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Currently I use a custom sorter on the listview, and i can sort the listview each time i click on the FIRST column, but it won't sort by other columns.

SortStyle: Variable to determine whether it is Ascending Sort, or Descending.

if (e.Column == 0)
{
    if (SortStyle == 0)
    {
        List.ListViewItemSorter = customSortDsc;
        SortStyle = 1;
    }
    else
    {
        List.ListViewItemSorter = customSortAsc;
        SortStyle = 0;
    }
}

This works fine when sorting for the first column, but if you were to do it on any other column, it would just sort by the first column. Is there a way to sort by the column clicked?

share|improve this question
    
Mike if you look at my example below I think you're looking for the ColumnClickEventArgs.Column value. It will tell you which column header was clicked. –  Wil P Oct 10 '09 at 17:30

11 Answers 11

up vote 17 down vote accepted

If you are starting out with a ListView, do yourself a huge favour and use an ObjectListView instead. ObjectListView is an open source wrapper around .NET WinForms ListView, which makes the ListView much easier to use and solves lots of common problems for you. Sorting by column click is one of the many things it handles for you automatically.

Seriously, you will never regret using an ObjectListView instead of a normal ListView.

share|improve this answer
9  
I've used the ObjectListView before and liked it. The one thing you have to be aware of is that it's GPL, so you may have to release your source code. –  Slapout Mar 13 '12 at 18:22
    
may have to? Does anybody know if we can use GPL or not? What I really want to know is: can I legally use it in a commercial piece of software that's sold and not open-source? (in Europe & USA) –  noelicus Sep 26 '12 at 11:05
    
If you want to use this in a closed source application, you can buy a (cheap) license: objectlistview.sourceforge.net/cs/… –  Grammarian Sep 28 '12 at 4:11
2  
I know this is an old post, but that FAQ link stating that it's listed under GPLv3 and cannot be redistributed in a closed source application is incorrect. If it's GPLv3, then without question you CAN use it in Commercial software. I don't care what the devs FAQ says, if he doesn't research his license and calls it a GPLv3 app, he has no leg to stand on (IMO) against a business using his software as long as they follow the GPL terms. They need to distribute the code (or a link to it) of the component (not the whole app) and a copy of the GPL www.gnu.org/licenses/gpl.html see section 4, 5& 6 –  Adam Plocher Aug 25 '14 at 7:37
1  
That is not what the ObjectListView FAQ says. Your statements about GPL are contrary to the generally understood interpretation, for example programmers.stackexchange.com/questions/158789/…. –  Grammarian Aug 27 '14 at 3:59

I sort using column name to set any sorting specifics that may need to be handled based on data type stored in the column and or if the column has already been sorted on(asc/desc). Here's a snippet from my ColumnClick event handler.

If you need to see what my ListViewItemComparer looks like I can send that too.

private void listView_ColumnClick(object sender, ColumnClickEventArgs e)
    {
        ListViewItemComparer sorter = GetListViewSorter(e.Column);

        listView.ListViewItemSorter = sorter;
        listView.Sort();
    }

    private ListViewItemComparer GetListViewSorter(int columnIndex)
    {
        ListViewItemComparer sorter = (ListViewItemComparer)listView.ListViewItemSorter;
        if (sorter == null)
        {
            sorter = new ListViewItemComparer();
        }

        sorter.ColumnIndex = columnIndex;

        string columnName = packagedEstimateListView.Columns[columnIndex].Name;
        switch (columnName)
        {
            case ApplicationModel.DisplayColumns.DateCreated:
            case ApplicationModel.DisplayColumns.DateUpdated:
                sorter.ColumnType = ColumnDataType.DateTime;
                break;
            case ApplicationModel.DisplayColumns.NetTotal:
            case ApplicationModel.DisplayColumns.GrossTotal:
                sorter.ColumnType = ColumnDataType.Decimal;
                break;
            default:
                sorter.ColumnType = ColumnDataType.String;
                break;
        }

        if (sorter.SortDirection == SortOrder.Ascending)
        {
            sorter.SortDirection = SortOrder.Descending;
        }
        else
        {
            sorter.SortDirection = SortOrder.Ascending;
        }

        return sorter;
    }
share|improve this answer
    
This page provides a similar solution -> java2s.com/Tutorial/CSharp/0460__GUI-Windows-Forms/… –  John M Sep 1 '11 at 17:02
    
When creating your ListViewitemComparer based on the link that I provided above you will need to add this code to get Ascending/Descending sorting: string itemXText = itemX.SubItems[Column].Text; string itemYText = itemY.SubItems[Column].Text; //sorting if (itemX.ListView.Sorting == SortOrder.Ascending) { return String.Compare(itemXText, itemYText); } else { return String.Compare(itemYText, itemXText); } –  John M Sep 1 '11 at 17:29

i would recommend you to you datagridview, for heavy stuff.. it's include a lot of auto feature listviwe does not

share|improve this answer

Use the ListView.SortExpression.

