/* -*- Mode: C; indent-tabs-mode: t; c-basic-offset: 8; tab-width: 8 -*- */ /* nautilus-gdk-extensions.c: Graphics routines to augment what's in gdk. Copyright (C) 1999, 2000 Eazel, Inc. The Gnome 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. The Gnome 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 the Gnome Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. Authors: Darin Adler */ #include #include "nautilus-gdk-extensions.h" #include #include "nautilus-glib-extensions.h" #include "nautilus-lib-self-check-functions.h" #include "nautilus-string.h" #define GRADIENT_BAND_SIZE 4 /** * nautilus_fill_rectangle: * @drawable: Target to draw into. * @gc: Graphics context (mainly for clip). * @rectangle: Rectangle to fill. * * Fill the rectangle with the foreground color. * Convenient when you have a GdkRectangle structure. */ void nautilus_fill_rectangle (GdkDrawable *drawable, GdkGC *gc, const GdkRectangle *rectangle) { gdk_draw_rectangle (drawable, gc, TRUE, rectangle->x, rectangle->y, rectangle->width, rectangle->height); } /** * nautilus_fill_rectangle_with_color: * @drawable: Target to draw into. * @gc: Graphics context (mainly for clip). * @rectangle: Rectangle to fill. * @color: Color to fill with. * * Fill the rectangle with a color. * Convenient when you have a GdkRectangle structure. */ void nautilus_fill_rectangle_with_color (GdkDrawable *drawable, GdkGC *gc, const GdkRectangle *rectangle, guint32 rgb) { GdkGCValues saved_values; /* FIXME: Workaround for a bug in gdk_rgb. */ gdk_rgb_init (); gdk_gc_get_values (gc, &saved_values); gdk_rgb_gc_set_foreground (gc, rgb); nautilus_fill_rectangle (drawable, gc, rectangle); gdk_gc_set_foreground (gc, &saved_values.foreground); } /** * nautilus_fill_rectangle_with_gradient: * @drawable: Target to draw into. * @gc: Graphics context (mainly for clip). * @rectangle: Rectangle to draw gradient in. * @start_color: Color for the left or top; pixel value does not matter. * @end_color: Color for the right or bottom; pixel value does not matter. * @horizontal: TRUE if the color changes from left to right. FALSE if from top to bottom. * * Fill the rectangle with a gradient. * The color changes from start_color to end_color. * This effect works best on true color displays. */ void nautilus_fill_rectangle_with_gradient (GdkDrawable *drawable, GdkGC *gc, const GdkRectangle *rectangle, guint32 start_rgb, guint32 end_rgb, gboolean horizontal) { GdkRectangle band_box; gint16 *position; guint16 *size; gint num_bands; guint16 last_band_size; gdouble multiplier; gint band; guint32 band_rgb; g_return_if_fail (drawable != NULL); g_return_if_fail (gc != NULL); g_return_if_fail (rectangle != NULL); g_return_if_fail (horizontal == FALSE || horizontal == TRUE); /* Set up the band box so we can access it the same way for horizontal or vertical. */ band_box = *rectangle; position = horizontal ? &band_box.x : &band_box.y; size = horizontal ? &band_box.width : &band_box.height; /* Figure out how many bands we will need. */ num_bands = (*size + GRADIENT_BAND_SIZE - 1) / GRADIENT_BAND_SIZE; last_band_size = GRADIENT_BAND_SIZE - (GRADIENT_BAND_SIZE * num_bands - *size); /* Change the band box to be the size of a single band. */ *size = GRADIENT_BAND_SIZE; /* Set up a multiplier to use to interpolate the colors as we go. */ multiplier = num_bands <= 1 ? 0.0 : 1.0 / (num_bands - 1); /* Fill each band with a separate nautilus_draw_rectangle call. */ for (band = 0; band < num_bands; band++) { /* Compute a new color value for each band. */ band_rgb = nautilus_interpolate_color (band * multiplier, start_rgb, end_rgb); /* Last band may need to be a bit smaller to avoid writing outside the box. * This is more efficient than changing and restoring the clip. */ if (band == num_bands - 1) { *size = last_band_size; } nautilus_fill_rectangle_with_color (drawable, gc, &band_box, band_rgb); *position += *size; } } /** * nautilus_rectangle_contains: * @rectangle: Rectangle possibly containing a point. * @x: X coordinate of a point. * @y: Y coordinate of a point. * * Retun TRUE if point is contained inside a rectangle */ gboolean nautilus_rectangle_contains (const GdkRectangle *rectangle, int