/* GDK - The GIMP Drawing Kit * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, 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 "gdkdisplayprivate.h" #include "gdkdragprivate.h" #include "gdkdropprivate.h" #include "gdkeventsprivate.h" #include "gdkintl.h" #include "gdkkeysprivate.h" #include "gdkkeysyms.h" #include "gdk-private.h" #include #include #include /** * GdkEvent: (ref-func gdk_event_ref) (unref-func gdk_event_unref) * * `GdkEvent`s are immutable data structures, created by GDK to * represent windowing system events. * * In GTK applications the events are handled automatically by toplevel * widgets and passed on to the event controllers of appropriate widgets, * so using `GdkEvent` and its related API is rarely needed. */ /** * GdkEventSequence: * * `GdkEventSequence` is an opaque type representing a sequence * of related touch events. */ static void value_event_init (GValue *value) { value->data[0].v_pointer = NULL; } static void value_event_free_value (GValue *value) { if (value->data[0].v_pointer != NULL) gdk_event_unref (value->data[0].v_pointer); } static void value_event_copy_value (const GValue *src, GValue *dst) { if (src->data[0].v_pointer != NULL) dst->data[0].v_pointer = gdk_event_ref (src->data[0].v_pointer); else dst->data[0].v_pointer = NULL; } static gpointer value_event_peek_pointer (const GValue *value) { return value->data[0].v_pointer; } static char * value_event_collect_value (GValue *value, guint n_collect_values, GTypeCValue *collect_values, guint collect_flags) { GdkEvent *event = collect_values[0].v_pointer; if (event == NULL) { value->data[0].v_pointer = NULL; return NULL; } if (event->parent_instance.g_class == NULL) return g_strconcat ("invalid unclassed GdkEvent pointer for " "value type '", G_VALUE_TYPE_NAME (value), "'", NULL); value->data[0].v_pointer = gdk_event_ref (event); return NULL; } static char * value_event_lcopy_value (const GValue *value, guint n_collect_values, GTypeCValue *collect_values, guint collect_flags) { GdkEvent **event_p = collect_values[0].v_pointer; if (event_p == NULL) return g_strconcat ("value location for '", G_VALUE_TYPE_NAME (value), "' passed as NULL", NULL); if (value->data[0].v_pointer == NULL) *event_p = NULL; else if (collect_flags & G_VALUE_NOCOPY_CONTENTS) *event_p = value->data[0].v_pointer; else *event_p = gdk_event_ref (value->data[0].v_pointer); return NULL; } static void gdk_event_finalize (GdkEvent *self) { g_clear_object (&self->surface); g_clear_object (&self->device); g_type_free_instance ((GTypeInstance *) self); } static GdkModifierType gdk_event_real_get_state (GdkEvent *self) { return 0; } static gboolean gdk_event_real_get_position (GdkEvent *self, double *x, double *y) { *x = NAN; *y = NAN; return FALSE; } static GdkEventSequence * gdk_event_real_get_sequence (GdkEvent *self) { return NULL; } static GdkDeviceTool * gdk_event_real_get_tool (GdkEvent *self) { return NULL; } static gboolean gdk_event_real_get_axes (GdkEvent *self, double **axes, guint *n_axes) { return FALSE; } static void gdk_event_class_init (GdkEventClass *klass) { klass->finalize = gdk_event_finalize; klass->get_state = gdk_event_real_get_state; klass->get_position = gdk_event_real_get_position; klass->get_sequence = gdk_event_real_get_sequence; klass->get_tool = gdk_event_real_get_tool; klass->get_axes = gdk_event_real_get_axes; } static void gdk_event_init (GdkEvent *self) { g_ref_count_init (&self->ref_count); } GType gdk_event_get_type (void) { static gsize event_type__volatile; if (g_once_init_enter (&event_type__volatile)) { static const GTypeFundamentalInfo finfo = { (G_TYPE_FLAG_CLASSED | G_TYPE_FLAG_INSTANTIATABLE | G_TYPE_FLAG_DERIVABLE | G_TYPE_FLAG_DEEP_DERIVABLE), }; static const GTypeValueTable value_table = { value_event_init, value_event_free_value, value_event_copy_value, value_event_peek_pointer, "p", value_event_collect_value, "p", value_event_lcopy_value, }; const GTypeInfo event_info = { /* Class */ sizeof (GdkEventClass), (GBaseInitFunc) NULL, (GBaseFinalizeFunc) NULL, (GClassInitFunc) gdk_event_class_init, (GClassFinalizeFunc) NULL, NULL, /* Instance */ sizeof (GdkEvent), 0, (GInstanceInitFunc) gdk_event_init, /* GValue */ &value_table, }; GType event_type = g_type_register_fundamental (g_type_fundamental_next (), g_intern_static_string ("GdkEvent"), &event_info, &finfo, G_TYPE_FLAG_ABSTRACT); g_once_init_leave (&event_type__volatile, event_type); } return event_type__volatile; } /*< private > * GdkEventTypeInfo: * @instance_size: the size of the instance of a GdkEvent subclass * @instance_init: (nullable): the function to initialize the instance data * @finalize: (nullable): the function to free the instance data * @get_state: (nullable): the function to retrieve the `GdkModifierType`:w * associated to the event * @get_position: (nullable): the function to retrieve the event coordinates * @get_sequence: (nullable): the function to retrieve the event sequence * @get_tool: (nullable): the function to retrieve the event's device tool * @get_axes: (nullable): the function to retrieve the event's axes * * A structure used when registering a new GdkEvent type. */ typedef struct { gsize instance_size; void (* instance_init) (GdkEvent *event); void (* finalize) (GdkEvent *event); GdkModifierType (* get_state) (GdkEvent *event); gboolean (* get_position) (GdkEvent *event, double *x, double *y); GdkEventSequence *(* get_sequence) (GdkEvent *event); GdkDeviceTool *(* get_tool) (GdkEvent *event); gboolean (* get_axes) (GdkEvent *event, double **axes, guint *n_axes); } GdkEventTypeInfo; static void gdk_event_generic_class_init (gpointer g_class, gpointer class_data) { GdkEventTypeInfo *info = class_data; GdkEventClass *event_class = g_class; /* Optional */ if (info->finalize != NULL) event_class->finalize = info->finalize; if (info->get_state != NULL) event_class->get_state = info->get_state; if (info->get_position != NULL) event_class->get_position = info->get_position; if (info->get_sequence != NULL) event_class->get_sequence = info->get_sequence; if (info->get_tool != NULL) event_class->get_tool = info->get_tool; if (info->get_axes != NULL) event_class->get_axes = info->get_axes; g_free (info); } static GType gdk_event_type_register_static (const char *type_name, const GdkEventTypeInfo *type_info) { GTypeInfo info; info.class_size = sizeof (GdkEventClass); info.base_init = NULL; info.base_finalize = NULL; info.class_init = gdk_event_generic_class_init; info.class_finalize = NULL; info.class_data = g_memdup2 (type_info, sizeof (GdkEventTypeInfo)); info.instance_size = type_info->instance_size; info.n_preallocs = 0; info.instance_init = (GInstanceInitFunc) type_info->instance_init; info.value_table = NULL; return g_type_register_static (GDK_TYPE_EVENT, type_name, &info, 0); } /* Map GdkEventType to the appropriate GType */ static GType gdk_event_types[GDK_EVENT_LAST]; /*< private > * GDK_EVENT_TYPE_SLOT: * @ETYPE: a `GdkEvent`Type * * Associates a `GdkEvent` type with the given `GdkEvent`Type enumeration. * * This macro can only be used with %GDK_DEFINE_EVENT_TYPE. */ #define GDK_EVENT_TYPE_SLOT(ETYPE) { gdk_event_types[ETYPE] = gdk_define_event_type_id; } /*< private > * GDK_DEFINE_EVENT_TYPE: * @TypeName: the type name, in camel case * @type_name: the type name, in snake case * @type_info: the address of the `GdkEvent`TypeInfo for the event type * @_C_: custom code to call after registering the event type * * Registers a new `GdkEvent` subclass with the given @TypeName and @type_info. * * Similarly to %G_DEFINE_TYPE_WITH_CODE, this macro will generate a `get_type()` * function that registers the event type. * * You can specify code to be run after the type registration; the `GType` of * the event is available in the `gdk_define_event_type_id` variable. */ #define GDK_DEFINE_EVENT_TYPE(TypeName, type_name, type_info, _C_) \ GType \ type_name ## _get_type (void) \ { \ static gsize gdk_define_event_type_id__volatile; \ if (g_once_init_enter (&gdk_define_event_type_id__volatile)) \ { \ GType gdk_define_event_type_id = \ gdk_event_type_register_static (g_intern_static_string (#TypeName), type_info); \ { _C_ } \ g_once_init_leave (&gdk_define_event_type_id__volatile, gdk_define_event_type_id); \ } \ return gdk_define_event_type_id__volatile; \ } #define GDK_EVENT_SUPER(event) \ ((GdkEventClass *) g_type_class_peek (g_type_parent (G_TYPE_FROM_INSTANCE (event)))) /*< private > * gdk_event_alloc: * @event_type: the `GdkEvent`Type to allocate * @surface: (nullable): the `GdkSurface` of the event * @device: (nullable): the `GdkDevice` of the event * @time_: the event serial * * Allocates a `GdkEvent` for the given @event_type, and sets its * common fields with the given parameters. * * Returns: (transfer full): the newly allocated `GdkEvent` instance */ static gpointer gdk_event_alloc (GdkEventType event_type, GdkSurface *surface, GdkDevice *device, guint32 