/** * @class Ext.layout.container.Box * @extends Ext.layout.container.Container * <p>Base Class for HBoxLayout and VBoxLayout Classes. Generally it should not need to be used directly.</p> */ Ext.define('Ext.layout.container.Box', { /* Begin Definitions */ alias: ['layout.box'], extend: 'Ext.layout.container.Container', alternateClassName: 'Ext.layout.BoxLayout', requires: [ 'Ext.layout.container.boxOverflow.None', 'Ext.layout.container.boxOverflow.Menu', 'Ext.layout.container.boxOverflow.Scroller', 'Ext.util.Format', 'Ext.dd.DragDropManager' ], /* End Definitions */ /** * @cfg {Mixed} animate * <p>If truthy, child Component are <i>animated</i> into position whenever the Container * is layed out. If this option is numeric, it is used as the animation duration in milliseconds.</p> * <p>May be set as a property at any time.</p> */ /** * @cfg {Object} defaultMargins * <p>If the individual contained items do not have a <tt>margins</tt> * property specified or margin specified via CSS, the default margins from this property will be * applied to each item.</p> * <br><p>This property may be specified as an object containing margins * to apply in the format:</p><pre><code> { top: (top margin), right: (right margin), bottom: (bottom margin), left: (left margin) }</code></pre> * <p>This property may also be specified as a string containing * space-separated, numeric margin values. The order of the sides associated * with each value matches the way CSS processes margin values:</p> * <div class="mdetail-params"><ul> * <li>If there is only one value, it applies to all sides.</li> * <li>If there are two values, the top and bottom borders are set to the * first value and the right and left are set to the second.</li> * <li>If there are three values, the top is set to the first value, the left * and right are set to the second, and the bottom is set to the third.</li> * <li>If there are four values, they apply to the top, right, bottom, and * left, respectively.</li> * </ul></div> * <p>Defaults to:</p><pre><code> * {top:0, right:0, bottom:0, left:0} * </code></pre> */ defaultMargins: { top: 0, right: 0, bottom: 0, left: 0 }, /** * @cfg {String} padding * <p>Sets the padding to be applied to all child items managed by this layout.</p> * <p>This property must be specified as a string containing * space-separated, numeric padding values. The order of the sides associated * with each value matches the way CSS processes padding values:</p> * <div class="mdetail-params"><ul> * <li>If there is only one value, it applies to all sides.</li> * <li>If there are two values, the top and bottom borders are set to the * first value and the right and left are set to the second.</li> * <li>If there are three values, the top is set to the first value, the left * and right are set to the second, and the bottom is set to the third.</li> * <li>If there are four values, they apply to the top, right, bottom, and * left, respectively.</li> * </ul></div> * <p>Defaults to: <code>"0"</code></p> */ padding: '0', // documented in subclasses pack: 'start', /** * @cfg {String} pack * Controls how the child items of the container are packed together. Acceptable configuration values * for this property are: * <div class="mdetail-params"><ul> * <li><b><tt>start</tt></b> : <b>Default</b><div class="sub-desc">child items are packed together at * <b>left</b> side of container</div></li> * <li><b><tt>center</tt></b> : <div class="sub-desc">child items are packed together at * <b>mid-width</b> of container</div></li> * <li><b><tt>end</tt></b> : <div class="sub-desc">child items are packed together at <b>right</b> * side of container</div></li> * </ul></div> */ /** * @cfg {Number} flex * This configuration option is to be applied to <b>child <tt>items</tt></b> of the container managed * by this layout. Each child item with a <tt>flex</tt> property will be flexed <b>horizontally</b> * according to each item's <b>relative</b> <tt>flex</tt> value