wisemapping-open-source/mindplot/src/main/javascript/nlayout/SymetricSorter.js

mindplot.nlayout.SymetricSorder = new Class({
    Extends: mindplot.nlayout.ChildrenSorterStrategy,
    initialize:function() {

    },

    computeChildrenIdByHeights: function(treeSet, node) {
        var result = {};
        this._computeChildrenHeight(treeSet, node, result);
        return result;
    },


    _computeChildrenHeight : function(treeSet, node, heightCache) {
        var height = node.getSize().height + (mindplot.nlayout.SymetricSorder.INTERNODE_VERTICAL_PADDING * 2); // 2* Top and down padding;

        var result;
        var children = treeSet.getChildren(node);
        if (children.length == 0) {
            result = height;
        } else {
            var childrenHeight = 0;
            children.forEach(function(child) {
                childrenHeight += this._computeChildrenHeight(treeSet, child, heightCache);
            }, this);

            result = Math.max(height, childrenHeight);
        }

        if (heightCache) {
            heightCache[node.getId()] = result;
        }

        return result;
    },

    predict : function(parent, graph, position) {

        // No children...
        var children = graph.getChildren(parent);
        if (children.length == 0) {
            return [0,parent.getPosition()];
        }

        // Try to fit within ...
        //
        // - Order is change if the position top position is changed ...
        // - Suggested position is the middle bitween the two topics...
        //
        var result = null;
        children.forEach(function(child) {
            var cpos = child.getPosition();
            if (position.y > cpos.y) {
                result = [child.getOrder(),{x:cpos.x,y:cpos.y + child.getSize().height}];
            }
        });

        // Ok, no overlap. Suggest a new order.
        if (result) {
            var last = children.getLast();
            result = [last.getOrder() + 1,{x:cpos.x,y:cpos.y - (mindplot.nlayout.SymetricSorder.INTERNODE_VERTICAL_PADDING * 4)}];
        }

        return result;
    },

    insert: function(treeSet, parent, child, order) {
        var children = this._getSortedChildren(treeSet, parent);
        $assert(order <= children.length, "Order must be continues and can not have holes. Order:" + order);

        // Shift all the elements in one .
        for (var i = order; i < children.length; i++) {
            var node = children[i];
            node.setOrder(i + 1);
        }
        child.setOrder(order);
    },

    detach:function(treeSet, node) {
        var parent = treeSet.getParent(node);
        var children = this._getSortedChildren(treeSet, parent);
        var order = node.getOrder();
        $assert(children[order] === node, "Node seems not to be in the right position");

        // Shift all the nodes ...
        for (var i = node.getOrder() + 1; i < children.length; i++) {
            var child = children[i];
            child.setOrder(child.getOrder() - 1);
        }
        node.setOrder(0);
    },

    _getSortedChildren:function(treeSet, node) {
        var result = treeSet.getChildren(node);
        result.sort(function(a, b) {
            return a.getOrder() - b.getOrder()
        });
        return result;
    },

    verify:function(treeSet, node) {
        // Check that all is consistent ...
        var children = this._getSortedChildren(treeSet, node);

        for (var i = 0; i < children.length; i++) {
            $assert(children[i].getOrder() == i, "missing order elements");
        }
    },

    computeOffsets:function(treeSet, node) {
        $assert(treeSet, "treeSet can no be null.");
        $assert(node, "node can no be null.");
        $assert("order can no be null.");

        var children = this._getSortedChildren(treeSet, node);

        // Compute heights ...
        var heights = children.map(function(child) {
            return {id:child.getId(),height:this._computeChildrenHeight(treeSet, child)};
        }.bind(this));

        // Compute the center of the branch ...
        var totalHeight = 0;
        heights.forEach(function(elem) {
            totalHeight += elem.height;
        });
        var ysum = totalHeight / 2;

        // Calculate the offsets ...
        var result = {};
        for (var i = 0; i < heights.length; i++) {
            ysum = ysum - heights[i].height;

            var yOffset = ysum + mindplot.nlayout.SymetricSorder.INTERNODE_VERTICAL_PADDING;
            var xOffset = mindplot.nlayout.SymetricSorder.INTERNODE_HORIZONTAL_PADDING;

            $assert(!isNaN(xOffset), "xOffset can not be null");
            $assert(!isNaN(yOffset), "yOffset can not be null");

            result[heights[i].id] = {x:xOffset,y:yOffset};

        }
        return result;
    }
});

mindplot.nlayout.SymetricSorder.INTERNODE_VERTICAL_PADDING = 5;
mindplot.nlayout.SymetricSorder.INTERNODE_HORIZONTAL_PADDING = 5;
Close the first prototype of the new layout 2011-12-11 17:13:43 +01:00			`mindplot.nlayout.SymetricSorder = new Class({`
			`Extends: mindplot.nlayout.ChildrenSorterStrategy,`
			`initialize:function() {`

			`},`

			`computeChildrenIdByHeights: function(treeSet, node) {`
			`var result = {};`
			`this._computeChildrenHeight(treeSet, node, result);`
			`return result;`
			`},`


			`_computeChildrenHeight : function(treeSet, node, heightCache) {`
			`var height = node.getSize().height + (mindplot.nlayout.SymetricSorder.INTERNODE_VERTICAL_PADDING * 2); // 2* Top and down padding;`

