1 /* 2 * This file is part of gtkD. 3 * 4 * gtkD is free software; you can redistribute it and/or modify 5 * it under the terms of the GNU Lesser General Public License 6 * as published by the Free Software Foundation; either version 3 7 * of the License, or (at your option) any later version, with 8 * some exceptions, please read the COPYING file. 9 * 10 * gtkD is distributed in the hope that it will be useful, 11 * but WITHOUT ANY WARRANTY; without even the implied warranty of 12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 13 * GNU Lesser General Public License for more details. 14 * 15 * You should have received a copy of the GNU Lesser General Public License 16 * along with gtkD; if not, write to the Free Software 17 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110, USA 18 */ 19 20 // generated automatically - do not change 21 // find conversion definition on APILookup.txt 22 // implement new conversion functionalities on the wrap.utils pakage 23 24 25 module gtk.Application; 26 27 private import gio.ActionGroupIF; 28 private import gio.ActionGroupT; 29 private import gio.ActionMapIF; 30 private import gio.ActionMapT; 31 private import gio.Application : GioApplication = Application; 32 private import gio.Menu; 33 private import gio.MenuModel; 34 private import glib.ConstructionException; 35 private import glib.ListG; 36 private import glib.Str; 37 private import glib.Variant; 38 private import gobject.ObjectG; 39 private import gobject.Signals; 40 private import gtk.Window; 41 private import gtk.c.functions; 42 public import gtk.c.types; 43 public import gtkc.gtktypes; 44 private import std.algorithm; 45 46 47 /** 48 * #GtkApplication is a class that handles many important aspects 49 * of a GTK+ application in a convenient fashion, without enforcing 50 * a one-size-fits-all application model. 51 * 52 * Currently, GtkApplication handles GTK+ initialization, application 53 * uniqueness, session management, provides some basic scriptability and 54 * desktop shell integration by exporting actions and menus and manages a 55 * list of toplevel windows whose life-cycle is automatically tied to the 56 * life-cycle of your application. 57 * 58 * While GtkApplication works fine with plain #GtkWindows, it is recommended 59 * to use it together with #GtkApplicationWindow. 60 * 61 * When GDK threads are enabled, GtkApplication will acquire the GDK 62 * lock when invoking actions that arrive from other processes. The GDK 63 * lock is not touched for local action invocations. In order to have 64 * actions invoked in a predictable context it is therefore recommended 65 * that the GDK lock be held while invoking actions locally with 66 * g_action_group_activate_action(). The same applies to actions 67 * associated with #GtkApplicationWindow and to the “activate” and 68 * “open” #GApplication methods. 69 * 70 * ## Automatic resources ## {#automatic-resources} 71 * 72 * #GtkApplication will automatically load menus from the #GtkBuilder 73 * resource located at "gtk/menus.ui", relative to the application's 74 * resource base path (see g_application_set_resource_base_path()). The 75 * menu with the ID "app-menu" is taken as the application's app menu 76 * and the menu with the ID "menubar" is taken as the application's 77 * menubar. Additional menus (most interesting submenus) can be named 78 * and accessed via gtk_application_get_menu_by_id() which allows for 79 * dynamic population of a part of the menu structure. 80 * 81 * If the resources "gtk/menus-appmenu.ui" or "gtk/menus-traditional.ui" are 82 * present then these files will be used in preference, depending on the value 83 * of gtk_application_prefers_app_menu(). If the resource "gtk/menus-common.ui" 84 * is present it will be loaded as well. This is useful for storing items that 85 * are referenced from both "gtk/menus-appmenu.ui" and 86 * "gtk/menus-traditional.ui". 87 * 88 * It is also possible to provide the menus manually using 89 * gtk_application_set_app_menu() and gtk_application_set_menubar(). 