// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*- const { Clutter, GObject, Meta, St } = imports.gi; const Params = imports.misc.params; const Tweener = imports.ui.tweener; const Main = imports.ui.main; var ICON_SIZE = 96; var MIN_ICON_SIZE = 16; var EXTRA_SPACE_ANIMATION_TIME = 0.25; var ANIMATION_TIME_IN = 0.350; var ANIMATION_TIME_OUT = 1/2 * ANIMATION_TIME_IN; var ANIMATION_MAX_DELAY_FOR_ITEM = 2/3 * ANIMATION_TIME_IN; var ANIMATION_BASE_DELAY_FOR_ITEM = 1/4 * ANIMATION_MAX_DELAY_FOR_ITEM; var ANIMATION_MAX_DELAY_OUT_FOR_ITEM = 2/3 * ANIMATION_TIME_OUT; var ANIMATION_FADE_IN_TIME_FOR_ITEM = 1/4 * ANIMATION_TIME_IN; var ANIMATION_BOUNCE_ICON_SCALE = 1.1; var AnimationDirection = { IN: 0, OUT: 1 }; var APPICON_ANIMATION_OUT_SCALE = 3; var APPICON_ANIMATION_OUT_TIME = 0.25; var BaseIcon = GObject.registerClass( class BaseIcon extends St.Bin { _init(label, params) { params = Params.parse(params, { createIcon: null, setSizeManually: false, showLabel: true }); let styleClass = 'overview-icon'; if (params.showLabel) styleClass += ' overview-icon-with-label'; super._init({ style_class: styleClass, x_fill: true, y_fill: true }); this.connect('destroy', this._onDestroy.bind(this)); this._box = new St.BoxLayout({ vertical: true }); this.set_child(this._box); this.iconSize = ICON_SIZE; this._iconBin = new St.Bin({ x_align: St.Align.MIDDLE, y_align: St.Align.MIDDLE }); this._box.add_actor(this._iconBin); if (params.showLabel) { this.label = new St.Label({ text: label }); this._box.add_actor(this.label); } else { this.label = null; } if (params.createIcon) this.createIcon = params.createIcon; this._setSizeManually = params.setSizeManually; this.icon = null; let cache = St.TextureCache.get_default(); this._iconThemeChangedId = cache.connect('icon-theme-changed', this._onIconThemeChanged.bind(this)); } vfunc_get_preferred_width(forHeight) { // Return the actual height to keep the squared aspect return this.get_preferred_height(-1); } // This can be overridden by a subclass, or by the createIcon // parameter to _init() createIcon(size) { throw new GObject.NotImplementedError(`createIcon in ${this.constructor.name}`); } setIconSize(size) { if (!this._setSizeManually) throw new Error('setSizeManually has to be set to use setIconsize'); if (size == this.iconSize) return; this._createIconTexture(size); } _createIconTexture(size) { if (this.icon) this.icon.destroy(); this.iconSize = size; this.icon = this.createIcon(this.iconSize); this._iconBin.child = this.icon; } vfunc_style_changed() { super.vfunc_style_changed(); let node = this.get_theme_node(); let size; if (this._setSizeManually) { size = this.iconSize; } else { let [found, len] = node.lookup_length('icon-size', false); size = found ? len : ICON_SIZE; } if (this.iconSize == size && this._iconBin.child) return; this._createIconTexture(size); } _onDestroy() { if (this._iconThemeChangedId > 0) { let cache = St.TextureCache.get_default(); cache.disconnect(this._iconThemeChangedId); this._iconThemeChangedId = 0; } } _onIconThemeChanged() { this._createIconTexture(this.iconSize); } animateZoomOut() { // Animate only the child instead of the entire actor, so the // styles like hover and running are not applied while // animating. zoomOutActor(this.child); } }); function clamp(value, min, max) { return Math.max(Math.min(value, max), min); }; function zoomOutActor(actor) { let actorClone = new Clutter.Clone({ source: actor, reactive: false }); let [width, height] = actor.get_transformed_size(); let [x, y] = actor.get_transformed_position(); actorClone.set_size(width, height); actorClone.set_position(x, y); actorClone.opacity = 255; actorClone.set_pivot_point(0.5, 0.5); Main.uiGroup.add_actor(actorClone); // Avoid monitor edges to not zoom outside the current monitor let monitor = Main.layoutManager.findMonitorForActor(actor); let scaledWidth = width * APPICON_ANIMATION_OUT_SCALE; let scaledHeight = height * APPICON_ANIMATION_OUT_SCALE; let scaledX = x - (scaledWidth - width) / 2; let scaledY = y - (scaledHeight - height) / 2; let containedX = clamp(scaledX, monitor.x, monitor.x + monitor.width - scaledWidth); let containedY = clamp(scaledY, monitor.y, monitor.y + monitor.height - scaledHeight); Tweener.addTween(actorClone, { time: APPICON_ANIMATION_OUT_TIME, scale_x: APPICON_ANIMATION_OUT_SCALE, scale_y: APPICON_ANIMATION_OUT_SCALE, translation_x: containedX - scaledX, translation_y: containedY - scaledY, opacity: 0, transition: 'easeOutQuad', onComplete() { actorClone.destroy(); } }); } var IconGrid = GObject.registerClass({ Signals: {'animation-done': {}, 'child-focused': { param_types: [Clutter.Actor.$gtype]} }, }, class IconGrid extends St.Widget { _init(params) { super._init({ style_class: 'icon-grid', y_align: Clutter.ActorAlign.START }); params = Params.parse(params, { rowLimit: null, columnLimit: null, minRows: 1, minColumns: 1, fillParent: false, xAlign: St.Align.MIDDLE, padWithSpacing: false }); this._rowLimit = params.rowLimit; this._colLimit = params.columnLimit; this._minRows = params.minRows; this._minColumns = params.minColumns; this._xAlign = params.xAlign; this._fillParent = params.fillParent; this._padWithSpacing = params.padWithSpacing; this.topPadding = 0; this.bottomPadding = 0; this.rightPadding = 0; this.leftPadding = 0; this._items = []; this._clonesAnimating = []; // Pulled from CSS, but hardcode some defaults here this._spacing = 0; this._hItemSize = this._vItemSize = ICON_SIZE; this._fixedHItemSize = this._fixedVItemSize = undefined; this.connect('style-changed', this._onStyleChanged.bind(this)); // Cancel animations when hiding the overview, to avoid icons // swarming into the void ... this.connect('notify::mapped', () => { if (!this.mapped) this._cancelAnimation(); }); this.connect('actor-added', this._childAdded.bind(this)); this.connect('actor-removed', this._childRemoved.bind(this)); } _keyFocusIn(actor) { this.emit('child-focused', actor); } _childAdded(grid, child) { child._iconGridKeyFocusInId = child.connect('key-focus-in', this._keyFocusIn.bind(this)); } _childRemoved(grid, child) { child.disconnect(child._iconGridKeyFocusInId); } vfunc_get_preferred_width(forHeight) { if (this._fillParent) // Ignore all size requests of children and request a size of 0; // later we'll allocate as many children as fit the parent return [0, 0]; let nChildren = this.get_n_children(); let nColumns = this._colLimit ? Math.min(this._colLimit, nChildren) : nChildren; let totalSpacing = Math.max(0, nColumns - 1) * this._getSpacing(); // Kind of a lie, but not really an issue right now. If // we wanted to support some sort of hidden/overflow that would // need higher level design let minSize = this._getHItemSize() + this.leftPadding + this.rightPadding; let natSize = nColumns * this._getHItemSize() + totalSpacing + this.leftPadding + this.rightPadding; return this.get_theme_node().adjust_preferred_width(minSize, natSize); } _getVisibleChildren() { return this.get_children().filter(actor => actor.visible); } vfunc_get_preferred_height(forWidth) { if (this._fillParent) // Ignore all size requests of children and request a size of 0; // later we'll allocate as many children as fit the parent return [0, 0]; let themeNode = this.get_theme_node(); let children = this._getVisibleChildren(); let nColumns; forWidth = themeNode.adjust_for_width(forWidth); if (forWidth < 0) nColumns = children.length; else [nColumns, ] = this._computeLayout(forWidth); let nRows; if (nColumns > 0) nRows = Math.ceil(children.length / nColumns); else nRows = 0; if (this._rowLimit) nRows = Math.min(nRows, this._rowLimit); let totalSpacing = Math.max(0, nRows - 1) * this._getSpacing(); let height = nRows * this._getVItemSize() + totalSpacing + this.topPadding + this.bottomPadding; return themeNode.adjust_preferred_height(height, height); } vfunc_allocate(box, flags) { this.set_allocation(box, flags); let