When multiple columns are sorted, this property contains a comma-separated list of the fields to sort by.

share|improve this answer
    
This is about ASP.NET Web Controls, not Windows Forms. –  LonelyPixel Mar 7 at 15:19

Forget about your custom sorter. Start over using the code at the following page. It will show you how to define a class that inherits from the IComparer interface. Each line is commented out, so you can actually see what is happening. The only potential complication is how you are retrieving your Listview Items from your Listview control. Get those squared away and all you need to do is copy and paste the IComparer interface class and the columnClick method.

http://support.microsoft.com/kb/319401

share|improve this answer
2  
Very useful link. Seems to be the easiest solution. Thank you RedEye. –  Martin Sep 10 '14 at 7:26
    
Or better yet, use the code linked above to create your own SortableListView then all you need to change is one line where your list is initialized. –  Ryan Anderson Oct 20 '14 at 17:21
    
Since the code in the event sink is pretty standard behaviour, I added a ReverseSortOrderAndSort(int column, ListView lv) method to the ListViewColumnSorter class so the code in the event sink becomes : private void listView1_ColumnClick(object sender, ColumnClickEventArgs e) { listViewColumnSorter.ReverseSortOrderAndSort(e.Column, (ListView)sender); } –  Jack Griffin Nov 22 '14 at 13:58

My solution is a class to sort listView items when you click on column header.

You can specify the type of each column.

listView.ListViewItemSorter = new ListViewColumnSorter();
listView.ListViewItemSorter.ColumnsTypeComparer.Add(0, DateTime);
listView.ListViewItemSorter.ColumnsTypeComparer.Add(1, int);

That's it !

The C# class :

using System.Collections;
using System.Collections.Generic;
using EDV;

namespace System.Windows.Forms
{
    /// <summary>
    /// Cette classe est une implémentation de l'interface 'IComparer' pour le tri des items de ListView. Adapté de http://support.microsoft.com/kb/319401.
    /// </summary>
    /// <remarks>Intégré par EDVariables.</remarks>
    public class ListViewColumnSorter : IComparer
    {
        /// <summary>
        /// Spécifie la colonne à trier
        /// </summary>
        private int ColumnToSort;
        /// <summary>
        /// Spécifie l'ordre de tri (en d'autres termes 'Croissant').
        /// </summary>
        private SortOrder OrderOfSort;
        /// <summary>
        /// Objet de comparaison ne respectant pas les majuscules et minuscules
        /// </summary>
        private CaseInsensitiveComparer ObjectCompare;

        /// <summary>
        /// Constructeur de classe.  Initialise la colonne sur '0' et aucun tri
        /// </summary>
        public ListViewColumnSorter()
            : this(0, SortOrder.None) { }

        /// <summary>
        /// Constructeur de classe.  Initializes various elements
        /// <param name="columnToSort">Spécifie la colonne à trier</param>
        /// <param name="orderOfSort">Spécifie l'ordre de tri</param>
        /// </summary>
        public ListViewColumnSorter(int columnToSort, SortOrder orderOfSort)
        {
            // Initialise la colonne
            ColumnToSort = columnToSort;

            // Initialise l'ordre de tri
            OrderOfSort = orderOfSort;

            // Initialise l'objet CaseInsensitiveComparer
            ObjectCompare = new CaseInsensitiveComparer();

            // Dictionnaire de comparateurs
            ColumnsComparer = new Dictionary<int, IComparer>();
            ColumnsTypeComparer = new Dictionary<int, Type>();

        }

        /// <summary>
        /// Cette méthode est héritée de l'interface IComparer.  Il compare les deux objets passés en effectuant une comparaison 
        ///qui ne tient pas compte des majuscules et des minuscules.
        /// <br/>Si le comparateur n'existe pas dans ColumnsComparer, CaseInsensitiveComparer est utilisé.
        /// </summary>
        /// <param name="x">Premier objet à comparer</param>
        /// <param name="x">Deuxième objet à comparer</param>
        /// <returns>Le résultat de la comparaison. "0" si équivalent, négatif si 'x' est inférieur à 'y' 
        ///et positif si 'x' est supérieur à 'y'</returns>
        public int Compare(object x, object y)
        {
            int compareResult;
            ListViewItem listviewX, listviewY;

