/**
* Private utility class for Ext.Splitter.
* @private
*/
Ext.define('Ext.resizer.SplitterTracker', {
extend: 'Ext.dd.DragTracker',
requires: ['Ext.util.Region'],
enabled: true,
overlayCls: Ext.baseCSSPrefix + 'resizable-overlay',
createDragOverlay: function () {
var overlay;
overlay = this.overlay = Ext.getBody().createChild({
cls: this.overlayCls,
html: ' '
});
overlay.unselectable();
overlay.setSize(Ext.Element.getViewWidth(true), Ext.Element.getViewHeight(true));
overlay.show();
},
getPrevCmp: function() {
var splitter = this.getSplitter();
return splitter.previousSibling();
},
getNextCmp: function() {
var splitter = this.getSplitter();
return splitter.nextSibling();
},
// ensure the tracker is enabled, store boxes of previous and next
// components and calculate the constrain region
onBeforeStart: function(e) {
var me = this,
prevCmp = me.getPrevCmp(),
nextCmp = me.getNextCmp(),
collapseEl = me.getSplitter().collapseEl,
target = e.getTarget(),
box;
if (collapseEl && target === me.getSplitter().collapseEl.dom) {
return false;
}
// SplitterTracker is disabled if any of its adjacents are collapsed.
if (nextCmp.collapsed || prevCmp.collapsed) {
return false;
}
// store boxes of previous and next
me.prevBox = prevCmp.getEl().getBox();
me.nextBox = nextCmp.getEl().getBox();
me.constrainTo = box = me.calculateConstrainRegion();
if (!box) {
return false;
}
me.createDragOverlay();
return box;
},
// We move the splitter el. Add the proxy class.
onStart: function(e) {
var splitter = this.getSplitter();
splitter.addCls(splitter.baseCls + '-active');
},
// calculate the constrain Region in which the splitter el may be moved.
calculateConstrainRegion: function() {
var me = this,
splitter = me.getSplitter(),
splitWidth = splitter.getWidth(),
defaultMin = splitter.defaultSplitMin,
orient = splitter.orientation,
prevBox = me.prevBox,
prevCmp = me.getPrevCmp(),
nextBox = me.nextBox,
nextCmp = me.getNextCmp(),
// prev and nextConstrainRegions are the maximumBoxes minus the
// minimumBoxes. The result is always the intersection
// of these two boxes.
prevConstrainRegion, nextConstrainRegion;
// vertical splitters, so resizing left to right
if (orient === 'vertical') {
// Region constructor accepts (top, right, bottom, left)
// anchored/calculated from the left
prevConstrainRegion = new Ext.util.Region(
prevBox.y,
// Right boundary is x + maxWidth if there IS a maxWidth.
// Otherwise it is calculated based upon the minWidth of the next Component
(prevCmp.maxWidth ? prevBox.x + prevCmp.maxWidth : nextBox.right - (nextCmp.minWidth || defaultMin)) + splitWidth,
prevBox.bottom,
prevBox.x + (prevCmp.minWidth || defaultMin)
);
// anchored/calculated from the right
nextConstrainRegion = new Ext.util.Region(
nextBox.y,
nextBox.right - (nextCmp.minWidth || defaultMin),
nextBox.bottom,
// Left boundary is right - maxWidth if there IS a maxWidth.
// Otherwise it is calculated based upon the minWidth of the previous Component
(nextCmp.maxWidth ? nextBox.right - nextCmp.maxWidth : prevBox.x + (prevBox.minWidth || defaultMin)) - splitWidth
);
} else {
// anchored/calculated from the top
prevConstrainRegion = new Ext.util.Region(
prevBox.y + (prevCmp.minHeight || defaultMin),
prevBox.right,
// Bottom boundary is y + maxHeight if there IS a maxHeight.
// Otherwise it is calculated based upon the minWidth of the next Component
(prevCmp.maxHeight ? prevBox.y + prevCmp.maxHeight : nextBox.bottom - (nextCmp.minHeight || defaultMin)) + splitWidth,
prevBox.x
);
// anchored/calculated from the bottom
nextConstrainRegion = new Ext.util.Region(
// Top boundary is bottom - maxHeight if there IS a maxHeight.
// Otherwise it is calculated based upon the minHeight of the previous Component
(nextCmp.maxHeight ? nextBox.bottom - nextCmp.maxHeight : prevBox.y + (prevCmp.minHeight || defaultMin)) - splitWidth,
nextBox.right,
nextBox.bottom - (nextCmp.minHeight || defaultMin),
nextBox.x
);
}
// intersection of the two regions to provide region draggable
return prevConstrainRegion.intersect(nextConstrainRegion);
},
// Performs the actual resizing of the previous and next components
performResize: function(e, offset) {
var me = this,
splitter = me.getSplitter(),
orient = splitter.orientation,
prevCmp = me.getPrevCmp(),
nextCmp = me.getNextCmp(),
owner = splitter.ownerCt,
flexedSiblings = owner.query('>[flex]'),
len = flexedSiblings.length,
i = 0,
dimension,
size,
totalFlex = 0;
// Convert flexes to pixel values proportional to the total pixel width of all flexes.
for (; i < len; i++) {
size = flexedSiblings[i].getWidth();
totalFlex += size;
flexedSiblings[i].flex = size;
}
offset = offset || me.getOffset('dragTarget');
if (orient === 'vertical') {
offset = offset[0];
dimension = 'width';
} else {
dimension = 'height';
offset = offset[1];
}
if (prevCmp) {
size = me.prevBox[dimension] + offset;
if (prevCmp.flex) {
prevCmp.flex = size;
} else {
prevCmp[dimension] = size;
}
}
if (nextCmp) {
size = me.nextBox[dimension] - offset;
if (nextCmp.flex) {
nextCmp.flex = size;
} else {
nextCmp[dimension] = size;
}
}
owner.updateLayout();
},
// Cleans up the overlay (if we have one) and calls the base. This cannot be done in
// onEnd, because onEnd is only called if a drag is detected but the overlay is created
// regardless (by onBeforeStart).
endDrag: function () {
var me = this;
if (me.overlay) {
me.overlay.remove();
delete me.overlay;
}
me.callParent(arguments); // this calls onEnd
},
// perform the resize and remove the proxy class from the splitter el
onEnd: function(e) {
var me = this,
splitter = me.getSplitter();
splitter.removeCls(splitter.baseCls + '-active');
me.performResize(e, me.getOffset('dragTarget'));
},
// Track the proxy and set the proper XY coordinates
// while constraining the drag
onDrag: function(e) {
var me = this,
offset = me.getOffset('dragTarget'),
splitter = me.getSplitter(),
splitEl = splitter.getEl(),
orient = splitter.orientation;
if (orient === "vertical") {
splitEl.setX(me.startRegion.left + offset[0]);
} else {
splitEl.setY(me.startRegion.top + offset[1]);
}
},
getSplitter: function() {
return this.splitter;
}
});