#include "config.h" #include "gdkprivate-fb.h" #include #include #include /* * Reading pixel values from a generic drawable. */ static GetPixelRet gdk_fb_drawable_get_color (GdkDrawable *drawable, GdkGC *gc, int x, int y, GdkColor *spot) { GetPixelRet retval = GPR_NONE; GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; switch (private->depth) { case 1: { guchar foo = mem[(x >> 3) + y * rowstride]; if (foo & (1 << (x % 8))) *spot = GDK_GC_FBDATA (gc)->values.foreground; else { retval = GPR_USED_BG; *spot = GDK_GC_FBDATA (gc)->values.background; } } break; case 71: if (mem[x + y * rowstride]) *spot = GDK_GC_FBDATA (gc)->values.foreground; else *spot = GDK_GC_FBDATA (gc)->values.background; break; case 77: retval = GPR_AA_GRAYVAL; spot->pixel = mem[x + y * rowstride] << 1; spot->red = spot->green = spot->blue = spot->pixel << 8; break; case 78: /* AA mode */ retval = GPR_AA_GRAYVAL; spot->pixel = mem[x + y * rowstride]; spot->red = spot->green = spot->blue = spot->pixel << 8; break; case 8: spot->pixel = mem[x + y * rowstride]; *spot = private->colormap->colors[spot->pixel]; break; case 16: { guint16 val16 = *((guint16 *)&mem[x*2 + y*rowstride]); spot->red = (((1<modeinfo.red.length) - 1) & (val16 >> gdk_display->modeinfo.red.offset)) << (16 - gdk_display->modeinfo.red.length); spot->green = (((1<modeinfo.green.length) - 1) & (val16 >> gdk_display->modeinfo.green.offset)) << (16 - gdk_display->modeinfo.green.length); spot->blue = (((1<modeinfo.blue.length) - 1) & (val16 >> gdk_display->modeinfo.blue.offset)) << (16 - gdk_display->modeinfo.blue.length); spot->pixel = val16; } break; case 24: { guchar *smem = &mem[x*3 + y*rowstride]; spot->red = smem[gdk_display->red_byte] << 8; spot->green = smem[gdk_display->green_byte] << 8; spot->blue = smem[gdk_display->blue_byte] << 8; #if (G_BYTE_ORDER == G_BIG_ENDIAN) spot->pixel = (smem[0]<<16)|(smem[1]<<8)|smem[2]; #else spot->pixel = smem[0]|(smem[1]<<8)|(smem[2]<<16); #endif } break; case 32: { guchar *smem = &mem[x*4 + y*rowstride]; spot->red = smem[gdk_display->red_byte] << 8; spot->green = smem[gdk_display->green_byte] << 8; spot->blue = smem[gdk_display->blue_byte] << 8; spot->pixel = *(guint32 *)smem; } break; } return retval; } /************************************* * gc->get_color() implementations *************************************/ static GetPixelRet gdk_fb_get_color_1 (GdkDrawable *drawable, GdkGC *gc, int x, int y, GdkColor *color) { GetPixelRet retval = GPR_NONE; GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; guchar foo; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); foo = mem[(x >> 3) + y * rowstride]; if (foo & (1 << (x % 8))) *color = GDK_GC_FBDATA (gc)->values.foreground; else { retval = GPR_USED_BG; *color = GDK_GC_FBDATA (gc)->values.background; } return retval; } static GetPixelRet gdk_fb_get_color_8 (GdkDrawable *drawable, GdkGC *gc, int x, int y, GdkColor *color) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; gint pixel; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); pixel = mem[x + y * rowstride]; *color = private->colormap->colors[pixel]; return GPR_NONE; } static GetPixelRet gdk_fb_get_color_16 (GdkDrawable *drawable, GdkGC *gc, int x, int y, GdkColor *color) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; guint16 val16; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); val16 = *((guint16 *)&mem[x*2 + y*rowstride]); color->red = (((1<modeinfo.red.length) - 1) & (val16 >> gdk_display->modeinfo.red.offset)) << (16 - gdk_display->modeinfo.red.length); color->green = (((1<modeinfo.green.length) - 1) & (val16 >> gdk_display->modeinfo.green.offset)) << (16 - gdk_display->modeinfo.green.length); color->blue = (((1<modeinfo.blue.length) - 1) & (val16 >> gdk_display->modeinfo.blue.offset)) << (16 - gdk_display->modeinfo.blue.length); color->pixel = val16; return GPR_NONE; } static GetPixelRet gdk_fb_get_color_24 (GdkDrawable *drawable, GdkGC *gc, int x, int y, GdkColor *color) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; guchar *smem; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); smem = &mem[x*3 + y*rowstride]; color->red = smem[gdk_display->red_byte] << 8; color->green = smem[gdk_display->green_byte] << 8; color->blue = smem[gdk_display->blue_byte] << 8; #if (G_BYTE_ORDER == G_BIG_ENDIAN) color->pixel = (smem[0]<<16)|(smem[1]<<8)|smem[2]; #else color->pixel = smem[0]|(smem[1]<<8)|(smem[2]<<16); #endif return GPR_NONE; } static GetPixelRet gdk_fb_get_color_32 (GdkDrawable *drawable, GdkGC *gc, int x, int y, GdkColor *color) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; guchar *smem; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); smem = &mem[x*4 + y*rowstride]; color->red = smem[gdk_display->red_byte] << 8; color->green = smem[gdk_display->green_byte] << 8; color->blue = smem[gdk_display->blue_byte] << 8; color->pixel = *(guint32 *)smem; return GPR_NONE; } /************************************* * gc->set_pixel() implementations *************************************/ static void gdk_fb_set_pixel_1(GdkDrawable *drawable, GdkGC *gc, int x, int y, gulong pixel) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; guchar *ptr; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); ptr = mem + (y*rowstride) + (x >> 3); if (pixel) *ptr |= (1 << (x % 8)); else *ptr &= ~(1 << (x % 8)); } static void gdk_fb_set_pixel_8(GdkDrawable *drawable, GdkGC *gc, int x, int y, gulong pixel) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); mem[x + y*rowstride] = pixel; } static void gdk_fb_set_pixel_16(GdkDrawable *drawable, GdkGC *gc, int x, int y, gulong pixel) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; guint16 *ptr; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); ptr = (guint16 *)&mem[x*2 + y*rowstride]; *ptr = pixel; } static void gdk_fb_set_pixel_24(GdkDrawable *drawable, GdkGC *gc, int x, int y, gulong pixel) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; guchar *smem; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); smem = &mem[x*3 + y*rowstride]; smem[0] = pixel & 0xff; smem[1] = (pixel >> 8) & 0xff; smem[2] = (pixel >> 16) & 0xff; } static void gdk_fb_set_pixel_32(GdkDrawable *drawable, GdkGC *gc, int x, int y, gulong pixel) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); guchar *mem = private->mem; guint rowstride = private->rowstride; guint32 *smem; g_assert (private->depth == GDK_GC_FBDATA (gc)->depth); smem = (guint32 *)&mem[x*4 + y*rowstride]; *smem = pixel; } /************************************* * gc->fill_span() implementations *************************************/ static void gdk_fb_fill_span_generic (GdkDrawable *drawable, GdkGC *gc, GdkSpan *span, GdkColor *color) { int curx; GdkColor spot = *color; GdkGCFBData *gc_private; GdkDrawableFBData *private; gint left, right, y; int clipxoff, clipyoff; /* Amounts to add to curx & cury to get x & y in clip mask */ int tsxoff, tsyoff; GdkDrawable *cmask; guchar *clipmem; guint mask_rowstride; GdkPixmap *ts = NULL; GdkDrawableFBData *ts_private; gboolean solid_stipple; GdkFunction func; private = GDK_DRAWABLE_FBDATA (drawable); gc_private = GDK_GC_FBDATA (gc); g_assert (gc); y = span->y; left = span->x; right = span->x + span->width; func = gc_private->values.function; cmask = gc_private->values.clip_mask; clipxoff = clipyoff = tsxoff = tsyoff = 0; mask_rowstride = 0; solid_stipple = FALSE; clipmem = NULL; if (cmask) { GdkDrawableFBData *cmask_private; cmask_private = GDK_DRAWABLE_IMPL_FBDATA (cmask); clipmem = cmask_private->mem; clipxoff = cmask_private->abs_x - gc_private->values.clip_x_origin - private->abs_x; clipyoff = cmask_private->abs_y - gc_private->values.clip_y_origin - private->abs_y; mask_rowstride = cmask_private->rowstride; } if (gc_private->values.fill == GDK_TILED && gc_private->values.tile) { gint xstep; gint relx, rely; int drawh; GdkFBDrawingContext *dc, dc_data; dc = &dc_data; gdk_fb_drawing_context_init (dc, drawable, gc, FALSE, TRUE); ts = gc_private->values.tile; ts_private = GDK_DRAWABLE_IMPL_FBDATA (ts); rely = y - private->abs_y; drawh = (rely + gc_private->values.ts_y_origin) % ts_private->height; if (drawh < 0) drawh += GDK_DRAWABLE_FBDATA (ts)->height; for (curx = left; curx < right; curx += xstep) { int draww; relx = curx - private->abs_x; draww = (relx + gc_private->values.ts_x_origin) % ts_private->width; if (draww < 0) draww += ts_private->width; xstep = MIN (ts_private->width - draww, right - relx); gdk_fb_draw_drawable_3 (drawable, gc, GDK_DRAWABLE_IMPL (ts), dc, draww, drawh, relx, rely, xstep, 1); } gdk_fb_drawing_context_finalize (dc); return; } else if ((gc_private->values.fill == GDK_STIPPLED || gc_private->values.fill == GDK_OPAQUE_STIPPLED) && gc_private->values.stipple) { ts = gc_private->values.stipple; tsxoff = GDK_DRAWABLE_FBDATA (ts)->abs_x - gc_private->values.ts_x_origin - private->abs_x; tsyoff = GDK_DRAWABLE_FBDATA (ts)->abs_y - gc_private->values.ts_y_origin - private->abs_y; solid_stipple = (gc_private->values.fill == GDK_OPAQUE_STIPPLED); } for (curx = left; curx < right; curx++) { int maskx = curx+clipxoff, masky = y + clipyoff; guchar foo; if (cmask) { foo = clipmem[masky*mask_rowstride + (maskx >> 3)]; if (!(foo & (1 << (maskx % 8)))) continue; } if (func == GDK_INVERT) { (gc_private->get_color) (drawable, gc, curx, y, &spot); spot.pixel = ~spot.pixel; spot.red = ~spot.red; spot.green = ~spot.green; spot.blue = ~spot.blue; } else if (func == GDK_XOR) { (gc_private->get_color) (drawable, gc, curx, y, &spot); spot.pixel ^= gc_private->values.foreground.pixel; } else if (func != GDK_COPY) { g_warning ("Unsupported GdkFunction %d\n", func); } else if (ts) { int wid, hih; ts_private = GDK_DRAWABLE_IMPL_FBDATA (ts); wid = ts_private->width; hih = ts_private->height; maskx = (curx+tsxoff)%wid; masky = (y+tsyoff)%hih; if (maskx < 0) maskx += wid; if (masky < 0) masky += hih; foo = ts_private->mem[(maskx >> 3) + ts_private->rowstride*masky]; if (foo & (1 << (maskx % 8))) { spot = gc_private->values.foreground; } else if (solid_stipple) { spot = gc_private->values.background; } else continue; } (gc_private->set_pixel) (drawable, gc, curx, y, spot.pixel); } } static void gdk_fb_fill_span_simple_1 (GdkDrawable *drawable, GdkGC *gc, GdkSpan *span, GdkColor *color) { int curx; GdkGCFBData *gc_private; GdkDrawableFBData *private; guchar *mem, *ptr; guint rowstride; gint left, right, y; private = GDK_DRAWABLE_FBDATA (drawable); gc_private = GDK_GC_FBDATA (gc); g_assert (gc); g_assert (!gc_private->values.clip_mask && !gc_private->values.tile && !gc_private->values.stipple && gc_private->values.function != GDK_INVERT); y = span->y; left = span->x; right = span->x + span->width; mem = private->mem; rowstride = private->rowstride; { int fromx = MIN ((left+7)&(~7), right); int begn = fromx - left, begoff = left % 8, endn; guchar begmask, endmask; int body_end = right & ~7; int body_len = (body_end - fromx)/8; begmask = ((1 << (begn + begoff)) - 1) & ~((1 << (begoff)) - 1); endn = right - body_end; endmask = (1 << endn) - 1; ptr = mem + y*rowstride + (left >> 3); if (color->pixel) *ptr |= begmask; else *ptr &= ~begmask; curx = fromx; if (curx < right) { ptr = mem + y*rowstride + (curx >> 3); memset (ptr, color->pixel?0xFF:0, body_len); if (endn) { ptr = mem + y*rowstride + (body_end >> 3); if (color->pixel) *ptr |= endmask; else *ptr &= ~endmask; } } } } static void gdk_fb_fill_span_simple_8 (GdkDrawable *drawable, GdkGC *gc, GdkSpan *span, GdkColor *color) { GdkGCFBData *gc_private; GdkDrawableFBData *private; guchar *mem, *ptr; guint rowstride; private = GDK_DRAWABLE_FBDATA (drawable); gc_private = GDK_GC_FBDATA (gc); g_assert (gc); g_assert (!gc_private->values.clip_mask && !gc_private->values.tile && !gc_private->values.stipple && gc_private->values.function != GDK_INVERT); mem = private->mem; rowstride = private->rowstride; ptr = mem + span->y*rowstride + span->x; memset (ptr, color->pixel, span->width); } static void gdk_fb_fill_span_simple_16 (GdkDrawable *drawable, GdkGC *gc, GdkSpan *span, GdkColor *color) { GdkGCFBData *gc_private; GdkDrawableFBData *private; guchar *mem; guint rowstride; guint16 *p16; int n; int i; private = GDK_DRAWABLE_FBDATA (drawable); gc_private = GDK_GC_FBDATA (gc); g_assert (gc); g_assert (!gc_private->values.clip_mask && !gc_private->values.tile && !gc_private->values.stipple && gc_private->values.function != GDK_INVERT); mem = private->mem; rowstride = private->rowstride; n = span->width; p16 = (guint16 *)(mem + span->y * rowstride + span->x*2); for (i = 0; i < n; i++) *(p16++) = color->pixel; } static void gdk_fb_fill_span_simple_24 (GdkDrawable *drawable, GdkGC *gc, GdkSpan *span, GdkColor *color) { GdkGCFBData *gc_private; GdkDrawableFBData *private; guchar *mem, *ptr; guint rowstride; int n; guchar redval, greenval, blueval; guchar *firstline, *ptr_end; private = GDK_DRAWABLE_FBDATA (drawable); gc_private = GDK_GC_FBDATA (gc); g_assert (gc); g_assert (!gc_private->values.clip_mask && !gc_private->values.tile && !gc_private->values.stipple && gc_private->values.function != GDK_INVERT); mem = private->mem; rowstride = private->rowstride; redval = color->red>>8; greenval = color->green>>8; blueval = color->blue>>8; n = span->width*3; firstline = ptr = mem + span->y * rowstride + span->x*3; ptr_end = ptr+n; while (ptr < ptr_end) { ptr[gdk_display->red_byte] = redval; ptr[gdk_display->green_byte] = greenval; ptr[gdk_display->blue_byte] = blueval; ptr += 3; } } static void gdk_fb_fill_span_simple_32 (GdkDrawable *drawable, GdkGC *gc, GdkSpan *span, GdkColor *color) { GdkGCFBData *gc_private; GdkDrawableFBData *private; guchar *mem; guint rowstride; guint32 *p32; int n; int i; private = GDK_DRAWABLE_FBDATA (drawable); gc_private = GDK_GC_FBDATA (gc); g_assert (gc); g_assert (!gc_private->values.clip_mask && !gc_private->values.tile && !gc_private->values.stipple && gc_private->values.function != GDK_INVERT); mem = private->mem; rowstride = private->rowstride; n = span->width; p32 = (guint32 *)(mem + span->y * rowstride + span->x*4); for (i = 0; i < n; i++) *(p32++) = color->pixel; } /************************************* * gc->draw_drawable() implementations *************************************/ static void gdk_fb_draw_drawable_generic (GdkDrawable *drawable, GdkGC *gc, GdkPixmap *src, GdkFBDrawingContext *dc, gint start_y, gint end_y, gint start_x, gint end_x, gint src_x_off, gint src_y_off, gint draw_direction) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); int cur_x, cur_y; if (draw_direction < 0) { int tmp; tmp = start_y; start_y = end_y; end_y = tmp; start_y--; end_y--; tmp = start_x; start_x = end_x; end_x = tmp; start_x--; end_x--; } for (cur_y = start_y; cur_y != end_y; cur_y+=draw_direction) { for (cur_x = start_x; cur_x != end_x; cur_x+=draw_direction) { GdkColor spot; if (GDK_GC_FBDATA(gc)->values.clip_mask) { int maskx = cur_x + dc->clipxoff, masky = cur_y + dc->clipyoff; guchar foo; foo = dc->clipmem[masky*dc->clip_rowstride + (maskx >> 3)]; if (!