/*! * Ext JS Library 3.3.1 * Copyright(c) 2006-2010 Sencha Inc. * licensing@sencha.com * http://www.sencha.com/license */ /** * @class Ext.layout.HBoxLayout * @extends Ext.layout.BoxLayout *A layout that arranges items horizontally across a Container. This layout optionally divides available horizontal * space between child items containing a numeric
* This layout may also be used to set the heights of child items by configuring it with the {@link #align} option. */ Ext.layout.HBoxLayout = Ext.extend(Ext.layout.BoxLayout, { /** * @cfg {String} align * Controls how the child items of the container are aligned. Acceptable configuration values for this * property are: *flexconfiguration.*
- top : Default
*child items are aligned vertically * at the top of the container- middle :
*child items are aligned vertically in the * middle of the container- stretch :
*child items are stretched vertically to fill * the height of the container- stretchmax :
*/ align: 'top', // top, middle, stretch, strechmax type : 'hbox', /** * @cfg {String} pack * Controls how the child items of the container are packed together. Acceptable configuration values * for this property are: *child items are stretched vertically to * the height of the largest item.*/ /** * @cfg {Number} flex * This configuation option is to be applied to child items of the container managed * by this layout. Each child item with a flex property will be flexed horizontally * according to each item's relative flex value compared to the sum of all items with * a flex value specified. Any child items that have either a flex = 0 or * flex = undefined will not be 'flexed' (the initial size will not be changed). */ /** * @private * Calculates the size and positioning of each item in the HBox. 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 maxHeight 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 visibleCount = visibleItems.length, padding = this.padding, topOffset = padding.top, leftOffset = padding.left, paddingVert = topOffset + padding.bottom, paddingHoriz = leftOffset + padding.right, width = targetSize.width - this.scrollOffset, height = targetSize.height, availHeight = Math.max(0, height - paddingVert), isStart = this.pack == 'start', isCenter = this.pack == 'center', isEnd = this.pack == 'end', nonFlexWidth = 0, maxHeight = 0, totalFlex = 0, desiredWidth = 0, minimumWidth = 0, //used to cache the calculated size and position values for each child item boxes = [], //used in the for loops below, just declared here for brevity child, childWidth, childHeight, childSize, childMargins, canLayout, i, calcs, flexedWidth, horizMargins, vertMargins, stretchHeight; //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]; childHeight = child.height; childWidth = child.width; canLayout = !child.hasLayout && typeof child.doLayout == 'function'; // Static width (numeric) requires no calcs if (typeof childWidth != 'number') { // flex and not 'auto' width if (child.flex && !childWidth) { totalFlex += child.flex; // Not flexed or 'auto' width or undefined width } else { //Render and layout sub-containers without a flex or width defined, as otherwise we //don't know how wide the sub-container should be and cannot calculate flexed widths if (!childWidth && canLayout) { child.doLayout(); } childSize = child.getSize(); childWidth = childSize.width; childHeight = childSize.height; } } childMargins = child.margins; horizMargins = childMargins.left + childMargins.right; nonFlexWidth += horizMargins + (childWidth || 0); desiredWidth += horizMargins + (child.flex ? child.minWidth || 0 : childWidth); minimumWidth += horizMargins + (child.minWidth || childWidth || 0); // Max height for align - force layout of non-laid out subcontainers without a numeric height if (typeof childHeight != 'number') { if (canLayout) { child.doLayout(); } childHeight = child.getHeight(); } maxHeight = Math.max(maxHeight, childHeight + childMargins.top + childMargins.bottom); //cache the size of each child component. Don't set height or width to 0, keep undefined instead boxes.push({ component: child, height : childHeight || undefined, width : childWidth || undefined }); } var shortfall = desiredWidth - width, tooNarrow = minimumWidth > width; //the width available to the flexed items var availableWidth = Math.max(0, width - nonFlexWidth - paddingHoriz); if (tooNarrow) { for (i = 0; i < visibleCount; i++) { boxes[i].width = visibleItems[i].minWidth || visibleItems[i].width || boxes[i].width; } } else { //all flexed items should be sized to their minimum width, other items should be shrunk down until //the shortfall has been accounted for if (shortfall > 0) { var minWidths = []; /** * 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 (var index = 0, length = visibleCount; index < length; index++) { var item = visibleItems[index], minWidth = item.minWidth || 0; //shrink each non-flex tab by an equal amount to make them all fit. Flexed items are all //shrunk to their minWidth because they're flexible and should be the first to lose width if (item.flex) { boxes[index].width = minWidth; } else { minWidths.push({ minWidth : minWidth, available: boxes[index].width - minWidth, index : index }); } } //sort by descending amount of width remaining before minWidth is reached minWidths.sort(function(a, b) { return a.available > b.available ? 1 : -1; }); /* * Distribute the shortfall (difference between total desired with of all items and actual width available) * between the non-flexed items. We try to distribute the shortfall evenly, but apply it to items with the * smallest difference between their width and minWidth first, so that if reducing the width by the average * amount would make that item less than its minWidth, we carry the remainder over to the next item. */ for (var i = 0, length = minWidths.length; i < length; i++) { var itemIndex = minWidths[i].index; if (itemIndex == undefined) { continue; } var item = visibleItems[itemIndex], box = boxes[itemIndex], oldWidth = box.width, minWidth = item.minWidth, newWidth = Math.max(minWidth, oldWidth - Math.ceil(shortfall / (length - i))), reduction = oldWidth - newWidth; boxes[itemIndex].width = newWidth; shortfall -= reduction; } } else { //temporary variables used in the flex width calculations below var remainingWidth = availableWidth, remainingFlex = totalFlex; //calculate the widths of each flexed item for (i = 0; i < visibleCount; i++) { child = visibleItems[i]; calcs = boxes[i]; childMargins = child.margins; vertMargins = childMargins.top + childMargins.bottom; if (isStart && child.flex && !child.width) { flexedWidth = Math.ceil((child.flex / remainingFlex) * remainingWidth); remainingWidth -= flexedWidth; remainingFlex -= child.flex; calcs.width = flexedWidth; calcs.dirtySize = true; } } } } if (isCenter) { leftOffset += availableWidth / 2; } else if (isEnd) { leftOffset += availableWidth; } //finally, calculate the left and top position of each item for (i = 0; i < visibleCount; i++) { child = visibleItems[i]; calcs = boxes[i]; childMargins = child.margins; leftOffset += childMargins.left; vertMargins = childMargins.top + childMargins.bottom; calcs.left = leftOffset; calcs.top = topOffset + childMargins.top; switch (this.align) { case 'stretch': stretchHeight = availHeight - vertMargins; calcs.height = stretchHeight.constrain(child.minHeight || 0, child.maxHeight || 1000000); calcs.dirtySize = true; break; case 'stretchmax': stretchHeight = maxHeight - vertMargins; calcs.height = stretchHeight.constrain(child.minHeight || 0, child.maxHeight || 1000000); calcs.dirtySize = true; break; case 'middle': var diff = availHeight - calcs.height - vertMargins; if (diff > 0) { calcs.top = topOffset + vertMargins + (diff / 2); } } leftOffset += calcs.width + childMargins.right; } return { boxes: boxes, meta : { maxHeight : maxHeight, nonFlexWidth: nonFlexWidth, desiredWidth: desiredWidth, minimumWidth: minimumWidth, shortfall : desiredWidth - width, tooNarrow : tooNarrow } }; } }); Ext.Container.LAYOUTS.hbox = Ext.layout.HBoxLayout;*
- start : Default
*child items are packed together at * left side of container- center :
*child items are packed together at * mid-width of container- end :
*child items are packed together at right * side of container