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/* *
* Tilemaps module
*
* (c) 2010-2017 Highsoft AS
* Author: Øystein Moseng
*
* License: www.highcharts.com/license
*/
'use strict';
import H from '../parts/Globals.js';
import '../parts-map/HeatmapSeries.js';
var seriesType = H.seriesType,
pick = H.pick,
// Utility func to get the middle number of 3
between = function (x, a, b) {
return Math.min(Math.max(a, x), b);
},
// Utility func to get padding definition from tile size division
tilePaddingFromTileSize = function (series, xDiv, yDiv) {
var options = series.options;
return {
xPad: (options.colsize || 1) / -xDiv,
yPad: (options.rowsize || 1) / -yDiv
};
};
// Map of shape types.
H.tileShapeTypes = {
// Hexagon shape type.
hexagon: {
alignDataLabel: H.seriesTypes.scatter.prototype.alignDataLabel,
getSeriesPadding: function (series) {
return tilePaddingFromTileSize(series, 3, 2);
},
haloPath: function (size) {
if (!size) {
return [];
}
var hexagon = this.tileEdges;
return [
'M', hexagon.x2 - size, hexagon.y1 + size,
'L', hexagon.x3 + size, hexagon.y1 + size,
hexagon.x4 + size * 1.5, hexagon.y2,
hexagon.x3 + size, hexagon.y3 - size,
hexagon.x2 - size, hexagon.y3 - size,
hexagon.x1 - size * 1.5, hexagon.y2,
'Z'
];
},
translate: function () {
var series = this,
options = series.options,
xAxis = series.xAxis,
yAxis = series.yAxis,
seriesPointPadding = options.pointPadding || 0,
xPad = (options.colsize || 1) / 3,
yPad = (options.rowsize || 1) / 2,
yShift;
series.generatePoints();
series.points.forEach(function (point) {
var x1 = between(
Math.floor(
xAxis.len -
xAxis.translate(point.x - xPad * 2, 0, 1, 0, 1)
), -xAxis.len, 2 * xAxis.len
),
x2 = between(
Math.floor(
xAxis.len -
xAxis.translate(point.x - xPad, 0, 1, 0, 1)
), -xAxis.len, 2 * xAxis.len
),
x3 = between(
Math.floor(
xAxis.len -
xAxis.translate(point.x + xPad, 0, 1, 0, 1)
), -xAxis.len, 2 * xAxis.len
),
x4 = between(
Math.floor(
xAxis.len -
xAxis.translate(point.x + xPad * 2, 0, 1, 0, 1)
), -xAxis.len, 2 * xAxis.len
),
y1 = between(
Math.floor(yAxis.translate(point.y - yPad, 0, 1, 0, 1)),
-yAxis.len,
2 * yAxis.len
),
y2 = between(
Math.floor(yAxis.translate(point.y, 0, 1, 0, 1)),
-yAxis.len,
2 * yAxis.len
),
y3 = between(
Math.floor(yAxis.translate(point.y + yPad, 0, 1, 0, 1)),
-yAxis.len,
2 * yAxis.len
),
pointPadding = pick(point.pointPadding, seriesPointPadding),
// We calculate the point padding of the midpoints to
// preserve the angles of the shape.
midPointPadding = pointPadding *
Math.abs(x2 - x1) / Math.abs(y3 - y2),
xMidPadding = xAxis.reversed ?
-midPointPadding : midPointPadding,
xPointPadding = xAxis.reversed ?
-pointPadding : pointPadding,
yPointPadding = yAxis.reversed ?
-pointPadding : pointPadding;
// Shift y-values for every second grid column
if (point.x % 2) {
yShift = yShift || Math.round(Math.abs(y3 - y1) / 2) *
// We have to reverse the shift for reversed y-axes
(yAxis.reversed ? -1 : 1);
y1 += yShift;
y2 += yShift;
y3 += yShift;
}
// Set plotX and plotY for use in K-D-Tree and more
point.plotX = point.clientX = (x2 + x3) / 2;
point.plotY = y2;
// Apply point padding to translated coordinates
x1 += xMidPadding + xPointPadding;
x2 += xPointPadding;
x3 -= xPointPadding;
x4 -= xMidPadding + xPointPadding;
y1 -= yPointPadding;
y3 += yPointPadding;
// Store points for halo creation
point.tileEdges = {
x1: x1, x2: x2, x3: x3, x4: x4, y1: y1, y2: y2, y3: y3
};
// Finally set the shape for this point
point.shapeType = 'path';
point.shapeArgs = {
d: [
'M', x2, y1,
'L', x3, y1,
x4, y2,
x3, y3,
x2, y3,
x1, y2,
'Z'
]
};
});
series.translateColors();
}
},
// Diamond shape type.
