tupali/librerias/gantt/code/es-modules/modules/sankey.src.js

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2020-05-23 20:45:54 +00:00
/* *
*
* Sankey diagram module
*
* (c) 2010-2020 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
'use strict';
import H from '../parts/Globals.js';
/**
* A node in a sankey diagram.
*
* @interface Highcharts.SankeyNodeObject
* @extends Highcharts.Point
* @product highcharts
*/ /**
* The color of the auto generated node.
*
* @name Highcharts.SankeyNodeObject#color
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/ /**
* The color index of the auto generated node, especially for use in styled
* mode.
*
* @name Highcharts.SankeyNodeObject#colorIndex
* @type {number}
*/ /**
* An optional column index of where to place the node. The default behaviour is
* to place it next to the preceding node.
*
* @see {@link https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/plotoptions/sankey-node-column/|Highcharts-Demo:}
* Specified node column
*
* @name Highcharts.SankeyNodeObject#column
* @type {number}
* @since 6.0.5
*/ /**
* The id of the auto-generated node, refering to the `from` or `to` setting of
* the link.
*
* @name Highcharts.SankeyNodeObject#id
* @type {string}
*/ /**
* The name to display for the node in data labels and tooltips. Use this when
* the name is different from the `id`. Where the id must be unique for each
* node, this is not necessary for the name.
*
* @see {@link https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/css/sankey/|Highcharts-Demo:}
* Sankey diagram with node options
*
* @name Highcharts.SankeyNodeObject#name
* @type {string}
* @product highcharts
*/ /**
* The vertical offset of a node in terms of weight. Positive values shift the
* node downwards, negative shift it upwards.
*
* @see {@link https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/plotoptions/sankey-node-column/|Highcharts-Demo:}
* Specified node offset
*
* @name Highcharts.SankeyNodeObject#offset
* @type {number}
* @default 0
* @since 6.0.5
*/
/**
* Formatter callback function.
*
* @callback Highcharts.SeriesSankeyDataLabelsFormatterCallbackFunction
*
* @param {Highcharts.SeriesSankeyDataLabelsFormatterContextObject|Highcharts.PointLabelObject} this
* Data label context to format
*
* @return {string|undefined}
* Formatted data label text
*/
/**
* Context for the node formatter function.
*
* @interface Highcharts.SeriesSankeyDataLabelsFormatterContextObject
* @extends Highcharts.PointLabelObject
*/ /**
* The node object. The node name, if defined, is available through
* `this.point.name`.
* @name Highcharts.SeriesSankeyDataLabelsFormatterContextObject#point
* @type {Highcharts.SankeyNodeObject}
*/
import Color from '../parts/Color.js';
import Point from '../parts/Point.js';
import U from '../parts/Utilities.js';
var defined = U.defined, find = U.find, isObject = U.isObject, merge = U.merge, pick = U.pick, relativeLength = U.relativeLength, seriesType = U.seriesType, stableSort = U.stableSort;
import '../parts/Options.js';
import '../mixins/nodes.js';
import mixinTreeSeries from '../mixins/tree-series.js';
var getLevelOptions = mixinTreeSeries.getLevelOptions;
// eslint-disable-next-line valid-jsdoc
/**
* @private
*/
var getDLOptions = function getDLOptions(params) {
var optionsPoint = (isObject(params.optionsPoint) ?
params.optionsPoint.dataLabels :
{}), optionsLevel = (isObject(params.level) ?
params.level.dataLabels :
{}), options = merge({
style: {}
}, optionsLevel, optionsPoint);
return options;
};
/**
* @private
* @class
* @name Highcharts.seriesTypes.sankey
*
* @augments Highcharts.Series
*/
seriesType('sankey', 'column',
/**
* A sankey diagram is a type of flow diagram, in which the width of the
* link between two nodes is shown proportionally to the flow quantity.
