @@ -2699,7 +2699,6 @@ } #endif // Bresenham algorithm from Graphics Gems - int ax=QABS(dx)*2; int ay=QABS(dy)*2; int sy=dy>0 ? 1 : -1; @@ -5984,6 +5983,10 @@ # include "qgfxmatrox_qws.cpp" #endif +#if !defined(QT_NO_QWS_W100) +# include "qgfxw100_qws.cpp" +#endif + #if !defined(QT_NO_QWS_VFB) # include "qgfxvfb_qws.cpp" #endif @@ -6038,6 +6041,9 @@ #if !defined(QT_NO_QWS_MATROX) { "Matrox", qt_get_screen_matrox, 1 }, #endif +#if !defined(QT_NO_QWS_W100) + { "W100", qt_get_screen_w100, 1 }, +#endif #if !defined(QT_NO_QWS_TRANSFORMED) { "Transformed", qt_get_screen_transformed, 0 }, #endif @@ -6078,6 +6084,8 @@ qt_screen = driverTable[i].qt_get_screen( display_id ); if ( qt_screen ) { if ( qt_screen->connect( spec ) ) { + printf( "[%d]:Connected to screen '%s'\n", + getpid(), driverTable[i].name ); return qt_screen; } else { delete qt_screen; Index: qt-2.3.10-snapshot-20060120/src/3rdparty/kernel/aticore/aticore.h =================================================================== --- /dev/null 1970-01-01 00:00:00.000000000 +0000 +++ qt-2.3.10-snapshot-20060120/src/3rdparty/kernel/aticore/aticore.h 2006-01-20 21:17:39.455504888 +0100 @@ -0,0 +1,574 @@ +/* + * AtiCore 2D acceleration API + * + */ + +#include +#include + +#ifndef __W100API_H__ +#define __W100API_H__ + +#ifdef __cplusplus +extern "C" { +#endif + +#define SolidRop_GXclear 0x00 /* 0 */ +#define SolidRop_GXand 0xa0 /* src AND dst */ +#define SolidRop_GXandReverse 0x50 /* src AND NOT dst */ +#define SolidRop_GXcopy 0xf0 /* src */ +#define SolidRop_GXandInverted 0x0a /* NOT src AND dst */ +#define SolidRop_GXnoop 0xaa /* dst */ +#define SolidRop_GXxor 0x5a /* src XOR dst */ +#define SolidRop_GXor 0xfa /* src OR dst */ +#define SolidRop_GXnor 0x05 /* NOT src AND NOT dst */ +#define SolidRop_GXequiv 0xa5 /* NOT src XOR dst */ +#define SolidRop_GXinvert 0x55 /* NOT dst */ +#define SolidRop_GXorReverse 0xf5 /* src OR NOT dst */ +#define SolidRop_GXcopyInverted 0x0f /* NOT src */ +#define SolidRop_GXorInverted 0xaf /* NOT src OR dst */ +#define SolidRop_GXnand 0x5f /* NOT src OR NOT dst */ +#define SolidRop_GXset 0xff /* 1 */ + +#define BltRop_GXclear 0x00 /* 0 */ +#define BltRop_GXand 0x88 /* src AND dst */ +#define BltRop_GXandReverse 0x44 /* src AND NOT dst */ +#define BltRop_GXcopy 0xcc /* src */ +#define BltRop_GXandInverted 0x22 /* NOT src AND dst */ +#define BltRop_GXnoop 0xaa /* dst */ +#define BltRop_GXxor 0x66 /* src XOR dst */ +#define BltRop_GXor 0xee /* src OR dst */ +#define BltRop_GXnor 0x11 /* NOT src AND NOT dst */ +#define BltRop_GXequiv 0x99 /* NOT src XOR dst */ +#define BltRop_GXinvert 0x55 /* NOT dst */ +#define BltRop_GXorReverse 0xdd /* src OR NOT dst */ +#define BltRop_GXcopyInverted 0x33 /* NOT src */ +#define BltRop_GXorInverted 0xbb /* NOT src OR dst */ +#define BltRop_GXnand 0x77 /* NOT src OR NOT dst */ +#define BltRop_GXset 0xff /* 1 */ + +#define DSTTYPE_8BPP 2 //8bpp +#define DSTTYPE_16BPP_1555 3 //16 bpp aRGB 1555 +#define DSTTYPE_16BPP_444 5 //16 bpp aRGB 4444 + +#define SRCTYPE_1BPP_OPA 0 //mono (expanded to frgd, bkgd) +#define SRCTYPE_1BPP_TRA 1 //mono (expanded to frgd, leave_alone) +#define SRCTYPE_EQU_DST 3 //color (same as DST) +#define SRCTYPE_SOLID_COLOR_BLT 4 //solid color for Blt (use frgd) +#define SRCTYPE_4BPP 5 //4 bpp +#define SRCTYPE_12BPP_PACKED 6 //12 bpp packed + +#define ROP3_SRCCOPY 0xcc +#define ROP3_PATCOPY 0xf0 + +#define OVLTYPE_YUV420 7 +#define OVLTYPE_RGB565 8 + +#define DP_BRUSH_8x8MONOOPA 0 //8x8 mono pattern (expanded to frgd, bkgd ) +#define DP_BRUSH_8x8MONOTRA 1 //8x8 mono pattern (expanded to frgd, leave alone ) +#define DP_PEN_32x1MONOOPA 6 //32x1 mono pattern (expanded to frgd, bkgd) +#define DP_PEN_32x1MONOTRA 7 //32x1 mono pattern (expanded to frgd, leave alone) +#define DP_BRUSH_8x8COLOR 10 //8x8 color pattern +#define DP_BRUSH_SOLIDCOLOR 13 //solid color pattern (frgd) +#define DB_BRUSH_NONE 15 //No brush used + + typedef struct { + int16_t XCoord; + int16_t YCoord; + } ATI_POINT; + + typedef struct { + int16_t XCoord; + int16_t YCoord; + int16_t Width; + int16_t Height; + } ATI_RECT; + + typedef struct { + int16_t X_Top_Left; // x coordinate of top left corner + int16_t Y_Top_Left; // y coordinate of top left corner + int16_t X_Bottom_Right; // x coordinate of bottom right corner + int16_t Y_Bottom_Right; // y coordinate of bottom right corner + } ATI_CLIPRECT; + + typedef struct { + uint32_t Count; + uint8_t ScaleXFactor; + uint8_t ScaleYFactor; + uint8_t BlendOn; + uint8_t dummy1; + } ATI_STRETCH; + + typedef struct { + uint32_t *lpSrcBitmap; /* サーフェスのオフセット */ + uint16_t XCoord; /* +4 確定:サーフェス内のx座標 */ + uint16_t YCoord; /* +6 確定:サーフェス内のy座標 */ + uint16_t SrcPitch; /* +8 確定: */ + uint16_t SrcHeight; /* +10 確定: */ + uint16_t OverlayWidth; /* オーバレイの幅(Srcと違う値にしても、動的に拡大縮小されたりはしない、意味あんの?) */ + uint16_t OverlayHeight; + uint32_t lpOverlayKey; /* +16 確定:謎(カラーキー?) */ + uint8_t OverlayFormat; /* +20 確定 */ + uint8_t dummy1; + uint16_t dummy2; + } ATI_OVERLAYPROP; /* 24bytes? */ + + typedef struct { + int HInvert; + int VInvert; + } ATI_EXTVIDEOPROP; + + typedef struct { + ATI_EXTVIDEOPROP ExtVideoProp; + } ATI_UNKNOWN1; + + typedef struct { + unsigned long clr_cmp_fcn_src :3; + unsigned long :5; + unsigned long clr_cmp_fcn_dst :3; + unsigned long :13; + unsigned long clr_cmp_src :2; + unsigned long :6; + } clr_cmp_cntl_t; + + typedef struct { + uint16_t x; + uint16_t y; + uint16_t w; + uint16_t h; + clr_cmp_cntl_t cmp_cntl; + unsigned long tcolour; + } transbitblt_t; + + typedef struct { + uint32_t dummy1; + uint32_t dummy2; + uint8_t HExpansion; /* +8 確定 */ + uint8_t VExpansion; /* +9 確定 */ + uint8_t dummy3; + uint8_t dummy4; + uint8_t RConversion; /* +12 確定 */ + uint8_t dummy5; + uint8_t dummy6; + uint8_t dummy7; + ATI_UNKNOWN1 x; + } ATI_EXTENDEDOVERLAYPROP; /* 16byte? */ + + /** + * AtiCore initialization. + * Sets up the shared memory area + * @return 1:success, 0:fail + */ + int AtiCore_ProcessAttach( void ); + + /** + * AtiCore finish. + * + * @return 1:success, 0:fail + */ + int AtiCore_ProcessDetach( void ); + + + /** + * Allocates a surface on the internal RAM. + * Perhaps there's a way to indicate to allocate on the + * internal RAM? + * @arg handle Reference to the returned surface handle + * @arg offset Returned offset of this surface on the video memory + * @arg size Size (bytes) to be reserved (16 multiple) + * @arg direction + * @return 1:success, 0:fail + */ + int AtiCore_AllocateSurface( uint16_t *handle, uint32_t *offset, + uint32_t size, uint32_t direction ); + + /** + * Deallocates a given surface. + * @arg handle Handle to the allocated surface + * (As returned by AllocateSurface) + * @return 1:success, 0:fail + */ + int AtiCore_DestroySurface( uint16_t handle ); + + /** + * Sets the kind of Raster Operation. + * @param rop Raster operation to be performed + * @return 1:success, 0:fail + */ + int AtiCore_SetRopOperation( uint32_t rop ); + + /** + * Sets the destination type for raster operation. + * @param dsttype + * @return 1:success, 0:fail + */ + int AtiCore_SetDstType( uint32_t dsttype ); + + /** + * Sets the source type for raster operation. + * @param srctype + * @return 1:success, 0:fail + */ + int AtiCore_SetSrcType( uint32_t srctype ); + + /** + * Sets Source clipping rectangle. + * @param cliprect Rectangle to perform clipping. + * @return 1:success, 0:fail + */ + int AtiCore_SetSrcClippingRect( ATI_CLIPRECT *cliprect ); + + /** + * Sets Destination clipping rectangle. + * @param cliprect Rectangle to perform clipping. + * @return 1:success, 0:fail + */ + int AtiCore_SetDstClippingRect(ATI_CLIPRECT *cliprect); + + /** + * Sets pitch and offset for source in a raster operation. + * @param pitch Pitch (line width) of source + * @param offset Offset of source + * @return 1:success, 0:fail + */ + int AtiCore_SetSrcPitchOffset( int pitch, int offset ); + + /** + * Sets pitch and offset destination source in a raster operation. + * @param pitch Pitch (line width) of destination + * @param offset Offset of destination (memory offset) + * @return 1:success, 0:fail + */ + int AtiCore_SetDstPitchOffset( int pitch, int offset ); + + /** + * Performs a BitBlt with source rotation. + * @param flags Rotation degree + * @param dstRect Rectangle for destination Bitblitting + * @param srcRect Rectangle for origin bitblitting + * @test Tested with specified flags parameter + */ + int AtiCore_BitBltFilpRotate( int flags, + ATI_RECT *dstRect, + ATI_RECT *srcRect); + + /** + * Performs a BitBlt with source stretching. + * @param option Unknown + * @param point Unknown + * @param srcRect Source blitting surface + * @test Untested + */ + int AtiCore_StretchBlt( ATI_STRETCH *option, + ATI_POINT *point, + ATI_RECT *srcRect); + + /** + * Waits for the FIFO to be idle at least msecs. + * @param msecs Maximum time to wait for FIFO to idle + * @return 1:success, 0:fail + * @test Untested + */ + int AtiCore_WaitComplete( int msec ); + + /** + * Allocates a new overlay handle. + * @param handle overlay + * @return 1:success, 0:fail + * @test Yes + */ + int AtiCore_AllocOverlay( uint16_t *handle ); + + /** + * Deallocates a overlay handle. + * @param handle overlay + * @return 1:success, 0:fail + * @test Yes + */ + int AtiCore_ReleaseOverlay( uint16_t handle ); + + /** + * Sets up an overlay given a handle an a set of properties. + * @param handle Allocated handle to setup the overlay. + * @param props Overlay properties struct + * @return 1:success, 0:fail + */ + int AtiCore_SetupOverlay( uint16_t handle, ATI_OVERLAYPROP *props ); + + /** + * Sets up extended overlay features. + * @param handle Allocated handle to an overlay + * @param props Extended overlay properties + * @return 1:success, 0:fail + */ + int AtiCore_SetupOverlayExtended( uint16_t handle, + ATI_EXTENDEDOVERLAYPROP *props ); + + /** + * Enable/Disable an overlayed surface. + * @param handle Overlay to be enabled/disabled + * @param enable 1: Enable, 0: Disable + * @return 1:success, 0:fail + * @test Tested + */ + int AtiCore_SetOverlayOnOff( uint16_t handle, int enable ); + + /** + * Sets up the overlay position for a given handle. + * @param handle Overlay Handle + * @param x X Coordinate (Seems to be a bug with x < 4 ) + * @param y Y Coordinate + * @return 1:success, 0:fail + */ + int AtiCore_SetOverlayPos( uint16_t handle, + uint16_t x, + uint16_t y ); + + /** + * Translates between physical/virtual addresses. + * @param offset VRAM offset to be translated + * @param viraddr Virtual address for VRAM + * @return 1:success,0:fail + */ + int AtiCore_SetupMemoryTransfer( uint32_t offset, + uint32_t *viraddr ); + + /** + * Related with the previous one. It seems to be necesary to be called + * but I'm not sure of its function. + * @return 1:success, 0:fail + */ + int AtiCore_TerminateMemoryTransfer( void ); + + /** + * Returns the frontbuffer pitch and offset. + * @param pitch Return value for the frontbuffer pitch (width) + * @param offset Return value for the frontbuffer offset + * @return 1:success, 0:fail + */ + int AtiCore_GetFrontBufferPitchOffset( uint32_t *pitch, + uint32_t *offset ); + + /** + * Changes display brighness ? + * @param brightness -64...63 + * @return 1:success, 0:fail + */ + int AtiCore_SetDisplayBrightness( int brightness ); + + /** + * Returns the amount of available internal/external memory. + * @param internal Pointer to return internal memory size + * @param external Pointer to return external memory size + * @return 1:success, 0:fail + */ + int GetAvailableVideoMem( uint32_t *internal, + uint32_t *external ); + +/** + * + * + * + + { + (uint32_t) 0 + (uint32_t) 0 + (uint16_t) 480 + (uint16_t) 640 + (uint16_t) 480 + (uint16_t) 640 + (uint32_t) 5 + */ + + typedef struct { + uint32_t dummy1; + ATI_RECT Size; + uint16_t Width; + uint16_t Height; + uint32_t Flag; + } ATI_GRAPHICWINDOW; + + int AtiCore_SetupGraphicWindow(void* ); + + /** + * It seems to be necessary after AtiCore_ProcessAttach + * @param mode: 0xaaab for portrait, 0xaaaa for landscape + * @return 1:success, 0:fail + */ + int AtiCore_ProcessAttachSpecialMode( int mode ); + + /** + * Detach from the special mode. Whatever it means. + * @return 1:success, 0:fail + */ + int AtiCore_ProcessDetachSpecialMode( void ); + + /** + * Sets up the position of the Graphic viewport ? + * @param x X coordinate + * @param y Y coordinate + * @return 1:success, 0:fail + */ + int AtiCore_SetGraphicWindowPos( int x, int y ); + + /** + * Get the graphic viewport position. + * @param x Pointer to xcoord placeholder + * @param y Pointer to ycoord placeholder + * @return 1:success, 0:fail + */ + int AtiCore_GetGraphicWindowPos( int *x, int *y ); + + /** + * Sets up the frontbuffer position. + * @param offset VRAM offset to be used. + * @param x X Coordinate? + * @param y Y Coordinate? + * @return 1:success, 0:fail + */ + int AtiCore_SetFrontBuffer( int offset, int x, int y ); + + /** + * Enable/Disable the frontbuffer? + * @param enable 1 enables/ 0 disables + * @return 1:success, 0:fail + */ + int AtiCore_SetGraphicWindowOnOff( int enable ); + + /* + * Sets the foreground color. + * @param colour Color in 565 format (perhaps depends on the source format) + * @return 1:success, 0:fail + */ + int AtiCore_SetFrgColour( int colour ); + + /* + * Sets the background colour. + * @param colour Colour in 565 format (perhaps depends on the source format) + * @return 1:success, 0:fail + */ + int AtiCore_SetBkgColour( int colour ); + + /** + * Changes the painting brush + * @param btype Type of brush to use + * 4: Uses the pattern + * 6: SolidLine + * @param pattern Pointer to a 32 bit pattern + * @return 1:success, 0:fail + * @test Some values for btype produces a kind of antialiasing line + */ + int AtiCore_BrushType( int btype, unsigned int *pattern ); + + /** + * Performs a rectangle paint. + * @param nrects Number of rectangles to be painted + * @param rects Array of rectangles to be painted + * @return 1:success, 0:fail + * @test Tested with nrects==1 + */ + int AtiCore_PaintRect( int nrects , + ATI_RECT rects[] ); + + /** + * Draws a set of lines. + * @param npoints Number of points in the polyline set + * @param points Pointer to an array of ATI_POINT + * @return 1:success, 0:fail + */ + int AtiCore_Polyline( int npoints, ATI_POINT points[] ); + + int AtiCore_GetPitchOffsetProperty( void *, void *); + + int AtiCore_CursorOnOff( int, int ); + + /** + * Performs a BitBlt ROP operation. + * @param unk Unknown (Always set to 1) + * @param dstrect Bounding destination rect + * @param srcrect Bounding source rect + * @return 1:success, 0:fail + */ + int AtiCore_BitBlt( int unk, + ATI_RECT *dstrect, + ATI_RECT *srcrect ); + + /** + * Performs a Transparent BitBlt ROP operation. + * @param dstrect Transparent DstRect bitblt argument + * @param srcrect Transparent SrcRect bitblt argument + * @return 1:success, 0:fail + * @test Doesn't work. It sets to zero CLR_CMP_CNTL and CLR_CMP_MSK + */ + int AtiCore_TransBitBlt( transbitblt_t *dstrect, + transbitblt_t *srcrect ); + + int AtiCore_WakeUpCall( void ); + + /** + * Draws a set of pixels + * @param npoints Number of points to draw + * @param points Pointer to an array of ATI_POINT + * @return 1:success, 0:fail + */ + int AtiCore_DrawPixel( int npoints, ATI_POINT *points ); + + int AtiCore_SetSysClk( unsigned short in0 ); + int AtiCore_SetFastSysClk( unsigned short in0 ); + int AtiCore_SetSlowSysClk( unsigned short in0 ); + + int AtiCore_GetCursorPos( unsigned long in0, + unsigned short *x, + unsigned short *y ); + + + +/* ================================================================ */ +/* from libqte.so.2.3.2 */ +/* +AtiCore_AlphaBlend + +AtiCore_Flush +AtiCore_GammaCorrection +AtiCore_GetCRC +AtiCore_GetCursorPos +AtiCore_GetDeviceInfo +AtiCore_GetGPIO_Data +AtiCore_GetGraphicExtended +AtiCore_GetGraphicWindowPos +AtiCore_GetLargestVideoMemBlock +AtiCore_GetLastError +AtiCore_GetMultiCRC +AtiCore_GetOverlayPos +AtiCore_Host +AtiCore_LoadCursorBitMap +AtiCore_PolyScanline +AtiCore_ProcessAttachMinimal(void)? +AtiCore_ProcessDetachMinimal(void)? +AtiCore_ProcessDetachSpecialMode +AtiCore_ReadCfgReg +AtiCore_ReadMem(int, int)? +AtiCore_ReadReg(int, int)? +AtiCore_ScanlineShading +AtiCore_SetApertures +AtiCore_SetBytePixelOrder +AtiCore_SetCursorPos +AtiCore_SetDisplayParameters +AtiCore_SetDriverBehaviour +AtiCore_SetGPIO_Data +AtiCore_SetOverlayPosUsingGraphicWindowXY +AtiCore_SetPartialCursor +AtiCore_SetupGraphicExtended +AtiCore_SetupPM4 +AtiCore_SmallText +AtiCore_SubmitPM4Packet +AtiCore_WriteCfgReg +AtiCore_WriteMem +AtiCore_WriteReg + */ + +#ifdef __cplusplus +} +#endif + +#endif Index: qt-2.3.10-snapshot-20060120/src/kernel/qgfxw100_qws.cpp =================================================================== --- /dev/null 1970-01-01 00:00:00.000000000 +0000 +++ qt-2.3.10-snapshot-20060120/src/kernel/qgfxw100_qws.cpp 2006-01-20 21:17:39.459504280 +0100 @@ -0,0 +1,2709 @@ + /* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil -*- */ +/*************************************************************************** + +** Imageon driver for qte using libAticore +** Manuel Teira( 2005 ) +** BUGS +* - Enable again internal memory surfaces. +****************************************************************************/ +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include +#include + +#include + +#ifndef __sparc__ +#include +#endif + +#include "qgfxraster_qws.h" +#include "qgfxlinuxfb_qws.h" +#include + +#include + +class W100Driver { +public: + + typedef enum Loglevel { + ERROR = 0, + WARNING, + INFO + }; + + typedef enum Opcodes { + DRAWLINE = 0, + DRAWPOINT, + DRAWPOINTS, + FILLRECT, + SCROLL, + BITBLT, + POLYLINE, + EOO + }; + + typedef enum Retcodes { + codOK, + codError + }; + + + typedef struct Opcode { + QString str; + int index; + bool accelerated; + int hits; + int misses; + }; + + static Opcode lOpcodes[]; + + static QString level2str( int level ) + { + switch( level ) { + case ERROR: + return QString( "ERROR" ); + break; + case WARNING: + return QString( "WARNING" ); + break; + case INFO: + return QString( "INFO" ); + break; + default: + return QString( "UNKNOWN" ); + break; + } + } + + W100Driver(): + m_loglevel( 0 ), + m_logenabled( 0 ), + m_logcount( 0 ), + m_attached( false ) + { + m_pid = getpid(); + m_loglevel = 0; + char *var; + if ( var = getenv( "W100_DEBUG" ) ) { + if ( strtol( var, 0, 0 ) == 1 ) { + m_logenabled = 1; + } + } + + if ( m_logenabled ) { + if ( var = getenv( "W100_DEBUGLEVEL" ) ) { + if ( ( m_loglevel = strtol( var, 0, 0 ) ) < 0 ) { + m_loglevel = 0; + } + } + + QString path( "/mnt/card/w100/w100debug.log" ); + if ( var = getenv( "W100_DEBUGPATH" ) ) { + path = QString( var ) + "/w100debug.log"; + } + m_logfile = fopen( path.latin1(), "a" ); + if ( m_logfile == NULL ) m_logenabled = 0; + } + + Opcode *opcodePtr = lOpcodes; + while ( opcodePtr->index != EOO ) { + QString varName = "W100_ACCEL_" + opcodePtr->str; + char *varPtr; + if ( ( varPtr = getenv( varName.latin1() ) ) ) { + if ( ( strtol( varPtr, NULL, 0 ) == 0 ) || + ( strcmp( varPtr, "false" ) == 0 ) ) { + opcodePtr->accelerated = false; + } + } + opcodePtr++; + } + } + + ~W100Driver() + { + //Dump statistics about any opcode + Opcode *opcodePtr = lOpcodes; + while ( opcodePtr->index != EOO ) { + log( WARNING, "Opcode %s. Accelerated=%s. Hits=%d. Misses=%d", + opcodePtr->str.latin1(), + opcodePtr->accelerated ? "true" : "false", + opcodePtr->hits, + opcodePtr->misses ); + opcodePtr++; + } + if ( m_logenabled && m_logfile ) { + fclose( m_logfile ); + } + } + + bool accelerated( int opcode ) + { + if ( !m_attached ) { + log( WARNING, "Asking for accelerated '%s' when not attached", + lOpcodes[opcode].str.latin1() ); + return false; + } + if ( opcode < EOO ) { + if ( lOpcodes[opcode].accelerated ) { + return true; + } else { + log( WARNING, "Not accelerated '%s'", + lOpcodes[opcode].str.latin1() ); + return false; + } + } + return false; + } + + void addHit( int opcode ) + { + lOpcodes[opcode].hits++; + } + + void addMiss( int opcode ) + { + lOpcodes[opcode].misses++; + } + + void log( int level, const char *fmt, ... ) + { + if ( m_logenabled && ( level <= m_loglevel ) ) { + timeval tv; + char buffer[1024]; + va_list ap; + va_start( ap, fmt ); + vsnprintf( buffer, 1023, fmt, ap ); + va_end( ap ); + gettimeofday( &tv, NULL ); + fprintf( m_logfile, "(%010u.