Mercurial > sdl-ios-xcode
view src/video/cybergfx/SDL_cgximage.c @ 1244:a388f2b59044
More dynamic X11 work.
author | Ryan C. Gordon <icculus@icculus.org> |
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date | Fri, 13 Jan 2006 01:08:39 +0000 |
parents | b8d311d90021 |
children | c9b51268668f |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2004 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Sam Lantinga slouken@libsdl.org */ #ifdef SAVE_RCSID static char rcsid = "@(#) $Id$"; #endif #include <stdlib.h> #include "SDL_error.h" #include "SDL_endian.h" #include "SDL_cgximage_c.h" #ifdef HAVE_KSTAT #include <kstat.h> #endif #ifdef USE_CGX_WRITELUTPIXEL #if defined(__SASC) || defined(__PPC__) #define WLUT WriteLUTPixelArray #else void WLUT(APTR a,UWORD b,UWORD c,UWORD d,struct RastPort *e,APTR f,UWORD g,UWORD h,UWORD i,UWORD l,UBYTE m) { WriteLUTPixelArray(a,b,c,d,e,f,g,h,i,l,m); } #endif #endif /* Various screen update functions available */ static void CGX_NormalUpdate(_THIS, int numrects, SDL_Rect *rects); static void CGX_FakeUpdate(_THIS, int numrects, SDL_Rect *rects); BOOL SafeDisp=TRUE,SafeChange=TRUE; struct MsgPort *safeport=NULL,*dispport=NULL; ULONG safe_sigbit,disp_sigbit; int use_picasso96=1; int CGX_SetupImage(_THIS, SDL_Surface *screen) { SDL_Ximage=NULL; if(screen->flags&SDL_HWSURFACE) { ULONG pitch; if(!screen->hwdata) { if(!(screen->hwdata=malloc(sizeof(struct private_hwdata)))) return -1; D(bug("Creating system accel struct\n")); } screen->hwdata->lock=NULL; screen->hwdata->allocated=0; screen->hwdata->mask=NULL; screen->hwdata->bmap=SDL_RastPort->BitMap; screen->hwdata->videodata=this; if(!(screen->hwdata->lock=LockBitMapTags(screen->hwdata->bmap, LBMI_BASEADDRESS,(ULONG)&screen->pixels, LBMI_BYTESPERROW,(ULONG)&pitch,TAG_DONE))) { free(screen->hwdata); screen->hwdata=NULL; return -1; } else { UnLockBitMap(screen->hwdata->lock); screen->hwdata->lock=NULL; } screen->pitch=pitch; this->UpdateRects = CGX_FakeUpdate; D(bug("Accel video image configured (%lx, pitch %ld).\n",screen->pixels,screen->pitch)); return 0; } screen->pixels = malloc(screen->h*screen->pitch); if ( screen->pixels == NULL ) { SDL_OutOfMemory(); return(-1); } SDL_Ximage=screen->pixels; if ( SDL_Ximage == NULL ) { SDL_SetError("Couldn't create XImage"); return(-1); } this->UpdateRects = CGX_NormalUpdate; return(0); } void CGX_DestroyImage(_THIS, SDL_Surface *screen) { if ( SDL_Ximage ) { free(SDL_Ximage); SDL_Ximage = NULL; } if ( screen ) { screen->pixels = NULL; if(screen->hwdata) { free(screen->hwdata); screen->hwdata=NULL; } } } /* This is a hack to see whether this system has more than 1 CPU */ static int num_CPU(void) { return 1; } int CGX_ResizeImage(_THIS, SDL_Surface *screen, Uint32 flags) { int retval; D(bug("Calling ResizeImage()\n")); CGX_DestroyImage(this, screen); if ( flags & SDL_OPENGL ) { /* No image when using GL */ retval = 0; } else { retval = CGX_SetupImage(this, screen); /* We support asynchronous blitting on the display */ if ( flags & SDL_ASYNCBLIT ) { if ( num_CPU() > 1 ) { screen->flags |= SDL_ASYNCBLIT; } } } return(retval); } int CGX_AllocHWSurface(_THIS, SDL_Surface *surface) { D(bug("Alloc HW surface...