Mercurial > hg > release > icedtea7-forest-2.0 > jdk
view src/solaris/native/sun/awt/gtk2_interface.c @ 4532:ac0f32da8dca
Support building using system Gtk+ (USE_SYSTEM_GTK, GTK_CFLAGS, GTK_LIBS)
author | andrew |
---|---|
date | Fri, 12 Aug 2011 09:18:57 +0100 |
parents | 346b56971f18 |
children |
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/* * Copyright (c) 2005, 2011, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code 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 General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ #include <X11/Xlib.h> #include <limits.h> #include <stdio.h> #include <string.h> #include "gtk2_interface.h" #include "java_awt_Transparency.h" #define MIN(a, b) (((a) < (b)) ? (a) : (b)) #define CONV_BUFFER_SIZE 128 /* SynthConstants */ const gint ENABLED = 1 << 0; const gint MOUSE_OVER = 1 << 1; const gint PRESSED = 1 << 2; const gint DISABLED = 1 << 3; const gint FOCUSED = 1 << 8; const gint SELECTED = 1 << 9; const gint DEFAULT = 1 << 10; static gboolean flag_g_thread_get_initialized = FALSE; /* Widgets */ static GtkWidget *gtk2_widget = NULL; static GtkWidget *gtk2_window = NULL; static GtkFixed *gtk2_fixed = NULL; /* Paint system */ static GdkPixmap *gtk2_white_pixmap = NULL; static GdkPixmap *gtk2_black_pixmap = NULL; static GdkPixbuf *gtk2_white_pixbuf = NULL; static GdkPixbuf *gtk2_black_pixbuf = NULL; static int gtk2_pixbuf_width = 0; static int gtk2_pixbuf_height = 0; /* Static buffer for conversion from java.lang.String to UTF-8 */ static char convertionBuffer[CONV_BUFFER_SIZE]; const char ENV_PREFIX[] = "GTK_MODULES="; static gboolean initialised = FALSE; /*******************/ enum GtkWidgetType { _GTK_ARROW_TYPE, _GTK_BUTTON_TYPE, _GTK_CHECK_BUTTON_TYPE, _GTK_CHECK_MENU_ITEM_TYPE, _GTK_COLOR_SELECTION_DIALOG_TYPE, _GTK_COMBO_BOX_TYPE, _GTK_COMBO_BOX_ARROW_BUTTON_TYPE, _GTK_COMBO_BOX_TEXT_FIELD_TYPE, _GTK_CONTAINER_TYPE, _GTK_ENTRY_TYPE, _GTK_FRAME_TYPE, _GTK_HANDLE_BOX_TYPE, _GTK_HPANED_TYPE, _GTK_HPROGRESS_BAR_TYPE, _GTK_HSCALE_TYPE, _GTK_HSCROLLBAR_TYPE, _GTK_HSEPARATOR_TYPE, _GTK_IMAGE_TYPE, _GTK_MENU_TYPE, _GTK_MENU_BAR_TYPE, _GTK_MENU_ITEM_TYPE, _GTK_NOTEBOOK_TYPE, _GTK_LABEL_TYPE, _GTK_RADIO_BUTTON_TYPE, _GTK_RADIO_MENU_ITEM_TYPE, _GTK_SCROLLED_WINDOW_TYPE, _GTK_SEPARATOR_MENU_ITEM_TYPE, _GTK_SEPARATOR_TOOL_ITEM_TYPE, _GTK_SPIN_BUTTON_TYPE, _GTK_TEXT_VIEW_TYPE, _GTK_TOGGLE_BUTTON_TYPE, _GTK_TOOLBAR_TYPE, _GTK_TOOLTIP_TYPE, _GTK_TREE_VIEW_TYPE, _GTK_VIEWPORT_TYPE, _GTK_VPANED_TYPE, _GTK_VPROGRESS_BAR_TYPE, _GTK_VSCALE_TYPE, _GTK_VSCROLLBAR_TYPE, _GTK_VSEPARATOR_TYPE, _GTK_WINDOW_TYPE, _GTK_DIALOG_TYPE, _GTK_WIDGET_TYPE_SIZE }; static GtkWidget *gtk2_widgets[_GTK_WIDGET_TYPE_SIZE]; /* Method bodies */ const char *getStrFor(JNIEnv *env, jstring val) { int length = (*env)->GetStringLength(env, val); if (length > CONV_BUFFER_SIZE-1) { length = CONV_BUFFER_SIZE-1; #ifdef INTERNAL_BUILD fprintf(stderr, "Note: Detail is too long: %d chars\n", length); #endif /* INTERNAL_BUILD */ } (*env)->GetStringUTFRegion(env, val, 0, length, convertionBuffer); return convertionBuffer; } static void throw_exception(JNIEnv *env, const char* name, const char* message) { jclass class = (*env)->FindClass(env, name); if (class != NULL) (*env)->ThrowNew(env, class, message); (*env)->DeleteLocalRef(env, class); } gboolean gtk2_check_version() { #ifdef USE_SYSTEM_GTK return TRUE; #else return gtk2_check_dlversion(); #endif } gboolean gtk2_load() { gboolean result; int i; int (*handler)(); int (*io_handler)(); char *gtk_modules_env; #ifndef USE_SYSTEM_GTK gtk2_dlload (); #endif /* * Strip the AT-SPI GTK_MODULEs if present */ gtk_modules_env = getenv ("GTK_MODULES"); if (gtk_modules_env && strstr (gtk_modules_env, "atk-bridge") || gtk_modules_env && strstr (gtk_modules_env, "gail")) { /* the new env will be smaller than the old one */ gchar *s, *new_env = malloc (sizeof(ENV_PREFIX)+strlen (gtk_modules_env)); if (new_env != NULL ) { /* careful, strtok modifies its args */ gchar *tmp_env = strdup (gtk_modules_env); strcpy(new_env, ENV_PREFIX); /* strip out 'atk-bridge' and 'gail' */ size_t PREFIX_LENGTH = strlen(ENV_PREFIX); while (s = strtok(tmp_env, ":")) { if ((!strstr (s, "atk-bridge")) && (!strstr (s, "gail"))) { if (strlen (new_env) > PREFIX_LENGTH) { new_env = strcat (new_env, ":"); } new_env = strcat(new_env, s); } if (tmp_env) { free (tmp_env); tmp_env = NULL; /* next call to strtok arg1==NULL */ } } putenv (new_env); free (new_env); } } /* * GTK should be initialized with gtk_init_check() before use. * * gtk_init_check installs its own error handlers. It is critical that * we preserve error handler set from AWT. Otherwise we'll crash on * BadMatch errors which we would normally ignore. The IO error handler * is preserved here, too, just for consistency. */ handler = XSetErrorHandler(NULL); io_handler = XSetIOErrorHandler(NULL); if (gtk_check_version(2, 2, 0) == NULL) { // Init the thread system to use GLib in a thread-safe mode if (!flag_g_thread_get_initialized) { flag_g_thread_get_initialized = TRUE; g_thread_init(NULL); //According the GTK documentation, gdk_threads_init() should be //called before gtk_init() or gtk_init_check() gdk_threads_init(); } } result = gtk_init_check (NULL, NULL); XSetErrorHandler(handler); XSetIOErrorHandler(io_handler); /* Initialize widget array. */ for (i = 0; i < _GTK_WIDGET_TYPE_SIZE; i++) { gtk2_widgets[i] = NULL; } initialised = result; return result; } int gtk2_unload() { int i; if (!initialised) return TRUE; /* Release painting objects */ if (gtk2_white_pixmap != NULL) { g_object_unref (gtk2_white_pixmap); g_object_unref (gtk2_black_pixmap); g_object_unref (gtk2_white_pixbuf); g_object_unref (gtk2_black_pixbuf); gtk2_white_pixmap = gtk2_black_pixmap = gtk2_white_pixbuf = gtk2_black_pixbuf = NULL; } gtk2_pixbuf_width = 0; gtk2_pixbuf_height = 0; if (gtk2_window != NULL) { /* Destroying toplevel widget will destroy all contained widgets */ gtk_widget_destroy (gtk2_window); /* Unset some static data so they get reinitialized on next load */ gtk2_window = NULL; } #ifdef USE_SYSTEM_GTK return TRUE; #else return gtk2_dlunload (); #endif } /* Dispatch all pending events from the GTK event loop. * This is needed to catch theme change and update widgets' style. */ void flush_gtk_event_loop() { while( g_main_context_iteration (NULL, FALSE)); } /* * Initialize components of containment hierarchy. This creates a GtkFixed * inside a GtkWindow. All widgets get realized. */ static void init_containers() { if (gtk2_window == NULL) { gtk2_window = gtk_window_new (GTK_WINDOW_TOPLEVEL); gtk2_fixed = (GtkFixed *) gtk_fixed_new (); gtk_container_add ((GtkContainer*)gtk2_window, (GtkWidget *)gtk2_fixed); gtk_widget_realize (gtk2_window); gtk_widget_realize ((GtkWidget *)gtk2_fixed); } } /* * Ensure everything is ready for drawing an element of the specified width * and height. * * We should somehow handle translucent images. GTK can draw to X Drawables * only, which don't support alpha. When we retrieve the image back from * the server, translucency information is lost. There're several ways to * work around this: * 1) Subclass GdkPixmap and cache translucent objects on client side. This * requires us to implement parts of X server drawing logic on client side. * Many X requests can potentially be "translucent"; e.g. XDrawLine with * fill=tile and a translucent tile is a "translucent" operation, whereas * XDrawLine with fill=solid is an "opaque" one. Moreover themes can (and some * do) intermix transparent and opaque operations which makes caching even * more problematic. * 2) Use Xorg 32bit ARGB visual when available. GDK has no native support * for it (as of version 2.6). Also even in JDS 3 Xorg does not support * these visuals by default, which makes optimizing for them pointless. * We can consider doing this at a later point when ARGB visuals become more * popular. * 3') GTK has plans to use Cairo as its graphical backend (presumably in * 2.8), and Cairo supports alpha. With it we could also get rid of the * unnecessary round trip to server and do all the drawing on client side. * 4) For now we draw to two different pixmaps and restore alpha channel by * comparing results. This can be optimized by using subclassed pixmap and * doing the second drawing only if necessary. */ void gtk2_init_painting(JNIEnv *env, gint width, gint height) { GdkGC *gc; GdkPixbuf *white, *black; init_containers(); if (gtk2_pixbuf_width < width || gtk2_pixbuf_height < height) { white = gdk_pixbuf_new (GDK_COLORSPACE_RGB, TRUE, 8, width, height); black = gdk_pixbuf_new (GDK_COLORSPACE_RGB, TRUE, 8, width, height); if (white == NULL || black == NULL) { snprintf(convertionBuffer, CONV_BUFFER_SIZE, "Couldn't create pixbuf of size %dx%d", width, height); throw_exception(env, "java/lang/RuntimeException", convertionBuffer); gdk_threads_leave(); return; } if (gtk2_white_pixmap != NULL) { /* free old stuff */ g_object_unref (gtk2_white_pixmap); g_object_unref (gtk2_black_pixmap); g_object_unref (gtk2_white_pixbuf); g_object_unref (gtk2_black_pixbuf); } gtk2_white_pixmap = gdk_pixmap_new (gtk2_window->window, width, height, -1); gtk2_black_pixmap = gdk_pixmap_new (gtk2_window->window, width, height, -1); gtk2_white_pixbuf = white; gtk2_black_pixbuf = black; gtk2_pixbuf_width = width; gtk2_pixbuf_height = height; } /* clear the pixmaps */ gc = gdk_gc_new (gtk2_white_pixmap); gdk_rgb_gc_set_foreground (gc, 0xffffff); gdk_draw_rectangle (gtk2_white_pixmap, gc, TRUE, 0, 0, width, height); g_object_unref (gc); gc = gdk_gc_new (gtk2_black_pixmap); gdk_rgb_gc_set_foreground (gc, 0x000000); gdk_draw_rectangle (gtk2_black_pixmap, gc, TRUE, 0, 0, width, height); g_object_unref (gc); } /* * Restore image from white and black pixmaps and copy it into destination * buffer. This method compares two pixbufs taken from white and black * pixmaps and decodes color and alpha components. Pixbufs are RGB without * alpha, destination buffer is ABGR. * * The return value is the transparency type of the resulting image, either * one of java_awt_Transparency_OPAQUE, java_awt_Transparency_BITMASK, and * java_awt_Transparency_TRANSLUCENT. */ gint gtk2_copy_image(gint *dst, gint width, gint height) { gint i, j, r, g, b; guchar *white, *black; gint stride, padding; gboolean is_opaque = TRUE; gboolean is_bitmask = TRUE; gdk_pixbuf_get_from_drawable (gtk2_white_pixbuf, gtk2_white_pixmap, NULL, 0, 0, 0, 0, width, height); gdk_pixbuf_get_from_drawable (gtk2_black_pixbuf, gtk2_black_pixmap, NULL, 0, 0, 0, 0, width, height); white = gdk_pixbuf_get_pixels (gtk2_white_pixbuf); black = gdk_pixbuf_get_pixels (gtk2_black_pixbuf); stride = gdk_pixbuf_get_rowstride (gtk2_black_pixbuf); padding = stride - width * 4; for (i = 0; i < height; i++) { for (j = 0; j < width; j++) { int r1 = *white++; int r2 = *black++; int alpha = 0xff + r2 - r1; switch (alpha) { case 0: /* transparent pixel */ r = g = b = 0; black += 3; white += 3; is_opaque = FALSE; break; case 0xff: /* opaque pixel */ r = r2; g = *black++; b = *black++; black++; white += 3; break; default: /* translucent pixel */ r = 0xff * r2 / alpha; g = 0xff * *black++ / alpha; b = 0xff * *black++ / alpha; black++; white += 3; is_opaque = FALSE; is_bitmask = FALSE; break; } *dst++ = (alpha << 24 | r << 16 | g << 8 | b); } white += padding; black += padding; } return is_opaque ? java_awt_Transparency_OPAQUE : (is_bitmask ? java_awt_Transparency_BITMASK : java_awt_Transparency_TRANSLUCENT); } static void gtk2_set_direction(GtkWidget *widget, GtkTextDirection dir) { /* * Some engines (inexplicably) look at the direction of the widget's * parent, so we need to set the direction of both the widget and its * parent. */ gtk_widget_set_direction (widget, dir); if (widget->parent != NULL) { gtk_widget_set_direction (widget->parent, dir); } } /* * Initializes the widget to correct state for some engines. * This is a pure empirical method. */ static void init_toggle_widget(WidgetType widget_type, gint synth_state) { gboolean is_active = ((synth_state & SELECTED) != 0); if (widget_type == RADIO_BUTTON || widget_type == CHECK_BOX || widget_type == TOGGLE_BUTTON) { ((GtkToggleButton*)gtk2_widget)->active = is_active; } if ((synth_state & FOCUSED) != 