%06u)%d:%d:%s:%s\n", + tv.tv_sec, tv.tv_usec, + m_logcount++, + m_pid, + level2str( level ).latin1(), + buffer ); + fflush( m_logfile ); + } + } + + bool attached( void ) const + { + return m_attached; + } + + int processAttach( void ) + { + if ( !m_attached ) { + if ( AtiCore_ProcessAttach() ) { + log( WARNING, "Process attached succesfully" ); + m_attached = true; + return codOK; + } else { + log( WARNING, "Error attaching process" ); + } + } else { + log( WARNING, "Process already attached" ); + } + return codError; + } + + int processDetach( void ) + { + if ( m_attached ) { + if ( AtiCore_ProcessDetach() ) { + log( WARNING, "Process detached succesfully" ); + m_attached = false; + return codOK; + } else { + log( WARNING, "Error detaching process" ); + } + } else { + log( WARNING, "Trying to detach while not attached" ); + } + return codError; + } + + int allocateSurface( uint16_t *handle, uint32_t *offset, + uint32_t size, uint32_t direction ) + { + if ( m_attached ) { + if ( AtiCore_AllocateSurface( handle, offset, + size, direction ) ) { + return codOK; + } else { + log( ERROR, "Error in allocateSurface" ); + } + } else { + log( WARNING, "Trying to allocateSurface while not attached" ); + } + return codError; + } + + int destroySurface( uint16_t handle ) + { + if ( m_attached ) { + if ( AtiCore_DestroySurface( handle ) ) { + return codOK; + } else { + log( ERROR, "Error in destroySurface" ); + } + } else { + log( WARNING, "Trying to destroySurface while not attached" ); + } + return codError; + } + + int drawPixel( int npoints, ATI_POINT *points ) + { + if ( m_attached ) { + if ( AtiCore_DrawPixel( npoints, points ) ) { + return codOK; + } else { + log( ERROR, "Error in drawPixel" ); + } + } else { + log( WARNING, "Trying to drawPixel while not attached" ); + } + return codError; + } + + int setRopOperation( uint32_t rop ) + { + if ( m_attached ) { + if ( AtiCore_SetRopOperation( rop ) ) { + return codOK; + } else { + log( ERROR, "Error in setRopOperation" ); + } + } else { + log( WARNING, "Trying to setRopOperation while not attached" ); + } + return codError; + } + + int setDstType( uint32_t dtype ) + { + if ( m_attached ) { + if ( AtiCore_SetDstType( dtype ) ) { + return codOK; + } else { + log( ERROR, "Error in setDstType" ); + } + } else { + log( WARNING, "Trying to setDstType while not attached" ); + } + return codError; + } + + int setSrcType( uint32_t stype ) + { + if ( m_attached ) { + if ( AtiCore_SetSrcType( stype ) ) { + return codOK; + } else { + log( ERROR, "Error in setSrcType" ); + } + } else { + log( WARNING, "Trying to setSrcType while not attached" ); + } + return codError; + } + + int setSrcClippingRect( ATI_CLIPRECT *cliprect ) + { + if ( m_attached ) { + if ( AtiCore_SetSrcClippingRect( cliprect ) ) { + return codOK; + } else { + log( ERROR, "Error in setSrcClippingRect" ); + } + } else { + log( WARNING, "Trying to setSrcClippingRect while not attached" ); + } + return codError; + } + + int setDstClippingRect( ATI_CLIPRECT *cliprect ) + { + if ( m_attached ) { + if ( AtiCore_SetDstClippingRect( cliprect ) ) { + return codOK; + } else { + log( ERROR, "Error in setDstClippingRect" ); + } + } else { + log( WARNING, "Trying to setDstClippingRect while not attached" ); + } + return codError; + } + + int setSrcPitchOffset( int pitch, int offset ) + { + if ( m_attached ) { + if ( AtiCore_SetSrcPitchOffset( pitch, offset ) ) { + return codOK; + } else { + log( ERROR, "Error in setSrcPitchOffset" ); + } + } else { + log( WARNING, "Trying to setSrcPitchOffset while not attached" ); + } + return codError; + } + + int setDstPitchOffset( int pitch, int offset ) + { + if ( m_attached ) { + if ( AtiCore_SetDstPitchOffset( pitch, offset ) ) { + return codOK; + } else { + log( ERROR, "Error in setDstPitchOffset" ); + } + } else { + log( WARNING, "Trying to setDstPitchOffset while not attached" ); + } + return codError; + } + + int bitBltFlipRotate( int rot, + ATI_RECT *dstRect, + ATI_RECT *srcRect ) + { + if ( m_attached ) { + if ( AtiCore_BitBltFilpRotate( rot, dstRect, srcRect ) ) { + return codOK; + } else { + log( ERROR, "Error in bitBltFlipRotate" ); + } + } else { + log( WARNING, "Trying to bitBltFlipRotate while not attached" ); + } + return codError; + } + + int stretchBlt( ATI_STRETCH *option, + ATI_POINT *point, + ATI_RECT *srcRect ) + { + if ( m_attached ) { + if ( AtiCore_StretchBlt( option, point, srcRect ) ) { + return codOK; + } else { + log( ERROR, "Error in stretchBlt" ); + } + } else { + log( WARNING, "Trying to stretchBlt while not attached" ); + } + return codError; + } + + int waitComplete( int msec ) + { + if ( m_attached ) { + if ( AtiCore_WaitComplete( msec ) ) { + return codOK; + } else { + log( ERROR, "Error in waitComplete" ); + } + } else { + log( WARNING, "Trying to waitComplete while not attached" ); + } + return codError; + } + + int allocOverlay( uint16_t *handle ) + { + if ( m_attached ) { + if ( AtiCore_AllocOverlay( handle ) ) { + return codOK; + } else { + log( ERROR, "Error in allocOverlay" ); + } + } else { + log( WARNING, "Trying to allocOverlay while not attached" ); + } + return codError; + } + + int releaseOverlay( uint16_t handle ) + { + if ( m_attached ) { + if ( AtiCore_ReleaseOverlay( handle ) ) { + return codOK; + } else { + log( ERROR, "Error in releaseOverlay" ); + } + } else { + log( WARNING, "Trying to releaseOverlay while not attached" ); + } + return codError; + } + + int setupOverlay( uint16_t handle, ATI_OVERLAYPROP *prop ) + { + if ( m_attached ) { + if ( AtiCore_SetupOverlay( handle, prop ) ) { + return codOK; + } else { + log( ERROR, "Error in setupOverlay" ); + } + } else { + log( WARNING, "Trying to setupOverlay while not attached" ); + } + return codError; + } + + int setupOverlayExtended( uint16_t handle, + ATI_EXTENDEDOVERLAYPROP *prop ) + { + if ( m_attached ) { + if ( AtiCore_SetupOverlayExtended( handle, prop ) ) { + return codOK; + } else { + log( ERROR, "Error in setupOverlayExtended" ); + } + } else { + log( WARNING, "Trying to setupOverlayExtended while not attached" ); + } + return codError; + } + + int setOverlayOnOff( uint16_t handle, int isShow ) + { + if ( m_attached ) { + if ( AtiCore_SetOverlayOnOff( handle, isShow ) ) { + return codOK; + } else { + log( ERROR, "Error in setOverlayOnOff" ); + } + } else { + log( WARNING, "Trying to setOverlayOnOff while not attached" ); + } + return codError; + } + + int setOverlayPos( uint16_t handle, uint16_t x, uint16_t y ) + { + if ( m_attached ) { + if ( AtiCore_SetOverlayPos( handle, x, y ) ) { + return codOK; + } else { + log( ERROR, "Error in setOverlayPos" ); + } + } else { + log( WARNING, "Trying to setOverlayPos while not attached" ); + } + return codError; + } + + int setupMemoryTransfer( uint32_t offset, uint32_t *regdata ) + { + if ( m_attached ) { + if ( AtiCore_SetupMemoryTransfer( offset, regdata ) ) { + return codOK; + } else { + log( ERROR, "Error in setupMemoryTransfer" ); + } + } else { + log( WARNING, "Trying to setupMemoryTransfer while not attached" ); + } + return codError; + } + + int terminateMemoryTransfer( void ) + { + if ( m_attached ) { + if ( AtiCore_TerminateMemoryTransfer() ) { + return codOK; + } else { + log( ERROR, "Error in terminateMemoryTransfer" ); + } + } else { + log( WARNING, "Trying to terminateMemoryTransfer while not attached" ); + } + return codError; + } + + int getFrontBufferPitchOffset( uint32_t *pitch, uint32_t *offset ) + { + if ( m_attached ) { + if ( AtiCore_GetFrontBufferPitchOffset( pitch, offset ) ) { + return codOK; + } else { + log( ERROR, "Error in getFrontBufferPitchOffset" ); + } + } else { + log( WARNING, "Trying to getFrontBufferPitchOffset while not attached" ); + } + return codError; + } + + int setDisplayBrightness( int bri ) + { + if ( m_attached ) { + if ( AtiCore_SetDisplayBrightness( bri ) ) { + return codOK; + } else { + log( ERROR, "Error in setDisplayBrightness" ); + } + } else { + log( WARNING, "Trying to setDisplayBrighness while not attached" ); + } + return codError; + } + + int getAvailableVideoMem( uint32_t *internal, uint32_t *external ) + { + if ( m_attached ) { + if ( GetAvailableVideoMem( internal, external ) ) { + return codOK; + } else { + log( ERROR, "Error in getAvailableVideoMem" ); + } + } else { + log( WARNING, "Trying to getAvailableVideoMem while not attached" ); + } + return codError; + } + + int setupGraphicWindow( ATI_GRAPHICWINDOW *win ) + { + if ( m_attached ) { + if ( AtiCore_SetupGraphicWindow( ( void * ) win ) ) { + return codOK; + } else { + log( ERROR, "Error in setupGraphicWindow" ); + } + } else { + log( WARNING, "Trying to setupGraphicWindow while not attached" ); + } + return codError; + } + + int processAttachSpecialMode( int mode ) + { + if ( m_attached ) { + if ( AtiCore_ProcessAttachSpecialMode( mode ) ) { + return codOK; + } else { + log( ERROR, "Error in processAttachSpecialMode" ); + } + } else { + log( WARNING, "Trying to processAttachSpecialMode while not attached" ); + } + return codError; + } + + int processDetachSpecialMode( void ) + { + if ( m_attached ) { + if ( AtiCore_ProcessDetachSpecialMode() ) { + return codOK; + } else { + log( ERROR, "Error in processDetachSpecialMode" ); + } + } else { + log( WARNING, "Trying to processDetachSpecialMode while not attached" ); + } + return codError; + } + + int setGraphicWindowPos( int x, int y ) + { + if ( m_attached ) { + if ( AtiCore_SetGraphicWindowPos( x, y ) ) { + return codOK; + } else { + log( ERROR, "Error in setGraphicWindowPos" ); + } + } else { + log( WARNING, "Trying to setGraphicWindow while not attached" ); + } + return codError; + } + + int setFrontBuffer( int offset, int a, int b ) + { + if ( m_attached ) { + if ( AtiCore_SetFrontBuffer( offset, a, b ) ) { + return codOK; + } else { + log( ERROR, "Error in setFrontBuffer" ); + } + } else { + log( WARNING, "Trying to setFrontBuffer while not attached" ); + } + return codError; + } + + int setGraphicWindowOnOff( int val ) + { + if ( m_attached ) { + if ( AtiCore_SetGraphicWindowOnOff( val ) ) { + return codOK; + } else { + log( ERROR, "Error in setGraphicWindowOnOff" ); + } + } else { + log( WARNING, "Trying to setGraphicWindowOnOff while not attached" ); + } + } + + static unsigned long ccolor( unsigned int rgb ) + { + unsigned char r = ( rgb & 0xff0000 ) >> 19; + unsigned char g = ( rgb & 0xff00 ) >> 10; + unsigned char b = ( rgb & 0xff ) >> 3; + return ( ( ( ( unsigned short )0x1f & r ) << 11 ) | + ( ( ( unsigned short )0x3f & g ) << 5 ) | + ( ( ( unsigned short )0x1f & b ) ) ); + } + + int setFrgColour( int val ) + { + if ( m_attached ) { + if ( AtiCore_SetFrgColour( ccolor( val ) ) ) { + return codOK; + } else { + log( ERROR, "Error in setFrgColour" ); + } + } else { + log( WARNING, "Trying to setFrgColour while not attached" ); + } + return codError; + } + + int brushType( int type, unsigned int pattern ) + { + if ( m_attached ) { + if ( AtiCore_BrushType( type, &pattern ) ) { + return codOK; + } else { + log( ERROR, "Error in brushType" ); + } + } else { + log( WARNING, "Trying to brushType while not attached" ); + } + return codError; + } + + int paintRect( int flags, ATI_RECT *rect ) + { + if ( m_attached ) { + if ( AtiCore_PaintRect( flags, rect ) ) { + return codOK; + } else { + log( ERROR, "Error in paintRect" ); + } + } else { + log( WARNING, "Trying to paintRect while not attached" ); + } + return codError; + } + + int polyline( int npoints, ATI_POINT *points ) + { + if ( m_attached ) { + if ( AtiCore_Polyline( npoints, points ) ) { + return codOK; + } else { + log( ERROR, "Error in polyline" ); + } + } else { + log( WARNING, "Trying to polyline while not attached" ); + } + return codError; + } + + int getPitchOffsetProperty( void *pitch, void *offset ) + { + if ( m_attached ) { + if ( AtiCore_GetPitchOffsetProperty( pitch, offset ) ) { + return codOK; + } else { + log( ERROR, "Error in getPitchOffsetProperty" ); + } + } else { + log( WARNING, "Trying to getPitchOffsetProperty while not attached" ); + } + return codError; + } + + int cursorOnOff( int a, int b ) + { + if ( m_attached ) { + if ( AtiCore_CursorOnOff( a, b ) ) { + return codOK; + } else { + log( ERROR, "Error in cursorOnOff" ); + } + } else { + log( WARNING, "Trying to cursorOnOff while not attached" ); + } + return codError; + } + + int bitBlt( int flags, ATI_RECT *dst, ATI_RECT *src ) + { + if ( m_attached ) { + if ( AtiCore_BitBlt( flags, dst, src ) ) { + return codOK; + } else { + log( ERROR, "Error in bitBlt" ); + } + } else { + log( WARNING, "Trying to bitBlt while not attached" ); + } + return codError; + } + + int wakeUpCall( void ) + { + if ( m_attached ) { + if ( AtiCore_WakeUpCall() ) { + return codOK; + } else { + log( ERROR, "Error in wakeUpCall" ); + } + } else { + log( WARNING, "Trying to wakeupCall while not attached" ); + } + return codError; + } + +private: + FILE *m_logfile; + int m_loglevel; + bool m_logenabled; + bool m_attached; + int m_pid; + int m_logcount; +}; + +W100Driver::Opcode W100Driver::lOpcodes[] = { + { "DRAWLINE", W100Driver::DRAWLINE, true, 0, 0 }, + { "DRAWPOINT", W100Driver::DRAWPOINT, true, 0, 0 }, + { "DRAWPOINTS", W100Driver::DRAWPOINTS, true, 0, 0 }, + { "FILLRECT", W100Driver::FILLRECT, true, 0, 0 }, + { "SCROLL", W100Driver::SCROLL, true, 0, 0 }, + { "BITBLT", W100Driver::BITBLT, true, 0, 0 }, + { "POLYLINE", W100Driver::POLYLINE, true, 0, 0 }, + { "" , W100Driver::EOO, false, 0, 0 } +}; + +W100Driver driver; + +class QW100Screen; +static QW100Screen *qt_w100_screen = 0; + +class QW100Screen : public QLinuxFbScreen { +public: + class HWSurface { + public: + HWSurface( void ): + m_handle( 0 ), + m_offset( 0 ), + m_addr( 0 ), + m_size( 0 ), + m_internal( false ), + m_clientid( -1 ) {}; + HWSurface( unsigned short handle, + uint32_t sOffset, + unsigned char *localAddr, + int amount, + bool internal, + int clientid ): + m_handle( handle ), + m_offset( sOffset ), + m_addr( localAddr ), + m_size( amount ), + m_internal( internal ), + m_clientid( clientid ) {}; + HWSurface( uint32_t sOffset, + unsigned char *localAddr, + bool internal, + int amount ): + m_handle( 0 ), + m_offset( sOffset ), + m_addr( localAddr ), + m_size( amount ), + m_internal( internal ), + m_clientid( -1 ) {}; + bool operator!=( HWSurface &other ) { + return( m_offset == other.getSOffset() ); + }; + HWSurface &operator=( const HWSurface &c ) { + m_handle = c.getHandle(); + m_offset = c.getSOffset(); + m_addr = c.getAddr(); + m_size = c.getSize(); + m_clientid= c.getCId(); + m_internal = c.internal(); + return( *this ); + }; + unsigned short getHandle( void ) const { return m_handle; }; + uint32_t getSOffset( void ) const { return m_offset; }; + unsigned char *getAddr( void ) const { return m_addr; }; + unsigned int getSize( void ) const { return m_size; }; + int getCId( void ) const { return m_clientid; }; + bool internal( void ) const { return m_internal; }; + + private: + unsigned short m_handle; + uint32_t m_offset; + unsigned char *m_addr; + int m_size; + bool m_internal; + int m_clientid; + }; + + QW100Screen( int display_id ); + virtual ~QW100Screen(); + virtual bool connect( const QString &spec ); + virtual void disconnect( void ); + virtual bool initDevice(); + virtual void shutdownDevice(); + virtual void restore(); + virtual bool useOffscreen() { return true; } + virtual QGfx * createGfx( unsigned char *, int, int, int, int); + virtual uchar *cache( int amount, int optim ); + virtual void uncache( uchar *c ); + virtual bool onCard( unsigned char *p ) const; + virtual bool onCard( unsigned char *p, ulong& offset ) const; + QMap< uchar*, HWSurface > *getPSurfaceMap( void ) const; + void clearCache( int clientId ); + + // Suspend/resume hooks + virtual void prepareToSuspend(); + virtual void prepareToResume(); + // Rotation stuff + enum Transformation { None, Rot90, Rot180, Rot270 }; + void setTransformation( Transformation t ); + Transformation transformation() const; + virtual bool isTransformed() const { return trans != None; }; + virtual QSize mapToDevice( const QSize & ) const; + virtual QSize mapFromDevice( const QSize & ) const; + virtual QPoint mapToDevice( const QPoint &, const QSize & ) const; + virtual QPoint mapFromDevice( const QPoint &, const QSize & ) const; + virtual QRect mapToDevice( const QRect &, const QSize & ) const; + virtual QRect mapFromDevice( const QRect &, const QSize & ) const; + virtual QImage mapToDevice( const QImage & ) const; + virtual QImage mapFromDevice( const QImage & ) const; + virtual QRegion mapToDevice( const QRegion &, const QSize & ) const; + virtual QRegion mapFromDevice( const QRegion &, const QSize & ) const; + virtual int transformOrientation() const; + +protected: + bool w100init(); + void w100shutdown(); + Transformation trans; + static Transformation getTransSpec( const QString &dspec ); + static void clearCache( QScreen *instance, int clientId ); + QMap< uchar*, HWSurface > surfaceMap; + int vramoffset; + bool m_isServer; + virtual int pixmapLinestepAlignment() { return 128; } +}; + +template +class QGfxW100 : public QGfxRaster { + +public: + QGfxW100( unsigned char *b, int w, int h ); + virtual void drawLine( int, int, int, int); + virtual void fillRect( int, int, int, int); + virtual void blt( int, int, int, int, int, int ); + virtual void sync(); + virtual void setOffset( int x, int y ); + virtual void setPen( const QPen & p ); + + virtual void drawPolyline( const QPointArray &, int, int ); + virtual void drawPolygon( const QPointArray &, bool, int, int ); + virtual void drawPoint( int, int ); + virtual void drawPoints( const QPointArray &, int, int ); + virtual void scroll( int, int, int, int, int, int ); + virtual void tiledBlt( int rx, int ry, int w, int h ); + + inline int tx( int x, int y ) { + switch ( qt_w100_screen->transformation() ) { + case QW100Screen::Rot90: + return y - this->xoffs + this->yoffs; + case QW100Screen::Rot180: + return ( this->width - x - 1) - this->xoffs - this->xoffs; + case QW100Screen::Rot270: + return ( this->height - y - 1) - this->xoffs - this->yoffs; + default: + return x; + } + } + inline int ty( int x, int y ) { + switch ( qt_w100_screen->transformation() ) { + case QW100Screen::Rot90: + return (this->width - x - 1) - this->yoffs - this->xoffs; + case QW100Screen::Rot180: + return (this->height - y - 1) - this->yoffs - this->yoffs; + case QW100Screen::Rot270: + return x - this->yoffs + this->xoffs; + default: + return y; + } + } + +protected: + bool checkDest( bool setsrc = false ); + bool checkSourceDest(); + virtual void setSourceWidgetOffset( int x, int y ); + void processSpans( int n, QPoint* point, int* width ); + bool inDraw; + + virtual void dDrawLine( int, int, int, int); + virtual void dFillRect( int, int, int, int); + virtual void dBlt( int, int, int, int, int, int ); + void dDrawPolyline( const QPointArray &, int, int ); + void dDrawPolygon( const QPointArray &, bool, int, int ); + void dDrawPoint( int, int ); + void dDrawPoints( const QPointArray &, int, int ); + void dScroll( int, int, int, int, int, int ); + void dTiledBlt( int rx, int ry, int w, int h ); +}; + +template +QGfxW100::QGfxW100( unsigned char * b, int w, int h ) + : QGfxRaster(b, w, h), + inDraw( false ) +{ +} + +template +inline void QGfxW100::setOffset( int x, int y ) +{ + QGfxRaster::setOffset( x, y ); +} + +namespace { + QString penStyleStr( const QPen &pen ) + { + QString res; + switch( pen.style() ) { + case Qt::NoPen: + res = "NoPen"; + break; + case Qt::SolidLine: + res = "SolidLine"; + break; + case Qt::DashLine: + res = "DashLine"; + break; + case Qt::DotLine: + res = "DotLine"; + break; + case Qt::DashDotLine: + res = "DashDotLine"; + break; + case Qt::DashDotDotLine: + res = "DashDotDotLine"; + break; + default: + res = "Unknown"; + } + return res; + } +} + +template +inline void QGfxW100::setPen( const QPen &p ) +{ + QGfxRaster::setPen( p ); +} + +template +inline bool QGfxW100::checkSourceDest() +{ + if ( !checkDest() ) { + return FALSE; + } + + int sourcepixelpitch; + ulong src_buffer_offset; + if ( this->srctype == this->SourcePen ) { + src_buffer_offset = -1; + return FALSE; + } else { + if ( !qt_screen->onCard( this->srcbits, src_buffer_offset ) ) { + return FALSE; + } + sourcepixelpitch = ( this->srclinestep * 8 ) / this->srcdepth; + driver.setSrcPitchOffset( sourcepixelpitch, + src_buffer_offset ); + } + return TRUE; +} + +template< const int depth, const int type> +inline bool QGfxW100::checkDest( bool setsrc ) +{ + //Main framebuffer should be registered as a hardware surface + ulong buffer_offset; + if ( !qt_screen->onCard( this->buffer, buffer_offset ) ) { + return FALSE; + } + int pixelstep = ( this->linestep() * 8 ) / depth; + driver.setDstPitchOffset( pixelstep, buffer_offset ); + if ( setsrc ) { + driver.setSrcPitchOffset( pixelstep, buffer_offset ); + } + return TRUE; +} + +template +void QGfxW100::drawLine( int x1, int y1, int x2, int y2 ) +{ + if ( inDraw ) { + dDrawLine( x1, y1, x2, y2 ); + } else { + inDraw = true; + dDrawLine( tx(x1,y1), ty(x1,y1), + tx(x2,y2), ty(x2,y2) ); + inDraw = false; + } +} + +template +void QGfxW100::dDrawLine( int x1, int y1, int x2, int y2 ) +{ + if ( ( this->ncliprect < 1) || + ( this->cpen.style() == this->NoPen ) ) { + return; + } + + if ( depth != 16 || + !driver.accelerated( W100Driver::DRAWLINE ) ) { + driver.addMiss( W100Driver::DRAWLINE ); + QGfxRaster::drawLine( x1, y1, x2, y2 ); + return; + } + + // Only handle 'normal' lines + if ( ( this->cpen.style() != this->SolidLine ) || + ( this->myrop != this->CopyROP ) || + ( this->cpen.width() > 1 ) || + ( this->dashedLines ) ) { + driver.addMiss( W100Driver::DRAWLINE ); + QGfxRaster::drawLine( x1, y1, x2, y2); + return; + } + + // Stop anyone else trying to access optype/lastop/the graphics engine + // to avoid synchronization problems with other processes + QWSDisplay::grab( true ); + if ( !checkDest() ) { + QWSDisplay::ungrab(); + driver.addMiss( W100Driver::DRAWLINE ); + QGfxRaster::drawLine( x1, y1, x2, y2 ); + return; + } + + + // Note that the last operation used the 2d engine + ( *optype ) = 1; + + // Add the offset of the gfx - used to make the origin the right + // place for windows + x1 += this->xoffs; + y1 += this->yoffs; + x2 += this->xoffs; + y2 += this->yoffs; + + QRect boundRect( x1 < x2 ? x1: x2, + y1 < y2 ? y1 : y2, + QABS( x2 - x1 ) + 1, + QABS( y2 - y1 ) + 1 ); + + GFX_START( boundRect ); + + // The clip region is defined as a series of rectangles + // We repeatedly set up the hardware clip rectangle to one of + // these rectangles and re-draw the line - an alternative approach + // would be to clip to the rectangle in software + + driver.setDstType( DSTTYPE_16BPP_1555 ); + driver.setSrcType( SRCTYPE_EQU_DST ); + driver.setRopOperation( ROP3_PATCOPY ); + driver.brushType( 6, 0 ); + driver.setFrgColour( this->cpen.color().rgb() ); + driver.addHit( W100Driver::DRAWLINE ); + + //The imageon seems not to write on the edge of the clip + //for the polyline op. + //We are using a three points array repeating the last point + //to get the last single point painted. + ATI_POINT points[3]; + points[0].XCoord = x1; + points[0].YCoord = y1; + points[1].XCoord = x2; + points[1].YCoord = y2; + points[2].XCoord = x2; + points[2].YCoord = y2; + for ( int loopc = 0; loopc < this->ncliprect; loopc++ ) { + if ( boundRect.intersects( this->cliprect[loopc] ) ) { + ATI_CLIPRECT clip; + clip.X_Top_Left = this->cliprect[loopc].x(); + clip.Y_Top_Left = this->cliprect[loopc].y(); + clip.X_Bottom_Right = this->cliprect[loopc].right() + 1; + clip.Y_Bottom_Right = this->cliprect[loopc].bottom() + 1; + driver.setDstClippingRect( &clip ); + driver.polyline( 3, points ); + } + } + + // Software mouse cursor stuff + GFX_END; + + // Release display again - not doing so will cause Qt/Embedded applications + // to deadlock + QWSDisplay::ungrab(); +} + +template< const int depth, const int type > +void QGfxW100< depth, type>::drawPolyline( const QPointArray &a, + int index, + int npoints ) +{ + if ( inDraw ) { + dDrawPolyline( a, index, npoints ); + } else { + inDraw = true; + QPointArray na( npoints ); + + for ( int i = 0; i < npoints; i++ ) { + int x, y; + a.point( i+index, &x, &y ); + na.setPoint( i, tx(x,y), ty(x,y) ); + } + + dDrawPolyline( na, 0, npoints ); + inDraw = false; + } +} + +template< const int depth, const int type > +void QGfxW100< depth, type>::dDrawPolyline( const QPointArray &a, + int index, + int npoints ) +{ + if ( ( this->ncliprect < 1 ) || + ( npoints < 1 ) || + ( this->cpen.style() == this->NoPen ) ) { + return; + } + + if ( depth != 16 || + !driver.accelerated( W100Driver::POLYLINE ) ) { + driver.addMiss( W100Driver::POLYLINE ); + QGfxRaster::drawPolyline( a, index, npoints ); + return; + } + + if ( this->cpen.style() != this->SolidLine || + this->myrop != this->CopyROP ) { + driver.addMiss( W100Driver::POLYLINE ); + QGfxRaster::drawPolyline( a, index, npoints ); + return; + } + + QWSDisplay::grab( TRUE ); + if ( !checkDest() ) { + QWSDisplay::ungrab(); + driver.addMiss( W100Driver::POLYLINE ); + QGfxRaster::drawPolyline( a, index, npoints ); + return; + } + + ( *optype ) = 1; + + driver.setDstType( DSTTYPE_16BPP_1555 ); + driver.setSrcType( SRCTYPE_EQU_DST ); + driver.setRopOperation( ROP3_PATCOPY ); + driver.brushType( 6, 0 ); + driver.setFrgColour( this->cpen.color().rgb() ); + + driver.addHit( W100Driver::POLYLINE ); + + ATI_POINT *points = new ATI_POINT[ npoints + 1 ]; + + for ( int i = 0; i < npoints; i++ ) { + points[i].XCoord = a[i+index].x() + this->xoffs; + points[i].YCoord = a[i+index].y() + this->yoffs; + } + //Hack to get the last point of the last line painted + points[ npoints ] = points[ npoints - 1 ]; + + + GFX_START( clipbounds ); + driver.setFrgColour( this->cpen.color().rgb() ); + driver.setRopOperation( ROP3_PATCOPY ); + for ( int loopc = 0; loopc < this->ncliprect; loopc++ ) { + ATI_CLIPRECT clip; + clip.X_Top_Left = this->cliprect[loopc].x(); + clip.Y_Top_Left = this->cliprect[loopc].y(); + clip.X_Bottom_Right = this->cliprect[loopc].right() + 1; + clip.Y_Bottom_Right = this->cliprect[loopc].bottom() + 1; + driver.setDstClippingRect( &clip ); + driver.polyline( npoints + 1, points ); + } + GFX_END; + + delete [] points; + + QWSDisplay::ungrab(); +} + + +template< const int depth, const int type > +void QGfxW100< depth, type>::drawPolygon( const QPointArray &a, + bool w, int index, + int npoints ) +{ + if ( inDraw || this->cpen.style()==this->NoPen || this->patternedbrush ) { + //slowpath + dDrawPolygon( a, w, index, npoints ); + } else { + inDraw = TRUE; + QPointArray na( npoints ); + + for ( int i = 0; i < npoints; i++ ) { + int x,y; + a.point( i+index, &x, &y ); + na.setPoint( i, tx(x,y), ty(x,y) ); + } + dDrawPolygon( na, w, 0, npoints ); + inDraw = FALSE; + } +} + +template< const int depth, const int type > +void QGfxW100< depth, type>::dDrawPolygon( const QPointArray &a, bool w, int index, int npoints ) +{ + QGfxRaster::drawPolygon( a, w, index, npoints ); +} + +template< const int depth, const int type > +void QGfxW100< depth, type>::drawPoint( int x, int y ) +{ + dDrawPoint( tx( x, y ), ty( x, y ) ); +} + +template< const int depth, const int type > +void QGfxW100< depth, type>::dDrawPoint( int x, int y ) +{ + + if ( this->ncliprect < 1 ) { + return; + } + + if ( depth != 16 || + !driver.accelerated( W100Driver::DRAWPOINT) ) { + driver.addMiss( W100Driver::DRAWPOINT ); + QGfxRaster::drawPoint( x, y ); + return; + } + + if ( this->cpen.style() != this->SolidLine || + this->myrop != this->CopyROP ) { + driver.addMiss( W100Driver::DRAWPOINT ); + QGfxRaster::drawPoint( x, y ); + return; + } + + QWSDisplay::grab( TRUE ); + if ( !checkDest() ) { + QWSDisplay::ungrab(); + driver.addMiss( W100Driver::DRAWPOINT ); + QGfxRaster::drawPoint( x, y ); + return; + } + + driver.addHit( W100Driver::DRAWPOINT ); + ( *optype ) = 1; + + ATI_POINT point; + point.XCoord = x + this->xoffs; + point.YCoord = y + this->yoffs; + + GFX_START( clipbounds ); + driver.setFrgColour( this->cpen.color().rgb() ); + driver.setRopOperation( ROP3_PATCOPY ); + for ( int loopc = 0; loopc < this->ncliprect; loopc++ ) { + ATI_CLIPRECT clip; + clip.X_Top_Left = this->cliprect[loopc].x(); + clip.Y_Top_Left = this->cliprect[loopc].y(); + clip.X_Bottom_Right = this->cliprect[loopc].right() + 1; + clip.Y_Bottom_Right = this->cliprect[loopc].bottom() + 1; + driver.setDstClippingRect( &clip ); + driver.drawPixel( 1, &point ); + } + GFX_END; + QWSDisplay::ungrab(); +} + +template< const int depth, const int type > +void QGfxW100< depth, type>::drawPoints( const QPointArray &a, + int index, + int npoints ) +{ + QPointArray na( npoints ); + + for ( int i = 0; i < npoints; i++ ) { + int x, y; + a.point( i+index, &x, &y ); + na.setPoint( i, tx( x, y ), ty( x, y ) ); + } + + dDrawPoints( na, 0, npoints ); +} + +template< const int depth, const int type > +void QGfxW100< depth, type>::dDrawPoints( const QPointArray &a, + int index, + int npoints ) +{ + if ( ( this->ncliprect < 1 ) || ( npoints < 1 ) ) { + return; + } + + if ( depth != 16 || + !driver.accelerated( W100Driver::DRAWPOINTS ) ) { + driver.addMiss( W100Driver::DRAWPOINTS ); + QGfxRaster::drawPoints( a, index, npoints ); + return; + } + + if ( this->cpen.style() != this->SolidLine || + this->myrop != this->CopyROP ) { + driver.addMiss( W100Driver::DRAWPOINTS ); + QGfxRaster::drawPoints( a, index, npoints ); + return; + } + + QWSDisplay::grab( TRUE ); + if ( !checkDest() ) { + QWSDisplay::ungrab(); + driver.addMiss( W100Driver::DRAWPOINTS ); + QGfxRaster::drawPoints( a, index, npoints ); + return; + } + + driver.addHit( W100Driver::DRAWPOINTS ); + ( *optype ) = 1; + + ATI_POINT *points = new ATI_POINT[ npoints ]; + for ( int i = 0; i < npoints; i++ ) { + points[i].XCoord = a[i+index].x() + this->xoffs; + points[i].YCoord = a[i+index].y() + this->yoffs; + } + + GFX_START( clipbounds ); + driver.setFrgColour( this->cpen.color().rgb() ); + driver.setRopOperation( ROP3_PATCOPY ); + for ( int loopc = 0; loopc < this->ncliprect; loopc++ ) { + ATI_CLIPRECT clip; + clip.X_Top_Left = this->cliprect[loopc].x(); + clip.Y_Top_Left = this->cliprect[loopc].y(); + clip.X_Bottom_Right = this->cliprect[loopc].right() + 1; + clip.Y_Bottom_Right = this->cliprect[loopc].bottom() + 1; + driver.setDstClippingRect( &clip ); + driver.drawPixel( npoints, points ); + } + GFX_END; + + delete [] points; + QWSDisplay::ungrab(); +} + +template +void QGfxW100::scroll( int x, int y, int w, int h, int sx, int sy ) +{ + if ( w == 0 || h == 0 ) + return; + QRect r; + QRect s; + if ( inDraw ) { + r = QRect( x, y, w, h ); + s = QRect( sx, sy, w, h ); + } else { + r.setCoords( tx(x,y), ty(x,y), tx(x+w-1,y+h-1), ty(x+w-1,y+h-1) ); + s.setCoords( tx(sx,sy), ty(sx,sy), tx(sx+w-1,sy+h-1), ty(sx+w-1,sy+h-1) ); + r = r.normalize(); + s = s.normalize(); + } + dScroll( r.x(), r.y(), r.width(), r.height(), s.x(), s.y() ); +} + + +template< const int depth, const int type > +void QGfxW100< depth, type>::dScroll( int rx, int ry, + int w, int