Files
brk/website_next/chart/stacked/series.js
T
2026-07-04 13:27:57 +02:00

153 lines
3.9 KiB
JavaScript

import { interpolatePlotValue } from "../interpolate.js";
import { orderIndexes } from "../order.js";
import { createBounds, includeBoundValue } from "../scale.js";
import { createStepXScale } from "../x.js";
import { createYScale } from "../y.js";
/**
* @param {LoadedSeries[]} series
* @param {number[]} stackOrder
* @param {number[]} lineIndexes
*/
function createStackBounds(series, stackOrder, lineIndexes) {
const bounds = createBounds();
const length = series[0].samples.length;
includeBoundValue(bounds, 0);
for (let index = 0; index < length; index += 1) {
let negative = 0;
let positive = 0;
for (const seriesIndex of stackOrder) {
const y = series[seriesIndex].samples[index].y;
const end = y < 0 ? negative + y : positive + y;
if (y < 0) negative = end;
else positive = end;
includeBoundValue(bounds, end);
}
for (const seriesIndex of lineIndexes) {
const y = series[seriesIndex].samples[index].y;
includeBoundValue(bounds, y);
}
}
return bounds;
}
/**
* @param {LoadedSeries[]} loadedSeries
* @param {ChartFrame} frame
* @param {ChartOrder} order
* @param {ChartScale} scale
*/
export function createStackedSeries(loadedSeries, frame, order, scale) {
const indexes = loadedSeries.map((_, index) => index);
const lineIndexes = orderIndexes(
indexes.filter((index) => loadedSeries[index].series.role === "line"),
order,
);
const stackIndexes = orderIndexes(
indexes.filter((index) => loadedSeries[index].series.role !== "line"),
order,
);
const length = loadedSeries[0].samples.length;
const scaleX = createStepXScale(frame, length);
const plottedSeries = loadedSeries.map(({ series, color }) => ({
series,
color,
points: /** @type {StackedPoint[]} */ ([]),
hitTest: /** @type {StackedPlottedSeries["hitTest"]} */ (undefined),
}));
const bounds = createStackBounds(loadedSeries, stackIndexes, lineIndexes);
const scalePlotY = createYScale(frame, bounds, scale);
for (const index of stackIndexes) {
const points = plottedSeries[index].points;
plottedSeries[index].hitTest = (_point, pointerX, pointerY) => {
if (!points.length) return Infinity;
const plotY0 = interpolatePlotValue(
points,
pointerX,
(point) => point.plotY0,
);
const plotY1 = interpolatePlotValue(
points,
pointerX,
(point) => point.plotY1,
);
const top = Math.min(plotY0, plotY1);
const bottom = Math.max(plotY0, plotY1);
return pointerY >= top && pointerY <= bottom
? 0
: Math.min(Math.abs(pointerY - top), Math.abs(pointerY - bottom));
};
}
for (const index of lineIndexes) {
const points = plottedSeries[index].points;
plottedSeries[index].hitTest = (_point, pointerX, pointerY) =>
Math.abs(
interpolatePlotValue(points, pointerX, ({ plotY }) => plotY) -
pointerY,
);
}
for (let index = 0; index < length; index += 1) {
let negative = 0;
let positive = 0;
for (const seriesIndex of stackIndexes) {
const { x, y } = loadedSeries[seriesIndex].samples[index];
const start = y < 0 ? negative : positive;
const end = start + y;
const plotX = scaleX(x, index);
if (y < 0) negative = end;
else positive = end;
const plotY0 = scalePlotY(start);
const plotY1 = scalePlotY(end);
plottedSeries[seriesIndex].points.push({
x,
y,
plotX,
plotY: plotY1,
plotY0,
plotY1,
});
}
for (const seriesIndex of lineIndexes) {
const { x, y } = loadedSeries[seriesIndex].samples[index];
const plotY = scalePlotY(y);
plottedSeries[seriesIndex].points.push({
x,
y,
plotX: scaleX(x, index),
plotY,
plotY0: plotY,
plotY1: plotY,
});
}
}
return {
lineIndexes,
plottedSeries,
stackIndexes,
};
}