*
* @sample highcharts/demo/sankey-diagram/
* Sankey diagram
* @sample highcharts/plotoptions/sankey-inverted/
* Inverted sankey diagram
* @sample highcharts/plotoptions/sankey-outgoing
* Sankey diagram with outgoing links
*
* @extends plotOptions.column
* @since 6.0.0
* @product highcharts
* @excluding animationLimit, boostThreshold, borderRadius,
* crisp, cropThreshold, colorAxis, colorKey, depth, dragDrop,
* edgeColor, edgeWidth, findNearestPointBy, grouping,
* groupPadding, groupZPadding, maxPointWidth, negativeColor,
* pointInterval, pointIntervalUnit, pointPadding,
* pointPlacement, pointRange, pointStart, pointWidth,
* shadow, softThreshold, stacking, threshold, zoneAxis,
* zones, minPointLength, dataSorting
* @requires modules/sankey
* @optionparent plotOptions.sankey
*/
{
borderWidth: 0,
colorByPoint: true,
/**
* Higher numbers makes the links in a sankey diagram or dependency
* wheelrender more curved. A `curveFactor` of 0 makes the lines
* straight.
*
* @private
*/
curveFactor: 0.33,
/**
* Options for the data labels appearing on top of the nodes and links.
* For sankey charts, data labels are visible for the nodes by default,
* but hidden for links. This is controlled by modifying the
* `nodeFormat`, and the `format` that applies to links and is an empty
* string by default.
*
* @declare Highcharts.SeriesSankeyDataLabelsOptionsObject
*
* @private
*/
dataLabels: {
enabled: true,
backgroundColor: 'none',
crop: false,
/**
* The
* [format string](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting)
* specifying what to show for _nodes_ in the sankey diagram. By
* default the `nodeFormatter` returns `{point.name}`.
*
* @sample highcharts/plotoptions/sankey-link-datalabels/
* Node and link data labels
*
* @type {string}
*/
nodeFormat: void 0,
// eslint-disable-next-line valid-jsdoc
/**
* Callback to format data labels for _nodes_ in the sankey diagram.
* The `nodeFormat` option takes precedence over the
* `nodeFormatter`.
*
* @type {Highcharts.SeriesSankeyDataLabelsFormatterCallbackFunction}
* @since 6.0.2
*/
nodeFormatter: function () {
return this.point.name;
},
format: void 0,
// eslint-disable-next-line valid-jsdoc
/**
* @type {Highcharts.SeriesSankeyDataLabelsFormatterCallbackFunction}
*/
formatter: function () {
return;
},
inside: true
},
/**
* @ignore-option
*
* @private
*/
inactiveOtherPoints: true,
/**
* Set options on specific levels. Takes precedence over series options,
* but not node and link options.
*
* @sample highcharts/demo/sunburst
* Sunburst chart
*
* @type {Array<*>}
* @since 7.1.0
* @apioption plotOptions.sankey.levels
*/
/**
* Can set `borderColor` on all nodes which lay on the same level.
*
* @type {Highcharts.ColorString}
* @apioption plotOptions.sankey.levels.borderColor
*/
/**
* Can set `borderWidth` on all nodes which lay on the same level.
*
* @type {number}
* @apioption plotOptions.sankey.levels.borderWidth
*/
/**
* Can set `color` on all nodes which lay on the same level.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @apioption plotOptions.sankey.levels.color
*/
/**
* Can set `colorByPoint` on all nodes which lay on the same level.
*
* @type {boolean}
* @default true
* @apioption plotOptions.sankey.levels.colorByPoint
*/
/**
* Can set `dataLabels` on all points which lay on the same level.
*
* @extends plotOptions.sankey.dataLabels
* @apioption plotOptions.sankey.levels.dataLabels
*/
/**
* Decides which level takes effect from the options set in the levels
* object.
*
* @type {number}
* @apioption plotOptions.sankey.levels.level
*/
/**
* Can set `linkOpacity` on all points which lay on the same level.
*
* @type {number}
* @default 0.5
* @apioption plotOptions.sankey.levels.linkOpacity
*/
/**
* Can set `states` on all nodes and points which lay on the same level.
*
* @extends plotOptions.sankey.states
* @apioption plotOptions.sankey.levels.states
*/
/**
* Opacity for the links between nodes in the sankey diagram.
