GTK+ Reference Manual | ||||
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#include <gtk/gtk.h> GtkTextIter; GtkTextBuffer* gtk_text_iter_get_buffer (const GtkTextIter *iter); GtkTextIter* gtk_text_iter_copy (const GtkTextIter *iter); void gtk_text_iter_free (GtkTextIter *iter); gint gtk_text_iter_get_offset (const GtkTextIter *iter); gint gtk_text_iter_get_line (const GtkTextIter *iter); gint gtk_text_iter_get_line_offset (const GtkTextIter *iter); gint gtk_text_iter_get_line_index (const GtkTextIter *iter); gint gtk_text_iter_get_visible_line_index (const GtkTextIter *iter); gint gtk_text_iter_get_visible_line_offset (const GtkTextIter *iter); gunichar gtk_text_iter_get_char (const GtkTextIter *iter); gchar* gtk_text_iter_get_slice (const GtkTextIter *start, const GtkTextIter *end); gchar* gtk_text_iter_get_text (const GtkTextIter *start, const GtkTextIter *end); gchar* gtk_text_iter_get_visible_slice (const GtkTextIter *start, const GtkTextIter *end); gchar* gtk_text_iter_get_visible_text (const GtkTextIter *start, const GtkTextIter *end); GdkPixbuf* gtk_text_iter_get_pixbuf (const GtkTextIter *iter); GSList* gtk_text_iter_get_marks (const GtkTextIter *iter); GSList* gtk_text_iter_get_toggled_tags (const GtkTextIter *iter, gboolean toggled_on); GtkTextChildAnchor* gtk_text_iter_get_child_anchor (const GtkTextIter *iter); gboolean gtk_text_iter_begins_tag (const GtkTextIter *iter, GtkTextTag *tag); gboolean gtk_text_iter_ends_tag (const GtkTextIter *iter, GtkTextTag *tag); gboolean gtk_text_iter_toggles_tag (const GtkTextIter *iter, GtkTextTag *tag); gboolean gtk_text_iter_has_tag (const GtkTextIter *iter, GtkTextTag *tag); GSList* gtk_text_iter_get_tags (const GtkTextIter *iter); gboolean gtk_text_iter_editable (const GtkTextIter *iter, gboolean default_setting); gboolean gtk_text_iter_can_insert (const GtkTextIter *iter, gboolean default_editability); gboolean gtk_text_iter_starts_word (const GtkTextIter *iter); gboolean gtk_text_iter_ends_word (const GtkTextIter *iter); gboolean gtk_text_iter_inside_word (const GtkTextIter *iter); gboolean gtk_text_iter_starts_line (const GtkTextIter *iter); gboolean gtk_text_iter_ends_line (const GtkTextIter *iter); gboolean gtk_text_iter_starts_sentence (const GtkTextIter *iter); gboolean gtk_text_iter_ends_sentence (const GtkTextIter *iter); gboolean gtk_text_iter_inside_sentence (const GtkTextIter *iter); gboolean gtk_text_iter_is_cursor_position (const GtkTextIter *iter); gint gtk_text_iter_get_chars_in_line (const GtkTextIter *iter); gint gtk_text_iter_get_bytes_in_line (const GtkTextIter *iter); gboolean gtk_text_iter_get_attributes (const GtkTextIter *iter, GtkTextAttributes *values); PangoLanguage* gtk_text_iter_get_language (const GtkTextIter *iter); gboolean gtk_text_iter_is_end (const GtkTextIter *iter); gboolean gtk_text_iter_is_start (const GtkTextIter *iter); gboolean gtk_text_iter_forward_char (GtkTextIter *iter); gboolean gtk_text_iter_backward_char (GtkTextIter *iter); gboolean gtk_text_iter_forward_chars (GtkTextIter *iter, gint count); gboolean gtk_text_iter_backward_chars (GtkTextIter *iter, gint count); gboolean gtk_text_iter_forward_line (GtkTextIter *iter); gboolean gtk_text_iter_backward_line (GtkTextIter *iter); gboolean gtk_text_iter_forward_lines (GtkTextIter *iter, gint count); gboolean gtk_text_iter_backward_lines (GtkTextIter *iter, gint count); gboolean gtk_text_iter_forward_word_ends (GtkTextIter *iter, gint count); gboolean gtk_text_iter_backward_word_starts (GtkTextIter *iter, gint count); gboolean gtk_text_iter_forward_word_end (GtkTextIter *iter); gboolean gtk_text_iter_backward_word_start (GtkTextIter *iter); gboolean gtk_text_iter_forward_cursor_position (GtkTextIter *iter); gboolean gtk_text_iter_backward_cursor_position (GtkTextIter *iter); gboolean gtk_text_iter_forward_cursor_positions (GtkTextIter *iter, gint count); gboolean gtk_text_iter_backward_cursor_positions (GtkTextIter *iter, gint count); gboolean gtk_text_iter_backward_sentence_start (GtkTextIter *iter); gboolean gtk_text_iter_backward_sentence_starts (GtkTextIter *iter, gint count); gboolean gtk_text_iter_forward_sentence_end (GtkTextIter *iter); gboolean gtk_text_iter_forward_sentence_ends (GtkTextIter *iter, gint count); gboolean gtk_text_iter_forward_visible_word_ends (GtkTextIter *iter, gint count); gboolean gtk_text_iter_backward_visible_word_starts (GtkTextIter *iter, gint count); gboolean gtk_text_iter_forward_visible_word_end (GtkTextIter *iter); gboolean gtk_text_iter_backward_visible_word_start (GtkTextIter *iter); gboolean gtk_text_iter_forward_visible_cursor_position (GtkTextIter *iter); gboolean gtk_text_iter_backward_visible_cursor_position (GtkTextIter *iter); gboolean gtk_text_iter_forward_visible_cursor_positions (GtkTextIter *iter, gint count); gboolean gtk_text_iter_backward_visible_cursor_positions (GtkTextIter *iter, gint count); gboolean gtk_text_iter_forward_visible_line (GtkTextIter *iter); gboolean gtk_text_iter_backward_visible_line (GtkTextIter *iter); gboolean gtk_text_iter_forward_visible_lines (GtkTextIter *iter, gint count); gboolean gtk_text_iter_backward_visible_lines (GtkTextIter *iter, gint count); void gtk_text_iter_set_offset (GtkTextIter *iter, gint char_offset); void gtk_text_iter_set_line (GtkTextIter *iter, gint line_number); void gtk_text_iter_set_line_offset (GtkTextIter *iter, gint char_on_line); void gtk_text_iter_set_line_index (GtkTextIter *iter, gint byte_on_line); void gtk_text_iter_set_visible_line_index (GtkTextIter *iter, gint byte_on_line); void gtk_text_iter_set_visible_line_offset (GtkTextIter *iter, gint char_on_line); void gtk_text_iter_forward_to_end (GtkTextIter *iter); gboolean gtk_text_iter_forward_to_line_end (GtkTextIter *iter); gboolean gtk_text_iter_forward_to_tag_toggle (GtkTextIter *iter, GtkTextTag *tag); gboolean gtk_text_iter_backward_to_tag_toggle (GtkTextIter *iter, GtkTextTag *tag); gboolean (*GtkTextCharPredicate) (gunichar ch, gpointer user_data); gboolean gtk_text_iter_forward_find_char (GtkTextIter *iter, GtkTextCharPredicate pred, gpointer user_data, const GtkTextIter *limit); gboolean gtk_text_iter_backward_find_char (GtkTextIter *iter, GtkTextCharPredicate pred, gpointer user_data, const GtkTextIter *limit); enum GtkTextSearchFlags; gboolean gtk_text_iter_forward_search (const GtkTextIter *iter, const gchar *str, GtkTextSearchFlags flags, GtkTextIter *match_start, GtkTextIter *match_end, const GtkTextIter *limit); gboolean gtk_text_iter_backward_search (const GtkTextIter *iter, const gchar *str, GtkTextSearchFlags flags, GtkTextIter *match_start, GtkTextIter *match_end, const GtkTextIter *limit); gboolean gtk_text_iter_equal (const GtkTextIter *lhs, const GtkTextIter *rhs); gint gtk_text_iter_compare (const GtkTextIter *lhs, const GtkTextIter *rhs); gboolean gtk_text_iter_in_range (const GtkTextIter *iter, const GtkTextIter *start, const GtkTextIter *end); void gtk_text_iter_order (GtkTextIter *first, GtkTextIter *second);
You may wish to begin by reading the text widget conceptual overview which gives an overview of all the objects and data types related to the text widget and how they work together.
