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[/] [or1k/] [tags/] [MW_0_8_9PRE7/] [mw/] [src/] [drivers/] [scr_x11.c] - Rev 1765
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/* * Copyright (c) 2000, 2001 Greg Haerr <greg@censoft.com> * Copyright (c) 1999 Tony Rogvall <tony@bluetail.com> * Rewritten to avoid multiple function calls by Greg Haerr * Alpha blending added by Erik Hill * (brought to life in a dark laboratory on a stormy night * in an ancient castle by Dr. Frankenstein) * * X11 screen driver for Microwindows */ #include <stdio.h> #include <string.h> #include <stdlib.h> #include <X11/Xlib.h> #include <X11/Xutil.h> #include <assert.h> #include "device.h" #include "fb.h" #include "genmem.h" #include "genfont.h" /* define the Casio E-15 (allow override) */ #ifdef SCREEN_E15 #ifndef SCREEN_WIDTH #define SCREEN_WIDTH 200 #endif #ifndef SCREEN_HEIGHT #define SCREEN_HEIGHT 320 #endif #ifndef SCREEN_DEPTH #define SCREEN_DEPTH 4 #endif #ifndef MWPIXEL_FORMAT #define MWPIXEL_FORMAT MWPF_PALETTE #endif #endif #ifndef SCREEN_WIDTH #define SCREEN_WIDTH 200 #endif #ifndef SCREEN_HEIGHT #define SCREEN_HEIGHT 320 #endif #ifndef SCREEN_DEPTH #define SCREEN_DEPTH 4 #endif #ifndef MWPIXEL_FORMAT #if SCREEN_DEPTH <= 8 #define MWPIXEL_FORMAT MWPF_PALETTE #elif SCREEN_DEPTH == 16 #define MWPIXEL_FORMAT MWPF_TRUECOLOR565 #elif SCREEN_DEPTH == 15 #define MWPIXEL_FORMAT MWPF_TRUECOLOR555 #elif SCREEN_DEPTH == 24 #define MWPIXEL_FORMAT MWPF_TRUECOLOR888 #elif SCREEN_DEPTH == 32 #define MWPIXEL_FORMAT MWPF_TRUECOLOR0888 #else #error "bad screen depth" #endif #endif /* specific x11 driver entry points*/ static PSD X11_open(PSD psd); static void X11_close(PSD psd); static void X11_getscreeninfo(PSD psd,PMWSCREENINFO psi); static void X11_setpalette(PSD psd,int first,int count,MWPALENTRY *pal); static void X11_drawpixel(PSD psd,MWCOORD x, MWCOORD y, MWPIXELVAL c); static MWPIXELVAL X11_readpixel(PSD psd,MWCOORD x, MWCOORD y); static void X11_drawhline(PSD psd,MWCOORD x1, MWCOORD x2, MWCOORD y, MWPIXELVAL c); static void X11_drawvline(PSD psd,MWCOORD x, MWCOORD y1, MWCOORD y2, MWPIXELVAL c); static void X11_fillrect(PSD psd,MWCOORD x1,MWCOORD y1,MWCOORD x2,MWCOORD y2,MWPIXELVAL c); static void X11_blit(PSD dstpsd,MWCOORD destx,MWCOORD desty,MWCOORD w,MWCOORD h, PSD srcpsd,MWCOORD srcx,MWCOORD srcy,long op); static void X11_preselect(PSD psd); SCREENDEVICE scrdev = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, NULL, X11_open, X11_close, X11_getscreeninfo, X11_setpalette, X11_drawpixel, X11_readpixel, X11_drawhline, X11_drawvline, X11_fillrect, gen_fonts, X11_blit, X11_preselect, NULL, /* DrawArea*/ NULL, /* SetIOPermissions*/ gen_allocatememgc, fb_mapmemgc, gen_freememgc, NULL, /* StretchBlit subdriver*/ NULL /* SetPortrait*/ }; /* called from keyboard/mouse/screen */ Display* x11_dpy; int x11_scr; Visual* x11_vis; Colormap x11_colormap; Window x11_win; GC x11_gc; unsigned int x11_event_mask; static int x11_colormap_installed = 0; static SCREENDEVICE savebits; /* permanent offscreen drawing buffer*/ DEFINE_applyOpR /* define inline rop calculator*/ /* Color cache for true color lookups ** FIXME: for 24 bit i belive we