/* GTK - The GIMP Toolkit * 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 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, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* * Modified by the GTK+ Team and others 1997-2000. 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 "config.h" #include #ifdef HAVE_UNISTD_H #include #endif #include #ifdef HAVE_SYS_PARAM_H #include #endif #include #include #include #include #include #include #include "gdk/gdk.h" #include "gtkversion.h" #include "gtkrc.h" #include "gtkbindings.h" #include "gtkintl.h" #include "gtkiconfactory.h" #include "gtkmain.h" #include "gtkmodules.h" #include "gtkprivate.h" #include "gtksettingsprivate.h" #include "gtkwindow.h" #ifdef G_OS_WIN32 #include #endif /** * SECTION:gtkrc * @Short_description: Deprecated routines for handling resource files * @Title: Resource Files * * GTK+ provides resource file mechanism for configuring * various aspects of the operation of a GTK+ program * at runtime. * * * In GTK+ 3.0, resource files have been deprecated and replaced * by CSS-like style sheets, which are understood by #GtkCssProvider. * * * * Default files * * An application can cause GTK+ to parse a specific RC * file by calling gtk_rc_parse(). In addition to this, * certain files will be read at the end of gtk_init(). * Unless modified, the files looked for will be * <SYSCONFDIR>/gtk-2.0/gtkrc * and .gtkrc-3.0 in the users home directory. * (<SYSCONFDIR> defaults to * /usr/local/etc. It can be changed with the * or options when * configuring GTK+.) * * The set of these default files * can be retrieved with gtk_rc_get_default_files() * and modified with gtk_rc_add_default_file() and * gtk_rc_set_default_files(). * Additionally, the GTK2_RC_FILES environment variable * can be set to a #G_SEARCHPATH_SEPARATOR_S-separated list of files * in order to overwrite the set of default files at runtime. * * For each RC file, in addition to the file itself, GTK+ will look for * a locale-specific file that will be parsed after the main file. * For instance, if LANG is set to ja_JP.ujis, * when loading the default file ~/.gtkrc then GTK+ looks * for ~/.gtkrc.ja_JP and ~/.gtkrc.ja, * and parses the first of those that exists. * * * * Pathnames and patterns * * * A resource file defines a number of styles and key bindings and * attaches them to particular widgets. The attachment is done * by the widget, widget_class, * and class declarations. As an example * of such a statement: * * * widget "mywindow.*.GtkEntry" style "my-entry-class" * * * attaches the style "my-entry-class" to all * widgets whose widget path matches the * pattern "mywindow.*.GtkEntry". * That is, all #GtkEntry widgets which are part of a #GtkWindow named * "mywindow". * * The patterns here are given in the standard shell glob syntax. * The "?" wildcard matches any character, while * "*" matches zero or more of any character. * The three types of matching are against the widget path, the * class path and the class hierarchy. Both the * widget path and the class path consist of a "." * separated list of all the parents of the widget and the widget itself * from outermost to innermost. The difference is that in the widget path, * the name assigned by gtk_widget_set_name() is used if present, otherwise * the class name of the widget, while for the class path, the class name is * always used. * * Since GTK+ 2.10, widget_class paths can also contain * <classname> substrings, which are matching * the class with the given name and any derived classes. For instance, * * widget_class "*<GtkMenuItem>.GtkLabel" style "my-style" * * will match #GtkLabel widgets which are contained in any kind of menu item. * * So, if you have a #GtkEntry named "myentry", inside of a * horizontal box in a window named "mywindow", then the * widget path is: "mywindow.GtkHBox.myentry" * while the class path is: "GtkWindow.GtkHBox.GtkEntry". * * Matching against class is a little different. The pattern match is done * against all class names in the widgets class hierarchy (not the layout * hierarchy) in sequence, so the pattern: * * class "GtkButton" style "my-style" * * will match not just #GtkButton widgets, but also #GtkToggleButton and * #GtkCheckButton widgets, since those classes derive from #GtkButton. * * Additionally, a priority can be specified for each pattern, and styles * override other styles first by priority, then by pattern type and then * by order of specification (later overrides earlier). The priorities * that can be specified are (highest to lowest): * * highest * rc * theme * application * gtk * lowest * * rc is the default for styles * read from an RC file, theme * is the default for styles read from theme RC files, * application * should be used for styles an application sets * up, and gtk is used for styles * that GTK+ creates internally. * * * * Theme gtkrc files * * * Theme RC files are loaded first from under the ~/.themes/, * then from the directory from gtk_rc_get_theme_dir(). The files looked at will * be gtk-3.0/gtkrc. * * When the application prefers dark themes * (see the #GtkSettings:gtk-application-prefer-dark-theme property for details), * gtk-3.0/gtkrc-dark will be loaded first, and if not present * gtk-3.0/gtkrc will be loaded. * * * * Optimizing RC Style Matches * * * Everytime a widget is created and added to the layout hierarchy of a #GtkWindow * ("anchored" to be exact), a list of matching RC styles out of all RC styles read * in so far is composed. * For this, every RC style is matched against the widgets class path, * the widgets name path and widgets inheritance hierarchy. * As a consequence, significant slowdown can be caused by utilization of many * RC styles and by using RC style patterns that are slow or complicated to match * against a given widget. * The following ordered list provides a number of advices (prioritized by * effectiveness) to reduce the performance overhead associated with RC style * matches: * * * * Move RC styles for specific applications into RC files dedicated to those * applications and parse application