Best Practices for Scaling the Windows Forms DataGridView Control
The DataGridView control is designed to provide maximum scalability. If you need to display large amounts of data, you should follow the guidelines described in this topic to avoid consuming large amounts of memory or degrading the responsiveness of the user interface (UI). This topic discusses the following issues:
Using cell styles efficiently
Using shortcut menus efficiently
Using automatic resizing efficiently
Using the selected cells, rows, and columns collections efficiently
Using shared rows
Preventing rows from becoming unshared
If you have special performance needs, you can implement virtual mode and provide your own data management operations. For more information, see Data Display Modes in the Windows Forms DataGridView Control.
Using Cell Styles Efficiently
Each cell, row, and column can have its own style information. Style information is stored in DataGridViewCellStyle objects. Creating cell style objects for many individual DataGridView elements can be inefficient, especially when working with large amounts of data. To avoid a performance impact, use the following guidelines:
Avoid setting cell style properties for individual DataGridViewCell or DataGridViewRow objects. This includes the row object specified by the RowTemplate property. Each new row that is cloned from the row template will receive its own copy of the template's cell style object. For maximum scalability, set cell style properties at the DataGridView level. For example, set the DataGridView.DefaultCellStyle property rather than the DataGridViewCell.Style property.
If some cells require formatting other than default formatting, use the same DataGridViewCellStyle instance across groups of cells, rows, or columns. Avoid directly setting properties of type DataGridViewCellStyle on individual cells, rows, and columns. For an example of cell style sharing, see How to: Set Default Cell Styles for the Windows Forms DataGridView Control. You can also avoid a performance penalty when setting cell styles individually by handling the CellFormatting event handler. For an example, see How to: Customize Data Formatting in the Windows Forms DataGridView Control.
When determining a cell's style, use the DataGridViewCell.InheritedStyle property rather than the DataGridViewCell.Style property. Accessing the Style property creates a new instance of the DataGridViewCellStyle class if the property has not already been used. Additionally, this object might not contain the complete style information for the cell if some styles are inherited from the row, column, or control. For more information about cell style inheritance, see Cell Styles in the Windows Forms DataGridView Control.
Using Shortcut Menus Efficiently
Each cell, row, and column can have its own shortcut menu. Shortcut menus in the DataGridView control are represented by ContextMenuStrip controls. Just as with cell style objects, creating shortcut menus for many individual DataGridView elements will negatively impact performance. To avoid this penalty, use the following guidelines:
Avoid creating shortcut menus for individual cells and rows. This includes the row template, which is cloned along with its shortcut menu when new rows are added to the control. For maximum scalability, use only the control's ContextMenuStrip property to specify a single shortcut menu for the entire control.
If you require multiple shortcut menus for multiple rows or cells, handle the CellContextMenuStripNeeded or RowContextMenuStripNeeded events. These events let you manage the shortcut menu objects yourself, allowing you to tune performance.
Using Automatic Resizing Efficiently
Rows, columns, and headers can be automatically resized as cell content changes so that the entire contents of cells are displayed without clipping. Changing sizing modes can also resize rows, columns, and headers. To determine the correct size, the DataGridView control must examine the value of each cell that it must accommodate. When working with large data sets, this analysis can negatively impact the performance of the control when automatic resizing occurs. To avoid performance penalties, use the following guidelines:
Avoid using automatic sizing on a DataGridView control with a large set of rows. If you do use automatic sizing, only resize based on the displayed rows. Use only the displayed rows in virtual mode as well.
For rows and columns, use the
DisplayedCellsExceptHeadersfield of the DataGridViewAutoSizeRowsMode, DataGridViewAutoSizeColumnsMode, and DataGridViewAutoSizeColumnMode enumerations.
For maximum scalability, turn off automatic sizing and use programmatic resizing.
For more information, see Sizing Options in the Windows Forms DataGridView Control.
Using the Selected Cells, Rows, and Columns Collections Efficiently
The SelectedCells collection does not perform efficiently with large selections. The SelectedRows and SelectedColumns collections can also be inefficient, although to a lesser degree because there are many fewer rows than cells in a typical DataGridView control, and many fewer columns than rows. To avoid performance penalties when working with these collections, use the following guidelines:
To determine whether all the cells in the DataGridView have been selected before you access the contents of the SelectedCells collection, check the return value of the AreAllCellsSelected method. Note, however, that this method can cause rows to become unshared. For more information, see the next section.
Avoid using the Count property of the System.Windows.Forms.DataGridViewSelectedCellCollection to determine the number of selected cells. Instead, use the DataGridView.GetCellCount method and pass in the DataGridViewElementStates.Selected value. Similarly, use the DataGridViewRowCollection.GetRowCount and DataGridViewColumnCollection.GetColumnCount methods to determine the number of selected elements, rather than accessing the selected row and column collections.
