/* GDK - The GIMP Drawing Kit * Copyright (C) 1995-1999 Peter Mattis, Spencer Kimball and Josh MacDonald * Copyright (C) 2001 Archaeopteryx Software Inc. * Copyright (C) 1998-2002 Tor Lillqvist * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . */ /* * 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 #include #include #include /* * Support for OLE-2 drag and drop added at Archaeopteryx Software, 2001 * For more information, do not contact Stephan R.A. Deibel (sdeibel@archaeopteryx.com), * because the code went through multiple modifications since then. * * Notes on the implementation: * * Source drag context, IDropSource and IDataObject for it are created * (almost) simultaneously, whereas target drag context and IDropTarget * are separated in time - IDropTarget is created when a window is made * to accept drops, while target drag context is created when a dragging * cursor enters the window and is destroyed when that cursor leaves * the window. * * There's a mismatch between data types supported by W32 (W32 formats) * and by GTK (GDK contentformats). * To account for it the data is transmuted back and forth. There are two * main points of transmutation: * * GdkWin32HDATAOutputStream: transmutes GTK data to W32 data * * GdkWin32Drop: transmutes W32 data to GTK data * * There are also two points where data formats are considered: * * When source drag context is created, it gets a list of GDK contentformats * that it supports, these are matched to the W32 formats they * correspond to (possibly with transmutation). New W32 formats for * GTK-specific contentformats are also created here (see below). * * When target drop context is created, it queries the IDataObject * for the list of W32 formats it supports and matches these to * corresponding GDK contentformats that it will be able to provide * (possibly with transmutation) later. Missing GDK contentformats for * W32-specific formats are also created here (see below). * * W32 formats are integers (CLIPFORMAT), while GTK contentformats * are mime/type strings, and cannot be used interchangeably. * * To accommodate advanced GTK applications the code allows them to * register drop targets that accept W32 data formats, and to register * drag sources that provide W32 data formats. To do that they must * register with the mime/type "application/x.windows.ZZZ", where * ZZZ is the string name of the format in question * (for example, "Shell IDList Array") or, for unnamed pre-defined * formats, register with the stringified constant name of the format * in question (for example, "CF_UNICODETEXT"). * If such contentformat is accepted/provided, GDK will not try to * transmute it to/from something else. Otherwise GDK will do the following * transmutation: * * If GTK application provides image/png, image/gif or image/jpeg, * GDK will claim to also provide "PNG", "GIF" or "JFIF" respectively, * and will pass these along verbatim. * * If GTK application provides any GdkPixbuf-compatible contentformat, * GDK will also offer "PNG" and CF_DIB W32 formats. * * If GTK application provides text/plain;charset=utf8, GDK will also offer * CF_UNICODETEXT (UTF-16-encoded) and CF_TEXT (encoded with thread- * and locale-dependent codepage), and will do the conversion when such * data is requested. * * If GTK application accepts image/png, image/gif or image/jpeg, * GDK will claim to also accept "PNG", "GIF" or "JFIF" respectively, * and will pass these along verbatim. * * If GTK application accepts image/bmp, GDK will * claim to accept CF_DIB W32 format, and will convert * it, changing the header, when such data is provided. * * If GTK application accepts text/plain;charset=utf8, GDK will * claim to accept CF_UNICODETEXT and CF_TEXT, and will do * the conversion when such data is provided. * * If GTK application accepts text/uri-list, GDK will * claim to accept "Shell IDList Array", and will do the * conversion when such data is provided. * * Currently the conversion from text/uri-list to "Shell IDList Array" is not * implemented, so it's not possible to drag & drop files from GTK * applications to non-GTK applications the same way one can drag files * from Windows Explorer. * * To increase inter-GTK compatibility, GDK will register GTK-specific * formats by their mime/types, as-is (i.e "text/plain;charset=utf-8", for example). * That way two GTK applications can exchange data in their native formats * (both well-known ones, such as text/plain;charset=utf8, and special, * known only to specific applications). This will work just * fine as long as both applications agree on what kind of data is stored * under such format exactly. * * Note that clipboard format space is limited, there can only be 16384 * of them for a particular user session. Therefore it is highly inadvisable * to create and register such formats out of the whole cloth, dynamically. * If more flexibility is needed, register one format that has some * internal indicators of the kind of data it contains, then write the application * in such a way that it requests the data and inspects its header before deciding * whether to accept it or not. For details see GTK drag & drop documentation * on the "drag-motion" and "drag-data-received" signals. * * How managed DnD works: * GTK widget detects a drag gesture and calls * S: gdk_drag_begin_from_point() -> backend:drag_begin() * which creates the source drag context and the drag window, * and grabs the pointing device. GDK layer adds the context * to a list of currently-active contexts. * * From that point forward the context gets any events emitted * by GDK, and can prevent these events from going anywhere else. * They are all handled in * S: gdk_drag_handle_source_event() -> backend:handle_event() * (except for wayland backend - it doesn't have that function). * * That function catches the following events: * GDK_MOTION_NOTIFY * GDK_BUTTON_RELEASE * GDK_KEY_PRESS * GDK_KEY_RELEASE * GDK_GRAB_BROKEN * * GDK_MOTION_NOTIFY is emitted by the backend in response to * mouse movement. * Drag context handles it by calling a bunch of functions to * determine the state of the drag actions from the keys being * pressed, finding the drag window (another backend function * routed through GDK layer) and finally calls * S: gdk_drag_motion -> backend:drag_motion() * to notify the backend (i.e. itself) that the drag cursor * moved. * The response to that is to move the drag window and * do various bookkeeping. * W32: OLE2 protocol does nothing (other than moving the * drag window) in response to this, as all the functions * that GDK could perform here are already handled by the * OS driving the DnD process via DoDragDrop() call. * The LOCAL protocol, on the other hand, does a lot, * similar to what X11 backend does with XDND - it sends * GDK_DRAG_LEAVE and GDK_DRAG_ENTER, emits GDK_DRAG_MOTION. * * GDK_BUTTON_RELEASE checks the * released button - if it's the button that was used to * initiate the drag, the "drop-performed" signal is emitted, * otherwise the drag is cancelled. * * GDK_KEY_PRESS and GDK_KEY_RELEASE handler does exactly the same thing as * GDK_MOTION_NOTIFY handler, but only after it checks the pressed * keys to emit "drop-performed" signal (on Space, Enter etc), * cancel the drag (on Escape) or move the drag cursor (arrow keys). * * GDK_GRAB_BROKEN handler cancels the drag for most broken grabs * (except for some special cases where the backend itself does * temporary grabs as part of DnD, such as changing the cursor). * * GDK_DRAG_ENTER, GDK_DRAG_LEAVE, GDK_DRAG_MOTION and GDK_DROP_START * events are emitted when * the OS notifies the process about these things happening. * For X11 backend that is done in Xdnd event filters, * for W32 backend this is done in IDropSource/IDropTarget * object methods for the OLE2 protocol, whereas for the * LOCAL protocol these events are emitted only by GDK itself * (with the exception of WM_DROPFILES message, which causes * GDK to create a drop context and then immediately finish * the drag, providing the list of files it got from the message). * */ /* The mingw.org compiler does not export GUIDS in it's import library. To work * around that, define INITGUID to have