themeNode = this.get_theme_node(); box = themeNode.get_content_box(box); if (this._fillParent) { // Reset the passed in box to fill the parent let parentBox = this.get_parent().allocation; let gridBox = themeNode.get_content_box(parentBox); box = themeNode.get_content_box(gridBox); } let children = this._getVisibleChildren(); let availWidth = box.x2 - box.x1; let availHeight = box.y2 - box.y1; let spacing = this._getSpacing(); let [nColumns, usedWidth] = this._computeLayout(availWidth); let leftEmptySpace; switch(this._xAlign) { case St.Align.START: leftEmptySpace = 0; break; case St.Align.MIDDLE: leftEmptySpace = Math.floor((availWidth - usedWidth) / 2); break; case St.Align.END: leftEmptySpace = availWidth - usedWidth; } let x = box.x1 + leftEmptySpace + this.leftPadding; let y = box.y1 + this.topPadding; let columnIndex = 0; let rowIndex = 0; for (let i = 0; i < children.length; i++) { let childBox = this._calculateChildBox(children[i], x, y, box); if (this._rowLimit && rowIndex >= this._rowLimit || this._fillParent && childBox.y2 > availHeight - this.bottomPadding) { children[i].opacity = 0; } else { children[i].opacity = 255; children[i].allocate(childBox, flags); } columnIndex++; if (columnIndex == nColumns) { columnIndex = 0; rowIndex++; } if (columnIndex == 0) { y += this._getVItemSize() + spacing; x = box.x1 + leftEmptySpace + this.leftPadding; } else { x += this._getHItemSize() + spacing; } } } vfunc_get_paint_volume(paintVolume) { // Setting the paint volume does not make sense when we don't have // any allocation if (!this.has_allocation()) return false; let themeNode = this.get_theme_node(); let allocationBox = this.get_allocation_box(); let paintBox = themeNode.get_paint_box(allocationBox); let origin = new Clutter.Vertex(); origin.x = paintBox.x1 - allocationBox.x1; origin.y = paintBox.y1 - allocationBox.y1; origin.z = 0.0; paintVolume.set_origin(origin); paintVolume.set_width(paintBox.x2 - paintBox.x1); paintVolume.set_height(paintBox.y2 - paintBox.y1); if (this.get_clip_to_allocation()) return true; for (let child = this.get_first_child(); child != null; child = child.get_next_sibling()) { if (!child.visible || !child.opacity) continue; let childVolume = child.get_transformed_paint_volume(this); if (!childVolume) return false paintVolume.union(childVolume); } return true; } /** * Intended to be override by subclasses if they need a different * set of items to be animated. */ _getChildrenToAnimate() { return this._getVisibleChildren(); } _cancelAnimation() { this._clonesAnimating.forEach(clone => { clone.destroy(); }); this._clonesAnimating = []; } _animationDone() { this._clonesAnimating.forEach(clone => { clone.source.reactive = true; clone.source.opacity = 255; clone.destroy(); }); this._clonesAnimating = []; this.emit('animation-done'); } animatePulse(animationDirection) { if (animationDirection != AnimationDirection.IN) throw new GObject.NotImplementedError("Pulse animation only implements " + "'in' animation direction"); this._cancelAnimation(); let actors = this._getChildrenToAnimate(); if (actors.length == 0) { this._animationDone(); return; } // For few items the animation can be slow, so use a smaller // delay when there are less than 4 items // (ANIMATION_BASE_DELAY_FOR_ITEM = 1/4 * // ANIMATION_MAX_DELAY_FOR_ITEM) let maxDelay = Math.min(ANIMATION_BASE_DELAY_FOR_ITEM * actors.length, ANIMATION_MAX_DELAY_FOR_ITEM); for (let index = 0; index < actors.length; index++) { let actor = actors[index]; actor.set_scale(0, 0); actor.set_pivot_point(0.5, 0.5); let delay = index / actors.length * maxDelay; let bounceUpTime = ANIMATION_TIME_IN / 4; let isLastItem = index == actors.length - 1; Tweener.addTween(actor, { time: bounceUpTime, transition: 'easeInOutQuad', delay: delay, scale_x: ANIMATION_BOUNCE_ICON_SCALE, scale_y: ANIMATION_BOUNCE_ICON_SCALE, onComplete: () => { Tweener.addTween(actor, { time: ANIMATION_TIME_IN - bounceUpTime, transition: 