/* GTK - The GIMP Toolkit * Copyright (C) 2010 Carlos Garnacho * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . */ #include "config.h" #include "gtkgradient.h" #include "gtkstylecontextprivate.h" #include "gtkstyleproperties.h" #include "gtkintl.h" /** * SECTION:gtkgradient * @Short_description: Gradients * @Title: GtkGradient * * GtkGradient is a boxed type that represents a gradient. * It is the result of parsing a * gradient expression. * To obtain the gradient represented by a GtkGradient, it has to * be resolved with gtk_gradient_resolve(), which replaces all * symbolic color references by the colors they refer to (in a given * context) and constructs a #cairo_pattern_t value. * * It is not normally necessary to deal directly with #GtkGradients, * since they are mostly used behind the scenes by #GtkStyleContext and * #GtkCssProvider. */ G_DEFINE_BOXED_TYPE (GtkGradient, gtk_gradient, gtk_gradient_ref, gtk_gradient_unref) typedef struct ColorStop ColorStop; struct ColorStop { gdouble offset; GtkSymbolicColor *color; }; struct _GtkGradient { gdouble x0; gdouble y0; gdouble x1; gdouble y1; gdouble radius0; gdouble radius1; GArray *stops; guint ref_count; }; /** * gtk_gradient_new_linear: * @x0: X coordinate of the starting point * @y0: Y coordinate of the starting point * @x1: X coordinate of the end point * @y1: Y coordinate of the end point * * Creates a new linear gradient along the line defined by (x0, y0) and (x1, y1). Before using the gradient * a number of stop colors must be added through gtk_gradient_add_color_stop(). * * Returns: A newly created #GtkGradient * * Since: 3.0 **/ GtkGradient * gtk_gradient_new_linear (gdouble x0, gdouble y0, gdouble x1, gdouble y1) { GtkGradient *gradient; gradient = g_slice_new (GtkGradient); gradient->stops = g_array_new (FALSE, FALSE, sizeof (ColorStop)); gradient->x0 = x0; gradient->y0 = y0; gradient->x1 = x1; gradient->y1 = y1; gradient->radius0 = 0; gradient->radius1 = 0; gradient->ref_count = 1; return gradient; } /** * gtk_gradient_new_radial: * @x0: X coordinate of the start circle * @y0: Y coordinate of the start circle * @radius0: radius of the start circle * @x1: X coordinate of the end circle * @y1: Y coordinate of the end circle * @radius1: radius of the end circle * * Creates a new radial gradient along the two circles defined by (x0, y0, radius0) and * (x1, y1, radius1). Before using the gradient a number of stop colors must be added * through gtk_gradient_add_color_stop(). * * Returns: A newly created #GtkGradient * * Since: 3.0 **/ GtkGradient * gtk_gradient_new_radial (gdouble x0, gdouble y0, gdouble radius0, gdouble x1, gdouble y1, gdouble radius1) { GtkGradient *gradient; gradient = g_slice_new (GtkGradient); gradient->stops = g_array_new (FALSE, FALSE, sizeof (ColorStop)); gradient->x0 = x0; gradient->y0 = y0; gradient->x1 = x1; gradient->y1 = y1; gradient->radius0 = radius0; gradient->radius1 = radius1; gradient->ref_count = 1; return gradient; } /** * gtk_gradient_add_color_stop: * @gradient: a #GtkGradient * @offset: offset for the color stop * @color: color to use * * Adds a stop color to @gradient. * * Since: 3.0 **/ void gtk_gradient_add_color_stop (GtkGradient *gradient, gdouble offset, GtkSymbolicColor *color) { ColorStop stop; g_return_if_fail (gradient != NULL); stop.offset = offset; stop.color = gtk_symbolic_color_ref (color); g_array_append_val (gradient->stops, stop); } /** * gtk_gradient_ref: * @gradient: a #GtkGradient * * Increases the reference count of @gradient. * * Returns: The same @gradient * * Since: 3.0 **/ GtkGradient * gtk_gradient_ref (GtkGradient *gradient) { g_return_val_if_fail (gradient != NULL, NULL); gradient->ref_count++; return gradient; } /** * gtk_gradient_unref: * @gradient: a #GtkGradient * * Decreases the reference count of @gradient, freeing its memory * if the reference count reaches 0. * * Since: 3.0 **/ void gtk_gradient_unref (GtkGradient *gradient) { g_return_if_fail (gradient != NULL); gradient->ref_count--; if (gradient->ref_count == 0) { guint i; for (i = 0; i < gradient->stops->len; i++) { ColorStop *stop; stop = &g_array_index (gradient->stops, ColorStop, i); gtk_symbolic_color_unref (stop->color); } g_array_free (gradient->stops, TRUE); g_slice_free (GtkGradient, gradient); } } /** * gtk_gradient_resolve: * @gradient: a #GtkGradient * @props: #GtkStyleProperties to use when resolving named colors * @resolved_gradient: (out): return location for the resolved pattern * * If @gradient is resolvable, @resolved_gradient will be filled in * with the resolved gradient