*
* @private
*/
linkOpacity: 0.5,
/**
* The minimal width for a line of a sankey. By default,
* 0 values are not shown.
*
* @sample highcharts/plotoptions/sankey-minlinkwidth
* Sankey diagram with minimal link height
*
* @type {number}
* @since 7.1.3
* @default 0
* @apioption plotOptions.sankey.minLinkWidth
*
* @private
*/
minLinkWidth: 0,
/**
* The pixel width of each node in a sankey diagram or dependency wheel,
* or the height in case the chart is inverted.
*
* @private
*/
nodeWidth: 20,
/**
* The padding between nodes in a sankey diagram or dependency wheel, in
* pixels.
*
* If the number of nodes is so great that it is possible to lay them
* out within the plot area with the given `nodePadding`, they will be
* rendered with a smaller padding as a strategy to avoid overflow.
*
* @private
*/
nodePadding: 10,
showInLegend: false,
states: {
hover: {
/**
* Opacity for the links between nodes in the sankey diagram in
* hover mode.
*/
linkOpacity: 1
},
/**
* The opposite state of a hover for a single point node/link.
*
* @declare Highcharts.SeriesStatesInactiveOptionsObject
*/
inactive: {
/**
* Opacity for the links between nodes in the sankey diagram in
* inactive mode.
*/
linkOpacity: 0.1,
/**
* Opacity of inactive markers.
*
* @type {number}
* @apioption plotOptions.series.states.inactive.opacity
*/
opacity: 0.1,
/**
* Animation when not hovering over the marker.
*
* @type {boolean|Highcharts.AnimationOptionsObject}
* @apioption plotOptions.series.states.inactive.animation
*/
animation: {
/** @internal */
duration: 50
}
}
},
tooltip: {
/**
* A callback for defining the format for _nodes_ in the chart's
* tooltip, as opposed to links.
*
* @type {Highcharts.FormatterCallbackFunction<Highcharts.SankeyNodeObject>}
* @since 6.0.2
* @apioption plotOptions.sankey.tooltip.nodeFormatter
*/
/**
* Whether the tooltip should follow the pointer or stay fixed on
* the item.
*/
followPointer: true,
headerFormat: '<span style="font-size: 10px">{series.name}</span><br/>',
pointFormat: '{point.fromNode.name} \u2192 {point.toNode.name}: <b>{point.weight}</b><br/>',
/**
* The
* [format string](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting)
* specifying what to show for _nodes_ in tooltip of a diagram
* series, as opposed to links.
*/
nodeFormat: '{point.name}: <b>{point.sum}</b><br/>'
}
}, {
isCartesian: false,
invertable: true,
forceDL: true,
orderNodes: true,
pointArrayMap: ['from', 'to'],
// Create a single node that holds information on incoming and outgoing
// links.
createNode: H.NodesMixin.createNode,
searchPoint: H.noop,
setData: H.NodesMixin.setData,
destroy: H.NodesMixin.destroy,
/* eslint-disable valid-jsdoc */
/**
* Overridable function to get node padding, overridden in dependency
* wheel series type.
* @private
*/
getNodePadding: function () {
var nodePadding = this.options.nodePadding || 0;
// If the number of columns is so great that they will overflow with
// the given nodePadding, we sacrifice the padding in order to
// render all nodes within the plot area (#11917).
if (this.nodeColumns) {
var maxLength = this.nodeColumns.reduce(function (acc, col) { return Math.max(acc, col.length); }, 0);
if (maxLength * nodePadding > this.chart.plotSizeY) {
nodePadding = this.chart.plotSizeY / maxLength;
}
}
return nodePadding;
},
/**
* Create a node column.
