Editable#

class Editable(*args, **kwargs)#

Implementations: EditableLabel, Entry, PasswordEntry, SearchEntry, SpinButton, Text

GtkEditable is an interface for text editing widgets.

Typical examples of editable widgets are Entry and SpinButton. It contains functions for generically manipulating an editable widget, a large number of action signals used for key bindings, and several signals that an application can connect to modify the behavior of a widget.

As an example of the latter usage, by connecting the following handler to insert_text, an application can convert all entry into a widget into uppercase.

Forcing entry to uppercase.#

``include`` <ctype.h>

void
insert_text_handler (GtkEditable *editable,
                     const char  *text,
                     int          length,
                     int         *position,
                     gpointer     data)
{
  char *result = g_utf8_strup (text, length);

  g_signal_handlers_block_by_func (editable,
                               (gpointer) insert_text_handler, data);
  gtk_editable_insert_text (editable, result, length, position);
  g_signal_handlers_unblock_by_func (editable,
                                     (gpointer) insert_text_handler, data);

  g_signal_stop_emission_by_name (editable, "insert_text");

  g_free (result);
}

Implementing GtkEditable#

The most likely scenario for implementing GtkEditable on your own widget is that you will embed a GtkText inside a complex widget, and want to delegate the editable functionality to that text widget. GtkEditable provides some utility functions to make this easy.

In your class_init function, call install_properties, passing the first available property ID:

static void
my_class_init (MyClass *class)
{
  ...
  g_object_class_install_properties (object_class, NUM_PROPERTIES, props);
  gtk_editable_install_properties (object_clas, NUM_PROPERTIES);
  ...
}

In your interface_init function for the GtkEditable interface, provide an implementation for the get_delegate vfunc that returns your text widget:

GtkEditable *
get_editable_delegate (GtkEditable *editable)
{
  return GTK_EDITABLE (MY_WIDGET (editable)->text_widget);
}

static void
my_editable_init (GtkEditableInterface *iface)
{
  iface->get_delegate = get_editable_delegate;
}

You don’t need to provide any other vfuncs. The default implementations work by forwarding to the delegate that the GtkEditableInterface.get_delegate() vfunc returns.

In your instance_init function, create your text widget, and then call init_delegate:

static void
my_widget_init (MyWidget *self)
{
  ...
  self->text_widget = gtk_text_new ();
  gtk_editable_init_delegate (GTK_EDITABLE (self));
  ...
}

In your dispose function, call finish_delegate before destroying your text widget:

static void
my_widget_dispose (GObject *object)
{
  ...
  gtk_editable_finish_delegate (GTK_EDITABLE (self));
  g_clear_pointer (&self->text_widget, gtk_widget_unparent);
  ...
}

Finally, use delegate_set_property in your set_property function (and similar for get_property), to set the editable properties:

...
if (gtk_editable_delegate_set_property (object, prop_id, value, pspec))
  return;

switch (prop_id)
...

It is important to note that if you create a GtkEditable that uses a delegate, the low level insert_text and delete_text signals will be propagated from the “wrapper” editable to the delegate, but they will not be propagated from the delegate to the “wrapper” editable, as they would cause an infinite recursion. If you wish to connect to the insert_text and delete_text signals, you will need to connect to them on the delegate obtained via get_delegate.

Methods#

class Editable
delegate_get_accessible_platform_state(state: AccessiblePlatformState) bool#

Retrieves the accessible platform state from the editable delegate.

This is an helper function to retrieve the accessible state for GtkEditable interface implementations using a delegate pattern.

You should call this function in your editable widget implementation of the get_platform_state virtual function, for instance:

static void
accessible_interface_init (GtkAccessibleInterface *iface)
{
  iface->get_platform_state = your_editable_get_accessible_platform_state;
}

static gboolean
your_editable_get_accessible_platform_state (GtkAccessible *accessible,
                                             GtkAccessiblePlatformState state)
{
  return gtk_editable_delegate_get_accessible_platform_state (GTK_EDITABLE (accessible), state);
}

Note that the widget which is the delegate must be a direct child of this widget, otherwise your implementation of get_platform_state might not even be called, as the platform change will originate from the parent of the delegate, and, as a result, will not work properly.