diamond: {
alignDataLabel: H.seriesTypes.scatter.prototype.alignDataLabel,
getSeriesPadding: function (series) {
return tilePaddingFromTileSize(series, 2, 2);
},
haloPath: function (size) {
if (!size) {
return [];
}
var diamond = this.tileEdges;
return [
'M', diamond.x2, diamond.y1 + size,
'L', diamond.x3 + size, diamond.y2,
diamond.x2, diamond.y3 - size,
diamond.x1 - size, diamond.y2,
'Z'
];
},
translate: function () {
var series = this,
options = series.options,
xAxis = series.xAxis,
yAxis = series.yAxis,
seriesPointPadding = options.pointPadding || 0,
xPad = (options.colsize || 1),
yPad = (options.rowsize || 1) / 2,
yShift;
series.generatePoints();
series.points.forEach(function (point) {
var x1 = between(
Math.round(
xAxis.len -
xAxis.translate(point.x - xPad, 0, 1, 0, 0)
), -xAxis.len, 2 * xAxis.len
),
x2 = between(
Math.round(
xAxis.len -
xAxis.translate(point.x, 0, 1, 0, 0)
), -xAxis.len, 2 * xAxis.len
),
x3 = between(
Math.round(
xAxis.len -
xAxis.translate(point.x + xPad, 0, 1, 0, 0)
), -xAxis.len, 2 * xAxis.len
),
y1 = between(
Math.round(yAxis.translate(point.y - yPad, 0, 1, 0, 0)),
-yAxis.len,
2 * yAxis.len
),
y2 = between(
Math.round(yAxis.translate(point.y, 0, 1, 0, 0)),
-yAxis.len,
2 * yAxis.len
),
y3 = between(
Math.round(yAxis.translate(point.y + yPad, 0, 1, 0, 0)),
-yAxis.len,
2 * yAxis.len
),
pointPadding = pick(point.pointPadding, seriesPointPadding),
// We calculate the point padding of the midpoints to
// preserve the angles of the shape.
midPointPadding = pointPadding *
Math.abs(x2 - x1) / Math.abs(y3 - y2),
xPointPadding = xAxis.reversed ?
-midPointPadding : midPointPadding,
yPointPadding = yAxis.reversed ?
-pointPadding : pointPadding;
// Shift y-values for every second grid column
// We have to reverse the shift for reversed y-axes
if (point.x % 2) {
yShift = Math.abs(y3 - y1) / 2 * (yAxis.reversed ? -1 : 1);
y1 += yShift;
y2 += yShift;
y3 += yShift;
}
// Set plotX and plotY for use in K-D-Tree and more
point.plotX = point.clientX = x2;
point.plotY = y2;
// Apply point padding to translated coordinates
x1 += xPointPadding;
x3 -= xPointPadding;
y1 -= yPointPadding;
y3 += yPointPadding;
// Store points for halo creation
point.tileEdges = {
x1: x1, x2: x2, x3: x3, y1: y1, y2: y2, y3: y3
};
// Set this point's shape parameters
point.shapeType = 'path';
point.shapeArgs = {
d: [
'M', x2, y1,
'L', x3, y2,
x2, y3,
x1, y2,
'Z'
]
};
});
series.translateColors();
}
},
// Circle shape type.