compared to the sum of all items with * a <tt>flex</tt> value specified. Any child items that have either a <tt>flex = 0</tt> or * <tt>flex = undefined</tt> will not be 'flexed' (the initial size will not be changed). */ type: 'box', scrollOffset: 0, itemCls: Ext.baseCSSPrefix + 'box-item', targetCls: Ext.baseCSSPrefix + 'box-layout-ct', innerCls: Ext.baseCSSPrefix + 'box-inner', bindToOwnerCtContainer: true, fixedLayout: false, // availableSpaceOffset is used to adjust the availableWidth, typically used // to reserve space for a scrollbar availableSpaceOffset: 0, // whether or not to reserve the availableSpaceOffset in layout calculations reserveOffset: true, /** * @cfg {Boolean} clearInnerCtOnLayout */ clearInnerCtOnLayout: false, flexSortFn: function (a, b) { var maxParallelPrefix = 'max' + this.parallelPrefixCap, infiniteValue = Infinity; a = a.component[maxParallelPrefix] || infiniteValue; b = b.component[maxParallelPrefix] || infiniteValue; // IE 6/7 Don't like Infinity - Infinity... if (!isFinite(a) && !isFinite(b)) { return false; } return a - b; }, // Sort into *descending* order. minSizeSortFn: function(a, b) { return b.available - a.available; }, constructor: function(config) { var me = this; me.callParent(arguments); // The sort function needs access to properties in this, so must be bound. me.flexSortFn = Ext.Function.bind(me.flexSortFn, me); me.initOverflowHandler(); }, /** * @private * Returns the current size and positioning of the passed child item. * @param {Component} child The child Component to calculate the box for * @return {Object} Object containing box measurements for the child. Properties are left,top,width,height. */ getChildBox: function(child) { child = child.el || this.owner.getComponent(child).el; return { left: child.getLeft(true), top: child.getTop(true), width: child.getWidth(), height: child.getHeight() }; }, /** * @private * Calculates the size and positioning of the passed child item. * @param {Component} child The child Component to calculate the box for * @return {Object} Object containing box measurements for the child. Properties are left,top,width,height. */ calculateChildBox: function(child) { var me = this, boxes = me.calculateChildBoxes(me.getVisibleItems(), me.getLayoutTargetSize()).boxes, ln = boxes.length, i = 0; child = me.owner.getComponent(child); for (; i < ln; i++) { if (boxes[i].component === child) { return boxes[i]; } } }, /** * @private * Calculates the size and positioning of each item in the box. This iterates over all of the rendered, * visible items and returns a height, width, top and left for each, as well as a reference to each. Also * returns meta data such as maxSize which are useful when resizing layout wrappers such as this.innerCt. * @param {Array} visibleItems The array of all rendered, visible items to be calculated for * @param {Object} targetSize Object containing target size and height * @return {Object} Object containing box measurements for each child, plus meta data */ calculateChildBoxes: function(visibleItems, targetSize) { var me = this, math = Math, mmax = math.max, infiniteValue = Infinity, undefinedValue, parallelPrefix = me.parallelPrefix, parallelPrefixCap = me.parallelPrefixCap, perpendicularPrefix = me.perpendicularPrefix, perpendicularPrefixCap = me.perpendicularPrefixCap, parallelMinString = 'min' + parallelPrefixCap, perpendicularMinString = 'min' + perpendicularPrefixCap, perpendicularMaxString = 'max' + perpendicularPrefixCap, parallelSize = targetSize[parallelPrefix] - me.scrollOffset, perpendicularSize = targetSize[perpendicularPrefix], padding = me.padding, parallelOffset = padding[me.parallelBefore], paddingParallel = parallelOffset + padding[me.parallelAfter], perpendicularOffset = padding[me.perpendicularLeftTop], paddingPerpendicular = perpendicularOffset + padding[me.perpendicularRightBottom], availPerpendicularSize = mmax(0, perpendicularSize - paddingPerpendicular), isStart = me.pack == 'start', isCenter = me.pack == 'center', isEnd = me.pack == 'end', constrain = Ext.Number.constrain, visibleCount = visibleItems.length, nonFlexSize = 0, totalFlex = 0, desiredSize = 0, minimumSize = 0, maxSize = 0, boxes = [], minSizes = [], calculatedWidth, i, child, childParallel, childPerpendicular, childMargins, childSize, minParallel, tmpObj, shortfall, tooNarrow, availableSpace, minSize, item, length, itemIndex, box, oldSize, newSize, reduction, diff, flexedBoxes, remainingSpace, remainingFlex, flexedSize, parallelMargins, calcs, offset, perpendicularMargins, stretchSize; //gather the total flex of all flexed items and the width taken up by fixed width items for (i = 0; i < visibleCount; i++) { child = visibleItems[i]; childPerpendicular = child[perpendicularPrefix]; me.layoutItem(child); childMargins = child.margins; parallelMargins = childMargins[me.parallelBefore] + childMargins[me.parallelAfter]; // Create the box description object for this child item. tmpObj = { component: child, margins: childMargins }; // flex and not 'auto' width if (child.flex) { totalFlex += child.flex; childParallel = undefinedValue; } // Not flexed or 'auto' width or undefined width else { if (!(child[parallelPrefix] && childPerpendicular)) { childSize = child.getSize(); } childParallel = child[parallelPrefix] || childSize[parallelPrefix]; childPerpendicular = childPerpendicular || childSize[perpendicularPrefix]; } nonFlexSize += parallelMargins + (childParallel || 0); desiredSize += parallelMargins + (child.flex ? child[parallelMinString] || 0 : childParallel); minimumSize += parallelMargins + (child[parallelMinString] || childParallel || 0); // Max height for align - force layout of non-laid out subcontainers without a numeric height if (typeof childPerpendicular != 'number') { // Clear any static sizing and revert to flow so we can get a proper measurement // child['set' + perpendicularPrefixCap](null); childPerpendicular = child['get' + perpendicularPrefixCap](); } // Track the maximum perpendicular size for use by the stretch and stretchmax align config values. maxSize = mmax(maxSize, childPerpendicular + childMargins[me.perpendicularLeftTop] + childMargins[me.perpendicularRightBottom]); tmpObj[parallelPrefix] = childParallel || undefinedValue; tmpObj[perpendicularPrefix] = childPerpendicular || undefinedValue; boxes.push(tmpObj); } shortfall = desiredSize - parallelSize; tooNarrow = minimumSize > parallelSize; //the space available to the flexed items availableSpace = mmax(0, parallelSize - nonFlexSize - paddingParallel - (me.reserveOffset ? me.availableSpaceOffset : 0)); if (tooNarrow) { for (i = 0; i < visibleCount; i++) { box = boxes[i]; minSize = visibleItems[i][parallelMinString] || visibleItems[i][parallelPrefix] || box[parallelPrefix]; box.dirtySize = box.dirtySize || box[parallelPrefix] != minSize; box[parallelPrefix] = minSize; } } else { //all flexed items should be sized to their minimum size, other items should be shrunk down until //the shortfall has been accounted for if (shortfall > 0) { /* * When we have a shortfall but are not tooNarrow, we need to shrink the width of each non-flexed item. * Flexed items are immediately reduced to their minWidth and anything already at minWidth is ignored. * The remaining items are collected into the minWidths array, which is later used to distribute the shortfall. */ for (i = 0; i < visibleCount; i++) { item = visibleItems[i]; minSize = item[parallelMinString] || 0; //shrink each non-flex tab by an equal amount to make them all fit. Flexed items are all //shrunk to their minSize because they're flexible and should be the first to lose size if (item.flex) { box = boxes[i]; box.dirtySize = box.dirtySize || box[parallelPrefix] != minSize; box[parallelPrefix] = minSize; } else { minSizes.push({ minSize: minSize, available: boxes[i][parallelPrefix] - minSize, index: i }); } } //sort by descending amount of width