typedef struct { /* GtkTextIter is an opaque datatype; ignore all these fields. * Initialize the iter with gtk_text_buffer_get_iter_* * functions */ } GtkTextIter;
GtkTextBuffer* gtk_text_iter_get_buffer (const GtkTextIter *iter);
Returns the GtkTextBuffer this iterator is associated with.
iter : |
an iterator |
Returns : | the buffer |
GtkTextIter* gtk_text_iter_copy (const GtkTextIter *iter);
Creates a dynamically-allocated copy of an iterator. This function
is not useful in applications, because iterators can be copied with a
simple assignment (GtkTextIter i = j;
). The
function is used by language bindings.
iter : |
an iterator |
Returns : | a copy of the iter , free with gtk_text_iter_free()
|
void gtk_text_iter_free (GtkTextIter *iter);
Free an iterator allocated on the heap. This function is intended for use in language bindings, and is not especially useful for applications, because iterators can simply be allocated on the stack.
iter : |
a dynamically-allocated iterator |
gint gtk_text_iter_get_offset (const GtkTextIter *iter);
Returns the character offset of an iterator.
Each character in a GtkTextBuffer has an offset,
starting with 0 for the first character in the buffer.
Use gtk_text_buffer_get_iter_at_offset()
to convert an
offset back into an iterator.
iter : |
an iterator |
Returns : | a character offset |
gint gtk_text_iter_get_line (const GtkTextIter *iter);
Returns the line number containing the iterator. Lines in a GtkTextBuffer are numbered beginning with 0 for the first line in the buffer.
iter : |
an iterator |
Returns : | a line number |
gint gtk_text_iter_get_line_offset (const GtkTextIter *iter);
Returns the character offset of the iterator, counting from the start of a newline-terminated line. The first character on the line has offset 0.
iter : |
an iterator |
Returns : | offset from start of line |
gint gtk_text_iter_get_line_index (const GtkTextIter *iter);
Returns the byte index of the iterator, counting from the start of a newline-terminated line. Remember that GtkTextBuffer encodes text in UTF-8, and that characters can require a variable number of bytes to represent.
iter : |
an iterator |
Returns : | distance from start of line, in bytes |
gint gtk_text_iter_get_visible_line_index (const GtkTextIter *iter);
Returns the number of bytes from the start of the
line to the given iter
, not counting bytes that
are invisible due to tags with the "invisible" flag
toggled on.
iter : |
a GtkTextIter |
Returns : | byte index of iter with respect to the start of the line
|
gint gtk_text_iter_get_visible_line_offset (const GtkTextIter *iter);
Returns the offset in characters from the start of the
line to the given iter
, not counting characters that
are invisible due to tags with the "invisible" flag
toggled on.
iter : |
a GtkTextIter |
Returns : | offset in visible characters from the start of the line |
gunichar gtk_text_iter_get_char (const GtkTextIter *iter);
Returns the Unicode character at this iterator. (Equivalent to
operator* on a C++ iterator.) If the element at this iterator is a
non-character element, such as an image embedded in the buffer, the
Unicode "unknown" character 0xFFFC is returned. If invoked on
the end iterator, zero is returned; zero is not a valid Unicode character.
So you can write a loop which ends when gtk_text_iter_get_char()
returns 0.
iter : |
an iterator |
Returns : | a Unicode character, or 0 if iter is not dereferenceable
|
gchar* gtk_text_iter_get_slice (const GtkTextIter *start, const GtkTextIter *end);
Returns the text in the given range. A "slice" is an array of characters encoded in UTF-8 format, including the Unicode "unknown" character 0xFFFC for iterable non-character elements in the buffer, such as images. Because images are encoded in the slice, byte and character offsets in the returned array will correspond to byte offsets in the text buffer. Note that 0xFFFC can occur in normal text as well, so it is not a reliable indicator that a pixbuf or widget is in the buffer.
start : |
iterator at start of a range |
end : |
iterator at end of a range |
Returns : | slice of text from the buffer |
gchar* gtk_text_iter_get_text (const GtkTextIter *start, const GtkTextIter *end);
Returns text in the given range. If the range
contains non-text elements such as images, the character and byte
offsets in the returned string will not correspond to character and
byte offsets in the buffer. If you want offsets to correspond, see
gtk_text_iter_get_slice()
.
start : |
iterator at start of a range |
end : |
iterator at end of a range |
Returns : | array of characters from the buffer |
gchar* gtk_text_iter_get_visible_slice (const GtkTextIter *start, const GtkTextIter *end);
Like gtk_text_iter_get_slice()
, but invisible text is not included.