could do the pixel direct but... */ #define COLOR_CACHE_SIZE 1001 struct color_cache { int init; /* 1 if first use */ unsigned short r; unsigned short g; unsigned short b; XColor c; }; static struct color_cache ccache[COLOR_CACHE_SIZE]; /* color palette for color indexe */ static XColor x11_palette[256]; static int x11_pal_max = 0; static int x11_pixtype; static unsigned long lookup_color(unsigned short r, unsigned short g, unsigned short b) { int ix = ((r << 16) + (g << 8) + b) % COLOR_CACHE_SIZE; if (ccache[ix].init || (ccache[ix].r != r) || (ccache[ix].g != g) || (ccache[ix].b != b)) { char spec[20]; XColor exact; XColor def; ccache[ix].init = 0; ccache[ix].r = r; ccache[ix].g = g; ccache[ix].b = b; sprintf(spec, "#%02x%02x%02x", r, g, b); XLookupColor(x11_dpy, x11_colormap, spec, &exact, &def); XAllocColor(x11_dpy, x11_colormap, &def); ccache[ix].c = def; /* DPRINTF("lookup: exact(%d,%d,%d) = %d, def(%d,%d,%d)=%d\n", exact.red>>8, exact.green>>8, exact.blue>>8, exact.pixel, def.red>>8, def.green>>8, def.blue>>8, def.pixel); */ } return (unsigned long) ccache[ix].c.pixel; } static unsigned long PIXELVAL_to_pixel(MWPIXELVAL c, int type) { assert (type == MWPIXEL_FORMAT); #if (MWPIXEL_FORMAT == MWPF_TRUECOLOR0888) || (MWPIXEL_FORMAT == MWPF_TRUECOLOR888) /* calc truecolor conversions directly*/ if (x11_vis->class >= TrueColor) { switch (x11_vis->bits_per_rgb) { case 8: return c; case 6: return RGB2PIXEL565(PIXEL888RED(c), PIXEL888GREEN(c), PIXEL888BLUE(c)); case 5: return RGB2PIXEL555(PIXEL888RED(c), PIXEL888GREEN(c), PIXEL888BLUE(c)); case 3: case 2: return RGB2PIXEL332(PIXEL888RED(c), PIXEL888GREEN(c), PIXEL888BLUE(c)); } } return lookup_color(PIXEL888RED(c), PIXEL888GREEN(c), PIXEL888BLUE(c)); #endif #if MWPIXEL_FORMAT == MWPF_TRUECOLOR565 /* calc truecolor conversions directly*/ if (x11_vis->class >= TrueColor) { switch (x11_vis->bits_per_rgb) { case 8: return RGB2PIXEL888(PIXEL565RED(c)<<3, PIXEL565GREEN(c)<<2, PIXEL565BLUE(c)<<3); case 6: case 5: return c; case 3: case 2: return RGB2PIXEL332(PIXEL565RED(c)<<3, PIXEL565GREEN(c)<<2, PIXEL565BLUE(c)<<3); } } return lookup_color(PIXEL565RED(c)<<3, PIXEL565GREEN(c)<<2, PIXEL565BLUE(c)<<3); #endif #if MWPIXEL_FORMAT == MWPF_TRUECOLOR555 /* calc truecolor conversions directly*/ if (x11_vis->class >= TrueColor) { switch (x11_vis->bits_per_rgb) { case 8: return RGB2PIXEL888(PIXEL555RED(c)<<3, PIXEL555GREEN(c)<<3, PIXEL555BLUE(c)<<3); case 6: case 5: return c; case 3: case 2: return RGB2PIXEL332(PIXEL555RED(c)<<3, PIXEL555GREEN(c)<<3, PIXEL555BLUE(c)<<3); } } return lookup_color(PIXEL555RED(c)<<3, PIXEL555GREEN(c)<<3, PIXEL555BLUE(c)<<3); #endif #if MWPIXEL_FORMAT == MWPF_TRUECOLOR332 /* calc truecolor conversions directly*/ if (x11_vis->class >= TrueColor) { switch (x11_vis->bits_per_rgb) { case 8: return RGB2PIXEL888(PIXEL332RED(c)<<5, PIXEL332GREEN(c)<<5, PIXEL332BLUE(c)<<6); case 6: return RGB2PIXEL565(PIXEL332RED(c)<<5, PIXEL332GREEN(c)<<5, PIXEL332BLUE(c)<<6); case 5: return RGB2PIXEL555(PIXEL332RED(c)<<5, PIXEL332GREEN(c)<<5, PIXEL332BLUE(c)<<6); case 3: case 2: return c; } } return lookup_color(PIXEL332RED(c)<<5, PIXEL332GREEN(c)<<5, PIXEL332BLUE(c)<<6); #endif #if