/*

SDL - Simple DirectMedia Layer

This library is free software; you can redistribute it and/or

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

You should have received a copy of the GNU Lesser General Public

License along with this library; if not, write to the Free Software

Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA

Sam Lantinga

#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__)

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 = SDL_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))) {

SDL_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 = SDL_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) {

SDL_free(SDL_Ximage);

SDL_Ximage = NULL;

}

if (screen) {

screen->pixels = NULL;

if (screen->hwdata) {

SDL_free(screen->hwdata);

screen->hwdata = NULL;

}

}

}

static int

num_CPU(void)

}

int

CGX_ResizeImage(_THIS, SDL_Surface * screen, Uint32 flags)

int retval;

D(bug("Calling ResizeImage()\n"));

CGX_DestroyImage(this, screen);

if (flags & SDL_INTERNALOPENGL) { /* 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 = SDL_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 {

SDL_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)

SDL_free(surface->hwdata->mask);

if (surface->hwdata->bmap && surface->hwdata->allocated)

FreeBitMap(surface->hwdata->bmap);

SDL_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)

if (this->hidden->dbuffer) {

if (!SafeChange) {

Wait(disp_sigbit);

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)

}

#endif

static void

CGX_FakeUpdate(_THIS, int numrects, SDL_Rect * rects)

{

}

static void

CGX_NormalUpdate(_THIS, int numrects, SDL_Rect * rects)

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) {

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

// 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) {

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);

}

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;

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);

}

} 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) {

SDL_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)

/* 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) {

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

// 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) {

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);

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;

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);

}

} 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) {

SDL_memcpy(dest, src, this->screen->pitch * this->screen->h);

} else {

for (j = this->screen->h; j; --j) {

SDL_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);

}

}

/* vi: set ts=4 sw=4 expandtab: */