Invisible text is usually invisible because a GtkTextTag with the
"invisible" attribute turned on has been applied to it.
start : |
iterator at start of range |
end : |
iterator at end of range |
Returns : | slice of text from the buffer |
gchar* gtk_text_iter_get_visible_text (const GtkTextIter *start, const GtkTextIter *end);
Like gtk_text_iter_get_text()
, but invisible text is not included.
Invisible text is usually invisible because a GtkTextTag with the
"invisible" attribute turned on has been applied to it.
start : |
iterator at start of range |
end : |
iterator at end of range |
Returns : | string containing visible text in the range |
GdkPixbuf* gtk_text_iter_get_pixbuf (const GtkTextIter *iter);
If the element at iter
is a pixbuf, the pixbuf is returned
(with no new reference count added). Otherwise,
NULL
is returned.
iter : |
an iterator |
Returns : | the pixbuf at iter
|
GSList* gtk_text_iter_get_marks (const GtkTextIter *iter);
Returns a list of all GtkTextMark at this location. Because marks are not iterable (they don't take up any "space" in the buffer, they are just marks in between iterable locations), multiple marks can exist in the same place. The returned list is not in any meaningful order.
iter : |
an iterator |
Returns : | list of GtkTextMark |
GSList* gtk_text_iter_get_toggled_tags (const GtkTextIter *iter, gboolean toggled_on);
Returns a list of GtkTextTag that are toggled on or off at this
point. (If toggled_on
is TRUE
, the list contains tags that are
toggled on.) If a tag is toggled on at iter
, then some non-empty
range of characters following iter
has that tag applied to it. If
a tag is toggled off, then some non-empty range following iter
does not have the tag applied to it.
iter : |
an iterator |
toggled_on : |
TRUE to get toggled-on tags
|
Returns : | tags toggled at this point |
GtkTextChildAnchor* gtk_text_iter_get_child_anchor (const GtkTextIter *iter);
If the location at iter
contains a child anchor, the
anchor is returned (with no new reference count added). Otherwise,
NULL
is returned.
iter : |
an iterator |
Returns : | the anchor at iter
|
gboolean gtk_text_iter_begins_tag (const GtkTextIter *iter, GtkTextTag *tag);
Returns TRUE
if tag
is toggled on at exactly this point. If tag
is NULL
, returns TRUE
if any tag is toggled on at this point. Note
that the gtk_text_iter_begins_tag()
returns TRUE
if iter
is the
start of the tagged range;
gtk_text_iter_has_tag()
tells you whether an iterator is
within a tagged range.
iter : |
an iterator |
tag : |
a GtkTextTag, or NULL
|
Returns : | whether iter is the start of a range tagged with tag
|
gboolean gtk_text_iter_ends_tag (const GtkTextIter *iter, GtkTextTag *tag);
Returns TRUE
if tag
is toggled off at exactly this point. If tag
is NULL
, returns TRUE
if any tag is toggled off at this point. Note
that the gtk_text_iter_ends_tag()
returns TRUE
if iter
is the
end of the tagged range;
gtk_text_iter_has_tag()
tells you whether an iterator is
within a tagged range.
iter : |
an iterator |
tag : |
a GtkTextTag, or NULL
|
Returns : | whether iter is the end of a range tagged with tag
|
gboolean gtk_text_iter_toggles_tag (const GtkTextIter *iter, GtkTextTag *tag);
This is equivalent to (gtk_text_iter_begins_tag()
||
gtk_text_iter_ends_tag()
), i.e. it tells you whether a range with
tag
applied to it begins or ends at iter
.
iter : |
an iterator |
tag : |
a GtkTextTag, or NULL
|
Returns : | whether tag is toggled on or off at iter
|
gboolean gtk_text_iter_has_tag (const GtkTextIter *iter, GtkTextTag *tag);
Returns TRUE
if iter
is within a range tagged with tag
.
iter : |
an iterator |
tag : |
a GtkTextTag |
Returns : | whether iter is tagged with tag
|
GSList* gtk_text_iter_get_tags (const GtkTextIter *iter);
Returns a list of tags that apply to iter
, in ascending order of
priority (highest-priority tags are last). The GtkTextTag in the
list don't have a reference added, but you have to free the list
itself.
iter : |
a GtkTextIter |
Returns : | list of GtkTextTag |
gboolean gtk_text_iter_editable (const GtkTextIter *iter, gboolean default_setting);
Returns whether the character at iter
is within an editable region
of text. Non-editable text is "locked" and can't be changed by the
user via GtkTextView. This function is simply a convenience
wrapper around gtk_text_iter_get_attributes()
. If no tags applied
to this text affect editability, default_setting
will be returned.