So, if you can’t ensure the direct child condition, you should give the delegate the TEXT_BOX role, or you can change your tree to allow this function to work.

Added in version 4.10.

Parameters:

state – what kind of accessible state to retrieve

delegate_get_property(object: Object, prop_id: int, value: Any, pspec: ParamSpec) bool#

Gets a property of the GtkEditable delegate for object.

This is helper function that should be called in the get_property function of your GtkEditable implementation, before handling your own properties.

Parameters:
  • object – a GObject

  • prop_id – a property ID

  • value – value to set

  • pspec – the GParamSpec for the property

delegate_set_property(object: Object, prop_id: int, value: Any, pspec: ParamSpec) bool#

Sets a property on the GtkEditable delegate for object.

This is a helper function that should be called in the set_property function of your GtkEditable implementation, before handling your own properties.

Parameters:
  • object – a GObject

  • prop_id – a property ID

  • value – value to set

  • pspec – the GParamSpec for the property

delete_selection() None#

Deletes the currently selected text of the editable.

This call doesn’t do anything if there is no selected text.

delete_text(start_pos: int, end_pos: int) None#

Deletes a sequence of characters.

The characters that are deleted are those characters at positions from start_pos up to, but not including end_pos. If end_pos is negative, then the characters deleted are those from start_pos to the end of the text.

Note that the positions are specified in characters, not bytes.

Parameters:
  • start_pos – start position

  • end_pos – end position

finish_delegate() None#

Undoes the setup done by init_delegate.

This is a helper function that should be called from dispose, before removing the delegate object.

get_alignment() float#

Gets the alignment of the editable.

get_chars(start_pos: int, end_pos: int) str#

Retrieves a sequence of characters.

The characters that are retrieved are those characters at positions from start_pos up to, but not including end_pos. If end_pos is negative, then the characters retrieved are those characters from start_pos to the end of the text.

Note that positions are specified in characters, not bytes.

Parameters:
  • start_pos – start of text

  • end_pos – end of text

get_delegate() Editable | None#

Gets the GtkEditable that editable is delegating its implementation to.

Typically, the delegate is a Text widget.

get_editable() bool#

Retrieves whether editable is editable.

get_enable_undo() bool#

Gets if undo/redo actions are enabled for editable

get_max_width_chars() int#

Retrieves the desired maximum width of editable, in characters.

get_position() int#

Retrieves the current position of the cursor relative to the start of the content of the editable.

Note that this position is in characters, not in bytes.

get_selection_bounds() tuple[bool, int, int]#

Retrieves the selection bound of the editable.

start_pos will be filled with the start of the selection and end_pos with end. If no text was selected both will be identical and False will be returned.

Note that positions are specified in characters, not bytes.

get_text() str#

Retrieves the contents of editable.

The returned string is owned by GTK and must not be modified or freed.

get_width_chars() int#

Gets the number of characters of space reserved for the contents of the editable.

init_delegate() None#

Sets up a delegate for GtkEditable.

This is assuming that the get_delegate vfunc in the GtkEditable interface has been set up for the editable’s type.

This is a helper function that should be called in instance init, after creating the delegate object.

insert_text(text, position)#

Inserts length bytes of text into the contents of the widget, at position position.

Note that the position is in characters, not in bytes. The function updates position to point after the newly inserted text.

Parameters:
  • text – the text to insert

  • position – location of the position text will be inserted at

install_properties(object_class: ObjectClass, first_prop: int) int#

Overrides the GtkEditable properties for class.

This is a helper function that should be called in class_init, after installing your own properties.

Note that your class must have “text”, “cursor-position”, “selection-bound”, “editable”, “width-chars”, “max-width-chars”, “xalign” and “enable-undo” properties for this function to work.

To handle the properties in your set_property and get_property functions, you can either use delegate_set_property and delegate_get_property (if you are using a delegate), or remember the first_prop offset and add it to the values in the EditableProperties enumeration to get the property IDs for these properties.

Parameters:
  • object_class – a GObjectClass

  • first_prop – property ID to use for the first property

select_region(start_pos: int, end_pos: int) None#

Selects a region of text.

The characters that are selected are those characters at positions from start_pos up to, but not including end_pos. If end_pos is negative, then the characters selected are those characters from start_pos to the end of the text.

Note that positions are specified in characters, not bytes.

