@mcdevsl/superset-ui
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text/typescript
/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
/* eslint-disable camelcase */
import {
AnnotationLayer,
CategoricalColorNamespace,
ChartProps,
getNumberFormatter,
isEventAnnotationLayer,
isFormulaAnnotationLayer,
isIntervalAnnotationLayer,
isTimeseriesAnnotationLayer,
} from '@superset-ui/core';
import { EChartsOption, SeriesOption } from 'echarts';
import { DEFAULT_FORM_DATA, EchartsMixedTimeseriesFormData } from './types';
import { EchartsProps, ForecastSeriesEnum, ProphetValue } from '../types';
import { parseYAxisBound } from '../utils/controls';
import { dedupSeries, extractTimeseriesSeries, getLegendProps } from '../utils/series';
import { extractAnnotationLabels } from '../utils/annotation';
import {
extractForecastSeriesContext,
extractProphetValuesFromTooltipParams,
formatProphetTooltipSeries,
rebaseTimeseriesDatum,
} from '../utils/prophet';
import { defaultGrid, defaultTooltip, defaultYAxis } from '../defaults';
import {
getPadding,
getTooltipTimeFormatter,
getXAxisFormatter,
transformEventAnnotation,
transformFormulaAnnotation,
transformIntervalAnnotation,
transformSeries,
transformTimeseriesAnnotation,
} from '../Timeseries/transformers';
import { TIMESERIES_CONSTANTS } from '../constants';
export default function transformProps(chartProps: ChartProps): EchartsProps {
const { width, height, formData, queriesData } = chartProps;
const { annotation_data: annotationData_, data: data1 = [] } = queriesData[0];
const { data: data2 = [] } = queriesData[1];
const annotationData = annotationData_ || {};
const {
area,
areaB,
annotationLayers,
colorScheme,
contributionMode,
legendOrientation,
legendType,
logAxis,
logAxisSecondary,
markerEnabled,
markerEnabledB,
markerSize,
markerSizeB,
opacity,
opacityB,
minorSplitLine,
seriesType,
seriesTypeB,
showLegend,
stack,
stackB,
truncateYAxis,
tooltipTimeFormat,
yAxisFormat,
yAxisFormatSecondary,
xAxisShowMinLabel,
xAxisShowMaxLabel,
xAxisTimeFormat,
yAxisBounds,
yAxisIndex,
yAxisIndexB,
yAxisTitle,
yAxisTitleSecondary,
zoomable,
richTooltip,
xAxisLabelRotation,
}: EchartsMixedTimeseriesFormData = { ...DEFAULT_FORM_DATA, ...formData };
const colorScale = CategoricalColorNamespace.getScale(colorScheme as string);
const rawSeriesA = extractTimeseriesSeries(rebaseTimeseriesDatum(data1), {
fillNeighborValue: stack ? 0 : undefined,
});
const rawSeriesB = extractTimeseriesSeries(rebaseTimeseriesDatum(data2), {
fillNeighborValue: stackB ? 0 : undefined,
});
const series: SeriesOption[] = [];
const formatter = getNumberFormatter(contributionMode ? ',.0%' : yAxisFormat);
const formatterSecondary = getNumberFormatter(contributionMode ? ',.0%' : yAxisFormatSecondary);
const primarySeries = new Set<string>();
const secondarySeries = new Set<string>();
const mapSeriesIdToAxis = (seriesOption: SeriesOption, index?: number): void => {
if (index === 1) {
secondarySeries.add(seriesOption.id as string);
} else {
primarySeries.add(seriesOption.id as string);
}
};
rawSeriesA.forEach(seriesOption => mapSeriesIdToAxis(seriesOption, yAxisIndex));
rawSeriesB.forEach(seriesOption => mapSeriesIdToAxis(seriesOption, yAxisIndexB));
rawSeriesA.forEach(entry => {
const transformedSeries = transformSeries(entry, colorScale, {
area,
markerEnabled,
markerSize,
opacity,
seriesType,
stack,
yAxisIndex,
});
if (transformedSeries) series.push(transformedSeries);
});
rawSeriesB.forEach(entry => {
const transformedSeries = transformSeries(entry, colorScale, {
area: areaB,
markerEnabled: markerEnabledB,
markerSize: markerSizeB,
