/* GDK - The GIMP Drawing Kit * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * 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 Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* * Modified by the GTK+ Team and others 1997-1999. See the AUTHORS * file for a list of people on the GTK+ Team. See the ChangeLog * files for a list of changes. These files are distributed with * GTK+ at ftp://ftp.gtk.org/pub/gtk/. */ #include #include "gdkcolor.h" #include "gdkx.h" static gint gdk_colormap_match_color (GdkColormap *cmap, GdkColor *color, const gchar *available); static void gdk_colormap_add (GdkColormap *cmap); static void gdk_colormap_remove (GdkColormap *cmap); static guint gdk_colormap_hash (Colormap *cmap); static gint gdk_colormap_cmp (Colormap *a, Colormap *b); static GHashTable *colormap_hash = NULL; GdkColormap* gdk_colormap_new (GdkVisual *visual, gint private_cmap) { GdkColormap *colormap; GdkColormapPrivateX *private; Visual *xvisual; int size; int i; g_return_val_if_fail (visual != NULL, NULL); private = g_new (GdkColormapPrivateX, 1); colormap = (GdkColormap*) private; private->xdisplay = gdk_display; private->base.visual = visual; private->base.ref_count = 1; private->hash = NULL; private->last_sync_time = 0; private->info = NULL; xvisual = ((GdkVisualPrivate*) visual)->xvisual; colormap->size = visual->colormap_size; colormap->colors = NULL; switch (visual->type) { case GDK_VISUAL_GRAYSCALE: case GDK_VISUAL_PSEUDO_COLOR: private->info = g_new0 (GdkColorInfo, colormap->size); colormap->colors = g_new (GdkColor, colormap->size); private->hash = g_hash_table_new ((GHashFunc) gdk_color_hash, (GCompareFunc) gdk_color_equal); private->private_val = private_cmap; private->xcolormap = XCreateColormap (private->xdisplay, gdk_root_window, xvisual, (private_cmap) ? (AllocAll) : (AllocNone)); if (private_cmap) { XColor *default_colors; default_colors = g_new (XColor, colormap->size); for (i = 0; i < colormap->size; i++) default_colors[i].pixel = i; XQueryColors (private->xdisplay, DefaultColormap (private->xdisplay, gdk_screen), default_colors, colormap->size); for (i = 0; i < colormap->size; i++) { colormap->colors[i].pixel = default_colors[i].pixel; colormap->colors[i].red = default_colors[i].red; colormap->colors[i].green = default_colors[i].green; colormap->colors[i].blue = default_colors[i].blue; } gdk_colormap_change (colormap, colormap->size); g_free (default_colors); } break; case GDK_VISUAL_DIRECT_COLOR: private->private_val = TRUE; private->xcolormap = XCreateColormap (private->xdisplay, gdk_root_window, xvisual, AllocAll); colormap->colors = g_new (GdkColor, colormap->size); size = 1 << visual->red_prec; for (i = 0; i < size; i++) colormap->colors[i].red = i * 65535 / (size - 1); size = 1 << visual->green_prec; for (i = 0; i < size; i++) colormap->colors[i].green = i * 65535 / (size - 1); size = 1 << visual->blue_prec; for (i = 0; i < size; i++) colormap->colors[i].blue = i * 65535 / (size - 1); gdk_colormap_change (colormap, colormap->size); break; case GDK_VISUAL_STATIC_GRAY: case GDK_VISUAL_STATIC_COLOR: case GDK_VISUAL_TRUE_COLOR: private->private_val = FALSE; private->xcolormap = XCreateColormap (private->xdisplay, gdk_root_window, xvisual, AllocNone); break; } gdk_colormap_add (colormap); return colormap; } void _gdk_colormap_real_destroy (GdkColormap *colormap) { GdkColormapPrivateX *private = (GdkColormapPrivateX*) colormap; gdk_colormap_remove (colormap); XFreeColormap (private->xdisplay, private->xcolormap); if (private->hash) g_hash_table_destroy (private->hash); g_free (private->info); g_free (colormap->colors); g_free (colormap); } #define MIN_SYNC_TIME 2 void gdk_colormap_sync (GdkColormap *colormap, gboolean force) { time_t current_time; GdkColormapPrivateX *private = (GdkColormapPrivateX *)colormap; XColor *xpalette; gint nlookup; gint i; g_return_if_fail (colormap != NULL); current_time = time (NULL); if (!force && ((current_time - private->last_sync_time) < MIN_SYNC_TIME)) return; private->last_sync_time = current_time; nlookup = 0; xpalette = g_new (XColor, colormap->size); for (i = 0; i < colormap->size; i++) { if (private->info[i].ref_count == 0) { xpalette[nlookup].pixel = i; xpalette[nlookup].red = 0; xpalette[nlookup].green = 0; xpalette[nlookup].blue = 0; nlookup++; } } XQueryColors (gdk_display, private->xcolormap, xpalette, nlookup); for (i = 0; i < nlookup; i++) { gulong pixel = xpalette[i].pixel; colormap->colors[pixel].pixel = pixel; colormap->colors[pixel].red = xpalette[i].red; colormap->colors[pixel].green = xpalette[i].green; colormap->colors[pixel].blue = xpalette[i].blue; } g_free (xpalette); } GdkColormap* gdk_colormap_get_system (void) { static GdkColormap *colormap = NULL; GdkColormapPrivateX *private; if (!colormap) { private = g_new (GdkColormapPrivateX, 1); colormap = (GdkColormap*) private; private->xdisplay = gdk_display; private->xcolormap = DefaultColormap (gdk_display, gdk_screen); private->base.visual = gdk_visual_get_system (); private->private_val = FALSE; private->base.ref_count = 1; private->hash = NULL; private->last_sync_time = 0; private->info = NULL; colormap->colors = NULL; colormap->size = private->base.visual->colormap_size; if ((private->base.visual->type == GDK_VISUAL_GRAYSCALE) || (private->base.visual->type == GDK_VISUAL_PSEUDO_COLOR)) { private->info = g_new0 (GdkColorInfo, colormap->size); colormap->colors = g_new (GdkColor, colormap->size); private->hash = g_hash_table_new ((GHashFunc) gdk_color_hash, (GCompareFunc) gdk_color_equal); gdk_colormap_sync (colormap, TRUE); } gdk_colormap_add (colormap); } return colormap; } gint gdk_colormap_get_system_size (void) { return DisplayCells (gdk_display, gdk_screen); } void gdk_colormap_change (GdkColormap *colormap, gint ncolors) { GdkColormapPrivateX *private; GdkVisual *visual; XColor *palette; gint shift; int max_colors; int size; int i; g_return_if_fail (colormap != NULL); palette = g_new (XColor, ncolors); private = (GdkColormapPrivateX*) colormap; switch (private->base.visual->type) { case GDK_VISUAL_GRAYSCALE: case GDK_VISUAL_PSEUDO_COLOR: for (i = 0; i < ncolors; i++) { palette[i].pixel = colormap->colors[i].pixel; palette[i].red = colormap->colors[i].red; palette[i].green = colormap->colors[i].green; palette[i].blue = colormap->colors[i].blue; palette[i].flags = DoRed | DoGreen | DoBlue; } XStoreColors (private->xdisplay, private->xcolormap, palette, ncolors); break; case GDK_VISUAL_DIRECT_COLOR: visual = private->base.visual; shift = visual->red_shift; max_colors = 1 << visual->red_prec; size = (ncolors < max_colors) ? (ncolors) : (max_colors); for (i = 0; i < size; i++) { palette[i].pixel = i << shift; palette[i].red = colormap->colors[i].red; palette[i].flags = DoRed; } XStoreColors (private->xdisplay, private->xcolormap, palette, size); shift = visual->green_shift; max_colors = 1 << visual->green_prec; size = (ncolors < max_colors) ? (ncolors) : (max_colors); for (i = 0; i < size; i++) { palette[i].pixel = i << shift; palette[i].green = colormap->colors[i].green; palette[i].flags = DoGreen; } XStoreColors (private->xdisplay, private->xcolormap, palette, size); shift = visual->blue_shift; max_colors = 1 << visual->blue_prec; size = (ncolors < max_colors) ? (ncolors) : (max_colors); for (i = 0; i < size; i++) { palette[i].pixel = i << shift; palette[i].blue = colormap->colors[i].blue; palette[i].flags = DoBlue; } XStoreColors (private->xdisplay, private->xcolormap, palette, size); break; default: break; } g_free (palette); } gboolean gdk_colors_alloc (GdkColormap *colormap, gint contiguous, gulong *planes, gint nplanes, gulong *pixels, gint npixels) { GdkColormapPrivateX *private; gint return_val; gint i; g_return_val_if_fail (colormap != NULL, 0); private = (GdkColormapPrivateX*) colormap; return_val = XAllocColorCells (private->xdisplay, private->xcolormap, contiguous, planes, nplanes, pixels, npixels); if (return_val) { for (i=0; iinfo[pixels[i]].ref_count++; private->info[pixels[i]].flags |= GDK_COLOR_WRITEABLE; } } return return_val != 0; } gboolean gdk_color_parse (const gchar *spec, GdkColor *color) { Colormap xcolormap; XColor xcolor; gboolean return_val; g_return_val_if_fail (spec != NULL, FALSE); g_return_val_if_fail (color != NULL, FALSE); xcolormap = DefaultColormap (gdk_display, gdk_screen); if (XParseColor (gdk_display, xcolormap, spec, &xcolor)) { return_val = TRUE; color->red = xcolor.red; color->green = xcolor.green; color->blue = xcolor.blue; } else return_val = FALSE; return return_val; } /* This is almost identical to gdk_colormap_free_colors. * Keep them in sync! */ void gdk_colors_free (GdkColormap *colormap, gulong *in_pixels, gint in_npixels, gulong planes) { GdkColormapPrivateX *private; gulong *pixels; gint npixels = 0; gint i; g_return_if_fail (colormap != NULL); g_return_if_fail (in_pixels != NULL); private = (GdkColormapPrivateX*) colormap; if ((private->base.visual->type != GDK_VISUAL_PSEUDO_COLOR) && (private->base.visual->type != GDK_VISUAL_GRAYSCALE)) return; pixels = g_new (gulong, in_npixels); for (i=0; iinfo[pixel].ref_count) { private->info[pixel].ref_count--; if (private->info[pixel].ref_count == 0) { pixels[npixels++] = pixel; if (!(private->info[pixel].flags & GDK_COLOR_WRITEABLE)) g_hash_table_remove (private->hash, &colormap->colors[pixel]); private->info[pixel].flags = 0; } } } if (npixels) XFreeColors (private->xdisplay, private->xcolormap, pixels, npixels, planes); g_free (pixels); } /* This is almost identical to gdk_colors_free. * Keep them in sync! */ void gdk_colormap_free_colors (GdkColormap *colormap, GdkColor *colors, gint ncolors) { GdkColormapPrivateX *private; gulong *pixels; gint npixels = 0; gint i; g_return_if_fail (colormap != NULL); g_return_if_fail (colors != NULL); private = (GdkColormapPrivateX*) colormap; if ((private->base.visual->type != GDK_VISUAL_PSEUDO_COLOR) && (private->base.visual->type != GDK_VISUAL_GRAYSCALE)) return; pixels = g_new (gulong, ncolors); for (i=0; iinfo[pixel].ref_count) { private->info[pixel].ref_count--; if (private->info[pixel].ref_count == 0) { pixels[npixels++] = pixel; if (!(private->info[pixel].flags & GDK_COLOR_WRITEABLE)) g_hash_table_remove (private->hash, &colormap->colors[pixel]); private->info[pixel].flags = 0; } } } if (npixels) XFreeColors (private->xdisplay, private->xcolormap, pixels, npixels, 0); g_free (pixels); } /******************** * Color allocation * ********************/ /* Try to allocate a single color using XAllocColor. If it succeeds, * cache the result in our colormap, and store in ret. */ static gboolean gdk_colormap_alloc1 (GdkColormap *colormap, GdkColor *color, GdkColor *ret) { GdkColormapPrivateX *private; XColor xcolor; private = (GdkColormapPrivateX*) colormap; xcolor.red = color->red; xcolor.green = color->green; xcolor.blue = color->blue; xcolor.pixel = color->pixel; xcolor.flags = DoRed | DoGreen | DoBlue; if (XAllocColor (private->xdisplay, private->xcolormap, &xcolor)) { ret->pixel = xcolor.pixel; ret->red = xcolor.red; ret->green = xcolor.green; ret->blue = xcolor.blue; if (ret->pixel < colormap->size) { if (private->info[ret->pixel].ref_count) /* got a duplicate */ { XFreeColors (private->xdisplay, private->xcolormap, &ret->pixel, 1, 0); } else { colormap->colors[ret->pixel] = *color; colormap->colors[ret->pixel].pixel = ret->pixel; private->info[ret->pixel].ref_count = 1; g_hash_table_insert (private->hash, &colormap->colors[ret->pixel], &colormap->colors[ret->pixel]); } } return TRUE; } else { return FALSE; } } static gint gdk_colormap_alloc_colors_writeable (GdkColormap *colormap, GdkColor *colors, gint ncolors, gboolean writeable, gboolean best_match, gboolean *success) { GdkColormapPrivateX *private; gulong *pixels; Status status; gint i, index; private = (GdkColormapPrivateX*) colormap; if (private->private_val) { index = 0; for (i=0; isize) && (private->info[index].ref_count != 0)) index++; if (index < colormap->size) { colors[i].pixel = index; success[i] = TRUE; private->info[index].ref_count++; private->info[i].flags |= GDK_COLOR_WRITEABLE; } else break; } return i; } else { pixels = g_new (gulong, ncolors); /* Allocation of a writeable color cells */ status = XAllocColorCells (private->xdisplay, private->xcolormap, FALSE, NULL, 0, pixels, ncolors); if (status) { for (i=0; iinfo[pixels[i]].ref_count++; private->info[pixels[i]].flags |= GDK_COLOR_WRITEABLE; } } g_free (pixels); return status ? ncolors : 0; } } static gint gdk_colormap_alloc_colors_private (GdkColormap *colormap, GdkColor *colors, gint ncolors, gboolean writeable, gboolean best_match, gboolean *success) { GdkColormapPrivateX *private; gint i, index; XColor *store = g_new (XColor, ncolors); gint nstore = 0; gint nremaining = 0; private = (GdkColormapPrivateX*) colormap; index = -1; /* First, store the colors we have room for */ index = 0; for (i=0; isize) && (private->info[index].ref_count != 0)) index++; if (index < colormap->size) { store[nstore].red = colors[i].red; store[nstore].blue = colors[i].blue; store[nstore].green = colors[i].green; store[nstore].pixel = index; nstore++; success[i] = TRUE; colors[i].pixel = index; private->info[index].ref_count++; } else nremaining++; } } XStoreColors (private->xdisplay, private->xcolormap, store, nstore); g_free (store); if (nremaining > 0 && best_match) { /* Get best matches for remaining colors */ gchar *available = g_new (gchar, colormap->size); for (i = 0; i < colormap->size; i++) available[i] = TRUE; for (i=0; icolors[index]; private->info[index].ref_count++; success[i] = TRUE; nremaining--; } } } g_free (available); } return (ncolors - nremaining); } static gint gdk_colormap_alloc_colors_shared (GdkColormap *colormap, GdkColor *colors, gint ncolors, gboolean writeable, gboolean best_match, gboolean *success) { GdkColormapPrivateX *private; gint i, index; gint nremaining = 0; gint nfailed = 0; private = (GdkColormapPrivateX*) colormap; index = -1; for (i=0; i 0 && best_match) { gchar *available = g_new (gchar, colormap->size); for (i = 0; i < colormap->size; i++) available[i] = ((private->info[i].ref_count == 0) || !(private->info[i].flags && GDK_COLOR_WRITEABLE)); gdk_colormap_sync (colormap, FALSE); while (nremaining > 0) { for (i=0; iinfo[index].ref_count) { private->info[index].ref_count++; colors[i] = colormap->colors[index]; success[i] = TRUE; nremaining--; } else { if (gdk_colormap_alloc1 (colormap, &colormap->colors[index], &colors[i])) { success[i] = TRUE; nremaining--; break; } else { available[index] = FALSE; } } } else { nfailed++; nremaining--; success[i] = 2; /* flag as permanent failure */ } } } } g_free (available); } /* Change back the values we flagged as permanent failures */ if (nfailed > 0) { for (i=0; ihash, &colors[i]); if (lookup_color) { private->info[lookup_color->pixel].ref_count++; colors[i].pixel = lookup_color->pixel; success[i] = TRUE; } else nremaining++; } } /* If that failed, we try to allocate a new color, or approxmiate * with what we can get if best_match is TRUE. */ if (nremaining > 0) { if (private->private_val) return gdk_colormap_alloc_colors_private (colormap, colors, ncolors, writeable, best_match, success); else return gdk_colormap_alloc_colors_shared (colormap, colors, ncolors, writeable, best_match, success); } else return 0; } gint gdk_colormap_alloc_colors (GdkColormap *colormap, GdkColor *colors, gint ncolors, gboolean writeable, gboolean best_match, gboolean *success) { GdkColormapPrivateX *private; GdkVisual *visual; gint i; gint nremaining = 0; XColor xcolor; g_return_val_if_fail (colormap != NULL, FALSE); g_return_val_if_fail (colors != NULL, FALSE); private = (GdkColormapPrivateX*) colormap; for (i=0; ibase.visual->type) { case GDK_VISUAL_PSEUDO_COLOR: case GDK_VISUAL_GRAYSCALE: if (writeable) return gdk_colormap_alloc_colors_writeable (colormap, colors, ncolors, writeable, best_match, success); else