/**
 * @class Ext.chart.axis.Axis
 * @extends Ext.chart.axis.Abstract
 * 
 * Defines axis for charts. The axis position, type, style can be configured.
 * The axes are defined in an axes array of configuration objects where the type, 
 * field, grid and other configuration options can be set. To know more about how 
 * to create a Chart please check the Chart class documentation. Here's an example for the axes part:
 * An example of axis for a series (in this case for an area chart that has multiple layers of yFields) could be:
 * 
 *     axes: [{
 *         type: 'Numeric',
 *         grid: true,
 *         position: 'left',
 *         fields: ['data1', 'data2', 'data3'],
 *         title: 'Number of Hits',
 *         grid: {
 *             odd: {
 *                 opacity: 1,
 *                 fill: '#ddd',
 *                 stroke: '#bbb',
 *                 'stroke-width': 1
 *             }
 *         },
 *         minimum: 0
 *     }, {
 *         type: 'Category',
 *         position: 'bottom',
 *         fields: ['name'],
 *         title: 'Month of the Year',
 *         grid: true,
 *         label: {
 *             rotate: {
 *                 degrees: 315
 *             }
 *         }
 *     }]
 * 
 * In this case we use a `Numeric` axis for displaying the values of the Area series and a `Category` axis for displaying the names of
 * the store elements. The numeric axis is placed on the left of the screen, while the category axis is placed at the bottom of the chart. 
 * Both the category and numeric axes have `grid` set, which means that horizontal and vertical lines will cover the chart background. In the 
 * category axis the labels will be rotated so they can fit the space better.
 */
Ext.define('Ext.chart.axis.Axis', {

    /* Begin Definitions */

    extend: 'Ext.chart.axis.Abstract',

    alternateClassName: 'Ext.chart.Axis',

    requires: ['Ext.draw.Draw'],

    /* End Definitions */

    /**
     * @cfg {Boolean | Object} grid 
     * The grid configuration enables you to set a background grid for an axis.
     * If set to *true* on a vertical axis, vertical lines will be drawn.
     * If set to *true* on a horizontal axis, horizontal lines will be drawn.
     * If both are set, a proper grid with horizontal and vertical lines will be drawn.
     *
     * You can set specific options for the grid configuration for odd and/or even lines/rows.
     * Since the rows being drawn are rectangle sprites, you can set to an odd or even property
     * all styles that apply to {@link Ext.draw.Sprite}. For more information on all the style
     * properties you can set please take a look at {@link Ext.draw.Sprite}. Some useful style properties are `opacity`, `fill`, `stroke`, `stroke-width`, etc.
     *
     * The possible values for a grid option are then *true*, *false*, or an object with `{ odd, even }` properties
     * where each property contains a sprite style descriptor object that is defined in {@link Ext.draw.Sprite}.
     *
     * For example:
     *
     *     axes: [{
     *         type: 'Numeric',
     *         grid: true,
     *         position: 'left',
     *         fields: ['data1', 'data2', 'data3'],
     *         title: 'Number of Hits',
     *         grid: {
     *             odd: {
     *                 opacity: 1,
     *                 fill: '#ddd',
     *                 stroke: '#bbb',
     *                 'stroke-width': 1
     *             }
     *         }
     *     }, {
     *         type: 'Category',
     *         position: 'bottom',
     *         fields: ['name'],
     *         title: 'Month of the Year',
     *         grid: true
     *     }]
     * 
     */

    /**
     * @cfg {Number} majorTickSteps 
     * If `minimum` and `maximum` are specified it forces the number of major ticks to the specified value.
     */

    /**
     * @cfg {Number} minorTickSteps 
     * The number of small ticks between two major ticks. Default is zero.
     */
    
    //@private force min/max values from store
    forceMinMax: false,
    
    /**
     * @cfg {Number} dashSize 
     * The size of the dash marker. Default's 3.
     */
    dashSize: 3,
    
    /**
     * @cfg {String} position
     * Where to set the axis. Available options are `left`, `bottom`, `right`, `top`. Default's `bottom`.
     */
    position: 'bottom',
    
    // @private
    skipFirst: false,
    
    /**
     * @cfg {Number} length
     * Offset axis position. Default's 0.
     */
    length: 0,
    