%ld x %ld x %ld!\n",surface->w,surface->h,this->hidden->depth)); if(surface==SDL_VideoSurface) { D(bug("Allocation skipped, it's system one!\n")); return 0; } if(!surface->hwdata) { if(!(surface->hwdata=malloc(sizeof(struct private_hwdata)))) return -1; } surface->hwdata->mask=NULL; surface->hwdata->lock=NULL; surface->hwdata->videodata=this; surface->hwdata->allocated=0; if(surface->hwdata->bmap=AllocBitMap(surface->w,surface->h,this->hidden->depth,BMF_MINPLANES,SDL_Display->RastPort.BitMap)) { surface->hwdata->allocated=1; surface->flags|=SDL_HWSURFACE; D(bug("...OK\n")); return 0; } else { free(surface->hwdata); surface->hwdata=NULL; } return(-1); } void CGX_FreeHWSurface(_THIS, SDL_Surface *surface) { if(surface && surface!=SDL_VideoSurface && surface->hwdata) { D(bug("Free hw surface.\n")); if(surface->hwdata->mask) free(surface->hwdata->mask); if(surface->hwdata->bmap&&surface->hwdata->allocated) FreeBitMap(surface->hwdata->bmap); free(surface->hwdata); surface->hwdata=NULL; surface->pixels=NULL; D(bug("end of free hw surface\n")); } return; } int CGX_LockHWSurface(_THIS, SDL_Surface *surface) { if (surface->hwdata) { // D(bug("Locking a bitmap...\n")); if(!surface->hwdata->lock) { Uint32 pitch; if(!(surface->hwdata->lock=LockBitMapTags(surface->hwdata->bmap, LBMI_BASEADDRESS,(ULONG)&surface->pixels, LBMI_BYTESPERROW,(ULONG)&pitch,TAG_DONE))) return -1; // surface->pitch e' a 16bit! surface->pitch=pitch; if(!currently_fullscreen&&surface==SDL_VideoSurface) surface->pixels=((char *)surface->pixels)+(surface->pitch*(SDL_Window->BorderTop+SDL_Window->TopEdge)+ surface->format->BytesPerPixel*(SDL_Window->BorderLeft+SDL_Window->LeftEdge)); } D(else bug("Already locked!!!\n")); } return(0); } void CGX_UnlockHWSurface(_THIS, SDL_Surface *surface) { if(surface->hwdata && surface->hwdata->lock) { UnLockBitMap(surface->hwdata->lock); surface->hwdata->lock=NULL; // surface->pixels=NULL; } } int CGX_FlipHWSurface(_THIS, SDL_Surface *surface) { static int current=0; if(this->hidden->dbuffer) { if(!SafeChange) { Wait(disp_sigbit); // Non faccio nulla, vuoto solo la porta while(GetMsg(dispport)!=NULL) ; SafeChange=TRUE; } if(ChangeScreenBuffer(SDL_Display,this->hidden->SB[current^1])) { surface->hwdata->bmap=SDL_RastPort->BitMap=this->hidden->SB[current]->sb_BitMap; SafeChange=FALSE; SafeDisp=FALSE; current^=1; } if(!SafeDisp) { Wait(safe_sigbit); while(GetMsg(safeport)!=NULL) ; SafeDisp=TRUE; } } return(0); } /* Byte-swap the pixels in the display image */ static void CGX_SwapAllPixels(SDL_Surface *screen) { int x, y; switch (screen->format->BytesPerPixel) { case 2: { Uint16 *spot; for ( y=0; y<screen->h; ++y ) { spot = (Uint16 *) ((Uint8 *)screen->pixels + y * screen->pitch); for ( x=0; x<screen->w; ++x, ++spot ) { *spot = SDL_Swap16(*spot); } } } break; case 4: { Uint32 *spot; for ( y=0; y<screen->h; ++y ) { spot = (Uint32 *) ((Uint8 *)screen->pixels + y * screen->pitch); for ( x=0; x<screen->w; ++x, ++spot ) { *spot = SDL_Swap32(*spot); } } } break; default: /* should never get here */ break; } } static void CGX_SwapPixels(SDL_Surface *screen, int numrects, SDL_Rect *rects) { int i; int x, minx, maxx; int