90 * 91 * #GtkApplication will also automatically setup an icon search path for 92 * the default icon theme by appending "icons" to the resource base 93 * path. This allows your application to easily store its icons as 94 * resources. See gtk_icon_theme_add_resource_path() for more 95 * information. 96 * 97 * If there is a resource located at "gtk/help-overlay.ui" which 98 * defines a #GtkShortcutsWindow with ID "help_overlay" then GtkApplication 99 * associates an instance of this shortcuts window with each 100 * #GtkApplicationWindow and sets up keyboard accelerators (Control-F1 101 * and Control-?) to open it. To create a menu item that displays the 102 * shortcuts window, associate the item with the action win.show-help-overlay. 103 * 104 * ## A simple application ## {#gtkapplication} 105 * 106 * [A simple example](https://git.gnome.org/browse/gtk+/tree/examples/bp/bloatpad.c) 107 * 108 * GtkApplication optionally registers with a session manager 109 * of the users session (if you set the #GtkApplication:register-session 110 * property) and offers various functionality related to the session 111 * life-cycle. 112 * 113 * An application can block various ways to end the session with 114 * the gtk_application_inhibit() function. Typical use cases for 115 * this kind of inhibiting are long-running, uninterruptible operations, 116 * such as burning a CD or performing a disk backup. The session 117 * manager may not honor the inhibitor, but it can be expected to 118 * inform the user about the negative consequences of ending the 119 * session while inhibitors are present. 120 * 121 * ## See Also ## {#seealso} 122 * [HowDoI: Using GtkApplication](https://wiki.gnome.org/HowDoI/GtkApplication), 123 * [Getting Started with GTK+: Basics](https://developer.gnome.org/gtk3/stable/gtk-getting-started.html#id-1.2.3.3) 124 */ 125 public class Application : GioApplication 126 { 127 /** the main Gtk struct */ 128 protected GtkApplication* gtkApplication; 129 130 /** Get the main Gtk struct */ 131 public GtkApplication* getGtkApplicationStruct(bool transferOwnership = false) 132 { 133 if (transferOwnership) 134 ownedRef = false; 135 return gtkApplication; 136 } 137 138 /** the main Gtk struct as a void* */ 139 protected override void* getStruct() 140 { 141 return cast(void*)gtkApplication; 142 } 143 144 protected override void setStruct(GObject* obj) 145 { 146 gtkApplication = cast(GtkApplication*)obj; 147 super.setStruct(obj); 148 } 149 150 /** 151 * Sets our main struct and passes it to the parent class. 152 */ 153 public this (GtkApplication* gtkApplication, bool ownedRef = false) 154 { 155 this.gtkApplication = gtkApplication; 156 super(cast(GApplication*)gtkApplication, ownedRef); 157 } 158 159 /** 160 * Sets zero or more keyboard accelerators that will trigger the 161 * given action. The first item in accels will be the primary 162 * accelerator, which may be displayed in the UI. 163 * 164 * To remove all accelerators for an action, use an empty 165 * array for accels. 166 * 167 * Params: 168 * detailedActionName = a detailed action name, specifying an action 169 * and target to associate accelerators with 170 * accels = a list of accelerators in the format 171 * understood by gtk_accelerator_parse() 172 * 173 * Since: 3.12 174 */ 175 public void setAccelsForAction(string detailedActionName, string[] accels) 176 { 177 char** accel; 178 179 if (accels) 180 accel = Str.toStringzArray(accels); 181 else 182 accel = [cast(char*)null].ptr; 183 184 gtk_application_set_accels_for_action(gtkApplication, Str.toStringz(detailedActionName), accel); 185 } 186 187 /** 188 */ 189 190 /** */ 191 public static GType getType() 192 { 193 return gtk_application_get_type(); 194 } 195 196 /** 197 * Creates a new #GtkApplication instance. 198 * 199 * When using #GtkApplication, it is not necessary to call gtk_init() 200 * manually. It is called as soon as the application gets registered as 201 * the primary instance. 202 * 203 * Concretely, gtk_init() is called in the default handler for the 204 * #GApplication::startup signal. Therefore, #GtkApplication subclasses should 205 * chain up in their #GApplication::startup handler before using any GTK+ API. 206 * 207 * Note that commandline arguments are not passed to gtk_init(). 