time_) { g_assert (event_type >= GDK_DELETE && event_type < GDK_EVENT_LAST); g_assert (gdk_event_types[event_type] != G_TYPE_INVALID); GdkEvent *event = (GdkEvent *) g_type_create_instance (gdk_event_types[event_type]); GDK_NOTE (EVENTS, { char *str = g_enum_to_string (GDK_TYPE_EVENT_TYPE, event_type); g_message ("Allocating a new %s for event type %s", g_type_name (gdk_event_types[event_type]), str); g_free (str); }); event->event_type = event_type; event->surface = surface != NULL ? g_object_ref (surface) : NULL; event->device = device != NULL ? g_object_ref (device) : NULL; event->time = time_; if (device != NULL && time_ != GDK_CURRENT_TIME) gdk_device_set_timestamp (device, time_); return event; } static void gdk_event_init_types_once (void) { g_type_ensure (GDK_TYPE_BUTTON_EVENT); g_type_ensure (GDK_TYPE_CROSSING_EVENT); g_type_ensure (GDK_TYPE_DELETE_EVENT); g_type_ensure (GDK_TYPE_DND_EVENT); g_type_ensure (GDK_TYPE_FOCUS_EVENT); g_type_ensure (GDK_TYPE_GRAB_BROKEN_EVENT); g_type_ensure (GDK_TYPE_KEY_EVENT); g_type_ensure (GDK_TYPE_MOTION_EVENT); g_type_ensure (GDK_TYPE_PAD_EVENT); g_type_ensure (GDK_TYPE_PROXIMITY_EVENT); g_type_ensure (GDK_TYPE_SCROLL_EVENT); g_type_ensure (GDK_TYPE_TOUCH_EVENT); g_type_ensure (GDK_TYPE_TOUCHPAD_EVENT); } /*< private > * gdk_event_init_types: * * Initializes all GdkEvent types. */ void gdk_event_init_types (void) { static gsize event_types__volatile; if (g_once_init_enter (&event_types__volatile)) { gboolean initialized = FALSE; gdk_event_init_types_once (); initialized = TRUE; g_once_init_leave (&event_types__volatile, initialized); } } #ifdef G_ENABLE_DEBUG static gboolean check_event_sanity (GdkEvent *event) { if (event->device != NULL && gdk_surface_get_display (event->surface) != gdk_device_get_display (event->device)) { char *type = g_enum_to_string (GDK_TYPE_EVENT_TYPE, event->event_type); g_warning ("Event of type %s with mismatched device display", type); g_free (type); return FALSE; } return TRUE; } #endif void _gdk_event_emit (GdkEvent *event) { #ifdef G_ENABLE_DEBUG if (!check_event_sanity (event)) return; #endif if (gdk_drag_handle_source_event (event)) return; gdk_surface_handle_event (event); } /********************************************* * Functions for maintaining the event queue * *********************************************/ /** * _gdk_event_queue_find_first: * @display: a `GdkDisplay` * * Find the first event on the queue that is not still * being filled in. * * Returns: (nullable): Pointer to the list node for that event */ GList* _gdk_event_queue_find_first (GdkDisplay *display) { GList *tmp_list; GList *pending_motion = NULL; gboolean paused = display->event_pause_count > 0; tmp_list = g_queue_peek_head_link (&display->queued_events); while (tmp_list) { GdkEvent *event = tmp_list->data; if ((event->flags & GDK_EVENT_PENDING) == 0 && (!paused || (event->flags & GDK_EVENT_FLUSHED) != 0)) { if (pending_motion) return pending_motion; if ((event->event_type == GDK_MOTION_NOTIFY || (event->event_type == GDK_SCROLL && gdk_scroll_event_get_direction (event) == GDK_SCROLL_SMOOTH)) && (event->flags & GDK_EVENT_FLUSHED) == 0) pending_motion = tmp_list; else return tmp_list; } tmp_list = tmp_list->next; } return NULL; } /** * _gdk_event_queue_append: * @display: a `GdkDisplay` * @event: Event to append * * Appends an event onto the tail of the event queue. * * Returns: the newly appended list node. */ GList * _gdk_event_queue_append (GdkDisplay *display, GdkEvent *event) { g_queue_push_tail (&display->queued_events, event); return g_queue_peek_tail_link (&display->queued_events); } /* * _gdk_event_queue_remove_link: * @display: a `GdkDisplay` * @node: node to remove * * Removes a specified list node from the event queue. */ void _gdk_event_queue_remove_link (GdkDisplay *display, GList *node) { g_queue_unlink (&display->queued_events, node); } /* * _gdk_event_unqueue: * @display: a `GdkDisplay` * * Removes and returns the first event from the event * queue that is not still being filled in. * * Returns: (nullable): the event */ GdkEvent* _gdk_event_unqueue (GdkDisplay *display) { GdkEvent *event = NULL; GList *tmp_list; tmp_list = _gdk_event_queue_find_first (display); if (tmp_list) { event = tmp_list->data; _gdk_event_queue_remove_link (display, tmp_list); g_list_free_1 (tmp_list); } return event; } /* * If the last N events in the event queue are smooth scroll events * for the same surface, the same device and the same scroll unit, * combine them into one. * * We give the remaining event a history with N items, and deltas * that are the sum over the history entries. */ void gdk_event_queue_handle_scroll_compression (GdkDisplay *display) { GList *l; GdkSurface *surface = NULL; GdkDevice *device = NULL; GdkEvent *last_event = NULL; GList *scrolls = NULL; GArray *history = NULL; GdkScrollUnit scroll_unit = GDK_SCROLL_UNIT_WHEEL; gboolean scroll_unit_defined = FALSE; GdkTimeCoord hist; l = g_queue_peek_tail_link (&display->queued_events); while (l) { GdkEvent *event = l->data; GdkScrollEvent *scroll_event = (GdkScrollEvent *) event; if (event->flags & GDK_EVENT_PENDING) break; if (event->event_type != GDK_SCROLL || gdk_scroll_event_get_direction (event) != GDK_SCROLL_SMOOTH) break; if (surface != NULL && surface != event->surface) break; if (device != NULL && device != event->device) break; if (scroll_unit_defined && scroll_unit != scroll_event->unit) break; if (!last_event) last_event = event; surface = event->surface; device = event->device; scroll_unit = scroll_event->unit; scroll_unit_defined = TRUE; scrolls = l; l = l->prev; } while (scrolls && scrolls->next != NULL) { GdkEvent *event = scrolls->data; GList *next = scrolls->next; double dx, dy; gboolean inherited = FALSE; if (!history && ((GdkScrollEvent *)event)->history) { history = ((GdkScrollEvent *)event)->history; ((GdkScrollEvent *)event)->history = NULL; inherited = TRUE; } if (!history) history = g_array_new (FALSE, TRUE, sizeof (GdkTimeCoord)); if (!inherited) { gdk_scroll_event_get_deltas (event, &dx, &dy); memset (&hist, 0, sizeof (GdkTimeCoord)); hist.time = gdk_event_get_time (event); hist.flags = GDK_AXIS_FLAG_DELTA_X | GDK_AXIS_FLAG_DELTA_Y; hist.axes[GDK_AXIS_DELTA_X] = dx; hist.axes[GDK_AXIS_DELTA_Y] = dy; g_array_append_val (history, hist); } gdk_event_unref (event); g_queue_delete_link (&display->queued_events, scrolls); scrolls = next; } if (scrolls && history) { GdkEvent *old_event, *event; double dx, dy; old_event = scrolls->data; gdk_scroll_event_get_deltas (old_event, &dx, &dy); memset (&hist, 0, sizeof (GdkTimeCoord)); hist.time = gdk_event_get_time (old_event); hist.flags = GDK_AXIS_FLAG_DELTA_X | GDK_AXIS_FLAG_DELTA_Y; hist.axes[GDK_AXIS_DELTA_X] = dx; hist.axes[GDK_AXIS_DELTA_Y] = dy; g_array_append_val (history, hist); dx = dy = 0; for (int i = 0; i < history->len; i++) { GdkTimeCoord *val = &g_array_index (history, GdkTimeCoord, i); dx += val->axes[GDK_AXIS_DELTA_X]; dy += val->axes[GDK_AXIS_DELTA_Y]; } event = gdk_scroll_event_new (surface, device, gdk_event_get_device_tool (old_event), gdk_event_get_time (old_event), gdk_event_get_modifier_state (old_event), dx, dy, gdk_scroll_event_is_stop (old_event), scroll_unit); ((GdkScrollEvent *)event)->history = history; g_queue_delete_link (&display->queued_events, scrolls); g_queue_push_tail (&display->queued_events, event); gdk_event_unref (old_event); } } static void gdk_motion_event_push_history (GdkEvent *event, GdkEvent *history_event) { GdkMotionEvent *self = (GdkMotionEvent *) event; GdkDeviceTool *tool; GdkTimeCoord hist; int i; g_assert (GDK_IS_EVENT_TYPE (event, GDK_MOTION_NOTIFY)); g_assert (GDK_IS_EVENT_TYPE (history_event, GDK_MOTION_NOTIFY)); if (G_UNLIKELY (!self->history)) self->history = g_array_new (FALSE, TRUE, sizeof (GdkTimeCoord)); if (((GdkMotionEvent *)history_event)->history) { GArray *history = ((GdkMotionEvent *)history_event)->history; g_array_append_vals (self->history, history->data, history->len); } tool = gdk_event_get_device_tool (history_event); memset (&hist, 0, sizeof (GdkTimeCoord)); hist.time = gdk_event_get_time (history_event); if (tool) { hist.flags = gdk_device_tool_get_axes (tool); for (i = GDK_AXIS_X; i < GDK_AXIS_LAST; i++) gdk_event_get_axis (history_event, i, &hist.axes[i]); } /* GdkTimeCoord has no dedicated fields to record event position. For plain * pointer events, and for tools which don't report GDK_AXIS_X/GDK_AXIS_Y * on their own, we surface the position using the X and Y input axes. */ if (!(hist.flags & GDK_AXIS_FLAG_X) || !