as a cairo_pattern_t, and %TRUE will * be returned. Generally, if @gradient can't be resolved, it is * due to it being defined on top of a named color that doesn't * exist in @props. * * Returns: %TRUE if the gradient has been resolved * * Since: 3.0 **/ gboolean gtk_gradient_resolve (GtkGradient *gradient, GtkStyleProperties *props, cairo_pattern_t **resolved_gradient) { cairo_pattern_t *pattern; guint i; g_return_val_if_fail (gradient != NULL, FALSE); g_return_val_if_fail (GTK_IS_STYLE_PROPERTIES (props), FALSE); g_return_val_if_fail (resolved_gradient != NULL, FALSE); if (gradient->radius0 == 0 && gradient->radius1 == 0) pattern = cairo_pattern_create_linear (gradient->x0, gradient->y0, gradient->x1, gradient->y1); else pattern = cairo_pattern_create_radial (gradient->x0, gradient->y0, gradient->radius0, gradient->x1, gradient->y1, gradient->radius1); for (i = 0; i < gradient->stops->len; i++) { ColorStop *stop; GdkRGBA color; stop = &g_array_index (gradient->stops, ColorStop, i); if (!gtk_symbolic_color_resolve (stop->color, props, &color)) { cairo_pattern_destroy (pattern); return FALSE; } cairo_pattern_add_color_stop_rgba (pattern, stop->offset, color.red, color.green, color.blue, color.alpha); } *resolved_gradient = pattern; return TRUE; } cairo_pattern_t * gtk_gradient_resolve_for_context (GtkGradient *gradient, GtkStyleContext *context) { cairo_pattern_t *pattern; guint i; g_return_val_if_fail (gradient != NULL, FALSE); g_return_val_if_fail (GTK_IS_STYLE_CONTEXT (context), FALSE); if (gradient->radius0 == 0 && gradient->radius1 == 0) pattern = cairo_pattern_create_linear (gradient->x0, gradient->y0, gradient->x1, gradient->y1); else pattern = cairo_pattern_create_radial (gradient->x0, gradient->y0, gradient->radius0, gradient->x1, gradient->y1, gradient->radius1); for (i = 0; i < gradient->stops->len; i++) { ColorStop *stop; GdkRGBA rgba; stop = &g_array_index (gradient->stops, ColorStop, i); /* if color resolving fails, assume transparency */ if (!_gtk_style_context_resolve_color (context, stop->color, &rgba)) rgba.red = rgba.green = rgba.blue = rgba.alpha = 0.0; cairo_pattern_add_color_stop_rgba (pattern, stop->offset, rgba.red, rgba.green, rgba.blue, rgba.alpha); } return pattern; } static void append_number (GString *str, double d, const char *zero, const char *half, const char *one) { if (zero && d == 0.0) g_string_append (str, zero); else if (half && d == 0.5) g_string_append (str, half); else if (one && d == 1.0) g_string_append (str, one); else { char buf[G_ASCII_DTOSTR_BUF_SIZE]; g_ascii_dtostr (buf, sizeof (buf), d); g_string_append (str, buf); } } /** * gtk_gradient_to_string: * @gradient: the gradient to print * * Creates a string representation for @gradient that is suitable * for using in GTK CSS files. * * Returns: A string representation for @gradient **/ char * gtk_gradient_to_string (GtkGradient *gradient) { GString *str; guint i; g_return_val_if_fail (gradient != NULL, NULL); str = g_string_new ("-gtk-gradient ("); if (gradient->radius0 == 0 && gradient->radius1 == 0) { g_string_append (str, "linear, "); append_number (str, gradient->x0, "left", "center", "right"); g_string_append_c (str, ' '); append_number (str, gradient->y0, "top", "center", "bottom"); g_string_append (str, ", "); append_number (str, gradient->x1, "left", "center", "right"); g_string_append_c (str, ' '); append_number (str, gradient->y1, "top", "center", "bottom"); } else { g_string_append (str, "radial, "); append_number (str, gradient->x0, "left", "center", "right"); g_string_append_c (str, ' '); append_number (str, gradient->y0, "top", "center", "bottom"); g_string_append (str, ", "); append_number (str, gradient->radius0, NULL, NULL, NULL); g_string_append (str, ", "); append_number (str, gradient->x1, "left", "center", "right"); g_string_append_c (str, ' '); append_number (str, gradient->y1, "top", "center", "bottom"); g_string_append (str, ", "); append_number (str, gradient->radius1, NULL, NULL, NULL); } for (i = 0; i < gradient->stops->len; i++) { ColorStop *stop; char *s; stop = &g_array_index (gradient->stops, ColorStop, i); g_string_append (str, ", "); if (stop->offset == 0.0) g_string_append (str, "from ("); else if (stop->offset == 1.0) g_string_append (str, "to ("); else { g_string_append (str, "color-stop ("); append_number (str, stop->offset, NULL, NULL, NULL); g_string_append (str, ", "); } s = gtk_symbolic_color_to_string (stop->color); g_string_append (str, s); g_free (s); g_string_append (str, ")"); } g_string_append (str, ")"); return g_string_free (str, FALSE); }