* @private
*/
createNodeColumn: function () {
var series = this, chart = this.chart, column = [];
column.sum = function () {
return this.reduce(function (sum, node) {
return sum + node.getSum();
}, 0);
};
// Get the offset in pixels of a node inside the column.
column.offset = function (node, factor) {
var offset = 0, totalNodeOffset, nodePadding = series.nodePadding;
for (var i = 0; i < column.length; i++) {
var sum = column[i].getSum();
var height = Math.max(sum * factor, series.options.minLinkWidth);
if (sum) {
totalNodeOffset = height + nodePadding;
}
else {
// If node sum equals 0 nodePadding is missed #12453
totalNodeOffset = 0;
}
if (column[i] === node) {
return {
relativeTop: offset + relativeLength(node.options.offset || 0, totalNodeOffset)
};
}
offset += totalNodeOffset;
}
};
// Get the top position of the column in pixels.
column.top = function (factor) {
var nodePadding = series.nodePadding;
var height = this.reduce(function (height, node) {
if (height > 0) {
height += nodePadding;
}
var nodeHeight = Math.max(node.getSum() * factor, series.options.minLinkWidth);
height += nodeHeight;
return height;
}, 0);
return (chart.plotSizeY - height) / 2;
};
return column;
},
/**
* Create node columns by analyzing the nodes and the relations between
* incoming and outgoing links.
* @private
*/
createNodeColumns: function () {
var columns = [];
this.nodes.forEach(function (node) {
var fromColumn = -1, fromNode, i, point;
if (!defined(node.options.column)) {
// No links to this node, place it left
if (node.linksTo.length === 0) {
node.column = 0;
// There are incoming links, place it to the right of the
// highest order column that links to this one.
}
else {
for (i = 0; i < node.linksTo.length; i++) {
point = node.linksTo[0];
if (point.fromNode.column > fromColumn) {
fromNode = point.fromNode;
fromColumn = fromNode.column;
}
}
node.column = fromColumn + 1;
// Hanging layout for organization chart
if (fromNode &&
fromNode.options.layout === 'hanging') {
node.hangsFrom = fromNode;
i = -1; // Reuse existing variable i
find(fromNode.linksFrom, function (link, index) {
var found = link.toNode === node;
if (found) {
i = index;
}
return found;
});
node.column += i;
}
}
}
if (!columns[node.column]) {
columns[node.column] = this.createNodeColumn();
}
columns[node.column].push(node);
}, this);
// Fill in empty columns (#8865)
for (var i = 0; i < columns.length; i++) {
if (typeof columns[i] === 'undefined') {
columns[i] = this.createNodeColumn();
}
}
return columns;
},
/**
* Define hasData function for non-cartesian series.
* @private
* @return {boolean}
* Returns true if the series has points at all.
*/
hasData: function () {
return !!this.processedXData.length; // != 0
},
/**
* Return the presentational attributes.
* @private
*/
pointAttribs: function (point, state) {
var series = this, level = point.isNode ? point.level : point.fromNode.level, levelOptions = series.mapOptionsToLevel[level || 0] || {}, options = point.options, stateOptions = (levelOptions.states && levelOptions.states[state]) || {}, values = [
'colorByPoint', 'borderColor', 'borderWidth', 'linkOpacity'
].reduce(function (obj, key) {
obj[key] = pick(stateOptions[key], options[key], levelOptions[key], series.options[key]);
return obj;
}, {}), color = pick(stateOptions.color, options.color, values.colorByPoint ? point.color : levelOptions.color);
// Node attributes
if (point.isNode) {
return {
fill: color,
stroke: values.borderColor,
'stroke-width': values.borderWidth
};
}
// Link attributes
return {
fill: Color.parse(color).setOpacity(values.linkOpacity).get()
};
},
/**
* Extend generatePoints by adding the nodes, which are Point objects
* but pushed to the this.nodes array.
* @private
*/
generatePoints: function () {
H.NodesMixin.generatePoints.apply(this, arguments);
/**
* Order the nodes, starting with the root node(s). (#9818)
* @private
*/
function order(node, level) {
// Prevents circular recursion:
if (typeof node.level === 'undefined') {
node.level = level;
node.linksFrom.forEach(function (link) {
if (link.toNode) {
order(link.toNode, level + 1);
}
});
}
}
if (this.orderNodes) {
this.nodes
// Identify the root node(s)
.filter(function (node) {
return node.linksTo.length === 0;
})
// Start by the root node(s) and recursively set the level
// on all following nodes.
.forEach(function (node) {
order(node, 0);
});
stableSort(this.nodes, function (a, b) {
return a.level - b.level;
});
}
},
/**
* Run translation operations for one node.