y, miny, maxy; switch (screen->format->BytesPerPixel) { case 2: { Uint16 *spot; for ( i=0; i<numrects; ++i ) { minx = rects[i].x; maxx = rects[i].x+rects[i].w; miny = rects[i].y; maxy = rects[i].y+rects[i].h; for ( y=miny; y<maxy; ++y ) { spot = (Uint16 *) ((Uint8 *)screen->pixels + y * screen->pitch + minx * 2); for ( x=minx; x<maxx; ++x, ++spot ) { *spot = SDL_Swap16(*spot); } } } } break; case 4: { Uint32 *spot; for ( i=0; i<numrects; ++i ) { minx = rects[i].x; maxx = rects[i].x+rects[i].w; miny = rects[i].y; maxy = rects[i].y+rects[i].h; for ( y=miny; y<maxy; ++y ) { spot = (Uint32 *) ((Uint8 *)screen->pixels + y * screen->pitch + minx * 4); for ( x=minx; x<maxx; ++x, ++spot ) { *spot = SDL_Swap32(*spot); } } } } break; default: /* should never get here */ break; } } #ifdef __SASC #define USE_WPA WritePixelArray #else void USE_WPA(char *a,int b,int c,int d, struct RastPort *e,int f,int g, int h, int i, Uint32 l) { WritePixelArray(a,b,c,d,e,f,g,h,i,l); } #endif static void CGX_FakeUpdate(_THIS, int numrects, SDL_Rect *rects) { } static void CGX_NormalUpdate(_THIS, int numrects, SDL_Rect *rects) { int i,format,customroutine=0; #ifndef USE_CGX_WRITELUTPIXEL int bpp; #endif if(this->hidden->same_format && !use_picasso96) { format=RECTFMT_RAW; } else switch(this->screen->format->BytesPerPixel) { case 4: format=RECTFMT_RGBA; break; case 3: format=RECTFMT_RGB; break; case 2: customroutine=1; break; case 1: // D(bug("soft depth: 8 hardbpp: %ld\n",this->hidden->depth)); if(this->hidden->depth>8) { #ifndef USE_CGX_WRITELUTPIXEL if(this->hidden->depth>32) customroutine=4; else if(this->hidden->depth>16) { bpp=this->hidden->BytesPerPixel; // That one is the only one that needs bpp customroutine=2; // The slow one! } else customroutine=3; #else customroutine=2; #endif // format=RECTFMT_LUT8; Vecchia funzione x usare la WritePixelArray. } else customroutine=1; break; default: D(bug("Unable to blit this surface!\n")); return; } /* Check for endian-swapped X server, swap if necessary (VERY slow!) */ if ( swap_pixels && ((this->screen->format->BytesPerPixel%2) == 0) ) { D(bug("Software Swapping! SLOOOW!\n")); CGX_SwapPixels(this->screen, numrects, rects); for ( i=0; i<numrects; ++i ) { if ( ! rects[i].w ) { /* Clipped? */ continue; } USE_WPA(this->screen->pixels,rects[i].x, rects[i].y,this->screen->pitch, SDL_RastPort,SDL_Window->BorderLeft+rects[i].x,SDL_Window->BorderTop+rects[i].y, rects[i].w,rects[i].h,format); } CGX_SwapPixels(this->screen, numrects, rects); } else if (customroutine==2) { #ifdef USE_CGX_WRITELUTPIXEL for ( i=0; i<numrects; ++i ) { if ( ! rects[i].w ) { /* Clipped? */ continue; } WLUT(this->screen->pixels,rects[i].x, rects[i].y,this->screen->pitch, SDL_RastPort,SDL_XPixels,SDL_Window->BorderLeft+rects[i].x,SDL_Window->BorderTop+rects[i].y, rects[i].w,rects[i].h,CTABFMT_XRGB8); } #else unsigned char *bm_address; Uint32 destpitch; APTR handle; if(handle=LockBitMapTags(SDL_RastPort->BitMap,LBMI_BASEADDRESS,&bm_address, LBMI_BYTESPERROW,&destpitch,TAG_DONE)) { int srcwidth; unsigned char *destbase; register int j,k,t; register unsigned char *mask,*dst; register unsigned char *src,*dest; // Aggiungo il bordo