Parameters:
  • start_pos – start of region

  • end_pos – end of region

set_alignment(xalign: float) None#

Sets the alignment for the contents of the editable.

This controls the horizontal positioning of the contents when the displayed text is shorter than the width of the editable.

Parameters:

xalign – The horizontal alignment, from 0 (left) to 1 (right). Reversed for RTL layouts

set_editable(is_editable: bool) None#

Determines if the user can edit the text in the editable widget.

Parameters:

is_editableTrue if the user is allowed to edit the text in the widget

set_enable_undo(enable_undo: bool) None#

If enabled, changes to editable will be saved for undo/redo actions.

This results in an additional copy of text changes and are not stored in secure memory. As such, undo is forcefully disabled when visibility is set to False.

Parameters:

enable_undo – if undo/redo should be enabled

set_max_width_chars(n_chars: int) None#

Sets the desired maximum width in characters of editable.

Parameters:

n_chars – the new desired maximum width, in characters

set_position(position: int) None#

Sets the cursor position in the editable to the given value.

The cursor is displayed before the character with the given (base 0) index in the contents of the editable. The value must be less than or equal to the number of characters in the editable. A value of -1 indicates that the position should be set after the last character of the editable. Note that position is in characters, not in bytes.

Parameters:

position – the position of the cursor

set_text(text: str) None#

Sets the text in the editable to the given value.

This is replacing the current contents.

Parameters:

text – the text to set

set_width_chars(n_chars: int) None#

Changes the size request of the editable to be about the right size for n_chars characters.

Note that it changes the size request, the size can still be affected by how you pack the widget into containers. If n_chars is -1, the size reverts to the default size.

Parameters:

n_chars – width in chars

Properties#

class Editable
props.cursor_position: int#

The type of the None singleton.

props.editable: bool#

The type of the None singleton.

props.enable_undo: bool#

The type of the None singleton.

props.max_width_chars: int#

The type of the None singleton.

props.selection_bound: int#

The type of the None singleton.

props.text: str#

The type of the None singleton.

props.width_chars: int#

The type of the None singleton.

props.xalign: float#

The type of the None singleton.

Signals#

class Editable.signals
changed() None#

The type of the None singleton.

delete_text(start_pos: int, end_pos: int) None#

The type of the None singleton.

Parameters:
  • start_pos – the starting position

  • end_pos – the end position

insert_text(text: str, length: int) int#

The type of the None singleton.

Parameters:
  • text – the new text to insert

  • length – the length of the new text, in bytes, or -1 if new_text is nul-terminated

Virtual Methods#

class Editable
do_changed() None#

The type of the None singleton.

do_delete_text(start_pos: int, end_pos: int) None#

Deletes a sequence of characters.

The characters that are deleted are those characters at positions from start_pos up to, but not including end_pos. If end_pos is negative, then the characters deleted are those from start_pos to the end of the text.

Note that the positions are specified in characters, not bytes.

Parameters:
  • start_pos – start position

  • end_pos – end position

do_do_delete_text(start_pos: int, end_pos: int) None#

The type of the None singleton.

Parameters:
  • start_pos – start position

  • end_pos – end position

do_do_insert_text(text: str, length: int) int#

The type of the None singleton.

Parameters:
  • text – the text to insert

  • length – the length of the text in bytes, or -1

do_get_delegate() Editable | None#

Gets the GtkEditable that editable is delegating its implementation to.

Typically, the delegate is a Text widget.

do_get_selection_bounds() tuple[bool, int, int]#

Retrieves the selection bound of the editable.

start_pos will be filled with the start of the selection and end_pos with end. If no text was selected both will be identical and False will be returned.

Note that positions are specified in characters, not bytes.

do_get_text() str#

Retrieves the contents of editable.

The returned string is owned by GTK and must not be modified or freed.

do_insert_text(text: str, length: int) int#

Inserts length bytes of text into the contents of the widget, at position position.

Note that the position is in characters, not in bytes. The function updates position to point after the newly inserted text.

Parameters:
  • text – the text to insert

  • length – the length of the text in bytes, or -1

do_set_selection_bounds(start_pos: int, end_pos: int) None#

The type of the None singleton.

Parameters:
  • start_pos – start of region

  • end_pos – end of region