/***********************************************************************/ /* */ /* Objective Caml */ /* */ /* Xavier Leroy, projet Cristal, INRIA Rocquencourt */ /* */ /* Copyright 1996 Institut National de Recherche en Informatique et */ /* en Automatique. All rights reserved. This file is distributed */ /* under the terms of the GNU Library General Public License, with */ /* the special exception on linking described in file ../../LICENSE. */ /* */ /***********************************************************************/ /* $Id$ */ #include "libgraph.h" #include /* Cache to speed up the translation rgb -> pixel value. */ struct color_cache_entry { int rgb; /* RGB value with format 0xRRGGBB */ unsigned long pixel; /* Pixel value */ }; #define Color_cache_size 512 static struct color_cache_entry color_cache[Color_cache_size]; #define Empty (-1) #define Hash_rgb(r,g,b) \ ((((r) & 0xE0) << 1) + (((g) & 0xE0) >> 2) + (((b) & 0xE0) >> 5)) #define Color_cache_slack 16 static int num_overflows = 0; /* rgb -> pixel conversion *without* display connection */ Bool caml_gr_direct_rgb = False; int caml_gr_red_l, caml_gr_red_r; int caml_gr_green_l, caml_gr_green_r; int caml_gr_blue_l, caml_gr_blue_r; unsigned long caml_gr_red_mask, caml_gr_green_mask, caml_gr_blue_mask; /* rgb -> pixel table */ unsigned long caml_gr_red_vals[256]; unsigned long caml_gr_green_vals[256]; unsigned long caml_gr_blue_vals[256]; void caml_gr_get_shifts( unsigned long mask, int *lsl, int *lsr ) { int l = 0; int r = 0; int bit = 1; if ( mask == 0 ){ *lsl = -1; *lsr = -1; return; } for( l = 0; l < 32; l++ ){ if( bit & mask ){ break; } bit = bit << 1; } for( r = l; r < 32; r++ ){ if( ! (bit & mask) ){ break; } bit = bit << 1; } /* fix r */ if ( r == 32 ) { r = 31; } *lsl = l; *lsr = 16 - (r - l); } void caml_gr_init_direct_rgb_to_pixel(void) { Visual *visual; int i; visual = DefaultVisual(caml_gr_display,caml_gr_screen); if ( visual->class == TrueColor || visual->class == DirectColor ){ caml_gr_red_mask = visual->red_mask; caml_gr_green_mask = visual->green_mask; caml_gr_blue_mask = visual->blue_mask; #ifdef QUICKCOLORDEBUG fprintf(stderr, "visual %lx %lx %lx\n", caml_gr_red_mask, caml_gr_green_mask, caml_gr_blue_mask); #endif caml_gr_get_shifts(caml_gr_red_mask, &caml_gr_red_l, &caml_gr_red_r); #ifdef QUICKCOLORDEBUG fprintf(stderr, "red %d %d\n", caml_gr_red_l, caml_gr_red_r); #endif for(i=0; i<256; i++){ caml_gr_red_vals[i] = (((i << 8) + i) >> caml_gr_red_r) << caml_gr_red_l; } caml_gr_get_shifts(caml_gr_green_mask, &caml_gr_green_l, &caml_gr_green_r); #ifdef QUICKCOLORDEBUG fprintf(stderr, "green %d %d\n", caml_gr_green_l, caml_gr_green_r); #endif for(i=0; i<256; i++){ caml_gr_green_vals[i] = (((i << 8) + i) >> caml_gr_green_r) << caml_gr_green_l; } caml_gr_get_shifts(caml_gr_blue_mask, &caml_gr_blue_l, &caml_gr_blue_r); #ifdef QUICKCOLORDEBUG fprintf(stderr, "blue %d %d\n", caml_gr_blue_l, caml_gr_blue_r); #endif for(i=0; i<256; i++){ caml_gr_blue_vals[i] = (((i << 8) + i) >> caml_gr_blue_r) << caml_gr_blue_l; } if( caml_gr_red_l < 0 || caml_gr_red_r < 0 || caml_gr_green_l < 0 || caml_gr_green_r < 0 || caml_gr_blue_l < 0 || caml_gr_blue_r < 0 ){ #ifdef QUICKCOLORDEBUG fprintf(stderr, "Damn, boost failed\n"); #endif caml_gr_direct_rgb = False; } else { #ifdef QUICKCOLORDEBUG fprintf(stderr, "Boost ok\n"); #endif caml_gr_direct_rgb = True; } } else { /* we cannot use direct_rgb_to_pixel */ #ifdef QUICKCOLORDEBUG fprintf(stderr, "No boost!