x, int y) { g_return_val_if_fail (rectangle != NULL, FALSE); return rectangle->x <= x && rectangle->x + rectangle->width >= x && rectangle->y <= y && rectangle->y + rectangle->height >= y; } /** * nautilus_rectangle_inset: * @rectangle: Rectangle we are insetting. * @x: Horizontal ammount to inset by. * @y: Vertical ammount to inset by. * * Inset a rectangle by a given horizontal and vertical ammount. * Pass in negative inset values to grow the rectangle, positive to * shrink it. */ void nautilus_rectangle_inset (GdkRectangle *rectangle, int x, int y) { g_return_if_fail (rectangle != NULL); rectangle->x += x; rectangle->width -= 2 * x; rectangle->y += y; rectangle->height -= 2 * y; } /** * nautilus_interpolate_color: * @ratio: Place on line between colors to interpolate. * @start_color: Color for one end. * @end_color: Color for the other end * @interpolated_color: Result. * * Compute a color between @start_color and @end_color in color space. * Currently, the color space used is RGB, but a future version could * instead do the interpolation in the best color space for expressing * human perception. */ guint32 nautilus_interpolate_color (gdouble ratio, guint32 start_rgb, guint32 end_rgb) { guchar red, green, blue; g_return_val_if_fail (ratio >= 0.0, 0); g_return_val_if_fail (ratio <= 1.0, 0); red = ((start_rgb >> 16) & 0xFF) * (1.0 - ratio) + ((end_rgb >> 16) & 0xFF) * ratio; green = ((start_rgb >> 8) & 0xFF) * (1.0 - ratio) + ((end_rgb >> 8) & 0xFF) * ratio; blue = (start_rgb & 0xFF) * (1.0 - ratio) + (end_rgb & 0xFF) * ratio; return (((red << 8) | green) << 8) | blue; } /** * nautilus_gradient_new * @start_color: Color for the top or left. * @end_color: Color for the bottom or right. * @is_horizontal: Direction of the gradient. * * Create a string that combines the start and end colors along * with the direction of the gradient in a standard format. */ char * nautilus_gradient_new (const char *start_color, const char *end_color, gboolean is_horizontal) { g_return_val_if_fail (is_horizontal == FALSE || is_horizontal == TRUE, NULL); /* Handle the special case where the start and end colors are identical. Handle the special case where the end color is an empty string. */ if (nautilus_strcmp(start_color, end_color) == 0 || end_color == NULL || end_color[0] == '\0') { return g_strdup (start_color); } /* Handle the special case where the start color is an empty string. */ if (start_color == NULL || start_color[0] == '\0') { return g_strdup (end_color); } /* Handle the general case. */ return g_strconcat (start_color, "-", end_color, is_horizontal ? ":h" : NULL, NULL); } /** * nautilus_gradient_is_gradient * @gradient_spec: A gradient spec. string. * * Return true if the spec. specifies a gradient instead of a solid color. */ gboolean nautilus_gradient_is_gradient (const char *gradient_spec) { return nautilus_strchr (gradient_spec, '-') != NULL; } /** * nautilus_gradient_is_horizontal * @gradient_spec: A gradient spec. string. * * Return true if the spec. specifies a horizontal gradient. */ gboolean nautilus_gradient_is_horizontal (const char *gradient_spec) { size_t length; length = nautilus_strlen (gradient_spec); return length >= 2 && gradient_spec[length - 2] == ':' && gradient_spec[length - 1] == 'h'; } static char * nautilus_gradient_strip_trailing_direction_if_any (const char *gradient_spec) { size_t length; length = nautilus_strlen (gradient_spec); if (length >= 2 && gradient_spec[length - 2] == ':' && (gradient_spec[length - 1] == 'v' || gradient_spec[length - 1] == 'h')) { length -= 2; } return g_strndup (gradient_spec, length); } /** * nautilus_gradient_get_start_color_spec * @gradient_spec: A gradient spec. string. * * Return the start color. * This may be the entire gradient_spec if it's a solid color. */ char * nautilus_gradient_get_start_color_spec (const char *gradient_spec) { const char *separator; separator = nautilus_strchr (gradient_spec, '-'); if (separator == NULL) { return nautilus_gradient_strip_trailing_direction_if_any (gradient_spec); } return g_strndup (gradient_spec, separator - gradient_spec); } /** * nautilus_gradient_get_end_color_spec * @gradient_spec: A gradient spec. string. * * Return