* @private
*/
translateNode: function (node, column) {
var translationFactor = this.translationFactor, chart = this.chart, options = this.options, sum = node.getSum(), height = Math.max(Math.round(sum * translationFactor), this.options.minLinkWidth), crisp = Math.round(options.borderWidth) % 2 / 2, nodeOffset = column.offset(node, translationFactor), fromNodeTop = Math.floor(pick(nodeOffset.absoluteTop, (column.top(translationFactor) +
nodeOffset.relativeTop))) + crisp, left = Math.floor(this.colDistance * node.column +
options.borderWidth / 2) + crisp, nodeLeft = chart.inverted ?
chart.plotSizeX - left :
left, nodeWidth = Math.round(this.nodeWidth);
node.sum = sum;
// If node sum is 0, don't render the rect #12453
if (sum) {
// Draw the node
node.shapeType = 'rect';
node.nodeX = nodeLeft;
node.nodeY = fromNodeTop;
if (!chart.inverted) {
node.shapeArgs = {
x: nodeLeft,
y: fromNodeTop,
width: node.options.width || options.width || nodeWidth,
height: node.options.height || options.height || height
};
}
else {
node.shapeArgs = {
x: nodeLeft - nodeWidth,
y: chart.plotSizeY - fromNodeTop - height,
width: node.options.height || options.height || nodeWidth,
height: node.options.width || options.width || height
};
}
node.shapeArgs.display = node.hasShape() ? '' : 'none';
// Calculate data label options for the point
node.dlOptions = getDLOptions({
level: this.mapOptionsToLevel[node.level],
optionsPoint: node.options
});
// Pass test in drawPoints
node.plotY = 1;
// Set the anchor position for tooltips
node.tooltipPos = chart.inverted ? [
chart.plotSizeY - node.shapeArgs.y - node.shapeArgs.height / 2,
chart.plotSizeX - node.shapeArgs.x - node.shapeArgs.width / 2
] : [
node.shapeArgs.x + node.shapeArgs.width / 2,
node.shapeArgs.y + node.shapeArgs.height / 2
];
}
else {
node.dlOptions = {
enabled: false
};
}
},
/**
* Run translation operations for one link.
* @private
*/
translateLink: function (point) {
var getY = function (node, fromOrTo) {
var _a;
var linkTop = (node.offset(point, fromOrTo) *
translationFactor);
var y = Math.min(node.nodeY + linkTop,
// Prevent links from spilling below the node (#12014)
node.nodeY + ((_a = node.shapeArgs) === null || _a === void 0 ? void 0 : _a.height) - linkHeight);
return y;
};
var fromNode = point.fromNode, toNode = point.toNode, chart = this.chart, translationFactor = this.translationFactor, linkHeight = Math.max(point.weight * translationFactor, this.options.minLinkWidth), options = this.options, curvy = ((chart.inverted ? -this.colDistance : this.colDistance) *
options.curveFactor), fromY = getY(fromNode, 'linksFrom'), toY = getY(toNode, 'linksTo'), nodeLeft = fromNode.nodeX, nodeW = this.nodeWidth, right = toNode.column * this.colDistance, outgoing = point.outgoing, straight = right > nodeLeft + nodeW;
if (chart.inverted) {
fromY = chart.plotSizeY - fromY;
toY = (chart.plotSizeY || 0) - toY;
right = chart.plotSizeX - right;
nodeW = -nodeW;
linkHeight = -linkHeight;
straight = nodeLeft > right;
}
point.shapeType = 'path';
point.linkBase = [
fromY,
fromY + linkHeight,
toY,
toY + linkHeight
];
// Links going from left to right
if (straight && typeof toY === 'number') {
point.shapeArgs = {
d: [
['M', nodeLeft + nodeW, fromY],
[
'C',
nodeLeft + nodeW + curvy,
fromY,
right - curvy,
toY,
right,
toY
],
['L', right + (outgoing ? nodeW : 0), toY + linkHeight / 2],
['L', right, toY + linkHeight],
[
'C',
right - curvy,
toY + linkHeight,
nodeLeft + nodeW + curvy,
fromY + linkHeight,
nodeLeft + nodeW, fromY + linkHeight
],
['Z']
]
};
// Experimental: Circular links pointing backwards. In
// v6.1.0 this breaks the rendering completely, so even
// this experimental rendering is an improvement. #8218.
