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Add flutter_web samples (#75)

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Kevin Moore
2019-05-07 13:32:08 -07:00
committed by Andrew Brogdon
parent 42f2dce01b
commit 3fe927cb29
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web/charts/example/lib/scatter_plot_chart/bucketing_axis.dart Normal file
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// 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 scatter plot chart with a bucketing measure axis and a legend.
///
/// A bucketing measure axis positions all values beneath a certain threshold
/// into a reserved space on the axis range. The label for the bucket line will
/// be drawn in the middle of the bucket range, rather than aligned with the
/// gridline for that value's position on the scale.
// EXCLUDE_FROM_GALLERY_DOCS_START
import 'dart:math';
// EXCLUDE_FROM_GALLERY_DOCS_END
import 'package:charts_flutter/flutter.dart' as charts;
import 'package:flutter_web/material.dart';
class BucketingAxisScatterPlotChart extends StatelessWidget {
final List<charts.Series> seriesList;
final bool animate;
BucketingAxisScatterPlotChart(this.seriesList, {this.animate});
/// Creates a [ScatterPlotChart] with sample data and no transition.
factory BucketingAxisScatterPlotChart.withSampleData() {
return new BucketingAxisScatterPlotChart(
_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 BucketingAxisScatterPlotChart.withRandomData() {
return new BucketingAxisScatterPlotChart(_createRandomData());
}
/// Create random data.
static List<charts.Series<LinearSales, num>> _createRandomData() {
final random = new Random();
final makeRadius = (int value) => (random.nextInt(value) + 6).toDouble();
// Make sure that the measure values for the first five series are well
// above the threshold. This simulates the grouping of the small values into
// the "Other" series.
final myFakeDesktopData = [
new LinearSales(
random.nextInt(100), (random.nextInt(50) + 50) / 100, makeRadius(6)),
];
final myFakeTabletData = [
new LinearSales(
random.nextInt(100), (random.nextInt(50) + 50) / 100, makeRadius(6)),
];
final myFakeMobileData = [
new LinearSales(
random.nextInt(100), (random.nextInt(50) + 50) / 100, makeRadius(6)),
];
final myFakeChromebookData = [
new LinearSales(
random.nextInt(100), (random.nextInt(50) + 50) / 100, makeRadius(6)),
];
final myFakeHomeData = [
new LinearSales(
random.nextInt(100), (random.nextInt(50) + 50) / 100, makeRadius(6)),
];
// Make sure that the "Other" series values are smaller.
final myFakeOtherData = [
new LinearSales(
random.nextInt(100), random.nextInt(50) / 100, makeRadius(6)),
new LinearSales(
random.nextInt(100), random.nextInt(50) / 100, makeRadius(6)),
new LinearSales(
random.nextInt(100), random.nextInt(50) / 100, makeRadius(6)),
new LinearSales(
random.nextInt(100), random.nextInt(50) / 100, makeRadius(6)),
new LinearSales(
random.nextInt(100), random.nextInt(50) / 100, makeRadius(6)),
new LinearSales(
random.nextInt(100), random.nextInt(50) / 100, makeRadius(6)),
];
return [
new charts.Series<LinearSales, int>(
id: 'Desktop',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.blue.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeDesktopData),
new charts.Series<LinearSales, int>(
id: 'Tablet',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.red.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeTabletData),
new charts.Series<LinearSales, int>(
id: 'Mobile',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.green.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeMobileData),
new charts.Series<LinearSales, int>(
id: 'Chromebook',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.purple.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeChromebookData),
new charts.Series<LinearSales, int>(
id: 'Home',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.indigo.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeHomeData),
new charts.Series<LinearSales, int>(
id: 'Other',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.gray.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeOtherData),
];
}
// EXCLUDE_FROM_GALLERY_DOCS_END
@override
Widget build(BuildContext context) {
return new charts.ScatterPlotChart(seriesList,
// Set up a bucketing axis that will place all values below 0.1 (10%)
// into a bucket at the bottom of the chart.
//
// Configure a tick count of 3 so that we get 100%, 50%, and the
// threshold.
primaryMeasureAxis: new charts.BucketingAxisSpec(
threshold: 0.1,
tickProviderSpec: new charts.BucketingNumericTickProviderSpec(
desiredTickCount: 3)),
// Add a series legend to display the series names.
behaviors: [
new charts.SeriesLegend(position: charts.BehaviorPosition.end),
],
animate: animate);
}
/// Create one series with sample hard coded data.
static List<charts.Series<LinearSales, int>> _createSampleData() {
final myFakeDesktopData = [
new LinearSales(52, 0.75, 14.0),
];
final myFakeTabletData = [
new LinearSales(45, 0.3, 18.0),
];
final myFakeMobileData = [
new LinearSales(56, 0.8, 17.0),
];
final myFakeChromebookData = [
new LinearSales(25, 0.6, 13.0),
];
final myFakeHomeData = [
new LinearSales(34, 0.5, 15.0),
];
final myFakeOtherData = [
new LinearSales(10, 0.25, 15.0),
new LinearSales(12, 0.075, 14.0),
new LinearSales(13, 0.225, 15.0),
new LinearSales(16, 0.03, 14.0),
new LinearSales(24, 0.04, 13.0),
new LinearSales(37, 0.1, 14.5),
];
return [
new charts.Series<LinearSales, int>(
id: 'Desktop',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.blue.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeDesktopData),
new charts.Series<LinearSales, int>(
id: 'Tablet',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.red.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeTabletData),
new charts.Series<LinearSales, int>(
id: 'Mobile',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.green.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeMobileData),
new charts.Series<LinearSales, int>(
id: 'Chromebook',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.purple.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeChromebookData),
new charts.Series<LinearSales, int>(
id: 'Home',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.indigo.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeHomeData),
new charts.Series<LinearSales, int>(
id: 'Other',
colorFn: (LinearSales sales, _) =>
charts.MaterialPalette.gray.shadeDefault,
domainFn: (LinearSales sales, _) => sales.year,
measureFn: (LinearSales sales, _) => sales.revenueShare,
radiusPxFn: (LinearSales sales, _) => sales.radius,
data: myFakeOtherData),
];
}
}
/// Sample linear data type.
class LinearSales {
final int year;
final double revenueShare;
final double radius;
LinearSales(this.year, this.revenueShare, this.radius);
}