the end color. * This may be the entire gradient_spec if it's a solid color. */ char * nautilus_gradient_get_end_color_spec (const char *gradient_spec) { const char *separator; separator = nautilus_strchr (gradient_spec, '-'); return nautilus_gradient_strip_trailing_direction_if_any (separator != NULL ? separator + 1 : gradient_spec); } /* Do the work shared by all the set_color_spec functions below. */ static char * nautilus_gradient_set_edge_color (const char *gradient_spec, const char *edge_color, gboolean is_horizontal, gboolean change_end) { char *opposite_color; char *result; g_return_val_if_fail (edge_color != NULL, g_strdup (gradient_spec)); /* Get the color from the existing gradient spec. for the opposite edge. This will parse away all the stuff we don't want from the old gradient spec. */ opposite_color = change_end ? nautilus_gradient_get_start_color_spec (gradient_spec) : nautilus_gradient_get_end_color_spec (gradient_spec); /* Create a new gradient spec. The nautilus_gradient_new function handles some special cases, so we don't have to bother with them here. */ result = nautilus_gradient_new (change_end ? opposite_color : edge_color, change_end ? edge_color : opposite_color, is_horizontal); g_free (opposite_color); return result; } /** * nautilus_gradient_set_left_color_spec * @gradient_spec: A gradient spec. string. * @left_color: Color spec. to replace left color with. * * Changes the left color to what's passed in. * This creates a horizontal gradient. */ char * nautilus_gradient_set_left_color_spec (const char *gradient_spec, const char *left_color) { return nautilus_gradient_set_edge_color (gradient_spec, left_color, TRUE, FALSE); } /** * nautilus_gradient_set_top_color_spec * @gradient_spec: A gradient spec. string. * @top_color: Color spec. to replace top color with. * * Changes the top color to what's passed in. * This creates a vertical gradient. */ char * nautilus_gradient_set_top_color_spec (const char *gradient_spec, const char *top_color) { return nautilus_gradient_set_edge_color (gradient_spec, top_color, FALSE, FALSE); } /** * nautilus_gradient_set_right_color_spec * @gradient_spec: A gradient spec. string. * @right_color: Color spec. to replace right color with. * * Changes the right color to what's passed in. * This creates a horizontal gradient. */ char * nautilus_gradient_set_right_color_spec (const char *gradient_spec, const char *right_color) { return nautilus_gradient_set_edge_color (gradient_spec, right_color, TRUE, TRUE); } /** * nautilus_gradient_set_bottom_color_spec * @gradient_spec: A gradient spec. string. * @bottom_color: Color spec. to replace bottom color with. * * Changes the bottom color to what's passed in. * This creates a vertical gradient. */ char * nautilus_gradient_set_bottom_color_spec (const char *gradient_spec, const char *bottom_color) { return nautilus_gradient_set_edge_color (gradient_spec, bottom_color, FALSE, TRUE); } /** * nautilus_gdk_color_parse_with_white_default * @color_spec: A color spec. * @color: Pointer to place to put resulting color. * * The same as gdk_color_parse, except sets the color to white if * the spec. can't be parsed instead of returning a boolean flag. */ void nautilus_gdk_color_parse_with_white_default (const char *color_spec, GdkColor *color) { if (color_spec == NULL || !gdk_color_parse (color_spec, color)) { color->red = 0xFFFF; color->green = 0xFFFF; color->blue = 0xFFFF; } } /** * nautilus_parse_rgb_with_white_default * @color_spec: A color spec. * Returns: An rgb value. * * The same as gdk_color_parse, except sets the color to white if * the spec. can't be parsed instead of returning a boolean flag * and returns a guint32 rgb value instead of a GdkColor. */ guint32 nautilus_parse_rgb_with_white_default (const char *color_spec) { GdkColor color; if (color_spec == NULL || !gdk_color_parse (color_spec, &color)) { return NAUTILUS_RGB_COLOR_WHITE; } return ((color.red << 8) & NAUTILUS_RGB_COLOR_RED) | (color.green & NAUTILUS_RGB_COLOR_GREEN) | ((color.blue >> 8) & NAUTILUS_RGB_COLOR_BLUE); } /** * nautilus_gdk_font_equal * @font_a_null_allowed: A font or NULL. * @font_b_null_allowed: A font or NULL. * * Calls