specific RC files only from * applications that are affected by them. * This reduces the overall amount of RC styles that have to be considered * for a match across a group of applications. * * * Merge multiple styles which use the same matching rule, for instance: * * style "Foo" { foo_content } * class "X" style "Foo" * style "Bar" { bar_content } * class "X" style "Bar" * * is faster to match as: * * style "FooBar" { foo_content bar_content } * class "X" style "FooBar" * * * * Use of wildcards should be avoided, this can reduce the individual RC style * match to a single integer comparison in most cases. * * * To avoid complex recursive matching, specification of full class names * (for class matches) or full path names (for * widget and widget_class matches) * is to be preferred over shortened names * containing "*" or "?". * * * If at all necessary, wildcards should only be used at the tail or head * of a pattern. This reduces the match complexity to a string comparison * per RC style. * * * When using wildcards, use of "?" should be preferred * over "*". This can reduce the matching complexity from * O(n^2) to O(n). For example "Gtk*Box" can be turned into * "Gtk?Box" and will still match #GtkHBox and #GtkVBox. * * * The use of "*" wildcards should be restricted as much * as possible, because matching "A*B*C*RestString" can * result in matching complexities of O(n^2) worst case. * * * * * * Toplevel declarations * * An RC file is a text file which is composed of a sequence * of declarations. '#' characters delimit comments and * the portion of a line after a '#' is ignored when parsing * an RC file. * * The possible toplevel declarations are: * * * * binding name * { ... } * * Declares a binding set. * * * * class pattern * [ style | binding ][ : priority ] * name * * Specifies a style or binding set for a particular * branch of the inheritance hierarchy. * * * * include filename * * Parses another file at this point. If * filename is not an absolute filename, * it is searched in the directories of the currently open RC files. * GTK+ also tries to load a * locale-specific variant of * the included file. * * * * module_path path * * Sets a path (a list of directories separated * by colons) that will be searched for theme engines referenced in * RC files. * * * * pixmap_path path * * Sets a path (a list of directories separated * by colons) that will be searched for pixmaps referenced in * RC files. * * * * im_module_file pathname * * Sets the pathname for the IM modules file. Setting this from RC files * is deprecated; you should use the environment variable GTK_IM_MODULE_FILE * instead. * * * * style name [ = * parent ] { ... } * * Declares a style. * * * * widget pattern * [ style | binding ][ : priority ] * name * * Specifies a style or binding set for a particular * group of widgets by matching on the widget pathname. * * * * widget_class pattern * [ style | binding ][ : priority ] * name * * Specifies a style or binding set for a particular * group of widgets by matching on the class pathname. * * * * setting = value * * Specifies a value for a setting. * Note that settings in RC files are overwritten by system-wide settings * (which are managed by an XSettings manager on X11). * * * * * * * Styles * * A RC style is specified by a style * declaration in a RC file, and then bound to widgets * with a widget, widget_class, * or class declaration. All styles * applying to a particular widget are composited together * with widget declarations overriding * widget_class declarations which, in * turn, override class declarations. * Within each type of declaration, later declarations override * earlier ones. * * Within a style declaration, the possible * elements are: * * * * bg[state] = * color * * Sets the color used for the background of most widgets. * * * * fg[state] = * color * * Sets the color used for the foreground of most widgets. * * * * base[state] = * color * * Sets the color used for the background of widgets displaying * editable text. This color is used for the background * of, among others, #GtkText, #GtkEntry, #GtkList, and #GtkCList. * * * * text[state] = * color * * Sets the color used for foreground of widgets using * base for the background color. * * * * xthickness = * number * * Sets the xthickness, which is used for various horizontal padding * values in GTK+. * * * * ythickness = * number * * Sets the ythickness, which is used for various vertical padding * values in GTK+. * * * * bg_pixmap[state] = * pixmap * * Sets a background pixmap to be used in place of * the bg color (or for #GtkText, * in place of the base color. The special * value "<parent>" may be used to indicate that the widget should * use the same background pixmap as its parent. The special value * "<none>" may be used to indicate no background pixmap. * * * * font = font * * Starting with GTK+ 2.0, the "font" and "fontset" * declarations are ignored; use "font_name" declarations instead. * * * * fontset = font * * Starting with GTK+ 2.0, the "font" and "fontset" * declarations are ignored; use "font_name" declarations instead. * * * * font_name = font * * Sets the font for a widget. font must be * a Pango font name, e.g. "Sans Italic 10". * For details about Pango font names, see * pango_font_description_from_string(). * * * * stock["stock-id"] = { icon source specifications } * * Defines the icon for a stock item. * * * * color["color-name"] = color specification * * Since 2.10, this element can be used to defines symbolic colors. See below for * the syntax of color specifications. * * * * engine "engine" { engine-specific * settings } * * Defines the engine to be used when drawing with this style. * * * * class::property = value * * Sets a style property for a widget class. * * * * * The colors and background pixmaps are specified as a function of the * state of the widget. The states are: * * * * NORMAL * * A color used for a widget in its normal state. * * * * ACTIVE * * A variant of the NORMAL color used when the * widget is in the %GTK_STATE_ACTIVE state, and also for * the trough of a ScrollBar, tabs of a NoteBook * other than the current tab and similar areas. * Frequently, this should be a darker variant * of the NORMAL color. * * * * PRELIGHT * * A color used for widgets in the %GTK_STATE_PRELIGHT state. This * state is the used for Buttons and MenuItems * that have the mouse cursor over them, and for * their children. * * * * SELECTED * * A color used to highlight data selected by the user. * for instance, the selected items in a list widget, and the * selection in an editable widget. * * * * INSENSITIVE * * A color used for the background of widgets that have * been set insensitive with gtk_widget_set_sensitive(). * * * * * * Colors can be specified as a string containing a color name (GTK+ knows * all names from the X color database /usr/lib/X11/rgb.txt), * in one of the hexadecimal forms #rrrrggggbbbb, * #rrrgggbbb, #rrggbb, * or #rgb, where r, * g and b are * hex digits, or they can be specified as a triplet * { r, g, * b}, where r, * g and b are either integers in * the range 0-65535 or floats in the range 0.0-1.0. * * Since 2.10, colors can also be specified by refering to a symbolic color, as * follows: @color-name, or by using expressions to combine * colors. The following expressions are currently supported: * * * mix (factor, color1, color2) * * Computes a new color by mixing color1 and * color2. The factor * determines how close the new color is to color1. * A factor of 1.0 gives pure color1, a factor of * 0.0 gives pure color2. * * * * shade (factor, color) * * Computes a lighter or darker variant of color. * A factor of 1.0 leaves the color unchanged, smaller * factors yield darker colors, larger factors yield lighter colors. * * * * lighter (color) * * This is an abbreviation for * shade (1.3, color). * * * * darker (color) * * This is an abbreviation for * shade (0.7, color). * * * * * Here are some examples of color expressions: * * * mix (0.5, "red", "blue") * shade (1.5, mix (0.3, "#0abbc0", { 0.3, 0.5, 0.9 })) * lighter (@foreground) * * * In a stock definition, icon sources are specified as a * 4-tuple of image filename or icon name, text direction, widget state, and size, in that * order. Each icon source specifies an image filename or icon name to use with a given * direction, state, and size. Filenames are specified as a string such * as "itemltr.png", while icon names (looked up * in the current icon theme), are specified with a leading * @, such as @"item-ltr". * The * character can be used as a * wildcard, and if direction/state/size are omitted they default to * *. So for example, the following specifies different icons to * use for left-to-right and right-to-left languages: * * * stock["my-stock-item"] = * { * { "itemltr.png", LTR, *, * }, * { "itemrtl.png", RTL, *, * } * } * * * This could be abbreviated as follows: * * * stock["my-stock-item"] = * { * { "itemltr.png", LTR }, * { "itemrtl.png", RTL } * } * * * You can specify custom icons for specific sizes, as follows: * * * stock["my-stock-item"] = * { * { "itemmenusize.png", *, *, "gtk-menu" }, * { "itemtoolbarsize.png", *, *, "gtk-large-toolbar" } * { "itemgeneric.png" } // implicit *, *, * as a fallback * } * * * The sizes that come with GTK+ itself are "gtk-menu", * "gtk-small-toolbar", "gtk-large-toolbar", * "gtk-button", "gtk-dialog". Applications * can define other sizes. * * It's also possible to use custom icons for a given state, for example: * * * stock["my-stock-item"] = * { * { "itemprelight.png", *, PRELIGHT }, * { "iteminsensitive.png", *, INSENSITIVE }, * { "itemgeneric.png" } // implicit *, *, * as a fallback * } * * * When selecting an icon source to use, GTK+ will consider text direction most * important, state second, and size third. It will select the best match based on * those criteria. If an attribute matches exactly (e.g. you specified * PRELIGHT or specified the size), GTK+ won't modify the image; * if the attribute matches with a wildcard, GTK+ will scale or modify the image to * match the state and size the user requested. * * * * Key bindings * * Key bindings allow the user to specify actions to be * taken on particular key presses. The form of a binding * set declaration is: * * * binding name { * bind key { * signalname (param, ...) * ... * } * ... * } * * * key is a string consisting of a * series of modifiers followed by the name of a key. The * modifiers can be: * * <alt> * <ctl> * <control> * <meta> * <hyper> * <super> * <mod1> * <mod2> * <mod3> * <mod4> * <mod5> * <release> * <shft> * <shift> * * <shft> is an alias for * <shift>, * <ctl> is an alias for * <control>, * and * <alt> is an alias for * <mod1>. * * The action that is bound to the key is a sequence * of signal names (strings) followed by parameters for * each signal. The signals must be action signals. * (See g_signal_new()). Each parameter can be * a float, integer, string, or unquoted string * representing an enumeration value. The types of * the parameters specified must match the types of the * parameters of the signal. * * Binding sets are connected to widgets in the same manner as styles, * with one difference: Binding sets override other binding sets first * by pattern type, then by priority and then by order of specification. * The priorities that can be specified and their default values are the * same as for styles. * * */ enum { PATH_ELT_PSPEC, PATH_ELT_UNRESOLVED, PATH_ELT_TYPE }; typedef struct { gint type; union { GType class_type; gchar *class_name; GPatternSpec *pspec; } elt; } PathElt; #define GTK_RC_STYLE_GET_PRIVATE(obj) (G_TYPE_INSTANCE_GET_PRIVATE ((obj), GTK_TYPE_RC_STYLE, GtkRcStylePrivate)) typedef struct _GtkRcStylePrivate GtkRcStylePrivate; struct _GtkRcStylePrivate { GSList *color_hashes; }; static void gtk_rc_style_finalize (GObject *object); static void gtk_rc_style_real_merge (GtkRcStyle *dest, GtkRcStyle *src); static GtkRcStyle* gtk_rc_style_real_create_rc_style (GtkRcStyle *rc_style); static GtkStyle* gtk_rc_style_real_create_style (GtkRcStyle *rc_style); static gint gtk_rc_properties_cmp (gconstpointer bsearch_node1, gconstpointer