the GUIDS declared. */ #if defined(__MINGW32__) && !defined(__MINGW64_VERSION_MAJOR) #define INITGUID #endif /* For C-style COM wrapper macros */ #define COBJMACROS #include "gdkdrag.h" #include "gdkinternals.h" #include "gdkprivate-win32.h" #include "gdkwin32.h" #include "gdkwin32dnd.h" #include "gdkdisplayprivate.h" #include "gdk/gdkdragprivate.h" #include "gdkwin32dnd-private.h" #include "gdkdisplay-win32.h" #include "gdkdevice-win32.h" #include "gdkdeviceprivate.h" #include "gdkhdataoutputstream-win32.h" #include #include #include #include #include "gdkintl.h" #include #include /* Just to avoid calling RegisterWindowMessage() every time */ static UINT thread_wakeup_message; typedef struct { IDropSource ids; IDropSourceNotify idsn; int ref_count; GdkDrag *drag; /* These are thread-local * copies of the similar fields from GdkWin32Drag */ GdkWin32DragUtilityData util_data; /* Cached here, so that we don't have to look in * the context every time. */ HWND source_window_handle; guint scale; /* We get this from the OS via IDropSourceNotify and pass it to the * main thread. * Will be INVALID_HANDLE_VALUE (not NULL!) when unset. */ HWND dest_window_handle; } source_drag_context; typedef struct { IDataObject ido; int ref_count; GdkDrag *drag; GArray *formats; } data_object; typedef struct { IEnumFORMATETC ief; int ref_count; int ix; GArray *formats; } enum_formats; typedef enum _GdkWin32DnDThreadQueueItemType GdkWin32DnDThreadQueueItemType; enum _GdkWin32DnDThreadQueueItemType { GDK_WIN32_DND_THREAD_QUEUE_ITEM_GIVE_FEEDBACK = 1, GDK_WIN32_DND_THREAD_QUEUE_ITEM_DRAG_INFO = 2, GDK_WIN32_DND_THREAD_QUEUE_ITEM_DO_DRAG_DROP = 3, GDK_WIN32_DND_THREAD_QUEUE_ITEM_GET_DATA = 4, GDK_WIN32_DND_THREAD_QUEUE_ITEM_UPDATE_DRAG_STATE = 5, }; typedef struct _GdkWin32DnDThreadQueueItem GdkWin32DnDThreadQueueItem; struct _GdkWin32DnDThreadQueueItem { GdkWin32DnDThreadQueueItemType item_type; /* This is used by the DnD thread to communicate the identity * of the drag context to the main thread. This is thread-safe * because DnD thread holds a reference to the context. */ gpointer opaque_context; }; typedef struct _GdkWin32DnDThreadDoDragDrop GdkWin32DnDThreadDoDragDrop; /* This is used both to signal the DnD thread that it needs * to call DoDragDrop(), *and* to signal the main thread * that the DoDragDrop() call returned. */ struct _GdkWin32DnDThreadDoDragDrop { GdkWin32DnDThreadQueueItem base; source_drag_context *src_context; data_object *src_object; DWORD allowed_drop_effects; DWORD received_drop_effect; HRESULT received_result; }; typedef struct _GdkWin32DnDThreadGetData GdkWin32DnDThreadGetData; /* This is used both to signal the main thread that the DnD thread * needs DnD data, and to give that data to the DnD thread. */ struct _GdkWin32DnDThreadGetData { GdkWin32DnDThreadQueueItem base; GdkWin32ContentFormatPair pair; GdkWin32HDataOutputStream *stream; STGMEDIUM produced_data_medium; }; typedef struct _GdkWin32DnDThreadGiveFeedback GdkWin32DnDThreadGiveFeedback; struct _GdkWin32DnDThreadGiveFeedback { GdkWin32DnDThreadQueueItem base; DWORD received_drop_effect; }; typedef struct _GdkWin32DnDThreadDragInfo GdkWin32DnDThreadDragInfo; struct _GdkWin32DnDThreadDragInfo { GdkWin32DnDThreadQueueItem base; BOOL received_escape_pressed; DWORD received_keyboard_mods; }; typedef struct _GdkWin32DnDThreadUpdateDragState GdkWin32DnDThreadUpdateDragState; struct _GdkWin32DnDThreadUpdateDragState { GdkWin32DnDThreadQueueItem base; gpointer opaque_ddd; GdkWin32DragUtilityData produced_util_data; }; typedef struct _GdkWin32DnDThread GdkWin32DnDThread; struct _GdkWin32DnDThread { /* We receive instructions from the main thread in this queue */ GAsyncQueue *input_queue; /* We can't peek the queue or "unpop" queue items, * so the items that we can't act upon (yet) got * to be stored *somewhere*. */ GList *dequeued_items; source_drag_context *src_context; data_object *src_object; }; /* The code is much more secure if we don't rely on the OS to keep * this around for us. */ static GdkWin32DnDThread *dnd_thread_data = NULL; static gboolean dnd_queue_is_empty () { return g_atomic_int_get (&_win32_clipdrop->dnd_queue_counter) == 0; } static void decrement_dnd_queue_counter () { g_atomic_int_dec_and_test (&_win32_clipdrop->dnd_queue_counter); } static void increment_dnd_queue_counter () { g_atomic_int_inc (&_win32_clipdrop->dnd_queue_counter); } static void free_queue_item (GdkWin32DnDThreadQueueItem *item) { GdkWin32DnDThreadGetData *getdata; switch (item->item_type) { case GDK_WIN32_DND_THREAD_QUEUE_ITEM_DO_DRAG_DROP: /* Don't unref anything, it's all done in the main thread, * when it receives a DoDragDrop reply. */ break; case GDK_WIN32_DND_THREAD_QUEUE_ITEM_UPDATE_DRAG_STATE: case GDK_WIN32_DND_THREAD_QUEUE_ITEM_GIVE_FEEDBACK: case GDK_WIN32_DND_THREAD_QUEUE_ITEM_DRAG_INFO: /* These have no data to clean up */ break; case GDK_WIN32_DND_THREAD_QUEUE_ITEM_GET_DATA: getdata = (GdkWin32DnDThreadGetData *) item; switch (getdata->produced_data_medium.tymed) { case TYMED_FILE: case TYMED_ISTREAM: case TYMED_ISTORAGE: case TYMED_GDI: case TYMED_MFPICT: case TYMED_ENHMF: g_critical ("Unsupported STGMEDIUM type"); break; case TYMED_NULL: break; case TYMED_HGLOBAL: GlobalFree (getdata->produced_data_medium.hGlobal); break; } } g_free (item); } static gboolean process_dnd_queue (gboolean timed, guint64 end_time, GdkWin32DnDThreadGetData *getdata_check) { GdkWin32DnDThreadQueueItem *item; GdkWin32DnDThreadUpdateDragState *updatestate; GdkWin32DnDThreadDoDragDrop *ddd; while (TRUE) { if (timed) { guint64 current_time = g_get_monotonic_time (); if (current_time >= end_time) break; item = g_async_queue_timeout_pop (dnd_thread_data->input_queue, end_time - current_time); } else { item = g_async_queue_try_pop (dnd_thread_data->input_queue); } if (item == NULL) break; decrement_dnd_queue_counter (); switch (item->item_type) { case GDK_WIN32_DND_THREAD_QUEUE_ITEM_DO_DRAG_DROP: /* We don't support more than one DnD at a time */ free_queue_item (item); break; case GDK_WIN32_DND_THREAD_QUEUE_ITEM_UPDATE_DRAG_STATE: updatestate = (GdkWin32DnDThreadUpdateDragState *) item; ddd = (GdkWin32DnDThreadDoDragDrop *) updatestate->opaque_ddd; ddd->src_context->util_data = updatestate->produced_util_data; free_queue_item (item); break; case GDK_WIN32_DND_THREAD_QUEUE_ITEM_GET_DATA: if (item == (GdkWin32DnDThreadQueueItem *) getdata_check) return TRUE; free_queue_item (item); break; case GDK_WIN32_DND_THREAD_QUEUE_ITEM_GIVE_FEEDBACK: case GDK_WIN32_DND_THREAD_QUEUE_ITEM_DRAG_INFO: g_assert_not_reached (); } } return FALSE; } void _gdk_win32_local_drag_drop_response (GdkDrag *drag, GdkDragAction action) { GDK_NOTE (DND, g_print ("_gdk_win32_local_drag_drop_response: 0x%p\n", drag)); g_signal_emit_by_name (drag, "dnd-finished"); gdk_drag_drop_done (drag, action != 0); } static gboolean do_drag_drop_response (gpointer user_data) { GdkWin32DnDThreadDoDragDrop *ddd = (GdkWin32DnDThreadDoDragDrop *) user_data; HRESULT hr = ddd->received_result; GdkDrag *drag = GDK_DRAG (ddd->base.opaque_context); GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GdkWin32Clipdrop *clipdrop = _gdk_win32_clipdrop_get (); gpointer table_value = g_hash_table_lookup (clipdrop->active_source_drags, drag); if (ddd == table_value) { GDK_NOTE (DND, g_print ("DoDragDrop returned %s with effect %lu\n", (hr == DRAGDROP_S_DROP ? "DRAGDROP_S_DROP" : (hr == DRAGDROP_S_CANCEL ? "DRAGDROP_S_CANCEL" : (hr == E_UNEXPECTED ? "E_UNEXPECTED" : g_strdup_printf ("%#.8lx", hr)))), ddd->received_drop_effect)); drag_win32->drop_failed = !