0) { ((GtkObject*)gtk2_widget)->flags |= GTK_HAS_FOCUS; } else { ((GtkObject*)gtk2_widget)->flags &= ~GTK_HAS_FOCUS; } if ((synth_state & MOUSE_OVER) != 0 && (synth_state & PRESSED) == 0 || (synth_state & FOCUSED) != 0 && (synth_state & PRESSED) != 0) { gtk2_widget->state = GTK_STATE_PRELIGHT; } else if ((synth_state & DISABLED) != 0) { gtk2_widget->state = GTK_STATE_INSENSITIVE; } else { gtk2_widget->state = is_active ? GTK_STATE_ACTIVE : GTK_STATE_NORMAL; } } /* GTK state_type filter */ static GtkStateType get_gtk_state_type(WidgetType widget_type, gint synth_state) { GtkStateType result = GTK_STATE_NORMAL; if ((synth_state & DISABLED) != 0) { result = GTK_STATE_INSENSITIVE; } else if ((synth_state & PRESSED) != 0) { result = GTK_STATE_ACTIVE; } else if ((synth_state & MOUSE_OVER) != 0) { result = GTK_STATE_PRELIGHT; } return result; } /* GTK shadow_type filter */ static GtkShadowType get_gtk_shadow_type(WidgetType widget_type, gint synth_state) { GtkShadowType result = GTK_SHADOW_OUT; if ((synth_state & SELECTED) != 0) { result = GTK_SHADOW_IN; } return result; } static GtkWidget* gtk2_get_arrow(GtkArrowType arrow_type, GtkShadowType shadow_type) { GtkWidget *arrow = NULL; if (NULL == gtk2_widgets[_GTK_ARROW_TYPE]) { gtk2_widgets[_GTK_ARROW_TYPE] = gtk_arrow_new (arrow_type, shadow_type); gtk_container_add ((GtkContainer *)gtk2_fixed, gtk2_widgets[_GTK_ARROW_TYPE]); gtk_widget_realize (gtk2_widgets[_GTK_ARROW_TYPE]); } arrow = gtk2_widgets[_GTK_ARROW_TYPE]; gtk_arrow_set (arrow, arrow_type, shadow_type); return arrow; } static GtkAdjustment* create_adjustment() { return (GtkAdjustment *) gtk_adjustment_new (50.0, 0.0, 100.0, 10.0, 20.0, 20.0); } /** * Returns a pointer to the cached native widget for the specified widget * type. */ static GtkWidget *gtk2_get_widget(WidgetType widget_type) { gboolean init_result = FALSE; GtkWidget *result = NULL; switch (widget_type) { case BUTTON: case TABLE_HEADER: if (init_result = (NULL == gtk2_widgets[_GTK_BUTTON_TYPE])) { gtk2_widgets[_GTK_BUTTON_TYPE] = gtk_button_new (); } result = gtk2_widgets[_GTK_BUTTON_TYPE]; break; case CHECK_BOX: if (init_result = (NULL == gtk2_widgets[_GTK_CHECK_BUTTON_TYPE])) { gtk2_widgets[_GTK_CHECK_BUTTON_TYPE] = gtk_check_button_new (); } result = gtk2_widgets[_GTK_CHECK_BUTTON_TYPE]; break; case CHECK_BOX_MENU_ITEM: if (init_result = (NULL == gtk2_widgets[_GTK_CHECK_MENU_ITEM_TYPE])) { gtk2_widgets[_GTK_CHECK_MENU_ITEM_TYPE] = gtk_check_menu_item_new (); } result = gtk2_widgets[_GTK_CHECK_MENU_ITEM_TYPE]; break; /************************************************************ * Creation a dedicated color chooser is dangerous because * it deadlocks the EDT ************************************************************/ /* case COLOR_CHOOSER: if (init_result = (NULL == gtk2_widgets[_GTK_COLOR_SELECTION_DIALOG_TYPE])) { gtk2_widgets[_GTK_COLOR_SELECTION_DIALOG_TYPE] = gtk_color_selection_dialog_new (NULL); } result = gtk2_widgets[_GTK_COLOR_SELECTION_DIALOG_TYPE]; break;*/ case COMBO_BOX: if (init_result = (NULL == gtk2_widgets[_GTK_COMBO_BOX_TYPE])) { gtk2_widgets[_GTK_COMBO_BOX_TYPE] = gtk_combo_box_new (); } result = gtk2_widgets[_GTK_COMBO_BOX_TYPE]; break; case COMBO_BOX_ARROW_BUTTON: if (init_result = (NULL == gtk2_widgets[_GTK_COMBO_BOX_ARROW_BUTTON_TYPE])) { gtk2_widgets[_GTK_COMBO_BOX_ARROW_BUTTON_TYPE] = gtk_toggle_button_new (); } result = gtk2_widgets[_GTK_COMBO_BOX_ARROW_BUTTON_TYPE]; break; case COMBO_BOX_TEXT_FIELD: if (init_result = (NULL == gtk2_widgets[_GTK_COMBO_BOX_TEXT_FIELD_TYPE])) { result = gtk2_widgets[_GTK_COMBO_BOX_TEXT_FIELD_TYPE] = gtk_entry_new (); GtkSettings* settings = gtk_widget_get_settings(result); g_object_set(settings, "gtk-cursor-blink", FALSE, NULL); } result = gtk2_widgets[_GTK_COMBO_BOX_TEXT_FIELD_TYPE]; break; case DESKTOP_ICON: case INTERNAL_FRAME_TITLE_PANE: case LABEL: if (init_result = (NULL == gtk2_widgets[_GTK_LABEL_TYPE])) { gtk2_widgets[_GTK_LABEL_TYPE] = gtk_label_new (NULL); } result = gtk2_widgets[_GTK_LABEL_TYPE]; break; case DESKTOP_PANE: case PANEL: case ROOT_PANE: if (init_result = (NULL == gtk2_widgets[_GTK_CONTAINER_TYPE])) { /* There is no constructor for a container type. I've * choosen GtkFixed container since it has a default * constructor. */ gtk2_widgets[_GTK_CONTAINER_TYPE] = gtk_fixed_new(); } result = gtk2_widgets[_GTK_CONTAINER_TYPE]; break; case EDITOR_PANE: case TEXT_AREA: case TEXT_PANE: if (init_result = (NULL == gtk2_widgets[_GTK_TEXT_VIEW_TYPE])) { gtk2_widgets[_GTK_TEXT_VIEW_TYPE] = gtk_text_view_new(); } result = gtk2_widgets[_GTK_TEXT_VIEW_TYPE]; break; case FORMATTED_TEXT_FIELD: case PASSWORD_FIELD: case TEXT_FIELD: if (init_result = (NULL == gtk2_widgets[_GTK_ENTRY_TYPE])) { gtk2_widgets[_GTK_ENTRY_TYPE] = gtk_entry_new (); GtkSettings* settings = gtk_widget_get_settings(gtk2_widgets[_GTK_ENTRY_TYPE]); g_object_set(settings, "gtk-cursor-blink", FALSE, NULL); } result = gtk2_widgets[_GTK_ENTRY_TYPE]; break; case HANDLE_BOX: if (init_result = (NULL == gtk2_widgets[_GTK_HANDLE_BOX_TYPE])) { gtk2_widgets[_GTK_HANDLE_BOX_TYPE] = gtk_handle_box_new (); } result = gtk2_widgets[_GTK_HANDLE_BOX_TYPE]; break; case HSCROLL_BAR: case HSCROLL_BAR_BUTTON_LEFT: case HSCROLL_BAR_BUTTON_RIGHT: case HSCROLL_BAR_TRACK: case HSCROLL_BAR_THUMB: if (init_result = (NULL == gtk2_widgets[_GTK_HSCROLLBAR_TYPE])) { gtk2_widgets[_GTK_HSCROLLBAR_TYPE] = gtk_hscrollbar_new (create_adjustment()); } result = gtk2_widgets[_GTK_HSCROLLBAR_TYPE]; break; case HSEPARATOR: if (init_result = (NULL == gtk2_widgets[_GTK_HSEPARATOR_TYPE])) { gtk2_widgets[_GTK_HSEPARATOR_TYPE] = gtk_hseparator_new (); } result = gtk2_widgets[_GTK_HSEPARATOR_TYPE]; break; case HSLIDER: case HSLIDER_THUMB: case HSLIDER_TRACK: if (init_result = (NULL == gtk2_widgets[_GTK_HSCALE_TYPE])) { gtk2_widgets[_GTK_HSCALE_TYPE] = gtk_hscale_new (NULL); } result = gtk2_widgets[_GTK_HSCALE_TYPE]; break; case HSPLIT_PANE_DIVIDER: case SPLIT_PANE: if (init_result = (NULL == gtk2_widgets[_GTK_HPANED_TYPE])) { gtk2_widgets[_GTK_HPANED_TYPE] = gtk_hpaned_new (); } result = gtk2_widgets[_GTK_HPANED_TYPE]; break; case IMAGE: if (init_result = (NULL == gtk2_widgets[_GTK_IMAGE_TYPE])) { gtk2_widgets[_GTK_IMAGE_TYPE] = gtk_image_new (); } result = gtk2_widgets[_GTK_IMAGE_TYPE]; break; case INTERNAL_FRAME: if (init_result = (NULL == gtk2_widgets[_GTK_WINDOW_TYPE])) { gtk2_widgets[_GTK_WINDOW_TYPE] = gtk_window_new (GTK_WINDOW_TOPLEVEL); } result = gtk2_widgets[_GTK_WINDOW_TYPE]; break; case TOOL_TIP: if (init_result = (NULL == gtk2_widgets[_GTK_TOOLTIP_TYPE])) { result = gtk_window_new (GTK_WINDOW_TOPLEVEL); gtk_widget_set_name (result, "gtk-tooltips"); gtk2_widgets[_GTK_TOOLTIP_TYPE] = result; } result = gtk2_widgets[_GTK_TOOLTIP_TYPE]; break; case LIST: case TABLE: case TREE: case TREE_CELL: if (init_result = (NULL == gtk2_widgets[_GTK_TREE_VIEW_TYPE])) { gtk2_widgets[_GTK_TREE_VIEW_TYPE] = gtk_tree_view_new (); } result = gtk2_widgets[_GTK_TREE_VIEW_TYPE]; break; case TITLED_BORDER: if (init_result = (NULL == gtk2_widgets[_GTK_FRAME_TYPE])) { gtk2_widgets[_GTK_FRAME_TYPE] = gtk_frame_new(NULL); } result = gtk2_widgets[_GTK_FRAME_TYPE]; break; case POPUP_MENU: if (init_result = (NULL == gtk2_widgets[_GTK_MENU_TYPE])) { gtk2_widgets[_GTK_MENU_TYPE] = gtk_menu_new (); } result = gtk2_widgets[_GTK_MENU_TYPE]; break; case MENU: case MENU_ITEM: case MENU_ITEM_ACCELERATOR: if (init_result = (NULL == gtk2_widgets[_GTK_MENU_ITEM_TYPE])) { gtk2_widgets[_GTK_MENU_ITEM_TYPE] = gtk_menu_item_new (); } result = gtk2_widgets[_GTK_MENU_ITEM_TYPE]; break; case MENU_BAR: if (init_result = (NULL == gtk2_widgets[_GTK_MENU_BAR_TYPE])) { gtk2_widgets[_GTK_MENU_BAR_TYPE] = gtk_menu_bar_new (); } result = gtk2_widgets[_GTK_MENU_BAR_TYPE]; break; case COLOR_CHOOSER: case OPTION_PANE: if (init_result = (NULL == gtk2_widgets[_GTK_DIALOG_TYPE])) { gtk2_widgets[_GTK_DIALOG_TYPE] = gtk_dialog_new (); } result = gtk2_widgets[_GTK_DIALOG_TYPE]; break; case POPUP_MENU_SEPARATOR: if (init_result = (NULL == gtk2_widgets[_GTK_SEPARATOR_MENU_ITEM_TYPE])) { gtk2_widgets[_GTK_SEPARATOR_MENU_ITEM_TYPE] = gtk_separator_menu_item_new (); } result = gtk2_widgets[_GTK_SEPARATOR_MENU_ITEM_TYPE]; break; case HPROGRESS_BAR: if (init_result = (NULL == gtk2_widgets[_GTK_HPROGRESS_BAR_TYPE])) { gtk2_widgets[_GTK_HPROGRESS_BAR_TYPE] = gtk_progress_bar_new (); } result = gtk2_widgets[_GTK_HPROGRESS_BAR_TYPE]; break; case VPROGRESS_BAR: if (init_result = (NULL == gtk2_widgets[_GTK_VPROGRESS_BAR_TYPE])) { gtk2_widgets[_GTK_VPROGRESS_BAR_TYPE] = gtk_progress_bar_new (); /* * Vertical JProgressBars always go bottom-to-top, * regardless of the ComponentOrientation. */ gtk_progress_bar_set_orientation ( (GtkProgressBar *)gtk2_widgets[_GTK_VPROGRESS_BAR_TYPE], GTK_PROGRESS_BOTTOM_TO_TOP); } result = gtk2_widgets[_GTK_VPROGRESS_BAR_TYPE]; break; case RADIO_BUTTON: if (init_result = (NULL == gtk2_widgets[_GTK_RADIO_BUTTON_TYPE])) { gtk2_widgets[_GTK_RADIO_BUTTON_TYPE] = gtk_radio_button_new (NULL); } result = gtk2_widgets[_GTK_RADIO_BUTTON_TYPE]; break; case RADIO_BUTTON_MENU_ITEM: if (init_result = (NULL == gtk2_widgets[_GTK_RADIO_MENU_ITEM_TYPE])) { gtk2_widgets[_GTK_RADIO_MENU_ITEM_TYPE] = gtk_radio_menu_item_new (NULL); } result = gtk2_widgets[_GTK_RADIO_MENU_ITEM_TYPE]; break; case SCROLL_PANE: if (init_result = (NULL == gtk2_widgets[_GTK_SCROLLED_WINDOW_TYPE])) { gtk2_widgets[_GTK_SCROLLED_WINDOW_TYPE] = gtk_scrolled_window_new (NULL, NULL); } result = gtk2_widgets[_GTK_SCROLLED_WINDOW_TYPE]; break; case SPINNER: case SPINNER_ARROW_BUTTON: case SPINNER_TEXT_FIELD: if (init_result = (NULL == gtk2_widgets[_GTK_SPIN_BUTTON_TYPE])) { result = gtk2_widgets[_GTK_SPIN_BUTTON_TYPE] = gtk_spin_button_new (NULL, 0, 0); GtkSettings* settings = gtk_widget_get_settings(result); g_object_set(settings, "gtk-cursor-blink", FALSE, NULL); } result = gtk2_widgets[_GTK_SPIN_BUTTON_TYPE]; break; case TABBED_PANE: case TABBED_PANE_TAB_AREA: case TABBED_PANE_CONTENT: case TABBED_PANE_TAB: if (init_result = (NULL == gtk2_widgets[_GTK_NOTEBOOK_TYPE])) { gtk2_widgets[_GTK_NOTEBOOK_TYPE] = gtk_notebook_new (); } result = gtk2_widgets[_GTK_NOTEBOOK_TYPE]; break; case TOGGLE_BUTTON: if (init_result = (NULL == gtk2_widgets[_GTK_TOGGLE_BUTTON_TYPE])) { gtk2_widgets[_GTK_TOGGLE_BUTTON_TYPE] = gtk_toggle_button_new (); } result = gtk2_widgets[_GTK_TOGGLE_BUTTON_TYPE]; break; case TOOL_BAR: case TOOL_BAR_DRAG_WINDOW: if (init_result = (NULL == gtk2_widgets[_GTK_TOOLBAR_TYPE])) { gtk2_widgets[_GTK_TOOLBAR_TYPE] = gtk_toolbar_new (); } result = gtk2_widgets[_GTK_TOOLBAR_TYPE]; break; case TOOL_BAR_SEPARATOR: if (init_result = (NULL == gtk2_widgets[_GTK_SEPARATOR_TOOL_ITEM_TYPE])) { gtk2_widgets[_GTK_SEPARATOR_TOOL_ITEM_TYPE] = gtk_separator_tool_item_new(); } result = gtk2_widgets[_GTK_SEPARATOR_TOOL_ITEM_TYPE]; break; case VIEWPORT: if (init_result = (NULL == gtk2_widgets[_GTK_VIEWPORT_TYPE])) { GtkAdjustment *adjustment = create_adjustment(); gtk2_widgets[_GTK_VIEWPORT_TYPE] = gtk_viewport_new (adjustment, adjustment); } result = gtk2_widgets[_GTK_VIEWPORT_TYPE]; break; case VSCROLL_BAR: case VSCROLL_BAR_BUTTON_UP: case VSCROLL_BAR_BUTTON_DOWN: case VSCROLL_BAR_TRACK: case VSCROLL_BAR_THUMB: if (init_result = (NULL == gtk2_widgets[_GTK_VSCROLLBAR_TYPE])) { gtk2_widgets[_GTK_VSCROLLBAR_TYPE] = gtk_vscrollbar_new (create_adjustment()); } result = gtk2_widgets[_GTK_VSCROLLBAR_TYPE]; break; case VSEPARATOR: if (init_result = (NULL == gtk2_widgets[_GTK_VSEPARATOR_TYPE])) { gtk2_widgets[_GTK_VSEPARATOR_TYPE] = gtk_vseparator_new (); } result = gtk2_widgets[_GTK_VSEPARATOR_TYPE]; break; case VSLIDER: case VSLIDER_THUMB: case VSLIDER_TRACK: if (init_result = (NULL == gtk2_widgets[_GTK_VSCALE_TYPE])) { gtk2_widgets[_GTK_VSCALE_TYPE] = gtk_vscale_new (NULL); } result = gtk2_widgets[_GTK_VSCALE_TYPE]; /* * Vertical JSliders start at the bottom, while vertical * GtkVScale widgets start at the top (by default), so to fix * this we set the "inverted" flag to get the Swing behavior. */ ((GtkRange*)result)->inverted = 1; break; case VSPLIT_PANE_DIVIDER: if (init_result = (NULL == gtk2_widgets[_GTK_VPANED_TYPE])) { gtk2_widgets[_GTK_VPANED_TYPE] = gtk_vpaned_new (); } result = gtk2_widgets[_GTK_VPANED_TYPE]; break; default: result = NULL; break; } if (result != NULL && init_result) { if (widget_type == RADIO_BUTTON_MENU_ITEM || widget_type == CHECK_BOX_MENU_ITEM || widget_type == MENU_ITEM || widget_type == MENU || widget_type == POPUP_MENU_SEPARATOR) { GtkWidget *menu = gtk2_get_widget(POPUP_MENU); gtk_menu_shell_append ((GtkMenuShell *)menu, result); } else if (widget_type == POPUP_MENU) { GtkWidget *menu_bar = gtk2_get_widget(MENU_BAR); GtkWidget *root_menu = gtk_menu_item_new (); gtk_menu_item_set_submenu ((GtkMenuItem*)root_menu, result); gtk_menu_shell_append ((GtkMenuShell *)menu_bar, root_menu); } else if (widget_type == COMBO_BOX_ARROW_BUTTON || widget_type == COMBO_BOX_TEXT_FIELD) { /* * We add a regular GtkButton/GtkEntry to a GtkComboBoxEntry * in order to trick engines into thinking it's a real combobox * arrow button/text field. */ GtkWidget *combo = gtk_combo_box_entry_new (); gboolean use_new_combo; #ifdef USE_SYSTEM_GTK use_new_combo = TRUE; #else use_new_combo = new_combo(); #endif if (use_new_combo && widget_type == COMBO_BOX_ARROW_BUTTON) { gtk_widget_set_parent (result, combo); ((GtkBin*)combo)->child = result; } else { gtk_container_add ((GtkContainer *)combo, result); } gtk_container_add ((GtkContainer *)gtk2_fixed, combo); } else if (widget_type != TOOL_TIP && widget_type != INTERNAL_FRAME && widget_type != OPTION_PANE) { gtk_container_add ((GtkContainer *)gtk2_fixed, result); } gtk_widget_realize (result); } return result; } void gtk2_paint_arrow(WidgetType widget_type, GtkStateType state_type, GtkShadowType shadow_type, const gchar *detail, gint x, gint y, gint width, gint height, GtkArrowType arrow_type, gboolean fill) { static int w, h; static GtkRequisition size; if (widget_type == COMBO_BOX_ARROW_BUTTON || widget_type == TABLE) gtk2_widget = gtk2_get_arrow(arrow_type, shadow_type); else gtk2_widget = gtk2_get_widget(widget_type); switch (widget_type) { case SPINNER_ARROW_BUTTON: x = 1; y = ((arrow_type == GTK_ARROW_UP) ? 2 : 0); height -= 2; width -= 3; w = width / 2; w -= w % 2 - 1; h = (w + 1) / 2; break; case HSCROLL_BAR_BUTTON_LEFT: case HSCROLL_BAR_BUTTON_RIGHT: case VSCROLL_BAR_BUTTON_UP: case VSCROLL_BAR_BUTTON_DOWN: w = width / 2; h = height / 2; break; case COMBO_BOX_ARROW_BUTTON: case TABLE: x = 1; gtk_widget_size_request (gtk2_widget, &size); w = size.width - ((GtkMisc*)gtk2_widget)->xpad * 2; h = size.height - ((GtkMisc*)gtk2_widget)->ypad * 2; w = h = MIN(MIN(w, h), MIN(width,height)) * 0.7; break; default: w = width; h = height; break; } x += (width - w) / 2; y += (height - h) / 2; gtk_paint_arrow (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, arrow_type, fill, x, y, w, h); gtk_paint_arrow (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, arrow_type, fill, x, y, w, h); } void gtk2_paint_box(WidgetType widget_type, GtkStateType state_type, GtkShadowType shadow_type, const gchar *detail, gint x, gint y, gint width, gint height, gint synth_state, GtkTextDirection dir) { gtk2_widget = gtk2_get_widget(widget_type); /* * The clearlooks engine sometimes looks at the widget's state field * instead of just the state_type variable that we pass in, so to account * for those cases we set the widget's state field accordingly. The * flags field is similarly important for things like focus/default state. */ gtk2_widget->state = state_type; if (widget_type == HSLIDER_TRACK) { /* * For horizontal JSliders with right-to-left orientation, we need * to set the "inverted" flag to match the native GTK behavior where * the foreground highlight is on the right side of the slider thumb. * This is needed especially for the ubuntulooks engine, which looks * exclusively at the "inverted" flag to determine on which side of * the thumb to paint the highlight... */ ((GtkRange*)gtk2_widget)->inverted = (dir == GTK_TEXT_DIR_RTL); /* * Note however that other engines like clearlooks will look at both * the "inverted" field and the text direction to determine how * the foreground highlight is painted: * !inverted && ltr --> paint highlight on left side * !inverted && rtl --> paint highlight on right side * inverted && ltr --> paint highlight on right side * inverted && rtl --> paint highlight on left side * So the only way to reliably get the desired results for horizontal * JSlider (i.e., highlight on left side for LTR ComponentOrientation * and highlight on right side for RTL ComponentOrientation) is to * always override text direction as LTR, and then set the "inverted" * flag accordingly (as we have done above). */ dir = GTK_TEXT_DIR_LTR; } /* * Some engines (e.g. clearlooks) will paint the shadow of certain * widgets (e.g. COMBO_BOX_ARROW_BUTTON) differently depending on the * the text direction. */ gtk2_set_direction(gtk2_widget, dir); switch (widget_type) { case BUTTON: if (synth_state & DEFAULT) { ((GtkObject*)gtk2_widget)->flags |= GTK_HAS_DEFAULT; } else { ((GtkObject*)gtk2_widget)->flags &= ~GTK_HAS_DEFAULT; } break; case TOGGLE_BUTTON: init_toggle_widget(widget_type, synth_state); break; case HSCROLL_BAR_BUTTON_LEFT: /* * The clearlooks engine will draw a "left" button when: * x == w->allocation.x * * The ubuntulooks engine will draw a "left" button when: * [x,y,width,height] * intersects * [w->alloc.x,w->alloc.y,width,height] * * The values that are set below should ensure that a "left" * button is rendered for both of these (and other) engines. */ gtk2_widget->allocation.x = x; gtk2_widget->allocation.y = y; gtk2_widget->allocation.width = width; gtk2_widget->allocation.height = height; break; case HSCROLL_BAR_BUTTON_RIGHT: /* * The clearlooks engine will draw a "right" button when: * x + width == w->allocation.x + w->allocation.width * * The ubuntulooks engine will draw a "right" button when: * [x,y,width,height] * does not intersect * [w->alloc.x,w->alloc.y,width,height] * but does intersect * [w->alloc.x+width,w->alloc.y,width,height] * * The values that are set below should ensure that a "right" * button is rendered for both of these (and other) engines. */ gtk2_widget->allocation.x = x+width; gtk2_widget->allocation.y = 0; gtk2_widget->allocation.width = 0; gtk2_widget->allocation.height = height; break; case VSCROLL_BAR_BUTTON_UP: /* * The clearlooks engine will draw an "up" button when: * y == w->allocation.y * * The ubuntulooks engine will draw an "up" button when: * [x,y,width,height] * intersects * [w->alloc.x,w->alloc.y,width,height] * * The values that are set below should ensure that an "up" * button is rendered for both of these (and other) engines. */ gtk2_widget->allocation.x = x; gtk2_widget->allocation.y = y; gtk2_widget->allocation.width = width; gtk2_widget->allocation.height = height; break; case VSCROLL_BAR_BUTTON_DOWN: /* * The clearlooks engine will draw a "down" button when: * y + height == w->allocation.y + w->allocation.height * * The ubuntulooks engine will draw a "down" button when: * [x,y,width,height] * does not intersect * [w->alloc.x,w->alloc.y,width,height] * but does intersect * [w->alloc.x,w->alloc.y+height,width,height] * * The values that are set below should ensure that a "down" * button is rendered for both of these (and other) engines. */ gtk2_widget->allocation.x = x; gtk2_widget->allocation.y = y+height; gtk2_widget->allocation.width = width; gtk2_widget->allocation.height = 0; break; default: break; } gtk_paint_box (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); gtk_paint_box (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); /* * Reset the text direction to the default value so that we don't * accidentally affect other operations and widgets. */ gtk2_set_direction(gtk2_widget, GTK_TEXT_DIR_LTR); } void gtk2_paint_box_gap(WidgetType widget_type, GtkStateType state_type, GtkShadowType shadow_type, const gchar *detail, gint x, gint y, gint width, gint height, GtkPositionType gap_side, gint gap_x, gint gap_width) { /* Clearlooks needs a real clip area to paint the gap properly */ GdkRectangle area = { x, y, width, height }; gtk2_widget = gtk2_get_widget(widget_type); gtk_paint_box_gap(gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, &area, gtk2_widget, detail, x, y, width, height, gap_side, gap_x, gap_width); gtk_paint_box_gap(gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, &area, gtk2_widget, detail, x, y, width, height, gap_side, gap_x, gap_width); } void gtk2_paint_check(WidgetType widget_type, gint synth_state, const gchar *detail, gint x, gint y, gint width, gint height) { GtkStateType state_type = get_gtk_state_type(widget_type, synth_state); GtkShadowType shadow_type = get_gtk_shadow_type(widget_type, synth_state); gtk2_widget = gtk2_get_widget(widget_type); init_toggle_widget(widget_type, synth_state); gtk_paint_check (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); gtk_paint_check (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); } void gtk2_paint_diamond(WidgetType widget_type, GtkStateType state_type, GtkShadowType shadow_type, const gchar *detail, gint x, gint y, gint width, gint height) { gtk2_widget = gtk2_get_widget(widget_type); gtk_paint_diamond (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); gtk_paint_diamond (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); } void gtk2_paint_expander(WidgetType widget_type, GtkStateType state_type, const gchar *detail, gint x, gint y, gint width, gint height, GtkExpanderStyle expander_style) { gtk2_widget = gtk2_get_widget(widget_type); gtk_paint_expander (gtk2_widget->style, gtk2_white_pixmap, state_type, NULL, gtk2_widget, detail, x + width / 2, y + height / 2, expander_style); gtk_paint_expander (gtk2_widget->style, gtk2_black_pixmap, state_type, NULL, gtk2_widget, detail, x + width / 2, y + height / 2, expander_style); } void gtk2_paint_extension(WidgetType widget_type, GtkStateType state_type, GtkShadowType shadow_type, const gchar *detail, gint x, gint y, gint width, gint height, GtkPositionType gap_side) { gtk2_widget = gtk2_get_widget(widget_type); gtk_paint_extension (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height, gap_side); gtk_paint_extension (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height, gap_side); } void gtk2_paint_flat_box(WidgetType widget_type, GtkStateType state_type, GtkShadowType shadow_type, const gchar *detail, gint x, gint y, gint width, gint height, gboolean has_focus) { gtk2_widget = gtk2_get_widget(widget_type); if (has_focus) ((GtkObject*)gtk2_widget)->flags |= GTK_HAS_FOCUS; else ((GtkObject*)gtk2_widget)->flags &= ~GTK_HAS_FOCUS; gtk_paint_flat_box (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); gtk_paint_flat_box (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); } void gtk2_paint_focus(WidgetType widget_type, GtkStateType state_type, const char *detail, gint x, gint y, gint width, gint height) { gtk2_widget = gtk2_get_widget(widget_type); gtk_paint_focus (gtk2_widget->style, gtk2_white_pixmap, state_type, NULL, gtk2_widget, detail, x, y, width, height); gtk_paint_focus (gtk2_widget->style, gtk2_black_pixmap, state_type, NULL, gtk2_widget, detail, x, y, width, height); } void gtk2_paint_handle(WidgetType widget_type, GtkStateType state_type, GtkShadowType shadow_type, const gchar *detail, gint x, gint y, gint width, gint height, GtkOrientation orientation) { gtk2_widget = gtk2_get_widget(widget_type); gtk_paint_handle (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height, orientation); gtk_paint_handle (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height, orientation); } void gtk2_paint_hline(WidgetType widget_type, GtkStateType state_type, const gchar *detail, gint x, gint y, gint width, gint height) { gtk2_widget = gtk2_get_widget(widget_type); gtk_paint_hline (gtk2_widget->style, gtk2_white_pixmap, state_type, NULL, gtk2_widget, detail, x, x + width, y); gtk_paint_hline (gtk2_widget->style, gtk2_black_pixmap, state_type, NULL, gtk2_widget, detail, x, x + width, y); } void gtk2_paint_option(WidgetType widget_type, gint synth_state, const gchar *detail, gint x, gint y, gint width, gint height) { GtkStateType state_type = get_gtk_state_type(widget_type, synth_state); GtkShadowType shadow_type = get_gtk_shadow_type(widget_type, synth_state); gtk2_widget = gtk2_get_widget(widget_type); init_toggle_widget(widget_type, synth_state); gtk_paint_option (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); gtk_paint_option (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); } void gtk2_paint_shadow(WidgetType widget_type, GtkStateType state_type, GtkShadowType shadow_type, const gchar *detail, gint x, gint y, gint width, gint height, gint synth_state, GtkTextDirection dir) { gtk2_widget = gtk2_get_widget(widget_type); /* * The clearlooks engine sometimes looks at the widget's state field * instead of just the state_type variable that we pass in, so to account * for those cases we set the widget's state field accordingly. The * flags field is similarly important for things like focus state. */ gtk2_widget->state = state_type; /* * Some engines (e.g. clearlooks) will paint the shadow of certain * widgets (e.g. COMBO_BOX_TEXT_FIELD) differently depending on the * the text direction. */ gtk2_set_direction(gtk2_widget, dir); switch (widget_type) { case COMBO_BOX_TEXT_FIELD: case FORMATTED_TEXT_FIELD: case PASSWORD_FIELD: case SPINNER_TEXT_FIELD: case TEXT_FIELD: if (synth_state & FOCUSED) { ((GtkObject*)gtk2_widget)->flags |= GTK_HAS_FOCUS; } else { ((GtkObject*)gtk2_widget)->flags &= ~GTK_HAS_FOCUS; } break; default: break; } gtk_paint_shadow (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); gtk_paint_shadow (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height); /* * Reset the text direction to the default value so that we don't * accidentally affect other operations and widgets. */ gtk2_set_direction(gtk2_widget, GTK_TEXT_DIR_LTR); } void gtk2_paint_slider(WidgetType widget_type, GtkStateType state_type, GtkShadowType shadow_type, const gchar *detail, gint x, gint y, gint width, gint height, GtkOrientation orientation) { gtk2_widget = gtk2_get_widget(widget_type); gtk_paint_slider (gtk2_widget->style, gtk2_white_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height, orientation); gtk_paint_slider (gtk2_widget->style, gtk2_black_pixmap, state_type, shadow_type, NULL, gtk2_widget, detail, x, y, width, height, orientation); } void gtk2_paint_vline(WidgetType widget_type, GtkStateType state_type, const gchar *detail, gint x, gint y, gint width, gint height) { gtk2_widget = gtk2_get_widget(widget_type); gtk_paint_vline (gtk2_widget->style, gtk2_white_pixmap, state_type, NULL, gtk2_widget, detail, y, y + height, x); gtk_paint_vline (gtk2_widget->style, gtk2_black_pixmap, state_type, NULL, gtk2_widget, detail, y, y + height, x); } void gtk_paint_background(WidgetType widget_type, GtkStateType state_type, gint x, gint y, gint width, gint height) { gtk2_widget = gtk2_get_widget(widget_type); gtk_style_apply_default_background (gtk2_widget->style, gtk2_white_pixmap, TRUE, state_type, NULL, x, y, width, height); gtk_style_apply_default_background (gtk2_widget->style, gtk2_black_pixmap, TRUE, state_type, NULL, x, y, width, height); } GdkPixbuf *gtk2_get_stock_icon(gint widget_type, const gchar *stock_id, GtkIconSize size, GtkTextDirection direction, const char *detail) { init_containers(); gtk2_widget = gtk2_get_widget((widget_type < 0) ? IMAGE : widget_type); gtk2_widget->state = GTK_STATE_NORMAL; gtk_widget_set_direction (gtk2_widget, direction); return gtk_widget_render_icon (gtk2_widget, stock_id, size, detail); } /*************************************************/ gint gtk2_get_xthickness(JNIEnv *env, WidgetType widget_type) { init_containers(); gtk2_widget = gtk2_get_widget(widget_type); GtkStyle* style = gtk2_widget->style; return style->xthickness; } gint gtk2_get_ythickness(JNIEnv *env, WidgetType widget_type) { init_containers(); gtk2_widget = gtk2_get_widget(widget_type); GtkStyle* style = gtk2_widget->style; return style->ythickness; } /*************************************************/ guint8 recode_color(guint16 channel) { return (guint8)(channel>>8); } gint gtk2_get_color_for_state(JNIEnv *env, WidgetType widget_type, GtkStateType state_type, ColorType color_type) { gint result = 0; GdkColor *color = NULL; init_containers(); gtk2_widget = gtk2_get_widget(widget_type); GtkStyle* style = gtk2_widget->style; switch (color_type) { case FOREGROUND: color = &(style->fg[state_type]); break; case BACKGROUND: color = &(style->bg[state_type]); break; case TEXT_FOREGROUND: color = &(style->text[state_type]); break; case TEXT_BACKGROUND: color = &(style->base[state_type]); break; case LIGHT: color = &(style->light[state_type]); break; case DARK: color = &(style->dark[state_type]); break; case MID: color = &(style->mid[state_type]); break; case FOCUS: case BLACK: color = &(style->black); break; case WHITE: color = &(style->white); break; } if (color) result = recode_color(color->red) << 16 | recode_color(color->green) << 8 | recode_color(color->blue); return result; } /*************************************************/ jobject create_Boolean(JNIEnv *env, jboolean boolean_value); jobject create_Integer(JNIEnv *env, jint int_value); jobject create_Long(JNIEnv *env, jlong long_value); jobject create_Float(JNIEnv *env, jfloat float_value); jobject create_Double(JNIEnv *env, jdouble double_value); jobject create_Character(JNIEnv *env, jchar char_value); jobject create_Insets(JNIEnv *env, GtkBorder *border); jobject gtk2_get_class_value(JNIEnv *env, WidgetType widget_type, jstring jkey) { init_containers(); const char* key = getStrFor(env, jkey); gtk2_widget = gtk2_get_widget(widget_type); GValue value; value.g_type = 0; GParamSpec* param = gtk_widget_class_find_style_property ( ((GTypeInstance*)gtk2_widget)->g_class, key); if( param ) { g_value_init ( &value, param->value_type ); gtk_widget_style_get_property (gtk2_widget, key, &value); if( g_type_is_a ( param->value_type, G_TYPE_BOOLEAN )) { gboolean val = g_value_get_boolean (&value); return create_Boolean(env, (jboolean)val); } else if( g_type_is_a ( param->value_type, G_TYPE_CHAR )) { gchar val = g_value_get_char (&value); return create_Character(env, (jchar)val); } else if( g_type_is_a( param->value_type, G_TYPE_UCHAR )) { guchar val = g_value_get_uchar (&value); return create_Character(env, (jchar)val); } else if( g_type_is_a ( param->value_type, G_TYPE_INT )) { gint val = g_value_get_int (&value); return create_Integer(env, (jint)val); } else if( g_type_is_a( param->value_type, G_TYPE_UINT )) { guint val = g_value_get_uint (&value); return create_Integer(env, (jint)val); } else if( g_type_is_a( param->value_type, G_TYPE_LONG )) { glong val = g_value_get_long (&value); return create_Long(env, (jlong)val); } else if( g_type_is_a( param->value_type, G_TYPE_ULONG )) { gulong val = g_value_get_ulong (&value); return create_Long(env, (jlong)val); } else if( g_type_is_a( param->value_type, G_TYPE_INT64 )) { gint64 val = g_value_get_int64(&value); return create_Long(env, (jlong)val); } else if( g_type_is_a( param->value_type, G_TYPE_UINT64 )) { guint64 val = g_value_get_uint64 (&value); return create_Long(env, (jlong)val); } else if( g_type_is_a( param->value_type, G_TYPE_FLOAT )) { gfloat val = g_value_get_float (&value); return create_Float(env, (jfloat)val); } else if( g_type_is_a( param->value_type, G_TYPE_DOUBLE )) { gdouble val = g_value_get_double (&value); return create_Double(env, (jdouble)val); } else if( g_type_is_a( param->value_type, G_TYPE_ENUM )) { gint val = g_value_get_enum (&value); return create_Integer(env, (jint)val); } else if( g_type_is_a( param->value_type, G_TYPE_FLAGS )) { guint val = g_value_get_flags (&value); return create_Integer(env, (jint)val); } else if( g_type_is_a( param->value_type, G_TYPE_STRING )) { const gchar* val = g_value_get_string (&value); /* We suppose that all values come in C locale and * utf-8 representation of a string is the same as * the string itself. If this isn't so we should * use g_convert. */ return (*env)->NewStringUTF(env, val); } else if( g_type_is_a( param->value_type, GTK_TYPE_BORDER )) { GtkBorder *border = (GtkBorder*)g_value_get_boxed(&value); return border ? create_Insets(env, border) : NULL; } /* TODO: Other types are not supported yet.*/ /* else if( g_type_is_a( param->value_type, G_TYPE_PARAM )) { GParamSpec* val = g_value_get_param (&value); printf( "Param: %p\n", val ); } else if( g_type_is_a( param->value_type, G_TYPE_BOXED )) { gpointer* val = g_value_get_boxed (&value); printf( "Boxed: %p\n", val ); } else if( g_type_is_a( param->value_type, G_TYPE_POINTER )) { gpointer* val = g_value_get_pointer (&value); printf( "Pointer: %p\n", val ); } else if( g_type_is_a( param->value_type, G_TYPE_OBJECT )) { GObject* val = (GObject*)g_value_get_object (&value); printf( "Object: %p\n", val ); }*/ } return NULL; } void gtk2_set_range_value(WidgetType widget_type, jdouble value, jdouble min, jdouble max, jdouble visible) { GtkAdjustment *adj; gtk2_widget = gtk2_get_widget(widget_type); adj = gtk_range_get_adjustment ((GtkRange *)gtk2_widget); adj->value = (gdouble)value; adj->lower = (gdouble)min; adj->upper = (gdouble)max; adj->page_size = (gdouble)visible; } /*************************************************/ jobject create_Object(JNIEnv *env, jmethodID *cid, const char* class_name, const char* signature, jvalue* value) { jclass class; jobject result; class = (*env)->FindClass(env, class_name); if( class == NULL ) return NULL; /* can't find/load the class, exception thrown */ if( *cid == NULL) { *cid = (*env)->GetMethodID(env, class, "<init>", signature); if( *cid == NULL ) { (*env)->DeleteLocalRef(env, class); return NULL; /* can't find/get the method, exception thrown */ } } result = (*env)->NewObjectA(env, class, *cid, value); (*env)->DeleteLocalRef(env, class); return result; } jobject create_Boolean(JNIEnv *env, jboolean boolean_value) { static jmethodID cid = NULL; jvalue value; value.z = boolean_value; return create_Object(env, &cid, "java/lang/Boolean", "(Z)V", &value); } jobject create_Integer(JNIEnv *env, jint int_value) { static jmethodID cid = NULL; jvalue value; value.i = int_value; return create_Object(env, &cid, "java/lang/Integer", "(I)V", &value); } jobject create_Long(JNIEnv *env, jlong long_value) { static jmethodID cid = NULL; jvalue value; value.j = long_value; return create_Object(env, &cid, "java/lang/Long", "(J)V", &value); } jobject create_Float(JNIEnv *env, jfloat float_value) { static jmethodID cid = NULL; jvalue value; value.f = float_value; return create_Object(env, &cid, "java/lang/Float", "(F)V", &value); } jobject create_Double(JNIEnv *env, jdouble double_value) { static jmethodID cid = NULL; jvalue value; value.d = double_value; return create_Object(env, &cid, "java/lang/Double", "(D)V", &value); } jobject create_Character(JNIEnv *env, jchar char_value) { static jmethodID cid = NULL; jvalue value; value.c = char_value; return create_Object(env, &cid, "java/lang/Character", "(C)V", &value); } jobject create_Insets(JNIEnv *env, GtkBorder *border) { static jmethodID cid = NULL; jvalue values[4]; values[0].i = border->top; values[1].i = border->left; values[2].i = border->bottom; values[3].i = border->right; return create_Object(env, &cid, "java/awt/Insets", "(IIII)V", values); } /*********************************************/ jstring gtk2_get_pango_font_name(JNIEnv *env, WidgetType widget_type) { init_containers(); gtk2_widget = gtk2_get_widget(widget_type); jstring result = NULL; GtkStyle* style = gtk2_widget->style; if (style && style->font_desc) { gchar* val = pango_font_description_to_string (style->font_desc); result = (*env)->NewStringUTF(env, val); g_free( val ); } return result; } /***********************************************/ jobject get_string_property(JNIEnv *env, GtkSettings* settings, const gchar* key) { jobject result = NULL; gchar* strval = NULL; g_object_get (settings, key, &strval, NULL); result = (*env)->NewStringUTF(env, strval); g_free (strval); return result; } /* jobject get_integer_property(JNIEnv *env, GtkSettings* settings, const gchar* key) { gint intval = NULL; g_object_get (settings, key, &intval, NULL); return create_Integer(env, intval); }*/ jobject gtk2_get_setting(JNIEnv *env, Setting property) { GtkSettings* settings = gtk_settings_get_default (); switch (property) { case GTK_FONT_NAME: return get_string_property(env, settings, "gtk-font-name"); case GTK_ICON_SIZES: return get_string_property(env, settings, "gtk-icon-sizes"); } return NULL; }