circle: {
alignDataLabel: H.seriesTypes.scatter.prototype.alignDataLabel,
getSeriesPadding: function (series) {
return tilePaddingFromTileSize(series, 2, 2);
},
haloPath: function (size) {
return H.seriesTypes.scatter.prototype.pointClass.prototype.haloPath
.call(this,
size + (size && this.radius)
);
},
translate: function () {
var series = this,
options = series.options,
xAxis = series.xAxis,
yAxis = series.yAxis,
seriesPointPadding = options.pointPadding || 0,
yRadius = (options.rowsize || 1) / 2,
colsize = (options.colsize || 1),
colsizePx,
yRadiusPx,
xRadiusPx,
radius,
forceNextRadiusCompute = false;
series.generatePoints();
series.points.forEach(function (point) {
var x = between(
Math.round(
xAxis.len -
xAxis.translate(point.x, 0, 1, 0, 0)
), -xAxis.len, 2 * xAxis.len
),
y = between(
Math.round(yAxis.translate(point.y, 0, 1, 0, 0)),
-yAxis.len,
2 * yAxis.len
),
pointPadding = seriesPointPadding,
hasPerPointPadding = false;
// If there is point padding defined on a single point, add it
if (point.pointPadding !== undefined) {
pointPadding = point.pointPadding;
hasPerPointPadding = true;
forceNextRadiusCompute = true;
}
// Find radius if not found already.
// Use the smallest one (x vs y) to avoid overlap.
// Note that the radius will be recomputed for each series.
// Ideal (max) x radius is dependent on y radius:
/*
* (circle 2)
* (circle 3)
| yRadiusPx
(circle 1) *-------|
colsizePx
The distance between circle 1 and 3 (and circle 2 and 3) is
2r, which is the hypotenuse of the triangle created by
colsizePx and yRadiusPx. If the distance between circle 2
and circle 1 is less than 2r, we use half of that distance
instead (yRadiusPx).
*/
if (!radius || forceNextRadiusCompute) {
colsizePx = Math.abs(
between(
Math.floor(
xAxis.len -
xAxis.translate(point.x + colsize, 0, 1, 0, 0)
), -xAxis.len, 2 * xAxis.len
) - x
);
yRadiusPx = Math.abs(
between(
Math.floor(
yAxis.translate(point.y + yRadius, 0, 1, 0, 0)
), -yAxis.len, 2 * yAxis.len
) - y
);
xRadiusPx = Math.floor(
Math.sqrt(
(colsizePx * colsizePx + yRadiusPx * yRadiusPx)
) / 2
);
radius = Math.min(
colsizePx, xRadiusPx, yRadiusPx
) - pointPadding;
// If we have per point padding we need to always compute
// the radius for this point and the next. If we used to
// have per point padding but don't anymore, don't force
// compute next radius.
if (forceNextRadiusCompute && !hasPerPointPadding) {
forceNextRadiusCompute = false;
}
}
// Shift y-values for every second grid column.
// Note that we always use the optimal y axis radius for this.
// Also note: We have to reverse the shift for reversed y-axes.
if (point.x % 2) {
y += yRadiusPx * (yAxis.reversed ? -1 : 1);
}
// Set plotX and plotY for use in K-D-Tree and more
point.plotX = point.clientX = x;
point.plotY = y;
// Save radius for halo
point.radius = radius;
// Set this point's shape parameters
point.shapeType = 'circle';
point.shapeArgs = {
x: x,
y: y,
r: radius
};
});
series.translateColors();
}
},
// Square shape type.
square: {
alignDataLabel: H.seriesTypes.heatmap.prototype.alignDataLabel,
translate: H.seriesTypes.heatmap.prototype.translate,
getSeriesPadding: function () {
return;
},
haloPath: H.seriesTypes.heatmap.prototype.pointClass.prototype.haloPath
}
};
// Extension to add pixel padding for series. Uses getSeriesPixelPadding on each
// series and adds the largest padding required. If no series has this function
// defined, we add nothing.