della finestra se sono fullscreen. if(currently_fullscreen) destbase=bm_address; else destbase=bm_address+(SDL_Window->TopEdge+SDL_Window->BorderTop)*destpitch+(SDL_Window->BorderLeft+SDL_Window->LeftEdge)*this->hidden->BytesPerPixel; for ( i=0; i<numrects; ++i ) { srcwidth=rects[i].w; if ( !srcwidth ) { /* Clipped? */ continue; } dest=destbase+rects[i].x*this->hidden->BytesPerPixel; dest+=(rects[i].y*destpitch); src=((char *)(this->screen->pixels))+rects[i].x; src+=(rects[i].y*this->screen->pitch); for(j=rects[i].h;j;--j) { dst=dest; // SLOW routine, used for 8->24 bit mapping for(k=0;k<srcwidth;k++) { mask=(unsigned char *)(&SDL_XPixels[src[k]]); for(t=0;t<bpp;t++) { dst[t]=mask[t]; } dst+=bpp; } src+=this->screen->pitch; dest+=destpitch; } } UnLockBitMap(handle); } } else if (customroutine==3) { unsigned char *bm_address; Uint32 destpitch; APTR handle; if(handle=LockBitMapTags(SDL_RastPort->BitMap,LBMI_BASEADDRESS,&bm_address, LBMI_BYTESPERROW,&destpitch,TAG_DONE)) { int srcwidth; unsigned char *destbase; register int j,k; register unsigned char *src,*dest; register Uint16 *destl,*srcl; if(currently_fullscreen) destbase=bm_address; else destbase=bm_address+(SDL_Window->TopEdge+SDL_Window->BorderTop)*destpitch+(SDL_Window->BorderLeft+SDL_Window->LeftEdge)*this->hidden->BytesPerPixel; for ( i=0; i<numrects; ++i ) { srcwidth=rects[i].w; if ( !srcwidth ) { /* Clipped? */ continue; } dest=destbase+rects[i].x*this->hidden->BytesPerPixel; dest+=(rects[i].y*destpitch); src=((char *)(this->screen->pixels))+rects[i].x; src+=(rects[i].y*this->screen->pitch); // This is the fast, well not too slow, remapping code for 16bit displays for(j=rects[i].h;j;--j) { destl=(Uint16 *)dest; for(k=0;k<srcwidth;k++) { srcl=(Uint16 *)&SDL_XPixels[src[k]]; *destl=*srcl; destl++; } src+=this->screen->pitch; dest+=destpitch; } } UnLockBitMap(handle); } } else if (customroutine==4) { unsigned char *bm_address; Uint32 destpitch; APTR handle; if(handle=LockBitMapTags(SDL_RastPort->BitMap,LBMI_BASEADDRESS,&bm_address, LBMI_BYTESPERROW,&destpitch,TAG_DONE)) { int srcwidth; unsigned char *destbase; register int j,k; register unsigned char *src,*dest; register Uint32 *destl,*srcl; if(currently_fullscreen) destbase=bm_address; else destbase=bm_address+(SDL_Window->TopEdge+SDL_Window->BorderTop)*destpitch+(SDL_Window->BorderLeft+SDL_Window->LeftEdge)*this->hidden->BytesPerPixel; for ( i=0; i<numrects; ++i ) { srcwidth=rects[i].w; if ( !srcwidth ) { /* Clipped? */ continue; } dest=destbase+rects[i].x*this->hidden->BytesPerPixel; dest+=(rects[i].y*destpitch); src=((char *)(this->screen->pixels))+rects[i].x; src+=(rects[i].y*this->screen->pitch); // This is the fast, well not too slow, remapping code for 32bit displays for(j=rects[i].h;j;--j) { destl=(Uint32 *)dest; for(k=0;k<srcwidth;k++) { srcl=(Uint32 *)&SDL_XPixels[src[k]]; *destl=*srcl; destl++; } src+=this->screen->pitch; dest+=destpitch; } } UnLockBitMap(handle); } #endif } else if(customroutine) { unsigned char *bm_address; Uint32 destpitch; APTR handle; // D(bug("Using customroutine!