    /**
     * @cfg {Number} width
     * Offset axis width. Default's 0.
     */
    width: 0,
    
    majorTickSteps: false,

    // @private
    applyData: Ext.emptyFn,

    // @private creates a structure with start, end and step points.
    calcEnds: function() {
        var me = this,
            math = Math,
            mmax = math.max,
            mmin = math.min,
            store = me.chart.substore || me.chart.store,
            series = me.chart.series.items,
            fields = me.fields,
            ln = fields.length,
            min = isNaN(me.minimum) ? Infinity : me.minimum,
            max = isNaN(me.maximum) ? -Infinity : me.maximum,
            prevMin = me.prevMin,
            prevMax = me.prevMax,
            aggregate = false,
            total = 0,
            excludes = [],
            outfrom, outto,
            i, l, values, rec, out;

        //if one series is stacked I have to aggregate the values
        //for the scale.
        for (i = 0, l = series.length; !aggregate && i < l; i++) {
            aggregate = aggregate || series[i].stacked;
            excludes = series[i].__excludes || excludes;
        }
        store.each(function(record) {
            if (aggregate) {
                if (!isFinite(min)) {
                    min = 0;
                }
                for (values = [0, 0], i = 0; i < ln; i++) {
                    if (excludes[i]) {
                        continue;
                    }
                    rec = record.get(fields[i]);
                    values[+(rec > 0)] += math.abs(rec);
                }
                max = mmax(max, -values[0], values[1]);
                min = mmin(min, -values[0], values[1]);
            }
            else {
                for (i = 0; i < ln; i++) {
                    if (excludes[i]) {
                        continue;
                    }
                    value = record.get(fields[i]);
                    max = mmax(max, value);
                    min = mmin(min, value);
                }
            }
        });
        if (!isFinite(max)) {
            max = me.prevMax || 0;
        }
        if (!isFinite(min)) {
            min = me.prevMin || 0;
        }
        //normalize min max for snapEnds.
        if (min != max && (max != (max >> 0))) {
            max = (max >> 0) + 1;
        }
        out = Ext.draw.Draw.snapEnds(min, max, me.majorTickSteps !== false ?  (me.majorTickSteps +1) : me.steps);
        outfrom = out.from;
        outto = out.to;
        if (me.forceMinMax) {
            if (!isNaN(max)) {
                out.to = max;
            }
            if (!isNaN(min)) {
                out.from = min;
            }
        }
        if (!isNaN(me.maximum)) {
            //TODO(nico) users are responsible for their own minimum/maximum values set.
            //Clipping should be added to remove lines in the chart which are below the axis.
            out.to = me.maximum;
        }
        if (!isNaN(me.minimum)) {
            //TODO(nico) users are responsible for their own minimum/maximum values set.
            //Clipping should be added to remove lines in the chart which are below the axis.
            out.from = me.minimum;
        }
        
        //Adjust after adjusting minimum and maximum
        out.step = (out.to - out.from) / (outto - outfrom) * out.step;
        
        if (me.adjustMaximumByMajorUnit) {
            out.to += out.step;
        }
        if (me.adjustMinimumByMajorUnit) {
            out.from -= out.step;
        }
        me.prevMin = min == max? 0 : min;
        me.prevMax = max;
        return out;
    },

    /**
     * Renders the axis into the screen and updates it's position.
     */
    drawAxis: function (init) {
        var me = this,
            i, j,
            x = me.x,
            y = me.y,
            gutterX = me.chart.maxGutter[0],
            gutterY = me.chart.maxGutter[1],
            dashSize = me.dashSize,
            subDashesX = me.minorTickSteps || 0,
            subDashesY = me.minorTickSteps || 0,
            length = me.length,
            position = me.position,
            inflections = [],
            calcLabels = false,
            stepCalcs = me.applyData(),
            step = stepCalcs.step,
            steps = stepCalcs.steps,
            from = stepCalcs.from,
            to = stepCalcs.to,
            trueLength,
            currentX,
            currentY,
            path,
            prev,
            dashesX,
            dashesY,
            delta;
        