            // Envoit les objets à comparer aux objets ListViewItem
            listviewX = (ListViewItem)x;
            listviewY = (ListViewItem)y;

            if (listviewX.SubItems.Count < ColumnToSort + 1 || listviewY.SubItems.Count < ColumnToSort + 1)
                return 0;

            IComparer objectComparer = null;
            Type comparableType = null;
            if (ColumnsComparer == null || !ColumnsComparer.TryGetValue(ColumnToSort, out objectComparer))
                if (ColumnsTypeComparer == null || !ColumnsTypeComparer.TryGetValue(ColumnToSort, out comparableType))
                    objectComparer = ObjectCompare;

            // Compare les deux éléments
            if (comparableType != null) {
                //Conversion du type
                object valueX = listviewX.SubItems[ColumnToSort].Text;
                object valueY = listviewY.SubItems[ColumnToSort].Text;
                if (!edvTools.TryParse(ref valueX, comparableType) || !edvTools.TryParse(ref valueY, comparableType))
                    return 0;
                compareResult = (valueX as IComparable).CompareTo(valueY);
            }
            else
                compareResult = objectComparer.Compare(listviewX.SubItems[ColumnToSort].Text, listviewY.SubItems[ColumnToSort].Text);

            // Calcule la valeur correcte d'après la comparaison d'objets
            if (OrderOfSort == SortOrder.Ascending) {
                // Le tri croissant est sélectionné, renvoie des résultats normaux de comparaison
                return compareResult;
            }
            else if (OrderOfSort == SortOrder.Descending) {
                // Le tri décroissant est sélectionné, renvoie des résultats négatifs de comparaison
                return (-compareResult);
            }
            else {
                // Renvoie '0' pour indiquer qu'ils sont égaux
                return 0;
            }
        }

        /// <summary>
        /// Obtient ou définit le numéro de la colonne à laquelle appliquer l'opération de tri (par défaut sur '0').
        /// </summary>
        public int SortColumn
        {
            set
            {
                ColumnToSort = value;
            }
            get
            {
                return ColumnToSort;
            }
        }

        /// <summary>
        /// Obtient ou définit l'ordre de tri à appliquer (par exemple, 'croissant' ou 'décroissant').
        /// </summary>
        public SortOrder Order
        {
            set
            {
                OrderOfSort = value;
            }
            get
            {
                return OrderOfSort;
            }
        }

        /// <summary>
        /// Dictionnaire de comparateurs par colonne.
        /// <br/>Pendant le tri, si le comparateur n'existe pas dans ColumnsComparer, CaseInsensitiveComparer est utilisé.
        /// </summary>
        public Dictionary<int, IComparer> ColumnsComparer { get; set; }

        /// <summary>
        /// Dictionnaire de comparateurs par colonne.
        /// <br/>Pendant le tri, si le comparateur n'existe pas dans ColumnsTypeComparer, CaseInsensitiveComparer est utilisé.
        /// </summary>
        public Dictionary<int, Type> ColumnsTypeComparer { get; set; }
    }
}

Initializing a ListView :

    <var>Visual.WIN.ctrlListView.OnShown</var>  : 
    eventSender.Columns.Clear();
    eventSender.SmallImageList = edvWinForm.ImageList16;
    eventSender.ListViewItemSorter = new ListViewColumnSorter();
    var col = eventSender.Columns.Add("Répertoire");
    col.Width = 160;
    col.ImageKey = "Domain";
    col = eventSender.Columns.Add("Fichier");
    col.Width = 180;
    col.ImageKey = "File";
    col = eventSender.Columns.Add("Date");
    col.Width = 120;
    col.ImageKey = "DateTime";
    eventSender.ListViewItemSorter.ColumnsTypeComparer.Add(col.Index, DateTime);
    col = eventSender.Columns.Add("Position");
    col.TextAlign = HorizontalAlignment.Right;
    col.Width = 80;
    col.ImageKey = "Num";
    eventSender.ListViewItemSorter.ColumnsTypeComparer.Add(col.Index, Int32);

Fill a ListView :