			`var result;`
			`var children = treeSet.getChildren(node);`
			`if (children.length == 0) {`
			`result = height;`
			`} else {`
			`var childrenHeight = 0;`
			`children.forEach(function(child) {`
			`childrenHeight += this._computeChildrenHeight(treeSet, child, heightCache);`
			`}, this);`

			`result = Math.max(height, childrenHeight);`
			`}`

			`if (heightCache) {`
			`heightCache[node.getId()] = result;`
			`}`

			`return result;`
			`},`

			`predict : function(parent, graph, position) {`

			`// No children...`
			`var children = graph.getChildren(parent);`
			`if (children.length == 0) {`
			`return [0,parent.getPosition()];`
			`}`

			`// Try to fit within ...`
			`//`
			`// - Order is change if the position top position is changed ...`
			`// - Suggested position is the middle bitween the two topics...`
			`//`
			`var result = null;`
			`children.forEach(function(child) {`
			`var cpos = child.getPosition();`
			`if (position.y > cpos.y) {`
			`result = [child.getOrder(),{x:cpos.x,y:cpos.y + child.getSize().height}];`
			`}`
			`});`

			`// Ok, no overlap. Suggest a new order.`
			`if (result) {`
			`var last = children.getLast();`
			`result = [last.getOrder() + 1,{x:cpos.x,y:cpos.y - (mindplot.nlayout.SymetricSorder.INTERNODE_VERTICAL_PADDING * 4)}];`
			`}`

			`return result;`
			`},`

			`insert: function(treeSet, parent, child, order) {`
More operations supported. 2011-12-12 03:47:01 +01:00			`var children = this._getSortedChildren(treeSet, parent);`
Close the first prototype of the new layout 2011-12-11 17:13:43 +01:00			`$assert(order <= children.length, "Order must be continues and can not have holes. Order:" + order);`

			`// Shift all the elements in one .`
			`for (var i = order; i < children.length; i++) {`
			`var node = children[i];`
More operations supported. 2011-12-12 03:47:01 +01:00			`node.setOrder(i + 1);`
Close the first prototype of the new layout 2011-12-11 17:13:43 +01:00			`}`
			`child.setOrder(order);`
			`},`

More operations supported. 2011-12-12 03:47:01 +01:00			`detach:function(treeSet, node) {`
			`var parent = treeSet.getParent(node);`
			`var children = this._getSortedChildren(treeSet, parent);`
			`var order = node.getOrder();`
			`$assert(children[order] === node, "Node seems not to be in the right position");`

			`// Shift all the nodes ...`
			`for (var i = node.getOrder() + 1; i < children.length; i++) {`
			`var child = children[i];`
			`child.setOrder(child.getOrder() - 1);`
			`}`
			`node.setOrder(0);`
			`},`

			`_getSortedChildren:function(treeSet, node) {`
			`var result = treeSet.getChildren(node);`
			`result.sort(function(a, b) {`
Close the first prototype of the new layout 2011-12-11 17:13:43 +01:00			`return a.getOrder() - b.getOrder()`
			`});`
More operations supported. 2011-12-12 03:47:01 +01:00			`return result;`
			`},`

			`verify:function(treeSet, node) {`
			`// Check that all is consistent ...`
			`var children = this._getSortedChildren(treeSet, node);`
Close the first prototype of the new layout 2011-12-11 17:13:43 +01:00
			`for (var i = 0; i < children.length; i++) {`
			`$assert(children[i].getOrder() == i, "missing order elements");`
			`}`
			`},`

			`computeOffsets:function(treeSet, node) {`
			`$assert(treeSet, "treeSet can no be null.");`
			`$assert(node, "node can no be null.");`
			`$assert("order can no be null.");`

More operations supported. 2011-12-12 03:47:01 +01:00			`var children = this._getSortedChildren(treeSet, node);`
Close the first prototype of the new layout 2011-12-11 17:13:43 +01:00
			`// Compute heights ...`
			`var heights = children.map(function(child) {`
			`return {id:child.getId(),height:this._computeChildrenHeight(treeSet, child)};`
			`}.bind(this));`

			`// Compute the center of the branch ...`
			`var totalHeight = 0;`
			`heights.forEach(function(elem) {`
			`totalHeight += elem.height;`
			`});`
			`var ysum = totalHeight / 2;`

			`// Calculate the offsets ...`
			`var result = {};`
			`for (var i = 0; i < heights.length; i++) {`
			`ysum = ysum - heights[i].height;`

			`var yOffset = ysum + mindplot.nlayout.SymetricSorder.INTERNODE_VERTICAL_PADDING;`
			`var xOffset = mindplot.nlayout.SymetricSorder.INTERNODE_HORIZONTAL_PADDING;`

			`$assert(!isNaN(xOffset), "xOffset can not be null");`
			`$assert(!isNaN(yOffset), "yOffset can not be null");`

			`result[heights[i].id] = {x:xOffset,y:yOffset};`

			`}`
			`return result;`
			`}`
			`});`

			`mindplot.nlayout.SymetricSorder.INTERNODE_VERTICAL_PADDING = 5;`
			`mindplot.nlayout.SymetricSorder.INTERNODE_HORIZONTAL_PADDING = 5;`