(hist.flags & GDK_AXIS_FLAG_Y)) { hist.flags |= GDK_AXIS_FLAG_X | GDK_AXIS_FLAG_Y; gdk_event_get_position (history_event, &hist.axes[GDK_AXIS_X], &hist.axes[GDK_AXIS_Y]); } g_array_append_val (self->history, hist); } /* If the last N events in the event queue are motion notify * events for the same surface, drop all but the last. * * If a button is held down or the device has a tool, then * we give the remaining events a history containing the N-1 * dropped events. */ void _gdk_event_queue_handle_motion_compression (GdkDisplay *display) { GList *tmp_list; GList *pending_motions = NULL; GdkSurface *pending_motion_surface = NULL; GdkDevice *pending_motion_device = NULL; GdkEvent *last_motion = NULL; tmp_list = g_queue_peek_tail_link (&display->queued_events); while (tmp_list) { GdkEvent *event = tmp_list->data; if (event->flags & GDK_EVENT_PENDING) break; if (event->event_type != GDK_MOTION_NOTIFY) break; if (pending_motion_surface != NULL && pending_motion_surface != event->surface) break; if (pending_motion_device != NULL && pending_motion_device != event->device) break; if (!last_motion) last_motion = event; pending_motion_surface = event->surface; pending_motion_device = event->device; pending_motions = tmp_list; tmp_list = tmp_list->prev; } while (pending_motions && pending_motions->next != NULL) { GList *next = pending_motions->next; if (last_motion != NULL) { if ((gdk_event_get_modifier_state (last_motion) & (GDK_BUTTON1_MASK | GDK_BUTTON2_MASK | GDK_BUTTON3_MASK | GDK_BUTTON4_MASK | GDK_BUTTON5_MASK)) || gdk_event_get_device_tool (last_motion) != NULL) gdk_motion_event_push_history (last_motion, pending_motions->data); } gdk_event_unref (pending_motions->data); g_queue_delete_link (&display->queued_events, pending_motions); pending_motions = next; } } void _gdk_event_queue_flush (GdkDisplay *display) { while (TRUE) { GdkEvent *event; event = (GdkEvent *)g_queue_pop_head (&display->queued_events); if (!event) return; event->flags |= GDK_EVENT_FLUSHED; _gdk_event_emit (event); gdk_event_unref (event); } } /** * gdk_event_ref: * @event: a `GdkEvent` * * Increase the ref count of @event. * * Returns: (transfer full): @event */ GdkEvent * gdk_event_ref (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), NULL); g_ref_count_inc (&event->ref_count); return event; } /** * gdk_event_unref: * @event: (transfer full): a `GdkEvent` * * Decrease the ref count of @event. * * If the last reference is dropped, the structure is freed. */ void gdk_event_unref (GdkEvent *event) { g_return_if_fail (GDK_IS_EVENT (event)); if (g_ref_count_dec (&event->ref_count)) GDK_EVENT_GET_CLASS (event)->finalize (event); } /** * gdk_event_get_pointer_emulated: * @event: a `GdkEvent` * * Returns whether this event is an 'emulated' pointer event. * * Emulated pointer events typically originate from a touch events. * * Returns: %TRUE if this event is emulated */ gboolean gdk_event_get_pointer_emulated (GdkEvent *event) { switch ((int) event->event_type) { case GDK_TOUCH_BEGIN: case GDK_TOUCH_END: case GDK_TOUCH_UPDATE: case GDK_TOUCH_CANCEL: { GdkTouchEvent *tevent = (GdkTouchEvent *) event; return tevent->pointer_emulated; } case GDK_SCROLL: case GDK_SCROLL_SMOOTH: { GdkScrollEvent *sevent = (GdkScrollEvent *) event; return sevent->pointer_emulated; } default: break; } return FALSE; } /** * gdk_event_get_axis: * @event: a `GdkEvent` * @axis_use: the axis use to look for * @value: (out): location to store the value found * * Extract the axis value for a particular axis use from * an event structure. * * To find out which axes are used, use [method@Gdk.DeviceTool.get_axes] * on the device tool returned by [method@Gdk.Event.get_device_tool]. * * Returns: %TRUE if the specified axis was found, otherwise %FALSE */ gboolean gdk_event_get_axis (GdkEvent *event, GdkAxisUse axis_use, double *value) { double *axes; guint n_axes; g_return_val_if_fail (GDK_IS_EVENT (event), FALSE); if (axis_use == GDK_AXIS_X || axis_use == GDK_AXIS_Y) { double x, y; if (!gdk_event_get_position (event, &x, &y)) return FALSE; if (axis_use == GDK_AXIS_X && value != NULL) *value = x; if (axis_use == GDK_AXIS_Y && value != NULL) *value = y; return TRUE; } if (!gdk_event_get_axes (event, &axes, &n_axes)) return FALSE; *value = axes[axis_use]; return TRUE; } /** * gdk_event_triggers_context_menu: * @event: a `GdkEvent`, currently only button events are meaningful values * * Returns whether a `GdkEvent` should trigger a context menu, * according to platform conventions. * * The right mouse button typically triggers context menus. * * This function should always be used instead of simply checking for * event->button == %GDK_BUTTON_SECONDARY. * * Returns: %TRUE if the event should trigger a context menu. */ gboolean gdk_event_triggers_context_menu (GdkEvent *event) { g_return_val_if_fail (event != NULL, FALSE); if (event->event_type == GDK_BUTTON_PRESS) { GdkButtonEvent *bevent = (GdkButtonEvent *) event; g_return_val_if_fail (GDK_IS_SURFACE (event->surface), FALSE); if (bevent->button == GDK_BUTTON_SECONDARY && ! (bevent->state & (GDK_BUTTON1_MASK | GDK_BUTTON2_MASK))) return TRUE; } return FALSE; } static gboolean gdk_events_get_axis_distances (GdkEvent *event1, GdkEvent *event2, double *x_distance, double *y_distance, double *distance) { double x1, x2, y1, y2; double xd, yd; if (!gdk_event_get_position (event1, &x1, &y1) || !gdk_event_get_position (event2, &x2, &y2)) return FALSE; xd = x2 - x1; yd = y2 - y1; if (x_distance) *x_distance = xd; if (y_distance) *y_distance = yd; if (distance) *distance = sqrt ((xd * xd) + (yd * yd)); return TRUE; } /** * gdk_events_get_distance: * @event1: first `GdkEvent` * @event2: second `GdkEvent` * @distance: (out): return location for the distance * * Returns the distance between the event locations. * * This assumes that both events have X/Y information. * If not, this function returns %FALSE. * * Returns: %TRUE if the distance could be calculated. **/ gboolean gdk_events_get_distance (GdkEvent *event1, GdkEvent *event2, double *distance) { return gdk_events_get_axis_distances (event1, event2, NULL, NULL, distance); } /** * gdk_events_get_angle: * @event1: first `GdkEvent` * @event2: second `GdkEvent` * @angle: (out): return location for the relative angle between both events * * Returns the relative angle from @event1 to @event2. * * The relative angle is the angle between the X axis and the line * through both events' positions. The rotation direction for positive * angles is from the positive X axis towards the positive Y axis. * * This assumes that both events have X/Y information. * If not, this function returns %FALSE. * * Returns: %TRUE if the angle could be calculated. */ gboolean gdk_events_get_angle (GdkEvent *event1, GdkEvent *event2, double *angle) { double x_distance, y_distance, distance; if (!gdk_events_get_axis_distances (event1, event2, &x_distance, &y_distance, &distance)) return FALSE; if (angle) { *angle = atan2 (x_distance, y_distance); /* Invert angle */ *angle = (2 * G_PI) - *angle; /* Shift it 90° */ *angle += G_PI / 2; /* And constraint it to 0°-360° */ *angle = fmod (*angle, 2 * G_PI); } return TRUE; } /** * gdk_events_get_center: * @event1: first `GdkEvent` * @event2: second `GdkEvent` * @x: (out): return location for the X coordinate of the center * @y: (out): return location for the Y coordinate of the center * * Returns the point halfway between the events' positions. * * This assumes that both events have X/Y information. * If not, this function returns %FALSE. * * Returns: %TRUE if the center could be calculated. */ gboolean gdk_events_get_center (GdkEvent *event1, GdkEvent *event2, double *x, double *y) { double x1, x2, y1, y2; if (!gdk_event_get_position (event1, &x1, &y1) || !gdk_event_get_position (event2, &x2, &y2)) return FALSE; if (x) *x = (x2 + x1) / 2; if (y) *y = (y2 + y1) / 2; return TRUE; } static GdkEventSequence * gdk_event_sequence_copy (GdkEventSequence *sequence) { return sequence; } static void gdk_event_sequence_free (GdkEventSequence *sequence) { /* Nothing to free here */ } G_DEFINE_BOXED_TYPE (GdkEventSequence, gdk_event_sequence, gdk_event_sequence_copy, gdk_event_sequence_free) /** * gdk_event_get_axes: * @event: a `GdkEvent` * @axes: (transfer none) (out) (array length=n_axes): the array of values for all axes * @n_axes: (out): the length of array * * Extracts all axis values from an event. * * To find out which axes are used, use [method@Gdk.DeviceTool.get_axes] * on the device tool returned by [method@Gdk.Event.get_device_tool]. * * Returns: %TRUE on success, otherwise %FALSE */ gboolean gdk_event_get_axes (GdkEvent *event, double **axes, guint *n_axes) { g_return_val_if_fail (GDK_IS_EVENT (event), FALSE); return GDK_EVENT_GET_CLASS (event)->get_axes (event, axes, n_axes); } double * gdk_event_dup_axes (GdkEvent *event) { double *axes; guint n_axes; if (gdk_event_get_axes (event, &axes, &n_axes)) { double *axes_copy = g_memdup2 (axes, n_axes * sizeof (double)); return axes_copy; } return NULL; } /** * gdk_event_get_event_type: * @event: a `GdkEvent` * * Retrieves the type of the event. * * Returns: a `GdkEvent`Type */ GdkEventType gdk_event_get_event_type (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), 0); return event->event_type; } /** * gdk_event_get_surface: * @event: a `GdkEvent` * * Extracts the surface associated with an event. * * Returns: (transfer none) (nullable): The `GdkSurface` associated with the event */ GdkSurface * gdk_event_get_surface (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), NULL); return event->surface; } /** * gdk_event_get_seat: * @event: a `GdkEvent` * * Returns the seat that originated the event. * * Returns: (nullable) (transfer none): a `GdkSeat`. */ GdkSeat * gdk_event_get_seat (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), NULL); return event->device ? gdk_device_get_seat (event->device) : NULL; } /** * gdk_event_get_device: * @event: a `GdkEvent`. * * Returns the device of an event. * * Returns: (nullable) (transfer none): a `GdkDevice` */ GdkDevice * gdk_event_get_device (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), NULL); return event->device; } /** * gdk_event_get_device_tool: * @event: a `GdkEvent` * * Returns a `GdkDeviceTool` representing the tool that * caused the event. * * If the was not generated by a device that supports * different tools (such as a tablet), this function will * return %NULL. * * Note: the `GdkDeviceTool` will be constant during * the application lifetime, if settings must be stored * persistently across runs, see [method@Gdk.DeviceTool.get_serial]. * * Returns: (transfer none) (nullable): The current device tool */ GdkDeviceTool * gdk_event_get_device_tool (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), NULL); return GDK_EVENT_GET_CLASS (event)->get_tool (event); } /** * gdk_event_get_time: * @event: a `GdkEvent` * * Returns the timestamp of @event. * * Not all events have timestamps. In that case, this function * returns %GDK_CURRENT_TIME. * * Returns: timestamp field from @event */ guint32 gdk_event_get_time (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), GDK_CURRENT_TIME); return event->time; } /** * gdk_event_get_display: * @event: a `GdkEvent` * * Retrieves the display associated to the @event. * * Returns: (transfer none) (nullable): a `GdkDisplay` */ GdkDisplay * gdk_event_get_display (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), NULL); if (event->surface) return gdk_surface_get_display (event->surface); return NULL; } /** * gdk_event_get_event_sequence: * @event: a `GdkEvent` * * Retuns the event sequence to which the event belongs. * * Related touch events are connected in a sequence. Other * events typically don't have event sequence information. * * Returns: (transfer none): the event sequence that the event belongs to */ GdkEventSequence * gdk_event_get_event_sequence (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), NULL); return GDK_EVENT_GET_CLASS (event)->get_sequence (event); } /** * gdk_event_get_modifier_state: * @event: a `GdkEvent` * * Returns the modifier state field of an event. * * Returns: the modifier state of @event */ GdkModifierType gdk_event_get_modifier_state (GdkEvent *event) { g_return_val_if_fail (GDK_IS_EVENT (event), 0); return GDK_EVENT_GET_CLASS (event)->get_state (event); } /** * gdk_event_get_position: * @event: a `GdkEvent` * @x: (out): location to put event surface x coordinate * @y: (out): location to put event surface y coordinate * * Extract the event surface relative x/y coordinates from an event. */ gboolean gdk_event_get_position (GdkEvent *event, double *x, double *y) { g_return_val_if_fail (GDK_IS_EVENT (event), FALSE); return GDK_EVENT_GET_CLASS (event)->get_position (event, x, y); } /* {{{ GdkButtonEvent */ /** * GdkButtonEvent: * * An event related to a button on a pointer device. */ static void gdk_button_event_finalize (GdkEvent *event) { GdkButtonEvent *self = (GdkButtonEvent *) event; g_clear_object (&self->tool); g_clear_pointer (&self->axes, g_free); GDK_EVENT_SUPER (event)->finalize (event); } static GdkModifierType gdk_button_event_get_state (GdkEvent *event) { GdkButtonEvent *self = (GdkButtonEvent *) event; return self->state; } static gboolean gdk_button_event_get_position (GdkEvent *event, double *x, double *y) { GdkButtonEvent *self = (GdkButtonEvent *) event; *x = self->x; *y = self->y; return TRUE; } static GdkDeviceTool * gdk_button_event_get_tool (GdkEvent *event) { GdkButtonEvent *self = (GdkButtonEvent *) event; return self->tool; } static gboolean gdk_button_event_get_axes (GdkEvent *event, double **axes, guint *n_axes) { GdkButtonEvent *self = (GdkButtonEvent *) event; GdkDevice *source_device = gdk_event_get_device (event); if (source_device == NULL) return FALSE; *axes = self->axes; *n_axes = GDK_AXIS_LAST; return TRUE; } static const GdkEventTypeInfo gdk_button_event_info = { sizeof (GdkButtonEvent), NULL, gdk_button_event_finalize, gdk_button_event_get_state, gdk_button_event_get_position, NULL, gdk_button_event_get_tool, gdk_button_event_get_axes, }; GDK_DEFINE_EVENT_TYPE (GdkButtonEvent, gdk_button_event, &gdk_button_event_info, GDK_EVENT_TYPE_SLOT (GDK_BUTTON_PRESS) GDK_EVENT_TYPE_SLOT (GDK_BUTTON_RELEASE)) GdkEvent * gdk_button_event_new (GdkEventType type, GdkSurface *surface, GdkDevice *device, GdkDeviceTool *tool, guint32 time, GdkModifierType state, guint button, double x, double y, double *axes) { g_return_val_if_fail (type == GDK_BUTTON_PRESS || type == GDK_BUTTON_RELEASE, NULL); GdkButtonEvent *self = gdk_event_alloc (type, surface, device, time); self->tool = tool != NULL ? g_object_ref (tool) : NULL; self->axes = axes; self->state = state; self->button = button; self->x = x; self->y = y; return (GdkEvent *) self; } /** * gdk_button_event_get_button: * @event: (type GdkButtonEvent): a button event * * Extract the button number from a button event. * * Returns: the button of @event **/ guint gdk_button_event_get_button (GdkEvent *event) { GdkButtonEvent *self = (GdkButtonEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_BUTTON_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_BUTTON_RELEASE), 0); return self->button; } /* }}} */ /* {{{ GdkKeyEvent */ /** * GdkKeyEvent: * * An event related to a key-based device. */ static GdkModifierType gdk_key_event_get_state (GdkEvent *event) { GdkKeyEvent *self = (GdkKeyEvent *) event; return self->state; } static const GdkEventTypeInfo gdk_key_event_info = { sizeof (GdkKeyEvent), NULL, NULL, gdk_key_event_get_state, NULL, NULL, NULL, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkKeyEvent, gdk_key_event, &gdk_key_event_info, GDK_EVENT_TYPE_SLOT (GDK_KEY_PRESS) GDK_EVENT_TYPE_SLOT (GDK_KEY_RELEASE)) /*< private > * gdk_key_event_new: * @type: the event type, either %GDK_KEY_PRESS or %GDK_KEY_RELEASE * @surface: the surface of the event * @device: the device related to the event * @time: the event's timestamp * @keycode: the keycode of the event * @state: the modifiers state * @is_modifier: whether the event is a modifiers only event * @translated: the translated key data for the given @state * @no_lock: the translated key data without the given @state * * Creates a new `GdkKeyEvent`. * * Returns: (transfer full) (type GdkKeyEvent): the newly created `GdkEvent` */ GdkEvent * gdk_key_event_new (GdkEventType type, GdkSurface *surface, GdkDevice *device, guint32 time, guint keycode, GdkModifierType state, gboolean is_modifier, GdkTranslatedKey *translated, GdkTranslatedKey *no_lock) { g_return_val_if_fail (type == GDK_KEY_PRESS || type == GDK_KEY_RELEASE, NULL); GdkKeyEvent *self = gdk_event_alloc (type, surface, device, time); GdkEvent *event = (GdkEvent *) self; self->keycode = keycode; self->state = state; self->key_is_modifier = is_modifier; self->translated[0] = *translated; self->translated[1] = *no_lock; return event; } /*< private > * gdk_key_event_get_translated_key: * @event: (type GdkKeyEvent): a key event * @no_lock: whether the translated key should take the event * state into account * * Extracts the translated key from a key event. * * Returns: (transfer none): the translated key */ GdkTranslatedKey * gdk_key_event_get_translated_key (GdkEvent *event, gboolean no_lock) { GdkKeyEvent *self = (GdkKeyEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), NULL); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_KEY_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_KEY_RELEASE), NULL); if (no_lock) return &(self->translated[1]); return &(self->translated[0]); } /** * gdk_key_event_get_keyval: * @event: (type GdkKeyEvent): a key event * * Extracts the keyval from a key event. * * Returns: the keyval of @event */ guint gdk_key_event_get_keyval (GdkEvent *event) { GdkKeyEvent *self = (GdkKeyEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_KEY_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_KEY_RELEASE), 0); return self->translated[0].keyval; } /** * gdk_key_event_get_keycode: * @event: (type GdkKeyEvent): a key event * * Extracts the keycode from a key event. * * Returns: the keycode of @event */ guint gdk_key_event_get_keycode (GdkEvent *event) { GdkKeyEvent *self = (GdkKeyEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_KEY_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_KEY_RELEASE), 0); return self->keycode; } /** * gdk_key_event_get_level: * @event: (type GdkKeyEvent): a key event * * Extracts the shift level from a key event. * * Returns: the shift level of @event */ guint gdk_key_event_get_level (GdkEvent *event) { GdkKeyEvent *self = (GdkKeyEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_KEY_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_KEY_RELEASE), 0); return self->translated[0].level; } /** * gdk_key_event_get_layout: * @event: (type GdkKeyEvent): a key event * * Extracts the layout from a key event. * * Returns: the layout of @event */ guint gdk_key_event_get_layout (GdkEvent *event) { GdkKeyEvent *self = (GdkKeyEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_KEY_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_KEY_RELEASE), 0); return self->translated[0].layout; } /** * gdk_key_event_get_consumed_modifiers: * @event: (type GdkKeyEvent): a key event * * Extracts the consumed modifiers from a key event. * * Returns: the consumed modifiers or @event */ GdkModifierType gdk_key_event_get_consumed_modifiers (GdkEvent *event) { GdkKeyEvent *self = (GdkKeyEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_KEY_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_KEY_RELEASE), 0); return self->translated[0].consumed; } /** * gdk_key_event_is_modifier: * @event: (type GdkKeyEvent): a key event * * Extracts whether the key event is for a modifier key. * * Returns: %TRUE if the @event is for a modifier key */ gboolean gdk_key_event_is_modifier (GdkEvent *event) { GdkKeyEvent *self = (GdkKeyEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_KEY_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_KEY_RELEASE), FALSE); return self->key_is_modifier; } static gboolean keyval_in_group (GdkKeymap *keymap, guint keyval, int group) { GdkKeymapKey *keys; guint n_keys; gdk_keymap_get_cached_entries_for_keyval (keymap, keyval, &keys, &n_keys); for (int i = 0; i < n_keys; i++) { if (keys[i].group == group) return TRUE; } return FALSE; } /** * gdk_key_event_matches: * @event: (type GdkKeyEvent): a key `GdkEvent` * @keyval: the keyval to match * @modifiers: the modifiers to match * * Matches a key event against a keyval and modifiers. * * This is typically used to trigger keyboard shortcuts such as Ctrl-C. * * Partial matches are possible where the combination matches * if the currently active group is ignored. * * Note that we ignore Caps Lock for matching. * * Returns: a `GdkKeyMatch` value describing whether @event matches */ GdkKeyMatch gdk_key_event_matches (GdkEvent *event, guint keyval, GdkModifierType modifiers) { GdkKeyEvent *self = (GdkKeyEvent *) event; GdkKeymap *keymap; guint keycode; GdkModifierType state; guint ev_keyval; int layout; int level; GdkModifierType consumed_modifiers; GdkModifierType shift_group_mask; gboolean group_mod_is_accel_mod = FALSE; const GdkModifierType mask = GDK_CONTROL_MASK | GDK_SHIFT_MASK | GDK_ALT_MASK | GDK_SUPER_MASK | GDK_HYPER_MASK | GDK_META_MASK; g_return_val_if_fail (GDK_IS_EVENT (event), GDK_KEY_MATCH_NONE); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_KEY_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_KEY_RELEASE), GDK_KEY_MATCH_NONE); keycode = self->keycode; state = self->state & ~GDK_LOCK_MASK; ev_keyval = self->translated[1].keyval; layout = self->translated[1].layout; level = self->translated[1].level; consumed_modifiers = self->translated[1].consumed; /* if the group-toggling modifier is part of the default accel mod * mask, and it is active, disable it for matching * * FIXME: get shift group mask from backends */ shift_group_mask = 0; if (mask & shift_group_mask) group_mod_is_accel_mod = TRUE; if ((modifiers & ~consumed_modifiers & mask) == (state & ~consumed_modifiers & mask)) { /* modifier match */ GdkKeymapKey *keys; guint n_keys; int i; guint key; /* Shift gets consumed and applied for the event, * so apply it to our keyval to match */ key = keyval; if (modifiers & GDK_SHIFT_MASK) { if (key == GDK_KEY_Tab) key = GDK_KEY_ISO_Left_Tab; else key = gdk_keyval_to_upper (key); } if (ev_keyval == key && /* exact match */ (!group_mod_is_accel_mod || (state & shift_group_mask) == (modifiers & shift_group_mask))) { return GDK_KEY_MATCH_EXACT; } keymap = gdk_display_get_keymap (gdk_event_get_display (event)); gdk_keymap_get_cached_entries_for_keyval (keymap, keyval, &keys, &n_keys); for (i = 0; i < n_keys; i++) { if (keys[i].keycode == keycode && keys[i].level == level && /* Only match for group if it's an accel mod */ (keys[i].group == layout || (!group_mod_is_accel_mod && !keyval_in_group (keymap, keyval, layout)))) return GDK_KEY_MATCH_PARTIAL; } } return GDK_KEY_MATCH_NONE; } /** * gdk_key_event_get_match: * @event: (type GdkKeyEvent): a key `GdkEvent` * @keyval: (out): return location for a keyval * @modifiers: (out): return location for modifiers * * Gets a keyval and modifier combination that will match * the event. * * See [method@Gdk.KeyEvent.matches]. * * Returns: %TRUE on success */ gboolean gdk_key_event_get_match (GdkEvent *event, guint *keyval, GdkModifierType *modifiers) { GdkKeyEvent *self = (GdkKeyEvent *) event; guint key; guint accel_key; GdkModifierType accel_mods; GdkModifierType consumed_modifiers; const GdkModifierType mask = GDK_CONTROL_MASK | GDK_SHIFT_MASK | GDK_ALT_MASK | GDK_SUPER_MASK | GDK_HYPER_MASK | GDK_META_MASK; g_return_val_if_fail (GDK_IS_EVENT (event), FALSE); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_KEY_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_KEY_RELEASE), FALSE); accel_key = self->translated[1].keyval; accel_mods = self->state; consumed_modifiers = self->translated[1].consumed; if (accel_key == GDK_KEY_Sys_Req && (accel_mods & GDK_ALT_MASK) != 0) { /* HACK: we don't want to use SysRq as a keybinding (but we do * want Alt+Print), so we avoid translation from Alt+Print to SysRq */ *keyval = GDK_KEY_Print; *modifiers = accel_mods & mask; return TRUE; } key = gdk_keyval_to_lower (accel_key); if (key == GDK_KEY_ISO_Left_Tab) key = GDK_KEY_Tab; accel_mods &= mask & ~consumed_modifiers; if (accel_key != key) accel_mods |= GDK_SHIFT_MASK; *keyval = key; *modifiers = accel_mods; return TRUE; } /* }}} */ /* {{{ GdkTouchEvent */ /** * GdkTouchEvent: * * An event related to a touch-based device. */ static void gdk_touch_event_finalize (GdkEvent *event) { GdkTouchEvent *self = (GdkTouchEvent *) event; g_clear_pointer (&self->axes, g_free); GDK_EVENT_SUPER (event)->finalize (event); } static GdkModifierType gdk_touch_event_get_state (GdkEvent *event) { GdkTouchEvent *self = (GdkTouchEvent *) event; return self->state; } static gboolean gdk_touch_event_get_position (GdkEvent *event, double *x, double *y) { GdkTouchEvent *self = (GdkTouchEvent *) event; *x = self->x; *y = self->y; return TRUE; } static GdkEventSequence * gdk_touch_event_get_sequence (GdkEvent *event) { GdkTouchEvent *self = (GdkTouchEvent *) event; return self->sequence; } static gboolean gdk_touch_event_get_axes (GdkEvent *event, double **axes, guint *n_axes) { GdkTouchEvent *self = (GdkTouchEvent *) event; GdkDevice *source_device = gdk_event_get_device (event); if (source_device == NULL) return FALSE; *axes = self->axes; *n_axes = GDK_AXIS_LAST; return TRUE; } static const GdkEventTypeInfo gdk_touch_event_info = { sizeof (GdkTouchEvent), NULL, gdk_touch_event_finalize, gdk_touch_event_get_state, gdk_touch_event_get_position, gdk_touch_event_get_sequence, NULL, gdk_touch_event_get_axes, }; GDK_DEFINE_EVENT_TYPE (GdkTouchEvent, gdk_touch_event, &gdk_touch_event_info, GDK_EVENT_TYPE_SLOT (GDK_TOUCH_BEGIN) GDK_EVENT_TYPE_SLOT (GDK_TOUCH_END) GDK_EVENT_TYPE_SLOT (GDK_TOUCH_UPDATE) GDK_EVENT_TYPE_SLOT (GDK_TOUCH_CANCEL)) GdkEvent * gdk_touch_event_new (GdkEventType type, GdkEventSequence *sequence, GdkSurface *surface, GdkDevice *device, guint32 time, GdkModifierType state, double x, double y, double *axes, gboolean emulating) { GdkTouchEvent *self; g_return_val_if_fail (type == GDK_TOUCH_BEGIN || type == GDK_TOUCH_END || type == GDK_TOUCH_UPDATE || type == GDK_TOUCH_CANCEL, NULL); self = gdk_event_alloc (type, surface, device, time); self->sequence = sequence; self->state = state; self->x = x; self->y = y; self->axes = axes; self->touch_emulating = emulating; self->pointer_emulated = emulating; return (GdkEvent *) self; } /** * gdk_touch_event_get_emulating_pointer: * @event: (type GdkTouchEvent): a touch event * * Extracts whether a touch event is emulating a pointer event. * * Returns: %TRUE if @event is emulating **/ gboolean gdk_touch_event_get_emulating_pointer (GdkEvent *event) { GdkTouchEvent *self = (GdkTouchEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), FALSE); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_TOUCH_BEGIN) || GDK_IS_EVENT_TYPE (event, GDK_TOUCH_UPDATE) || GDK_IS_EVENT_TYPE (event, GDK_TOUCH_END) || GDK_IS_EVENT_TYPE (event, GDK_TOUCH_CANCEL), FALSE); return self->touch_emulating; } /* }}} */ /* {{{ GdkCrossingEvent */ /** * GdkCrossingEvent: * * An event caused by a pointing device moving between surfaces. */ static void gdk_crossing_event_finalize (GdkEvent *event) { GdkCrossingEvent *self = (GdkCrossingEvent *) event; g_clear_object (&self->child_surface); GDK_EVENT_SUPER (self)->finalize (event); } static GdkModifierType gdk_crossing_event_get_state (GdkEvent *event) { GdkCrossingEvent *self = (GdkCrossingEvent *) event; return self->state; } static gboolean gdk_crossing_event_get_position (GdkEvent *event, double *x, double *y) { GdkCrossingEvent *self = (GdkCrossingEvent *) event; *x = self->x; *y = self->y; return TRUE; } static const GdkEventTypeInfo gdk_crossing_event_info = { sizeof (GdkCrossingEvent), NULL, gdk_crossing_event_finalize, gdk_crossing_event_get_state, gdk_crossing_event_get_position, NULL, NULL, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkCrossingEvent, gdk_crossing_event, &gdk_crossing_event_info, GDK_EVENT_TYPE_SLOT (GDK_ENTER_NOTIFY) GDK_EVENT_TYPE_SLOT (GDK_LEAVE_NOTIFY)) GdkEvent * gdk_crossing_event_new (GdkEventType type, GdkSurface *surface, GdkDevice *device, guint32 time, GdkModifierType state, double x, double y, GdkCrossingMode mode, GdkNotifyType detail) { GdkCrossingEvent *self; g_return_val_if_fail (type == GDK_ENTER_NOTIFY || type == GDK_LEAVE_NOTIFY, NULL); self = gdk_event_alloc (type, surface, device, time); self->state = state; self->x = x; self->y = y; self->mode = mode; self->detail = detail; return (GdkEvent *) self; } /** * gdk_crossing_event_get_mode: * @event: (type GdkCrossingEvent): a crossing event * * Extracts the crossing mode from a crossing event. * * Returns: the mode of @event */ GdkCrossingMode gdk_crossing_event_get_mode (GdkEvent *event) { GdkCrossingEvent *self = (GdkCrossingEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_ENTER_NOTIFY) || GDK_IS_EVENT_TYPE (event, GDK_LEAVE_NOTIFY), 0); return self->mode; } /** * gdk_crossing_event_get_focus: * @event: (type GdkCrossingEvent): a crossing event * * Checks if the @event surface is the focus surface. * * Returns: %TRUE if the surface is the focus surface */ gboolean gdk_crossing_event_get_focus (GdkEvent *event) { GdkCrossingEvent *self = (GdkCrossingEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), FALSE); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_ENTER_NOTIFY) || GDK_IS_EVENT_TYPE (event, GDK_LEAVE_NOTIFY), FALSE); return self->focus; } /** * gdk_crossing_event_get_detail: * @event: (type GdkCrossingEvent): a crossing event * * Extracts the notify detail from a crossing event. * * Returns: the notify detail of @event */ GdkNotifyType gdk_crossing_event_get_detail (GdkEvent *event) { GdkCrossingEvent *self = (GdkCrossingEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_ENTER_NOTIFY) || GDK_IS_EVENT_TYPE (event, GDK_LEAVE_NOTIFY), 0); return self->detail; } /* }}} */ /* {{{ GdkDeleteEvent */ /** * GdkDeleteEvent: * * An event related to closing a top-level surface. */ static const GdkEventTypeInfo gdk_delete_event_info = { sizeof (GdkDeleteEvent), NULL, NULL, NULL, NULL, NULL, NULL, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkDeleteEvent, gdk_delete_event, &gdk_delete_event_info, GDK_EVENT_TYPE_SLOT (GDK_DELETE)) GdkEvent * gdk_delete_event_new (GdkSurface *surface) { return gdk_event_alloc (GDK_DELETE, surface, NULL, GDK_CURRENT_TIME); } /* }}} */ /* {{{ GdkFocusEvent */ /** * GdkFocusEvent: * * An event related to a keyboard focus change. */ static const GdkEventTypeInfo gdk_focus_event_info = { sizeof (GdkFocusEvent), NULL, NULL, NULL, NULL, NULL, NULL, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkFocusEvent, gdk_focus_event, &gdk_focus_event_info, GDK_EVENT_TYPE_SLOT (GDK_FOCUS_CHANGE)) GdkEvent * gdk_focus_event_new (GdkSurface *surface, GdkDevice *device, gboolean focus_in) { GdkFocusEvent *self = gdk_event_alloc (GDK_FOCUS_CHANGE, surface, device, GDK_CURRENT_TIME); self->focus_in = focus_in; return (GdkEvent *) self; } /** * gdk_focus_event_get_in: * @event: (type GdkFocusEvent): a focus change event * * Extracts whether this event is about focus entering or * leaving the surface. * * Returns: %TRUE of the focus is entering */ gboolean gdk_focus_event_get_in (GdkEvent *event) { GdkFocusEvent *self = (GdkFocusEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), FALSE); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_FOCUS_CHANGE), FALSE); return self->focus_in; } /* }}} */ /* {{{ GdkScrollEvent */ /** * GdkScrollEvent: * * An event related to a scrolling motion. */ static void gdk_scroll_event_finalize (GdkEvent *event) { GdkScrollEvent *self = (GdkScrollEvent *) event; g_clear_object (&self->tool); if (self->history) g_array_free (self->history, TRUE); GDK_EVENT_SUPER (self)->finalize (event); } static GdkModifierType gdk_scroll_event_get_state (GdkEvent *event) { GdkScrollEvent *self = (GdkScrollEvent *) event; return self->state; } static GdkDeviceTool * gdk_scroll_event_get_tool (GdkEvent *event) { GdkScrollEvent *self = (GdkScrollEvent *) event; return self->tool; } static const GdkEventTypeInfo gdk_scroll_event_info = { sizeof (GdkScrollEvent), NULL, gdk_scroll_event_finalize, gdk_scroll_event_get_state, NULL, NULL, gdk_scroll_event_get_tool, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkScrollEvent, gdk_scroll_event, &gdk_scroll_event_info, GDK_EVENT_TYPE_SLOT (GDK_SCROLL)) GdkEvent * gdk_scroll_event_new (GdkSurface *surface, GdkDevice *device, GdkDeviceTool *tool, guint32 time, GdkModifierType state, double delta_x, double delta_y, gboolean is_stop, GdkScrollUnit unit) { GdkScrollEvent *self = gdk_event_alloc (GDK_SCROLL, surface, device, time); self->tool = tool != NULL ? g_object_ref (tool) : NULL; self->state = state; self->direction = GDK_SCROLL_SMOOTH; self->delta_x = delta_x; self->delta_y = delta_y; self->is_stop = is_stop; self->unit = unit; return (GdkEvent *) self; } GdkEvent * gdk_scroll_event_new_discrete (GdkSurface *surface, GdkDevice *device, GdkDeviceTool *tool, guint32 time, GdkModifierType state, GdkScrollDirection direction, gboolean emulated) { GdkScrollEvent *self = gdk_event_alloc (GDK_SCROLL, surface, device, time); self->tool = tool != NULL ? g_object_ref (tool) : NULL; self->state = state; self->direction = direction; self->pointer_emulated = emulated; self->unit = GDK_SCROLL_UNIT_WHEEL; return (GdkEvent *) self; } /** * gdk_scroll_event_get_direction: * @event: (type GdkScrollEvent): a scroll event * * Extracts the direction of a scroll event. * * Returns: the scroll direction of @event */ GdkScrollDirection gdk_scroll_event_get_direction (GdkEvent *event) { GdkScrollEvent *self = (GdkScrollEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_SCROLL), 0); return self->direction; } /** * gdk_scroll_event_get_deltas: * @event: (type GdkScrollEvent): a scroll event * @delta_x: (out): return location for x scroll delta * @delta_y: (out): return location for y scroll delta * * Extracts the scroll deltas of a scroll event. * * The deltas will be zero unless the scroll direction * is %GDK_SCROLL_SMOOTH. * * For the representation unit of these deltas, see * [method@Gdk.ScrollEvent.get_unit]. */ void gdk_scroll_event_get_deltas (GdkEvent *event, double *delta_x, double *delta_y) { GdkScrollEvent *self = (GdkScrollEvent *) event; g_return_if_fail (GDK_IS_EVENT (event)); g_return_if_fail (GDK_IS_EVENT_TYPE (event, GDK_SCROLL)); *delta_x = self->delta_x; *delta_y = self->delta_y; } /** * gdk_scroll_event_is_stop: * @event: (type GdkScrollEvent): a scroll event * * Check whether a scroll event is a stop scroll event. * * Scroll sequences with smooth scroll information may provide * a stop scroll event once the interaction with the device finishes, * e.g. by lifting a finger. This stop scroll event is the signal * that a widget may trigger kinetic scrolling based on the current * velocity. * * Stop scroll events always have a delta of 0/0. * * Returns: %TRUE if the event is a scroll stop event */ gboolean gdk_scroll_event_is_stop (GdkEvent *event) { GdkScrollEvent *self = (GdkScrollEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), FALSE); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_SCROLL), FALSE); return self->is_stop; } /** * gdk_scroll_event_get_unit: * @event: (type GdkScrollEvent): a scroll event. * * Extracts the scroll delta unit of a scroll event. * * The unit will always be %GDK_SCROLL_UNIT_WHEEL if the scroll direction is not * %GDK_SCROLL_SMOOTH. * * Returns: the scroll unit. * * Since: 4.8 */ GdkScrollUnit gdk_scroll_event_get_unit (GdkEvent *event) { GdkScrollEvent *self = (GdkScrollEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), GDK_SCROLL_UNIT_WHEEL); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_SCROLL), GDK_SCROLL_UNIT_WHEEL); return