remaining before minWidth is reached Ext.Array.sort(minSizes, me.minSizeSortFn); /* * Distribute the shortfall (difference between total desired size of all items and actual size available) * between the non-flexed items. We try to distribute the shortfall evenly, but apply it to items with the * smallest difference between their size and minSize first, so that if reducing the size by the average * amount would make that item less than its minSize, we carry the remainder over to the next item. */ for (i = 0, length = minSizes.length; i < length; i++) { itemIndex = minSizes[i].index; if (itemIndex == undefinedValue) { continue; } item = visibleItems[itemIndex]; minSize = minSizes[i].minSize; box = boxes[itemIndex]; oldSize = box[parallelPrefix]; newSize = mmax(minSize, oldSize - math.ceil(shortfall / (length - i))); reduction = oldSize - newSize; box.dirtySize = box.dirtySize || box[parallelPrefix] != newSize; box[parallelPrefix] = newSize; shortfall -= reduction; } } else { remainingSpace = availableSpace; remainingFlex = totalFlex; flexedBoxes = []; // Create an array containing *just the flexed boxes* for allocation of remainingSpace for (i = 0; i < visibleCount; i++) { child = visibleItems[i]; if (isStart && child.flex) { flexedBoxes.push(boxes[Ext.Array.indexOf(visibleItems, child)]); } } // The flexed boxes need to be sorted in ascending order of maxSize to work properly // so that unallocated space caused by maxWidth being less than flexed width // can be reallocated to subsequent flexed boxes. Ext.Array.sort(flexedBoxes, me.flexSortFn); // Calculate the size of each flexed item, and attempt to set it. for (i = 0; i < flexedBoxes.length; i++) { calcs = flexedBoxes[i]; child = calcs.component; childMargins = calcs.margins; flexedSize = math.ceil((child.flex / remainingFlex) * remainingSpace); // Implement maxSize and minSize check flexedSize = Math.max(child['min' + parallelPrefixCap] || 0, math.min(child['max' + parallelPrefixCap] || infiniteValue, flexedSize)); // Remaining space has already had all parallel margins subtracted from it, so just subtract consumed size remainingSpace -= flexedSize; remainingFlex -= child.flex; calcs.dirtySize = calcs.dirtySize || calcs[parallelPrefix] != flexedSize; calcs[parallelPrefix] = flexedSize; } } } if (isCenter) { parallelOffset += availableSpace / 2; } else if (isEnd) { parallelOffset += availableSpace; } // Fix for left and right docked Components in a dock component layout. This is for docked Headers and docked Toolbars. // Older Microsoft browsers do not size a position:absolute element's width to match its content. // So in this case, in the updateInnerCtSize method we may need to adjust the size of the owning Container's element explicitly based upon // the discovered max width. So here we put a calculatedWidth property in the metadata to facilitate this. if (me.owner.dock && (Ext.isIE6 || Ext.isIE7 || Ext.isIEQuirks) && !me.owner.width && me.direction == 'vertical') { calculatedWidth = maxSize + me.owner.el.getPadding('lr') + me.owner.el.getBorderWidth('lr'); if (me.owner.frameSize) { calculatedWidth += me.owner.frameSize.left + me.owner.frameSize.right; } // If the owning element is not sized, calculate the available width to center or stretch in based upon maxSize availPerpendicularSize = Math.min(availPerpendicularSize, targetSize.width = maxSize + padding.left + padding.right); } //finally, calculate the left and top position of each item for (i = 0; i < visibleCount; i++) { child = visibleItems[i]; calcs = boxes[i]; childMargins = calcs.margins; perpendicularMargins = childMargins[me.perpendicularLeftTop] + childMargins[me.perpendicularRightBottom]; // Advance past the "before" margin parallelOffset += childMargins[me.parallelBefore]; calcs[me.parallelBefore] = parallelOffset; calcs[me.perpendicularLeftTop] = perpendicularOffset + childMargins[me.perpendicularLeftTop]; if (me.align == 'stretch') { stretchSize = constrain(availPerpendicularSize - perpendicularMargins, child[perpendicularMinString] || 0, child[perpendicularMaxString] || infiniteValue); calcs.dirtySize = calcs.dirtySize || calcs[perpendicularPrefix] != stretchSize; calcs[perpendicularPrefix] = stretchSize; } else if (me.align == 'stretchmax') { stretchSize = constrain(maxSize - perpendicularMargins, child[perpendicularMinString] || 0, child[perpendicularMaxString] || infiniteValue); calcs.dirtySize = calcs.dirtySize || calcs[perpendicularPrefix] != stretchSize; calcs[perpendicularPrefix] = stretchSize; } else if (me.align == me.alignCenteringString) { // When calculating a centered position within the content box of the innerCt, the width of the borders must be subtracted from // the size to yield the space available to center within. // The updateInnerCtSize method explicitly adds the border widths to the set size of the innerCt. diff = mmax(availPerpendicularSize, maxSize) - me.innerCt.getBorderWidth(me.perpendicularLT + me.perpendicularRB) - calcs[perpendicularPrefix]; if (diff > 0) { calcs[me.perpendicularLeftTop] = perpendicularOffset + Math.round(diff / 2); } } // Advance past the box size and the "after" margin parallelOffset += (calcs[parallelPrefix] || 0) + childMargins[me.parallelAfter]; } return { boxes: boxes, meta : { calculatedWidth: calculatedWidth, maxSize: maxSize, nonFlexSize: nonFlexSize, desiredSize: desiredSize, minimumSize: minimumSize, shortfall: shortfall, tooNarrow: tooNarrow } }; }, /** * @private */ initOverflowHandler: function() { var handler = this.overflowHandler; if (typeof handler == 'string') { handler = { type: handler }; } var handlerType = 'None'; if (handler && handler.type != undefined) { handlerType = handler.type; } var constructor = Ext.layout.container.boxOverflow[handlerType]; if (constructor[this.type]) { constructor = constructor[this.type]; } this.overflowHandler = Ext.create('Ext.layout.container.boxOverflow.' + handlerType, this, handler); }, /** * @private * Runs the child box calculations and caches them in childBoxCache. Subclasses can used these cached values * when laying out */ onLayout: function() { this.callParent(); // Clear the innerCt size so it doesn't influence the child items. if (this.clearInnerCtOnLayout === true && this.adjustmentPass !== true) { this.innerCt.setSize(null, null); } var me = this, targetSize = me.getLayoutTargetSize(), items = me.getVisibleItems(), calcs = me.calculateChildBoxes(items, targetSize), boxes = calcs.boxes, meta = calcs.meta, handler, method, results; if (me.autoSize && calcs.meta.desiredSize) { targetSize[me.parallelPrefix] = calcs.meta.desiredSize; } //invoke the overflow handler, if one is configured if (meta.shortfall > 0) { handler = me.overflowHandler; method = meta.tooNarrow ? 'handleOverflow': 'clearOverflow'; results = handler[method](calcs, targetSize); if (results) { if (results.targetSize) { targetSize = results.targetSize; } if (results.recalculate) { items = me.getVisibleItems(owner); calcs = me.calculateChildBoxes(items, targetSize); boxes = calcs.boxes; } } } else { me.overflowHandler.clearOverflow(); } /** * @private * @property layoutTargetLastSize * @type Object * Private cache of the last measured size of the layout target. This should never be used except by * BoxLayout subclasses during their onLayout run. */ me.layoutTargetLastSize = targetSize; /** * @private * @property childBoxCache * @type Array * Array of the last calculated height, width, top and left positions of each visible rendered component * within the Box layout. */ me.childBoxCache = calcs; me.updateInnerCtSize(targetSize, calcs); me.updateChildBoxes(boxes); me.handleTargetOverflow(targetSize); }, /** * Resizes and repositions each child component * @param {Array} boxes The box measurements */ updateChildBoxes: function(boxes) { var me = this, i = 0, length = boxes.length, animQueue = [], dd = Ext.dd.DDM.getDDById(me.innerCt.id), // Any DD active