hand-detection/assets/plugin/chart/highcharts/code/js/modules/solid-gauge.src.js

/**
 * @license  Highcharts JS v5.0.2 (2016-10-26)
 * Solid angular gauge module
 *
 * (c) 2010-2016 Torstein Honsi
 *
 * License: www.highcharts.com/license
 */
(function(factory) {
    if (typeof module === 'object' && module.exports) {
        module.exports = factory;
    } else {
        factory(Highcharts);
    }
}(function(Highcharts) {
    (function(H) {
        /**
         * Solid angular gauge module
         *
         * (c) 2010-2016 Torstein Honsi
         *
         * License: www.highcharts.com/license
         */

        'use strict';

        var pInt = H.pInt,
            pick = H.pick,
            each = H.each,
            isNumber = H.isNumber,
            colorAxisMethods;

        // These methods are defined in the ColorAxis object, and copied here.
        // If we implement an AMD system we should make ColorAxis a dependency.
        colorAxisMethods = {


            initDataClasses: function(userOptions) {
                var axis = this,
                    chart = this.chart,
                    dataClasses,
                    colorCounter = 0,
                    options = this.options;
                this.dataClasses = dataClasses = [];

                each(userOptions.dataClasses, function(dataClass, i) {
                    var colors;

                    dataClass = H.merge(dataClass);
                    dataClasses.push(dataClass);
                    if (!dataClass.color) {
                        if (options.dataClassColor === 'category') {
                            colors = chart.options.colors;
                            dataClass.color = colors[colorCounter++];
                            // loop back to zero
                            if (colorCounter === colors.length) {
                                colorCounter = 0;
                            }
                        } else {
                            dataClass.color = axis.tweenColors(H.color(options.minColor), H.color(options.maxColor), i / (userOptions.dataClasses.length - 1));
                        }
                    }
                });
            },

            initStops: function(userOptions) {
                this.stops = userOptions.stops || [
                    [0, this.options.minColor],
                    [1, this.options.maxColor]
                ];
                each(this.stops, function(stop) {
                    stop.color = H.color(stop[1]);
                });
            },
            /** 
             * Translate from a value to a color
             */
            toColor: function(value, point) {
                var pos,
                    stops = this.stops,
                    from,
                    to,
                    color,
                    dataClasses = this.dataClasses,
                    dataClass,
                    i;

                if (dataClasses) {
                    i = dataClasses.length;
                    while (i--) {
                        dataClass = dataClasses[i];
                        from = dataClass.from;
                        to = dataClass.to;
                        if ((from === undefined || value >= from) && (to === undefined || value <= to)) {
                            color = dataClass.color;
                            if (point) {
                                point.dataClass = i;
                            }
                            break;
                        }
                    }

                } else {

                    if (this.isLog) {
                        value = this.val2lin(value);
                    }
                    pos = 1 - ((this.max - value) / (this.max - this.min));
                    i = stops.length;
                    while (i--) {
                        if (pos > stops[i][0]) {
                            break;
                        }
                    }
                    from = stops[i] || stops[i + 1];
                    to = stops[i + 1] || from;

                    // The position within the gradient
                    pos = 1 - (to[0] - pos) / ((to[0] - from[0]) || 1);

                    color = this.tweenColors(
                        from.color,
                        to.color,
                        pos
                    );
                }
                return color;
            },
            /*
             * Return an intermediate color between two colors, according to pos where 0
             * is the from color and 1 is the to color.
             */
            tweenColors: function(from, to, pos) {
                // Check for has alpha, because rgba colors perform worse due to lack of
                // support in WebKit.
                var hasAlpha,
                    ret;

                // Unsupported color, return to-color (#3920)
                if (!to.rgba.length || !from.rgba.length) {
                    ret = to.input || 'none';

                    // Interpolate
                } else {
                    from = from.rgba;
                    to = to.rgba;
                    hasAlpha = (to[3] !== 1 || from[3] !== 1);
                    ret = (hasAlpha ? 'rgba(' : 'rgb(') +
                        Math.round(to[0] + (from[0] - to[0]) * (1 - pos)) + ',' +
                        Math.round(to[1] + (from[1] - to[1]) * (1 - pos)) + ',' +
                        Math.round(to[2] + (from[2] - to[2]) * (1 - pos)) +
                        (hasAlpha ? (',' + (to[3] + (from[3] - to[3]) * (1 - pos))) : '') + ')';
                }
                return ret;
            }
        };