(foo & (1 << (maskx % 8)))) continue; } switch (gdk_fb_drawable_get_color (src, gc, cur_x + src_x_off, cur_y + src_y_off, &spot)) { case GPR_AA_GRAYVAL: { GdkColor realspot, fg; guint graylevel = spot.pixel; gint tmp; if (private->depth == 1) { if (spot.pixel > 192) spot = GDK_GC_FBDATA (gc)->values.foreground; else spot = GDK_GC_FBDATA (gc)->values.background; break; } else { if (graylevel >= 254) { spot = GDK_GC_FBDATA (gc)->values.foreground; } else if (graylevel <= 2) { if (!dc->draw_bg) continue; spot = GDK_GC_FBDATA (gc)->values.background; } else { switch ((GDK_GC_FBDATA (gc)->get_color) (drawable, gc, cur_x, cur_y, &realspot)) { case GPR_USED_BG: { int bgx, bgy; bgx = (cur_x - GDK_DRAWABLE_IMPL_FBDATA (dc->bg_relto)->abs_x) % GDK_DRAWABLE_IMPL_FBDATA (dc->bgpm)->width + private->abs_x; bgy = (cur_y - GDK_DRAWABLE_IMPL_FBDATA (dc->bg_relto)->abs_y) % GDK_DRAWABLE_IMPL_FBDATA (dc->bgpm)->height + private->abs_y; gdk_fb_drawable_get_color (dc->bgpm, gc, bgx, bgy, &realspot); } break; case GPR_NONE: break; default: g_assert_not_reached (); break; } fg = GDK_GC_FBDATA (gc)->values.foreground; /* Now figure out what 'spot' should actually look like */ fg.red >>= 8; fg.green >>= 8; fg.blue >>= 8; realspot.red >>= 8; realspot.green >>= 8; realspot.blue >>= 8; tmp = (fg.red - realspot.red) * graylevel; spot.red = realspot.red + ((tmp + (tmp >> 8) + 0x80) >> 8); spot.red <<= 8; tmp = (fg.green - realspot.green) * graylevel; spot.green = realspot.green + ((tmp + (tmp >> 8) + 0x80) >> 8); spot.green <<= 8; tmp = (fg.blue - realspot.blue) * graylevel; spot.blue = realspot.blue + ((tmp + (tmp >> 8) + 0x80) >> 8); spot.blue <<= 8; /* Now find the pixel for this thingie */ switch (private->depth) { case 8: if (!gdk_colormap_alloc_color (private->colormap, &spot, FALSE, TRUE)) { g_error ("Can't allocate AA color!"); } break; case 16: spot.pixel = (spot.red >> (16 - gdk_display->modeinfo.red.length)) << gdk_display->modeinfo.red.offset; spot.pixel |= (spot.green >> (16 - gdk_display->modeinfo.green.length)) << gdk_display->modeinfo.green.offset; spot.pixel |= (spot.blue >> (16 - gdk_display->modeinfo.blue.length)) << gdk_display->modeinfo.blue.offset; break; case 24: case 32: spot.pixel = ((spot.red & 0xFF00) >> 8 << (gdk_display->modeinfo.red.offset)) | ((spot.green & 0xFF00) >> 8 << (gdk_display->modeinfo.green.offset)) | ((spot.blue & 0xFF00) >> 8 << (gdk_display->modeinfo.blue.offset)); break; } } } } break; case GPR_USED_BG: if (!dc->draw_bg) continue; break; case GPR_NONE: break; default: g_assert_not_reached (); break; } (GDK_GC_FBDATA (gc)->set_pixel) (drawable, gc, cur_x, cur_y, spot.pixel); } } } void gdk_fb_draw_drawable_memmove (GdkDrawable *drawable, GdkGC *gc, GdkPixmap *src, GdkFBDrawingContext *dc, gint start_y, gint end_y, gint start_x, gint end_x, gint src_x_off, gint src_y_off, gint draw_direction) { GdkDrawableFBData *src_private = GDK_DRAWABLE_FBDATA (src); guint depth = src_private->depth; guint src_rowstride = src_private->rowstride; guchar *srcmem = src_private->mem; int linelen = (end_x - start_x)*(depth>>3); gint cur_y; if (draw_direction < 0) { int tmp; tmp = start_y; start_y = end_y; end_y = tmp; start_y--; end_y--; } for(cur_y = start_y; cur_y != end_y; cur_y += draw_direction) { memmove (dc->mem + (cur_y * dc->rowstride) + start_x*(depth>>3), srcmem + ((cur_y + src_y_off)*src_rowstride) + (start_x + src_x_off)*(depth>>3), linelen); } } static void gdk_fb_draw_drawable_aa_24 (GdkDrawable *drawable, GdkGC *gc, GdkPixmap *src, GdkFBDrawingContext *dc, gint start_y, gint end_y, gint start_x, gint end_x, gint src_x_off, gint src_y_off, gint draw_direction) { GdkDrawableFBData *private = GDK_DRAWABLE_FBDATA (drawable); int x, y; GdkGCFBData *gc_private; guchar *dmem = private->mem; guint dst_rowstride = private->rowstride; guchar *smem = GDK_DRAWABLE_FBDATA (src)->mem; guint src_rowstride = GDK_DRAWABLE_FBDATA (src)->rowstride; guchar *dst; guint grayval; gint r, g, b, tmp; GdkColor fg; gint fg_r, fg_g, fg_b; gc_private = GDK_GC_FBDATA (gc); fg = GDK_GC_FBDATA (gc)->values.foreground; fg_r = fg.red >> 8; fg_g = fg.green >> 8; fg_b = fg.blue >> 8; if (draw_direction < 0) { int tmp; tmp = start_y; start_y = end_y; end_y = tmp; start_y--; end_y--; tmp = start_x; start_x = end_x; end_x = tmp; start_x--; end_x--; } for (y = start_y; y != end_y; y+=draw_direction) { for (x = start_x; x != end_x; x+=draw_direction) { grayval = smem[x + src_x_off + (y + src_y_off) * src_rowstride]; if ((grayval <= 2) && (!dc->draw_bg)) continue; dst = &dmem[x*3 + y*dst_rowstride]; if (grayval >= 254) { dst[gdk_display->red_byte] = fg_r; dst[gdk_display->green_byte] = fg_g; dst[gdk_display->blue_byte] = fg_b; } else if (grayval <= 2) { dst[gdk_display->red_byte] = GDK_GC_FBDATA (gc)->values.background.red >> 8; dst[gdk_display->green_byte] = GDK_GC_FBDATA (gc)->values.background.green >> 8; dst[gdk_display->blue_byte] = GDK_GC_FBDATA (gc)->values.background.blue >> 8; } else { r = dst[gdk_display->red_byte]; tmp = (fg_r - r) * (gint)grayval; r = r + ((tmp + (tmp >> 8) + 0x80) >> 8); dst[gdk_display->red_byte] = r; g = dst[gdk_display->green_byte]; tmp = (fg_g - g) * (gint)grayval; g = g + ((tmp + (tmp >> 8) + 0x80) >> 8); dst[gdk_display->green_byte] = g; b = dst[gdk_display->blue_byte]; tmp = (fg_b - b) * (gint)grayval; b = b + ((tmp + (tmp >> 8) + 0x80) >> 8); dst[gdk_display->blue_byte] = b; } } } } /************************************* * gc->fill_rectangle() implementations *************************************/ void gdk_fb_fill_rectangle_generic (GdkDrawable *drawable, GdkGC *gc, GdkRectangle *rect, GdkColor *color) { GdkDrawableFBData *private; GdkSpan *spans; int i; private = GDK_DRAWABLE_FBDATA (drawable); spans = g_new (GdkSpan, rect->height); for (i = 0; i < rect->height; i++) { spans[i].x = rect->x - private->abs_x; spans[i].y = rect->y+i - private->abs_y; spans[i].width = rect->width; } gdk_fb_fill_spans (drawable, gc, spans, rect->height, TRUE); g_free (spans); } void gdk_fb_fill_rectangle_simple_16 (GdkDrawable *drawable, GdkGC *gc, GdkRectangle *rect, GdkColor *color) { GdkGCFBData *gc_private; GdkDrawableFBData *private; guchar *ptr; guint rowstride; int n; gboolean extra; int i; guint32 pixel; gint height; private = GDK_DRAWABLE_FBDATA (drawable); gc_private = GDK_GC_FBDATA (gc); rowstride = private->rowstride - rect->width*2; ptr = (guchar *)private->mem + rect->y * private->rowstride + rect->x*2; extra = rect->width&1; n = rect->width>>1; pixel = (color->pixel << 16) | color->pixel; height = rect->height; while (height>0) { i = n; while (i>0) { *(guint32 *)ptr = pixel; ptr += 4; i--; } if (extra) { *(guint16 *)ptr = color->pixel; ptr += 2; } ptr += rowstride; height--; } } void gdk_fb_fill_rectangle_simple_32 (GdkDrawable *drawable, GdkGC *gc, GdkRectangle *rect, GdkColor *color) { GdkGCFBData *gc_private; GdkDrawableFBData *private; guchar *ptr; guint rowstride; int n; int i; guint32 pixel; gint height; private = GDK_DRAWABLE_FBDATA (drawable); gc_private = GDK_GC_FBDATA (gc); rowstride = private->rowstride - rect->width*4; ptr = (guchar *)private->mem + rect->y * private->rowstride + rect->x*4; n = rect->width; pixel = color->pixel; height = rect->height; while (height>0) { i = n; while (i>0) { *(guint32 *)ptr = pixel; ptr += 4; i--; } ptr += rowstride; height--; } } /************************************* * GC state calculation *************************************/ void _gdk_fb_gc_calc_state (GdkGC *gc, GdkGCValuesMask changed) { GdkGCFBData *gc_private; int i; gc_private = GDK_GC_FBDATA (gc); gc_private->fill_span = gdk_fb_fill_span_generic; gc_private->fill_rectangle = gdk_fb_fill_rectangle_generic; for (i = 0; i < GDK_NUM_FB_SRCBPP; i++) gc_private->draw_drawable[i] = gdk_fb_draw_drawable_generic; if (changed & _GDK_FB_GC_DEPTH) switch (gc_private->depth) { case 1: gc_private->set_pixel = gdk_fb_set_pixel_1; gc_private->get_color = gdk_fb_get_color_1; break; case 8: gc_private->set_pixel = gdk_fb_set_pixel_8; gc_private->get_color = gdk_fb_get_color_8; break; case 16: gc_private->set_pixel = gdk_fb_set_pixel_16; gc_private->get_color = gdk_fb_get_color_16; break; case 24: gc_private->set_pixel = gdk_fb_set_pixel_24; gc_private->get_color = gdk_fb_get_color_24; break; case 32: gc_private->set_pixel = gdk_fb_set_pixel_32; gc_private->get_color = gdk_fb_get_color_32; break; default: g_assert_not_reached (); break; } if (!gc_private->values.clip_mask) { switch (gc_private->depth) { case 8: gc_private->draw_drawable[GDK_FB_SRC_BPP_8] = gdk_fb_draw_drawable_memmove; break; case 16: gc_private->draw_drawable[GDK_FB_SRC_BPP_16] = gdk_fb_draw_drawable_memmove; break; case 24: gc_private->draw_drawable[GDK_FB_SRC_BPP_8_AA_GRAYVAL] = gdk_fb_draw_drawable_aa_24; gc_private->draw_drawable[GDK_FB_SRC_BPP_24] = gdk_fb_draw_drawable_memmove; break; case 32: gc_private->draw_drawable[GDK_FB_SRC_BPP_32] = gdk_fb_draw_drawable_memmove; break; } } if (!gc_private->values.clip_mask && !gc_private->values.tile && !gc_private->values.stipple && gc_private->values.function == GDK_COPY) { switch (gc_private->depth) { case 1: gc_private->fill_span = gdk_fb_fill_span_simple_1; break; case 8: gc_private->fill_span = gdk_fb_fill_span_simple_8; break; case 16: gc_private->fill_span = gdk_fb_fill_span_simple_16; gc_private->fill_rectangle = gdk_fb_fill_rectangle_simple_16; break; case 24: gc_private->fill_span = gdk_fb_fill_span_simple_24; break; case 32: gc_private->fill_span = gdk_fb_fill_span_simple_32; gc_private->fill_rectangle = gdk_fb_fill_rectangle_simple_32; break; default: g_assert_not_reached (); break; } } } #ifdef ENABLE_SHADOW_FB static void gdk_shadow_fb_copy_rect_0 (gint x, gint y, gint width, gint height) { guchar *dst, *src; gint depth; depth = gdk_display->modeinfo.bits_per_pixel / 8; dst = gdk_display->fb_mmap + x * depth + gdk_display->sinfo.line_length * y; src = gdk_display->fb_mem + x * depth + gdk_display->fb_stride * y; width = width*depth; while (height>0) { memcpy (dst, src, width); dst += gdk_display->sinfo.line_length; src += gdk_display->fb_stride; height--; } } static void gdk_shadow_fb_copy_rect_90 (gint x, gint y, gint width, gint height) { guchar *dst, *src, *pdst; gint depth; gint w; gint i; depth = gdk_display->modeinfo.bits_per_pixel / 8; src = gdk_display->fb_mem + x * depth + gdk_display->fb_stride * y; dst = gdk_display->fb_mmap + y * depth + gdk_display->sinfo.line_length * (gdk_display->fb_width - x - 1); while (height>0) { w = width; pdst = dst; while (w>0) { for (i = 0; i < depth; i++) *pdst++ = *src++; pdst -= gdk_display->sinfo.line_length + depth; w--; } dst += depth; src += gdk_display->fb_stride - width * depth; height--; } } static void gdk_shadow_fb_copy_rect_180 (gint x, gint y, gint width, gint height) { guchar *dst, *src, *pdst; gint depth; gint w; gint i; depth = gdk_display->modeinfo.bits_per_pixel / 8; src = gdk_display->fb_mem + x * depth + gdk_display->fb_stride * y; dst = gdk_display->fb_mmap + (gdk_display->fb_width - x - 1) * depth + gdk_display->sinfo.line_length * (gdk_display->fb_height - y - 1) ; while (height>0) { w = width; pdst = dst; while (w>0) { for (i = 0; i < depth; i++) *pdst++ = *src++; pdst -= 2 * depth; w--; } dst -= gdk_display->sinfo.line_length; src += gdk_display->fb_stride - width * depth; height--; } } static void gdk_shadow_fb_copy_rect_270 (gint x, gint y, gint width, gint height) { guchar *dst, *src, *pdst; gint depth; gint w; gint i; depth = gdk_display->modeinfo.bits_per_pixel / 8; src = gdk_display->fb_mem + x * depth + gdk_display->fb_stride * y; dst = gdk_display->fb_mmap + (gdk_display->fb_height - y - 1) * depth + gdk_display->sinfo.line_length * x; while (height>0) { w = width; pdst = dst; while (w>0) { for (i = 0; i < depth; i++) *pdst++ = *src++; pdst += gdk_display->sinfo.line_length - depth; w--; } dst -= depth; src += gdk_display->fb_stride - width * depth; height--; } } static void (*shadow_copy_rect[4]) (gint x, gint y, gint width, gint height); volatile gint refresh_queued = 0; volatile gint refresh_x1, refresh_y1; volatile gint refresh_x2, refresh_y2; static void gdk_shadow_fb_refresh (int signum) { gint minx, miny, maxx, maxy; if (!refresh_queued) { struct itimerval timeout; /* Stop the timer */ timeout.it_value.tv_sec = 0; timeout.it_value.tv_usec = 0; timeout.it_interval.tv_sec = 0; timeout.it_interval.tv_usec = 0; setitimer (ITIMER_REAL, &timeout, NULL); return; } minx = refresh_x1; miny = refresh_y1; maxx = refresh_x2; maxy = refresh_y2; refresh_queued = 0; /* clip x */ if (minx < 0) { minx = 0; maxx = MAX (maxx, 0); } if (maxx >= gdk_display->fb_width) { maxx = gdk_display->fb_width-1; minx = MIN (minx, maxx); } /* clip y */ if (miny < 0) { miny = 0; maxy = MAX (maxy, 0); } if (maxy >= gdk_display->fb_height) { maxy = gdk_display->fb_height-1; miny = MIN (miny, maxy); } (*shadow_copy_rect[_gdk_fb_screen_angle]) (minx, miny, maxx - minx + 1, maxy - miny + 1); } void gdk_shadow_fb_stop_updates (void) { struct itimerval timeout; refresh_queued = 0; /* Stop the timer */ timeout.it_value.tv_sec = 0; timeout.it_value.tv_usec = 0; timeout.it_interval.tv_sec = 0; timeout.it_interval.tv_usec = 0; setitimer (ITIMER_REAL, &timeout, NULL); refresh_queued = 0; } void gdk_shadow_fb_init (void) { struct sigaction action; action.sa_handler = gdk_shadow_fb_refresh; sigemptyset (&action.sa_mask); action.sa_flags = 0; sigaction (SIGALRM, &action, NULL); shadow_copy_rect[GDK_FB_0_DEGREES] = gdk_shadow_fb_copy_rect_0; shadow_copy_rect[GDK_FB_90_DEGREES] = gdk_shadow_fb_copy_rect_90; shadow_copy_rect[GDK_FB_180_DEGREES] = gdk_shadow_fb_copy_rect_180; shadow_copy_rect[GDK_FB_270_DEGREES] = gdk_shadow_fb_copy_rect_270; } /* maxx and maxy are included */ void gdk_shadow_fb_update (gint minx, gint miny, gint maxx, gint maxy) { struct itimerval timeout; g_assert (minx <= maxx); g_assert (miny <= maxy); if (refresh_queued) { refresh_x1 = MIN (refresh_x1, minx); refresh_y1 = MIN (refresh_y1, miny); refresh_x2 = MAX (refresh_x2, maxx); refresh_y2 = MAX (refresh_y2, maxy); refresh_queued = 1; } else { refresh_x1 = minx; refresh_y1 = miny; refresh_x2 = maxx; refresh_y2 = maxy; refresh_queued = 1; getitimer (ITIMER_REAL, &timeout); if (timeout.it_value.tv_usec == 0) { timeout.it_value.tv_sec = 0; timeout.it_value.tv_usec = 20000; /* 20 ms => 50 fps */ timeout.it_interval.tv_sec = 0; timeout.it_interval.tv_usec = 20000; /* 20 ms => 50 fps */ setitimer (ITIMER_REAL, &timeout, NULL); } } } #else void gdk_shadow_fb_update (gint minx, gint miny, gint maxx, gint maxy) { } void gdk_shadow_fb_init (void) { } #endif