bsearch_node2); static void insert_rc_property (GtkRcStyle *style, GtkRcProperty *property, gboolean replace); static const GScannerConfig gtk_rc_scanner_config = { ( " \t\r\n" ) /* cset_skip_characters */, ( "_" G_CSET_a_2_z G_CSET_A_2_Z ) /* cset_identifier_first */, ( G_CSET_DIGITS "-_" G_CSET_a_2_z G_CSET_A_2_Z ) /* cset_identifier_nth */, ( "#\n" ) /* cpair_comment_single */, TRUE /* case_sensitive */, TRUE /* skip_comment_multi */, TRUE /* skip_comment_single */, TRUE /* scan_comment_multi */, TRUE /* scan_identifier */, FALSE /* scan_identifier_1char */, FALSE /* scan_identifier_NULL */, TRUE /* scan_symbols */, TRUE /* scan_binary */, TRUE /* scan_octal */, TRUE /* scan_float */, TRUE /* scan_hex */, TRUE /* scan_hex_dollar */, TRUE /* scan_string_sq */, TRUE /* scan_string_dq */, TRUE /* numbers_2_int */, FALSE /* int_2_float */, FALSE /* identifier_2_string */, TRUE /* char_2_token */, TRUE /* symbol_2_token */, FALSE /* scope_0_fallback */, }; static const gchar symbol_names[] = "include\0" "NORMAL\0" "ACTIVE\0" "PRELIGHT\0" "SELECTED\0" "INSENSITIVE\0" "fg\0" "bg\0" "text\0" "base\0" "xthickness\0" "ythickness\0" "font\0" "fontset\0" "font_name\0" "bg_pixmap\0" "pixmap_path\0" "style\0" "binding\0" "bind\0" "widget\0" "widget_class\0" "class\0" "lowest\0" "gtk\0" "application\0" "theme\0" "rc\0" "highest\0" "engine\0" "module_path\0" "stock\0" "im_module_file\0" "LTR\0" "RTL\0" "color\0" "unbind\0"; static const struct { guint name_offset; guint token; } symbols[] = { { 0, GTK_RC_TOKEN_INCLUDE }, { 8, GTK_RC_TOKEN_NORMAL }, { 15, GTK_RC_TOKEN_ACTIVE }, { 22, GTK_RC_TOKEN_PRELIGHT }, { 31, GTK_RC_TOKEN_SELECTED }, { 40, GTK_RC_TOKEN_INSENSITIVE }, { 52, GTK_RC_TOKEN_FG }, { 55, GTK_RC_TOKEN_BG }, { 58, GTK_RC_TOKEN_TEXT }, { 63, GTK_RC_TOKEN_BASE }, { 68, GTK_RC_TOKEN_XTHICKNESS }, { 79, GTK_RC_TOKEN_YTHICKNESS }, { 90, GTK_RC_TOKEN_FONT }, { 95, GTK_RC_TOKEN_FONTSET }, { 103, GTK_RC_TOKEN_FONT_NAME }, { 113, GTK_RC_TOKEN_BG_PIXMAP }, { 123, GTK_RC_TOKEN_PIXMAP_PATH }, { 135, GTK_RC_TOKEN_STYLE }, { 141, GTK_RC_TOKEN_BINDING }, { 149, GTK_RC_TOKEN_BIND }, { 154, GTK_RC_TOKEN_WIDGET }, { 161, GTK_RC_TOKEN_WIDGET_CLASS }, { 174, GTK_RC_TOKEN_CLASS }, { 180, GTK_RC_TOKEN_LOWEST }, { 187, GTK_RC_TOKEN_GTK }, { 191, GTK_RC_TOKEN_APPLICATION }, { 203, GTK_RC_TOKEN_THEME }, { 209, GTK_RC_TOKEN_RC }, { 212, GTK_RC_TOKEN_HIGHEST }, { 220, GTK_RC_TOKEN_ENGINE }, { 227, GTK_RC_TOKEN_MODULE_PATH }, { 239, GTK_RC_TOKEN_STOCK }, { 245, GTK_RC_TOKEN_IM_MODULE_FILE }, { 260, GTK_RC_TOKEN_LTR }, { 264, GTK_RC_TOKEN_RTL }, { 268, GTK_RC_TOKEN_COLOR }, { 274, GTK_RC_TOKEN_UNBIND } }; static GHashTable *realized_style_ht = NULL; static gchar *im_module_file = NULL; static gchar **gtk_rc_default_files = NULL; /* RC file handling */ static gchar * gtk_rc_make_default_dir (const gchar *type) { const gchar *var; gchar *path; var = g_getenv ("GTK_EXE_PREFIX"); if (var) path = g_build_filename (var, "lib", "gtk-3.0", GTK_BINARY_VERSION, type, NULL); else path = g_build_filename (GTK_LIBDIR, "gtk-3.0", GTK_BINARY_VERSION, type, NULL); return path; } /** * gtk_rc_get_im_module_path: * * Obtains the path in which to look for IM modules. See the documentation * of the GTK_PATH * environment variable for more details about looking up modules. This * function is useful solely for utilities supplied with GTK+ and should * not be used by applications under normal circumstances. * * Returns: (type filename): a newly-allocated string containing the * path in which to look for IM modules. * * Deprecated: 3.0: Use #GtkCssProvider instead. */ gchar * gtk_rc_get_im_module_path (void) { gchar **paths = _gtk_get_module_path ("immodules"); gchar *result = g_strjoinv (G_SEARCHPATH_SEPARATOR_S, paths); g_strfreev (paths); return result; } /** * gtk_rc_get_im_module_file: * * Obtains the path to the IM modules file. See the documentation * of the GTK_IM_MODULE_FILE * environment variable for more details. * * Returns: (type filename): a newly-allocated string containing the * name of the file listing the IM modules available for loading * * Deprecated: 3.0: Use #GtkCssProvider instead. */ gchar * gtk_rc_get_im_module_file (void) { const gchar *var = g_getenv ("GTK_IM_MODULE_FILE"); gchar *result = NULL; if (var) result = g_strdup (var); if (!result) { if (im_module_file) result = g_strdup (im_module_file); else result = gtk_rc_make_default_dir ("immodules.cache"); } return result; } /** * gtk_rc_get_theme_dir: * * Returns the standard directory in which themes should * be installed. (GTK+ does not actually use this directory * itself.) * * Returns: The directory (must be freed with g_free()). * * Deprecated: 3.0: Use #GtkCssProvider instead. */ gchar * gtk_rc_get_theme_dir (void) { const gchar *var; gchar *path; var = g_getenv ("GTK_DATA_PREFIX"); if (var) path = g_build_filename (var, "share", "themes", NULL); else path = g_build_filename (GTK_DATA_PREFIX, "share", "themes", NULL); return path; } /** * gtk_rc_get_module_dir: * * Returns a directory in which GTK+ looks for theme engines. * For full information about the search for theme engines, * see the docs for GTK_PATH in * . * * return value: (type filename): the directory. (Must be freed with g_free()) * * Deprecated: 3.0: Use #GtkCssProvider instead. **/ gchar * gtk_rc_get_module_dir (void) { return gtk_rc_make_default_dir ("engines"); } /** * gtk_rc_add_default_file: * @filename: (type filename): the pathname to the file. If @filename * is not absolute, it is searched in the current directory. * * Adds a file to the list of files to be parsed at the * end of gtk_init(). * * Deprecated:3.0: Use #GtkStyleContext with a custom #GtkStyleProvider instead **/ void gtk_rc_add_default_file (const gchar *filename) { } /** * gtk_rc_set_default_files: * @filenames: (array zero-terminated=1) (element-type filename): A * %NULL-terminated list of filenames. * * Sets the list of files that GTK+ will read at the * end of gtk_init(). * * Deprecated:3.0: Use #GtkStyleContext with a custom #GtkStyleProvider instead **/ void gtk_rc_set_default_files (gchar **filenames) { } /** * gtk_rc_get_default_files: * * Retrieves the current list of RC files that will be parsed * at the end of gtk_init(). * * Return value: (transfer none) (array zero-terminated=1) (element-type filename): * A %NULL-terminated array of filenames. This memory is owned * by GTK+ and must not be freed by the application. If you want * to store this information, you should make a copy. * * Deprecated:3.0: Use #GtkStyleContext instead **/ gchar ** gtk_rc_get_default_files (void) { return gtk_rc_default_files; } /** * gtk_rc_parse_string: * @rc_string: a string to parse. * * Parses resource information directly from a string. * * Deprecated: 3.0: Use #GtkCssProvider instead. */ void gtk_rc_parse_string (const gchar *rc_string) { g_return_if_fail (rc_string != NULL); } /** * gtk_rc_parse: * @filename: the filename of a file to parse. If @filename is not absolute, it * is searched in the current directory. * * Parses a given resource file. * * Deprecated: 3.0: Use #GtkCssProvider instead. */ void gtk_rc_parse (const gchar *filename) { g_return_if_fail (filename != NULL); } /* Handling of RC styles */ G_DEFINE_TYPE (GtkRcStyle, gtk_rc_style, G_TYPE_OBJECT) static void gtk_rc_style_init (GtkRcStyle *style) { GtkRcStylePrivate *priv = GTK_RC_STYLE_GET_PRIVATE (style); guint i; style->name = NULL; style->font_desc = NULL; for (i = 0; i < 5; i++) { static const GdkColor init_color = { 0, 0, 0, 0, }; style->bg_pixmap_name[i] = NULL; style->color_flags[i] = 0; style->fg[i] = init_color; style->bg[i] = init_color; style->text[i] = init_color; style->base[i] = init_color; } style->xthickness = -1; style->ythickness = -1; style->rc_properties = NULL; style->rc_style_lists = NULL; style->icon_factories = NULL; priv->color_hashes = NULL; } static void gtk_rc_style_class_init (GtkRcStyleClass *klass) { GObjectClass *object_class = G_OBJECT_CLASS (klass); object_class->finalize = gtk_rc_style_finalize; klass->parse = NULL; klass->create_rc_style = gtk_rc_style_real_create_rc_style; klass->merge = gtk_rc_style_real_merge; klass->create_style = gtk_rc_style_real_create_style; g_type_class_add_private (object_class, sizeof (GtkRcStylePrivate)); } static void gtk_rc_style_finalize (GObject *object) { GSList *tmp_list1, *tmp_list2; GtkRcStyle *rc_style; GtkRcStylePrivate *rc_priv; gint i; rc_style = GTK_RC_STYLE (object); rc_priv = GTK_RC_STYLE_GET_PRIVATE (rc_style); g_free (rc_style->name); if (rc_style->font_desc) pango_font_description_free (rc_style->font_desc); for (i = 0; i < 5; i++) g_free (rc_style->bg_pixmap_name[i]); /* Now remove all references to this rc_style from * realized_style_ht */ tmp_list1 = rc_style->rc_style_lists; while (tmp_list1) { GSList *rc_styles = tmp_list1->data; GtkStyle *style = g_hash_table_lookup (realized_style_ht, rc_styles); g_object_unref (style); /* Remove the list of styles from the other rc_styles * in the list */ tmp_list2 = rc_styles; while (tmp_list2) { GtkRcStyle *other_style = tmp_list2->data; if (other_style != rc_style) other_style->rc_style_lists = g_slist_remove_all (other_style->rc_style_lists, rc_styles); tmp_list2 = tmp_list2->next; } /* And from the hash table itself */ g_hash_table_remove (realized_style_ht, rc_styles); g_slist_free (rc_styles); tmp_list1 = tmp_list1->next; } g_slist_free (rc_style->rc_style_lists); if (rc_style->rc_properties) { guint i; for (i = 0; i < rc_style->rc_properties->len; i++) { GtkRcProperty *node = &g_array_index (rc_style->rc_properties, GtkRcProperty, i); g_free (node->origin); g_value_unset (&node->value); } g_array_free (rc_style->rc_properties, TRUE); rc_style->rc_properties = NULL; } g_slist_foreach (rc_style->icon_factories, (GFunc) g_object_unref, NULL); g_slist_free (rc_style->icon_factories); g_slist_foreach (rc_priv->color_hashes, (GFunc) g_hash_table_unref, NULL); g_slist_free (rc_priv->color_hashes); G_OBJECT_CLASS (gtk_rc_style_parent_class)->finalize (object); } /** * gtk_rc_style_new: * * Creates a new #GtkRcStyle with no fields set and * a reference count of 1. * * Returns: the newly-created #GtkRcStyle * * Deprecated: 3.0: Use #GtkCssProvider instead. */ GtkRcStyle * gtk_rc_style_new (void) { GtkRcStyle *style; style = g_object_new (GTK_TYPE_RC_STYLE, NULL); return style; } /** * gtk_rc_style_copy: * @orig: the style to copy * * Makes a copy of the specified #GtkRcStyle. This function * will correctly copy an RC style that is a member of a class * derived from #GtkRcStyle. * * Return value: (transfer full): the resulting #GtkRcStyle * * Deprecated: 3.0: Use #GtkCssProvider instead. **/ GtkRcStyle * gtk_rc_style_copy (GtkRcStyle *orig) { GtkRcStyle *style; g_return_val_if_fail (GTK_IS_RC_STYLE (orig), NULL); style = GTK_RC_STYLE_GET_CLASS (orig)->create_rc_style (orig); GTK_RC_STYLE_GET_CLASS (style)->merge (style, orig); return style; } static GtkRcStyle * gtk_rc_style_real_create_rc_style (GtkRcStyle *style) { return g_object_new (G_OBJECT_TYPE (style), NULL); } static gint gtk_rc_properties_cmp (gconstpointer bsearch_node1, gconstpointer bsearch_node2) { const GtkRcProperty *prop1 = bsearch_node1; const GtkRcProperty *prop2 = bsearch_node2; if (prop1->type_name == prop2->type_name) return prop1->property_name < prop2->property_name ? -1 : prop1->property_name == prop2->property_name ? 0 : 1; else return prop1->type_name < prop2->type_name ? -1 : 1; } static void insert_rc_property (GtkRcStyle *style, GtkRcProperty *property, gboolean replace) { guint i; GtkRcProperty *new_property = NULL; GtkRcProperty key = { 0, 0, NULL, { 0, }, }; key.type_name = property->type_name; key.property_name = property->property_name; if (!style->rc_properties) style->rc_properties = g_array_new (FALSE, FALSE, sizeof (GtkRcProperty)); i = 0; while (i < style->rc_properties->len) { gint cmp = gtk_rc_properties_cmp (&key, &g_array_index (style->rc_properties, GtkRcProperty, i)); if (cmp == 0) { if (replace) { new_property = &g_array_index (style->rc_properties, GtkRcProperty, i); g_free (new_property->origin); g_value_unset (&new_property->value); *new_property = key; break; } else return; } else if (cmp < 0) break; i++; } if (!new_property) { g_array_insert_val (style->rc_properties, i, key); new_property = &g_array_index (style->rc_properties, GtkRcProperty, i); } new_property->origin = g_strdup (property->origin); g_value_init (&new_property->value, G_VALUE_TYPE (&property->value)); g_value_copy (&property->value, &new_property->value); } static void gtk_rc_style_real_merge (GtkRcStyle *dest, GtkRcStyle *src) { gint i; for (i = 0; i < 5; i++) { if (!dest->bg_pixmap_name[i] && src->bg_pixmap_name[i]) dest->bg_pixmap_name[i] = g_strdup (src->bg_pixmap_name[i]); if (!