// @todo
// - Make room for the link in the layout
// - Automatically determine if the link should go up or
// down.
}
else if (typeof toY === 'number') {
var bend = 20, vDist = chart.plotHeight - fromY - linkHeight, x1 = right - bend - linkHeight, x2 = right - bend, x3 = right, x4 = nodeLeft + nodeW, x5 = x4 + bend, x6 = x5 + linkHeight, fy1 = fromY, fy2 = fromY + linkHeight, fy3 = fy2 + bend, y4 = fy3 + vDist, y5 = y4 + bend, y6 = y5 + linkHeight, ty1 = toY, ty2 = ty1 + linkHeight, ty3 = ty2 + bend, cfy1 = fy2 - linkHeight * 0.7, cy2 = y5 + linkHeight * 0.7, cty1 = ty2 - linkHeight * 0.7, cx1 = x3 - linkHeight * 0.7, cx2 = x4 + linkHeight * 0.7;
point.shapeArgs = {
d: [
['M', x4, fy1],
['C', cx2, fy1, x6, cfy1, x6, fy3],
['L', x6, y4],
['C', x6, cy2, cx2, y6, x4, y6],
['L', x3, y6],
['C', cx1, y6, x1, cy2, x1, y4],
['L', x1, ty3],
['C', x1, cty1, cx1, ty1, x3, ty1],
['L', x3, ty2],
['C', x2, ty2, x2, ty2, x2, ty3],
['L', x2, y4],
['C', x2, y5, x2, y5, x3, y5],
['L', x4, y5],
['C', x5, y5, x5, y5, x5, y4],
['L', x5, fy3],
['C', x5, fy2, x5, fy2, x4, fy2],
['Z']
]
};
}
// Place data labels in the middle
point.dlBox = {
x: nodeLeft + (right - nodeLeft + nodeW) / 2,
y: fromY + (toY - fromY) / 2,
height: linkHeight,
width: 0
};
// And set the tooltip anchor in the middle
point.tooltipPos = chart.inverted ? [
chart.plotSizeY - point.dlBox.y - linkHeight / 2,
chart.plotSizeX - point.dlBox.x
] : [
point.dlBox.x,
point.dlBox.y + linkHeight / 2
];
// Pass test in drawPoints
point.y = point.plotY = 1;
if (!point.color) {
point.color = fromNode.color;
}
},
/**
* Run pre-translation by generating the nodeColumns.
* @private
*/
translate: function () {
var _this = this;
// Get the translation factor needed for each column to fill up the
// plot height
var getColumnTranslationFactor = function (column) {
var nodes = column.slice();
var minLinkWidth = _this.options.minLinkWidth || 0;
var exceedsMinLinkWidth;
var factor = 0;
var i;
var remainingHeight = chart.plotSizeY -
options.borderWidth - (column.length - 1) * series.nodePadding;
// Because the minLinkWidth option doesn't obey the direct
// translation, we need to run translation iteratively, check
// node heights, remove those nodes affected by minLinkWidth,
// check again, etc.
while (column.length) {
factor = remainingHeight / column.sum();
exceedsMinLinkWidth = false;
i = column.length;
while (i--) {
if (column[i].getSum() * factor < minLinkWidth) {
column.splice(i, 1);
remainingHeight -= minLinkWidth + series.nodePadding;
exceedsMinLinkWidth = true;
}
}
if (!exceedsMinLinkWidth) {
break;
}
}
// Re-insert original nodes
column.length = 0;
nodes.forEach(function (node) { return column.push(node); });
return factor;
};
if (!this.processedXData) {
this.processData();
}
this.generatePoints();
this.nodeColumns = this.createNodeColumns();
this.nodeWidth = relativeLength(this.options.nodeWidth, this.chart.plotSizeX);
var series = this, chart = this.chart, options = this.options, nodeWidth = this.nodeWidth, nodeColumns = this.nodeColumns;
this.nodePadding = this.getNodePadding();
// Find out how much space is needed. Base it on the translation
// factor of the most spaceous column.