<var>Visual.WIN.cmdSearch.OnClick</var>  : 
//non récursif et sans fonction
    ..ctrlListView:Items.Clear();
    ..ctrlListView:Sorting = SortOrder.None;
    var group = ..ctrlListView:Groups.Add(DateTime.Now.ToString()
                , Path.Combine(..cboDir:Text, ..ctrlPattern1:Text) + " contenant " + ..ctrlSearch1:Text);
    var perf =  Environment.TickCount;

    var files = new DirectoryInfo(..cboDir:Text).GetFiles(..ctrlPattern1:Text)
    var search = ..ctrlSearch1:Text;
    var ignoreCase = ..Search.IgnoreCase;
    //var result = new StringBuilder();
    var dirLength : int = ..cboDir:Text.Length;
    var position : int;
    var added : int = 0;
    for(var i : int = 0; i &lt; files.Length; i++){
        var file = files[i];
        if(search == ""
        || (position = File.ReadAllText(file.FullName).IndexOf(String(search)
                            , StringComparison(ignoreCase ? StringComparison.InvariantCultureIgnoreCase : StringComparison.InvariantCulture))) &gt; =0) {

        //  result.AppendLine(file.FullName.Substring(dirLength) + "\tPos : " + pkvFile.Value);
            var item = ..ctrlListView:Items.Add(file.FullName.Substring(dirLength));
            item.SubItems.Add(file.Name);
            item.SubItems.Add(File.GetLastWriteTime(file.FullName).ToString());
            item.SubItems.Add(position.ToString("# ### ##0"));
            item.Group = group;
            ++added;
        }
    }
    group.Header += " : " + added + "/" + files.Length + " fichier(s)"
                + "  en " + (Environment.TickCount - perf).ToString("# ##0 msec");

On ListView column click :

<var>Visual.WIN.ctrlListView.OnColumnClick</var>  : 
// Déterminer si la colonne sélectionnée est déjà la colonne triée.
var sorter = eventSender.ListViewItemSorter;
if ( eventArgs.Column == sorter .SortColumn )
{
    // Inverser le sens de tri en cours pour cette colonne.
    if (sorter.Order == SortOrder.Ascending)
    {
        sorter.Order = SortOrder.Descending;
    }
    else
    {
        sorter.Order = SortOrder.Ascending;
    }
}
else
{
    // Définir le numéro de colonne à trier ; par défaut sur croissant.
    sorter.SortColumn = eventArgs.Column;
    sorter.Order = SortOrder.Ascending;
}

// Procéder au tri avec les nouvelles options.
eventSender.Sort();

Function edvTools.TryParse used above

class edvTools {
    /// <summary>
    /// Tente la conversion d'une valeur suivant un type EDVType
    /// </summary>
    /// <param name="pValue">Référence de la valeur à convertir</param>
    /// <param name="pType">Type EDV en sortie</param>
    /// <returns></returns>
    public static bool TryParse(ref object pValue, System.Type pType)
    {
        int lIParsed;
        double lDParsed;
        string lsValue;
        if (pValue == null) return false;
        if (pType.Equals(typeof(bool))) {
            bool lBParsed;
            if (pValue is bool) return true;
            if (double.TryParse(pValue.ToString(), out lDParsed)) {
                pValue = lDParsed != 0D;
                return true;
            }
            if (bool.TryParse(pValue.ToString(), out lBParsed)) {
                pValue = lBParsed;
                return true;
            }
            else
                return false;
        }
        if (pType.Equals(typeof(Double))) {
            if (pValue is Double) return true;
            if (double.TryParse(pValue.ToString(), out lDParsed)
                || double.TryParse(pValue.ToString().Replace(NumberDecimalSeparatorNOT, NumberDecimalSeparator), out lDParsed)) {
                pValue = lDParsed;
                return true;
            }
            else
                return false;
        }
        if (pType.Equals(typeof(int))) {
            if (pValue is int) return true;
            if (Int32.TryParse(pValue.ToString(), out lIParsed)) {
                pValue = lIParsed;
                return true;
            }
            else if (double.TryParse(pValue.ToString(), out lDParsed)) {
                pValue = (int)lDParsed;
                return true;
            }
            else
                return false;
        }
        if (pType.Equals(typeof(Byte))) {
            if (pValue is byte) return true;
            byte lByte;
            if (Byte.TryParse(pValue.ToString(), out lByte)) {
                pValue = lByte;
                return true;
            }
            else if (double.TryParse(pValue.ToString(), out lDParsed)) {
                pValue = (byte)lDParsed;
                return true;
            }
            else
                return false;
        }
        if (pType.Equals(typeof(long))) {
            long lLParsed;
            if (pValue is long) return true;
            if (long.TryParse(pValue.ToString(), out lLParsed)) {
                pValue = lLParsed;
                return true;
            }
            else if (double.TryParse(pValue.ToString(), out lDParsed)) {
                pValue = (long)lDParsed;
                return true;
            }
            else
                return false;
        }
        if (pType.Equals(typeof(Single))) {
            if (pValue is float) return true;
            Single lSParsed;
            if (Single.TryParse(pValue.ToString(), out lSParsed)
                || Single.TryParse(pValue.ToString().Replace(NumberDecimalSeparatorNOT, NumberDecimalSeparator), out lSParsed)) {
                pValue = lSParsed;
                return true;
            }
            else
                return false;
        }
        if (pType.Equals(typeof(DateTime))) {
            if (pValue is DateTime) return true;
            DateTime lDTParsed;
            if (DateTime.TryParse(pValue.ToString(), out lDTParsed)) {
                pValue = lDTParsed;
                return true;
            }
            else if (pValue.ToString().Contains("UTC")) //Date venant de JScript
            {
                if (_MonthsUTC == null) InitMonthsUTC();
                string[] lDateParts = pValue.ToString().Split(' ');
                lDTParsed = new DateTime(int.Parse(lDateParts[5]), _MonthsUTC[lDateParts[1]], int.Parse(lDateParts[2]));
                lDateParts = lDateParts[3].ToString().Split(':');
                pValue = lDTParsed.AddSeconds(int.Parse(lDateParts[0]) * 3600 + int.Parse(lDateParts[1]) * 60 + int.Parse(lDateParts[2]));
                return true;
            }
            else
                return false;