gdk_font_equal, unless one of the fonts is NULL. */ gboolean nautilus_gdk_font_equal (GdkFont *font_a_null_allowed, GdkFont *font_b_null_allowed) { if (font_a_null_allowed == NULL) { return font_b_null_allowed == NULL; } if (font_b_null_allowed == NULL) { return FALSE; } return gdk_font_equal (font_a_null_allowed, font_b_null_allowed); } GdkFont * nautilus_get_largest_fitting_font (const char *text_to_format, int width, const char* font_template) { int font_index, this_width; char *font_name; const int font_sizes[5] = { 28, 24, 18, 14, 12 }; GdkFont *candidate_font = NULL; char *alt_text_to_format = NULL; char *temp_str = strdup(text_to_format); char *cr_pos = strchr(temp_str, '\n'); if (cr_pos) { *cr_pos = '\0'; alt_text_to_format = cr_pos + 1; } for (font_index = 0; font_index < NAUTILUS_N_ELEMENTS (font_sizes); font_index++) { if (candidate_font != NULL) { gdk_font_unref (candidate_font); } font_name = g_strdup_printf (font_template, font_sizes[font_index]); candidate_font = gdk_font_load (font_name); g_free (font_name); this_width = gdk_string_width (candidate_font, temp_str); if (alt_text_to_format != NULL) { int alt_width = gdk_string_width (candidate_font, alt_text_to_format); if (this_width <= width && alt_width <= width) { break; } } else { if (this_width <= width) { break; } } } g_free (temp_str); return candidate_font; } /** * nautilus_stipple_bitmap: * * Get pointer to singleton 50% stippled bitmap. * This is a global object; do not free. */ GdkBitmap * nautilus_stipple_bitmap () { static GdkBitmap *stipple = NULL; if (stipple == NULL) { char stipple_bits[] = { 0x02, 0x01 }; stipple = gdk_bitmap_create_from_data (NULL, stipple_bits, 2, 2); } return stipple; } #if ! defined (NAUTILUS_OMIT_SELF_CHECK) static char * nautilus_gdk_color_as_hex_string (GdkColor color) { return g_strdup_printf("rgb:%04hX/%04hX/%04hX", color.red, color.green, color.blue); } static char * nautilus_self_check_parse (const char *color_spec) { GdkColor color; nautilus_gdk_color_parse_with_white_default (color_spec, &color); return nautilus_gdk_color_as_hex_string (color); } void nautilus_self_check_gdk_extensions (void) { /* nautilus_interpolate_color */ NAUTILUS_CHECK_INTEGER_RESULT (nautilus_interpolate_color (0.0, 0, 0), 0); NAUTILUS_CHECK_INTEGER_RESULT (nautilus_interpolate_color (0.0, 0, 0xFFFFFF), 0); NAUTILUS_CHECK_INTEGER_RESULT (nautilus_interpolate_color (0.5, 0, 0xFFFFFF), 0x7F7F7F); NAUTILUS_CHECK_INTEGER_RESULT (nautilus_interpolate_color (1.0, 0, 0xFFFFFF), 0xFFFFFF); /* nautilus_fill_rectangle */ /* Make a GdkImage and fill it, maybe? */ /* nautilus_fill_rectangle_with_color */ /* nautilus_fill_rectangle_with_gradient */ /* nautilus_gradient_new */ NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_new ("", "", FALSE), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_new ("a", "b", FALSE), "a-b"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_new ("a", "b", TRUE), "a-b:h"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_new ("a", "a", FALSE), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_new ("a", "a", TRUE), "a"); /* nautilus_gradient_is_gradient */ NAUTILUS_CHECK_BOOLEAN_RESULT (nautilus_gradient_is_gradient (""), FALSE); NAUTILUS_CHECK_BOOLEAN_RESULT (nautilus_gradient_is_gradient ("-"), TRUE); NAUTILUS_CHECK_BOOLEAN_RESULT (nautilus_gradient_is_gradient ("a"), FALSE); NAUTILUS_CHECK_BOOLEAN_RESULT (nautilus_gradient_is_gradient ("a-b"), TRUE); NAUTILUS_CHECK_BOOLEAN_RESULT (nautilus_gradient_is_gradient ("a-b:h"), TRUE); /* nautilus_gradient_get_start_color_spec */ NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec (""), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("-"), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("a-b"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("a-"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("-b"), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("a:h"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("a:v"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("a:c"), "a:c"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("a:-b"), "a:"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_start_color_spec ("a:-b:v"), "a:"); /* nautilus_gradient_get_end_color_spec */ NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec (""), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("-"), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("a-b"), "b"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("a-"), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("-b"), "b"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("a:h"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("a:v"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("a:c"), "a:c"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("a:-b"), "b"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_get_end_color_spec ("a:-b:v"), "b"); /* nautilus_gradient_set_left_color_spec */ NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_left_color_spec ("", ""), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_left_color_spec ("", "a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_left_color_spec ("a", ""), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_left_color_spec ("a", "a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_left_color_spec ("a", "b"), "b-a:h"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_left_color_spec ("a-c:v", "b"), "b-c:h"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_left_color_spec ("a-c:v", "c"), "c"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_left_color_spec ("a:-b:v", "d"), "d-b:h"); /* nautilus_gradient_set_top_color_spec */ NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_top_color_spec ("", ""), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_top_color_spec ("", "a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_top_color_spec ("a", ""), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_top_color_spec ("a", "a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_top_color_spec ("a", "b"), "b-a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_top_color_spec ("a-c:v", "b"), "b-c"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_top_color_spec ("a-c:v", "c"), "c"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_top_color_spec ("a:-b:h", "d"), "d-b"); /* nautilus_gradient_set_right_color_spec */ NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_right_color_spec ("", ""), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_right_color_spec ("", "a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_right_color_spec ("a", ""), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_right_color_spec ("a", "a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_right_color_spec ("a", "b"), "a-b:h"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_right_color_spec ("a-c:v", "b"), "a-b:h"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_right_color_spec ("a-c:v", "c"), "a-c:h"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_right_color_spec ("a:-b:v", "d"), "a:-d:h"); /* nautilus_gradient_set_bottom_color_spec */ NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_bottom_color_spec ("", ""), ""); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_bottom_color_spec ("", "a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_bottom_color_spec ("a", ""), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_bottom_color_spec ("a", "a"), "a"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_bottom_color_spec ("a", "b"), "a-b"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_bottom_color_spec ("a-c:v", "b"), "a-b"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_bottom_color_spec ("a-c:v", "c"), "a-c"); NAUTILUS_CHECK_STRING_RESULT (nautilus_gradient_set_bottom_color_spec ("a:-b:h", "d"), "a:-d"); /* nautilus_gdk_color_parse_with_white_default */ NAUTILUS_CHECK_STRING_RESULT (nautilus_self_check_parse (""), "rgb:FFFF/FFFF/FFFF"); NAUTILUS_CHECK_STRING_RESULT (nautilus_self_check_parse ("a"), "rgb:FFFF/FFFF/FFFF"); NAUTILUS_CHECK_STRING_RESULT (nautilus_self_check_parse ("white"), "rgb:FFFF/FFFF/FFFF"); NAUTILUS_CHECK_STRING_RESULT (nautilus_self_check_parse ("black"), "rgb:0000/0000/0000"); NAUTILUS_CHECK_STRING_RESULT (nautilus_self_check_parse ("rgb:0123/4567/89AB"), "rgb:0123/4567/89AB"); } #endif /* ! NAUTILUS_OMIT_SELF_CHECK */