How do I use the IComparable interface?
I need a basic example of how to use the IComparable interface so that I can sort in ascending or descending order and by different fields of the object type I\'m s
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Well, since you are using
List<T>it would be a lot simpler to just use aComparison<T>, for example:List<Foo> data = ... // sort by name descending data.Sort((x,y) => -x.Name.CompareTo(y.Name));Of course, with LINQ you could just use:
var ordered = data.OrderByDescending(x=>x.Name);But you can re-introduce this in
List<T>(for in-place re-ordering) quite easily; Here's an example that allowsSortonList<T>with lambda syntax:using System; using System.Collections.Generic; class Foo { // formatted for vertical space public string Bar{get;set;} } static class Program { static void Main() { List<Foo> data = new List<Foo> { new Foo {Bar = "abc"}, new Foo {Bar = "jkl"}, new Foo {Bar = "def"}, new Foo {Bar = "ghi"} }; data.SortDescending(x => x.Bar); foreach (var row in data) { Console.WriteLine(row.Bar); } } static void Sort<TSource, TValue>(this List<TSource> source, Func<TSource, TValue> selector) { var comparer = Comparer<TValue>.Default; source.Sort((x,y)=>comparer.Compare(selector(x),selector(y))); } static void SortDescending<TSource, TValue>(this List<TSource> source, Func<TSource, TValue> selector) { var comparer = Comparer<TValue>.Default; source.Sort((x,y)=>comparer.Compare(selector(y),selector(x))); } }讨论(0) -
using System; using System.Collections.Generic; using System.Text; namespace Sorting_ComplexTypes { class Program { static void Main(string[] args) { Customer customer1 = new Customer { ID = 101, Name = "Mark", Salary = 2400, Type = "Retail Customers" }; Customer customer2 = new Customer { ID = 102, Name = "Brian", Salary = 5000, Type = "Retail Customers" }; Customer customer3 = new Customer { ID = 103, Name = "Steve", Salary = 3400, Type = "Retail Customers" }; List<Customer> customer = new List<Customer>(); customer.Add(customer1); customer.Add(customer2); customer.Add(customer3); Console.WriteLine("Before Sorting"); foreach(Customer c in customer) { Console.WriteLine(c.Name); } customer.Sort(); Console.WriteLine("After Sorting"); foreach(Customer c in customer) { Console.WriteLine(c.Name); } customer.Reverse(); Console.WriteLine("Reverse Sorting"); foreach (Customer c in customer) { Console.WriteLine(c.Name); } } } } public class Customer : IComparable<Customer> { public int ID { get; set; } public string Name { get; set; } public int Salary { get; set; } public string Type { get; set; } public int CompareTo(Customer other) { return this.Name.CompareTo(other.Name); } }讨论(0) -
You can use this for sorting list
namespace GenaricClass { class Employee :IComparable<Employee> { public string Name { get; set; } public double Salary { get; set; } public int CompareTo(Employee other) { if (this.Salary < other.Salary) return 1; else if (this.Salary > other.Salary) return -1; else return 0; } public static void Main() { List<Employee> empList = new List<Employee>() { new Employee{Name="a",Salary=140000}, new Employee{Name="b",Salary=120000}, new Employee{Name="c",Salary=160000}, new Employee{Name="d",Salary=10000} }; empList.Sort(); foreach (Employee emp in empList) { System.Console.Write(emp.Salary +","); } System.Console.ReadKey(); } } }讨论(0) -
Here's a simple example:
public class SortableItem : IComparable<SortableItem> { public int someNumber; #region IComparable<SortableItem> Members public int CompareTo(SortableItem other) { int ret = -1; if (someNumber < other.someNumber) ret = -1; else if (someNumber > other.someNumber) ret = 1; else if (someNumber == other.someNumber) ret = 0; return ret; } #endregion }"That's great, but what if I want to be able to control the sort order, or sort by another field?"