        }
        if (pType.Equals(typeof(Array))) {
            if (pValue is System.Collections.ICollection || pValue is System.Collections.ArrayList)
                return true;
            return pValue is System.Data.DataTable
                || pValue is string && (pValue as string).StartsWith("<");
        }
        if (pType.Equals(typeof(DataTable))) {
            return pValue is System.Data.DataTable
                || pValue is string && (pValue as string).StartsWith("<");

        }
        if (pType.Equals(typeof(System.Drawing.Bitmap))) {
            return pValue is System.Drawing.Image || pValue is byte[];

        }
        if (pType.Equals(typeof(System.Drawing.Image))) {
            return pValue is System.Drawing.Image || pValue is byte[];

        }
        if (pType.Equals(typeof(System.Drawing.Color))) {
            if (pValue is System.Drawing.Color) return true;
            if (pValue is System.Drawing.KnownColor) {
                pValue = System.Drawing.Color.FromKnownColor((System.Drawing.KnownColor)pValue);
                return true;
            }

            int lARGB;
            if (!int.TryParse(lsValue = pValue.ToString(), out lARGB)) {
                if (lsValue.StartsWith("Color [A=", StringComparison.InvariantCulture)) {
                    foreach (string lsARGB in lsValue.Substring("Color [".Length, lsValue.Length - "Color []".Length).Split(','))
                        switch (lsARGB.TrimStart().Substring(0, 1)) {
                            case "A":
                                lARGB = int.Parse(lsARGB.Substring(2)) * 0x1000000;
                                break;
                            case "R":
                                lARGB += int.Parse(lsARGB.TrimStart().Substring(2)) * 0x10000;
                                break;
                            case "G":
                                lARGB += int.Parse(lsARGB.TrimStart().Substring(2)) * 0x100;
                                break;
                            case "B":
                                lARGB += int.Parse(lsARGB.TrimStart().Substring(2));
                                break;
                            default:
                                break;
                        }
                    pValue = System.Drawing.Color.FromArgb(lARGB);
                    return true;
                }
                if (lsValue.StartsWith("Color [", StringComparison.InvariantCulture)) {
                    pValue = System.Drawing.Color.FromName(lsValue.Substring("Color [".Length, lsValue.Length - "Color []".Length));
                    return true;
                }
                return false;
            }
            pValue = System.Drawing.Color.FromArgb(lARGB);
            return true;
        }
        if (pType.IsEnum) {
            try {
                if (pValue == null) return false;
                if (pValue is int || pValue is byte || pValue is ulong || pValue is long || pValue is double)
                    pValue = Enum.ToObject(pType, pValue);
                else
                    pValue = Enum.Parse(pType, pValue.ToString());
            }
            catch {
                return false;
            }
        }
        return true;
    }
}
share|improve this answer