208 * All GTK+ functionality that is available via commandline arguments 209 * can also be achieved by setting suitable environment variables 210 * such as `G_DEBUG`, so this should not be a big 211 * problem. If you absolutely must support GTK+ commandline arguments, 212 * you can explicitly call gtk_init() before creating the application 213 * instance. 214 * 215 * If non-%NULL, the application ID must be valid. See 216 * g_application_id_is_valid(). 217 * 218 * If no application ID is given then some features (most notably application 219 * uniqueness) will be disabled. A null application ID is only allowed with 220 * GTK+ 3.6 or later. 221 * 222 * Params: 223 * applicationId = The application ID. 224 * flags = the application flags 225 * 226 * Returns: a new #GtkApplication instance 227 * 228 * Since: 3.0 229 * 230 * Throws: ConstructionException GTK+ fails to create the object. 231 */ 232 public this(string applicationId, GApplicationFlags flags) 233 { 234 auto p = gtk_application_new(Str.toStringz(applicationId), flags); 235 236 if(p is null) 237 { 238 throw new ConstructionException("null returned by new"); 239 } 240 241 this(cast(GtkApplication*) p, true); 242 } 243 244 /** 245 * Installs an accelerator that will cause the named action 246 * to be activated when the key combination specificed by @accelerator 247 * is pressed. 248 * 249 * @accelerator must be a string that can be parsed by gtk_accelerator_parse(), 250 * e.g. "<Primary>q" or “<Control><Alt>p”. 251 * 252 * @action_name must be the name of an action as it would be used 253 * in the app menu, i.e. actions that have been added to the application 254 * are referred to with an “app.” prefix, and window-specific actions 255 * with a “win.” prefix. 256 * 257 * GtkApplication also extracts accelerators out of “accel” attributes 258 * in the #GMenuModels passed to gtk_application_set_app_menu() and 259 * gtk_application_set_menubar(), which is usually more convenient 260 * than calling this function for each accelerator. 261 * 262 * Deprecated: Use gtk_application_set_accels_for_action() instead 263 * 264 * Params: 265 * accelerator = accelerator string 266 * actionName = the name of the action to activate 267 * parameter = parameter to pass when activating the action, 268 * or %NULL if the action does not accept an activation parameter 269 * 270 * Since: 3.4 271 */ 272 public void addAccelerator(string accelerator, string actionName, Variant parameter) 273 { 274 gtk_application_add_accelerator(gtkApplication, Str.toStringz(accelerator), Str.toStringz(actionName), (parameter is null) ? null : parameter.getVariantStruct()); 275 } 276 277 /** 278 * Adds a window to @application. 279 * 280 * This call can only happen after the @application has started; 281 * typically, you should add new application windows in response 282 * to the emission of the #GApplication::activate signal. 283 * 284 * This call is equivalent to setting the #GtkWindow:application 285 * property of @window to @application. 286 * 287 * Normally, the connection between the application and the window 288 * will remain until the window is destroyed, but you can explicitly 289 * remove it with gtk_application_remove_window(). 290 * 291 * GTK+ will keep the @application running as long as it has 292 * any windows. 293 * 294 * Params: 295 * window = a #GtkWindow 296 * 297 * Since: 3.0 298 */ 299 public void addWindow(Window window) 300 { 301 gtk_application_add_window(gtkApplication, (window is null) ? null : window.getWindowStruct()); 302 } 303 304 /** 305 * Gets the accelerators that are currently associated with 306 * the given action. 307 * 308 * Params: 309 * detailedActionName = a detailed action name, specifying an action 310 * and target to obtain accelerators for 311 * 312 * Returns: accelerators for @detailed_action_name, as 313 * a %NULL-terminated array. Free with g_strfreev() when no longer needed 314 * 315 * Since: 3.12 316 */ 317 public string[] getAccelsForAction(string detailedActionName) 318 { 319 auto retStr = gtk_application_get_accels_for_action(gtkApplication, Str.toStringz(detailedActionName)); 320 321 scope(exit) Str.freeStringArray(retStr); 322 return Str.toStringArray(retStr); 323 } 324 325 /** 326 * Returns the list of actions (possibly empty) that @accel maps to. 327 * Each item in the list is a detailed action name in the usual form. 328 * 329 * This might be useful to discover if an accel already exists in 330 * order to prevent installation of a conflicting accelerator (from 331 * an accelerator editor or a plugin system, for example). Note that 332 * having more than one action per accelerator may not be a bad thing 333 * and might make sense in cases where the actions never appear in the 334 * same context. 