        //If no steps are specified
        //then don't draw the axis. This generally happens
        //when an empty store.
        if (me.hidden || isNaN(step) || (from == to)) {
            return;
        }

        me.from = stepCalcs.from;
        me.to = stepCalcs.to;
        if (position == 'left' || position == 'right') {
            currentX = Math.floor(x) + 0.5;
            path = ["M", currentX, y, "l", 0, -length];
            trueLength = length - (gutterY * 2);
        }
        else {
            currentY = Math.floor(y) + 0.5;
            path = ["M", x, currentY, "l", length, 0];
            trueLength = length - (gutterX * 2);
        }
        
        delta = trueLength / (steps || 1);
        dashesX = Math.max(subDashesX +1, 0);
        dashesY = Math.max(subDashesY +1, 0);
        if (me.type == 'Numeric') {
            calcLabels = true;
            me.labels = [stepCalcs.from];
        }
        if (position == 'right' || position == 'left') {
            currentY = y - gutterY;
            currentX = x - ((position == 'left') * dashSize * 2);
            while (currentY >= y - gutterY - trueLength) {
                path.push("M", currentX, Math.floor(currentY) + 0.5, "l", dashSize * 2 + 1, 0);
                if (currentY != y - gutterY) {
                    for (i = 1; i < dashesY; i++) {
                        path.push("M", currentX + dashSize, Math.floor(currentY + delta * i / dashesY) + 0.5, "l", dashSize + 1, 0);
                    }
                }
                inflections.push([ Math.floor(x), Math.floor(currentY) ]);
                currentY -= delta;
                if (calcLabels) {
                    me.labels.push(me.labels[me.labels.length -1] + step);
                }
                if (delta === 0) {
                    break;
                }
            }
            if (Math.round(currentY + delta - (y - gutterY - trueLength))) {
                path.push("M", currentX, Math.floor(y - length + gutterY) + 0.5, "l", dashSize * 2 + 1, 0);
                for (i = 1; i < dashesY; i++) {
                    path.push("M", currentX + dashSize, Math.floor(y - length + gutterY + delta * i / dashesY) + 0.5, "l", dashSize + 1, 0);
                }
                inflections.push([ Math.floor(x), Math.floor(currentY) ]);
                if (calcLabels) {
                    me.labels.push(me.labels[me.labels.length -1] + step);
                }
            }
        } else {
            currentX = x + gutterX;
            currentY = y - ((position == 'top') * dashSize * 2);
            while (currentX <= x + gutterX + trueLength) {
                path.push("M", Math.floor(currentX) + 0.5, currentY, "l", 0, dashSize * 2 + 1);
                if (currentX != x + gutterX) {
                    for (i = 1; i < dashesX; i++) {
                        path.push("M", Math.floor(currentX - delta * i / dashesX) + 0.5, currentY, "l", 0, dashSize + 1);
                    }
                }
                inflections.push([ Math.floor(currentX), Math.floor(y) ]);
                currentX += delta;
                if (calcLabels) {
                    me.labels.push(me.labels[me.labels.length -1] + step);
                }
                if (delta === 0) {
                    break;
                }
            }
            if (Math.round(currentX - delta - (x + gutterX + trueLength))) {
                path.push("M", Math.floor(x + length - gutterX) + 0.5, currentY, "l", 0, dashSize * 2 + 1);
                for (i = 1; i < dashesX; i++) {
                    path.push("M", Math.floor(x + length - gutterX - delta * i / dashesX) + 0.5, currentY, "l", 0, dashSize + 1);
                }
                inflections.push([ Math.floor(currentX), Math.floor(y) ]);
                if (calcLabels) {
                    me.labels.push(me.labels[me.labels.length -1] + step);
                }
            }
        }
        if (!me.axis) {
            me.axis = me.chart.surface.add(Ext.apply({
                type: 'path',
                path: path
            }, me.axisStyle));
        }
        me.axis.setAttributes({
            path: path
        }, true);
        me.inflections = inflections;
        if (!init && me.grid) {
            me.drawGrid();
        }
        me.axisBBox = me.axis.getBBox();
        me.drawLabel();
    },

    /**
     * Renders an horizontal and/or vertical grid into the Surface.
     */
    drawGrid: function() {
        var me = this,
            surface = me.chart.surface, 
            grid = me.grid,
            odd = grid.odd,
            even = grid.even,
            inflections = me.inflections,
            ln = inflections.length - ((odd || even)? 0 : 1),
            position = me.position,
            gutter = me.chart.maxGutter,
            width = me.width - 2,
            vert = false,
            point, prevPoint,
            i = 1,
            path = [], styles, lineWidth, dlineWidth,
            oddPath = [], evenPath = [];
        
