/* -*- mode: js2; js2-basic-offset: 4; indent-tabs-mode: nil -*- */ const Clutter = imports.gi.Clutter; const Gtk = imports.gi.Gtk; const St = imports.gi.St; const Lang = imports.lang; const Shell = imports.gi.Shell; const Signals = imports.signals; const Tweener = imports.ui.tweener; const Main = imports.ui.main; const Params = imports.misc.params; // Time to scale down to maxDragActorSize const SCALE_ANIMATION_TIME = 0.25; // Time to animate to original position on cancel const SNAP_BACK_ANIMATION_TIME = 0.25; // Time to animate to original position on success const REVERT_ANIMATION_TIME = 0.75; const DragMotionResult = { NO_DROP: 0, COPY_DROP: 1, MOVE_DROP: 2, CONTINUE: 3 }; const DRAG_CURSOR_MAP = { 0: Shell.Cursor.DND_UNSUPPORTED_TARGET, 1: Shell.Cursor.DND_COPY, 2: Shell.Cursor.DND_MOVE }; const DragDropResult = { FAILURE: 0, SUCCESS: 1, CONTINUE: 2 }; let eventHandlerActor = null; let currentDraggable = null; let dragMonitors = []; function _getEventHandlerActor() { if (!eventHandlerActor) { eventHandlerActor = new Clutter.Rectangle(); eventHandlerActor.width = 0; eventHandlerActor.height = 0; Main.uiGroup.add_actor(eventHandlerActor); // We connect to 'event' rather than 'captured-event' because the capturing phase doesn't happen // when you've grabbed the pointer. eventHandlerActor.connect('event', function(actor, event) { return currentDraggable._onEvent(actor, event); }); } return eventHandlerActor; } function addDragMonitor(monitor) { dragMonitors.push(monitor); } function removeDragMonitor(monitor) { for (let i = 0; i < dragMonitors.length; i++) if (dragMonitors[i] == monitor) { dragMonitors.splice(i, 1); return; } } function _Draggable(actor, params) { this._init(actor, params); } _Draggable.prototype = { _init : function(actor, params) { params = Params.parse(params, { manualMode: false, restoreOnSuccess: false, dragActorMaxSize: undefined, dragActorOpacity: undefined }); this.actor = actor; if (!params.manualMode) this.actor.connect('button-press-event', Lang.bind(this, this._onButtonPress)); this.actor.connect('destroy', Lang.bind(this, function() { this._actorDestroyed = true; // If the drag actor is destroyed and we were going to fix // up its hover state, fix up the parent hover state instead if (this.actor == this._firstLeaveActor) this._firstLeaveActor = this._dragOrigParent; if (this._dragInProgress) this._cancelDrag(global.get_current_time()); this.disconnectAll(); })); this._onEventId = null; this._restoreOnSuccess = params.restoreOnSuccess; this._dragActorMaxSize = params.dragActorMaxSize; this._dragActorOpacity = params.dragActorOpacity; this._buttonDown = false; // The mouse button has been pressed and has not yet been released. this._dragInProgress = false; // The drag has been started, and has not been dropped or cancelled yet. this._animationInProgress = false; // The drag is over and the item is in the process of animating to its original position (snapping back or reverting). // During the drag, we eat enter/leave events so that actors don't prelight or show // tooltips. But we remember the actors that we first left/last entered so we can // fix up the hover state after the drag ends. this._firstLeaveActor = null; this._lastEnterActor = null; this._eventsGrabbed = false; }, _onButtonPress : function (actor, event) { if (event.get_button() != 1) return false; if (Tweener.getTweenCount(actor)) return false; this._buttonDown = true; // special case St.Button: grabbing the pointer would mess up the // internal state, so we start the drag manually on hover change if (this.actor instanceof St.Button) this.actor.connect('notify::hover', Lang.bind(this, this._onButtonHoverChanged)); else this._grabActor(); let [stageX, stageY] = event.get_coords(); this._dragStartX = stageX; this._dragStartY = stageY; return false; }, _onButtonHoverChanged: function(button) { if (button.hover || !button.pressed) return; button.fake_release(); this.startDrag(this._dragStartX, this._dragStartY, global.get_current_time()); }, _grabActor: function() { Clutter.grab_pointer(this.actor); this._onEventId = this.actor.connect('event', Lang.bind(this, this._onEvent)); }, _ungrabActor: function() { Clutter.ungrab_pointer(); if (!this._onEventId) return; this.actor.disconnect(this._onEventId); this._onEventId = null; }, _grabEvents: function() { if (!this._eventsGrabbed) { Clutter.grab_pointer(_getEventHandlerActor()); Clutter.grab_keyboard(_getEventHandlerActor()); this._eventsGrabbed = true; } }, _ungrabEvents: function() { if (this._eventsGrabbed) { Clutter.ungrab_pointer(); Clutter.ungrab_keyboard(); this._eventsGrabbed = false; } }, _onEvent: function(actor, event) { // We intercept BUTTON_RELEASE event to know that the button was released in case we // didn't start the drag, to drop the draggable in case the drag was in progress, and // to complete the drag and ensure that whatever happens to be under the pointer does // not get triggered if the drag was cancelled with Esc. if (event.type() == Clutter.EventType.BUTTON_RELEASE) { this._buttonDown = false; if (this._dragInProgress) { return this._dragActorDropped(event); } else if (this._dragActor != null && !this._animationInProgress) { // Drag must have been cancelled with Esc. this._dragComplete(); return true; } else { // Drag has never started. this._ungrabActor(); return false; } // We intercept MOTION event to figure out if the drag has started and to draw // this._dragActor under the pointer when dragging is in progress } else if (event.type() == Clutter.EventType.MOTION) { if (this._dragInProgress) { return this._updateDragPosition(event); } else if (this._dragActor == null) { return this._maybeStartDrag(event); } // We intercept KEY_PRESS event so that we can process Esc key press to cancel // dragging and ignore all other key presses. } else if (event.type() == Clutter.EventType.KEY_PRESS && this._dragInProgress) { let symbol = event.get_key_symbol(); if (symbol == Clutter.Escape) { this._cancelDrag(event.get_time()); return true; } } else if (event.type() == Clutter.EventType.LEAVE) { if (this._firstLeaveActor == null) this._firstLeaveActor = event.get_source(); } else if (event.type() == Clutter.EventType.ENTER) { this._lastEnterActor = event.get_source(); } return false; }, /** * startDrag: * @stageX: X coordinate of event * @stageY: Y coordinate of event * @time: Event timestamp * * Directly initiate a drag and drop operation from the given actor. * This function is useful to call if you've specified manualMode * for the draggable. */ startDrag: function (stageX, stageY, time) { currentDraggable = this; this._dragInProgress = true; this.emit('drag-begin', time); if (this._onEventId) this._ungrabActor(); this._grabEvents(); global.set_cursor(Shell.Cursor.DND_IN_DRAG); this._dragX = this._dragStartX = stageX; this._dragY = this._dragStartY = stageY; if (this.actor._delegate && this.actor._delegate.getDragActor) { this._dragActor = this.actor._delegate.getDragActor(this._dragStartX, this._dragStartY); // Drag actor does not always have to be the same as actor. For example drag actor // can be an image that's part of the actor. So to perform "snap back" correctly we need // to know what was the drag actor source. if (this.actor._delegate.getDragActorSource) { this._dragActorSource = this.actor._delegate.getDragActorSource(); // If the user dragged from the source, then position // the dragActor over it. Otherwise, center it // around the pointer let [sourceX, sourceY] = this._dragActorSource.get_transformed_position(); let x, y; if (stageX > sourceX && stageX <= sourceX + this._dragActor.width && stageY > sourceY && stageY <= sourceY + this._dragActor.height) { x = sourceX; y = sourceY; } else { x = stageX - this._dragActor.width / 2; y = stageY - this._dragActor.height / 2; } this._dragActor.set_position(x, y); } else { this._dragActorSource = this.actor; } this._dragOrigParent = undefined; this._dragOffsetX = this._dragActor.x - this._dragStartX; this._dragOffsetY = this._dragActor.y - this._dragStartY; } else { this._dragActor = this.actor; this._dragActorSource = undefined; this._dragOrigParent = this.actor.get_parent(); this._dragOrigX = this._dragActor.x; this._dragOrigY = this._dragActor.y; this._dragOrigScale = this._dragActor.scale_x; let [actorStageX, actorStageY] = this.actor.get_transformed_position(); this._dragOffsetX = actorStageX - this._dragStartX; this._dragOffsetY = actorStageY - this._dragStartY; // Set the actor's scale such that it will keep the same // transformed size when it's reparented to the stage let [scaledWidth, scaledHeight] = this.actor.get_transformed_size(); this.actor.set_scale(scaledWidth / this.actor.width, scaledHeight / this.actor.height); } this._dragActor.reparent(this.actor.get_stage()); this._dragActor.raise_top(); Shell.util_set_hidden_from_pick(this._dragActor, true); this._dragOrigOpacity = this._dragActor.opacity; if (this._dragActorOpacity != undefined) this._dragActor.opacity = this._dragActorOpacity; this._snapBackX = this._dragStartX + this._dragOffsetX; this._snapBackY = this._dragStartY + this._dragOffsetY; this._snapBackScale = this._dragActor.scale_x; if (this._dragActorMaxSize != undefined) { let [scaledWidth, scaledHeight] = this._dragActor.get_transformed_size(); let currentSize = Math.max(scaledWidth, scaledHeight); if (currentSize > this._dragActorMaxSize) { let scale = this._dragActorMaxSize / currentSize; let origScale = this._dragActor.scale_x; let origDragOffsetX = this._dragOffsetX; let origDragOffsetY = this._dragOffsetY; // The position of the actor changes as we scale // around the drag position, but we can't just tween // to the final position because that tween would // fight with updates as the user continues dragging // the mouse; instead we do the position computations in // an onUpdate() function. Tweener.addTween(this._dragActor, { scale_x: scale * origScale, scale_y: scale * origScale, time: SCALE_ANIMATION_TIME, transition: 'easeOutQuad', onUpdate: function() { let currentScale = this._dragActor.scale_x / origScale; this._dragOffsetX = currentScale * origDragOffsetX; this._dragOffsetY = currentScale * origDragOffsetY; this._dragActor.set_position(this._dragX + this._dragOffsetX, this._dragY + this._dragOffsetY); }, onUpdateScope: this }); } } }, _maybeStartDrag: function(event) { let [stageX, stageY] = event.get_coords(); // See if the user has moved the mouse enough to trigger a drag let threshold = Gtk.Settings.get_default().gtk_dnd_drag_threshold; if ((Math.abs(stageX - this._dragStartX) > threshold || Math.abs(stageY - this._dragStartY) > threshold)) { this.startDrag(stageX, stageY, event.get_time()); this._updateDragPosition(event); } return true; }, _updateDragPosition : function (event) { let [stageX, stageY] = event.get_coords(); this._dragX = stageX; this._dragY = stageY; // If we are dragging, update the position if (this._dragActor) { this._dragActor.set_position(stageX + this._dragOffsetX, stageY + this._dragOffsetY); let target = this._dragActor.get_stage().get_actor_at_pos(Clutter.PickMode.ALL, stageX, stageY); // We call observers only once per motion with the innermost // target actor. If necessary, the observer can walk the // parent itself. let dragEvent = { x: stageX, y: stageY, dragActor: this._dragActor, source: this.actor._delegate, targetActor: target }; for (let i = 0; i < dragMonitors.length; i++) { let motionFunc = dragMonitors[i].dragMotion; if (motionFunc) { let result = motionFunc(dragEvent); if (result != DragMotionResult.CONTINUE) { global.set_cursor(DRAG_CURSOR_MAP[result]); return true; } } } while (target) { if (target._delegate && target._delegate.handleDragOver) { let [r, targX, targY] = target.transform_stage_point(stageX, stageY); // We currently loop through all parents on drag-over even if one of the children has handled it. // We can check the return value of the function and break the loop if it's true if we don't want // to continue checking the parents. let result = target._delegate.handleDragOver(this.actor._delegate, this._dragActor, targX, targY, event.get_time()); if (result != DragMotionResult.CONTINUE) { global.set_cursor(DRAG_CURSOR_MAP[result]); return true; } } target = target.get_parent(); } global.set_cursor(Shell.Cursor.DND_IN_DRAG); } return true; }, _dragActorDropped: function(event) { let [dropX, dropY] = event.get_coords(); let target = this._dragActor.get_stage().get_actor_at_pos(Clutter.PickMode.ALL, dropX, dropY); // We call observers only once per motion with the innermost // target actor. If necessary, the observer can walk the // parent itself. let dropEvent = { dropActor: this._dragActor, targetActor: target, clutterEvent: event }; for (let i = 0; i < dragMonitors.length; i++) { let dropFunc = dragMonitors[i].dragDrop; if (dropFunc) switch (dropFunc(dropEvent)) { case DragDropResult.FAILURE: case DragDropResult.SUCCESS: return true; case DragDropResult.CONTINUE: continue; } } while (target) { if (target._delegate && target._delegate.acceptDrop) { let [r, targX, targY] = target.transform_stage_point(dropX, dropY); if (target._delegate.acceptDrop(this.actor._delegate, this._dragActor, targX, targY, event.get_time())) { if (this._actorDestroyed) return true; // If it accepted the drop without taking the actor, // handle it ourselves. if (this._dragActor.get_parent() == this._dragActor.get_stage()) { if (this._restoreOnSuccess) { this._restoreDragActor(event.get_time()); return true; } else this._dragActor.destroy(); } this._dragInProgress = false; global.unset_cursor(); this.emit('drag-end', event.get_time(), true); this._dragComplete(); return