// Copyright 2018 the Charts project authors. Please see the AUTHORS file // for details. // // Licensed 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. /// Example of a numeric combo chart with two series rendered as lines, and a /// third rendered as points along the top line with a different color. /// /// This example demonstrates a method for drawing points along a line using a /// different color from the main series color. The line renderer supports /// drawing points with the "includePoints" option, but those points will share /// the same color as the line. // EXCLUDE_FROM_GALLERY_DOCS_START import 'dart:math'; // EXCLUDE_FROM_GALLERY_DOCS_END import 'package:charts_flutter/flutter.dart' as charts; import 'package:flutter/material.dart'; class NumericComboLinePointChart extends StatelessWidget { final List> seriesList; final bool? animate; const NumericComboLinePointChart(this.seriesList, {this.animate, Key? key}) : super(key: key); /// Creates a [LineChart] with sample data and no transition. factory NumericComboLinePointChart.withSampleData() { return NumericComboLinePointChart( _createSampleData(), // Disable animations for image tests. animate: false, ); } // EXCLUDE_FROM_GALLERY_DOCS_START // This section is excluded from being copied to the gallery. // It is used for creating random series data to demonstrate animation in // the example app only. factory NumericComboLinePointChart.withRandomData() { return NumericComboLinePointChart(_createRandomData()); } /// Create random data. static List> _createRandomData() { final random = Random(); final desktopSalesData = [ LinearSales(0, random.nextInt(100)), LinearSales(1, random.nextInt(100)), LinearSales(2, random.nextInt(100)), LinearSales(3, random.nextInt(100)), ]; final tableSalesData = [ LinearSales(0, random.nextInt(100)), LinearSales(1, random.nextInt(100)), LinearSales(2, random.nextInt(100)), LinearSales(3, random.nextInt(100)), ]; final mobileSalesData = [ LinearSales(0, tableSalesData[0].sales), LinearSales(1, tableSalesData[1].sales), LinearSales(2, tableSalesData[2].sales), LinearSales(3, tableSalesData[3].sales), ]; return [ charts.Series( id: 'Desktop', colorFn: (_, __) => charts.MaterialPalette.blue.shadeDefault, domainFn: (LinearSales sales, _) => sales.year, measureFn: (LinearSales sales, _) => sales.sales, data: desktopSalesData, ), charts.Series( id: 'Tablet', colorFn: (_, __) => charts.MaterialPalette.red.shadeDefault, domainFn: (LinearSales sales, _) => sales.year, measureFn: (LinearSales sales, _) => sales.sales, data: tableSalesData, ), charts.Series( id: 'Mobile', colorFn: (_, __) => charts.MaterialPalette.green.shadeDefault, domainFn: (LinearSales sales, _) => sales.year, measureFn: (LinearSales sales, _) => sales.sales, data: mobileSalesData) // Configure our custom point renderer for this series. ..setAttribute(charts.rendererIdKey, 'customPoint'), ]; } // EXCLUDE_FROM_GALLERY_DOCS_END @override Widget build(BuildContext context) { return charts.NumericComboChart(seriesList, animate: animate, // Configure the default renderer as a line renderer. This will be used // for any series that does not define a rendererIdKey. defaultRenderer: charts.LineRendererConfig(), // Custom renderer configuration for the point series. customSeriesRenderers: [ charts.PointRendererConfig( // ID used to link series to this renderer. customRendererId: 'customPoint') ]); } /// Create one series with sample hard coded data. static List> _createSampleData() { final desktopSalesData = [ LinearSales(0, 5), LinearSales(1, 25), LinearSales(2, 100), LinearSales(3, 75), ]; final tableSalesData = [ LinearSales(0, 10), LinearSales(1, 50), LinearSales(2, 200), LinearSales(3, 150), ]; final mobileSalesData = [ LinearSales(0, 10), LinearSales(1, 50), LinearSales(2, 200), LinearSales(3, 150), ]; return [ charts.Series( id: 'Desktop', colorFn: (_, __) => charts.MaterialPalette.blue.shadeDefault, domainFn: (LinearSales sales, _) => sales.year, measureFn: (LinearSales sales, _) => sales.sales, data: desktopSalesData, ), charts.Series( id: 'Tablet', colorFn: (_, __) => charts.MaterialPalette.red.shadeDefault, domainFn: (LinearSales sales, _) => sales.year, measureFn: (LinearSales sales, _) => sales.sales, data: tableSalesData, ), charts.Series( id: 'Mobile', colorFn: (_, __) => charts.MaterialPalette.green.shadeDefault, domainFn: (LinearSales sales, _) => sales.year, measureFn: (LinearSales sales, _) => sales.sales, data: mobileSalesData) // Configure our custom point renderer for this series. ..setAttribute(charts.rendererIdKey, 'customPoint'), ]; } } /// Sample linear data type. class LinearSales { final int year; final int sales; LinearSales(this.year, this.sales); }