(dest->color_flags[i] & GTK_RC_FG) && src->color_flags[i] & GTK_RC_FG) { dest->fg[i] = src->fg[i]; dest->color_flags[i] |= GTK_RC_FG; } if (!(dest->color_flags[i] & GTK_RC_BG) && src->color_flags[i] & GTK_RC_BG) { dest->bg[i] = src->bg[i]; dest->color_flags[i] |= GTK_RC_BG; } if (!(dest->color_flags[i] & GTK_RC_TEXT) && src->color_flags[i] & GTK_RC_TEXT) { dest->text[i] = src->text[i]; dest->color_flags[i] |= GTK_RC_TEXT; } if (!(dest->color_flags[i] & GTK_RC_BASE) && src->color_flags[i] & GTK_RC_BASE) { dest->base[i] = src->base[i]; dest->color_flags[i] |= GTK_RC_BASE; } } if (dest->xthickness < 0 && src->xthickness >= 0) dest->xthickness = src->xthickness; if (dest->ythickness < 0 && src->ythickness >= 0) dest->ythickness = src->ythickness; if (src->font_desc) { if (!dest->font_desc) dest->font_desc = pango_font_description_copy (src->font_desc); else pango_font_description_merge (dest->font_desc, src->font_desc, FALSE); } if (src->rc_properties) { guint i; for (i = 0; i < src->rc_properties->len; i++) insert_rc_property (dest, &g_array_index (src->rc_properties, GtkRcProperty, i), FALSE); } } static GtkStyle * gtk_rc_style_real_create_style (GtkRcStyle *rc_style) { return gtk_style_new (); } /** * gtk_rc_reset_styles: * @settings: a #GtkSettings * * This function recomputes the styles for all widgets that use a * particular #GtkSettings object. (There is one #GtkSettings object * per #GdkScreen, see gtk_settings_get_for_screen()); It is useful * when some global parameter has changed that affects the appearance * of all widgets, because when a widget gets a new style, it will * both redraw and recompute any cached information about its * appearance. As an example, it is used when the default font size * set by the operating system changes. Note that this function * doesn't affect widgets that have a style set explicitely on them * with gtk_widget_set_style(). * * Since: 2.4 * * Deprecated: 3.0: Use #GtkCssProvider instead. **/ void gtk_rc_reset_styles (GtkSettings *settings) { gtk_style_context_reset_widgets (_gtk_settings_get_screen (settings)); } /** * gtk_rc_reparse_all_for_settings: * @settings: a #GtkSettings * @force_load: load whether or not anything changed * * If the modification time on any previously read file * for the given #GtkSettings has changed, discard all style information * and then reread all previously read RC files. * * Return value: %TRUE if the files were reread. * * Deprecated: 3.0: Use #GtkCssProvider instead. **/ gboolean gtk_rc_reparse_all_for_settings (GtkSettings *settings, gboolean force_load) { return FALSE; } /** * gtk_rc_reparse_all: * * If the modification time on any previously read file for the * default #GtkSettings has changed, discard all style information * and then reread all previously read RC files. * * Return value: %TRUE if the files were reread. * * Deprecated: 3.0: Use #GtkCssProvider instead. **/ gboolean gtk_rc_reparse_all (void) { return FALSE; } /** * gtk_rc_get_style: * @widget: a #GtkWidget * * Finds all matching RC styles for a given widget, * composites them together, and then creates a * #GtkStyle representing the composite appearance. * (GTK+ actually keeps a cache of previously * created styles, so a new style may not be * created.) * * Returns: (transfer none): the resulting style. No refcount is added * to the returned style, so if you want to save this style around, * you should add a reference yourself. * * Deprecated:3.0: Use #GtkStyleContext instead **/ GtkStyle * gtk_rc_get_style (GtkWidget *widget) { g_return_val_if_fail (GTK_IS_WIDGET (widget), NULL); gtk_widget_ensure_style (widget); return gtk_widget_get_style (widget); } /** * gtk_rc_get_style_by_paths: * @settings: a #GtkSettings object * @widget_path: (allow-none): the widget path to use when looking up the * style, or %NULL if no matching against the widget path should be done * @class_path: (allow-none): the class path to use when looking up the style, * or %NULL if no matching against the class path should be done. * @type: a type that will be used along with parent types of this type * when matching against class styles, or #G_TYPE_NONE * * Creates up a #GtkStyle from styles defined in a RC file by providing * the raw components used in matching. This function may be useful * when creating pseudo-widgets that should be themed like widgets but * don't actually have corresponding GTK+ widgets. An example of this * would be items inside a GNOME canvas widget. * * The action of gtk_rc_get_style() is similar to: * |[ * gtk_widget_path (widget, NULL, &path, NULL); * gtk_widget_class_path (widget, NULL, &class_path, NULL); * gtk_rc_get_style_by_paths (gtk_widget_get_settings (widget), * path, class_path, * G_OBJECT_TYPE (widget)); * ]| * * Return value: (transfer none): A style created by matching with the * supplied paths, or %NULL if nothing matching was specified and the * default style should be used. The returned value is owned by GTK+ * as part of an internal cache, so you must call g_object_ref() on * the returned value if you want to keep a reference to it. * * Deprecated:3.0: Use #GtkStyleContext instead **/ GtkStyle * gtk_rc_get_style_by_paths (GtkSettings *settings, const char *widget_path, const char *class_path, GType type) { GtkWidgetPath *path; GtkStyle *style; path = gtk_widget_path_new (); /* For compatibility, we return a GtkStyle based on a GtkStyleContext * with a GtkWidgetPath appropriate for the supplied information. * * GtkWidgetPath is composed