\n")); if(handle=LockBitMapTags(SDL_RastPort->BitMap,LBMI_BASEADDRESS,(ULONG)&bm_address, LBMI_BYTESPERROW,(ULONG)&destpitch,TAG_DONE)) { unsigned char *destbase; register int j,srcwidth; register unsigned char *src,*dest; // Aggiungo il bordo della finestra se sono fullscreen. if(currently_fullscreen) destbase=bm_address; else destbase=bm_address+(SDL_Window->TopEdge+SDL_Window->BorderTop)*destpitch+(SDL_Window->BorderLeft+SDL_Window->LeftEdge)*this->screen->format->BytesPerPixel; for ( i=0; i<numrects; ++i ) { srcwidth=rects[i].w; if ( !srcwidth ) { /* Clipped? */ continue; } dest=destbase+rects[i].x*this->screen->format->BytesPerPixel; dest+=(rects[i].y*destpitch); src=((char *)(this->screen->pixels))+rects[i].x*this->screen->format->BytesPerPixel; src+=(rects[i].y*this->screen->pitch); srcwidth*=this->screen->format->BytesPerPixel; // D(bug("Rects: %ld,%ld %ld,%ld Src:%lx Dest:%lx\n",rects[i].x,rects[i].y,rects[i].w,rects[i].h,src,dest)); for(j=rects[i].h;j;--j) { memcpy(dest,src,srcwidth); src+=this->screen->pitch; dest+=destpitch; } } UnLockBitMap(handle); // D(bug("Rectblit addr: %lx pitch: %ld rects:%ld srcptr: %lx srcpitch: %ld\n",bm_address,destpitch,numrects,this->screen->pixels,this->screen->pitch)); } } else { for ( i=0; i<numrects; ++i ) { if ( ! rects[i].w ) { /* Clipped? */ continue; } USE_WPA(this->screen->pixels,rects[i].x, rects[i].y,this->screen->pitch, SDL_RastPort,SDL_Window->BorderLeft+rects[i].x,SDL_Window->BorderTop+rects[i].y, rects[i].w,rects[i].h,format); } } } void CGX_RefreshDisplay(_THIS) { int format,customroutine=0; #ifndef USE_CGX_WRITELUTPIXEL int bpp; #endif /* Don't refresh a display that doesn't have an image (like GL) */ if ( ! SDL_Ximage ) { return; } if(this->hidden->same_format && !use_picasso96) { format=RECTFMT_RAW; } else switch(this->screen->format->BytesPerPixel) { case 4: format=RECTFMT_RGBA; break; case 3: format=RECTFMT_RGB; break; case 2: customroutine=1; break; case 1: // D(bug("soft depth: 8 hardbpp: %ld\n",this->hidden->depth)); if(this->hidden->depth>8) { #ifndef USE_CGX_WRITELUTPIXEL if(this->hidden->depth>32) customroutine=4; else if(this->hidden->depth>16) { bpp=this->hidden->BytesPerPixel; // That one is the only one that needs bpp customroutine=2; // The slow one! } else customroutine=3; #else customroutine=2; #endif // format=RECTFMT_LUT8; } else customroutine=1; break; } /* Check for endian-swapped X server, swap if necessary */ if ( swap_pixels && ((this->screen->format->BytesPerPixel%2) == 0) ) { CGX_SwapAllPixels(this->screen); USE_WPA(this->screen->pixels,0,0,this->screen->pitch, SDL_RastPort,SDL_Window->BorderLeft,SDL_Window->BorderTop, this->screen->w,this->screen->h,format); CGX_SwapAllPixels(this->screen); } else if (customroutine==2) { #ifdef USE_CGX_WRITELUTPIXEL WLUT(this->screen->pixels,0,0,this->screen->pitch, SDL_RastPort,SDL_XPixels,SDL_Window->BorderLeft,SDL_Window->BorderTop, this->screen->w,this->screen->h,CTABFMT_XRGB8); #else unsigned char *bm_address; Uint32 destpitch; APTR handle; if(handle=LockBitMapTags(SDL_RastPort->BitMap,LBMI_BASEADDRESS,(ULONG)&bm_address, LBMI_BYTESPERROW,(ULONG)&destpitch,TAG_DONE)) { register int j,k,t; register unsigned char *mask,*dst; register unsigned char *src,*dest; // Aggiungo il bordo della finestra se