(SUCCEEDED (hr) || hr == DRAGDROP_S_DROP); /* We used to delete the selection here, * now GTK does that automatically in response to * the "dnd-finished" signal, * if the operation was successful and was a move. */ GDK_NOTE (DND, g_print ("gdk_dnd_handle_drop_finished: 0x%p\n", drag)); g_signal_emit_by_name (drag, "dnd-finished"); gdk_drag_drop_done (drag, !drag_win32->drop_failed); } else { if (!table_value) g_critical ("Did not find drag 0x%p in the active drags table", drag); else g_critical ("Found drag 0x%p in the active drags table, but the record doesn't match (0x%p != 0x%p)", drag, ddd, table_value); } /* 3rd parties could keep a reference to this object, * but we won't keep the drag alive that long. * Neutralize it (attempts to get its data will fail) * by nullifying the drag pointer (it doesn't hold * a reference, so no unreffing). */ g_clear_object (&ddd->src_object->drag); IDropSource_Release (&ddd->src_context->ids); IDataObject_Release (&ddd->src_object->ido); g_hash_table_remove (clipdrop->active_source_drags, drag); free_queue_item (&ddd->base); return G_SOURCE_REMOVE; } static void received_drag_context_data (GObject *drag, GAsyncResult *result, gpointer user_data) { GError *error = NULL; GdkWin32DnDThreadGetData *getdata = (GdkWin32DnDThreadGetData *) user_data; GdkWin32Clipdrop *clipdrop = _gdk_win32_clipdrop_get (); if (!gdk_drag_write_finish (GDK_DRAG (drag), result, &error)) { HANDLE handle; gboolean is_hdata; GDK_NOTE (DND, g_printerr ("%p: failed to write HData-backed stream: %s\n", drag, error->message)); g_error_free (error); g_output_stream_close (G_OUTPUT_STREAM (getdata->stream), NULL, NULL); handle = gdk_win32_hdata_output_stream_get_handle (getdata->stream, &is_hdata); if (is_hdata) API_CALL (GlobalFree, (handle)); else API_CALL (CloseHandle, (handle)); } else { g_output_stream_close (G_OUTPUT_STREAM (getdata->stream), NULL, NULL); getdata->produced_data_medium.tymed = TYMED_HGLOBAL; getdata->produced_data_medium.hGlobal = gdk_win32_hdata_output_stream_get_handle (getdata->stream, NULL); } g_clear_object (&getdata->stream); increment_dnd_queue_counter (); g_async_queue_push (clipdrop->dnd_queue, getdata); API_CALL (PostThreadMessage, (clipdrop->dnd_thread_id, thread_wakeup_message, 0, 0)); } static gboolean get_data_response (gpointer user_data) { GdkWin32DnDThreadGetData *getdata = (GdkWin32DnDThreadGetData *) user_data; GdkWin32Clipdrop *clipdrop = _gdk_win32_clipdrop_get (); GdkDrag *drag = GDK_DRAG (getdata->base.opaque_context); gpointer ddd = g_hash_table_lookup (clipdrop->active_source_drags, drag); GDK_NOTE (DND, g_print ("idataobject_getdata will request target 0x%p (%s)", getdata->pair.contentformat, getdata->pair.contentformat)); /* This just verifies that we got the right drag, * we don't need the ddd struct itself. */ if (ddd) { GError *error = NULL; GOutputStream *stream = gdk_win32_hdata_output_stream_new (&getdata->pair, &error); if (stream) { getdata->stream = GDK_WIN32_HDATA_OUTPUT_STREAM (stream); gdk_drag_write_async (drag, getdata->pair.contentformat, stream, G_PRIORITY_DEFAULT, NULL, received_drag_context_data, getdata); return G_SOURCE_REMOVE; } } increment_dnd_queue_counter (); g_async_queue_push (clipdrop->dnd_queue, getdata); API_CALL (PostThreadMessage, (clipdrop->dnd_thread_id, thread_wakeup_message, 0, 0)); return G_SOURCE_REMOVE; } static void do_drag_drop (GdkWin32DnDThreadDoDragDrop *ddd) { HRESULT hr; dnd_thread_data->src_object = ddd->src_object; dnd_thread_data->src_context = ddd->src_context; hr = DoDragDrop (&dnd_thread_data->src_object->ido, &dnd_thread_data->src_context->ids, ddd->allowed_drop_effects, &ddd->received_drop_effect); ddd->received_result = hr; g_idle_add_full (G_PRIORITY_DEFAULT, do_drag_drop_response, ddd, NULL); } gpointer _gdk_win32_dnd_thread_main (gpointer data) { GAsyncQueue *queue = (GAsyncQueue *) data; GdkWin32DnDThreadQueueItem *item; MSG msg; HRESULT hr; g_assert (dnd_thread_data == NULL); dnd_thread_data = g_new0 (GdkWin32DnDThread, 1); dnd_thread_data->input_queue = queue; CoInitializeEx (NULL, COINIT_APARTMENTTHREADED); hr = OleInitialize (NULL); if (!SUCCEEDED (hr)) g_error ("OleInitialize failed"); /* Create a message queue */ PeekMessage (&msg, NULL, WM_USER, WM_USER, PM_NOREMOVE); thread_wakeup_message = RegisterWindowMessage ("GDK_WORKER_THREAD_WEAKEUP"); /* Signal the main thread that we're ready. * This is the only time the queue works in reverse. */ g_async_queue_push (queue, GUINT_TO_POINTER (GetCurrentThreadId ())); while (GetMessage (&msg, NULL, 0, 0)) { if (!dnd_queue_is_empty ()) { while ((item = g_async_queue_try_pop (queue)) != NULL) { decrement_dnd_queue_counter (); if (item->item_type != GDK_WIN32_DND_THREAD_QUEUE_ITEM_DO_DRAG_DROP) { free_queue_item (item); continue; } do_drag_drop ((GdkWin32DnDThreadDoDragDrop *) item); API_CALL (PostThreadMessage, (GetCurrentThreadId (), thread_wakeup_message, 0, 0)); break; } } /* Just to be safe, although this mostly does nothing */ TranslateMessage (&msg); DispatchMessage (&msg); } g_async_queue_unref (queue); g_clear_pointer (&dnd_thread_data, g_free); OleUninitialize (); CoUninitialize (); return NULL; } /* For the LOCAL protocol */ typedef enum { GDK_DRAG_STATUS_DRAG, GDK_DRAG_STATUS_MOTION_WAIT, GDK_DRAG_STATUS_ACTION_WAIT, GDK_DRAG_STATUS_DROP } GdkDragStatus; static gboolean use_ole2_dnd = TRUE; static gboolean drag_context_grab (GdkDrag *drag); G_DEFINE_TYPE (GdkWin32Drag, gdk_win32_drag, GDK_TYPE_DRAG) static void move_drag_surface (GdkDrag *drag, guint x_root, guint y_root) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); g_assert (_win32_main_thread == NULL || _win32_main_thread == g_thread_self ()); gdk_win32_surface_move (drag_win32->drag_surface, x_root - drag_win32->hot_x, y_root - drag_win32->hot_y); gdk_win32_surface_raise (drag_win32->drag_surface); } static void gdk_win32_drag_init (GdkWin32Drag *drag) { g_assert (_win32_main_thread == NULL || _win32_main_thread == g_thread_self ()); drag->handle_events = TRUE; drag->dest_window = INVALID_HANDLE_VALUE; GDK_NOTE (DND, g_print ("gdk_win32_drag_init %p\n", drag)); } static void gdk_win32_drag_finalize (GObject *object) { GdkDrag *drag; GdkWin32Drag *drag_win32; GdkSurface *drag_surface; g_assert (_win32_main_thread == NULL || _win32_main_thread == g_thread_self ()); GDK_NOTE (DND, g_print ("gdk_win32_drag_finalize %p\n", object)); g_return_if_fail (GDK_IS_WIN32_DRAG (object)); drag = GDK_DRAG (object); drag_win32 = GDK_WIN32_DRAG (drag); gdk_drag_set_cursor (drag, NULL); g_set_object (&drag_win32->grab_surface, NULL); drag_surface = drag_win32->drag_surface; G_OBJECT_CLASS (gdk_win32_drag_parent_class)->finalize (object); if (drag_surface) gdk_surface_destroy (drag_surface); } /* Drag Contexts */ static GdkDrag * gdk_drag_new (GdkDisplay *display, GdkSurface *surface, GdkContentProvider *content, GdkDragAction actions, GdkDevice *device, GdkDragProtocol protocol) { GdkWin32Drag *drag_win32; GdkWin32Display *win32_display = GDK_WIN32_DISPLAY (display); GdkDrag *drag; drag_win32 = g_object_new (GDK_TYPE_WIN32_DRAG, "device", device, "content", content, "surface", surface, "actions", actions, NULL); drag = GDK_DRAG (drag_win32); if (win32_display->has_fixed_scale) drag_win32->scale = win32_display->surface_scale; else drag_win32->scale = _gdk_win32_display_get_monitor_scale_factor (win32_display, NULL, NULL, NULL); drag_win32->protocol = protocol; return drag; } #define PRINT_GUID(guid) \ g_print ("%.08lx-%.04x-%.04x-%.02x%.02x-%.02x%.02x%.02x%.02x%.02x%.02x", \ ((gulong *) guid)[0], \ ((gushort *) guid)[2], \ ((gushort *) guid)[3], \ ((guchar *) guid)[8], \ ((guchar *) guid)[9], \ ((guchar *) guid)[10], \ ((guchar *) guid)[11], \ ((guchar *) guid)[12], \ ((guchar *) guid)[13], \ ((guchar *) guid)[14], \ ((guchar *) guid)[15]); static enum_formats *enum_formats_new (GArray *formats); /* Finds a GdkDrag object that corresponds to a DnD operation * which is currently targeting the dest_window * Does not give a reference. */ GdkDrag * _gdk_win32_find_drag_for_dest_window (HWND dest_window) { GHashTableIter iter; GdkWin32Drag *drag_win32; GdkWin32DnDThreadDoDragDrop *ddd; GdkWin32Clipdrop *clipdrop = _gdk_win32_clipdrop_get (); g_hash_table_iter_init (&iter, clipdrop->active_source_drags); while (g_hash_table_iter_next (&iter, (gpointer *) &drag_win32, (gpointer *) &ddd)) if (ddd->src_context->dest_window_handle == dest_window) return GDK_DRAG (drag_win32); return NULL; } static GdkDragAction action_for_drop_effect (DWORD effect) { GdkDragAction action = 0; if (effect & DROPEFFECT_MOVE) action |= GDK_ACTION_MOVE; if (effect & DROPEFFECT_LINK) action |= GDK_ACTION_LINK; if (effect & DROPEFFECT_COPY) action |= GDK_ACTION_COPY; return action; } static ULONG STDMETHODCALLTYPE idropsource_addref (LPDROPSOURCE This) { source_drag_context *ctx = (source_drag_context *) This; int ref_count = ++ctx->ref_count; GDK_NOTE (DND, g_print ("idropsource_addref %p %d\n", This, ref_count)); return ref_count; } typedef struct _GdkWin32DnDEnterLeaveNotify GdkWin32DnDEnterLeaveNotify; struct _GdkWin32DnDEnterLeaveNotify { gpointer opaque_context; HWND target_window_handle; }; static gboolean notify_dnd_enter (gpointer user_data) { GdkWin32DnDEnterLeaveNotify *notify = (GdkWin32DnDEnterLeaveNotify *) user_data; GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (notify->opaque_context); drag_win32->dest_window = notify->target_window_handle; g_free (notify); return G_SOURCE_REMOVE; } static gboolean notify_dnd_leave (gpointer user_data) { GdkWin32DnDEnterLeaveNotify *notify = (GdkWin32DnDEnterLeaveNotify *) user_data; GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (notify->opaque_context); if (notify->target_window_handle != drag_win32->dest_window) g_warning ("DnD leave says that the window handle is 0x%p, but drag has 0x%p", notify->target_window_handle, drag_win32->dest_window); drag_win32->dest_window = INVALID_HANDLE_VALUE; g_free (notify); return G_SOURCE_REMOVE; } static HRESULT STDMETHODCALLTYPE idropsourcenotify_dragentertarget (IDropSourceNotify *This, HWND hwndTarget) { source_drag_context *ctx = (source_drag_context *) (((char *) This) - G_STRUCT_OFFSET (source_drag_context, idsn)); GdkWin32DnDEnterLeaveNotify *notify; if (!dnd_queue_is_empty ()) process_dnd_queue (FALSE, 0, NULL); GDK_NOTE (DND, g_print ("idropsourcenotify_dragentertarget %p (SDC %p) 0x%p\n", This, ctx, hwndTarget)); ctx->dest_window_handle = hwndTarget; notify = g_new0 (GdkWin32DnDEnterLeaveNotify, 1); notify->target_window_handle = hwndTarget; notify->opaque_context = ctx->drag; g_idle_add_full (G_PRIORITY_DEFAULT, notify_dnd_enter, notify, NULL); return S_OK; } static HRESULT STDMETHODCALLTYPE idropsourcenotify_dragleavetarget (IDropSourceNotify *This) { source_drag_context *ctx = (source_drag_context *) (((char *) This) - G_STRUCT_OFFSET (source_drag_context, idsn)); GdkWin32DnDEnterLeaveNotify *notify; if (!dnd_queue_is_empty ()) process_dnd_queue (FALSE, 0, NULL); GDK_NOTE (DND, g_print ("idropsourcenotify_dragleavetarget %p (SDC %p) 0x%p\n", This, ctx, ctx->dest_window_handle)); notify = g_new0 (GdkWin32DnDEnterLeaveNotify, 1); notify->target_window_handle = ctx->dest_window_handle; ctx->dest_window_handle = INVALID_HANDLE_VALUE; notify->opaque_context = ctx->drag; g_idle_add_full (G_PRIORITY_DEFAULT, notify_dnd_leave, notify, NULL); return S_OK; } static HRESULT STDMETHODCALLTYPE idropsource_queryinterface (LPDROPSOURCE This, REFIID riid, LPVOID *ppvObject) { GDK_NOTE (DND, { g_print ("idropsource_queryinterface %p ", This); PRINT_GUID (riid); }); *ppvObject = NULL; if (IsEqualGUID (riid, &IID_IUnknown)) { GDK_NOTE (DND, g_print ("...IUnknown S_OK\n")); idropsource_addref (This); *ppvObject = This; return S_OK; } else if (IsEqualGUID (riid, &IID_IDropSource)) { GDK_NOTE (DND, g_print ("...IDropSource S_OK\n")); idropsource_addref (This); *ppvObject = This; return S_OK; } else if (IsEqualGUID (riid, &IID_IDropSourceNotify)) { GDK_NOTE (DND, g_print ("...IDropSourceNotify S_OK\n")); idropsource_addref (This); *ppvObject = &((source_drag_context *) This)->idsn; return S_OK; } else { GDK_NOTE (DND, g_print ("...E_NOINTERFACE\n")); return E_NOINTERFACE; } } static gboolean unref_context_in_main_thread (gpointer opaque_context) { GdkDrag *drag = GDK_DRAG (opaque_context); g_clear_object (&drag); return G_SOURCE_REMOVE; } static ULONG STDMETHODCALLTYPE idropsource_release (LPDROPSOURCE This) { source_drag_context *ctx = (source_drag_context *) This; int ref_count = --ctx->ref_count; GDK_NOTE (DND, g_print ("idropsource_release %p %d\n", This, ref_count)); if (ref_count == 0) { g_idle_add (unref_context_in_main_thread, ctx->drag); g_free (This); } return ref_count; } /* NOTE: This method is called continuously, even if nothing is * happening, as long as the drag operation is in progress. * It is OK to return a "safe" value (S_OK, to keep the drag * operation going) even if something notable happens, because * we will have another opportunity to return the "right" value * (once we know what it is, after GTK processes the events we * send out) very soon. * Note that keyboard-related state in this function is nonsense, * as DoDragDrop doesn't get precise information about the keyboard, * especially the fEscapePressed argument. */ static HRESULT STDMETHODCALLTYPE idropsource_querycontinuedrag (LPDROPSOURCE This, BOOL fEscapePressed, DWORD grfKeyState) { source_drag_context *ctx = (source_drag_context *) This; GDK_NOTE (DND, g_print ("idropsource_querycontinuedrag %p esc=%d keystate=0x%lx with state %d\n", This, fEscapePressed, grfKeyState, ctx->util_data.state)); if (!dnd_queue_is_empty ()) process_dnd_queue (FALSE, 0, NULL); GDK_NOTE (DND, g_print ("idropsource_querycontinuedrag state %d\n", ctx->util_data.state)); if (ctx->util_data.state == GDK_WIN32_DND_DROPPED) { GDK_NOTE (DND, g_print ("DRAGDROP_S_DROP\n")); return DRAGDROP_S_DROP; } else if (ctx->util_data.state == GDK_WIN32_DND_NONE) { GDK_NOTE (DND, g_print ("DRAGDROP_S_CANCEL\n")); return DRAGDROP_S_CANCEL; } else { GDK_NOTE (DND, g_print ("S_OK\n")); return S_OK; } } static void maybe_emit_action_changed (GdkWin32Drag *drag_win32, GdkDragAction actions) { if (actions != drag_win32->current_action) { drag_win32->current_action = actions; gdk_drag_set_selected_action (GDK_DRAG (drag_win32), actions); } } void _gdk_win32_local_drag_give_feedback (GdkDrag *drag, GdkDragAction actions) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); if (drag_win32->drag_status == GDK_DRAG_STATUS_MOTION_WAIT) drag_win32->drag_status = GDK_DRAG_STATUS_DRAG; GDK_NOTE (DND, g_print ("_gdk_win32_local_drag_give_feedback: 0x%p\n", drag)); maybe_emit_action_changed (drag_win32, actions); } static gboolean give_feedback (gpointer user_data) { GdkWin32DnDThreadGiveFeedback *feedback = (GdkWin32DnDThreadGiveFeedback *) user_data; GdkWin32Clipdrop *clipdrop = _gdk_win32_clipdrop_get (); gpointer ddd = g_hash_table_lookup (clipdrop->active_source_drags, feedback->base.opaque_context); if (ddd) { GdkDrag *drag = GDK_DRAG (feedback->base.opaque_context); GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GDK_NOTE (DND, g_print ("gdk_dnd_handle_drag_status: 0x%p\n", drag)); maybe_emit_action_changed (drag_win32, action_for_drop_effect (feedback->received_drop_effect)); } free_queue_item (&feedback->base); return G_SOURCE_REMOVE; } static HRESULT STDMETHODCALLTYPE idropsource_givefeedback (LPDROPSOURCE This, DWORD dwEffect) { source_drag_context *ctx = (source_drag_context *) This; GdkWin32DnDThreadGiveFeedback *feedback; GDK_NOTE (DND, g_print ("idropsource_givefeedback %p with drop effect %lu S_OK\n", This, dwEffect)); if (!dnd_queue_is_empty ()) process_dnd_queue (FALSE, 0, NULL); feedback = g_new0 (GdkWin32DnDThreadGiveFeedback, 1); feedback->base.item_type = GDK_WIN32_DND_THREAD_QUEUE_ITEM_GIVE_FEEDBACK; feedback->base.opaque_context = ctx->drag; feedback->received_drop_effect = dwEffect; g_idle_add_full (G_PRIORITY_DEFAULT, give_feedback, feedback, NULL); GDK_NOTE (DND, g_print ("idropsource_givefeedback %p returns\n", This)); return S_OK; } static ULONG STDMETHODCALLTYPE idataobject_addref (LPDATAOBJECT This) { data_object *dobj = (data_object *) This; int ref_count = ++dobj->ref_count; GDK_NOTE (DND, g_print ("idataobject_addref %p %d\n", This, ref_count)); return ref_count; } static HRESULT STDMETHODCALLTYPE idataobject_queryinterface (LPDATAOBJECT This, REFIID riid, LPVOID *ppvObject) { GDK_NOTE (DND, { g_print ("idataobject_queryinterface %p ", This); PRINT_GUID (riid); }); *ppvObject = NULL; if (IsEqualGUID (riid, &IID_IUnknown)) { GDK_NOTE (DND, g_print ("...IUnknown S_OK\n")); idataobject_addref (This); *ppvObject = This; return S_OK; } else if (IsEqualGUID (riid, &IID_IDataObject)) { GDK_NOTE (DND, g_print ("...IDataObject S_OK\n")); idataobject_addref (This); *ppvObject = This; return S_OK; } else { GDK_NOTE (DND, g_print ("...E_NOINTERFACE\n")); return E_NOINTERFACE; } } static ULONG STDMETHODCALLTYPE idataobject_release (LPDATAOBJECT This) { data_object *dobj = (data_object *) This; int ref_count = --dobj->ref_count; GDK_NOTE (DND, g_print ("idataobject_release %p %d\n", This, ref_count)); if (ref_count == 0) { g_array_free (dobj->formats, TRUE); g_free (This); } return ref_count; } static HRESULT query (LPDATAOBJECT This, LPFORMATETC pFormatEtc, GdkWin32ContentFormatPair **pair) { data_object *ctx = (data_object *) This; int i; if (pair) *pair = NULL; if (!pFormatEtc) return DV_E_FORMATETC; if (pFormatEtc->lindex != -1) return DV_E_LINDEX; if ((pFormatEtc->tymed & TYMED_HGLOBAL) == 0) return DV_E_TYMED; if ((pFormatEtc->dwAspect & DVASPECT_CONTENT) == 0) return DV_E_DVASPECT; for (i = 0; i < ctx->formats->len; i++) { GdkWin32ContentFormatPair *p = &g_array_index (ctx->formats, GdkWin32ContentFormatPair, i); if (pFormatEtc->cfFormat == p->w32format) { if (pair) *pair = p; return S_OK; } } return DV_E_FORMATETC; } static HRESULT STDMETHODCALLTYPE idataobject_getdata (LPDATAOBJECT This, LPFORMATETC pFormatEtc, LPSTGMEDIUM pMedium) { data_object *ctx = (data_object *) This; HRESULT hr; GdkWin32DnDThreadGetData *getdata; GdkWin32ContentFormatPair *pair; if (ctx->drag == NULL) return E_FAIL; GDK_NOTE (DND, g_print ("idataobject_getdata %p %s ", This, _gdk_win32_cf_to_string (pFormatEtc->cfFormat))); /* Check whether we can provide requested format */ hr = query (This, pFormatEtc, &pair); if (hr != S_OK) { GDK_NOTE (DND, g_print ("Unsupported format, returning 0x%lx\n", hr)); return hr; } if (!dnd_queue_is_empty ()) process_dnd_queue (FALSE, 0, NULL); getdata = g_new0 (GdkWin32DnDThreadGetData, 1); getdata->base.item_type = GDK_WIN32_DND_THREAD_QUEUE_ITEM_GET_DATA; getdata->base.opaque_context = (gpointer) ctx->drag; getdata->pair = *pair; g_idle_add_full (G_PRIORITY_DEFAULT, get_data_response, getdata, NULL); if (!process_dnd_queue (TRUE, g_get_monotonic_time () + G_USEC_PER_SEC * 30, getdata)) return E_FAIL; if (getdata->produced_data_medium.tymed == TYMED_NULL) { free_queue_item (&getdata->base); return E_FAIL; } memcpy (pMedium, &getdata->produced_data_medium, sizeof (*pMedium)); /* To ensure that the data isn't freed */ getdata->produced_data_medium.tymed = TYMED_NULL; free_queue_item (&getdata->base); return S_OK; } static HRESULT STDMETHODCALLTYPE idataobject_getdatahere (LPDATAOBJECT This, LPFORMATETC pFormatEtc, LPSTGMEDIUM pMedium) { GDK_NOTE (DND, g_print ("idataobject_getdatahere %p E_NOTIMPL\n", This)); return E_NOTIMPL; } static HRESULT STDMETHODCALLTYPE idataobject_querygetdata (LPDATAOBJECT This, LPFORMATETC pFormatEtc) { HRESULT hr; g_assert (_win32_main_thread == NULL || _win32_main_thread != g_thread_self ()); hr = query (This, pFormatEtc, NULL); GDK_NOTE (DND, g_print ("idataobject_querygetdata %p 0x%08x fmt, %p ptd, %lu aspect, %ld lindex, %0lx tymed - %s, return %#lx (%s)\n", This, pFormatEtc->cfFormat, pFormatEtc->ptd, pFormatEtc->dwAspect, pFormatEtc->lindex, pFormatEtc->tymed, _gdk_win32_cf_to_string (pFormatEtc->cfFormat), hr, (hr == S_OK) ? "S_OK" : (hr == DV_E_FORMATETC) ? "DV_E_FORMATETC" : (hr == DV_E_LINDEX) ? "DV_E_LINDEX" : (hr == DV_E_TYMED) ? "DV_E_TYMED" : (hr == DV_E_DVASPECT) ? "DV_E_DVASPECT" : "unknown meaning")); return hr; } static HRESULT STDMETHODCALLTYPE idataobject_getcanonicalformatetc (LPDATAOBJECT This, LPFORMATETC pFormatEtcIn, LPFORMATETC pFormatEtcOut) { GDK_NOTE (DND, g_print ("idataobject_getcanonicalformatetc %p E_NOTIMPL\n", This)); return E_NOTIMPL; } static HRESULT STDMETHODCALLTYPE idataobject_setdata (LPDATAOBJECT This, LPFORMATETC pFormatEtc, LPSTGMEDIUM pMedium, BOOL fRelease) { GDK_NOTE (DND, g_print ("idataobject_setdata %p %s E_NOTIMPL\n", This, _gdk_win32_cf_to_string (pFormatEtc->cfFormat))); return E_NOTIMPL; } static HRESULT STDMETHODCALLTYPE idataobject_enumformatetc (LPDATAOBJECT This, DWORD dwDirection, LPENUMFORMATETC *ppEnumFormatEtc) { g_assert (_win32_main_thread == NULL || _win32_main_thread != g_thread_self ()); if (dwDirection != DATADIR_GET) { GDK_NOTE (DND, g_print ("idataobject_enumformatetc %p E_NOTIMPL", This)); return E_NOTIMPL; } *ppEnumFormatEtc = &enum_formats_new (((data_object *) This)->formats)->ief; GDK_NOTE (DND, g_print ("idataobject_enumformatetc %p -> %p S_OK", This, *ppEnumFormatEtc)); return S_OK; } static HRESULT STDMETHODCALLTYPE idataobject_dadvise (LPDATAOBJECT This, LPFORMATETC pFormatetc, DWORD advf, LPADVISESINK pAdvSink, DWORD *pdwConnection) { GDK_NOTE (DND, g_print ("idataobject_dadvise %p E_NOTIMPL\n", This)); return E_NOTIMPL; } static HRESULT STDMETHODCALLTYPE idataobject_dunadvise (LPDATAOBJECT This, DWORD dwConnection) { GDK_NOTE (DND, g_print ("idataobject_dunadvise %p E_NOTIMPL\n", This)); return E_NOTIMPL; } static HRESULT STDMETHODCALLTYPE idataobject_enumdadvise (LPDATAOBJECT This, LPENUMSTATDATA *ppenumAdvise) { GDK_NOTE (DND, g_print ("idataobject_enumdadvise %p OLE_E_ADVISENOTSUPPORTED\n", This)); return OLE_E_ADVISENOTSUPPORTED; } static ULONG STDMETHODCALLTYPE ienumformatetc_addref (LPENUMFORMATETC This) { enum_formats *en = (enum_formats *) This; int ref_count = ++en->ref_count; GDK_NOTE (DND, g_print ("ienumformatetc_addref %p %d\n", This, ref_count)); return ref_count; } static HRESULT STDMETHODCALLTYPE ienumformatetc_queryinterface (LPENUMFORMATETC This, REFIID riid, LPVOID *ppvObject) { GDK_NOTE (DND, { g_print ("ienumformatetc_queryinterface %p", This); PRINT_GUID (riid); }); *ppvObject = NULL; if (IsEqualGUID (riid, &IID_IUnknown)) { GDK_NOTE (DND, g_print ("...IUnknown S_OK\n")); ienumformatetc_addref (This); *ppvObject = This; return S_OK; } else if (IsEqualGUID (riid, &IID_IEnumFORMATETC)) { GDK_NOTE (DND, g_print ("...IEnumFORMATETC S_OK\n")); ienumformatetc_addref (This); *ppvObject = This; return S_OK; } else { GDK_NOTE (DND, g_print ("...E_NOINTERFACE\n")); return E_NOINTERFACE; } } static ULONG STDMETHODCALLTYPE ienumformatetc_release (LPENUMFORMATETC This) { enum_formats *en = (enum_formats *) This; int ref_count = --en->ref_count; GDK_NOTE (DND, g_print ("ienumformatetc_release %p %d\n", This, ref_count)); if (ref_count == 0) { g_array_unref (en->formats); g_free (This); } return ref_count; } static HRESULT STDMETHODCALLTYPE ienumformatetc_next (LPENUMFORMATETC This, ULONG celt, LPFORMATETC elts, ULONG *nelt) { enum_formats *en = (enum_formats *) This; ULONG i, n; ULONG formats_to_get = celt; GDK_NOTE (DND, g_print ("ienumformatetc_next %p %d %ld ", This, en->ix, celt)); n = 0; for (i = 0; i < formats_to_get; i++) { UINT fmt; if (en->ix >= en->formats->len) break; fmt = g_array_index (en->formats, GdkWin32ContentFormatPair, en->ix++).w32format; /* skip internals */ if (fmt == 0 || fmt > 0xFFFF) { formats_to_get += 1; continue; } elts[n].cfFormat = fmt; elts[n].ptd = NULL; elts[n].dwAspect = DVASPECT_CONTENT; elts[n].lindex = -1; elts[n].tymed = TYMED_HGLOBAL; n++; } if (nelt != NULL) *nelt = n; GDK_NOTE (DND, g_print ("%s\n", (n == celt) ? "S_OK" : "S_FALSE")); if (n == celt) return S_OK; else return S_FALSE; } static HRESULT STDMETHODCALLTYPE ienumformatetc_skip (LPENUMFORMATETC This, ULONG celt) { enum_formats *en = (enum_formats *) This; GDK_NOTE (DND, g_print ("ienumformatetc_skip %p %d %ld S_OK\n", This, en->ix, celt)); en->ix += celt; return S_OK; } static HRESULT STDMETHODCALLTYPE ienumformatetc_reset (LPENUMFORMATETC This) { enum_formats *en = (enum_formats *) This; GDK_NOTE (DND, g_print ("ienumformatetc_reset %p S_OK\n", This)); en->ix = 0; return S_OK; } static HRESULT STDMETHODCALLTYPE ienumformatetc_clone (LPENUMFORMATETC This, LPENUMFORMATETC *ppEnumFormatEtc) { enum_formats *en = (enum_formats *) This; enum_formats *new; GDK_NOTE (DND, g_print ("ienumformatetc_clone %p S_OK\n", This)); new = enum_formats_new (en->formats); new->ix = en->ix; *ppEnumFormatEtc = &new->ief; return S_OK; } static IDropSourceVtbl ids_vtbl = { idropsource_queryinterface, idropsource_addref, idropsource_release, idropsource_querycontinuedrag, idropsource_givefeedback }; static IDropSourceNotifyVtbl idsn_vtbl = { (HRESULT (STDMETHODCALLTYPE *) (IDropSourceNotify *, REFIID , LPVOID *)) idropsource_queryinterface, (ULONG (STDMETHODCALLTYPE *) (IDropSourceNotify *)) idropsource_addref, (ULONG (STDMETHODCALLTYPE *) (IDropSourceNotify *)) idropsource_release, idropsourcenotify_dragentertarget, idropsourcenotify_dragleavetarget }; static IDataObjectVtbl ido_vtbl = { idataobject_queryinterface, idataobject_addref, idataobject_release, idataobject_getdata, idataobject_getdatahere, idataobject_querygetdata, idataobject_getcanonicalformatetc, idataobject_setdata, idataobject_enumformatetc, idataobject_dadvise, idataobject_dunadvise, idataobject_enumdadvise }; static IEnumFORMATETCVtbl ief_vtbl = { ienumformatetc_queryinterface, ienumformatetc_addref, ienumformatetc_release, ienumformatetc_next, ienumformatetc_skip, ienumformatetc_reset, ienumformatetc_clone }; static source_drag_context * source_context_new (GdkDrag *drag, GdkContentFormats *formats) { GdkWin32Drag *drag_win32; source_drag_context *result; GdkSurface *surface; drag_win32 = GDK_WIN32_DRAG (drag); g_object_get (drag, "surface", &surface, NULL); result = g_new0 (source_drag_context, 1); result->drag = g_object_ref (drag); result->ids.lpVtbl = &ids_vtbl; result->idsn.lpVtbl = &idsn_vtbl; result->ref_count = 1; result->source_window_handle = GDK_SURFACE_HWND (surface); result->scale = drag_win32->scale; result->util_data.state = GDK_WIN32_DND_PENDING; /* Implicit */ result->dest_window_handle = INVALID_HANDLE_VALUE; g_object_unref (surface); GDK_NOTE (DND, g_print ("source_context_new: %p (drag %p)\n", result, result->drag)); return result; } static data_object * data_object_new (GdkDrag *drag) { data_object *result; const char * const *mime_types; gsize n_mime_types, i; result = g_new0 (data_object, 1); result->ido.lpVtbl = &ido_vtbl; result->ref_count = 1; result->drag = drag; result->formats = g_array_new (FALSE, FALSE, sizeof (GdkWin32ContentFormatPair)); mime_types = gdk_content_formats_get_mime_types (gdk_drag_get_formats (drag), &n_mime_types); for (i = 0; i < n_mime_types; i++) { int added_count = 0; int j; GDK_NOTE (DND, g_print ("DataObject supports contentformat 0x%p (%s)\n", mime_types[i], mime_types[i])); added_count = _gdk_win32_add_contentformat_to_pairs (mime_types[i], result->formats); for (j = 0; j < added_count && result->formats->len - 1 - j >= 0; j++) GDK_NOTE (DND, g_print ("DataObject will support w32format 0x%x\n", g_array_index (result->formats, GdkWin32ContentFormatPair, j).w32format)); } GDK_NOTE (DND, g_print ("data_object_new: %p\n", result)); return result; } static enum_formats * enum_formats_new (GArray *formats) { enum_formats *result; result = g_new0 (enum_formats, 1); result->ief.lpVtbl = &ief_vtbl; result->ref_count = 1; result->ix = 0; result->formats = g_array_ref (formats); return result; } void _gdk_drag_init (void) { CoInitializeEx (NULL, COINIT_APARTMENTTHREADED); if (g_strcmp0 (getenv ("GDK_WIN32_OLE2_DND"), "0") == 0) use_ole2_dnd = FALSE; if (use_ole2_dnd) { HRESULT hr; hr = OleInitialize (NULL); if (! SUCCEEDED (hr)) g_error ("OleInitialize failed"); } } void _gdk_win32_dnd_exit (void) { if (use_ole2_dnd) { OleUninitialize (); } CoUninitialize (); } static GdkSurface * create_drag_surface (GdkDisplay *display) { GdkSurface *surface; surface = _gdk_win32_display_create_surface (display, GDK_SURFACE_TEMP, NULL, 0, 0, 100, 100); return surface; } GdkDrag * _gdk_win32_surface_drag_begin (GdkSurface *surface, GdkDevice *device, GdkContentProvider *content, GdkDragAction actions, double dx, double dy) { GdkDrag *drag; GdkWin32Drag *drag_win32; GdkWin32Clipdrop *clipdrop = _gdk_win32_clipdrop_get (); double px, py; int x_root, y_root; g_return_val_if_fail (surface != NULL, NULL); drag = gdk_drag_new (gdk_surface_get_display (surface), surface, content, actions, device, use_ole2_dnd ? GDK_DRAG_PROTO_OLE2 : GDK_DRAG_PROTO_LOCAL); drag_win32 = GDK_WIN32_DRAG (drag); GDK_NOTE (DND, g_print ("_gdk_win32_surface_drag_begin\n")); _gdk_device_win32_query_state (device, NULL, NULL, &px, &py, NULL); x_root = round (px + dx); y_root = round (py + dy); drag_win32->start_x = x_root; drag_win32->start_y = y_root; drag_win32->util_data.last_x = drag_win32->start_x; drag_win32->util_data.last_y = drag_win32->start_y; g_set_object (&drag_win32->grab_surface, surface); drag_win32->drag_surface = create_drag_surface (gdk_surface_get_display (surface)); if (!drag_context_grab (drag)) { g_object_unref (drag); return FALSE; } if (drag_win32->protocol == GDK_DRAG_PROTO_OLE2) { GdkWin32DnDThreadDoDragDrop *ddd = g_new0 (GdkWin32DnDThreadDoDragDrop, 1); source_drag_context *source_ctx; data_object *data_obj; source_ctx = source_context_new (drag, gdk_drag_get_formats (drag)); data_obj = data_object_new (drag); ddd->base.item_type = GDK_WIN32_DND_THREAD_QUEUE_ITEM_DO_DRAG_DROP; ddd->base.opaque_context = drag_win32; ddd->src_context = source_ctx; ddd->src_object = data_obj; ddd->allowed_drop_effects = 0; if (actions & GDK_ACTION_COPY) ddd->allowed_drop_effects |= DROPEFFECT_COPY; if (actions & GDK_ACTION_MOVE) ddd->allowed_drop_effects |= DROPEFFECT_MOVE; if (actions & GDK_ACTION_LINK) ddd->allowed_drop_effects |= DROPEFFECT_LINK; g_hash_table_replace (clipdrop->active_source_drags, g_object_ref (drag), ddd); increment_dnd_queue_counter (); g_async_queue_push (clipdrop->dnd_queue, ddd); API_CALL (PostThreadMessage, (clipdrop->dnd_thread_id, thread_wakeup_message, 0, 0)); drag_win32->util_data.state = GDK_WIN32_DND_PENDING; } move_drag_surface (drag, x_root, y_root); return drag; } /* TODO: remove this? * window finder is only used by our gdk_drag_update() to * find the window at drag coordinates - which is * something IDropSourceNotify already gives us. * Unless, of course, we keep the LOCAL protocol around. */ typedef struct { int x; int y; HWND ignore; HWND result; } find_window_enum_arg; static BOOL CALLBACK find_window_enum_proc (HWND hwnd, LPARAM lparam) { RECT rect; POINT tl, br; find_window_enum_arg *a = (find_window_enum_arg *) lparam; if (hwnd == a->ignore) return TRUE; if (!IsWindowVisible (hwnd)) return TRUE; tl.x = tl.y = 0; ClientToScreen (hwnd, &tl); GetClientRect (hwnd, &rect); br.x = rect.right; br.y = rect.bottom; ClientToScreen (hwnd, &br); if (a->x >= tl.x && a->y >= tl.y && a->x < br.x && a->y < br.y) { a->result = hwnd; return FALSE; } else return TRUE; } /* Finds the HWND under cursor. Local DnD protocol * uses this function, since local protocol is implemented * entirely in GDK and cannot rely on the OS to notify * drop targets about drags that move over them. */ static HWND gdk_win32_drag_find_window (GdkDrag *drag, GdkSurface *drag_surface, int x_root, int y_root) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); find_window_enum_arg a; g_assert (_win32_main_thread == NULL || _win32_main_thread == g_thread_self ()); a.x = x_root * drag_win32->scale - _gdk_offset_x; a.y = y_root * drag_win32->scale - _gdk_offset_y; a.ignore = drag_surface ? GDK_SURFACE_HWND (drag_surface) : NULL; a.result = INVALID_HANDLE_VALUE; GDK_NOTE (DND, g_print ("gdk_win32_drag_find_window: %p %+d%+d\n", (drag_surface ? GDK_SURFACE_HWND (drag_surface) : NULL), a.x, a.y)); EnumWindows (find_window_enum_proc, (LPARAM) &a); GDK_NOTE (DND, g_print ("gdk_win32_drag_find_window: %p %+d%+d: %p\n", (drag_surface ? GDK_SURFACE_HWND (drag_surface) : NULL), x_root, y_root, a.result)); return a.result; } static DWORD manufacture_keystate_from_GMT (GdkModifierType state) { DWORD key_state = 0; if (state & GDK_ALT_MASK) key_state |= MK_ALT; if (state & GDK_CONTROL_MASK) key_state |= MK_CONTROL; if (state & GDK_SHIFT_MASK) key_state |= MK_SHIFT; if (state & GDK_BUTTON1_MASK) key_state |= MK_LBUTTON; if (state & GDK_BUTTON2_MASK) key_state |= MK_MBUTTON; if (state & GDK_BUTTON3_MASK) key_state |= MK_RBUTTON; return key_state; } /* This only works if dest_window our window and the DnD operation * is currently local to the application. */ static GdkDrop * _gdk_win32_get_drop_for_dest_window (HWND dest_window) { GdkSurface *drop_surface = gdk_win32_handle_table_lookup (dest_window); GdkDrop *result = NULL; if (drop_surface) result = _gdk_win32_get_drop_for_dest_surface (drop_surface); return result; } static gboolean gdk_win32_local_drag_motion (GdkDrag *drag, HWND dest_window, int x_root, int y_root, GdkDragAction possible_actions, DWORD key_state, guint32 time_) { GdkWin32Drag *drag_win32; GdkDrop *drop; GdkDragAction actions; g_assert (_win32_main_thread == NULL || _win32_main_thread == g_thread_self ()); g_return_val_if_fail (drag != NULL, FALSE); drag_win32 = GDK_WIN32_DRAG (drag); drop = _gdk_win32_get_drop_for_dest_window (drag_win32->dest_window); actions = gdk_drag_get_actions (drag); GDK_NOTE (DND, g_print ("gdk_win32_local_drag_motion: @ %+d:%+d possible=%s\n" " dest=%p (current %p) drop=%p drag=%p:{actions=%s,action=%s}\n", x_root, y_root, _gdk_win32_drag_action_to_string (possible_actions), dest_window, drag_win32->dest_window, drop, drag, _gdk_win32_drag_action_to_string (actions), _gdk_win32_drag_action_to_string (gdk_drag_get_selected_action (drag)))); if (drag_win32->dest_window != dest_window) { /* Send a leave to the last destination */ if (drop) _gdk_win32_local_drop_target_dragleave (drop, time_); drag_win32->dest_window = dest_window; drag_win32->drag_status = GDK_DRAG_STATUS_DRAG; _gdk_win32_local_drop_target_dragenter (drag, gdk_win32_handle_table_lookup (dest_window), x_root, y_root, key_state, time_, &actions); drop = _gdk_win32_get_drop_for_dest_window (drag_win32->dest_window); maybe_emit_action_changed (drag_win32, actions); } /* Send a drag-motion event */ drag_win32->util_data.last_x = x_root; drag_win32->util_data.last_y = y_root; if (drop != NULL && drag_win32->drag_status == GDK_DRAG_STATUS_DRAG && _gdk_win32_local_drop_target_will_emit_motion (drop, x_root, y_root, key_state)) { actions = gdk_drag_get_actions (drag); drag_win32->drag_status = GDK_DRAG_STATUS_MOTION_WAIT; _gdk_win32_local_drop_target_dragover (drop, drag, x_root, y_root, key_state, time_, &actions); maybe_emit_action_changed (drag_win32, actions); } GDK_NOTE (DND, g_print (" returning %s\n" " drag=%p:{actions=%s,action=%s}\n", (drop != NULL && drag_win32->drag_status == GDK_DRAG_STATUS_DRAG) ? "TRUE" : "FALSE", drag, _gdk_win32_drag_action_to_string (gdk_drag_get_actions (drag)), _gdk_win32_drag_action_to_string (gdk_drag_get_selected_action (drag)))); return (drop != NULL && drag_win32->drag_status == GDK_DRAG_STATUS_DRAG); } static void send_source_state_update (GdkWin32Clipdrop *clipdrop, GdkWin32Drag *drag_win32, gpointer *ddd) { GdkWin32DnDThreadUpdateDragState *status = g_new0 (GdkWin32DnDThreadUpdateDragState, 1); status->base.item_type = GDK_WIN32_DND_THREAD_QUEUE_ITEM_UPDATE_DRAG_STATE; status->opaque_ddd = ddd; status->produced_util_data = drag_win32->util_data; increment_dnd_queue_counter (); g_async_queue_push (clipdrop->dnd_queue, status); API_CALL (PostThreadMessage, (clipdrop->dnd_thread_id, thread_wakeup_message, 0, 0)); } static void gdk_win32_drag_drop (GdkDrag *drag, guint32 time_) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GdkWin32Clipdrop *clipdrop = _gdk_win32_clipdrop_get (); g_assert (_win32_main_thread == NULL || _win32_main_thread == g_thread_self ()); g_return_if_fail (drag != NULL); GDK_NOTE (DND, g_print ("gdk_win32_drag_drop\n")); if (drag_win32->protocol == GDK_DRAG_PROTO_LOCAL) { GdkDrop *drop = _gdk_win32_get_drop_for_dest_window (drag_win32->dest_window); if (drop) { GdkDragAction actions; actions = gdk_drag_get_actions (drag); _gdk_win32_local_drop_target_drop (drop, drag, time_, &actions); maybe_emit_action_changed (drag_win32, actions); _gdk_win32_local_drag_drop_response (drag, actions); } } else if (drag_win32->protocol == GDK_DRAG_PROTO_OLE2) { gpointer ddd = g_hash_table_lookup (clipdrop->active_source_drags, drag); drag_win32->util_data.state = GDK_WIN32_DND_DROPPED; if (ddd) send_source_state_update (clipdrop, drag_win32, ddd); } } static void gdk_win32_drag_set_cursor (GdkDrag *drag, GdkCursor *cursor) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GDK_NOTE (DND, g_print ("gdk_win32_drag_set_cursor: 0x%p 0x%p\n", drag, cursor)); if (!g_set_object (&drag_win32->cursor, cursor)) return; if (drag_win32->grab_seat) { G_GNUC_BEGIN_IGNORE_DEPRECATIONS; gdk_device_grab (gdk_seat_get_pointer (drag_win32->grab_seat), drag_win32->grab_surface, FALSE, GDK_POINTER_MOTION_MASK | GDK_BUTTON_RELEASE_MASK, cursor, GDK_CURRENT_TIME); G_GNUC_END_IGNORE_DEPRECATIONS; } } static double ease_out_cubic (double t) { double p = t - 1; return p * p * p + 1; } #define ANIM_TIME 500000 /* half a second */ typedef struct _GdkDragAnim GdkDragAnim; struct _GdkDragAnim { GdkWin32Drag *drag; GdkFrameClock *frame_clock; gint64 start_time; }; static void gdk_drag_anim_destroy (GdkDragAnim *anim) { g_object_unref (anim->drag); g_slice_free (GdkDragAnim, anim); } static gboolean gdk_drag_anim_timeout (gpointer data) { GdkDragAnim *anim = data; GdkWin32Drag *drag = anim->drag; GdkFrameClock *frame_clock = anim->frame_clock; gint64 current_time; double f; double t; int x, y; if (!frame_clock) return G_SOURCE_REMOVE; current_time = gdk_frame_clock_get_frame_time (frame_clock); f = (current_time - anim->start_time) / (double) ANIM_TIME; if (f >= 1.0) return G_SOURCE_REMOVE; t = ease_out_cubic (f); gdk_win32_surface_show (drag->drag_surface, FALSE); x = (drag->util_data.last_x + (drag->start_x - drag->util_data.last_x) * t - drag->hot_x); y = (drag->util_data.last_y + (drag->start_y - drag->util_data.last_y) * t - drag->hot_y); gdk_win32_surface_move (drag->drag_surface, x, y); return G_SOURCE_CONTINUE; } static void gdk_win32_drag_drop_done (GdkDrag *drag, gboolean success) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GdkDragAnim *anim; /* cairo_surface_t *win_surface; cairo_surface_t *surface; cairo_t *cr; */ guint id; GDK_NOTE (DND, g_print ("gdk_win32_drag_drop_done: 0x%p %s\n", drag, success ? "dropped successfully" : "dropped unsuccessfully")); /* FIXME: This is temporary, until the code is fixed to ensure that * gdk_drag_finish () is called by GTK. */ if (drag_win32->protocol == GDK_DRAG_PROTO_OLE2) { GdkWin32Clipdrop *clipdrop = _gdk_win32_clipdrop_get (); gpointer ddd = g_hash_table_lookup (clipdrop->active_source_drags, drag); if (success) drag_win32->util_data.state = GDK_WIN32_DND_DROPPED; else drag_win32->util_data.state = GDK_WIN32_DND_NONE; if (ddd) send_source_state_update (clipdrop, drag_win32, ddd); } else if (drag_win32->protocol == GDK_DRAG_PROTO_LOCAL) { } drag_win32->handle_events = FALSE; if (success) { gdk_surface_hide (drag_win32->drag_surface); return; } /* win_surface = _gdk_surface_ref_cairo_surface (drag_win32->drag_surface); surface = gdk_surface_create_similar_surface (drag_win32->drag_surface, cairo_surface_get_content (win_surface), gdk_surface_get_width (drag_win32->drag_surface), gdk_surface_get_height (drag_win32->drag_surface)); cr = cairo_create (surface); cairo_set_source_surface (cr, win_surface, 0, 0); cairo_paint (cr); cairo_destroy (cr); cairo_surface_destroy (win_surface); pattern = cairo_pattern_create_for_surface (surface); gdk_surface_set_background_pattern (drag_win32->drag_surface, pattern); cairo_pattern_destroy (pattern); cairo_surface_destroy (surface); */ anim = g_slice_new0 (GdkDragAnim); g_set_object (&anim->drag, drag_win32); anim->frame_clock = gdk_surface_get_frame_clock (drag_win32->drag_surface); anim->start_time = gdk_frame_clock_get_frame_time (anim->frame_clock); GDK_NOTE (DND, g_print ("gdk_win32_drag_drop_done: animate the drag window from %d : %d to %d : %d\n", drag_win32->util_data.last_x, drag_win32->util_data.last_y, drag_win32->start_x, drag_win32->start_y)); id = g_timeout_add_full (G_PRIORITY_DEFAULT, 17, gdk_drag_anim_timeout, anim, (GDestroyNotify) gdk_drag_anim_destroy); g_source_set_name_by_id (id, "[gtk] gdk_drag_anim_timeout"); } static gboolean drag_context_grab (GdkDrag *drag) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GdkSeatCapabilities capabilities; GdkSeat *seat; GdkCursor *cursor; GDK_NOTE (DND, g_print ("drag_context_grab: 0x%p with grab surface 0x%p\n", drag, drag_win32->grab_surface)); if (!drag_win32->grab_surface) return FALSE; seat = gdk_device_get_seat (gdk_drag_get_device (drag)); capabilities = GDK_SEAT_CAPABILITY_ALL; cursor = gdk_drag_get_cursor (drag, gdk_drag_get_selected_action (drag)); g_set_object (&drag_win32->cursor, cursor); if (gdk_seat_grab (seat, drag_win32->grab_surface, capabilities, FALSE, drag_win32->cursor, NULL, NULL, NULL) != GDK_GRAB_SUCCESS) return FALSE; g_set_object (&drag_win32->grab_seat, seat); /* TODO: Should be grabbing keys here, to support