The "extendRangeToOrigin" option of the linear axis is used when you want to display
the origin (0 or the 'crossing' value) on the linear axis, but you don't want to
have to set "minimum" or "maximum" because your data could have positive or negative
values - or both.
For detailed implementation, please take a look at the Aspx code tab.
using System;
using System.Collections.Generic;
using System.Linq;
using System.Web;
namespace SamplesBrowser.Models
{
public class ChartData
{
public static List<ChartData> GetData()
{
var data = new List<ChartData>();
data.Add(new ChartData("A", 46, 78));
data.Add(new ChartData("B", 35, 72));
data.Add(new ChartData("C", 68, 86));
data.Add(new ChartData("D", 30, 23));
data.Add(new ChartData("E", 27, 70));
data.Add(new ChartData("F", 85, 60));
data.Add(new ChartData("D", 43, 88));
data.Add(new ChartData("H", 29, 22));
return data;
}
public static List<ChartData> GetLineAreaChartData()
{
var data = new List<ChartData>();
data.Add(new ChartData("A", 56, 62));
data.Add(new ChartData("B", 30, 70));
data.Add(new ChartData("C", 58, 68));
data.Add(new ChartData("D", 65, 54));
data.Add(new ChartData("E", 40, 52));
data.Add(new ChartData("F", 36, 60));
data.Add(new ChartData("D", 70, 48));
return data;
}
public static List<ChartData> GetMultipleAxesSampleData()
{
var data = new List<ChartData>();
data.Add(new ChartData("A", 1, 40));
data.Add(new ChartData("B", 4, 60));
data.Add(new ChartData("C", 3, 62));
data.Add(new ChartData("D", 5, 52));
data.Add(new ChartData("E", 2, 70));
data.Add(new ChartData("F", 1, 75));
return data;
}
public static List<ChartData> GetPieChartData()
{
var data = new List<ChartData>();
data.Add(new ChartData("United States", 65));
data.Add(new ChartData("United Kingdom", 58));
data.Add(new ChartData("Germany", 30));
data.Add(new ChartData("India", 60));
data.Add(new ChartData("Russia", 65));
data.Add(new ChartData("China", 75));
return data;
}
public static List<ChartData> GetFunnelChartData()
{
var data = new List<ChartData>();
data.Add(new ChartData("United States", 650));
data.Add(new ChartData("United Kingdom", 530));
data.Add(new ChartData("Germany", 440));
data.Add(new ChartData("India", 280));
data.Add(new ChartData("Russia", 150));
data.Add(new ChartData("China", 75));
return data;
}
public static List<ChartData> GetPyramidChartData()
{
var data = new List<ChartData>();
data.Add(new ChartData("United States", 200));
data.Add(new ChartData("United Kingdom", 220));
data.Add(new ChartData("Germany", 260));
data.Add(new ChartData("India", 280));
data.Add(new ChartData("Russia", 450));
data.Add(new ChartData("China", 600));
return data;
}
public static List<ChartData> GetCategoryAxisSampleChartData()
{
var data = new List<ChartData>();
data.Add(new ChartData("Category 1", 70));
data.Add(new ChartData("Category 2", 40));
data.Add(new ChartData("Category 3", 85));
data.Add(new ChartData("Category 4", 50));
data.Add(new ChartData("Category 5", 25));
data.Add(new ChartData("Category 6", 40));
return data;
}
public static List<ChartData> GetLogarithmicSampleChartData()
{
var data = new List<ChartData>();
data.Add(new ChartData("A", 5));
data.Add(new ChartData("B", 50));
data.Add(new ChartData("C", 500));
data.Add(new ChartData("D", 5000));
data.Add(new ChartData("E", 50000));
return data;
}
public ChartData(string label, double value1)
{
this.Label = label;
this.Value1 = value1;
}
public ChartData(string label, double value1, double value2)
{
this.Label = label;
this.Value1 = value1;
this.Value2 = value2;
}
public string Label { get; set; }
public double Value1 { get; set; }
public double Value2 { get; set; }
}
}