        /**
         * Handle animation of the color attributes directly
         */
        each(['fill', 'stroke'], function(prop) {
            H.Fx.prototype[prop + 'Setter'] = function() {
                this.elem.attr(prop, colorAxisMethods.tweenColors(H.color(this.start), H.color(this.end), this.pos));
            };
        });

        // The solidgauge series type
        H.seriesType('solidgauge', 'gauge', {
            colorByPoint: true

        }, {
            bindAxes: function() {
                var axis;
                H.seriesTypes.gauge.prototype.bindAxes.call(this);

                axis = this.yAxis;
                H.extend(axis, colorAxisMethods);

                // Prepare data classes
                if (axis.options.dataClasses) {
                    axis.initDataClasses(axis.options);
                }
                axis.initStops(axis.options);
            },

            /**
             * Draw the points where each point is one needle
             */
            drawPoints: function() {
                var series = this,
                    yAxis = series.yAxis,
                    center = yAxis.center,
                    options = series.options,
                    renderer = series.chart.renderer,
                    overshoot = options.overshoot,
                    overshootVal = isNumber(overshoot) ? overshoot / 180 * Math.PI : 0;

                each(series.points, function(point) {
                    var graphic = point.graphic,
                        rotation = yAxis.startAngleRad + yAxis.translate(point.y, null, null, null, true),
                        radius = (pInt(pick(point.options.radius, options.radius, 100)) * center[2]) / 200,
                        innerRadius = (pInt(pick(point.options.innerRadius, options.innerRadius, 60)) * center[2]) / 200,
                        shapeArgs,
                        d,
                        toColor = yAxis.toColor(point.y, point),
                        axisMinAngle = Math.min(yAxis.startAngleRad, yAxis.endAngleRad),
                        axisMaxAngle = Math.max(yAxis.startAngleRad, yAxis.endAngleRad),
                        minAngle,
                        maxAngle;

                    if (toColor === 'none') { // #3708
                        toColor = point.color || series.color || 'none';
                    }
                    if (toColor !== 'none') {
                        point.color = toColor;
                    }

                    // Handle overshoot and clipping to axis max/min
                    rotation = Math.max(axisMinAngle - overshootVal, Math.min(axisMaxAngle + overshootVal, rotation));

                    // Handle the wrap option
                    if (options.wrap === false) {
                        rotation = Math.max(axisMinAngle, Math.min(axisMaxAngle, rotation));
                    }

                    minAngle = Math.min(rotation, yAxis.startAngleRad);
                    maxAngle = Math.max(rotation, yAxis.startAngleRad);

                    if (maxAngle - minAngle > 2 * Math.PI) {
                        maxAngle = minAngle + 2 * Math.PI;
                    }

                    point.shapeArgs = shapeArgs = {
                        x: center[0],
                        y: center[1],
                        r: radius,
                        innerR: innerRadius,
                        start: minAngle,
                        end: maxAngle,
                        fill: toColor
                    };
                    point.startR = radius; // For PieSeries.animate

                    if (graphic) {
                        d = shapeArgs.d;
                        graphic.animate(shapeArgs);
                        if (d) {
                            shapeArgs.d = d; // animate alters it
                        }
                    } else {
                        point.graphic = renderer.arc(shapeArgs)
                            .addClass('highcharts-point')
                            .attr({
                                fill: toColor,
                                'sweep-flag': 0
                            })
                            .add(series.group);


                    }
                });
            },

            /**
             * Extend the pie slice animation by animating from start angle and up
             */
            animate: function(init) {

                if (!init) {
                    this.startAngleRad = this.yAxis.startAngleRad;
                    H.seriesTypes.pie.prototype.animate.call(this, init);
                }
            }
        });

    }(Highcharts));
}));
first commit 2024-05-29 03:18:12 +00:00			`/**`
			`* @license Highcharts JS v5.0.2 (2016-10-26)`
			`* Solid angular gauge module`
			`*`
			`* (c) 2010-2016 Torstein Honsi`
			`*`
			`* License: www.highcharts.com/license`
			`*/`
			`(function(factory) {`
			`if (typeof module === 'object' && module.exports) {`
			`module.exports = factory;`
			`} else {`
			`factory(Highcharts);`
			`}`
			`}(function(Highcharts) {`
			`(function(H) {`
			`/**`
			`* Solid angular gauge module`
			`*`
			`* (c) 2010-2016 Torstein Honsi`
			`*`
			`* License: www.highcharts.com/license`
			`*/`