true; } } target = target.get_parent(); } this._cancelDrag(event.get_time()); return true; }, _getRestoreLocation: function() { let x, y, scale; if (this._dragActorSource && this._dragActorSource.visible) { // Snap the clone back to its source [x, y] = this._dragActorSource.get_transformed_position(); let [sourceScaledWidth, sourceScaledHeight] = this._dragActorSource.get_transformed_size(); scale = this._dragActor.width / sourceScaledWidth; } else if (this._dragOrigParent) { // Snap the actor back to its original position within // its parent, adjusting for the fact that the parent // may have been moved or scaled let [parentX, parentY] = this._dragOrigParent.get_transformed_position(); let [parentWidth, parentHeight] = this._dragOrigParent.get_size(); let [parentScaledWidth, parentScaledHeight] = this._dragOrigParent.get_transformed_size(); let parentScale = 1.0; if (parentWidth != 0) parentScale = parentScaledWidth / parentWidth; x = parentX + parentScale * this._dragOrigX; y = parentY + parentScale * this._dragOrigY; scale = this._dragOrigScale * parentScale; } else { // Snap back actor to its original stage position x = this._snapBackX; y = this._snapBackY; scale = this._snapBackScale; } return [x, y, scale]; }, _cancelDrag: function(eventTime) { this.emit('drag-cancelled', eventTime); this._dragInProgress = false; let [snapBackX, snapBackY, snapBackScale] = this._getRestoreLocation(); if (this._actorDestroyed) { global.unset_cursor(); if (!this._buttonDown) this._dragComplete(); this.emit('drag-end', eventTime, false); if (!this._dragOrigParent) this._dragActor.destroy(); return; } this._animationInProgress = true; // No target, so snap back Tweener.addTween(this._dragActor, { x: snapBackX, y: snapBackY, scale_x: snapBackScale, scale_y: snapBackScale, opacity: this._dragOrigOpacity, time: SNAP_BACK_ANIMATION_TIME, transition: 'easeOutQuad', onComplete: this._onAnimationComplete, onCompleteScope: this, onCompleteParams: [this._dragActor, eventTime] }); }, _restoreDragActor: function(eventTime) { this._dragInProgress = false; [restoreX, restoreY, restoreScale] = this._getRestoreLocation(); // fade the actor back in at its original location this._dragActor.set_position(restoreX, restoreY); this._dragActor.set_scale(restoreScale, restoreScale); this._dragActor.opacity = 0; this._animationInProgress = true; Tweener.addTween(this._dragActor, { opacity: this._dragOrigOpacity, time: REVERT_ANIMATION_TIME, transition: 'easeOutQuad', onComplete: this._onAnimationComplete, onCompleteScope: this, onCompleteParams: [this._dragActor, eventTime] }); }, _onAnimationComplete : function (dragActor, eventTime) { if (this._dragOrigParent) { dragActor.reparent(this._dragOrigParent); dragActor.set_scale(this._dragOrigScale, this._dragOrigScale); dragActor.set_position(this._dragOrigX, this._dragOrigY); } else { dragActor.destroy(); } global.unset_cursor(); this.emit('drag-end', eventTime, false); this._animationInProgress = false; if (!this._buttonDown) this._dragComplete(); }, // Actor is an actor we have entered or left during the drag; call // st_widget_sync_hover on all StWidget ancestors _syncHover: function(actor) { while (actor) { let parent = actor.get_parent(); if (actor instanceof St.Widget) actor.sync_hover(); actor = parent; } }, _dragComplete: function() { if (!this._actorDestroyed) Shell.util_set_hidden_from_pick(this._dragActor, false); this._ungrabEvents(); if (this._firstLeaveActor) { this._syncHover(this._firstLeaveActor); this._firstLeaveActor = null; } if (this._lastEnterActor) { this._syncHover(this._lastEnterActor); this._lastEnterActor = null; } this._dragActor = undefined; currentDraggable = null; } }; Signals.addSignalMethods(_Draggable.prototype); /** * makeDraggable: * @actor: Source actor * @params: (optional) Additional parameters * * Create an object which controls drag and drop for the given actor. * * If %manualMode is %true in @params, do not automatically start * drag and drop on click * * If %dragActorMaxSize is present in @params, the drag actor will * be scaled down to be no larger than that size in pixels. * * If %dragActorOpacity is present in @params, the drag actor will * will be set to have that opacity during the drag. * * Note that when the drag actor is the source actor and the drop * succeeds, the actor scale and opacity aren't reset; if the drop * target wants to reuse the actor, it's up to the drop target to * reset these values. */ function makeDraggable(actor, params) { return new _Draggable(actor, params); }