        if ((gutter[1] !== 0 && (position == 'left' || position == 'right')) ||
            (gutter[0] !== 0 && (position == 'top' || position == 'bottom'))) {
            i = 0;
            ln++;
        }
        for (; i < ln; i++) {
            point = inflections[i];
            prevPoint = inflections[i - 1];
            if (odd || even) {
                path = (i % 2)? oddPath : evenPath;
                styles = ((i % 2)? odd : even) || {};
                lineWidth = (styles.lineWidth || styles['stroke-width'] || 0) / 2;
                dlineWidth = 2 * lineWidth;
                if (position == 'left') {
                    path.push("M", prevPoint[0] + 1 + lineWidth, prevPoint[1] + 0.5 - lineWidth, 
                              "L", prevPoint[0] + 1 + width - lineWidth, prevPoint[1] + 0.5 - lineWidth,
                              "L", point[0] + 1 + width - lineWidth, point[1] + 0.5 + lineWidth,
                              "L", point[0] + 1 + lineWidth, point[1] + 0.5 + lineWidth, "Z");
                }
                else if (position == 'right') {
                    path.push("M", prevPoint[0] - lineWidth, prevPoint[1] + 0.5 - lineWidth, 
                              "L", prevPoint[0] - width + lineWidth, prevPoint[1] + 0.5 - lineWidth,
                              "L", point[0] - width + lineWidth, point[1] + 0.5 + lineWidth,
                              "L", point[0] - lineWidth, point[1] + 0.5 + lineWidth, "Z");
                }
                else if (position == 'top') {
                    path.push("M", prevPoint[0] + 0.5 + lineWidth, prevPoint[1] + 1 + lineWidth, 
                              "L", prevPoint[0] + 0.5 + lineWidth, prevPoint[1] + 1 + width - lineWidth,
                              "L", point[0] + 0.5 - lineWidth, point[1] + 1 + width - lineWidth,
                              "L", point[0] + 0.5 - lineWidth, point[1] + 1 + lineWidth, "Z");
                }
                else {
                    path.push("M", prevPoint[0] + 0.5 + lineWidth, prevPoint[1] - lineWidth, 
                            "L", prevPoint[0] + 0.5 + lineWidth, prevPoint[1] - width + lineWidth,
                            "L", point[0] + 0.5 - lineWidth, point[1] - width + lineWidth,
                            "L", point[0] + 0.5 - lineWidth, point[1] - lineWidth, "Z");
                }
            } else {
                if (position == 'left') {
                    path = path.concat(["M", point[0] + 0.5, point[1] + 0.5, "l", width, 0]);
                }
                else if (position == 'right') {
                    path = path.concat(["M", point[0] - 0.5, point[1] + 0.5, "l", -width, 0]);
                }
                else if (position == 'top') {
                    path = path.concat(["M", point[0] + 0.5, point[1] + 0.5, "l", 0, width]);
                }
                else {
                    path = path.concat(["M", point[0] + 0.5, point[1] - 0.5, "l", 0, -width]);
                }
            }
        }
        if (odd || even) {
            if (oddPath.length) {
                if (!me.gridOdd && oddPath.length) {
                    me.gridOdd = surface.add({
                        type: 'path',
                        path: oddPath
                    });
                }
                me.gridOdd.setAttributes(Ext.apply({
                    path: oddPath,
                    hidden: false
                }, odd || {}), true);
            }
            if (evenPath.length) {
                if (!me.gridEven) {
                    me.gridEven = surface.add({
                        type: 'path',
                        path: evenPath
                    });
                } 
                me.gridEven.setAttributes(Ext.apply({
                    path: evenPath,
                    hidden: false
                }, even || {}), true);
            }
        }
        else {
            if (path.length) {
                if (!me.gridLines) {
                    me.gridLines = me.chart.surface.add({
                        type: 'path',
                        path: path,
                        "stroke-width": me.lineWidth || 1,
                        stroke: me.gridColor || '#ccc'
                    });
                }
                me.gridLines.setAttributes({
                    hidden: false,
                    path: path
                }, true);
            }
            else if (me.gridLines) {
                me.gridLines.hide(true);
            }
        }
    },

    //@private
    getOrCreateLabel: function(i, text) {
        var me = this,
            labelGroup = me.labelGroup,
            textLabel = labelGroup.getAt(i),
            surface = me.chart.surface;
        if (textLabel) {
            if (text != textLabel.attr.text) {
                textLabel.setAttributes(Ext.apply({
                    text: text
                }, me.label), true);
                textLabel._bbox = textLabel.getBBox();
            }
        }
        else {
            textLabel = surface.add(Ext.apply({
                group: labelGroup,
                type: 'text',
                x: 0,
                y: 0,
                text: text
            }, me.label));
            surface.renderItem(textLabel);
            textLabel._bbox = textLabel.getBBox();
        }
        //get untransformed bounding box
        if (me.label.rotation) {
            textLabel.setAttributes({
                rotation: {
                    degrees: 0    
                }    
            }, true);
            textLabel._ubbox = textLabel.getBBox();
            textLabel.setAttributes(me.label, true);
        } else {
            textLabel._ubbox = textLabel._bbox;
        }
        return textLabel;
    },
    