h, + int sx, int sy ) +{ + if ( depth != 16 || + !driver.accelerated( W100Driver::SCROLL ) ) { + driver.addMiss( W100Driver::SCROLL ); + QGfxRaster::scroll( rx, ry, w, h, sx, sy ); + return; + } + + if ( this->ncliprect < 1 ) return; + + if ( ( w < 1 ) || ( h < 1 ) ) return; + + int dy = sy - ry; + int dx = sx - rx; + + if ( dx == 0 && dy == 0 ) return; + + + QWSDisplay::grab( TRUE ); + + if ( checkDest( true ) ) { + + rx += this->xoffs; + sx += this->xoffs; + ry += this->yoffs; + sy += this->yoffs; + + QRect boundRect( QMIN( rx , sx ), + QMIN( ry , sy ), + w + QABS( dx ) + 1, + h + QABS( dy ) + 1 ); + GFX_START( boundRect ); + ( *optype ) = 1; + + + //if ( driver.lastOp() != W100Driver::SCROLL ) { + driver.setRopOperation( ROP3_SRCCOPY ); + driver.setDstType( DSTTYPE_16BPP_1555 ); + driver.setSrcType( SRCTYPE_EQU_DST ); + //} + + driver.addHit( W100Driver::SCROLL ); + + ATI_RECT srcrect, dstrect; + + srcrect.XCoord = sx; + srcrect.YCoord = sy; + srcrect.Width = w; + srcrect.Height = h; + dstrect.XCoord = rx; + dstrect.YCoord = ry; + dstrect.Width = w; + dstrect.Height = h; + for ( int loopc = 0; loopc < this->ncliprect; loopc++ ) { + if ( boundRect.intersects( this->cliprect[loopc] ) ) { + ATI_CLIPRECT clip; + clip.X_Top_Left = this->cliprect[ loopc ].x(); + clip.Y_Top_Left = this->cliprect[ loopc ].y(); + clip.X_Bottom_Right = this->cliprect[ loopc ].right() + 1; + clip.Y_Bottom_Right = this->cliprect[ loopc ].bottom() + 1; + driver.setDstClippingRect( &clip ); + driver.bitBlt( 1, &dstrect, &srcrect ); + } + } + GFX_END; + QWSDisplay::ungrab(); + + } else { + QWSDisplay::ungrab(); + // software fallback + driver.addMiss( W100Driver::SCROLL ); + QGfxRaster::scroll( rx, ry, w, h, sx, sy ); + } +} + +template< const int depth, const int type > +void QGfxW100< depth, type>::fillRect( int x, int y, int w, int h ) +{ + if ( w == 0 || h == 0 ) + return; + QRect r( x, y, w, h ); + r.setCoords( tx( x, y ), ty( x, y ), + tx( x + w - 1, y + h - 1 ), ty( x + w - 1, y + h - 1 ) ); + r = r.normalize(); + inDraw = TRUE; + dFillRect( r.x(), r.y(), r.width(), r.height() ); + inDraw = FALSE; +} + +template< const int depth, const int type > +void QGfxW100< depth, type>::dFillRect( int rx, int ry, int w, int h ) +{ + if ( w <= 0 || h <= 0 || this->ncliprect < 1 ) return; + + if ( depth != 16 || + !driver.accelerated( W100Driver::FILLRECT ) ) { + driver.addMiss( W100Driver::FILLRECT ); + QGfxRaster::fillRect( rx, ry, w, h ); + return; + } + + if ( ( this->cbrush.style() != this->NoBrush ) && + ( this->cbrush.style() != this->SolidPattern ) ) { + driver.addMiss( W100Driver::FILLRECT ); + QGfxRaster::fillRect( rx, ry, w, h ); + return; + } + + if ( !checkDest() || ( this->myrop != this->CopyROP ) ) { + driver.addMiss( W100Driver::FILLRECT ); + QGfxRaster::fillRect( rx, ry, w, h ); + return; + } + + QWSDisplay::grab( TRUE ); + rx += this->xoffs; + ry += this->yoffs; + + QRect boundRect( rx, ry, w + 1, h + 1 ); + GFX_START( boundRect ); + + ( *optype ) = 1; + + driver.setDstType( DSTTYPE_16BPP_1555 ); + driver.setSrcType( SRCTYPE_EQU_DST ); + driver.setRopOperation( ROP3_PATCOPY ); + driver.brushType( 6, 0 ); + driver.setFrgColour( this->cbrush.color().rgb() ); + + driver.addHit( W100Driver::FILLRECT ); + + if ( this->cbrush.style() != this->NoBrush ) { + //Using all the cliprects + for ( int loopc = 0; loopc < this->ncliprect; loopc++ ) { + if ( boundRect.intersects( this->cliprect[loopc] ) ) { + ATI_CLIPRECT clip; + ATI_RECT rect; + + clip.X_Top_Left = this->cliprect[ loopc ].x(); + clip.Y_Top_Left = this->cliprect[ loopc ].y(); + clip.X_Bottom_Right = this->cliprect[ loopc ].right() + 1; + clip.Y_Bottom_Right = this->cliprect[ loopc ].bottom() + 1; + + driver.setDstClippingRect( &clip ); + rect.XCoord = rx; + rect.YCoord = ry; + rect.Width = w; + rect.Height = h; + driver.paintRect( 1, &rect ); + } + } + } + GFX_END; + + QWSDisplay::ungrab(); +} + +template +void QGfxW100::blt( int x, int y, int w, int h, int sx, int sy ) +{ + if ( w == 0 || h == 0 ) + return; + QRect r; + int rsx; + int rsy; + if ( inDraw ) { + r = QRect( x, y, w, h ); + rsx = sx; + rsy = sy; + } else { + r.setCoords( tx(x,y), ty(x,y), tx(x+w-1,y+h-1), ty(x+w-1,y+h-1) ); + r = r.normalize(); + switch ( qt_w100_screen->transformation() ) { + case QW100Screen::Rot90: + rsx = sy; + rsy = this->srcwidth - sx - w; + break; + case QW100Screen::Rot180: + rsx = this->srcwidth - sx - w; + rsy = this->srcheight - sy - h; + break; + case QW100Screen::Rot270: + rsx = this->srcheight - sy - h; + rsy = sx; + break; + default: + rsx = sx; + rsy = sy; + break; + } + } + dBlt( r.x(), r.y(), r.width(), r.height(), rsx, rsy ); +} + +template< const int depth, const int type > +inline void QGfxW100< depth, type>::dBlt( int rx, int ry, + int w, int h, + int sx, int sy ) +{ + if ( !w || !h || this->ncliprect < 1 ) { + return; + } + + if ( depth != 16 || + !driver.accelerated( W100Driver::BITBLT ) ) { + driver.addMiss( W100Driver::BITBLT ); + QGfxRaster::blt( rx, ry, w, h, sx, sy ); + return; + } + + if ( this->alphatype == this->BigEndianMask || + this->alphatype == this->LittleEndianMask || + this->alphatype == this->SeparateAlpha || + this->srctype == this->SourcePen || + ( this->myrop != this->CopyROP ) ) { + driver.addMiss( W100Driver::BITBLT ); + QGfxRaster::blt( rx, ry, w, h, sx, sy ); + return; + } + + if ( ( this->srcdepth != 16 ) || this->alphatype != this->IgnoreAlpha ) { + driver.addMiss( W100Driver::BITBLT ); + QGfxRaster::blt( rx, ry, w, h, sx, sy ); + return; + } + + QWSDisplay::grab( TRUE ); + + if ( checkSourceDest() ) { + QRect boundRect( rx + this->xoffs, ry + this->yoffs, + w + 1, h + 1 ); + GFX_START( boundRect ); + ( *optype ) = 1; + + driver.setRopOperation( ROP3_SRCCOPY ); + driver.setDstType( DSTTYPE_16BPP_1555 ); + driver.setSrcType( SRCTYPE_EQU_DST ); + + driver.addHit( W100Driver::BITBLT ); + + ATI_RECT rect1; + ATI_RECT rect2; + + rx += this->xoffs; + ry += this->yoffs; + + rect1.XCoord = this->srcwidgetoffs.x() + sx; + rect1.YCoord = this->srcwidgetoffs.y() + sy; + rect1.Width = w; + rect1.Height = h; + rect2.XCoord = rx; + rect2.YCoord = ry; + rect2.Width = w; + rect2.Height = h; + for(int loopc = 0; loopc < this->ncliprect; loopc++ ) { + if ( boundRect.intersects( this->cliprect[loopc] ) ) { + ATI_CLIPRECT clip; + clip.X_Top_Left = this->cliprect[ loopc ].x(); + clip.Y_Top_Left = this->cliprect[ loopc ].y(); + clip.X_Bottom_Right = this->cliprect[ loopc ].right() + 1; + clip.Y_Bottom_Right = this->cliprect[ loopc ].bottom() + 1; + driver.setDstClippingRect( &clip ); + driver.bitBlt( 1, &rect2, &rect1 ); + } + } + GFX_END; + + QWSDisplay::ungrab(); + return; + } else { + QWSDisplay::ungrab(); + driver.addMiss( W100Driver::BITBLT ); + QGfxRaster::blt( rx, ry, + w, h, sx, sy ); + } +} + + +template +void QGfxW100::tiledBlt( int rx,int ry,int w,int h ) +{ + if ( w <= 0 || h <= 0 ) + return; + QRect r; + if ( inDraw ) { + r = QRect(rx,ry,w,h); + } else { + r.setCoords( tx(rx,ry), ty(rx,ry), tx(rx+w-1,ry+h-1), ty(rx+w-1,ry+h-1) ); + r = r.normalize(); + } + + inDraw = TRUE; + + QPoint oldBrushOffs = this->brushoffs; + int brx, bry; + switch ( qt_w100_screen->transformation() ) { + case QW100Screen::Rot90: + brx = this->brushoffs.y(); + bry = this->srcwidth - this->brushoffs.x() - w; + break; + case QW100Screen::Rot180: + brx = this->srcwidth - this->brushoffs.x() - w; + bry = this->srcheight - this->brushoffs.y() - h; + break; + case QW100Screen::Rot270: + brx = this->srcheight - this->brushoffs.y() - h; + bry = this->brushoffs.x(); + break; + default: + brx = this->brushoffs.x(); + bry = this->brushoffs.y(); + break; + } + this->brushoffs = QPoint( brx, bry ); + + int oldsw = this->srcwidth; + int oldsh = this->srcheight; + QSize s = qt_screen->mapToDevice( QSize(this->srcwidth,this->srcheight) ); + this->srcwidth = s.width(); + this->srcheight = s.height(); + + dTiledBlt( r.x(), r.y(), r.width(), r.height() ); + + this->srcwidth = oldsw; + this->srcheight = oldsh; + this->brushoffs = oldBrushOffs; + inDraw = FALSE; +} + + +template +void QGfxW100::dTiledBlt( int rx,int ry, int w,int h ) +{ + if ( this->srcwidth == 0 || this->srcheight == 0 ) + return; + QGfxRaster::tiledBlt( rx, ry, w, h ); +} + +template +void QGfxW100::sync() +{ + driver.waitComplete( -1 ); +} + +template +void QGfxW100::setSourceWidgetOffset(int x, int y) +{ + if ( this->srcbits == this->buffer ) { + switch ( qt_w100_screen->transformation() ) { + case QW100Screen::Rot90: + this->srcwidgetoffs = QPoint( y, this->width - x - this->srcwidth ); + break; + case QW100Screen::Rot180: + this->srcwidgetoffs = QPoint( this->width - x - this->srcwidth, this->height - y - this->srcheight ); + break; + case QW100Screen::Rot270: + this->srcwidgetoffs = QPoint( this->height - y - this->srcheight, x ); + break; + default: + this->srcwidgetoffs = QPoint( x, y ); + break; + } + } else { + this->srcwidgetoffs = QPoint( x, y ); + } +} + +template +void QGfxW100::processSpans( int n, QPoint* point, int* width ) +{ + if ( inDraw || + this->patternedbrush && + this->srcwidth != 0 && + this->srcheight != 0 ) { + //in the patternedbrush case, we let blt do the transformation + // so we leave inDraw false. + QGfxRaster::processSpans( n, point, width ); + } else { + inDraw = true; + while (n--) { + if ( *width > 0 ) { + int x=tx(point->x(),point->y())+this->xoffs; + int y=ty(point->x(),point->y())+this->yoffs; + + switch( qt_w100_screen->transformation() ) { + case QW100Screen::Rot90: + this->vline( x, y-(*width-1), y ); + break; + case QW100Screen::Rot180: + this->hline( x - (*width-1), x, y ); + break; + case QW100Screen::Rot270: + this->vline( x, y, y+*width-1 ); + break; + default: + this->hline( x, x+*width-1, y ); + break; + } + } + point++; + width++; + } + inDraw = false; + } +} + +QW100Screen::QW100Screen( int display_id ) + :QLinuxFbScreen( display_id ), + vramoffset( 0 ), + m_isServer( false ) +{ + qt_w100_screen = this; + vramoffset = 0; + clearCacheFunc = &clearCache; + trans = None; +} + +static const char *trans2str( QW100Screen::Transformation t ) +{ + switch( t ) { + case QW100Screen::None: + return "None"; + break; + case QW100Screen::Rot90: + return "Rot90"; + break; + case QW100Screen::Rot180: + return "Rot180"; + break; + case QW100Screen::Rot270: + return "Rot270"; + break; + default: + return "Unknown"; + break; + } +} + +QW100Screen::Transformation QW100Screen::getTransSpec( const QString &dspec ) +{ + Transformation mytrans = None; + if ( dspec.find( ":Rot270" ) >= 0 ) { + mytrans = Rot270; + } else if ( dspec.find( ":Rot180" ) >= 0 ) { + mytrans = Rot180; + } else if ( dspec.find( ":Rot90" ) >= 0 ) { + mytrans = Rot90; + } + return mytrans; +} + +bool QW100Screen::connect( const QString &displaySpec ) +{ + driver.log( W100Driver::WARNING, "QW100Screen::connect('%s')", + displaySpec.latin1() ); + trans = getTransSpec( displaySpec ); + + if ( QLinuxFbScreen::connect( displaySpec ) ) { + vramoffset = ( w == 320 ) ? 