of a list of GTypes with optional names; * In GTK+-2.0, widget_path consisted of the widget names, or * the class names for unnamed widgets, while class_path had the * class names always. So, use class_path to determine the GTypes * and extract widget names from widget_path as applicable. */ if (class_path == NULL) { gtk_widget_path_append_type (path, type == G_TYPE_NONE ? GTK_TYPE_WIDGET : type); } else { const gchar *widget_p, *widget_next; const gchar *class_p, *class_next; widget_next = widget_path; class_next = class_path; while (*class_next) { GType component_type; gchar *component_class; gchar *component_name; gint pos; class_p = class_next; if (*class_p == '.') class_p++; widget_p = widget_next; /* Might be NULL */ if (widget_p && *widget_p == '.') widget_p++; class_next = strchr (class_p, '.'); if (class_next == NULL) class_next = class_p + strlen (class_p); if (widget_p) { widget_next = strchr (widget_p, '.'); if (widget_next == NULL) widget_next = widget_p + strlen (widget_p); } component_class = g_strndup (class_p, class_next - class_p); if (widget_p && *widget_p) component_name = g_strndup (widget_p, widget_next - widget_p); else component_name = NULL; component_type = g_type_from_name (component_class); if (component_type == G_TYPE_INVALID) component_type = GTK_TYPE_WIDGET; pos = gtk_widget_path_append_type (path, component_type); if (component_name != NULL && strcmp (component_name, component_name) != 0) gtk_widget_path_iter_set_name (path, pos, component_name); g_free (component_class); g_free (component_name); } } style = _gtk_style_new_for_path (_gtk_settings_get_screen (settings), path); gtk_widget_path_free (path); return style; } /** * gtk_rc_scanner_new: (skip) * * Deprecated:3.0: Use #GtkCssProvider instead */ GScanner* gtk_rc_scanner_new (void) { return g_scanner_new (>k_rc_scanner_config); } /********************* * Parsing functions * *********************/ static gboolean lookup_color (GtkRcStyle *style, const char *color_name, GdkColor *color) { GtkRcStylePrivate *priv = GTK_RC_STYLE_GET_PRIVATE (style); GSList *iter; for (iter = priv->color_hashes; iter != NULL; iter = iter->next) { GHashTable *hash = iter->data; GdkColor *match = g_hash_table_lookup (hash, color_name); if (match) { color->red = match->red; color->green = match->green; color->blue = match->blue; return TRUE; } } return FALSE; } /** * gtk_rc_find_pixmap_in_path: * @settings: a #GtkSettings * @scanner: Scanner used to get line number information for the * warning message, or %NULL * @pixmap_file: name of the pixmap file to locate. * * Looks up a file in pixmap path for the specified #GtkSettings. * If the file is not found, it outputs a warning message using * g_warning() and returns %NULL. * * Return value: (type filename): the filename. * * Deprecated: 3.0: Use #GtkCssProvider instead. **/ gchar* gtk_rc_find_pixmap_in_path (GtkSettings *settings, GScanner *scanner, const gchar *pixmap_file) { g_warning ("Unable to locate image file in pixmap_path: \"%s\"", pixmap_file); return NULL; } /** * gtk_rc_find_module_in_path: * @module_file: name of a theme engine * * Searches for a theme engine in the GTK+ search path. This function * is not useful for applications and should not be used. * * Return value: (type filename): The filename, if found (must be * freed with g_free()), otherwise %NULL. * * Deprecated: 3.0: Use #GtkCssProvider instead. **/ gchar* gtk_rc_find_module_in_path (const gchar *module_file) { return _gtk_find_module (module_file, "engines"); } /** * gtk_rc_parse_state: * @scanner: a #GtkScanner (must be initialized for parsing an RC file) * @state: (out): A pointer to a #GtkStateType variable in which to * store the result. * * Parses a #GtkStateType variable from the format expected * in a RC file. * * Returns: %G_TOKEN_NONE if parsing succeeded, otherwise the token * that was expected but not found. * * Deprecated: 3.0: Use #GtkCssProvider instead */ guint gtk_rc_parse_state (GScanner *scanner, GtkStateType *state) { guint old_scope; guint token; g_return_val_if_fail (scanner != NULL, G_TOKEN_ERROR); g_return_val_if_fail (state != NULL, G_TOKEN_ERROR); /* we don't know where we got called from, so we reset the scope here. * if we bail out due to errors, we *don't* reset the scope, so the * error messaging code can make sense of our tokens. */ old_scope = g_scanner_set_scope (scanner, 0); token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_LEFT_BRACE) return G_TOKEN_LEFT_BRACE; token = g_scanner_get_next_token (scanner); switch (token) { case GTK_RC_TOKEN_ACTIVE: *state = GTK_STATE_ACTIVE; break; case GTK_RC_TOKEN_INSENSITIVE: *state = GTK_STATE_INSENSITIVE; break; case GTK_RC_TOKEN_NORMAL: *state = GTK_STATE_NORMAL; break; case GTK_RC_TOKEN_PRELIGHT: *state = GTK_STATE_PRELIGHT; break; case GTK_RC_TOKEN_SELECTED: *state = GTK_STATE_SELECTED; break; default: return /* G_TOKEN_SYMBOL */ GTK_RC_TOKEN_NORMAL; } token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_RIGHT_BRACE) return G_TOKEN_RIGHT_BRACE; g_scanner_set_scope (scanner, old_scope); return G_TOKEN_NONE; } /** * gtk_rc_parse_priority: * @scanner: a #GtkScanner (must be initialized for parsing an RC file) * @priority: A pointer to #GtkPathPriorityType variable in which * to store the result. * * Parses a #GtkPathPriorityType variable from the format expected * in a RC file. * * Returns: %G_TOKEN_NONE if parsing succeeded, otherwise the token * that was expected but not found. * * Deprecated:3.0: Use #GtkCssProvider instead */ guint gtk_rc_parse_priority (GScanner *scanner, GtkPathPriorityType *priority) { guint old_scope; guint token; g_return_val_if_fail (scanner != NULL, G_TOKEN_ERROR); g_return_val_if_fail (priority != NULL, G_TOKEN_ERROR); /* we don't know where we got called from, so we reset the scope here. * if we bail out due to errors, we *don't* reset the scope, so the * error messaging code can make sense of our tokens. */ old_scope = g_scanner_set_scope (scanner, 0); token = g_scanner_get_next_token (scanner); if (token != ':') return ':'; token = g_scanner_get_next_token (scanner); switch (token) { case GTK_RC_TOKEN_LOWEST: *priority = GTK_PATH_PRIO_LOWEST; break; case GTK_RC_TOKEN_GTK: *priority = GTK_PATH_PRIO_GTK; break; case GTK_RC_TOKEN_APPLICATION: *priority = GTK_PATH_PRIO_APPLICATION; break; case GTK_RC_TOKEN_THEME: *priority = GTK_PATH_PRIO_THEME; break; case GTK_RC_TOKEN_RC: *priority = GTK_PATH_PRIO_RC; break; case GTK_RC_TOKEN_HIGHEST: *priority = GTK_PATH_PRIO_HIGHEST; break; default: return /* G_TOKEN_SYMBOL */ GTK_RC_TOKEN_APPLICATION; } g_scanner_set_scope (scanner, old_scope); return G_TOKEN_NONE; } /** * gtk_rc_parse_color: * @scanner: a #GScanner * @color: (out): a pointer to a #GdkColor structure in which to store * the result * * Parses a color in the format expected * in a RC file. * * Note that theme engines should use gtk_rc_parse_color_full() in * order to support symbolic colors. * * Returns: %G_TOKEN_NONE if parsing succeeded, otherwise the token * that was expected but not found * * Deprecated:3.0: Use #GtkCssProvider instead */ guint gtk_rc_parse_color (GScanner *scanner, GdkColor *color) { return gtk_rc_parse_color_full (scanner, NULL, color); } /** * gtk_rc_parse_color_full: * @scanner: a #GScanner * @style: (allow-none): a #GtkRcStyle, or %NULL * @color: (out): a pointer to a #GdkColor structure in which to store * the result * * Parses a color in the format expected * in a RC file. If @style is not %NULL, it will be consulted to resolve * references to symbolic colors. * * Returns: %G_TOKEN_NONE if parsing succeeded, otherwise the token * that was expected but not found * * Since: 2.12 * * Deprecated:3.0: Use #GtkCssProvider instead */ guint gtk_rc_parse_color_full (GScanner *scanner, GtkRcStyle *style, GdkColor *color) { guint token; g_return_val_if_fail (scanner != NULL, G_TOKEN_ERROR); /* we don't need to set our own scope here, because * we don't need own symbols */ token = g_scanner_get_next_token (scanner); switch (token) { gint token_int; GdkColor c1, c2; gboolean negate; gdouble l; case G_TOKEN_LEFT_CURLY: token = g_scanner_get_next_token (scanner); if (token == G_TOKEN_INT) token_int = scanner->value.v_int; else if (token == G_TOKEN_FLOAT) token_int = scanner->value.v_float * 65535.0; else return G_TOKEN_FLOAT; color->red = CLAMP (token_int, 0, 65535); token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_COMMA) return G_TOKEN_COMMA; token = g_scanner_get_next_token (scanner); if (token == G_TOKEN_INT) token_int = scanner->value.v_int; else if (token == G_TOKEN_FLOAT) token_int = scanner->value.v_float * 65535.0; else return G_TOKEN_FLOAT; color->green = CLAMP (token_int, 0, 65535); token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_COMMA) return G_TOKEN_COMMA; token = g_scanner_get_next_token (scanner); if (token == G_TOKEN_INT) token_int = scanner->value.v_int; else if (token == G_TOKEN_FLOAT) token_int = scanner->value.v_float * 65535.0; else return G_TOKEN_FLOAT; color->blue = CLAMP (token_int, 0, 65535); token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_RIGHT_CURLY) return G_TOKEN_RIGHT_CURLY; return G_TOKEN_NONE; case G_TOKEN_STRING: if (!gdk_color_parse (scanner->value.v_string, color)) { g_scanner_warn (scanner, "Invalid color constant '%s'", scanner->value.v_string); return G_TOKEN_STRING; } return G_TOKEN_NONE; case '@': token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_IDENTIFIER) return G_TOKEN_IDENTIFIER; if (!style || !lookup_color (style, scanner->value.v_identifier, color)) { g_scanner_warn (scanner, "Invalid symbolic color '%s'", scanner->value.v_identifier); return G_TOKEN_IDENTIFIER; } return G_TOKEN_NONE; case G_TOKEN_IDENTIFIER: if (strcmp (scanner->value.v_identifier, "mix") == 0) { token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_LEFT_PAREN) return G_TOKEN_LEFT_PAREN; negate = FALSE; if (g_scanner_peek_next_token (scanner) == '-') { g_scanner_get_next_token (scanner); /* eat sign */ negate = TRUE; } token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_FLOAT) return G_TOKEN_FLOAT; l = negate ? -scanner->value.v_float : scanner->value.v_float; token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_COMMA) return G_TOKEN_COMMA; token = gtk_rc_parse_color_full (scanner, style, &c1); if (token != G_TOKEN_NONE) return token; token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_COMMA) return G_TOKEN_COMMA; token = gtk_rc_parse_color_full (scanner, style, &c2); if (token != G_TOKEN_NONE) return token; token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_RIGHT_PAREN) return G_TOKEN_RIGHT_PAREN; color->red = l * c1.red + (1.0 - l) * c2.red; color->green = l * c1.green + (1.0 - l) * c2.green; color->blue = l * c1.blue + (1.0 - l) * c2.blue; return G_TOKEN_NONE; } else if (strcmp (scanner->value.v_identifier, "shade") == 0) { token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_LEFT_PAREN) return G_TOKEN_LEFT_PAREN; negate = FALSE; if (g_scanner_peek_next_token (scanner) == '-') { g_scanner_get_next_token (scanner); /* eat sign */ negate = TRUE; } token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_FLOAT) return G_TOKEN_FLOAT; l = negate ? -scanner->value.v_float : scanner->value.v_float; token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_COMMA) return G_TOKEN_COMMA; token = gtk_rc_parse_color_full (scanner, style, &c1); if (token != G_TOKEN_NONE) return token; token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_RIGHT_PAREN) return G_TOKEN_RIGHT_PAREN; _gtk_style_shade (&c1, color, l); return G_TOKEN_NONE; } else if (strcmp (scanner->value.v_identifier, "lighter") == 0 || strcmp (scanner->value.v_identifier, "darker") == 0) { if (scanner->value.v_identifier[0] == 'l') l = 1.3; else l = 0.7; token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_LEFT_PAREN) return G_TOKEN_LEFT_PAREN; token = gtk_rc_parse_color_full (scanner, style, &c1); if (token != G_TOKEN_NONE) return token; token = g_scanner_get_next_token (scanner); if (token != G_TOKEN_RIGHT_PAREN) return G_TOKEN_RIGHT_PAREN; _gtk_style_shade (&c1, color, l); return G_TOKEN_NONE; } else return G_TOKEN_IDENTIFIER; default: return G_TOKEN_STRING; } }