Using Shared Rows
Efficient memory use is achieved in the DataGridView control through shared rows. Rows will share as much information about their appearance and behavior as possible by sharing instances of the DataGridViewRow class.
While sharing row instances saves memory, rows can easily become unshared. For example, whenever a user interacts directly with a cell, its row becomes unshared. Because this cannot be avoided, the guidelines in this topic are useful only when working with very large amounts of data and only when users will interact with a relatively small part of the data each time your program is run.
A row cannot be shared in an unbound DataGridView control if any of its cells contain values. When the DataGridView control is bound to an external data source or when you implement virtual mode and provide your own data source, the cell values are stored outside the control rather than in cell objects, allowing the rows to be shared.
A row object can only be shared if the state of all its cells can be determined from the state of the row and the states of the columns containing the cells. If you change the state of a cell so that it can no longer be deduced from the state of its row and column, the row cannot be shared.
For example, a row cannot be shared in any of the following situations:
The row contains a single selected cell that is not in a selected column.
Avoid calling the
Add(Object)overload of the Add method and the
Insert(Object)overload of the Insert method of the DataGridView.Rows collection. These overloads automatically create unshared rows.
Be sure that the row specified in the DataGridView.RowTemplate property can be shared in the following cases:
Be sure that the specified row or rows can be shared when calling the
Add(DataGridViewRow)overload of the Add method, the AddRange method, the
Insert(Int32,DataGridViewRow)overload of the Insert method, and the InsertRange method of the DataGridView.Rows collection.
To determine whether a row is shared, use the DataGridViewRowCollection.SharedRow method to retrieve the row object, and then check the object's Index property. Shared rows always have an Index property value of –1.
Preventing Rows from Becoming Unshared
Shared rows can become unshared as a result of code or user action. To avoid a performance impact, you should avoid causing rows to become unshared. During application development, you can handle the RowUnshared event to determine when rows become unshared. This is useful when debugging row-sharing problems.
To prevent rows from becoming unshared, use the following guidelines:
Avoid indexing the Rows collection or iterating through it with a
foreachloop. You will not typically need to access rows directly. DataGridView methods that operate on rows take row index arguments rather than row instances. Additionally, handlers for row-related events receive event argument objects with row properties that you can use to manipulate rows without causing them to become unshared.
If you need to access a row object, use the DataGridViewRowCollection.SharedRow method and pass in the row's actual index. Note, however, that modifying a shared row object retrieved through this method will modify all the rows that share this object. The row for new records is not shared with other rows, however, so it will not be affected when you modify any other row. Note also that different rows represented by a shared row may have different shortcut menus. To retrieve the correct shortcut menu from a shared row instance, use the GetContextMenuStrip method and pass in the row's actual index. If you access the shared row's ContextMenuStrip property instead, it will use the shared row index of -1 and will not retrieve the correct shortcut menu.
Avoid indexing the DataGridViewRow.Cells collection. Accessing a cell directly will cause its parent row to become unshared, instantiating a new DataGridViewRow. Handlers for cell-related events receive event argument objects with cell properties that you can use to manipulate cells without causing rows to become unshared. You can also use the CurrentCellAddress property to retrieve the row and column indexes of the current cell without accessing the cell directly.
Avoid cell-based selection modes. These modes cause rows to become unshared. Instead, set the DataGridView.SelectionMode property to DataGridViewSelectionMode.FullRowSelect or DataGridViewSelectionMode.FullColumnSelect.
Do not handle the DataGridViewRowCollection.CollectionChanged or DataGridView.RowStateChanged events. These events cause rows to become unshared. Also, do not call the DataGridViewRowCollection.OnCollectionChanged or DataGridView.OnRowStateChanged methods, which raise these events.
Do not access the DataGridView.SelectedCells collection when the DataGridView.SelectionMode property value is FullColumnSelect, ColumnHeaderSelect, FullRowSelect, or RowHeaderSelect. This causes all selected rows to become unshared.
Do not call the DataGridView.AreAllCellsSelected method. This method can cause rows to become unshared.
Do not access the DataGridViewRowCollection.List property. This causes all rows to become unshared.
Do not call the
Sort(IComparer)overload of the Sort method. Sorting with a custom comparer causes all rows to become unshared.
Performance Tuning in the Windows Forms DataGridView Control
Virtual Mode in the Windows Forms DataGridView Control
Data Display Modes in the Windows Forms DataGridView Control
Cell Styles in the Windows Forms DataGridView Control
How to: Set Default Cell Styles for the Windows Forms DataGridView Control
Sizing Options in the Windows Forms DataGridView Control