335 * 336 * In case there are no actions for a given accelerator, an empty array 337 * is returned. %NULL is never returned. 338 * 339 * It is a programmer error to pass an invalid accelerator string. 340 * If you are unsure, check it with gtk_accelerator_parse() first. 341 * 342 * Params: 343 * accel = an accelerator that can be parsed by gtk_accelerator_parse() 344 * 345 * Returns: a %NULL-terminated array of actions for @accel 346 * 347 * Since: 3.14 348 */ 349 public string[] getActionsForAccel(string accel) 350 { 351 auto retStr = gtk_application_get_actions_for_accel(gtkApplication, Str.toStringz(accel)); 352 353 scope(exit) Str.freeStringArray(retStr); 354 return Str.toStringArray(retStr); 355 } 356 357 /** 358 * Gets the “active” window for the application. 359 * 360 * The active window is the one that was most recently focused (within 361 * the application). This window may not have the focus at the moment 362 * if another application has it — this is just the most 363 * recently-focused window within this application. 364 * 365 * Returns: the active window, or %NULL if 366 * there isn't one. 367 * 368 * Since: 3.6 369 */ 370 public Window getActiveWindow() 371 { 372 auto p = gtk_application_get_active_window(gtkApplication); 373 374 if(p is null) 375 { 376 return null; 377 } 378 379 return ObjectG.getDObject!(Window)(cast(GtkWindow*) p); 380 } 381 382 /** 383 * Returns the menu model that has been set with 384 * gtk_application_set_app_menu(). 385 * 386 * Returns: the application menu of @application 387 * or %NULL if no application menu has been set. 388 * 389 * Since: 3.4 390 */ 391 public MenuModel getAppMenu() 392 { 393 auto p = gtk_application_get_app_menu(gtkApplication); 394 395 if(p is null) 396 { 397 return null; 398 } 399 400 return ObjectG.getDObject!(MenuModel)(cast(GMenuModel*) p); 401 } 402 403 /** 404 * Gets a menu from automatically loaded resources. 405 * See [Automatic resources][automatic-resources] 406 * for more information. 407 * 408 * Params: 409 * id = the id of the menu to look up 410 * 411 * Returns: Gets the menu with the 412 * given id from the automatically loaded resources 413 * 414 * Since: 3.14 415 */ 416 public Menu getMenuById(string id) 417 { 418 auto p = gtk_application_get_menu_by_id(gtkApplication, Str.toStringz(id)); 419 420 if(p is null) 421 { 422 return null; 423 } 424 425 return ObjectG.getDObject!(Menu)(cast(GMenu*) p); 426 } 427 428 /** 429 * Returns the menu model that has been set with 430 * gtk_application_set_menubar(). 431 * 432 * Returns: the menubar for windows of @application 433 * 434 * Since: 3.4 435 */ 436 public MenuModel getMenubar() 437 { 438 auto p = gtk_application_get_menubar(gtkApplication); 439 440 if(p is null) 441 { 442 return null; 443 } 444 445 return ObjectG.getDObject!(MenuModel)(cast(GMenuModel*) p); 446 } 447 448 /** 449 * Returns the #GtkApplicationWindow with the given ID. 450 * 451 * The ID of a #GtkApplicationWindow can be retrieved with 452 * gtk_application_window_get_id(). 453 * 454 * Params: 455 * id = an identifier number 456 * 457 * Returns: the window with ID @id, or 458 * %NULL if there is no window with this ID 459 * 460 * Since: 3.6 461 */ 462 public Window getWindowById(uint id) 463 { 464 auto p = gtk_application_get_window_by_id(gtkApplication, id); 465 466 if(p is null) 467 { 468 return null; 469 } 470 471 return ObjectG.getDObject!(Window)(cast(GtkWindow*) p); 472 } 473 474 /** 475 * Gets a list of the #GtkWindows associated with @application. 476 * 477 * The list is sorted by most recently focused window, such that the first 478 * element is the currently focused window. (Useful for choosing a parent 479 * for a transient window.) 