this.translationFactor = nodeColumns.reduce(function (translationFactor, column) { return Math.min(translationFactor, getColumnTranslationFactor(column)); }, Infinity);
this.colDistance =
(chart.plotSizeX - nodeWidth -
options.borderWidth) / Math.max(1, nodeColumns.length - 1);
// Calculate level options used in sankey and organization
series.mapOptionsToLevel = getLevelOptions({
// NOTE: if support for allowTraversingTree is added, then from
// should be the level of the root node.
from: 1,
levels: options.levels,
to: nodeColumns.length - 1,
defaults: {
borderColor: options.borderColor,
borderRadius: options.borderRadius,
borderWidth: options.borderWidth,
color: series.color,
colorByPoint: options.colorByPoint,
// NOTE: if support for allowTraversingTree is added, then
// levelIsConstant should be optional.
levelIsConstant: true,
linkColor: options.linkColor,
linkLineWidth: options.linkLineWidth,
linkOpacity: options.linkOpacity,
states: options.states
}
});
// First translate all nodes so we can use them when drawing links
nodeColumns.forEach(function (column) {
column.forEach(function (node) {
series.translateNode(node, column);
});
}, this);
// Then translate links
this.nodes.forEach(function (node) {
// Translate the links from this node
node.linksFrom.forEach(function (linkPoint) {
// If weight is 0 - don't render the link path #12453,
// render null points (for organization chart)
if ((linkPoint.weight || linkPoint.isNull) && linkPoint.to) {
series.translateLink(linkPoint);
linkPoint.allowShadow = false;
}
});
});
},
/**
* Extend the render function to also render this.nodes together with
* the points.
* @private
*/
render: function () {
var points = this.points;
this.points = this.points.concat(this.nodes || []);
H.seriesTypes.column.prototype.render.call(this);
this.points = points;
},
/* eslint-enable valid-jsdoc */
animate: H.Series.prototype.animate
}, {
applyOptions: function (options, x) {
Point.prototype.applyOptions.call(this, options, x);
// Treat point.level as a synonym of point.column
if (defined(this.options.level)) {
this.options.column = this.column = this.options.level;
}
return this;
},
setState: H.NodesMixin.setNodeState,
getClassName: function () {
return (this.isNode ? 'highcharts-node ' : 'highcharts-link ') +
Point.prototype.getClassName.call(this);
},
isValid: function () {
return this.isNode || typeof this.weight === 'number';
}
});
/**
* A `sankey` series. If the [type](#series.sankey.type) option is not
* specified, it is inherited from [chart.type](#chart.type).
*
* @extends series,plotOptions.sankey
* @excluding animationLimit, boostBlending, boostThreshold, borderColor,
* borderRadius, borderWidth, crisp, cropThreshold, dataParser,
* dataURL, depth, dragDrop, edgeColor, edgeWidth,
* findNearestPointBy, getExtremesFromAll, grouping, groupPadding,
* groupZPadding, label, maxPointWidth, negativeColor, pointInterval,
* pointIntervalUnit, pointPadding, pointPlacement, pointRange,
* pointStart, pointWidth, shadow, softThreshold, stacking,
* threshold, zoneAxis, zones, dataSorting
* @product highcharts
* @requires modules/sankey
* @apioption series.sankey
*/
/**
* A collection of options for the individual nodes. The nodes in a sankey
* diagram are auto-generated instances of `Highcharts.Point`, but options can
* be applied here and linked by the `id`.
*
* @sample highcharts/css/sankey/
* Sankey diagram with node options
*
* @declare Highcharts.SeriesSankeyNodesOptionsObject
* @type {Array<*>}
* @product highcharts
* @apioption series.sankey.nodes
*/
/**
* The id of the auto-generated node, refering to the `from` or `to` setting of
* the link.