0 : 0x0f000000; + if ( driver.processAttach() == W100Driver::codOK ) { + driver.processAttachSpecialMode( ( w == 480 ) ? 0xaaab : 0xaaaa ); + surfaceMap.clear(); + surfaceMap.insert( 0, HWSurface( vramoffset, + data , false, + w*h*d/8 ) ); + canaccel = true; + QSize s = mapFromDevice( QSize( w, h ) ); + w = s.width(); + h = s.height(); + return true; + } + } + return false; +} + +void QW100Screen::disconnect( void ) +{ + driver.log( W100Driver::WARNING, "QW100Screen::disconnect()" ); + driver.processDetachSpecialMode(); + driver.processDetach(); + QLinuxFbScreen::disconnect(); + printf( "[%d]QW100Screen disconnected with %d surfaces\n", + getpid(), surfaceMap.count() ); + surfaceMap.clear(); +} + +void QW100Screen::prepareToSuspend( void ) +{ + + driver.log( W100Driver::WARNING, + "QW100Screen::prepareToSuspend. Server = %s", + m_isServer ? "true" : "false" ); + + QWSDisplay::grab( true ); + driver.waitComplete( -1 ); + + if ( !driver.attached() ) { + driver.log( W100Driver::ERROR, "Driver was not attached. " ); + } else { + driver.processDetachSpecialMode(); + driver.processDetach(); + } + QWSDisplay::ungrab(); + + driver.log( W100Driver::WARNING, "prepareToSuspend done" ); + +} + +void QW100Screen::prepareToResume( void ) +{ + + driver.log( W100Driver::WARNING, + "QW100Screen::prepareToResume. Server = %s", + m_isServer ? "true": "false" ); + + driver.processAttach(); + driver.processAttachSpecialMode( ( w == 480 ) ? 0xaaab : 0xaaaa ); + if ( m_isServer ) { + QWSDisplay::grab( true ); + w100init(); + QWSDisplay::ungrab(); + driver.log( W100Driver::WARNING, "W100 restarted" ); + } + driver.log( W100Driver::WARNING, "prepareToResume done" ); + +} + +QW100Screen::~QW100Screen() +{ +} + +bool QW100Screen::w100init() +{ + driver.log( W100Driver::WARNING, + "QW100Screen::w100init(%dx%d)", dw, dh ); + ATI_GRAPHICWINDOW win; + ATI_CLIPRECT clip; + uint16_t overlay; + + win.dummy1 = 0; + win.Size.XCoord = 0; + win.Size.YCoord = 0; + win.Size.Width = dw; + win.Size.Height = dh; + win.Width = dw > dh ? dh : dw; + win.Height = dw > dh ? dw : dh; + win.Flag = DSTTYPE_16BPP_444; + + driver.waitComplete( -1 ); + driver.setGraphicWindowOnOff( 0 ); + + driver.setupGraphicWindow( &win ); + driver.setGraphicWindowPos( 0, 0 ); + + driver.setFrontBuffer( vramoffset, 0, 0 ); + driver.setDstPitchOffset( dw, vramoffset ); + driver.setDstType( DSTTYPE_16BPP_444 ); + driver.setSrcPitchOffset( dw, vramoffset ); + driver.setSrcType( SRCTYPE_SOLID_COLOR_BLT ); + clip.X_Top_Left = 0; + clip.Y_Top_Left = 0; + clip.X_Bottom_Right = dw; + clip.Y_Bottom_Right = dh; + driver.setDstClippingRect( &clip ); + + clip.X_Top_Left = 0xE000; + clip.Y_Top_Left = 0xE000; + clip.X_Bottom_Right = 0x1FFF; + clip.Y_Bottom_Right = 0x1FFF; + + driver.setSrcClippingRect( &clip ); + + driver.setRopOperation( ROP3_SRCCOPY ); + driver.setGraphicWindowOnOff( 1 ); + driver.allocOverlay( &overlay ); + driver.setOverlayOnOff( overlay, 0 ); + driver.releaseOverlay( overlay ); + driver.setDstPitchOffset( dw, vramoffset ); + driver.setDstClippingRect( NULL ); + for ( int i = 0; i < dw * dh ; i++ ) { + *( data + i ) = 0; + } + driver.waitComplete( -1 ); + return true; +} + +void QW100Screen::w100shutdown() +{ +} + +bool QW100Screen::initDevice() +{ + QWSDisplay::grab( true ); + driver.log( W100Driver::WARNING, "initDevice( dw=%d, dh=%d )", + dw, dh ); + m_isServer = true; + + if ( !w100init() ) { + QWSDisplay::ungrab(); + return false; + } + + if ( QLinuxFbScreen::initDevice() ) { + //HACK + //Some sprite corruption seems to be avoided + //reserving some upper memory on the offscreen framebuffer memory + QLinuxFbScreen::cache( 65535 * 2, 0 ); + QWSDisplay::ungrab(); + return true; + } + QWSDisplay::ungrab(); + return false; +} + +void QW100Screen::shutdownDevice() +{ + driver.log( W100Driver::WARNING, "Shutting down device" ); + QLinuxFbScreen::shutdownDevice(); +} + +void QW100Screen::restore() +{ + driver.log( W100Driver::WARNING, "Restoring W100..." ); + QLinuxFbScreen::restore(); + driver.log( W100Driver::WARNING, "Restoring done" ); +} + + +QGfx *QW100Screen::createGfx( unsigned char *b, + int w, int h, int d, int linestep ) +{ + //We need ALL the gfx created to be QGfxW100 to allow software + //drawing syncing after hardware operations + QGfx * ret=0; + if ( false ) { +#ifndef QT_NO_QWS_DEPTH_1 + } else if ( d == 1 ) { + ret = new QGfxW100<1,0>( b, w, h ); +#endif +#ifndef QT_NO_QWS_DEPTH_4 + } else if ( d == 4 ) { + ret = new QGfxW100<4,0>( b, w, h ); +#endif +#ifndef QT_NO_QWS_DEPTH_8 + } else if ( d == 8 ) { + ret = new QGfxW100<8,0>( b, w, h ); +#endif +#ifndef QT_NO_QWS_DEPTH_16 + } else if ( d == 16 ) { + ret = new QGfxW100<16,0>( b, w, h ); +#endif +#ifndef QT_NO_QWS_DEPTH_24 + } else if ( d == 24 ) { + ret = new QGfxW100<24,0>( b, w, h ); +#endif +#ifndef QT_NO_QWS_DEPTH_32 + } else if ( d == 32 ) { + ret = new QGfxW100<32,0>( b, w, h ); +#endif + } else { + qFatal( "Unsupported depth %d\n", d ); + ret = 0; + } + + ret->setLineStep( linestep ); + return ret; +} + + +uchar *QW100Screen::cache( int amount, int optim ) +{ + unsigned short hSurface = 0; + uint32_t surfaceOffset = 0; + uchar* localAddr = 0; + bool internal = false; + + /* The size must have 0xF bit zeroed (16 multiple)*/ + /* Perhaps this is not needed anymore, after setting + * QW100Screen::pixmapLinestepAlignment to 128 + */ + amount = ( amount & 0x0F ) ? ( amount | 0x10 ) & ~0x0F : amount; + + /* Experimenting memory corruption with the + * internal AtiCore memory allocation routines + * disabled for now + */ +#if 1 + if ( !( localAddr = QLinuxFbScreen::cache( amount, optim ) ) ) { + return( 0 ); + } + surfaceOffset = vramoffset + ( uint32_t ) localAddr - ( uint32_t )data; + +#else + int retcode = 0; + qt_fbdpy->grab( true ); + retcode = driver.allocateSurface( &hSurface, + &surfaceOffset, + amount, 1 ); + qt_fbdpy->ungrab(); + if ( retcode ) { + internal = true; + driver.setupMemoryTransfer( surfaceOffset, + (uint32_t*) &localAddr ); + driver.terminateMemoryTransfer(); + } else { + // Try to use the offscreen framebuffer memory + // to allocate the surface. Use the qgfxlinuxfb routines + if ( !( localAddr = QLinuxFbScreen::cache( amount, optim ) ) ) { + return( 0 ); + } + //Distance between physical vram start and surface should be + //the same than distance between logical addresses + surfaceOffset = vramoffset + ( uint32_t ) localAddr - ( uint32_t ) data; + } +#endif + + HWSurface surface( hSurface, surfaceOffset, + localAddr, amount, + internal, + qws_client_id ); + surfaceMap.insert( surface.getAddr(), surface ); + return( ( uchar* ) localAddr ); +} + +void QW100Screen::uncache( uchar *c ) +{ + QMap< uchar*, HWSurface >::Iterator itr; + if ( ( itr = surfaceMap.find( c ) ) != surfaceMap.end() ) { + driver.waitComplete( -1 ); + if ( itr.data().internal() ) { + qt_fbdpy->grab( true ); + driver.destroySurface( itr.data().getHandle() ); + qt_fbdpy->ungrab(); + } else { + QLinuxFbScreen::uncache( c ); + } + surfaceMap.remove( itr ); + } +} + +bool QW100Screen::onCard( uchar *p ) const +{ + QMap< uchar*, HWSurface >::ConstIterator itr = surfaceMap.begin(); + for ( ; itr != surfaceMap.end(); itr++ ) { + uchar *begin; + if ( ( begin = itr.data().getAddr() ) <= p ) { + if ( ( itr.data().getSize() + begin ) >= p ) { + return TRUE; + } + } + } + return FALSE; +} + +bool QW100Screen::onCard( unsigned char *p, ulong& offset ) const +{ + QMap< uchar*, HWSurface >::ConstIterator itr; + for ( itr = surfaceMap.begin(); itr != surfaceMap.end(); itr++ ) { + uchar *begin; + if ( ( begin = itr.data().getAddr() ) <= p ) { + if ( ( itr.data().getSize() + begin ) >= p ) { + offset = itr.data().getSOffset() + ( p - begin ); + return TRUE; + } + } + } + return FALSE; +} + +QMap< uchar*, QW100Screen::HWSurface > +*QW100Screen::getPSurfaceMap( void ) const +{ + return ( QMap *) &surfaceMap; +} + +void QW100Screen::clearCache( int clientId ) +{ + printf( "[%d] CLEARING CACHE FOR %d\n", getpid(), clientId ); + driver.log( W100Driver::WARNING, "Cleaning cache for '%d'", clientId ); + QMap< uchar*, HWSurface >::Iterator itr = surfaceMap.begin(); + while ( itr != surfaceMap.end() ) { + if ( itr.data().getCId() == clientId ) { + if ( itr.data().internal() ) { + qt_fbdpy->grab(); + driver.destroySurface( itr.data().getHandle() ); + qt_fbdpy->ungrab(); + } + surfaceMap.remove( itr ); + } + itr++; + } + QLinuxFbScreen::clearCache( this, clientId ); +} + +void QW100Screen::clearCache( QScreen *instance, int clientId ) +{ + QW100Screen *screen = reinterpret_cast ( instance ); + screen->clearCache( clientId ); +} + +void QW100Screen::setTransformation( Transformation t ) +{ + qt_fbdpy->grab( true ); + trans = t; + + QSize s = mapFromDevice( QSize( dw,dh ) ); + w = s.width(); + h = s.height(); + qt_fbdpy->ungrab(); +} + +QW100Screen::Transformation QW100Screen::transformation( void ) const +{ + return trans; +} + +QSize QW100Screen::mapToDevice( const QSize &s ) const +{ + if ( trans == Rot90 || trans == Rot270 ) { + return QSize( s.height(), s.width() ); + } + + return s; +} + +QSize QW100Screen::mapFromDevice( const QSize &s ) const +{ + if ( trans == Rot90 || trans == Rot270 ) { + return QSize( s.height(), s.width() ); + } + + return s; +} + +QPoint QW100Screen::mapToDevice( const QPoint &p, const QSize &s ) const +{ + QPoint rp( p ); + + switch ( trans ) { + case Rot90: + rp.setX( p.y() ); + rp.setY( s.width() - p.x() - 1 ); + break; + case Rot180: + rp.setX( s.width() - p.x() - 1 ); + rp.setY( s.height() - p.y() - 1 ); + break; + case Rot270: + rp.setX( s.height() - p.y() - 1 ); + rp.setY( p.x() ); + break; + default: + break; + } + + return rp; +} + +QPoint QW100Screen::mapFromDevice( const QPoint &p, const QSize &s ) const +{ + QPoint rp( p ); + + switch ( trans ) { + case Rot90: + rp.setX( s.height() - p.y() - 1 ); + rp.setY( p.x() ); + break; + case Rot180: + rp.setX( s.width() - p.x() - 1 ); + rp.setY( s.height() - p.y() - 1 ); + break; + case Rot270: + rp.setX( p.y() ); + rp.setY( s.width() - p.x() - 1 ); + break; + default: + break; + } + + return rp; +} + +QRect QW100Screen::mapToDevice( const QRect &r, const QSize &s ) const +{ + QRect tr; + switch ( trans ) { + case Rot90: + tr.setCoords( r.y(), s.width() - r.x() - 1, + r.bottom(), s.width() - r.right() - 1 ); + break; + case Rot180: + tr.setCoords( s.width() - r.x() - 1, s.height() - r.y() - 1, + s.width() - r.right() - 1, s.height() - r.bottom() - 1 ); + break; + case Rot270: + tr.setCoords( s.height() - r.y() - 1, r.x(), + s.height() - r.bottom() - 1, r.right() ); + break; + default: + tr = r; + break; + } + + return tr.normalize(); +} + +QRect QW100Screen::mapFromDevice( const QRect &r, const QSize &s ) const +{ + QRect tr; + switch ( trans ) { + case Rot90: + tr.setCoords( s.height() - r.y() - 1, r.x(), + s.height() - r.bottom() - 1, r.right() ); + break; + case Rot180: + tr.setCoords( s.width() - r.x() - 1, s.height() - r.y() - 1, + s.width() - r.right() - 1, s.height() - r.bottom() - 1 ); + break; + case Rot270: + tr.setCoords( r.y(), s.width() - r.x() - 1, + r.bottom(), s.width() - r.right() - 1 ); + break; + default: + tr = r; + break; + } + + return tr.normalize(); +} + +template +static inline void rotateLoopTemplate( uchar *src, int srcBytesPerLine, + uchar *dst, int dstBytesPerLine, + int width, int height, + QW100Screen::Transformation trans, + bool mapToDevice ) +{ + int dstXAdd = 0; + int dstYAdd = 0; + int dstXOfs = 0; + int dstYOfs = 0; + int srcYAdd = srcBytesPerLine - width * sizeof(T); + + if ( !mapToDevice ) { + if ( trans == QW100Screen::Rot90 ) + trans = QW100Screen::Rot270; + else if ( trans == QW100Screen::Rot270 ) + trans = QW100Screen::Rot90; + } + + switch ( trans ) { + case QW100Screen::Rot90: + dstXOfs = 0; + dstYOfs = width - 1; + dstXAdd = -dstBytesPerLine; + dstYAdd = 1 * sizeof(T) + width * dstBytesPerLine; + break; + case QW100Screen::Rot270: + dstXOfs = height - 1; + dstYOfs = 0; + dstXAdd = dstBytesPerLine; + dstYAdd = -1 * sizeof(T) - width * dstBytesPerLine; + break; + default: + dstXOfs = width - 1; + dstYOfs = height - 1; + dstXAdd = -1 * sizeof(T); + dstYAdd = -dstBytesPerLine + width * sizeof(T); + break; + }; + + T *dstPtr = (T *)(dst + dstYOfs * dstBytesPerLine) + dstXOfs; + T *srcPtr = (T *)src; + for ( int y = 0; y < height; y++ ) { + for ( int x = 0; x < width; x++ ) { + *dstPtr = *srcPtr++; + dstPtr = (T *)((uchar*)dstPtr + dstXAdd); // add dstXAdd number of bytes + } + srcPtr = (T *)((uchar*)srcPtr + srcYAdd); // add srcYAdd number of bytes + dstPtr = (T *)((uchar*)dstPtr + dstYAdd); // add dstYAdd number of bytes + } +} + +QImage QW100Screen::mapToDevice( const QImage &img ) const +{ + if ( img.isNull() || trans == None ) + return img; + + int iw = img.width(); + int ih = img.height(); + int w = iw; + int h = ih; + if ( trans == Rot90 || trans == Rot270 ) { + w = ih; + h = iw; + } + + QImage rimg( w, h, img.depth(), img.numColors(), img.bitOrder() ); + + for ( int i = 0; i < img.numColors(); i++ ) { + rimg.colorTable()[i] = img.colorTable()[i]; + } + + // Optimized image rotation code for nice bit depths + int d = img.depth(); + if ( d == 8 || d == 16 || d == 32 ) { + int srcBytesPerLine = img.bytesPerLine(); + int dstBytesPerLine = rimg.bytesPerLine(); + uchar *srcBits = img.bits(); + uchar *dstBits = rimg.bits(); + switch ( d ) { + case 8: + rotateLoopTemplate( srcBits, srcBytesPerLine, dstBits, dstBytesPerLine, iw, ih, trans, TRUE ); + break; + case 16: + rotateLoopTemplate( srcBits, srcBytesPerLine, dstBits, dstBytesPerLine, iw, ih, trans, TRUE ); + break; + case 32: + rotateLoopTemplate( srcBits, srcBytesPerLine, dstBits, dstBytesPerLine, iw, ih, trans, TRUE ); + break; + } + rimg.setAlphaBuffer( img.hasAlphaBuffer() ); + rimg.setOffset( img.offset() ); + return rimg; + } + + // Slower fall back code for image rotation for 1-bit and other depths +#define ROTATE_LOOP( X, Y, VAL ) \ + for ( int y = 0; y < ih; y++ ) { \ + for ( int x = 0; x < iw; x++ ) { \ + rimg.setPixel( X, Y, VAL ); \ + } \ + } \ + break; + + if ( img.depth() > 8 ) { + switch ( trans ) { + case Rot90: + ROTATE_LOOP( y, iw - x - 1, img.pixel(x, y) ) + case Rot270: + ROTATE_LOOP( ih - y - 1, x, img.pixel(x, y) ); + default: + ROTATE_LOOP( iw - x - 1, ih - y - 1, img.pixel(x, y) ); + } + } else { + switch ( trans ) { + case Rot90: + ROTATE_LOOP( y, iw - x - 1, img.pixelIndex(x, y) ); + case Rot270: + ROTATE_LOOP( ih - y - 1, x, img.pixelIndex(x, y) ); + default: + ROTATE_LOOP( iw - x - 1, ih - y - 1, img.pixelIndex(x, y) ); + } + } + +#undef ROTATE_LOOP + + rimg.setAlphaBuffer( img.hasAlphaBuffer() ); + rimg.setOffset( img.offset() ); + + return rimg; +} + +QImage QW100Screen::mapFromDevice( const QImage &img ) const +{ + if ( img.isNull() || trans == None ) + return img; + + int iw = img.width(); + int ih = img.height(); + int w = iw; + int h = ih; + if ( trans == Rot90 || trans == Rot270 ) { + w = ih; + h = iw; + } + + QImage rimg( w, h, img.depth(), img.numColors(), img.bitOrder() ); + + for ( int i = 0; i < img.numColors(); i++ ) { + rimg.colorTable()[i] = img.colorTable()[i]; + } + + // Optimized image rotation code for nice bit depths + int d = img.depth(); + if ( d == 8 || d == 16 || d == 32 ) { + int srcBytesPerLine = img.bytesPerLine(); + int dstBytesPerLine = rimg.bytesPerLine(); + uchar *srcBits = img.bits(); + uchar *dstBits = rimg.bits(); + switch ( d ) { + case 8: + rotateLoopTemplate( srcBits, srcBytesPerLine, dstBits, dstBytesPerLine, iw, ih, trans, FALSE ); + break; + case 16: + rotateLoopTemplate( srcBits, srcBytesPerLine, dstBits, dstBytesPerLine, iw, ih, trans, FALSE ); + break; + case 32: + rotateLoopTemplate( srcBits, srcBytesPerLine, dstBits, dstBytesPerLine, iw, ih, trans, FALSE ); + break; + } + rimg.setAlphaBuffer( img.hasAlphaBuffer() ); + rimg.setOffset( img.offset() ); + return rimg; + } + + // Slower fall back code for image rotation for 1-bit and other depths +#define ROTATE_LOOP( X, Y, VAL ) \ + for ( int y = 0; y < ih; y++ ) { \ + for ( int x = 0; x < iw; x++ ) { \ + rimg.setPixel( X, Y, VAL ); \ + } \ + } \ + break; + + if ( img.depth() > 8 ) { + switch ( trans ) { + case Rot90: + ROTATE_LOOP( ih - y - 1, x, img.pixel(x, y) ); + case Rot270: + ROTATE_LOOP( y, iw - x - 1, img.pixel(x, y) ) + default: + ROTATE_LOOP( iw - x - 1, ih - y - 1, img.pixel(x, y) ); + } + } else { + switch ( trans ) { + case Rot90: + ROTATE_LOOP( ih - y - 1, x, img.pixelIndex(x, y) ); + case Rot270: + ROTATE_LOOP( y, iw - x - 1, img.pixelIndex(x, y) ); + default: + ROTATE_LOOP( iw - x - 1, ih - y - 1, img.pixelIndex(x, y) ); + } + } + +#undef ROTATE_LOOP + + rimg.setAlphaBuffer( img.hasAlphaBuffer() ); + rimg.setOffset( img.offset() ); + + return rimg; +} + +QRegion QW100Screen::mapToDevice( const QRegion &rgn, const QSize &s ) const +{ + if ( trans == None ) + return rgn; + + QRegion trgn; + QArray a = rgn.rects(); + QRect tr; + const QRect *r = a.data(); + + int w = s.width(); + int h = s.height(); + int size = a.size(); + + switch ( trans ) { + case Rot270: + for ( int i = 0; i < size; i++, r++ ) { + tr.setCoords( h - r->y() - 1, r->x(), + h - r->bottom() - 1, r->right() ); + trgn |= tr.normalize(); + } + break; + case Rot90: + for ( int i = 0; i < size; i++, r++ ) { + tr.setCoords( r->y(), w - r->x() - 1, + r->bottom(), w - r->right() - 1 ); + trgn |= tr.normalize(); + } + break; + case Rot180: + for ( int i = 0; i < size; i++, r++ ) { + tr.setCoords( w - r->x() - 1, h - r->y() - 1, + w - r->right() - 1, h - r->bottom() - 1 ); + trgn |= tr.normalize(); + } + break; + default: + break; + } + return trgn; +} + +QRegion QW100Screen::mapFromDevice( const QRegion &rgn, const QSize &s ) const +{ + if ( trans == None ) + return rgn; + + QRegion trgn; + QArray a = rgn.rects(); + const QRect *r = a.data(); + QRect tr; + + int w = s.width(); + int h = s.height(); + int size = a.size(); + + switch ( trans ) { + case Rot270: + for ( int i = 0; i < size; i++, r++ ) { + tr.setCoords( r->y(), w - r->x() - 1, + r->bottom(), w - r->right() - 1 ); + trgn |= tr.normalize(); + } + break; + case Rot90: + for ( int i = 0; i < size; i++, r++ ) { + tr.setCoords( h - r->y() - 1, r->x(), + h - r->bottom() - 1, r->right() ); + trgn |= tr.normalize(); + } + break; + case Rot180: + for ( int i = 0; i < size; i++, r++ ) { + tr.setCoords( w - r->x() - 1, h - r->y() - 1, + w - r->right() - 1, h - r->bottom() - 1 ); + trgn |= tr.normalize(); + } + break; + default: + break; + } + + return trgn; +} + +/*! + 0 = none + 1..3 = rotates 90..270 + 4..7 = mirrored 0..3 +*/ +int QW100Screen::transformOrientation() const +{ + return (int)trans; +} + + +void qws_w100Transformation( int t ) +{ + if ( qt_w100_screen ) { + qt_w100_screen->setTransformation( static_cast( t ) ); + } +} + +extern bool qws_accel; + +extern "C" QScreen * qt_get_screen_w100( int display_id ) +{ + return( new QW100Screen( display_id ) ); +} Index: qt-2.3.10-snapshot-20060120/src/kernel/qapplication_qws.cpp =================================================================== --- qt-2.3.10-snapshot-20060120.orig/src/kernel/qapplication_qws.cpp 2006-01-20 20:48:07.131939024 +0100 +++ qt-2.3.10-snapshot-20060120/src/kernel/qapplication_qws.cpp 2006-01-20 21:17:39.461503976 +0100 @@ -1450,16 +1450,25 @@ extern void qws_clearLoadedFonts(); #endif +#ifndef QT_NO_QWS_W100 +extern void qws_w100Transformation( int t ); +#endif + void QWSDisplay::setTransformation( int t ) { -#ifndef QT_NO_QWS_TRANSFORMED +#if !defined(QT_NO_QWS_TRANSFORMED) || !defined(QT_NO_QWS_W100) QRect mwr = qt_screen->mapToDevice(qt_maxWindowRect, QSize(qt_screen->width(), qt_screen->height()) ); QPixmapCache::clear(); qws_clearLoadedFonts(); qws_mapPixmaps( TRUE ); +#ifndef QT_NO_QWS_TRANSFORMED qws_setScreenTransformation( t ); +#endif +#ifndef QT_NO_QWS_W100 + qws_w100Transformation( t ); +#endif qws_mapPixmaps( FALSE ); if ( qt_fbdpy->d->directServerConnection() ) {