\n"); #endif caml_gr_direct_rgb = False; } } void caml_gr_init_color_cache(void) { int i; for (i = 0; i < Color_cache_size; i++) color_cache[i].rgb = Empty; i = Hash_rgb(0, 0, 0); color_cache[i].rgb = 0; color_cache[i].pixel = caml_gr_black; i = Hash_rgb(0xFF, 0xFF, 0xFF); color_cache[i].rgb = 0xFFFFFF; color_cache[i].pixel = caml_gr_white; } unsigned long caml_gr_pixel_rgb(int rgb) { unsigned int r, g, b; int h, i; XColor color; r = (rgb >> 16) & 0xFF; g = (rgb >> 8) & 0xFF; b = rgb & 0xFF; if (caml_gr_direct_rgb){ return caml_gr_red_vals[r] | caml_gr_green_vals[g] | caml_gr_blue_vals[b]; } h = Hash_rgb(r, g, b); i = h; while(1) { if (color_cache[i].rgb == Empty) break; if (color_cache[i].rgb == rgb) return color_cache[i].pixel; i = (i + 1) & (Color_cache_size - 1); if (i == h) { /* Cache is full. Instead of inserting at slot h, which causes thrashing if many colors hash to the same value, insert at h + n where n is pseudo-random and smaller than Color_cache_slack */ int slack = num_overflows++ & (Color_cache_slack - 1); i = (i + slack) & (Color_cache_size - 1); break; } } color.red = r * 0x101; color.green = g * 0x101; color.blue = b * 0x101; XAllocColor(caml_gr_display, caml_gr_colormap, &color); color_cache[i].rgb = rgb; color_cache[i].pixel = color.pixel; return color.pixel; } int caml_gr_rgb_pixel(long unsigned int pixel) { register int r,g,b; XColor color; int i; if (caml_gr_direct_rgb) { r = (((pixel & caml_gr_red_mask) >> caml_gr_red_l) << 8) >> (16 - caml_gr_red_r); g = (((pixel & caml_gr_green_mask) >> caml_gr_green_l) << 8) >> (16 - caml_gr_green_r); b = (((pixel & caml_gr_blue_mask) >> caml_gr_blue_l) << 8) >> (16 - caml_gr_blue_r); return (r << 16) + (g << 8) + b; } if (pixel == caml_gr_black) return 0; if (pixel == caml_gr_white) return 0xFFFFFF; /* Probably faster to do a linear search than to query the X server. */ for (i = 0; i < Color_cache_size; i++) { if (color_cache[i].rgb != Empty && color_cache[i].pixel == pixel) return color_cache[i].rgb; } color.pixel = pixel; XQueryColor(caml_gr_display, caml_gr_colormap, &color); return ((color.red >> 8) << 16) + ((color.green >> 8) << 8) + (color.blue >> 8); } value caml_gr_set_color(value vrgb) { int xcolor; caml_gr_check_open(); caml_gr_color = Int_val(vrgb); if (caml_gr_color >= 0 ){ xcolor = caml_gr_pixel_rgb(Int_val(vrgb)); XSetForeground(caml_gr_display, caml_gr_window.gc, xcolor); XSetForeground(caml_gr_display, caml_gr_bstore.gc, xcolor); } else { XSetForeground(caml_gr_display, caml_gr_window.gc, caml_gr_background); XSetForeground(caml_gr_display, caml_gr_bstore.gc, caml_gr_background); } return Val_unit; }