480 * 481 * The list that is returned should not be modified in any way. It will 482 * only remain valid until the next focus change or window creation or 483 * deletion. 484 * 485 * Returns: a #GList of #GtkWindow 486 * 487 * Since: 3.0 488 */ 489 public ListG getWindows() 490 { 491 auto p = gtk_application_get_windows(gtkApplication); 492 493 if(p is null) 494 { 495 return null; 496 } 497 498 return new ListG(cast(GList*) p); 499 } 500 501 /** 502 * Inform the session manager that certain types of actions should be 503 * inhibited. This is not guaranteed to work on all platforms and for 504 * all types of actions. 505 * 506 * Applications should invoke this method when they begin an operation 507 * that should not be interrupted, such as creating a CD or DVD. The 508 * types of actions that may be blocked are specified by the @flags 509 * parameter. When the application completes the operation it should 510 * call gtk_application_uninhibit() to remove the inhibitor. Note that 511 * an application can have multiple inhibitors, and all of them must 512 * be individually removed. Inhibitors are also cleared when the 513 * application exits. 514 * 515 * Applications should not expect that they will always be able to block 516 * the action. In most cases, users will be given the option to force 517 * the action to take place. 518 * 519 * Reasons should be short and to the point. 520 * 521 * If @window is given, the session manager may point the user to 522 * this window to find out more about why the action is inhibited. 523 * 524 * Params: 525 * window = a #GtkWindow, or %NULL 526 * flags = what types of actions should be inhibited 527 * reason = a short, human-readable string that explains 528 * why these operations are inhibited 529 * 530 * Returns: A non-zero cookie that is used to uniquely identify this 531 * request. It should be used as an argument to gtk_application_uninhibit() 532 * in order to remove the request. If the platform does not support 533 * inhibiting or the request failed for some reason, 0 is returned. 534 * 535 * Since: 3.4 536 */ 537 public uint inhibit(Window window, GtkApplicationInhibitFlags flags, string reason) 538 { 539 return gtk_application_inhibit(gtkApplication, (window is null) ? null : window.getWindowStruct(), flags, Str.toStringz(reason)); 540 } 541 542 /** 543 * Determines if any of the actions specified in @flags are 544 * currently inhibited (possibly by another application). 545 * 546 * Params: 547 * flags = what types of actions should be queried 548 * 549 * Returns: %TRUE if any of the actions specified in @flags are inhibited 550 * 551 * Since: 3.4 552 */ 553 public bool isInhibited(GtkApplicationInhibitFlags flags) 554 { 555 return gtk_application_is_inhibited(gtkApplication, flags) != 0; 556 } 557 558 /** 559 * Lists the detailed action names which have associated accelerators. 560 * See gtk_application_set_accels_for_action(). 561 * 562 * Returns: a %NULL-terminated array of strings, 563 * free with g_strfreev() when done 564 * 565 * Since: 3.12 566 */ 567 public string[] listActionDescriptions() 568 { 569 auto retStr = gtk_application_list_action_descriptions(gtkApplication); 570 571 scope(exit) Str.freeStringArray(retStr); 572 return Str.toStringArray(retStr); 573 } 574 575 /** 576 * Determines if the desktop environment in which the application is 577 * running would prefer an application menu be shown. 578 * 579 * If this function returns %TRUE then the application should call 580 * gtk_application_set_app_menu() with the contents of an application 581 * menu, which will be shown by the desktop environment. If it returns 582 * %FALSE then you should consider using an alternate approach, such as 583 * a menubar. 584 * 585 * The value returned by this function is purely advisory and you are 586 * free to ignore it. If you call gtk_application_set_app_menu() even 587 * if the desktop environment doesn't support app menus, then a fallback 588 * will be provided. 589 * 590 * Applications are similarly free not to set an app menu even if the 591 * desktop environment wants to show one. In that case, a fallback will 592 * also be created by the desktop environment (GNOME, for example, uses 593 * a menu with only a "Quit" item in it). 