MWPIXEL_FORMAT == MWPF_PALETTE if (c > x11_pal_max) { DPRINTF("Warning: palette index out of range (%ld)\n", c); return 0; } return x11_palette[c].pixel; #endif #if 0 switch(type) { case MWPF_TRUECOLOR0888: case MWPF_TRUECOLOR888: r = PIXEL888RED(c); g = PIXEL888GREEN(c); b = PIXEL888BLUE(c); return lookup_color(r, g, b); case MWPF_TRUECOLOR565: r = PIXEL565RED(c) << 3; g = PIXEL565GREEN(c) << 2; b = PIXEL565BLUE(c) << 3; return lookup_color(r, g, b); case MWPF_TRUECOLOR555: r = PIXEL555RED(c) << 3; g = PIXEL555GREEN(c) << 3; b = PIXEL555BLUE(c) << 3; return lookup_color(r, g, b); case MWPF_TRUECOLOR332: r = PIXEL332RED(c) << 5; g = PIXEL332GREEN(c) << 5; b = PIXEL332BLUE(c) << 6; return lookup_color(r, g, b); case MWPF_PALETTE: if (c > x11_pal_max) { DPRINTF("Warning: palette index out of range (%ld)\n", c); return 0; } return x11_palette[c].pixel; } #endif return 0; } static void set_color(MWPIXELVAL c) { static unsigned long oldc = 0x80000001; if (c != oldc) { oldc = c; XSetForeground(x11_dpy, x11_gc, PIXELVAL_to_pixel(c, x11_pixtype)); } } static void set_mode(int new_mode) { static int old_mode = -1; if (new_mode != old_mode) { int func = GXcopy; switch(new_mode) { case MWMODE_COPY: func = GXcopy; break; case MWMODE_XOR: func = GXxor; break; case MWMODE_OR: func = GXor; break; case MWMODE_AND: func = GXand; break; case MWMODE_CLEAR: func = GXclear; break; case MWMODE_SETTO1: func = GXset; break; case MWMODE_EQUIV: func = GXequiv; break; case MWMODE_NOR : func = GXnor; break; case MWMODE_NAND: func = GXnand; break; case MWMODE_INVERT: func = GXinvert; break; case MWMODE_COPYINVERTED: func = GXcopyInverted; break; case MWMODE_ORINVERTED: func = GXorInverted; break; case MWMODE_ANDINVERTED: func = GXandInverted; break; case MWMODE_ORREVERSE: func = GXorReverse; break; case MWMODE_ANDREVERSE: func = GXandReverse; break; case MWMODE_NOOP: func = GXnoop; break; default: return; } XSetFunction(x11_dpy, x11_gc, func); old_mode = new_mode; } } #ifdef USE_EXPOSURE static void _expose(int _x, int _y, int w, int h) { XImage* img; int depth = XDefaultDepth(x11_dpy, x11_scr); int x = _x, y = _y; char* data; /* allocate buffer */ if (depth >= 24) data = malloc(w*4*h); else if (depth > 8) /* 15, 16 */ data = malloc(w*2*h); else /* 1,2,4,8 */ data = malloc((w*depth+7)/8 * h); /* copy from offscreen to screen */ img = XCreateImage(x11_dpy, x11_vis, depth, ZPixmap, 0, data, w, h, 8, 0); for (y = _y; y < h + _y; y++) { for (x = _x; x < w + _x; x++) { MWPIXELVAL c = savebits.ReadPixel(&savebits,x,y); unsigned long pixel = PIXELVAL_to_pixel(c, savebits.pixtype); XPutPixel(img, x - _x, y - _y, pixel); } } XPutImage(x11_dpy, x11_win, x11_gc, img, 0, 0, _x, _y, w, h); XDestroyImage(img); } #endif /* called from mou_x11 (handels x11_event_mask events) */ void x11_handle_event(XEvent* ev) { static int inited = 0; if (ev->type == ColormapNotify) { if (ev->xcolormap.window == x11_win) { if (ev->xcolormap.state == ColormapInstalled) { DPRINTF("colormap uninstalled\n"); x11_colormap_installed = 0; } else if (ev->xcolormap.state == ColormapInstalled) { x11_colormap_installed = 1; DPRINTF("colormap installed\n"); } } } else if (ev->type == FocusIn) { if (!x11_colormap_installed) { DPRINTF("setting colormap\n"); XInstallColormap(x11_dpy, x11_colormap); inited = 1; } } else if(ev->type == MappingNotify) { DPRINTF("Refreshing keyboard mapping\n"); XRefreshKeyboardMapping(&ev->xmapping); } #if 0 else if (ev->type == EnterNotify) { if(inited) GdShowCursor(&scrdev); } else if (ev->type == LeaveNotify) { if(inited) GdHideCursor(&scrdev); } #endif #ifdef USE_EXPOSURE else if(ev->type == Expose) { _expose(ev->xexpose.x,ev->xexpose.y, ev->xexpose.width,ev->xexpose.height); } #endif } static int x11_error(Display* dpy, XErrorEvent* ev) { char err_string[256]; XGetErrorText(dpy, ev->error_code, err_string, 256); EPRINTF("X11 error: %s\n", err_string); return 0; } char* classnm[] = { "StaticGray", "GrayScale", "StaticColor", "PseudoColor", "TrueColor", "DirectColor" }; static void show_visual(Visual* v) { char* name = ((v->class < 0) || (v->class > 5)) ? "???" : classnm[v->class]; DPRINTF(" Visual class: %s (%d)\n", name, v->class); DPRINTF(" id: %ld\n", v->visualid); DPRINTF(" bits_per_rgb: %d\n", v->bits_per_rgb); DPRINTF(" map_entries: %d\n", v->map_entries); } static Visual* select_visual(Display* dpy, int scr) { Visual* vis = XDefaultVisual(dpy, scr); Screen* screen = XScreenOfDisplay(dpy, scr); int d; DPRINTF("XDefaultVisual:\n"); show_visual(vis); DPRINTF("Screen RootDepth: %d\n", screen->root_depth); DPRINTF("Screen RootVisual\n"); show_visual(screen->root_visual); /* print all depths/visuals */ for (d = 0; d < screen->ndepths; d++) { Depth* dp = screen->depths + d; int v; DPRINTF("Depth: %d\n", dp->depth); for (v = 0; v < dp->nvisuals; v++) { DPRINTF("Visual: %d\n", v); show_visual(dp->visuals + v); } } return vis; } int x11_setup_display() { static int setup_needed = 1; if (setup_needed) { char* name; int i; if ((name = getenv("DISPLAY")) == NULL) name = ":0"; if ((x11_dpy = XOpenDisplay(name)) == NULL) return -1; XSetErrorHandler(x11_error); x11_scr = XDefaultScreen(x11_dpy); x11_vis = select_visual(x11_dpy, x11_scr); x11_gc = XDefaultGC(x11_dpy, x11_scr); for (i = 0; i < COLOR_CACHE_SIZE; i++) ccache[i].init = 1; set_mode(gr_mode); setup_needed = 0; return 0; } return 0; } /* Note: only single screen */ static PSD X11_open(PSD psd) { XSetWindowAttributes attr; Pixmap cur_empty; unsigned long valuemask; unsigned int event_mask; XColor color; Cursor cursor; /*XEvent ev;*/ PSUBDRIVER subdriver; int size, linelen; if (x11_setup_display() < 0) return NULL; x11_event_mask = ColormapChangeMask | FocusChangeMask; /*x11_event_mask |= EnterWindowMask | LeaveWindowMask;*/ event_mask = x11_event_mask | ExposureMask | KeyPressMask | /* handled by kbd_x11 */ KeyReleaseMask | /* handled by kbd_x11 */ ButtonPressMask | /* handled by mou_x11 */ ButtonReleaseMask | /* handled by mou_x11 */ PointerMotionMask; /* handled by mou_x11 */ #ifdef USE_EXPOSURE valuemask = CWSaveUnder | CWEventMask; #else valuemask = CWSaveUnder | CWEventMask | CWBackingStore; #endif attr.backing_store = Always; /* auto expose */ attr.save_under = True; /* popups ... */ attr.event_mask = event_mask; x11_win = XCreateWindow(x11_dpy, XDefaultRootWindow(x11_dpy), 100, /* x */ 100, /* y */ SCREEN_WIDTH, /* width */ SCREEN_HEIGHT, /* height */ 2, /* border */ CopyFromParent, /* depth */ CopyFromParent, /* depth */ x11_vis, /* Visual */ valuemask, /* valuemask */ &attr /* attributes */ ); /* Create a new empty colormap, the colormap will be ** filled by lookup_color in the case of ** GrayScale, PseduoColor and DirectColor, ** or looked up in the case of ** StaticGray, StaticColor and TrueColor */ x11_colormap = XDefaultColormap(x11_dpy, x11_scr); if (x11_vis->class & 1) x11_colormap = XCopyColormapAndFree(x11_dpy, x11_colormap); /* If you need more colors, create it from scratch * * x11_colormap = XCreateColormap(x11_dpy, x11_win, x11_vis, * AllocNone); * * or: for same visual etc. * x11_colormap = XCopyColormapAndFree(x11_dpy, x11_colormap); */ /* Create an empty (invisible) cursor */ cur_empty = XCreateBitmapFromData(x11_dpy, x11_win, "\0", 1, 1); cursor = XCreatePixmapCursor(x11_dpy, cur_empty, cur_empty, &color, &color, 0, 0); XDefineCursor(x11_dpy, x11_win, cursor); XStoreName(x11_dpy, x11_win, "Microwindows"); XMapWindow(x11_dpy, x11_win); XFlush(x11_dpy); /* * The following code insures that the colormap * is installed before display */ #if 0 XMaskEvent(x11_dpy, x11_event_mask, &ev); XPutBackEvent(x11_dpy, &ev); #endif XInstallColormap(x11_dpy, x11_colormap); psd->xres = psd->xvirtres = SCREEN_WIDTH; psd->yres = psd->yvirtres = SCREEN_HEIGHT; psd->linelen = SCREEN_WIDTH; psd->planes = 1; psd->pixtype = x11_pixtype = MWPIXEL_FORMAT; switch(psd->pixtype) { case MWPF_PALETTE: psd->bpp = SCREEN_DEPTH; break; case MWPF_TRUECOLOR0888: default: psd->bpp = 32; break; case MWPF_TRUECOLOR888: psd->bpp = 24; break; case MWPF_TRUECOLOR565: case MWPF_TRUECOLOR555: psd->bpp = 16; break; case MWPF_TRUECOLOR332: psd->bpp = 8; break; } /* Calculate the correct linelen here */ GdCalcMemGCAlloc(psd, psd->xres, psd->yres, psd->planes, psd->bpp, &size, &psd->linelen); psd->ncolors = psd->bpp >= 24? (1 << 24): (1 << psd->bpp); psd->flags = PSF_SCREEN | PSF_HAVEBLIT; psd->size = 0; psd->addr = NULL; psd->portrait = MWPORTRAIT_NONE; /* create permanent savebits memory device from screen device*/ savebits = *psd; savebits.flags = PSF_MEMORY | PSF_HAVEBLIT; /* select a fb subdriver matching our planes and bpp*/ subdriver = select_fb_subdriver(&savebits); if (!subdriver) return NULL; /* calc size and linelen of savebits alloc*/ /* JHC - Is this redundant now?? */ GdCalcMemGCAlloc(&savebits, savebits.xvirtres, savebits.yvirtres, 0, 0, &size, &linelen); savebits.linelen = linelen; savebits.size = size; if ((savebits.addr = malloc(size)) == NULL) return NULL; set_subdriver(&savebits, subdriver, TRUE); /* set X11 psd to savebits memaddr for screen->offscreen blits...*/ psd->addr = savebits.addr; return psd; } static void X11_close(PSD psd) { /* free savebits memory*/ free(savebits.addr); XCloseDisplay(x11_dpy); } static void X11_getscreeninfo(PSD psd,PMWSCREENINFO psi) { psi->rows = psd->yvirtres; psi->cols = psd->xvirtres; psi->planes = psd->planes; psi->bpp = psd->bpp; psi->ncolors = psd->ncolors; psi->portrait = psd->portrait; psi->fonts = NUMBER_FONTS; psi->xdpcm = (DisplayWidth(x11_dpy,x11_scr)*10)/ DisplayWidthMM(x11_dpy,x11_scr); psi->ydpcm = (DisplayHeight(x11_dpy,x11_scr)*10)/ DisplayHeightMM(x11_dpy,x11_scr); psi->fbdriver = FALSE; /* not running fb driver, no direct map*/ psi->pixtype = psd->pixtype; switch (psd->pixtype) { case MWPF_TRUECOLOR0888: case MWPF_TRUECOLOR888: psi->rmask = 0xff0000; psi->gmask = 0x00ff00; psi->bmask = 0x0000ff; break; case MWPF_TRUECOLOR565: psi->rmask = 0xf800; psi->gmask = 0x07e0; psi->bmask = 0x001f; break; case MWPF_TRUECOLOR555: psi->rmask = 0x7c00; psi->gmask = 0x03e0; psi->bmask = 0x001f; break; case MWPF_TRUECOLOR332: psi->rmask = 0xe0; psi->gmask = 0x1c; psi->bmask = 0x03; break; case MWPF_PALETTE: default: psi->rmask = 0xff; psi->gmask = 0xff; psi->bmask = 0xff; break; } } static void X11_setpalette(PSD psd, int first, int count, MWPALENTRY *pal) { int i; int n; for (i = 0; i < count; i++) { char spec[20]; unsigned short r, g, b; XColor exact; XColor def; r = pal[i].r; g = pal[i].g; b = pal[i].b; sprintf(spec, "#%02x%02x%02x", r, g, b); XLookupColor(x11_dpy, x11_colormap, spec, &exact, &def); XAllocColor(x11_dpy, x11_colormap, &def); /* DPRINTF("lookup: exact(%d,%d,%d) = %d, def(%d,%d,%d)=%d\n", exact.red, exact.green, exact.blue, exact.pixel, def.red, def.green, def.blue, def.pixel); */ x11_palette[first+i] = def; } n = first + count - 1; if (n > x11_pal_max) x11_pal_max = n; } static void X11_drawpixel(PSD psd, MWCOORD x, MWCOORD y, MWPIXELVAL c) { set_color(c); set_mode(gr_mode); XDrawPoint(x11_dpy, x11_win, x11_gc, x, y); /* draw savebits for readpixel or blit*/ savebits.DrawPixel(&savebits, x, y, c); } static MWPIXELVAL X11_readpixel(PSD psd, MWCOORD x, MWCOORD y) { /* read savebits for pixel value, rather than ask X11*/ return savebits.ReadPixel(&savebits,x,y); } static void X11_drawhline(PSD psd,MWCOORD x1, MWCOORD x2, MWCOORD y, MWPIXELVAL c) { set_color(c); set_mode(gr_mode); XDrawLine(x11_dpy, x11_win, x11_gc, x1, y, x2, y); /* draw savebits for readpixel or blit*/ savebits.DrawHorzLine(&savebits, x1, x2, y, c); } static void X11_drawvline(PSD psd,MWCOORD x, MWCOORD y1, MWCOORD y2, MWPIXELVAL c) { set_color(c); set_mode(gr_mode); XDrawLine(x11_dpy, x11_win, x11_gc, x, y1, x, y2); savebits.DrawVertLine(&savebits, x, y1, y2, c); } static void X11_fillrect(PSD psd,MWCOORD x1, MWCOORD y1, MWCOORD x2, MWCOORD y2, MWPIXELVAL c) { set_color(c); set_mode(gr_mode); XFillRectangle(x11_dpy, x11_win, x11_gc, x1, y1, (x2-x1)+1, (y2-y1)+1); /* draw savebits for readpixel or blit*/ savebits.FillRect(&savebits, x1, y1, x2, y2, c); } static void X11_srccopyblit_screen_to_screen(PMWBLITARGS pb) { } static void X11_blendconstantblit_screen_to_mem(PMWBLITARGS pb) { } static void X11_blit(PSD dstpsd,MWCOORD destx,MWCOORD desty,MWCOORD w,MWCOORD h, PSD srcpsd,MWCOORD srcx,MWCOORD srcy, long op) { #if ALPHABLEND unsigned int alpha; #endif set_mode(gr_mode); if (dstpsd == srcpsd) { if (dstpsd->flags & PSF_SCREEN) { XCopyArea(x11_dpy, x11_win, x11_win, x11_gc, srcx, srcy, w, h, destx, desty); /* update screen savebits as well*/ savebits.Blit(&savebits, destx, desty, w, h, &savebits, srcx, srcy, op); } else /* memory to memory blit, use offscreen blitter*/ dstpsd->Blit(dstpsd, destx, desty, w, h, srcpsd, srcx, srcy, op); } else if (dstpsd->flags & PSF_SCREEN) { XImage* img; int depth = XDefaultDepth(x11_dpy, x11_scr); int x, y; char* data; /* allocate buffer */ if (depth >= 24) data = malloc(w*4*h); else if (depth > 8) /* 15, 16 */ data = malloc(w*2*h); else /* 1,2,4,8 */ data = malloc((w*depth+7)/8 * h); /* copy from offscreen to screen */ img = XCreateImage(x11_dpy, x11_vis, depth, ZPixmap, 0, data, w, h, 8, 0); #if ALPHABLEND && (MWPIXEL_FORMAT != MWPF_PALETTE) if ((op & MWROP_EXTENSION) == MWROP_BLENDCONSTANT) { alpha = op & 0xff; for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { MWPIXELVAL c = srcpsd->ReadPixel(srcpsd,srcx+x,srcy+y); MWPIXELVAL cd = dstpsd->ReadPixel(dstpsd,destx+x,desty+y); unsigned char nred = ALPHAPIXELRED(c, cd, alpha); unsigned char ngreen = ALPHAPIXELGREEN(c, cd, alpha); unsigned char nblue = ALPHAPIXELBLUE(c, cd, alpha); unsigned long pixel = PIXELVAL_to_pixel(RGB2PIXEL(nred, ngreen, nblue), srcpsd->pixtype); XPutPixel(img, x, y, pixel); /* update screen savebits*/ savebits.DrawPixel(&savebits, destx+x, desty+y, RGB2PIXEL(nred, ngreen, nblue)); } } } else { MWPIXELVAL c = 0; unsigned long pixel; for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { if (op == MWROP_COPY) c = srcpsd->ReadPixel(srcpsd,srcx+x,srcy+y); else { c = applyOpR(op, srcpsd->ReadPixel(srcpsd,srcx+x,srcy+y), dstpsd->ReadPixel(dstpsd,destx+x,desty+y)); pixel = PIXELVAL_to_pixel(c, srcpsd->pixtype); XPutPixel(img, x, y, pixel); } pixel = PIXELVAL_to_pixel(c, srcpsd->pixtype); XPutPixel(img, x, y, pixel); /* update screen savebits*/ savebits.DrawPixel(&savebits, destx+x, desty+y, c); } } } #else for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { MWPIXELVAL c = srcpsd->ReadPixel(srcpsd,srcx+x,srcy+y); unsigned long pixel = PIXELVAL_to_pixel(c, srcpsd->pixtype); XPutPixel(img, x, y, pixel); /* update screen savebits*/ savebits.DrawPixel(&savebits, destx+x, desty+y, c); } } #endif XPutImage(x11_dpy, x11_win, x11_gc, img, 0, 0, destx, desty, w, h); XDestroyImage(img); } else if (srcpsd->flags & PSF_SCREEN) { int x, y; #if ALPHABLEND && (MWPIXEL_FORMAT != MWPF_PALETTE) if ((op & MWROP_EXTENSION) == MWROP_BLENDCONSTANT) { alpha = op & 0xff; for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { MWPIXELVAL c = srcpsd->ReadPixel(srcpsd,srcx+x,srcy+y); MWPIXELVAL cd = dstpsd->ReadPixel(dstpsd,destx+x,desty+y); unsigned char nred = ALPHAPIXELRED(c, cd, alpha); unsigned char ngreen = ALPHAPIXELGREEN(c, cd, alpha); unsigned char nblue = ALPHAPIXELBLUE(c, cd, alpha); dstpsd->DrawPixel(dstpsd, destx+x, desty+y, RGB2PIXEL(nred, ngreen, nblue)); } } } else { /* copy from screen to offscreen, * emulated by copy from offscreen bits, no alpha */ for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { MWPIXELVAL c = srcpsd->ReadPixel(srcpsd,srcx+x,srcy+y); dstpsd->DrawPixel(dstpsd, destx+x, desty+y, c); } } } #else /* copy from screen to offscreen, emulated by copy from offscreen bits*/ for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { MWPIXELVAL c = srcpsd->ReadPixel(srcpsd,srcx+x,srcy+y); dstpsd->DrawPixel(dstpsd, destx+x, desty+y, c); } } #endif } } /* perform pre-select() duties*/ static void X11_preselect(PSD psd) { XFlush(x11_dpy); }