芝麻web文件管理V1.00

编辑当前文件:/home2/sdektunc/.trash/cepali/lib/yuilib/3.17.2/series-curve-util/series-curve-util-debug.js

/*
YUI 3.17.2 (build 9c3c78e)
Copyright 2014 Yahoo! Inc. All rights reserved.
Licensed under the BSD License.
http://yuilibrary.com/license/
*/

YUI.add('series-curve-util', function (Y, NAME) {

/**
 * Provides functionality for drawing curves in a series.
 *
 * @module charts
 * @submodule series-curve-util
 */
/**
 * Utility class used for calculating curve points.
 *
 * @class CurveUtil
 * @constructor
 * @submodule series-curve-util
 */
function CurveUtil()
{
}

CurveUtil.prototype = {
    /**
     * Creates an array of start, end and control points for splines.
     *
     * @method getCurveControlPoints
     * @param {Array} xcoords Collection of x-coordinates used for calculate the curves
     * @param {Array} ycoords Collection of y-coordinates used for calculate the curves
     * @return Object
     * @protected
     */
    getCurveControlPoints: function(xcoords, ycoords)
    {
		var outpoints = [],
            i = 1,
            l = xcoords.length - 1,
            xvals = [],
            yvals = [];

// Too few points, need at least two
		if (l < 1)
        {
			return null;
		}

outpoints[0] = {
            startx: xcoords[0],
            starty: ycoords[0],
            endx: xcoords[1],
            endy: ycoords[1]
        };

// Special case, the Bezier should be a straight line
        if (l === 1)
        {
			outpoints[0].ctrlx1 = (2.0*xcoords[0] + xcoords[1])/3.0;
			outpoints[0].ctrly2 = (2.0*ycoords[0] + ycoords[1])/3.0;
			outpoints[0].ctrlx2 = 2.0*outpoints[0].ctrlx1 - xcoords[0];
            outpoints[0].ctrly2 = 2.0*outpoints[0].ctrly1 - ycoords[0];
            return outpoints;
		}

for (; i < l; ++i)
        {
			outpoints.push({
                startx: Math.round(xcoords[i]),
                starty: Math.round(ycoords[i]),
                endx: Math.round(xcoords[i+1]),
                endy: Math.round(ycoords[i+1])
            });
			xvals[i] = 4.0 * xcoords[i] + 2*xcoords[i+1];
			yvals[i] = 4.0*ycoords[i] + 2*ycoords[i+1];
		}

xvals[0] = xcoords[0] + (2.0 * xcoords[1]);
		xvals[l-1] = (8.0 * xcoords[l-1] + xcoords[l]) / 2.0;
		xvals = this.getControlPoints(xvals.concat());
        yvals[0] = ycoords[0] + (2.0 * ycoords[1]);
		yvals[l-1] = (8.0 * ycoords[l-1] + ycoords[l]) / 2.0;
		yvals = this.getControlPoints(yvals.concat());

for (i = 0; i < l; ++i)
        {
			outpoints[i].ctrlx1 = Math.round(xvals[i]);
            outpoints[i].ctrly1 = Math.round(yvals[i]);

if (i < l-1)
            {
				outpoints[i].ctrlx2 = Math.round(2*xcoords[i+1] - xvals[i+1]);
                outpoints[i].ctrly2 = Math.round(2*ycoords[i+1] - yvals[i+1]);
			}
			else
            {
				outpoints[i].ctrlx2 = Math.round((xcoords[l] + xvals[l-1])/2);
                outpoints[i].ctrly2 = Math.round((ycoords[l] + yvals[l-1])/2);
			}
		}

return outpoints;
	},

/**
     * Gets the control points for the curve.
     *
     * @method getControlPoints
     * @param {Array} vals Collection of values coords used to generate control points.
     * @return Array
     * @private
     */
	getControlPoints: function(vals)
    {
		var l = vals.length,
            x = [],
            tmp = [],
            b = 2.0,
            i = 1;
		x[0] = vals[0] / b;
		for (; i < l; ++i)
        {
			tmp[i] = 1/b;
			b = (i < l-1 ? 4.0 : 3.5) - tmp[i];
			x[i] = (vals[i] - x[i-1]) / b;
		}

for (i = 1; i < l; ++i)
        {
			x[l-i-1] -= tmp[l-i] * x[l-i];
		}

return x;
	}
};
Y.CurveUtil = CurveUtil;

}, '3.17.2');