594 * 595 * The value returned by this function never changes. Once it returns a 596 * particular value, it is guaranteed to always return the same value. 597 * 598 * You may only call this function after the application has been 599 * registered and after the base startup handler has run. You're most 600 * likely to want to use this from your own startup handler. It may 601 * also make sense to consult this function while constructing UI (in 602 * activate, open or an action activation handler) in order to determine 603 * if you should show a gear menu or not. 604 * 605 * This function will return %FALSE on Mac OS and a default app menu 606 * will be created automatically with the "usual" contents of that menu 607 * typical to most Mac OS applications. If you call 608 * gtk_application_set_app_menu() anyway, then this menu will be 609 * replaced with your own. 610 * 611 * Returns: %TRUE if you should set an app menu 612 * 613 * Since: 3.14 614 */ 615 public bool prefersAppMenu() 616 { 617 return gtk_application_prefers_app_menu(gtkApplication) != 0; 618 } 619 620 /** 621 * Removes an accelerator that has been previously added 622 * with gtk_application_add_accelerator(). 623 * 624 * Deprecated: Use gtk_application_set_accels_for_action() instead 625 * 626 * Params: 627 * actionName = the name of the action to activate 628 * parameter = parameter to pass when activating the action, 629 * or %NULL if the action does not accept an activation parameter 630 * 631 * Since: 3.4 632 */ 633 public void removeAccelerator(string actionName, Variant parameter) 634 { 635 gtk_application_remove_accelerator(gtkApplication, Str.toStringz(actionName), (parameter is null) ? null : parameter.getVariantStruct()); 636 } 637 638 /** 639 * Remove a window from @application. 640 * 641 * If @window belongs to @application then this call is equivalent to 642 * setting the #GtkWindow:application property of @window to 643 * %NULL. 644 * 645 * The application may stop running as a result of a call to this 646 * function. 647 * 648 * Params: 649 * window = a #GtkWindow 650 * 651 * Since: 3.0 652 */ 653 public void removeWindow(Window window) 654 { 655 gtk_application_remove_window(gtkApplication, (window is null) ? null : window.getWindowStruct()); 656 } 657 658 /** 659 * Sets or unsets the application menu for @application. 660 * 661 * This can only be done in the primary instance of the application, 662 * after it has been registered. #GApplication::startup is a good place 663 * to call this. 664 * 665 * The application menu is a single menu containing items that typically 666 * impact the application as a whole, rather than acting on a specific 667 * window or document. For example, you would expect to see 668 * “Preferences” or “Quit” in an application menu, but not “Save” or 669 * “Print”. 670 * 671 * If supported, the application menu will be rendered by the desktop 672 * environment. 673 * 674 * Use the base #GActionMap interface to add actions, to respond to the user 675 * selecting these menu items. 676 * 677 * Params: 678 * appMenu = a #GMenuModel, or %NULL 679 * 680 * Since: 3.4 681 */ 682 public void setAppMenu(MenuModel appMenu) 683 { 684 gtk_application_set_app_menu(gtkApplication, (appMenu is null) ? null : appMenu.getMenuModelStruct()); 685 } 686 687 /** 688 * Sets or unsets the menubar for windows of @application. 689 * 690 * This is a menubar in the traditional sense. 691 * 692 * This can only be done in the primary instance of the application, 693 * after it has been registered. #GApplication::startup is a good place 694 * to call this. 695 * 696 * Depending on the desktop environment, this may appear at the top of 697 * each window, or at the top of the screen. In some environments, if 698 * both the application menu and the menubar are set, the application 699 * menu will be presented as if it were the first item of the menubar. 700 * Other environments treat the two as completely separate — for example, 701 * the application menu may be rendered by the desktop shell while the 702 * menubar (if set) remains in each individual window. 