self->unit; } /* }}} */ /* {{{ GdkTouchpadEvent */ /** * GdkTouchpadEvent: * * An event related to a gesture on a touchpad device. * * Unlike touchscreens, where the windowing system sends basic * sequences of begin, update, end events, and leaves gesture * recognition to the clients, touchpad gestures are typically * processed by the system, resulting in these events. */ static GdkModifierType gdk_touchpad_event_get_state (GdkEvent *event) { GdkTouchpadEvent *self = (GdkTouchpadEvent *) event; return self->state; } static GdkEventSequence * gdk_touchpad_event_get_sequence (GdkEvent *event) { GdkTouchpadEvent *self = (GdkTouchpadEvent *) event; return self->sequence; } static gboolean gdk_touchpad_event_get_position (GdkEvent *event, double *x, double *y) { GdkTouchpadEvent *self = (GdkTouchpadEvent *) event; *x = self->x; *y = self->y; return TRUE; } static const GdkEventTypeInfo gdk_touchpad_event_info = { sizeof (GdkTouchpadEvent), NULL, NULL, gdk_touchpad_event_get_state, gdk_touchpad_event_get_position, gdk_touchpad_event_get_sequence, NULL, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkTouchpadEvent, gdk_touchpad_event, &gdk_touchpad_event_info, GDK_EVENT_TYPE_SLOT (GDK_TOUCHPAD_SWIPE) GDK_EVENT_TYPE_SLOT (GDK_TOUCHPAD_PINCH) GDK_EVENT_TYPE_SLOT (GDK_TOUCHPAD_HOLD)) GdkEvent * gdk_touchpad_event_new_swipe (GdkSurface *surface, GdkEventSequence *sequence, GdkDevice *device, guint32 time, GdkModifierType state, GdkTouchpadGesturePhase phase, double x, double y, int n_fingers, double dx, double dy) { GdkTouchpadEvent *self; g_return_val_if_fail (phase == GDK_TOUCHPAD_GESTURE_PHASE_BEGIN || phase == GDK_TOUCHPAD_GESTURE_PHASE_END || phase == GDK_TOUCHPAD_GESTURE_PHASE_UPDATE || phase == GDK_TOUCHPAD_GESTURE_PHASE_CANCEL, NULL); self = gdk_event_alloc (GDK_TOUCHPAD_SWIPE, surface, device, time); self->sequence = sequence; self->state = state; self->phase = phase; self->x = x; self->y = y; self->dx = dx; self->dy = dy; self->n_fingers = n_fingers; return (GdkEvent *) self; } GdkEvent * gdk_touchpad_event_new_pinch (GdkSurface *surface, GdkEventSequence *sequence, GdkDevice *device, guint32 time, GdkModifierType state, GdkTouchpadGesturePhase phase, double x, double y, int n_fingers, double dx, double dy, double scale, double angle_delta) { GdkTouchpadEvent *self; g_return_val_if_fail (phase == GDK_TOUCHPAD_GESTURE_PHASE_BEGIN || phase == GDK_TOUCHPAD_GESTURE_PHASE_END || phase == GDK_TOUCHPAD_GESTURE_PHASE_UPDATE || phase == GDK_TOUCHPAD_GESTURE_PHASE_CANCEL, NULL); self = gdk_event_alloc (GDK_TOUCHPAD_PINCH, surface, device, time); self->sequence = sequence; self->state = state; self->phase = phase; self->x = x; self->y = y; self->dx = dx; self->dy = dy; self->n_fingers = n_fingers; self->scale = scale; self->angle_delta = angle_delta; return (GdkEvent *) self; } GdkEvent * gdk_touchpad_event_new_hold (GdkSurface *surface, GdkDevice *device, guint32 time, GdkModifierType state, GdkTouchpadGesturePhase phase, double x, double y, int n_fingers) { GdkTouchpadEvent *self = gdk_event_alloc (GDK_TOUCHPAD_HOLD, surface, device, time); self->state = state; self->phase = phase; self->x = x; self->y = y; self->n_fingers = n_fingers; return (GdkEvent *) self; } /** * gdk_touchpad_event_get_gesture_phase: * @event: (type GdkTouchpadEvent): a touchpad event * * Extracts the touchpad gesture phase from a touchpad event. * * Returns: the gesture phase of @event **/ GdkTouchpadGesturePhase gdk_touchpad_event_get_gesture_phase (GdkEvent *event) { GdkTouchpadEvent *self = (GdkTouchpadEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_PINCH) || GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_SWIPE) || GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_HOLD), 0); return self->phase; } /** * gdk_touchpad_event_get_n_fingers: * @event: (type GdkTouchpadEvent): a touchpad event * * Extracts the number of fingers from a touchpad event. * * Returns: the number of fingers for @event **/ guint gdk_touchpad_event_get_n_fingers (GdkEvent *event) { GdkTouchpadEvent *self = (GdkTouchpadEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_PINCH) || GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_SWIPE) || GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_HOLD), 0); return self->n_fingers; } /** * gdk_touchpad_event_get_deltas: * @event: (type GdkTouchpadEvent): a touchpad event * @dx: (out): return location for x * @dy: (out): return location for y * * Extracts delta information from a touchpad event. */ void gdk_touchpad_event_get_deltas (GdkEvent *event, double *dx, double *dy) { GdkTouchpadEvent *self = (GdkTouchpadEvent *) event; g_return_if_fail (GDK_IS_EVENT (event)); g_return_if_fail (GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_PINCH) || GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_SWIPE)); *dx = self->dx; *dy = self->dy; } /** * gdk_touchpad_event_get_pinch_angle_delta: * @event: (type GdkTouchpadEvent): a touchpad pinch event * * Extracts the angle delta from a touchpad pinch event. * * Returns: the angle delta of @event */ double gdk_touchpad_event_get_pinch_angle_delta (GdkEvent *event) { GdkTouchpadEvent *self = (GdkTouchpadEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0.0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_PINCH), 0.0); return self->angle_delta; } /** * gdk_touchpad_event_get_pinch_scale: * @event: (type GdkTouchpadEvent): a touchpad pinch event * * Extracts the scale from a touchpad pinch event. * * Returns: the scale of @event **/ double gdk_touchpad_event_get_pinch_scale (GdkEvent *event) { GdkTouchpadEvent *self = (GdkTouchpadEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0.0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_TOUCHPAD_PINCH), 0.0); return self->scale; } /* }}} */ /* {{{ GdkPadEvent */ /** * GdkPadEvent: * * An event related to a pad-based device. */ static const GdkEventTypeInfo gdk_pad_event_info = { sizeof (GdkPadEvent), NULL, NULL, NULL, NULL, NULL, NULL, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkPadEvent, gdk_pad_event, &gdk_pad_event_info, GDK_EVENT_TYPE_SLOT (GDK_PAD_BUTTON_PRESS) GDK_EVENT_TYPE_SLOT (GDK_PAD_BUTTON_RELEASE) GDK_EVENT_TYPE_SLOT (GDK_PAD_RING) GDK_EVENT_TYPE_SLOT (GDK_PAD_STRIP) GDK_EVENT_TYPE_SLOT (GDK_PAD_GROUP_MODE)) GdkEvent * gdk_pad_event_new_ring (GdkSurface *surface, GdkDevice *device, guint32 time, guint group, guint index, guint mode, double value) { GdkPadEvent *self = gdk_event_alloc (GDK_PAD_RING, surface, device, time); self->group = group; self->index = index; self->mode = mode; self->value = value; return (GdkEvent *) self; } GdkEvent * gdk_pad_event_new_strip (GdkSurface *surface, GdkDevice *device, guint32 time, guint group, guint index, guint mode, double value) { GdkPadEvent *self = gdk_event_alloc (GDK_PAD_STRIP, surface, device, time); self->group = group; self->index = index; self->mode = mode; self->value = value; return (GdkEvent *) self; } GdkEvent * gdk_pad_event_new_button (GdkEventType type, GdkSurface *surface, GdkDevice *device, guint32 time, guint group, guint button, guint mode) { GdkPadEvent *self; g_return_val_if_fail (type == GDK_PAD_BUTTON_PRESS || type == GDK_PAD_BUTTON_RELEASE, NULL); self = gdk_event_alloc (type, surface, device, time); self->group = group; self->button = button; self->mode = mode; return (GdkEvent *) self; } GdkEvent * gdk_pad_event_new_group_mode (GdkSurface *surface, GdkDevice *device, guint32 time, guint group, guint mode) { GdkPadEvent *self = gdk_event_alloc (GDK_PAD_GROUP_MODE, surface, device, time); self->group = group; self->mode = mode; return (GdkEvent *) self; } /** * gdk_pad_event_get_button: * @event: (type GdkPadEvent): a pad button event * * Extracts information about the pressed button from * a pad event. * * Returns: the button of @event */ guint gdk_pad_event_get_button (GdkEvent *event) { GdkPadEvent *self = (GdkPadEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), 0); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_PAD_BUTTON_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_PAD_BUTTON_RELEASE), 0); return self->button; } /** * gdk_pad_event_get_axis_value: * @event: (type GdkPadEvent): a pad strip or ring event * @index: (out): Return location for the axis index * @value: (out): Return location for the axis value * * Extracts the information from a pad strip or ring event. */ void gdk_pad_event_get_axis_value (GdkEvent *event, guint *index, double *value) { GdkPadEvent *self = (GdkPadEvent *) event; g_return_if_fail (GDK_IS_EVENT (event)); g_return_if_fail (GDK_IS_EVENT_TYPE (event, GDK_PAD_RING) || GDK_IS_EVENT_TYPE (event, GDK_PAD_STRIP)); *index = self->index; *value = self->value; } /** * gdk_pad_event_get_group_mode: * @event: (type GdkPadEvent): a pad event * @group: (out): return location for the group * @mode: (out): return location for the mode * * Extracts group