Retired Document
Important: The information in this document has been superseded by the Text Editing chapter of Cocoa Text Architecture Guide.
Subclassing NSTextView
This article explains how to subclass NSTextView
. It describes the major areas where a subclass has obligations and where it can expect help in implementing new features.
The text system requires NSTextView
subclasses to abide by certain rules of behavior, and NSTextView
provides many methods to help subclasses do so. Some of these methods are meant to be overridden to add information and behavior into the basic infrastructure. Some are meant to be invoked as part of that infrastructure when the subclass defines its own behavior.
Updating State
NSTextView
automatically updates the Fonts window and ruler as its selection changes. If you add any new font or paragraph attributes to your subclass of NSTextView
, you’ll need to override the methods that perform this updating to account for the added information. The updateFontPanel
method makes the Fonts window display the font of the first character in the selection. You could override this method to update the display of an accessory view in the Fonts window. Similarly, updateRuler
causes the ruler to display the paragraph attributes for the first paragraph in the selection. You can also override this method to customize display of items in the ruler. Be sure to invoke the super
implementation in your override to have the basic updating performed as well.
Custom Import Types
NSTextView
supports pasteboard operations and the dragging of files and colors into its text. If you customize the ability of your subclass to handle pasteboard operations for new data types, you should override the readablePasteboardTypes
and writablePasteboardTypes
methods to reflect those types. Similarly, to support new types of data for dragging operations, you should override the acceptableDragTypes
method. Your implementation of these methods should invoke the superclass implementation, add the new data types to the array returned from super
, and return the modified array.
To read and write custom pasteboard types, you must override the readSelectionFromPasteboard:type:
and writeSelectionToPasteboard:type:
methods. In your implementation of these methods, you should read the new data types your subclass supports and let the superclass handle any other types.
For dragging operations, if your subclass’s ability to accept your custom dragging types varies over time, you can override updateDragTypeRegistration
to register or unregister the custom types according to the text view’s current status. By default this method enables dragging of all acceptable types if the receiver is editable and a rich text view.
Altering Selection Behavior
Your subclass of NSTextView
can customize the way selections are made for the various granularities (such as character, word, and paragraph) described inSetting Focus and Selection Programmatically. While tracking user changes to the selection, whether by the mouse or keyboard, an NSTextView
object repeatedly invokes selectionRangeForProposedRange:granularity:
to determine what range to actually select. When finished tracking changes, it sends the delegate a textView:willChangeSelectionFromCharacterRange:toCharacterRange:
message. By overriding the NSTextView
method or implementing the delegate method, you can alter the way the selection is extended or reduced. For example, in a code editor you can provide a delegate that extends a double click on a brace or parenthesis character to its matching delimiter.
These mechanisms aren’t meant for changing language word definitions (such as what’s selected by a double click). That detail of selection is handled at a lower (and currently private) level of the text system.
Preparing to Change Text
If you create a subclass of NSTextView
to add new capabilities that will change the text in response to user actions, you may need to modify the range selected by the user before actually applying the change. For example, if the user is making a change to the ruler, the change must apply to whole paragraphs, so the selection may have to be extended to paragraph boundaries. Three methods calculate the range to which certain kinds of change should apply. The rangeForUserTextChange
method returns the range to which any change to characters themselves—insertions and deletions—should apply. The rangeForUserCharacterAttributeChange
method returns the range to which a character attribute change, such as a new font or color, should apply. Finally, rangeForUserParagraphAttributeChange
returns the range for a paragraph-level change, such as a new or moved tab stop or indent. These methods all return a range whose location is NSNotFound
if a change isn’t possible; you should check the returned range and abandon the change in this case.
Notifying About Changes to the Text
In actually making changes to the text, you must ensure that the changes are properly performed and recorded by different parts of the text system. You do this by bracketing each batch of potential changes with shouldChangeTextInRange:replacementString:
and didChangeText
messages. These methods ensure that the appropriate delegate messages are sent and notifications posted. The first method asks the delegate for permission to begin editing with a textShouldBeginEditing:
message. If the delegate returns NO
, shouldChangeTextInRange:replacementString:
in turn returns NO
, in which case your subclass should disallow the change. If the delegate returns YES
, the text view posts an NSTextDidBeginEditingNotification
, and shouldChangeTextInRange:replacementString:
in turn returns YES
. In this case you can make your changes to the text, and follow up by invoking didChangeText
. This method concludes the changes by posting an NSTextDidChangeNotification
, which results in the delegate receiving a textDidChange:
message.
The textShouldBeginEditing:
and textDidBeginEditing:
messages are sent only once during an editing session. More precisely, they’re sent upon the first user input since the NSTextView
became the first responder. Thereafter, these messages—and the NSTextDidBeginEditingNotification
—are skipped in the sequence. The textView:shouldChangeTextInRange:replacementString:
method, however, must be invoked for each individual change.
Smart Insert and Delete
NSTextView
defines several methods to aid in “smart” insertion and deletion of text, so that spacing and punctuation are preserved after a change. Smart insertion and deletion typically applies when the user has selected whole words or other significant units of text. A smart deletion of a word before a comma, for example, also deletes the space that would otherwise be left before the comma (though not placing it on the pasteboard in a Cut operation). A smart insertion of a word between another word and a comma adds a space between the two words to protect that boundary. NSTextView
automatically uses smart insertion and deletion by default; you can turn this behavior off using setSmartInsertDeleteEnabled:
. Doing so causes only the selected text to be deleted, and inserted text to be added, with no addition of white space.
If your subclass of NSTextView
defines any methods that insert or delete text, you can make them smart by taking advantage of two NSTextView
methods. The smartDeleteRangeForProposedRange:
method expands a proposed deletion range to include any white space that should also be deleted. If you need to save the deleted text, however, it’s typically best to save only the text from the original range. For smart insertion, smartInsertForString:replacingRange:beforeString:afterString:
returns by reference two strings that you can insert before and after a given string to preserve spacing and punctuation. See the method descriptions for more information.
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