Simple. All we need to do is add few more fields to the object. First we'll add a string for a different sort type and then we'll add a boolean to denote whether we're sorting in descending or ascending order and then add a field which determines which field we want to search by.
public class SortableItem : IComparable<SortableItem> { public enum SortFieldType { SortNumber, SortString } public int someNumber = -1; public string someString = ""; public bool descending = true; public SortFieldType sortField = SortableItem.SortFieldType.SortNumber; #region IComparable<SortableItem> Members public int CompareTo(SortableItem other) { int ret = -1; if(sortField == SortableItem.SortFieldType.SortString) { // A lot of other objects implement IComparable as well. // Take advantage of this. ret = someString.CompareTo(other.someString); } else { if (someNumber < other.someNumber) ret = -1; else if (someNumber > other.someNumber) ret = 1; else if (someNumber == other.someNumber) ret = 0; } // A quick way to switch sort order: // -1 becomes 1, 1 becomes -1, 0 stays the same. if(!descending) ret = ret * -1; return ret; } #endregion public override string ToString() { if(sortField == SortableItem.SortFieldType.SortString) return someString; else return someNumber.ToString(); } }"Show me how!"
Well since you asked so nicely.
static class Program { static void Main() { List<SortableItem> items = new List<SortableItem>(); SortableItem temp = new SortableItem(); temp.someString = "Hello"; temp.someNumber = 1; items.Add(temp); temp = new SortableItem(); temp.someString = "World"; temp.someNumber = 2; items.Add(temp); SortByString(items); Output(items); SortAscending(items); Output(items); SortByNumber(items); Output(items); SortDescending(items); Output(items); Console.ReadKey(); } public static void SortDescending(List<SortableItem> items) { foreach (SortableItem item in items) item.descending = true; } public static void SortAscending(List<SortableItem> items) { foreach (SortableItem item in items) item.descending = false; } public static void SortByNumber(List<SortableItem> items) { foreach (SortableItem item in items) item.sortField = SortableItem.SortFieldType.SortNumber; } public static void SortByString(List<SortableItem> items) { foreach (SortableItem item in items) item.sortField = SortableItem.SortFieldType.SortString; } public static void Output(List<SortableItem> items) { items.Sort(); for (int i = 0; i < items.Count; i++) Console.WriteLine("Item " + i + ": " + items[i].ToString()); } }讨论(0) -
If you want dynamic sort, you can use LINQ
var itemsOrderedByNumber = ( from item in GetClasses() orderby item.Number select item ).ToList(); var itemsOrderedByText = ( from item in GetClasses() orderby item.Text select item ).ToList(); var itemsOrderedByDate = ( from item in GetClasses() orderby item.Date select item ).ToList();or "Sort" method of List class:
List<Class1> itemsOrderedByNumber2 = new List<Class1>( GetClasses() ); itemsOrderedByNumber2.Sort( ( a, b ) => Comparer<int>.Default.Compare( a.Number, b.Number ) ); List<Class1> itemsOrderedByText2 = new List<Class1>( GetClasses() ); itemsOrderedByText2.Sort( ( a, b ) => Comparer<string>.Default.Compare( a.Text, b.Text ) ); List<Class1> itemsOrderedByDate2 = new List<Class1>( GetClasses() ); itemsOrderedByDate2.Sort( ( a, b ) => Comparer<DateTime>.Default.Compare( a.Date, b.Date ) );讨论(0) -
This might not be in relation to sorting order, but it is still - I think - an interesting use of
IComparable:public static void MustBeInRange<T>(this T x, T minimum, T maximum, string paramName) where T : IComparable<T> { bool underMinimum = (x.CompareTo(minimum) < 0); bool overMaximum = (x.CompareTo(maximum) > 0); if (underMinimum || overMaximum) { string message = string.Format( System.Globalization.CultureInfo.InvariantCulture, "Value outside of [{0},{1}] not allowed/expected", minimum, maximum ); if (string.IsNullOrEmpty(paramName)) { Exception noInner = null; throw new ArgumentOutOfRangeException(message, noInner); } else { throw new ArgumentOutOfRangeException(paramName, x, message); } } } public static void MustBeInRange<T>(this T x, T minimum, T maximum) where T : IComparable<T> { x.MustBeInRange(minimum, maximum, null); }These simple extension methods allow you to do parameter range checking for any type that implements
IComparablelike this:public void SomeMethod(int percentage, string file) { percentage.MustBeInRange(0, 100, "percentage"); file.MustBeInRange("file000", "file999", "file"); // do something with percentage and file // (caller will have gotten ArgumentOutOfRangeExceptions when applicable) }讨论(0)
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