on this layout's element (The BoxReorderer plugin does this.) oldBox, newBox, changed, comp, boxAnim, animCallback; for (; i < length; i++) { newBox = boxes[i]; comp = newBox.component; // If a Component is being drag/dropped, skip positioning it. // Accomodate the BoxReorderer plugin: Its current dragEl must not be positioned by the layout if (dd && (dd.getDragEl() === comp.el.dom)) { continue; } changed = false; oldBox = me.getChildBox(comp); // If we are animating, we build up an array of Anim config objects, one for each // child Component which has any changed box properties. Those with unchanged // properties are not animated. if (me.animate) { // Animate may be a config object containing callback. animCallback = me.animate.callback || me.animate; boxAnim = { layoutAnimation: true, // Component Target handler must use set*Calculated*Size target: comp, from: {}, to: {}, listeners: {} }; // Only set from and to properties when there's a change. // Perform as few Component setter methods as possible. // Temporarily set the property values that we are not animating // so that doComponentLayout does not auto-size them. if (!isNaN(newBox.width) && (newBox.width != oldBox.width)) { changed = true; // boxAnim.from.width = oldBox.width; boxAnim.to.width = newBox.width; } if (!isNaN(newBox.height) && (newBox.height != oldBox.height)) { changed = true; // boxAnim.from.height = oldBox.height; boxAnim.to.height = newBox.height; } if (!isNaN(newBox.left) && (newBox.left != oldBox.left)) { changed = true; // boxAnim.from.left = oldBox.left; boxAnim.to.left = newBox.left; } if (!isNaN(newBox.top) && (newBox.top != oldBox.top)) { changed = true; // boxAnim.from.top = oldBox.top; boxAnim.to.top = newBox.top; } if (changed) { animQueue.push(boxAnim); } } else { if (newBox.dirtySize) { if (newBox.width !== oldBox.width || newBox.height !== oldBox.height) { me.setItemSize(comp, newBox.width, newBox.height); } } // Don't set positions to NaN if (isNaN(newBox.left) || isNaN(newBox.top)) { continue; } comp.setPosition(newBox.left, newBox.top); } } // Kick off any queued animations length = animQueue.length; if (length) { // A function which cleans up when a Component's animation is done. // The last one to finish calls the callback. var afterAnimate = function(anim) { // When we've animated all changed boxes into position, clear our busy flag and call the callback. length -= 1; if (!length) { me.layoutBusy = false; if (Ext.isFunction(animCallback)) { animCallback(); } } }; var beforeAnimate = function() { me.layoutBusy = true; }; // Start each box animation off for (i = 0, length = animQueue.length; i < length; i++) { boxAnim = animQueue[i]; // Clean up the Component after. Clean up the *layout* after the last animation finishes boxAnim.listeners.afteranimate = afterAnimate; // The layout is busy during animation, and may not be called, so set the flag when the first animation begins if (!i) { boxAnim.listeners.beforeanimate = beforeAnimate; } if (me.animate.duration) { boxAnim.duration = me.animate.duration; } comp = boxAnim.target; delete boxAnim.target; // Stop any currently running animation comp.stopAnimation(); comp.animate(boxAnim); } } }, /** * @private * Called by onRender just before the child components are sized and positioned. This resizes the innerCt * to make sure all child items fit within it. We call this before sizing the children because if our child * items are larger than the previous innerCt size the browser will insert scrollbars and then remove them * again immediately afterwards, giving a performance hit. * Subclasses should provide an implementation. * @param {Object} currentSize The current height and width of the innerCt * @param {Array} calculations The new box calculations of all items to be laid out */ updateInnerCtSize: function(tSize, calcs) { var me = this, mmax = Math.max, align = me.align, padding = me.padding, width = tSize.width, height = tSize.height, meta = calcs.meta, innerCtWidth, innerCtHeight; if (me.direction == 'horizontal') { innerCtWidth = width; innerCtHeight = meta.maxSize + padding.top + padding.bottom + me.innerCt.getBorderWidth('tb'); if (align == 'stretch') { innerCtHeight = height; } else if (align == 'middle') { innerCtHeight = mmax(height, innerCtHeight); } } else { innerCtHeight = height; innerCtWidth = meta.maxSize + padding.left + padding.right + me.innerCt.getBorderWidth('lr'); if (align == 'stretch') { innerCtWidth = width; } else if (align == 'center') { innerCtWidth = mmax(width, innerCtWidth); } } me.getRenderTarget().setSize(innerCtWidth || undefined, innerCtHeight || undefined); // If a calculated width has been found (and this only happens for auto-width vertical docked Components in old Microsoft browsers) // then, if the Component has not assumed the size of its content, set it to do so. if (meta.calculatedWidth && me.owner.el.getWidth() > meta.calculatedWidth) { me.owner.el.setWidth(meta.calculatedWidth); } if (me.innerCt.dom.scrollTop) { me.innerCt.dom.scrollTop = 0; } }, /** * @private * This should be called after onLayout of any BoxLayout subclass. If the target's overflow is not set to 'hidden', * we need to lay out a second time because the scrollbars may have modified the height and width of the layout * target. Having a Box layout inside such a target is therefore not recommended. * @param {Object} previousTargetSize The size and height of the layout target before we just laid out * @param {Ext.container.Container} container The container * @param {Ext.core.Element} target The target element * @return True if the layout overflowed, and was reflowed in a secondary onLayout call. */ handleTargetOverflow: function(previousTargetSize) { var target = this.getTarget(), overflow = target.getStyle('overflow'), newTargetSize; if (overflow && overflow != 'hidden' && !this.adjustmentPass) { newTargetSize = this.getLayoutTargetSize(); if (newTargetSize.width != previousTargetSize.width || newTargetSize.height != previousTargetSize.height) { this.adjustmentPass = true; this.onLayout(); return true; } } delete this.adjustmentPass; }, // private isValidParent : function(item, target, position) { // Note: Box layouts do not care about order within the innerCt element because it's an absolutely positioning layout // We only care whether the item is a direct child of the innerCt element. var itemEl = item.el ? item.el.dom : Ext.getDom(item); return (itemEl && this.innerCt && itemEl.parentNode === this.innerCt.dom) || false; }, // Overridden method from AbstractContainer. // Used in the base AbstractLayout.beforeLayout method to render all items into. getRenderTarget: function() { if (!this.innerCt) { // the innerCt prevents wrapping and shuffling while the container is resizing this.innerCt = this.getTarget().createChild({ cls: this.innerCls, role: 'presentation' }); this.padding = Ext.util.Format.parseBox(this.padding); } return this.innerCt; }, // private renderItem: function(item, target) { this.callParent(arguments); var me = this, itemEl = item.getEl(), style = itemEl.dom.style, margins = item.margins || item.margin; // Parse the item's margin/margins specification if (margins) { if (Ext.isString(margins) || Ext.isNumber(margins)) { margins = Ext.util.Format.parseBox(margins); } else { Ext.applyIf(margins, {top: 0, right: 0, bottom: 0, left: 0}); } } else { margins = Ext.apply({}, me.defaultMargins); } // Add any before/after CSS margins to the configured margins, and zero the CSS margins margins.top += itemEl.getMargin('t'); margins.right += itemEl.getMargin('r'); margins.bottom += itemEl.getMargin('b'); margins.left += itemEl.getMargin('l'); style.marginTop = style.marginRight = style.marginBottom = style.marginLeft = '0'; // Item must reference calculated margins. item.margins = margins; }, /** * @private */ destroy: function() { Ext.destroy(this.overflowHandler); this.callParent(arguments); } });