You can use a manual sorting algorithm like this

public void ListItemSorter(object sender, ColumnClickEventArgs e)
    {
        ListView list = (ListView)sender;
        int total = list.Items.Count;
        list.BeginUpdate();
        ListViewItem[] items = new ListViewItem[total];
        for (int i = 0; i < total; i++)
        {
            int count = list.Items.Count;
            int minIdx = 0;
            for (int j = 1; j < count; j++)
                if (list.Items[j].SubItems[e.Column].Text.CompareTo(list.Items[minIdx].SubItems[e.Column].Text) < 0)
                    minIdx = j;
            items[i] = list.Items[minIdx];
            list.Items.RemoveAt(minIdx);
        }
        list.Items.AddRange(items);
        list.EndUpdate();
    }

this method uses selection sort in O^2 order and as Ascending. You can change the '>' with '<' for a descending or add an argument for this method. It sorts any column that is clicked and works perfect for small amount of data.

share|improve this answer

Since this is still a top viewed thread, I thought I might note that I came up with a dynamic solution to sort the listview by column. Here's the code just in case someone else wants to use it as well. It pretty much just involves sending the listview items to a datatable, sorting the default view of the datatable by the column name (using the index of the clicked column), and then overwriting that table with the defaultview.totable() method. Then pretty much just add them back to the listview. And wa la, its a sorted listview by column.

public void SortListView(int Index)
    {
        DataTable TempTable = new DataTable();
        //Add column names to datatable from listview
        foreach (ColumnHeader iCol in MyListView.Columns)
        {
            TempTable.Columns.Add(iCol.Text);
        }
        //Create a datarow from each listviewitem and add it to the table
        foreach (ListViewItem Item in MyListView.Items)
        {
             DataRow iRow = TempTable.NewRow();
             // the for loop dynamically copies the data one by one instead of doing irow[i] = MyListView.Subitems[1]... so on
            for (int i = 0; i < MyListView.Columns.Count; i++)
            {
                if (i == 0)
                {
                    iRow[i] = Item.Text;
                }
                else
                {
                    iRow[i] = Item.SubItems[i].Text;
                }
            }
            TempTable.Rows.Add(iRow);
        }
        string SortType = string.Empty;
        //LastCol is a public int variable on the form, and LastSort is public string variable
        if (LastCol == Index)
        {
            if (LastSort == "ASC" || LastSort == string.Empty || LastSort == null)
            {
                SortType = "DESC";
                LastSort = "DESC";
            }
            else
            {
                SortType = "ASC";
                LastSort = "ASC";
            }
        }
        else
        {
            SortType = "DESC";
            LastSort = "DESC";
        }
        LastCol = Index;
        MyListView.Items.Clear();
        //Sort it based on the column text clicked and the sort type (asc or desc)
        TempTable.DefaultView.Sort = MyListView.Columns[Index].Text + " " + SortType;
        TempTable = TempTable.DefaultView.ToTable();
        //Create a listview item from the data in each row
        foreach (DataRow iRow in TempTable.Rows)
        {
            ListViewItem Item = new ListViewItem();
            List<string> SubItems = new List<string>();
            for (int i = 0; i < TempTable.Columns.Count; i++)
            {
                if (i == 0)
                {
                    Item.Text = iRow[i].ToString();
                }
                else
                {
                    SubItems.Add(iRow[i].ToString());
                }
            }
            Item.SubItems.AddRange(SubItems.ToArray());
            MyListView.Items.Add(Item);
        }
    }

This method is dynamic as it uses the existing column name and doesn't require you to know the index or name of each column or even how many columns are in the listview/datatable. You can call it by doing creating an event for the listview.columnclick and then SortListView(e.column).

share|improve this answer

Made minor changes to the article here to accommodate sorting of both string and numeric values in ListView.

Form1.cs contains

using System;
using System.Windows.Forms;

namespace ListView
{
    public partial class Form1 : Form
    {
        Random rnd = new Random();
        private ListViewColumnSorter lvwColumnSorter;

        public Form1()
        {
            InitializeComponent();
            // Create an instance of a ListView column sorter and assign it to the ListView control.
            lvwColumnSorter = new ListViewColumnSorter();
            this.listView1.ListViewItemSorter = lvwColumnSorter;

            InitListView();
        }

        private void InitListView()
        {
            listView1.View = View.Details;
            listView1.GridLines = true;
            listView1.FullRowSelect = true;