*
* @type {string}
* @product highcharts
* @apioption series.sankey.nodes.id
*/
/**
* The color of the auto generated node.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @product highcharts
* @apioption series.sankey.nodes.color
*/
/**
* The color index of the auto generated node, especially for use in styled
* mode.
*
* @type {number}
* @product highcharts
* @apioption series.sankey.nodes.colorIndex
*/
/**
* An optional column index of where to place the node. The default behaviour is
* to place it next to the preceding node. Note that this option name is
* counter intuitive in inverted charts, like for example an organization chart
* rendered top down. In this case the "columns" are horizontal.
*
* @sample highcharts/plotoptions/sankey-node-column/
* Specified node column
*
* @type {number}
* @since 6.0.5
* @product highcharts
* @apioption series.sankey.nodes.column
*/
/**
* Individual data label for each node. The options are the same as
* the ones for [series.sankey.dataLabels](#series.sankey.dataLabels).
*
* @extends plotOptions.sankey.dataLabels
* @apioption series.sankey.nodes.dataLabels
*/
/**
* An optional level index of where to place the node. The default behaviour is
* to place it next to the preceding node. Alias of `nodes.column`, but in
* inverted sankeys and org charts, the levels are laid out as rows.
*
* @type {number}
* @since 7.1.0
* @product highcharts
* @apioption series.sankey.nodes.level
*/
/**
* The name to display for the node in data labels and tooltips. Use this when
* the name is different from the `id`. Where the id must be unique for each
* node, this is not necessary for the name.
*
* @sample highcharts/css/sankey/
* Sankey diagram with node options
*
* @type {string}
* @product highcharts
* @apioption series.sankey.nodes.name
*/
/**
* In a horizontal layout, the vertical offset of a node in terms of weight.
* Positive values shift the node downwards, negative shift it upwards. In a
* vertical layout, like organization chart, the offset is horizontal.
*
* If a percantage string is given, the node is offset by the percentage of the
* node size plus `nodePadding`.
*
* @sample highcharts/plotoptions/sankey-node-column/
* Specified node offset
*
* @type {number|string}
* @default 0
* @since 6.0.5
* @product highcharts
* @apioption series.sankey.nodes.offset
*/
/**
* An array of data points for the series. For the `sankey` series type,
* points can be given in the following way:
*
* An array of objects with named values. The following snippet shows only a
* few settings, see the complete options set below. If the total number of data
* points exceeds the series' [turboThreshold](#series.area.turboThreshold),
* this option is not available.
*
* ```js
* data: [{
* from: 'Category1',
* to: 'Category2',
* weight: 2
* }, {
* from: 'Category1',
* to: 'Category3',
* weight: 5
* }]
* ```
*
* @sample {highcharts} highcharts/series/data-array-of-objects/
* Config objects
*
* @declare Highcharts.SeriesSankeyPointOptionsObject
* @type {Array<*>}
* @extends series.line.data
* @excluding dragDrop, drilldown, marker, x, y
* @product highcharts
* @apioption series.sankey.data
*/
/**
* The color for the individual _link_. By default, the link color is the same
* as the node it extends from. The `series.fillOpacity` option also applies to
* the points, so when setting a specific link color, consider setting the
* `fillOpacity` to 1.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @product highcharts
* @apioption series.sankey.data.color
*/
/**
* @type {Highcharts.SeriesSankeyDataLabelsOptionsObject|Array<Highcharts.SeriesSankeyDataLabelsOptionsObject>}
* @product highcharts
* @apioption series.sankey.data.dataLabels
*/
/**
* The node that the link runs from.
*
* @type {string}
* @product highcharts
* @apioption series.sankey.data.from
*/
/**
* The node that the link runs to.
*
* @type {string}
* @product highcharts
* @apioption series.sankey.data.to
*/
/**
* Whether the link goes out of the system.
*
* @sample highcharts/plotoptions/sankey-outgoing
* Sankey chart with outgoing links
*
* @type {boolean}
* @default false
* @product highcharts
* @apioption series.sankey.data.outgoing
*/
/**
* The weight of the link.
*
* @type {number|null}
* @product highcharts
* @apioption series.sankey.data.weight
*/
''; // adds doclets above to transpiled file