keynav. SetWindowsHookEx()? */ return TRUE; } static void drag_context_ungrab (GdkDrag *drag) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GDK_NOTE (DND, g_print ("drag_context_ungrab: 0x%p 0x%p\n", drag, drag_win32->grab_seat)); if (!drag_win32->grab_seat) return; gdk_seat_ungrab (drag_win32->grab_seat); g_clear_object (&drag_win32->grab_seat); /* TODO: Should be ungrabbing keys here */ } static void gdk_win32_drag_cancel (GdkDrag *drag, GdkDragCancelReason reason) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); const char *reason_str = NULL; switch (reason) { case GDK_DRAG_CANCEL_NO_TARGET: reason_str = "no target"; break; case GDK_DRAG_CANCEL_USER_CANCELLED: reason_str = "user cancelled"; break; case GDK_DRAG_CANCEL_ERROR: reason_str = "error"; break; default: reason_str = ""; break; } GDK_NOTE (DND, g_print ("gdk_win32_drag_cancel: 0x%p %s\n", drag, reason_str)); if (drag_win32->protocol == GDK_DRAG_PROTO_LOCAL) { GdkDrop *drop = _gdk_win32_get_drop_for_dest_window (drag_win32->dest_window); if (drop) _gdk_win32_local_drop_target_dragleave (drop, GDK_CURRENT_TIME); drop = NULL; } gdk_drag_set_cursor (drag, NULL); drag_context_ungrab (drag); gdk_drag_drop_done (drag, FALSE); } static void gdk_win32_drag_drop_performed (GdkDrag *drag, guint32 time_) { GDK_NOTE (DND, g_print ("gdk_win32_drag_drop_performed: 0x%p %u\n", drag, time_)); gdk_win32_drag_drop (drag, time_); gdk_drag_set_cursor (drag, NULL); drag_context_ungrab (drag); } #define BIG_STEP 20 #define SMALL_STEP 1 static void gdk_local_drag_update (GdkDrag *drag, double x_root, double y_root, DWORD grfKeyState, guint32 evtime) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); HWND dest_window; g_assert (_win32_main_thread == NULL || _win32_main_thread == g_thread_self ()); dest_window = gdk_win32_drag_find_window (drag, drag_win32->drag_surface, x_root, y_root); gdk_win32_local_drag_motion (drag, dest_window, x_root, y_root, gdk_drag_get_actions (drag), grfKeyState, evtime); } static gboolean gdk_dnd_handle_motion_event (GdkDrag *drag, GdkEvent *event) { GdkModifierType state; GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); DWORD key_state; double x, y; double x_root, y_root; GDK_NOTE (DND, g_print ("gdk_dnd_handle_motion_event: 0x%p\n", drag)); state = gdk_event_get_modifier_state (event); gdk_event_get_position (event, &x, &y); x_root = x + _gdk_offset_x; y_root = y + _gdk_offset_y; if (drag_win32->drag_surface) move_drag_surface (drag, x_root, y_root); key_state = manufacture_keystate_from_GMT (state); if (drag_win32->protocol == GDK_DRAG_PROTO_LOCAL) { gdk_local_drag_update (drag, x_root, y_root, key_state, gdk_event_get_time (event)); } else if (drag_win32->protocol == GDK_DRAG_PROTO_OLE2) { GdkWin32Clipdrop *clipdrop = _gdk_win32_clipdrop_get (); GDK_NOTE (DND, g_print ("Post WM_MOUSEMOVE keystate=%lu\n", key_state)); drag_win32->util_data.last_x = x_root; drag_win32->util_data.last_y = y_root; API_CALL (PostThreadMessage, (clipdrop->dnd_thread_id, WM_MOUSEMOVE, key_state, MAKELPARAM (x * drag_win32->scale, y * drag_win32->scale))); } return TRUE; } static gboolean gdk_dnd_handle_key_event (GdkDrag *drag, GdkEvent *event) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GdkModifierType state; GdkDevice *pointer; GdkSeat *seat; int dx, dy; GDK_NOTE (DND, g_print ("gdk_dnd_handle_key_event: 0x%p\n", drag)); state = gdk_event_get_modifier_state (event); dx = dy = 0; seat = gdk_event_get_seat (event); pointer = gdk_seat_get_pointer (seat); if (gdk_event_get_event_type (event) == GDK_KEY_PRESS) { switch (gdk_key_event_get_keyval (event)) { case GDK_KEY_Escape: gdk_drag_cancel (drag, GDK_DRAG_CANCEL_USER_CANCELLED); return TRUE; case GDK_KEY_space: case GDK_KEY_Return: case GDK_KEY_ISO_Enter: case GDK_KEY_KP_Enter: case GDK_KEY_KP_Space: if ((gdk_drag_get_selected_action (drag) != 0) && (drag_win32->dest_window != INVALID_HANDLE_VALUE)) { g_signal_emit_by_name (drag, "drop-performed"); } else gdk_drag_cancel (drag, GDK_DRAG_CANCEL_NO_TARGET); return TRUE; case GDK_KEY_Up: case GDK_KEY_KP_Up: dy = (state & GDK_ALT_MASK) ? -BIG_STEP : -SMALL_STEP; break; case GDK_KEY_Down: case GDK_KEY_KP_Down: dy = (state & GDK_ALT_MASK) ? BIG_STEP : SMALL_STEP; break; case GDK_KEY_Left: case GDK_KEY_KP_Left: dx = (state & GDK_ALT_MASK) ? -BIG_STEP : -SMALL_STEP; break; case GDK_KEY_Right: case GDK_KEY_KP_Right: dx = (state & GDK_ALT_MASK) ? BIG_STEP : SMALL_STEP; break; } } /* The state is not yet updated in the event, so we need * to query it here. */ _gdk_device_win32_query_state (pointer, NULL, NULL, NULL, NULL, &state); if (dx != 0 || dy != 0) { drag_win32->util_data.last_x += dx; drag_win32->util_data.last_y += dy; } if (drag_win32->drag_surface) move_drag_surface (drag, drag_win32->util_data.last_x, drag_win32->util_data.last_y); if (drag_win32->protocol == GDK_DRAG_PROTO_LOCAL) gdk_local_drag_update (drag, drag_win32->util_data.last_x, drag_win32->util_data.last_y, manufacture_keystate_from_GMT (state), gdk_event_get_time (event)); return TRUE; } static gboolean gdk_dnd_handle_grab_broken_event (GdkDrag *drag, GdkEvent *event) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GDK_NOTE (DND, g_print ("gdk_dnd_handle_grab_broken_event: 0x%p\n", drag)); /* Don't cancel if we break the implicit grab from the initial button_press. * Also, don't cancel if we re-grab on the widget or on our grab window, for * example, when changing the drag cursor. */ if (/* FIXME: event->implicit || */ gdk_grab_broken_event_get_grab_surface (event) == drag_win32->drag_surface || gdk_grab_broken_event_get_grab_surface (event) == drag_win32->grab_surface) return FALSE; if (gdk_event_get_device (event) != gdk_drag_get_device (drag)) return FALSE; gdk_drag_cancel (drag, GDK_DRAG_CANCEL_ERROR); return TRUE; } static gboolean gdk_dnd_handle_button_event (GdkDrag *drag, GdkEvent *event) { GDK_NOTE (DND, g_print ("gdk_dnd_handle_button_event: 0x%p\n", drag)); #if 0 /* FIXME: Check the button matches */ if (event->button != drag_win32->button) return FALSE; #endif if ((gdk_drag_get_selected_action (drag) != 0)) { g_signal_emit_by_name (drag, "drop-performed"); } else gdk_drag_cancel (drag, GDK_DRAG_CANCEL_NO_TARGET); /* Make sure GTK gets mouse release button event */ return FALSE; } gboolean gdk_win32_drag_handle_event (GdkDrag *drag, GdkEvent *event) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); if (!drag_win32->grab_seat) return FALSE; if (!drag_win32->handle_events) { /* FIXME: remove this functionality once gtk no longer calls DnD after drag_done() */ g_warning ("Got an event %d for drag context %p, even though it's done!", event->event_type, drag); return FALSE; } switch (gdk_event_get_event_type (event)) { case GDK_MOTION_NOTIFY: return gdk_dnd_handle_motion_event (drag, event); case GDK_BUTTON_RELEASE: return gdk_dnd_handle_button_event (drag, event); case GDK_KEY_PRESS: case GDK_KEY_RELEASE: return gdk_dnd_handle_key_event (drag, event); case GDK_GRAB_BROKEN: return gdk_dnd_handle_grab_broken_event (drag, event); default: break; } return FALSE; } static GdkSurface * gdk_win32_drag_get_drag_surface (GdkDrag *drag) { return GDK_WIN32_DRAG (drag)->drag_surface; } static void gdk_win32_drag_set_hotspot (GdkDrag *drag, int hot_x, int hot_y) { GdkWin32Drag *drag_win32 = GDK_WIN32_DRAG (drag); GDK_NOTE (DND, g_print ("gdk_drag_set_hotspot: 0x%p %d:%d\n", drag, hot_x, hot_y)); drag_win32->hot_x = hot_x; drag_win32->hot_y = hot_y; if (drag_win32->grab_seat) { /* DnD is managed, update current position */ move_drag_surface (drag, drag_win32->util_data.last_x, drag_win32->util_data.last_y); } } static void gdk_win32_drag_class_init (GdkWin32DragClass *klass) { GObjectClass *object_class = G_OBJECT_CLASS (klass); GdkDragClass *drag_class = GDK_DRAG_CLASS (klass); object_class->finalize = gdk_win32_drag_finalize; drag_class->get_drag_surface = gdk_win32_drag_get_drag_surface; drag_class->set_hotspot = gdk_win32_drag_set_hotspot; drag_class->drop_done = gdk_win32_drag_drop_done; drag_class->set_cursor = gdk_win32_drag_set_cursor; drag_class->cancel = gdk_win32_drag_cancel; drag_class->drop_performed = gdk_win32_drag_drop_performed; drag_class->handle_event = gdk_win32_drag_handle_event; }