and mode information from a pad event. */ void gdk_pad_event_get_group_mode (GdkEvent *event, guint *group, guint *mode) { GdkPadEvent *self = (GdkPadEvent *) event; g_return_if_fail (GDK_IS_EVENT (event)); g_return_if_fail (GDK_IS_EVENT_TYPE (event, GDK_PAD_GROUP_MODE) || GDK_IS_EVENT_TYPE (event, GDK_PAD_BUTTON_PRESS) || GDK_IS_EVENT_TYPE (event, GDK_PAD_BUTTON_RELEASE) || GDK_IS_EVENT_TYPE (event, GDK_PAD_RING) || GDK_IS_EVENT_TYPE (event, GDK_PAD_STRIP)); *group = self->group; *mode = self->mode; } /* }}} */ /* {{{ GdkMotionEvent */ /** * GdkMotionEvent: * * An event related to a pointer or touch device motion. */ static void gdk_motion_event_finalize (GdkEvent *event) { GdkMotionEvent *self = (GdkMotionEvent *) event; g_clear_object (&self->tool); g_clear_pointer (&self->axes, g_free); if (self->history) g_array_free (self->history, TRUE); GDK_EVENT_SUPER (event)->finalize (event); } static GdkModifierType gdk_motion_event_get_state (GdkEvent *event) { GdkMotionEvent *self = (GdkMotionEvent *) event; return self->state; } static gboolean gdk_motion_event_get_position (GdkEvent *event, double *x, double *y) { GdkMotionEvent *self = (GdkMotionEvent *) event; *x = self->x; *y = self->y; return TRUE; } static GdkDeviceTool * gdk_motion_event_get_tool (GdkEvent *event) { GdkMotionEvent *self = (GdkMotionEvent *) event; return self->tool; } static gboolean gdk_motion_event_get_axes (GdkEvent *event, double **axes, guint *n_axes) { GdkMotionEvent *self = (GdkMotionEvent *) event; GdkDevice *source_device = gdk_event_get_device (event); if (source_device == NULL) return FALSE; *axes = self->axes; *n_axes = GDK_AXIS_LAST; return TRUE; } static const GdkEventTypeInfo gdk_motion_event_info = { sizeof (GdkMotionEvent), NULL, gdk_motion_event_finalize, gdk_motion_event_get_state, gdk_motion_event_get_position, NULL, gdk_motion_event_get_tool, gdk_motion_event_get_axes, }; GDK_DEFINE_EVENT_TYPE (GdkMotionEvent, gdk_motion_event, &gdk_motion_event_info, GDK_EVENT_TYPE_SLOT (GDK_MOTION_NOTIFY)) GdkEvent * gdk_motion_event_new (GdkSurface *surface, GdkDevice *device, GdkDeviceTool *tool, guint32 time, GdkModifierType state, double x, double y, double *axes) { GdkMotionEvent *self = gdk_event_alloc (GDK_MOTION_NOTIFY, surface, device, time); self->tool = tool ? g_object_ref (tool) : NULL; self->state = state; self->x = x; self->y = y; self->axes = axes; self->state = state; return (GdkEvent *) self; } /** * gdk_event_get_history: * @event: a motion or scroll event * @out_n_coords: (out): Return location for the length of the returned array * * Retrieves the history of the device that @event is for, as a list of * time and coordinates. * * The history includes positions that are not delivered as separate events * to the application because they occurred in the same frame as @event. * * Note that only motion and scroll events record history, and motion * events do it only if one of the mouse buttons is down, or the device * has a tool. * * Returns: (transfer container) (array length=out_n_coords) (nullable): an * array of time and coordinates */ GdkTimeCoord * gdk_event_get_history (GdkEvent *event, guint *out_n_coords) { GArray *history; g_return_val_if_fail (GDK_IS_EVENT (event), NULL); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_MOTION_NOTIFY) || GDK_IS_EVENT_TYPE (event, GDK_SCROLL), NULL); g_return_val_if_fail (out_n_coords != NULL, NULL); if (GDK_IS_EVENT_TYPE (event, GDK_MOTION_NOTIFY)) { GdkMotionEvent *self = (GdkMotionEvent *) event; history = self->history; } else { GdkScrollEvent *self = (GdkScrollEvent *) event; history = self->history; } if (history && history->len > 0) { GdkTimeCoord *result; *out_n_coords = history->len; result = g_malloc (sizeof (GdkTimeCoord) * history->len); memcpy (result, history->data, sizeof (GdkTimeCoord) * history->len); return result; } *out_n_coords = 0; return NULL; } /* }}} */ /* {{{ GdkProximityEvent */ /** * GdkProximityEvent: * * An event related to the proximity of a tool to a device. */ static void gdk_proximity_event_finalize (GdkEvent *event) { GdkProximityEvent *self = (GdkProximityEvent *) event; g_clear_object (&self->tool); GDK_EVENT_SUPER (event)->finalize (event); } static GdkDeviceTool * gdk_proximity_event_get_tool (GdkEvent *event) { GdkProximityEvent *self = (GdkProximityEvent *) event; return self->tool; } static const GdkEventTypeInfo gdk_proximity_event_info = { sizeof (GdkProximityEvent), NULL, gdk_proximity_event_finalize, NULL, NULL, NULL, gdk_proximity_event_get_tool, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkProximityEvent, gdk_proximity_event, &gdk_proximity_event_info, GDK_EVENT_TYPE_SLOT (GDK_PROXIMITY_IN) GDK_EVENT_TYPE_SLOT (GDK_PROXIMITY_OUT)) GdkEvent * gdk_proximity_event_new (GdkEventType type, GdkSurface *surface, GdkDevice *device, GdkDeviceTool *tool, guint32 time) { GdkProximityEvent *self; g_return_val_if_fail (type == GDK_PROXIMITY_IN || type == GDK_PROXIMITY_OUT, NULL); self = gdk_event_alloc (type, surface, device, time); self->tool = tool ? g_object_ref (tool) : NULL; return (GdkEvent *) self; } /* }}} */ /* {{{ GdkDNDEvent */ /** * GdkDNDEvent: * * An event related to drag and drop operations. */ static void gdk_dnd_event_finalize (GdkEvent *event) { GdkDNDEvent *self = (GdkDNDEvent *) event; g_clear_object (&self->drop); GDK_EVENT_SUPER (event)->finalize (event); } static gboolean gdk_dnd_event_get_position (GdkEvent *event, double *x, double *y) { GdkDNDEvent *self = (GdkDNDEvent *) event; *x = self->x; *y = self->y; return TRUE; } static GdkEventSequence * gdk_dnd_event_get_sequence (GdkEvent *event) { GdkDNDEvent *self = (GdkDNDEvent *) event; return (GdkEventSequence *) self->drop; } static const GdkEventTypeInfo gdk_dnd_event_info = { sizeof (GdkDNDEvent), NULL, gdk_dnd_event_finalize, NULL, gdk_dnd_event_get_position, gdk_dnd_event_get_sequence, NULL, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkDNDEvent, gdk_dnd_event, &gdk_dnd_event_info, GDK_EVENT_TYPE_SLOT (GDK_DRAG_ENTER) GDK_EVENT_TYPE_SLOT (GDK_DRAG_MOTION) GDK_EVENT_TYPE_SLOT (GDK_DRAG_LEAVE) GDK_EVENT_TYPE_SLOT (GDK_DROP_START)) GdkEvent * gdk_dnd_event_new (GdkEventType type, GdkSurface *surface, GdkDevice *device, GdkDrop *drop, guint32 time, double x, double y) { GdkDNDEvent *self; g_return_val_if_fail (type == GDK_DRAG_ENTER || type == GDK_DRAG_MOTION || type == GDK_DRAG_LEAVE || type == GDK_DROP_START, NULL); self = gdk_event_alloc (type, surface, device, time); self->drop = drop != NULL ? g_object_ref (drop) : NULL; self->x = x; self->y = y; return (GdkEvent *) self; } /** * gdk_dnd_event_get_drop: * @event: (type GdkDNDEvent): a DND event * * Gets the `GdkDrop` object from a DND event. * * Returns: (transfer none) (nullable): the drop **/ GdkDrop * gdk_dnd_event_get_drop (GdkEvent *event) { GdkDNDEvent *self = (GdkDNDEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), NULL); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_DRAG_ENTER) || GDK_IS_EVENT_TYPE (event, GDK_DRAG_MOTION) || GDK_IS_EVENT_TYPE (event, GDK_DRAG_LEAVE) || GDK_IS_EVENT_TYPE (event, GDK_DROP_START), NULL); return self->drop; } /* }}} */ /* {{{ GdkGrabBrokenEvent */ /** * GdkGrabBrokenEvent: * * An event related to a broken windowing system grab. */ static const GdkEventTypeInfo gdk_grab_broken_event_info = { sizeof (GdkGrabBrokenEvent), NULL, NULL, NULL, NULL, NULL, NULL, NULL, }; GDK_DEFINE_EVENT_TYPE (GdkGrabBrokenEvent, gdk_grab_broken_event, &gdk_grab_broken_event_info, GDK_EVENT_TYPE_SLOT (GDK_GRAB_BROKEN)) GdkEvent * gdk_grab_broken_event_new (GdkSurface *surface, GdkDevice *device, GdkSurface *grab_surface, gboolean implicit) { GdkGrabBrokenEvent *self = gdk_event_alloc (GDK_GRAB_BROKEN, surface, device, GDK_CURRENT_TIME); self->grab_surface = grab_surface; self->implicit = implicit; self->keyboard = gdk_device_get_source (device) == GDK_SOURCE_KEYBOARD; return (GdkEvent *) self; } /** * gdk_grab_broken_event_get_grab_surface: * @event: (type GdkGrabBrokenEvent): a grab broken event * * Extracts the grab surface from a grab broken event. * * Returns: (transfer none): the grab surface of @event **/ GdkSurface * gdk_grab_broken_event_get_grab_surface (GdkEvent *event) { GdkGrabBrokenEvent *self = (GdkGrabBrokenEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), NULL); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_GRAB_BROKEN), NULL); return self->grab_surface; } /** * gdk_grab_broken_event_get_implicit: * @event: (type GdkGrabBrokenEvent): a grab broken event * * Checks whether the grab broken event is for an implicit grab. * * Returns: %TRUE if the an implicit grab was broken */ gboolean gdk_grab_broken_event_get_implicit (GdkEvent *event) { GdkGrabBrokenEvent *self = (GdkGrabBrokenEvent *) event; g_return_val_if_fail (GDK_IS_EVENT (event), FALSE); g_return_val_if_fail (GDK_IS_EVENT_TYPE (event, GDK_GRAB_BROKEN), FALSE); return self->implicit; } /* }}} */