return gdk_colormap_alloc_colors_pseudocolor (colormap, colors, ncolors, writeable, best_match, success); break; case GDK_VISUAL_DIRECT_COLOR: case GDK_VISUAL_TRUE_COLOR: visual = private->base.visual; for (i=0; i> (16 - visual->red_prec)) << visual->red_shift) + ((colors[i].green >> (16 - visual->green_prec)) << visual->green_shift) + ((colors[i].blue >> (16 - visual->blue_prec)) << visual->blue_shift)); success[i] = TRUE; } break; case GDK_VISUAL_STATIC_GRAY: case GDK_VISUAL_STATIC_COLOR: for (i=0; ixdisplay, private->xcolormap, &xcolor)) { colors[i].pixel = xcolor.pixel; success[i] = TRUE; } else nremaining++; } break; } return nremaining; } gboolean gdk_color_change (GdkColormap *colormap, GdkColor *color) { GdkColormapPrivateX *private; XColor xcolor; g_return_val_if_fail (colormap != NULL, FALSE); g_return_val_if_fail (color != NULL, FALSE); xcolor.pixel = color->pixel; xcolor.red = color->red; xcolor.green = color->green; xcolor.blue = color->blue; xcolor.flags = DoRed | DoGreen | DoBlue; private = (GdkColormapPrivateX*) colormap; XStoreColor (private->xdisplay, private->xcolormap, &xcolor); return TRUE; } /* XXX: Do not use this function until it is fixed. An X Colormap * is useless unless we also have the visual. */ GdkColormap* gdkx_colormap_get (Colormap xcolormap) { GdkColormap *colormap; GdkColormapPrivateX *private; colormap = gdk_colormap_lookup (xcolormap); if (colormap) return colormap; if (xcolormap == DefaultColormap (gdk_display, gdk_screen)) return gdk_colormap_get_system (); private = g_new (GdkColormapPrivateX, 1); colormap = (GdkColormap*) private; private->xdisplay = gdk_display; private->xcolormap = xcolormap; private->base.visual = NULL; private->private_val = TRUE; /* To do the following safely, we would have to have some way of finding * out what the size or visual of the given colormap is. It seems * X doesn't allow this */ #if 0 for (i = 0; i < 256; i++) { xpalette[i].pixel = i; xpalette[i].red = 0; xpalette[i].green = 0; xpalette[i].blue = 0; } XQueryColors (gdk_display, private->xcolormap, xpalette, 256); for (i = 0; i < 256; i++) { colormap->colors[i].pixel = xpalette[i].pixel; colormap->colors[i].red = xpalette[i].red; colormap->colors[i].green = xpalette[i].green; colormap->colors[i].blue = xpalette[i].blue; } #endif colormap->colors = NULL; colormap->size = 0; gdk_colormap_add (colormap); return colormap; } static gint gdk_colormap_match_color (GdkColormap *cmap, GdkColor *color, const gchar *available) { GdkColor *colors; guint sum, max; gint rdiff, gdiff, bdiff; gint i, index; g_return_val_if_fail (cmap != NULL, 0); g_return_val_if_fail (color != NULL, 0); colors = cmap->colors; max = 3 * (65536); index = -1; for (i = 0; i < cmap->size; i++) { if ((!available) || (available && available[i])) { rdiff = (color->red - colors[i].red); gdiff = (color->green - colors[i].green); bdiff = (color->blue - colors[i].blue); sum = ABS (rdiff) + ABS (gdiff) + ABS (bdiff); if (sum < max) { index = i; max = sum; } } } return index; } GdkColormap* gdk_colormap_lookup (Colormap xcolormap) { GdkColormap *cmap; if (!colormap_hash) return NULL; cmap = g_hash_table_lookup (colormap_hash, &xcolormap); return cmap; } static void gdk_colormap_add (GdkColormap *cmap) { GdkColormapPrivateX *private; if (!colormap_hash) colormap_hash = g_hash_table_new ((GHashFunc) gdk_colormap_hash, (GCompareFunc) gdk_colormap_cmp); private = (GdkColormapPrivateX*)cmap; g_hash_table_insert (colormap_hash, &private->xcolormap, cmap); } static void gdk_colormap_remove (GdkColormap *cmap) { GdkColormapPrivateX *private; if (!colormap_hash) colormap_hash = g_hash_table_new ((GHashFunc) gdk_colormap_hash, (GCompareFunc) gdk_colormap_cmp); private = (GdkColormapPrivateX *)cmap; g_hash_table_remove (colormap_hash, &private->xcolormap); } static guint gdk_colormap_hash (Colormap *cmap) { return *cmap; } static gint gdk_colormap_cmp (Colormap *a, Colormap *b) { return (*a == *b); }