'easeInOutQuad', scale_x: 1, scale_y: 1, onComplete: () => { if (isLastItem) this._animationDone(); } }); } }); } } animateSpring(animationDirection, sourceActor) { this._cancelAnimation(); let actors = this._getChildrenToAnimate(); if (actors.length == 0) { this._animationDone(); return; } let [sourceX, sourceY] = sourceActor.get_transformed_position(); let [sourceWidth, sourceHeight] = sourceActor.get_size(); // Get the center let [sourceCenterX, sourceCenterY] = [sourceX + sourceWidth / 2, sourceY + sourceHeight / 2]; // Design decision, 1/2 of the source actor size. let [sourceScaledWidth, sourceScaledHeight] = [sourceWidth / 2, sourceHeight / 2]; actors.forEach(actor => { let [actorX, actorY] = actor._transformedPosition = actor.get_transformed_position(); let [x, y] = [actorX - sourceX, actorY - sourceY]; actor._distance = Math.sqrt(x * x + y * y); }); let maxDist = actors.reduce((prev, cur) => { return Math.max(prev, cur._distance); }, 0); let minDist = actors.reduce((prev, cur) => { return Math.min(prev, cur._distance); }, Infinity); let normalization = maxDist - minDist; for (let index = 0; index < actors.length; index++) { let actor = actors[index]; actor.opacity = 0; actor.reactive = false; let actorClone = new Clutter.Clone({ source: actor }); this._clonesAnimating.push(actorClone); Main.uiGroup.add_actor(actorClone); let [width, height,,] = this._getAllocatedChildSizeAndSpacing(actor); actorClone.set_size(width, height); let scaleX = sourceScaledWidth / width; let scaleY = sourceScaledHeight / height; let [adjustedSourcePositionX, adjustedSourcePositionY] = [sourceCenterX - sourceScaledWidth / 2, sourceCenterY - sourceScaledHeight / 2]; let movementParams, fadeParams; if (animationDirection == AnimationDirection.IN) { let isLastItem = actor._distance == minDist; actorClone.opacity = 0; actorClone.set_scale(scaleX, scaleY); actorClone.set_position(adjustedSourcePositionX, adjustedSourcePositionY); let delay = (1 - (actor._distance - minDist) / normalization) * ANIMATION_MAX_DELAY_FOR_ITEM; let [finalX, finalY] = actor._transformedPosition; movementParams = { time: ANIMATION_TIME_IN, transition: 'easeInOutQuad', delay: delay, x: finalX, y: finalY, scale_x: 1, scale_y: 1, onComplete: () => { if (isLastItem) this._animationDone(); }}; fadeParams = { time: ANIMATION_FADE_IN_TIME_FOR_ITEM, transition: 'easeInOutQuad', delay: delay, opacity: 255 }; } else { let isLastItem = actor._distance == maxDist; let [startX, startY] = actor._transformedPosition; actorClone.set_position(startX, startY); let delay = (actor._distance - minDist) / normalization * ANIMATION_MAX_DELAY_OUT_FOR_ITEM; movementParams = { time: ANIMATION_TIME_OUT, transition: 'easeInOutQuad', delay: delay, x: adjustedSourcePositionX, y: adjustedSourcePositionY, scale_x: scaleX, scale_y: scaleY, onComplete: () => { if (isLastItem) this._animationDone(); }}; fadeParams = { time: ANIMATION_FADE_IN_TIME_FOR_ITEM, transition: 'easeInOutQuad', delay: ANIMATION_TIME_OUT + delay - ANIMATION_FADE_IN_TIME_FOR_ITEM, opacity: 0 }; } Tweener.addTween(actorClone, movementParams); Tweener.addTween(actorClone, fadeParams); } } _getAllocatedChildSizeAndSpacing(child) { let [,, natWidth, natHeight] = child.get_preferred_size(); let width = Math.min(this._getHItemSize(), natWidth); let xSpacing = Math.max(0, width - natWidth) / 2; let height = Math.min(this._getVItemSize(), natHeight); let ySpacing = Math.max(0, height - natHeight) / 2; return [width, height, xSpacing, ySpacing]; } _calculateChildBox(child, x, y, box) { /* Center the item in its allocation horizontally */ let [width, height, childXSpacing, childYSpacing] = this._getAllocatedChildSizeAndSpacing(child); let childBox = new Clutter.ActorBox(); if (Clutter.get_default_text_direction() == Clutter.TextDirection.RTL) { let _x = box.x2 - (x + width); childBox.x1 = Math.floor(_x - childXSpacing); } else { childBox.x1 = Math.floor(x + childXSpacing); } childBox.y1 = Math.floor(y + childYSpacing); childBox.x2 = childBox.x1 + width; childBox.y2 = childBox.y1 + height; return childBox; } columnsForWidth(rowWidth) { return this._computeLayout(rowWidth)[0]; } getRowLimit() { return this._rowLimit; } _computeLayout(forWidth) { let nColumns = 0; let usedWidth = this.leftPadding + this.rightPadding; let spacing = this._getSpacing(); while ((this._colLimit == null || nColumns < this._colLimit) && (usedWidth + this._getHItemSize() <= forWidth)) { usedWidth += this._getHItemSize() + spacing; nColumns += 1; } if (nColumns > 0) usedWidth -= spacing; return [nColumns, usedWidth]; } _onStyleChanged() { let themeNode = this.get_theme_node(); this._spacing = themeNode.get_length('spacing'); this._hItemSize = themeNode.get_length('-shell-grid-horizontal-item-size') || ICON_SIZE; this._vItemSize = themeNode.get_length('-shell-grid-vertical-item-size') || ICON_SIZE; this.queue_relayout(); } nRows(forWidth) { let children = this._getVisibleChildren(); let nColumns = (forWidth < 0) ? children.length : this._computeLayout(forWidth)[0]; let nRows = (nColumns > 0) ? Math.ceil(children.length / nColumns) : 0; if (this._rowLimit) nRows = Math.min(nRows, this._rowLimit); return nRows; } rowsForHeight(forHeight) { return Math.floor((forHeight - (this.topPadding + this.bottomPadding) + this._getSpacing()) / (this._getVItemSize() + this._getSpacing())); } usedHeightForNRows(nRows) { return (this._getVItemSize() + this._getSpacing()) * nRows - this._getSpacing() + this.topPadding + this.bottomPadding; } usedWidth(forWidth) { return this.usedWidthForNColumns(this.columnsForWidth(forWidth)); } usedWidthForNColumns(columns) { let usedWidth = columns * (this._getHItemSize() + this._getSpacing()); usedWidth -= this._getSpacing(); return usedWidth + this.leftPadding + this.rightPadding; } removeAll() { this._items = []; this.remove_all_children(); } destroyAll() { this._items = []; this.destroy_all_children(); } addItem(item, index) { if (!(item.icon instanceof BaseIcon)) throw new Error('Only items with a BaseIcon icon property can be added to IconGrid'); this._items.push(item); if (index !== undefined) this.insert_child_at_index(item.actor, index); else this.add_actor(item.actor); } removeItem(item) { this.remove_child(item.actor); } getItemAtIndex(index) { return this.get_child_at_index(index); } visibleItemsCount() { return this.get_children().filter(c => c.is_visible()).length; } setSpacing(spacing) { this._fixedSpacing = spacing; } _getSpacing() { return this._fixedSpacing ? this._fixedSpacing : this._spacing; } _getHItemSize() { return this._fixedHItemSize ? this._fixedHItemSize : this._hItemSize; } _getVItemSize() { return this._fixedVItemSize ? this._fixedVItemSize : this._vItemSize; } _updateSpacingForSize(availWidth, availHeight) { let maxEmptyVArea = availHeight - this._minRows * this._getVItemSize(); let maxEmptyHArea = availWidth - this._minColumns * this._getHItemSize(); let maxHSpacing, maxVSpacing; if (this._padWithSpacing) { // minRows + 1 because we want to put spacing before the first row, so it is like we have one more row // to divide the empty space maxVSpacing = Math.floor(maxEmptyVArea / (this._minRows +1)); maxHSpacing = Math.floor(maxEmptyHArea / (this._minColumns +1)); } else { if (this._minRows <= 1) maxVSpacing = maxEmptyVArea; else maxVSpacing = Math.floor(maxEmptyVArea / (this._minRows - 1)); if (this._minColumns <= 1) maxHSpacing = maxEmptyHArea; else maxHSpacing = Math.floor(maxEmptyHArea / (this._minColumns - 1)); } let maxSpacing = Math.min(maxHSpacing, maxVSpacing); // Limit spacing to the item size maxSpacing = Math.min(maxSpacing, Math.min(this._getVItemSize(), this._getHItemSize())); // The minimum spacing, regardless of whether it satisfies the row/columng minima, // is the spacing we get from CSS. let spacing = Math.max(this._spacing, maxSpacing); this.setSpacing(spacing); if (this._padWithSpacing) this.topPadding = this.rightPadding = this.bottomPadding = this.leftPadding = spacing; } /** * This function must to be called before iconGrid allocation, * to know how much spacing can the grid has */ adaptToSize(availWidth, availHeight) { this._fixedHItemSize = this._hItemSize; this._fixedVItemSize = this._vItemSize; this._updateSpacingForSize(availWidth, availHeight); let spacing = this._getSpacing(); if (this.columnsForWidth(availWidth) < this._minColumns || this.rowsForHeight(availHeight) < this._minRows) { let neededWidth = this.usedWidthForNColumns(this._minColumns) - availWidth ; let neededHeight = this.usedHeightForNRows(this._minRows) - availHeight ; let neededSpacePerItem = (neededWidth > neededHeight) ? Math.ceil(neededWidth / this._minColumns) : Math.ceil(neededHeight / this._minRows); this._fixedHItemSize = Math.max(this._hItemSize - neededSpacePerItem, MIN_ICON_SIZE); this._fixedVItemSize = Math.max(this._vItemSize - neededSpacePerItem, MIN_ICON_SIZE); this._updateSpacingForSize(availWidth, availHeight); } Meta.later_add(Meta.LaterType.BEFORE_REDRAW, this._updateIconSizes.bind(this)); } // Note that this is ICON_SIZE as used by BaseIcon, not elsewhere in IconGrid; it's a bit messed up _updateIconSizes() { let scale = Math.min(this._fixedHItemSize, this._fixedVItemSize) / Math.max(this._hItemSize, this._vItemSize); let newIconSize = Math.floor(ICON_SIZE * scale); for (let i in this._items) { this._items[i].icon.setIconSize(newIconSize); } } }); var PaginatedIconGrid = GObject.registerClass({ Signals: {'space-opened': {}, 'space-closed': {} }, }, class PaginatedIconGrid extends IconGrid { _init(params) { super._init(params); this._nPages = 0; this.currentPage = 0; this._rowsPerPage = 0; this._spaceBetweenPages = 0; this._childrenPerPage = 0; } vfunc_get_preferred_height(forWidth) { let height = (this._availableHeightPerPageForItems() + this.bottomPadding + this.topPadding) * this._nPages + this._spaceBetweenPages * this._nPages; return [height, height]; } vfunc_allocate(box, flags) { if (this._childrenPerPage == 0) log('computePages() must be called before allocate(); pagination will not work.'); this.set_allocation(box, flags); if (this._fillParent) { // Reset the passed in box to fill the parent let parentBox = this.get_parent().allocation; let gridBox = this.get_theme_node().get_content_box(parentBox); box = this.get_theme_node().get_content_box(gridBox); } let children = this._getVisibleChildren(); let availWidth = box.x2 - box.x1; let availHeight = box.y2 - box.y1; let spacing = this._getSpacing(); let [nColumns, usedWidth] = this._computeLayout(availWidth); let leftEmptySpace; switch(this._xAlign) { case St.Align.START: leftEmptySpace = 0; break; case St.Align.MIDDLE: leftEmptySpace = Math.floor((availWidth - usedWidth) / 2); break; case St.Align.END: leftEmptySpace = availWidth - usedWidth; } let x = box.x1 + leftEmptySpace + this.leftPadding; let y = box.y1 + this.topPadding; let columnIndex = 0; let rowIndex = 0; for (let i = 0; i < children.length; i++) { let childBox = this._calculateChildBox(children[i], x, y, box); children[i].allocate(childBox, flags); children[i].show(); columnIndex++; if (columnIndex == nColumns) { columnIndex = 0; rowIndex++; } if (columnIndex == 0) { y += this._getVItemSize() + spacing; if ((i + 1) % this._childrenPerPage == 0) y += this._spaceBetweenPages - spacing + this.bottomPadding + this.topPadding; x = box.x1 + leftEmptySpace + this.leftPadding; } else x += this._getHItemSize() + spacing; } } // Overridden from IconGrid _getChildrenToAnimate() { let children = this._getVisibleChildren(); let firstIndex = this._childrenPerPage * this.currentPage; let lastIndex = firstIndex + this._childrenPerPage; return children.slice(firstIndex, lastIndex); } _computePages(availWidthPerPage, availHeightPerPage) { let [nColumns, usedWidth] = this._computeLayout(availWidthPerPage); let nRows; let children = this._getVisibleChildren(); if (nColumns > 0) nRows = Math.ceil(children.length / nColumns); else nRows = 0; if (this._rowLimit) nRows = Math.min(nRows, this._rowLimit); let spacing = this._getSpacing(); // We want to contain the grid inside the parent box with padding this._rowsPerPage = this.rowsForHeight(availHeightPerPage); this._nPages = Math.ceil(nRows / this._rowsPerPage); this._spaceBetweenPages = availHeightPerPage - (this.topPadding + this.bottomPadding) - this._availableHeightPerPageForItems(); this._childrenPerPage = nColumns * this._rowsPerPage; } adaptToSize(availWidth, availHeight) { super.adaptToSize(availWidth, availHeight); this._computePages(availWidth, availHeight); } _availableHeightPerPageForItems() { return this.usedHeightForNRows(this._rowsPerPage) - (this.topPadding + this.bottomPadding); } nPages() { return this._nPages; } getPageHeight() { return this._availableHeightPerPageForItems(); } getPageY(pageNumber) { if (!this._nPages) return 0; let firstPageItem = pageNumber * this._childrenPerPage let childBox = this._getVisibleChildren()[firstPageItem].get_allocation_box(); return childBox.y1 - this.topPadding; } getItemPage(item) { let children = this._getVisibleChildren(); let index = children.indexOf(item); if (index == -1) throw new Error('Item not found.'); return Math.floor(index / this._childrenPerPage); } /** * openExtraSpace: * @sourceItem: the item for which to create extra space * @side: where @sourceItem should be located relative to the created space * @nRows: the amount of space to create * * Pan view to create extra space for @nRows above or below @sourceItem. */ openExtraSpace(sourceItem, side, nRows) { let children = this._getVisibleChildren(); let index = children.indexOf(sourceItem.actor); if (index == -1) throw new Error('Item not found.'); let pageIndex = Math.floor(index / this._childrenPerPage); let pageOffset = pageIndex * this._childrenPerPage; let childrenPerRow = this._childrenPerPage / this._rowsPerPage; let sourceRow = Math.floor((index - pageOffset) / childrenPerRow); let nRowsAbove = (side == St.Side.TOP) ? sourceRow + 1 : sourceRow; let nRowsBelow = this._rowsPerPage - nRowsAbove; let nRowsUp, nRowsDown; if (side == St.Side.TOP) { nRowsDown = Math.min(nRowsBelow, nRows); nRowsUp = nRows - nRowsDown; } else { nRowsUp = Math.min(nRowsAbove, nRows); nRowsDown = nRows - nRowsUp; } let childrenDown = children.splice(pageOffset + nRowsAbove * childrenPerRow, nRowsBelow * childrenPerRow); let childrenUp = children.splice(pageOffset, nRowsAbove * childrenPerRow); // Special case: On the last row with no rows below the icon, // there's no need to move any rows either up or down if (childrenDown.length == 0 && nRowsUp == 0) { this._translatedChildren = []; this.emit('space-opened'); } else { this._translateChildren(childrenUp, St.DirectionType.UP, nRowsUp); this._translateChildren(childrenDown, St.DirectionType.DOWN, nRowsDown); this._translatedChildren = childrenUp.concat(childrenDown); } } _translateChildren(children, direction, nRows) { let translationY = nRows * (this._getVItemSize() + this._getSpacing()); if (translationY == 0) return; if (direction == St.DirectionType.UP) translationY *= -1; for (let i = 0; i < children.length; i++) { children[i].translation_y = 0; let params = { translation_y: translationY, time: EXTRA_SPACE_ANIMATION_TIME, transition: 'easeInOutQuad' }; if (i == (children.length - 1)) params.onComplete = () => { this.emit('space-opened'); }; Tweener.addTween(children[i], params); } } closeExtraSpace() { if (!this._translatedChildren || !this._translatedChildren.length) { this.emit('space-closed'); return; } for (let i = 0; i < this._translatedChildren.length; i++) { if (!this._translatedChildren[i].translation_y) continue; Tweener.addTween(this._translatedChildren[i], { translation_y: 0, time: EXTRA_SPACE_ANIMATION_TIME, transition: 'easeInOutQuad', onComplete: () => { this.emit('space-closed'); } }); } } });