H.wrap(H.Axis.prototype, 'setAxisTranslation', function (proceed) {
// We need to run the original func first, so that we know the translation
// formula to use for computing the padding
proceed.apply(this, Array.prototype.slice.call(arguments, 1));
var axis = this,
// Find which series' padding to use
seriesPadding = axis.series
.map(function (series) {
return series.getSeriesPixelPadding &&
series.getSeriesPixelPadding(axis);
})
.reduce(function (a, b) {
return (a && a.padding) > (b && b.padding) ? a : b;
}, undefined) ||
{
padding: 0,
axisLengthFactor: 1
},
lengthPadding = Math.round(
seriesPadding.padding * seriesPadding.axisLengthFactor
);
// Don't waste time on this if we're not adding extra padding
if (seriesPadding.padding) {
// Recompute translation with new axis length now (minus padding)
axis.len -= lengthPadding;
proceed.apply(axis, Array.prototype.slice.call(arguments, 1));
axis.minPixelPadding += seriesPadding.padding;
axis.len += lengthPadding;
}
});
/**
* @private
* @class
* @name Highcharts.seriesTypes.tilemap
*
* @augments Highcharts.Series
*/
seriesType('tilemap', 'heatmap'
/**
* A tilemap series is a type of heatmap where the tile shapes are configurable.
*
* @sample highcharts/demo/honeycomb-usa/
* Honeycomb tilemap, USA
* @sample maps/plotoptions/honeycomb-brazil/
* Honeycomb tilemap, Brazil
* @sample maps/plotoptions/honeycomb-china/
* Honeycomb tilemap, China
* @sample maps/plotoptions/honeycomb-europe/
* Honeycomb tilemap, Europe
* @sample maps/demo/circlemap-africa/
* Circlemap tilemap, Africa
* @sample maps/demo/diamondmap
* Diamondmap tilemap
*
* @extends plotOptions.heatmap
* @since 6.0.0
* @excluding joinBy, shadow, allAreas, mapData, data
* @product highcharts highmaps
* @optionparent plotOptions.tilemap
*/
, { // Default options
states: {
hover: {
halo: {
enabled: true,
size: 2,
opacity: 0.5,
attributes: {
zIndex: 3
}
}
}
},
/**
* The padding between points in the tilemap.
*
* @sample maps/plotoptions/tilemap-pointpadding
* Point padding on tiles
*/
pointPadding: 2,
/**
* The column size - how many X axis units each column in the tilemap
* should span. Works as in [Heatmaps](#plotOptions.heatmap.colsize).
*
* @sample {highcharts} maps/demo/heatmap/
* One day
* @sample {highmaps} maps/demo/heatmap/
* One day
*
* @type {number}
* @default 1
* @product highcharts highmaps
* @apioption plotOptions.tilemap.colsize
*/
/**
* The row size - how many Y axis units each tilemap row should span.
* Analogous to [colsize](#plotOptions.tilemap.colsize).
*
* @sample {highcharts} maps/demo/heatmap/
* 1 by default
* @sample {highmaps} maps/demo/heatmap/
* 1 by default
*
* @type {number}
* @default 1
* @product highcharts highmaps
* @apioption plotOptions.tilemap.rowsize
*/
/**
* The shape of the tiles in the tilemap. Possible values are `hexagon`,
* `circle`, `diamond`, and `square`.
*
* @sample maps/demo/circlemap-africa
* Circular tile shapes
* @sample maps/demo/diamondmap
* Diamond tile shapes
*
* @validvalue ["circle", "diamond", "hexagon", "square"]
*/
tileShape: 'hexagon'
}, { // Prototype functions
// Set tile shape object on series
setOptions: function () {
// Call original function
var ret = H.seriesTypes.heatmap.prototype.setOptions.apply(this,
Array.prototype.slice.call(arguments)
);
this.tileShape = H.tileShapeTypes[ret.tileShape];
return ret;
},
// Use the shape's defined data label alignment function
alignDataLabel: function () {
return this.tileShape.alignDataLabel.apply(this,
Array.prototype.slice.call(arguments)
);
},
// Get metrics for padding of axis for this series
getSeriesPixelPadding: function (axis) {
var isX = axis.isXAxis,
padding = this.tileShape.getSeriesPadding(this),
coord1,
coord2;
// If the shape type does not require padding, return no-op padding
if (!padding) {
return {
padding: 0,
axisLengthFactor: 1
};
}
// Use translate to compute how far outside the points we
// draw, and use this difference as padding.
coord1 = Math.round(
axis.translate(
isX ?
padding.xPad * 2 :
padding.yPad,
0, 1, 0, 1
)
);
coord2 = Math.round(
axis.translate(
isX ? padding.xPad : 0,
0, 1, 0, 1
)
);
return {
padding: Math.abs(coord1 - coord2) || 0,
// Offset the yAxis length to compensate for shift.