			`'use strict';`

			`var pInt = H.pInt,`
			`pick = H.pick,`
			`each = H.each,`
			`isNumber = H.isNumber,`
			`colorAxisMethods;`

			`// These methods are defined in the ColorAxis object, and copied here.`
			`// If we implement an AMD system we should make ColorAxis a dependency.`
			`colorAxisMethods = {`


			`initDataClasses: function(userOptions) {`
			`var axis = this,`
			`chart = this.chart,`
			`dataClasses,`
			`colorCounter = 0,`
			`options = this.options;`
			`this.dataClasses = dataClasses = [];`

			`each(userOptions.dataClasses, function(dataClass, i) {`
			`var colors;`

			`dataClass = H.merge(dataClass);`
			`dataClasses.push(dataClass);`
			`if (!dataClass.color) {`
			`if (options.dataClassColor === 'category') {`
			`colors = chart.options.colors;`
			`dataClass.color = colors[colorCounter++];`
			`// loop back to zero`
			`if (colorCounter === colors.length) {`
			`colorCounter = 0;`
			`}`
			`} else {`
			`dataClass.color = axis.tweenColors(H.color(options.minColor), H.color(options.maxColor), i / (userOptions.dataClasses.length - 1));`
			`}`
			`}`
			`});`
			`},`

			`initStops: function(userOptions) {`
			`this.stops = userOptions.stops \|\| [`
			`[0, this.options.minColor],`
			`[1, this.options.maxColor]`
			`];`
			`each(this.stops, function(stop) {`
			`stop.color = H.color(stop[1]);`
			`});`
			`},`
			`/**`
			`* Translate from a value to a color`
			`*/`
			`toColor: function(value, point) {`
			`var pos,`
			`stops = this.stops,`
			`from,`
			`to,`
			`color,`
			`dataClasses = this.dataClasses,`
			`dataClass,`
			`i;`

			`if (dataClasses) {`
			`i = dataClasses.length;`
			`while (i--) {`
			`dataClass = dataClasses[i];`
			`from = dataClass.from;`
			`to = dataClass.to;`
			`if ((from === undefined \|\| value >= from) && (to === undefined \|\| value <= to)) {`
			`color = dataClass.color;`
			`if (point) {`
			`point.dataClass = i;`
			`}`
			`break;`
			`}`
			`}`

			`} else {`

			`if (this.isLog) {`
			`value = this.val2lin(value);`
			`}`
			`pos = 1 - ((this.max - value) / (this.max - this.min));`
			`i = stops.length;`
			`while (i--) {`
			`if (pos > stops[i][0]) {`
			`break;`
			`}`
			`}`
			`from = stops[i] \|\| stops[i + 1];`
			`to = stops[i + 1] \|\| from;`

			`// The position within the gradient`
			`pos = 1 - (to[0] - pos) / ((to[0] - from[0]) \|\| 1);`

			`color = this.tweenColors(`
			`from.color,`
			`to.color,`
			`pos`
			`);`
			`}`
			`return color;`
			`},`
			`/*`
			`* Return an intermediate color between two colors, according to pos where 0`
			`* is the from color and 1 is the to color.`
			`*/`
			`tweenColors: function(from, to, pos) {`
			`// Check for has alpha, because rgba colors perform worse due to lack of`
			`// support in WebKit.`
			`var hasAlpha,`
			`ret;`

			`// Unsupported color, return to-color (#3920)`
			`if (!to.rgba.length \|\| !from.rgba.length) {`
			`ret = to.input \|\| 'none';`

			`// Interpolate`
			`} else {`
			`from = from.rgba;`
			`to = to.rgba;`
			`hasAlpha = (to[3] !== 1 \|\| from[3] !== 1);`
			`ret = (hasAlpha ? 'rgba(' : 'rgb(') +`
			`Math.round(to[0] + (from[0] - to[0]) * (1 - pos)) + ',' +`
			`Math.round(to[1] + (from[1] - to[1]) * (1 - pos)) + ',' +`
			`Math.round(to[2] + (from[2] - to[2]) * (1 - pos)) +`
			`(hasAlpha ? (',' + (to[3] + (from[3] - to[3]) * (1 - pos))) : '') + ')';`
			`}`
			`return ret;`
			`}`
			`};`