            //Add column header
            listView1.Columns.Add("Name", 100);
            listView1.Columns.Add("Price", 70);
            listView1.Columns.Add("Trend", 70);

            for (int i = 0; i < 10; i++)
            {
                listView1.Items.Add(AddToList("Name" + i.ToString(), rnd.Next(1, 100).ToString(), rnd.Next(1, 100).ToString()));
            }
        }

        private ListViewItem AddToList(string name, string price, string trend)
        {
            string[] array = new string[3];
            array[0] = name;
            array[1] = price;
            array[2] = trend;

            return (new ListViewItem(array));
        }

        private void listView1_ColumnClick(object sender, ColumnClickEventArgs e)
        {
            // Determine if clicked column is already the column that is being sorted.
            if (e.Column == lvwColumnSorter.SortColumn)
            {
                // Reverse the current sort direction for this column.
                if (lvwColumnSorter.Order == SortOrder.Ascending)
                {
                    lvwColumnSorter.Order = SortOrder.Descending;
                }
                else
                {
                    lvwColumnSorter.Order = SortOrder.Ascending;
                }
            }
            else
            {
                // Set the column number that is to be sorted; default to ascending.
                lvwColumnSorter.SortColumn = e.Column;
                lvwColumnSorter.Order = SortOrder.Ascending;
            }

            // Perform the sort with these new sort options.
            this.listView1.Sort();
        }

    }
}

ListViewColumnSorter.cs contains

using System;
using System.Collections;
using System.Windows.Forms;

/// <summary>
/// This class is an implementation of the 'IComparer' interface.
/// </summary>
public class ListViewColumnSorter : IComparer
{
    /// <summary>
    /// Specifies the column to be sorted
    /// </summary>
    private int ColumnToSort;
    /// <summary>
    /// Specifies the order in which to sort (i.e. 'Ascending').
    /// </summary>
    private SortOrder OrderOfSort;
    /// <summary>
    /// Case insensitive comparer object
    /// </summary>
    private CaseInsensitiveComparer ObjectCompare;

    /// <summary>
    /// Class constructor.  Initializes various elements
    /// </summary>
    public ListViewColumnSorter()
    {
        // Initialize the column to '0'
        ColumnToSort = 0;

        // Initialize the sort order to 'none'
        OrderOfSort = SortOrder.None;

        // Initialize the CaseInsensitiveComparer object
        ObjectCompare = new CaseInsensitiveComparer();
    }

    /// <summary>
    /// This method is inherited from the IComparer interface.  It compares the two objects passed using a case insensitive comparison.
    /// </summary>
    /// <param name="x">First object to be compared</param>
    /// <param name="y">Second object to be compared</param>
    /// <returns>The result of the comparison. "0" if equal, negative if 'x' is less than 'y' and positive if 'x' is greater than 'y'</returns>
    public int Compare(object x, object y)
    {
        int compareResult;
        ListViewItem listviewX, listviewY;

        // Cast the objects to be compared to ListViewItem objects
        listviewX = (ListViewItem)x;
        listviewY = (ListViewItem)y;

        decimal num = 0;
        if (decimal.TryParse(listviewX.SubItems[ColumnToSort].Text, out num))
        {
            compareResult = decimal.Compare(num, Convert.ToDecimal(listviewY.SubItems[ColumnToSort].Text));
        }
        else 
        {
            // Compare the two items
            compareResult = ObjectCompare.Compare(listviewX.SubItems[ColumnToSort].Text, listviewY.SubItems[ColumnToSort].Text);
        }

        // Calculate correct return value based on object comparison
        if (OrderOfSort == SortOrder.Ascending)
        {
            // Ascending sort is selected, return normal result of compare operation
            return compareResult;
        }
        else if (OrderOfSort == SortOrder.Descending)
        {
            // Descending sort is selected, return negative result of compare operation
            return (-compareResult);
        }
        else
        {
            // Return '0' to indicate they are equal
            return 0;
        }
    }

    /// <summary>
    /// Gets or sets the number of the column to which to apply the sorting operation (Defaults to '0').
    /// </summary>
    public int SortColumn
    {
        set
        {
            ColumnToSort = value;
        }
        get
        {
            return ColumnToSort;
        }
    }

    /// <summary>
    /// Gets or sets the order of sorting to apply (for example, 'Ascending' or 'Descending').
    /// </summary>
    public SortOrder Order
    {
        set
        {
            OrderOfSort = value;
        }
        get
        {
            return OrderOfSort;
        }
    }