// Setting the length factor to 2 would add the same margin to max
// as min. Now we only add a slight bit of the min margin to max, as
// we don't actually draw outside the max bounds. For the xAxis we
// draw outside on both sides so we add the same margin to min and
// max.
axisLengthFactor: isX ? 2 : 1.1
};
},
// Use translate from tileShape
translate: function () {
return this.tileShape.translate.apply(this,
Array.prototype.slice.call(arguments)
);
}
}, H.extend({
/**
* @private
* @function Highcharts.Point#haloPath
*
* @return {Highcharts.SVGPathArray}
*/
haloPath: function () {
return this.series.tileShape.haloPath.apply(this,
Array.prototype.slice.call(arguments)
);
}
}, H.colorPointMixin));
/**
* A `tilemap` series. If the [type](#series.tilemap.type) option is
* not specified, it is inherited from [chart.type](#chart.type).
*
* @extends series,plotOptions.tilemap
* @excluding allAreas, dataParser, dataURL, joinBy, mapData, marker,
* pointRange, shadow, stack
* @product highcharts highmaps
* @apioption series.tilemap
*/
/**
* An array of data points for the series. For the `tilemap` series
* type, points can be given in the following ways:
*
* 1. An array of arrays with 3 or 2 values. In this case, the values
* correspond to `x,y,value`. If the first value is a string, it is
* applied as the name of the point, and the `x` value is inferred.
* The `x` value can also be omitted, in which case the inner arrays
* should be of length 2\. Then the `x` value is automatically calculated,
* either starting at 0 and incremented by 1, or from `pointStart`
* and `pointInterval` given in the series options.
*
* ```js
* data: [
* [0, 9, 7],
* [1, 10, 4],
* [2, 6, 3]
* ]
* ```
*
* 2. An array of objects with named values. The objects are point
* configuration objects as seen below. If the total number of data
* points exceeds the series' [turboThreshold](#series.tilemap.turboThreshold),
* this option is not available.
*
* ```js
* data: [{
* x: 1,
* y: 3,
* value: 10,
* name: "Point2",
* color: "#00FF00"
* }, {
* x: 1,
* y: 7,
* value: 10,
* name: "Point1",
* color: "#FF00FF"
* }]
* ```
*
* Note that for some [tileShapes](#plotOptions.tilemap.tileShape) the grid
* coordinates are offset.
*
* @sample maps/series/tilemap-gridoffset
* Offset grid coordinates
* @sample {highcharts} highcharts/chart/reflow-true/
* Numerical values
* @sample {highcharts} highcharts/series/data-array-of-arrays/
* Arrays of numeric x and y
* @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/
* Arrays of datetime x and y
* @sample {highcharts} highcharts/series/data-array-of-name-value/
* Arrays of point.name and y
* @sample {highcharts} highcharts/series/data-array-of-objects/
* Config objects
*
* @type {Array<Array<number>|*>}
* @extends series.heatmap.data
* @excluding marker
* @product highcharts highmaps
* @apioption series.tilemap.data
*/
/**
* The color of the point. In tilemaps the point color is rarely set
* explicitly, as we use the color to denote the `value`. Options for
* this are set in the [colorAxis](#colorAxis) configuration.
*
* @type {Highcharts.ColorString}
* @product highcharts highmaps
* @apioption series.tilemap.data.color
*/
/**
* The x coordinate of the point.
*
* Note that for some [tileShapes](#plotOptions.tilemap.tileShape) the grid
* coordinates are offset.
*
* @sample maps/series/tilemap-gridoffset
* Offset grid coordinates
*
* @type {number}
* @product highcharts highmaps
* @apioption series.tilemap.data.x
*/
/**
* The y coordinate of the point.
*
* Note that for some [tileShapes](#plotOptions.tilemap.tileShape) the grid
* coordinates are offset.
*
* @sample maps/series/tilemap-gridoffset
* Offset grid coordinates
*
* @type {number}
* @product highcharts highmaps
* @apioption series.tilemap.data.y
*/