			`/**`
			`* Handle animation of the color attributes directly`
			`*/`
			`each(['fill', 'stroke'], function(prop) {`
			`H.Fx.prototype[prop + 'Setter'] = function() {`
			`this.elem.attr(prop, colorAxisMethods.tweenColors(H.color(this.start), H.color(this.end), this.pos));`
			`};`
			`});`

			`// The solidgauge series type`
			`H.seriesType('solidgauge', 'gauge', {`
			`colorByPoint: true`

			`}, {`
			`bindAxes: function() {`
			`var axis;`
			`H.seriesTypes.gauge.prototype.bindAxes.call(this);`

			`axis = this.yAxis;`
			`H.extend(axis, colorAxisMethods);`

			`// Prepare data classes`
			`if (axis.options.dataClasses) {`
			`axis.initDataClasses(axis.options);`
			`}`
			`axis.initStops(axis.options);`
			`},`

			`/**`
			`* Draw the points where each point is one needle`
			`*/`
			`drawPoints: function() {`
			`var series = this,`
			`yAxis = series.yAxis,`
			`center = yAxis.center,`
			`options = series.options,`
			`renderer = series.chart.renderer,`
			`overshoot = options.overshoot,`
			`overshootVal = isNumber(overshoot) ? overshoot / 180 * Math.PI : 0;`

			`each(series.points, function(point) {`
			`var graphic = point.graphic,`
			`rotation = yAxis.startAngleRad + yAxis.translate(point.y, null, null, null, true),`
			`radius = (pInt(pick(point.options.radius, options.radius, 100)) * center[2]) / 200,`
			`innerRadius = (pInt(pick(point.options.innerRadius, options.innerRadius, 60)) * center[2]) / 200,`
			`shapeArgs,`
			`d,`
			`toColor = yAxis.toColor(point.y, point),`
			`axisMinAngle = Math.min(yAxis.startAngleRad, yAxis.endAngleRad),`
			`axisMaxAngle = Math.max(yAxis.startAngleRad, yAxis.endAngleRad),`
			`minAngle,`
			`maxAngle;`

			`if (toColor === 'none') { // #3708`
			`toColor = point.color \|\| series.color \|\| 'none';`
			`}`
			`if (toColor !== 'none') {`
			`point.color = toColor;`
			`}`

			`// Handle overshoot and clipping to axis max/min`
			`rotation = Math.max(axisMinAngle - overshootVal, Math.min(axisMaxAngle + overshootVal, rotation));`

			`// Handle the wrap option`
			`if (options.wrap === false) {`
			`rotation = Math.max(axisMinAngle, Math.min(axisMaxAngle, rotation));`
			`}`

			`minAngle = Math.min(rotation, yAxis.startAngleRad);`
			`maxAngle = Math.max(rotation, yAxis.startAngleRad);`

			`if (maxAngle - minAngle > 2 * Math.PI) {`
			`maxAngle = minAngle + 2 * Math.PI;`
			`}`

			`point.shapeArgs = shapeArgs = {`
			`x: center[0],`
			`y: center[1],`
			`r: radius,`
			`innerR: innerRadius,`
			`start: minAngle,`
			`end: maxAngle,`
			`fill: toColor`
			`};`
			`point.startR = radius; // For PieSeries.animate`

			`if (graphic) {`
			`d = shapeArgs.d;`
			`graphic.animate(shapeArgs);`
			`if (d) {`
			`shapeArgs.d = d; // animate alters it`
			`}`
			`} else {`
			`point.graphic = renderer.arc(shapeArgs)`
			`.addClass('highcharts-point')`
			`.attr({`
			`fill: toColor,`
			`'sweep-flag': 0`
			`})`
			`.add(series.group);`


			`}`
			`});`
			`},`

			`/**`
			`* Extend the pie slice animation by animating from start angle and up`
			`*/`
			`animate: function(init) {`

			`if (!init) {`
			`this.startAngleRad = this.yAxis.startAngleRad;`
			`H.seriesTypes.pie.prototype.animate.call(this, init);`
			`}`
			`}`
			`});`

			`}(Highcharts));`
			`}));`