}
share|improve this answer

Based on the example pointed by RedEye, here's a class that needs less code :
it assumes that columns are always sorted in the same way, so it handles the
ColumnClick event sink internally :

public class ListViewColumnSorterExt : IComparer {
    /// <summary>
    /// Specifies the column to be sorted
    /// </summary>
    private int ColumnToSort;
    /// <summary>
    /// Specifies the order in which to sort (i.e. 'Ascending').
    /// </summary>
    private SortOrder OrderOfSort;
    /// <summary>
    /// Case insensitive comparer object
    /// </summary>
    private CaseInsensitiveComparer ObjectCompare;

    private ListView listView;
    /// <summary>
    /// Class constructor.  Initializes various elements
    /// </summary>
    public ListViewColumnSorterExt(ListView lv) {
        listView = lv;
        listView.ListViewItemSorter = this;
        listView.ColumnClick += new ColumnClickEventHandler(listView_ColumnClick);

        // Initialize the column to '0'
        ColumnToSort = 0;

        // Initialize the sort order to 'none'
        OrderOfSort = SortOrder.None;

        // Initialize the CaseInsensitiveComparer object
        ObjectCompare = new CaseInsensitiveComparer();
    }

    private void listView_ColumnClick(object sender, ColumnClickEventArgs e) {
        ReverseSortOrderAndSort(e.Column, (ListView)sender);
    }

    /// <summary>
    /// This method is inherited from the IComparer interface.  It compares the two objects passed using a case insensitive comparison.
    /// </summary>
    /// <param name="x">First object to be compared</param>
    /// <param name="y">Second object to be compared</param>
    /// <returns>The result of the comparison. "0" if equal, negative if 'x' is less than 'y' and positive if 'x' is greater than 'y'</returns>
    public int Compare(object x, object y) {
        int compareResult;
        ListViewItem listviewX, listviewY;

        // Cast the objects to be compared to ListViewItem objects
        listviewX = (ListViewItem)x;
        listviewY = (ListViewItem)y;

        // Compare the two items
        compareResult = ObjectCompare.Compare(listviewX.SubItems[ColumnToSort].Text, listviewY.SubItems[ColumnToSort].Text);

        // Calculate correct return value based on object comparison
        if (OrderOfSort == SortOrder.Ascending) {
            // Ascending sort is selected, return normal result of compare operation
            return compareResult;
        }
        else if (OrderOfSort == SortOrder.Descending) {
            // Descending sort is selected, return negative result of compare operation
            return (-compareResult);
        }
        else {
            // Return '0' to indicate they are equal
            return 0;
        }
    }

    /// <summary>
    /// Gets or sets the number of the column to which to apply the sorting operation (Defaults to '0').
    /// </summary>
    private int SortColumn {
        set {
            ColumnToSort = value;
        }
        get {
            return ColumnToSort;
        }
    }

    /// <summary>
    /// Gets or sets the order of sorting to apply (for example, 'Ascending' or 'Descending').
    /// </summary>
    private SortOrder Order {
        set {
            OrderOfSort = value;
        }
        get {
            return OrderOfSort;
        }
    }

    private void ReverseSortOrderAndSort(int column, ListView lv) {
        // Determine if clicked column is already the column that is being sorted.
        if (column == this.SortColumn) {
            // Reverse the current sort direction for this column.
            if (this.Order == SortOrder.Ascending) {
                this.Order = SortOrder.Descending;
            }
            else {
                this.Order = SortOrder.Ascending;
            }
        }
        else {
            // Set the column number that is to be sorted; default to ascending.
            this.SortColumn = column;
            this.Order = SortOrder.Ascending;
        }

        // Perform the sort with these new sort options.
        lv.Sort();
    }
}  

Assuming you're happy with the sort options, the class properties are private.

The only code you need to write is :

in Form declarations

private ListViewColumnSorterExt listViewColumnSorter;  

in Form constructor

listViewColumnSorter = new ListViewColumnSorterExt(ListView1);  

... and you're done.

And what about a single sorter that handles multiple ListViews ?

public class MultipleListViewColumnSorter {
    private List<ListViewColumnSorterExt> sorters;

    public MultipleListViewColumnSorter() {
        sorters = new List<ListViewColumnSorterExt>();
    }

    public void AddListView(ListView lv) {
        sorters.Add(new ListViewColumnSorterExt(lv));
    }
}  

in Form declarations

private MultipleListViewColumnSorter listViewSorter = new MultipleListViewColumnSorter();  

in Form constructor

listViewSorter.AddListView(ListView1);  
listViewSorter.AddListView(ListView2);  
// ... and so on ...  
share|improve this answer

I can see that this question was originally posted 5 yrs ago when programmers had to work harder to get their desired results. With Visual Studio 2012 and beyond, a lazy programmer can go the Design View for the Listview properties settings, and click on Properties->Sorting, choose Ascending. There are plenty of other properties features to obtain the various results a lazy (aka smart) programmer can leverage.

share|improve this answer

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