opacity: opacityB,
seriesType: seriesTypeB,
stack: stackB,
yAxisIndex: yAxisIndexB,
});
if (transformedSeries) series.push(transformedSeries);
});
annotationLayers
.filter((layer: AnnotationLayer) => layer.show)
.forEach((layer: AnnotationLayer) => {
if (isFormulaAnnotationLayer(layer))
series.push(transformFormulaAnnotation(layer, data1, colorScale));
else if (isIntervalAnnotationLayer(layer)) {
series.push(...transformIntervalAnnotation(layer, data1, annotationData, colorScale));
} else if (isEventAnnotationLayer(layer)) {
series.push(...transformEventAnnotation(layer, data1, annotationData, colorScale));
} else if (isTimeseriesAnnotationLayer(layer)) {
series.push(...transformTimeseriesAnnotation(layer, markerSize, data1, annotationData));
}
});
// yAxisBounds need to be parsed to replace incompatible values with undefined
let [min, max] = (yAxisBounds || []).map(parseYAxisBound);
// default to 0-100% range when doing row-level contribution chart
if (contributionMode === 'row' && stack) {
if (min === undefined) min = 0;
if (max === undefined) max = 1;
}
const tooltipTimeFormatter = getTooltipTimeFormatter(tooltipTimeFormat);
const xAxisFormatter = getXAxisFormatter(xAxisTimeFormat);
const addYAxisLabelOffset = !!(yAxisTitle || yAxisTitleSecondary);
const chartPadding = getPadding(showLegend, legendOrientation, addYAxisLabelOffset, zoomable);
const echartOptions: EChartsOption = {
useUTC: true,
grid: {
...defaultGrid,
...chartPadding,
},
xAxis: {
type: 'time',
axisLabel: {
showMinLabel: xAxisShowMinLabel,
showMaxLabel: xAxisShowMaxLabel,
formatter: xAxisFormatter,
rotate: xAxisLabelRotation,
},
},
yAxis: [
{
...defaultYAxis,
type: logAxis ? 'log' : 'value',
min,
max,
minorTick: { show: true },
minorSplitLine: { show: minorSplitLine },
axisLabel: { formatter },
scale: truncateYAxis,
name: yAxisTitle,
},
{
...defaultYAxis,
type: logAxisSecondary ? 'log' : 'value',
min,
max,
minorTick: { show: true },
splitLine: { show: false },
minorSplitLine: { show: minorSplitLine },
axisLabel: { formatter: formatterSecondary },
scale: truncateYAxis,
name: yAxisTitleSecondary,
},
],
tooltip: {
...defaultTooltip,
trigger: richTooltip ? 'axis' : 'item',
formatter: (params: any) => {
const value: number = !richTooltip ? params.value : params[0].value[0];
const prophetValue = !richTooltip ? [params] : params;
const rows: Array<string> = [`${tooltipTimeFormatter(value)}`];
const prophetValues: Record<string, ProphetValue> = extractProphetValuesFromTooltipParams(
prophetValue,
);
Object.keys(prophetValues).forEach(key => {
const value = prophetValues[key];
rows.push(
formatProphetTooltipSeries({
...value,
seriesName: key,
formatter: primarySeries.has(key) ? formatter : formatterSecondary,
}),
);
});
return rows.join('<br />');
},
},
legend: {
...getLegendProps(legendType, legendOrientation, showLegend, zoomable),
// @ts-ignore
data: rawSeriesA
.concat(rawSeriesB)
.filter(
entry =>
extractForecastSeriesContext((entry.name || '') as string).type ===
ForecastSeriesEnum.Observation,
)
.map(entry => entry.name || '')
.concat(extractAnnotationLabels(annotationLayers, annotationData)),
},
series: dedupSeries(series),
toolbox: {
show: zoomable,
top: TIMESERIES_CONSTANTS.toolboxTop,
right: TIMESERIES_CONSTANTS.toolboxRight,
feature: {
dataZoom: {
yAxisIndex: false,
title: {
zoom: 'zoom area',
back: 'restore zoom',
},
},
},
},
dataZoom: zoomable
? [
{
type: 'slider',
start: TIMESERIES_CONSTANTS.dataZoomStart,
end: TIMESERIES_CONSTANTS.dataZoomEnd,
bottom: TIMESERIES_CONSTANTS.zoomBottom,
},
]
: [],
};
return {
echartOptions,
width,
height,
};
}