    rect2pointArray: function(sprite) {
        var surface = this.chart.surface,
            rect = surface.getBBox(sprite, true),
            p1 = [rect.x, rect.y],
            p1p = p1.slice(),
            p2 = [rect.x + rect.width, rect.y],
            p2p = p2.slice(),
            p3 = [rect.x + rect.width, rect.y + rect.height],
            p3p = p3.slice(),
            p4 = [rect.x, rect.y + rect.height],
            p4p = p4.slice(),
            matrix = sprite.matrix;
        //transform the points
        p1[0] = matrix.x.apply(matrix, p1p);
        p1[1] = matrix.y.apply(matrix, p1p);
        
        p2[0] = matrix.x.apply(matrix, p2p);
        p2[1] = matrix.y.apply(matrix, p2p);
        
        p3[0] = matrix.x.apply(matrix, p3p);
        p3[1] = matrix.y.apply(matrix, p3p);
        
        p4[0] = matrix.x.apply(matrix, p4p);
        p4[1] = matrix.y.apply(matrix, p4p);
        return [p1, p2, p3, p4];
    },
    
    intersect: function(l1, l2) {
        var r1 = this.rect2pointArray(l1),
            r2 = this.rect2pointArray(l2);
        return !!Ext.draw.Draw.intersect(r1, r2).length;
    },
    
    drawHorizontalLabels: function() {
       var  me = this,
            labelConf = me.label,
            floor = Math.floor,
            max = Math.max,
            axes = me.chart.axes,
            position = me.position,
            inflections = me.inflections,
            ln = inflections.length,
            labels = me.labels,
            labelGroup = me.labelGroup,
            maxHeight = 0,
            ratio,
            gutterY = me.chart.maxGutter[1],
            ubbox, bbox, point, prevX, prevLabel,
            projectedWidth = 0,
            textLabel, attr, textRight, text,
            label, last, x, y, i, firstLabel;

        last = ln - 1;
        //get a reference to the first text label dimensions
        point = inflections[0];
        firstLabel = me.getOrCreateLabel(0, me.label.renderer(labels[0]));
        ratio = Math.abs(Math.sin(labelConf.rotate && (labelConf.rotate.degrees * Math.PI / 180) || 0)) >> 0;
        
        for (i = 0; i < ln; i++) {
            point = inflections[i];
            text = me.label.renderer(labels[i]);
            textLabel = me.getOrCreateLabel(i, text);
            bbox = textLabel._bbox;
            maxHeight = max(maxHeight, bbox.height + me.dashSize + me.label.padding);
            x = floor(point[0] - (ratio? bbox.height : bbox.width) / 2);
            if (me.chart.maxGutter[0] == 0) {
                if (i == 0 && axes.findIndex('position', 'left') == -1) {
                    x = point[0];
                }
                else if (i == last && axes.findIndex('position', 'right') == -1) {
                    x = point[0] - bbox.width;
                }
            }
            if (position == 'top') {
                y = point[1] - (me.dashSize * 2) - me.label.padding - (bbox.height / 2);
            }
            else {
                y = point[1] + (me.dashSize * 2) + me.label.padding + (bbox.height / 2);
            }
            
            textLabel.setAttributes({
                hidden: false,
                x: x,
                y: y
            }, true);

            // Skip label if there isn't available minimum space
            if (i != 0 && (me.intersect(textLabel, prevLabel)
                || me.intersect(textLabel, firstLabel))) {
                textLabel.hide(true);
                continue;
            }
            
            prevLabel = textLabel;
        }

        return maxHeight;
    },
    
    drawVerticalLabels: function() {
        var me = this,
            inflections = me.inflections,
            position = me.position,
            ln = inflections.length,
            labels = me.labels,
            maxWidth = 0,
            max = Math.max,
            floor = Math.floor,
            ceil = Math.ceil,
            axes = me.chart.axes,
            gutterY = me.chart.maxGutter[1],
            ubbox, bbox, point, prevLabel,
            projectedWidth = 0,
            textLabel, attr, textRight, text,
            label, last, x, y, i;