703 * 704 * Use the base #GActionMap interface to add actions, to respond to the 705 * user selecting these menu items. 706 * 707 * Params: 708 * menubar = a #GMenuModel, or %NULL 709 * 710 * Since: 3.4 711 */ 712 public void setMenubar(MenuModel menubar) 713 { 714 gtk_application_set_menubar(gtkApplication, (menubar is null) ? null : menubar.getMenuModelStruct()); 715 } 716 717 /** 718 * Removes an inhibitor that has been established with gtk_application_inhibit(). 719 * Inhibitors are also cleared when the application exits. 720 * 721 * Params: 722 * cookie = a cookie that was returned by gtk_application_inhibit() 723 * 724 * Since: 3.4 725 */ 726 public void uninhibit(uint cookie) 727 { 728 gtk_application_uninhibit(gtkApplication, cookie); 729 } 730 731 protected class OnWindowAddedDelegateWrapper 732 { 733 void delegate(Window, Application) dlg; 734 gulong handlerId; 735 736 this(void delegate(Window, Application) dlg) 737 { 738 this.dlg = dlg; 739 onWindowAddedListeners ~= this; 740 } 741 742 void remove(OnWindowAddedDelegateWrapper source) 743 { 744 foreach(index, wrapper; onWindowAddedListeners) 745 { 746 if (wrapper.handlerId == source.handlerId) 747 { 748 onWindowAddedListeners[index] = null; 749 onWindowAddedListeners = std.algorithm.remove(onWindowAddedListeners, index); 750 break; 751 } 752 } 753 } 754 } 755 OnWindowAddedDelegateWrapper[] onWindowAddedListeners; 756 757 /** 758 * Emitted when a #GtkWindow is added to @application through 759 * gtk_application_add_window(). 760 * 761 * Params: 762 * window = the newly-added #GtkWindow 763 * 764 * Since: 3.2 765 */ 766 gulong addOnWindowAdded(void delegate(Window, Application) dlg, ConnectFlags connectFlags=cast(ConnectFlags)0) 767 { 768 auto wrapper = new OnWindowAddedDelegateWrapper(dlg); 769 wrapper.handlerId = Signals.connectData( 770 this, 771 "window-added", 772 cast(GCallback)&callBackWindowAdded, 773 cast(void*)wrapper, 774 cast(GClosureNotify)&callBackWindowAddedDestroy, 775 connectFlags); 776 return wrapper.handlerId; 777 } 778 779 extern(C) static void callBackWindowAdded(GtkApplication* applicationStruct, GtkWindow* window, OnWindowAddedDelegateWrapper wrapper) 780 { 781 wrapper.dlg(ObjectG.getDObject!(Window)(window), wrapper.outer); 782 } 783 784 extern(C) static void callBackWindowAddedDestroy(OnWindowAddedDelegateWrapper wrapper, GClosure* closure) 785 { 786 wrapper.remove(wrapper); 787 } 788 789 protected class OnWindowRemovedDelegateWrapper 790 { 791 void delegate(Window, Application) dlg; 792 gulong handlerId; 793 794 this(void delegate(Window, Application) dlg) 795 { 796 this.dlg = dlg; 797 onWindowRemovedListeners ~= this; 798 } 799 800 void remove(OnWindowRemovedDelegateWrapper source) 801 { 802 foreach(index, wrapper; onWindowRemovedListeners) 803 { 804 if (wrapper.handlerId == source.handlerId) 805 { 806 onWindowRemovedListeners[index] = null; 807 onWindowRemovedListeners = std.algorithm.remove(onWindowRemovedListeners, index); 808 break; 809 } 810 } 811 } 812 } 813 OnWindowRemovedDelegateWrapper[] onWindowRemovedListeners; 814 815 /** 816 * Emitted when a #GtkWindow is removed from @application, 817 * either as a side-effect of being destroyed or explicitly 818 * through gtk_application_remove_window(). 819 * 820 * Params: 821 * window = the #GtkWindow that is being removed 822 * 823 * Since: 3.2 824 */ 825 gulong addOnWindowRemoved(void delegate(Window, Application) dlg, ConnectFlags connectFlags=cast(ConnectFlags)0) 826 { 827 auto wrapper = new OnWindowRemovedDelegateWrapper(dlg); 828 wrapper.handlerId = Signals.connectData( 829 this, 830 "window-removed", 831 cast(GCallback)&callBackWindowRemoved, 832 cast(void*)wrapper, 833 cast(GClosureNotify)&callBackWindowRemovedDestroy, 834 connectFlags); 835 return wrapper.handlerId; 836 } 837 838 extern(C) static void callBackWindowRemoved(GtkApplication* applicationStruct, GtkWindow* window, OnWindowRemovedDelegateWrapper wrapper) 839 { 840 wrapper.dlg(ObjectG.getDObject!(Window)(window), wrapper.outer); 841 } 842 843 extern(C) static void callBackWindowRemovedDestroy(OnWindowRemovedDelegateWrapper wrapper, GClosure* closure) 844 { 845 wrapper.remove(wrapper); 846 } 847 }