sono fullscreen. if(!currently_fullscreen) dest=bm_address+(SDL_Window->TopEdge+SDL_Window->BorderTop)*destpitch+(SDL_Window->BorderLeft+SDL_Window->LeftEdge)*this->hidden->BytesPerPixel; else dest=bm_address; src=this->screen->pixels; for(j=this->screen->h;j;--j) { dst=dest; // SLOW routine, used for 8->24 bit mapping for(k=0;k<this->screen->w;k++) { mask=(unsigned char *)(&SDL_XPixels[src[k]]); for(t=0;t<bpp;t++) { dst[t]=mask[t]; } dst+=bpp; } src+=this->screen->pitch; dest+=destpitch; } UnLockBitMap(handle); } } else if (customroutine==3) { unsigned char *bm_address; Uint32 destpitch; APTR handle; if(handle=LockBitMapTags(SDL_RastPort->BitMap,LBMI_BASEADDRESS,(ULONG)&bm_address, LBMI_BYTESPERROW,(ULONG)&destpitch,TAG_DONE)) { register int j,k; register unsigned char *src,*dest; register Uint16 *destl,*srcl; if(!currently_fullscreen) dest=bm_address+(SDL_Window->TopEdge+SDL_Window->BorderTop)*destpitch+(SDL_Window->BorderLeft+SDL_Window->LeftEdge)*this->hidden->BytesPerPixel; else dest=bm_address; src=this->screen->pixels; // This is the fast, well not too slow, remapping code for 16bit displays for(j=this->screen->h;j;--j) { destl=(Uint16 *)dest; for(k=0;k<this->screen->w;k++) { srcl=(Uint16 *)&SDL_XPixels[src[k]]; *destl=*srcl; destl++; } src+=this->screen->pitch; dest+=destpitch; } UnLockBitMap(handle); } } else if (customroutine==4) { unsigned char *bm_address; Uint32 destpitch; APTR handle; if(handle=LockBitMapTags(SDL_RastPort->BitMap,LBMI_BASEADDRESS,(ULONG)&bm_address, LBMI_BYTESPERROW,(ULONG)&destpitch,TAG_DONE)) { register int j,k; register unsigned char *src,*dest; register Uint32 *destl,*srcl; if(!currently_fullscreen) dest=bm_address+(SDL_Window->TopEdge+SDL_Window->BorderTop)*destpitch+(SDL_Window->BorderLeft+SDL_Window->LeftEdge)*this->hidden->BytesPerPixel; else dest=bm_address; src=this->screen->pixels; // This is the fast, well not too slow, remapping code for 32bit displays for(j=this->screen->h;j;--j) { destl=(Uint32 *)dest; for(k=0;k<this->screen->w;k++) { srcl=(Uint32 *)&SDL_XPixels[src[k]]; *destl=*srcl; destl++; } src+=this->screen->pitch; dest+=destpitch; } UnLockBitMap(handle); } #endif } else if(customroutine) { unsigned char *bm_address; Uint32 destpitch; APTR handle; if(handle=LockBitMapTags(SDL_RastPort->BitMap, LBMI_BASEADDRESS,(ULONG)&bm_address, LBMI_BYTESPERROW,(ULONG)&destpitch,TAG_DONE)) { register int j; register unsigned char *src,*dest; if(!currently_fullscreen) dest=bm_address+(SDL_Window->TopEdge+SDL_Window->BorderTop)*destpitch+(SDL_Window->BorderLeft+SDL_Window->LeftEdge)*this->screen->format->BytesPerPixel; else dest=bm_address; src=this->screen->pixels; // D(bug("addr: %lx pitch: %ld src:%lx srcpitch: %ld\n",dest,destpitch,this->screen->pixels,this->screen->pitch)); if(this->screen->pitch==destpitch) { memcpy(dest,src,this->screen->pitch*this->screen->h); } else { for(j=this->screen->h;j;--j) { memcpy(dest,src,this->screen->pitch); src+=this->screen->pitch; dest+=destpitch; } } UnLockBitMap(handle); } } else { USE_WPA(this->screen->pixels,0,0,this->screen->pitch, SDL_RastPort,SDL_Window->BorderLeft,SDL_Window->BorderTop, this->screen->w,this->screen->h,format); } }