        last = ln;
        for (i = 0; i < last; i++) {
            point = inflections[i];
            text = me.label.renderer(labels[i]);
            textLabel = me.getOrCreateLabel(i, text);
            bbox = textLabel._bbox;
            
            maxWidth = max(maxWidth, bbox.width + me.dashSize + me.label.padding);
            y = point[1];
            if (gutterY < bbox.height / 2) {
                if (i == last - 1 && axes.findIndex('position', 'top') == -1) {
                    y = me.y - me.length + ceil(bbox.height / 2);
                }
                else if (i == 0 && axes.findIndex('position', 'bottom') == -1) {
                    y = me.y - floor(bbox.height / 2);
                }
            }
            if (position == 'left') {
                x = point[0] - bbox.width - me.dashSize - me.label.padding - 2;
            }
            else {
                x = point[0] + me.dashSize + me.label.padding + 2;
            }    
            textLabel.setAttributes(Ext.apply({
                hidden: false,
                x: x,
                y: y
            }, me.label), true);
            // Skip label if there isn't available minimum space
            if (i != 0 && me.intersect(textLabel, prevLabel)) {
                textLabel.hide(true);
                continue;
            }
            prevLabel = textLabel;
        }
        
        return maxWidth;
    },

    /**
     * Renders the labels in the axes.
     */
    drawLabel: function() {
        var me = this,
            position = me.position,
            labelGroup = me.labelGroup,
            inflections = me.inflections,
            maxWidth = 0,
            maxHeight = 0,
            ln, i;

        if (position == 'left' || position == 'right') {
            maxWidth = me.drawVerticalLabels();    
        } else {
            maxHeight = me.drawHorizontalLabels();
        }

        // Hide unused bars
        ln = labelGroup.getCount();
        i = inflections.length;
        for (; i < ln; i++) {
            labelGroup.getAt(i).hide(true);
        }

        me.bbox = {};
        Ext.apply(me.bbox, me.axisBBox);
        me.bbox.height = maxHeight;
        me.bbox.width = maxWidth;
        if (Ext.isString(me.title)) {
            me.drawTitle(maxWidth, maxHeight);
        }
    },

    // @private creates the elipsis for the text.
    elipsis: function(sprite, text, desiredWidth, minWidth, center) {
        var bbox,
            x;

        if (desiredWidth < minWidth) {
            sprite.hide(true);
            return false;
        }
        while (text.length > 4) {
            text = text.substr(0, text.length - 4) + "...";
            sprite.setAttributes({
                text: text
            }, true);
            bbox = sprite.getBBox();
            if (bbox.width < desiredWidth) {
                if (typeof center == 'number') {
                    sprite.setAttributes({
                        x: Math.floor(center - (bbox.width / 2))
                    }, true);
                }
                break;
            }
        }
        return true;
    },

    /**
     * Updates the {@link #title} of this axis.
     * @param {String} title
     */
    setTitle: function(title) {
        this.title = title;
        this.drawLabel();
    },

    // @private draws the title for the axis.
    drawTitle: function(maxWidth, maxHeight) {
        var me = this,
            position = me.position,
            surface = me.chart.surface,
            displaySprite = me.displaySprite,
            title = me.title,
            rotate = (position == 'left' || position == 'right'),
            x = me.x,
            y = me.y,
            base, bbox, pad;

        if (displaySprite) {
            displaySprite.setAttributes({text: title}, true);
        } else {
            base = {
                type: 'text',
                x: 0,
                y: 0,
                text: title
            };
            displaySprite = me.displaySprite = surface.add(Ext.apply(base, me.axisTitleStyle, me.labelTitle));
            surface.renderItem(displaySprite);
        }
        bbox = displaySprite.getBBox();
        pad = me.dashSize + me.label.padding;

        if (rotate) {
            y -= ((me.length / 2) - (bbox.height / 2));
            if (position == 'left') {
                x -= (maxWidth + pad + (bbox.width / 2));
            }
            else {
                x += (maxWidth + pad + bbox.width - (bbox.width / 2));
            }
            me.bbox.width += bbox.width + 10;
        }
        else {
            x += (me.length / 2) - (bbox.width * 0.5);
            if (position == 'top') {
                y -= (maxHeight + pad + (bbox.height * 0.3));
            }
            else {
                y += (maxHeight + pad + (bbox.height * 0.8));
            }
            me.bbox.height += bbox.height + 10;
        }
        displaySprite.setAttributes({
            translate: {
                x: x,
                y: y
            }
        }, true);
    }
});