You don't want to use this function to decide whether text can be
inserted at iter
, because for insertion you don't want to know
whether the char at iter
is inside an editable range, you want to
know whether a new character inserted at iter
would be inside an
editable range. Use gtk_text_iter_can_insert()
to handle this
case.
iter : |
an iterator |
default_setting : |
TRUE if text is editable by default
|
Returns : | whether iter is inside an editable range
|
gboolean gtk_text_iter_can_insert (const GtkTextIter *iter, gboolean default_editability);
Considering the default editability of the buffer, and tags that
affect editability, determines whether text inserted at iter
would
be editable. If text inserted at iter
would be editable then the
user should be allowed to insert text at iter
.
gtk_text_buffer_insert_interactive()
uses this function to decide
whether insertions are allowed at a given position.
iter : |
an iterator |
default_editability : |
TRUE if text is editable by default
|
Returns : | whether text inserted at iter would be editable
|
gboolean gtk_text_iter_starts_word (const GtkTextIter *iter);
Determines whether iter
begins a natural-language word. Word
breaks are determined by Pango and should be correct for nearly any
language (if not, the correct fix would be to the Pango word break
algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter is at the start of a word
|
gboolean gtk_text_iter_ends_word (const GtkTextIter *iter);
Determines whether iter
ends a natural-language word. Word breaks
are determined by Pango and should be correct for nearly any
language (if not, the correct fix would be to the Pango word break
algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter is at the end of a word
|
gboolean gtk_text_iter_inside_word (const GtkTextIter *iter);
Determines whether iter
is inside a natural-language word (as
opposed to say inside some whitespace). Word breaks are determined
by Pango and should be correct for nearly any language (if not, the
correct fix would be to the Pango word break algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter is inside a word
|
gboolean gtk_text_iter_starts_line (const GtkTextIter *iter);
Returns TRUE
if iter
begins a paragraph,
i.e. if gtk_text_iter_get_line_offset()
would return 0.
However this function is potentially more efficient than
gtk_text_iter_get_line_offset()
because it doesn't have to compute
the offset, it just has to see whether it's 0.
iter : |
an iterator |
Returns : | whether iter begins a line
|
gboolean gtk_text_iter_ends_line (const GtkTextIter *iter);
Returns TRUE
if iter
points to the start of the paragraph
delimiter characters for a line (delimiters will be either a
newline, a carriage return, a carriage return followed by a
newline, or a Unicode paragraph separator character). Note that an
iterator pointing to the \n of a \r\n pair will not be counted as
the end of a line, the line ends before the \r. The end iterator is
considered to be at the end of a line, even though there are no
paragraph delimiter chars there.
iter : |
an iterator |
Returns : | whether iter is at the end of a line
|
gboolean gtk_text_iter_starts_sentence (const GtkTextIter *iter);
Determines whether iter
begins a sentence. Sentence boundaries are
determined by Pango and should be correct for nearly any language
(if not, the correct fix would be to the Pango text boundary
algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter is at the start of a sentence.
|
gboolean gtk_text_iter_ends_sentence (const GtkTextIter *iter);
Determines whether iter
ends a sentence. Sentence boundaries are
determined by Pango and should be correct for nearly any language
(if not, the correct fix would be to the Pango text boundary
algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter is at the end of a sentence.
|
gboolean gtk_text_iter_inside_sentence (const GtkTextIter *iter);
Determines whether iter
is inside a sentence (as opposed to in
between two sentences, e.g. after a period and before the first
letter of the next sentence). Sentence boundaries are determined
by Pango and should be correct for nearly any language (if not, the
correct fix would be to the Pango text boundary algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter is inside a sentence.
|
gboolean gtk_text_iter_is_cursor_position (const GtkTextIter *iter);
See gtk_text_iter_forward_cursor_position()
or PangoLogAttr or
pango_break()
for details on what a cursor position is.
iter : |
a GtkTextIter |
Returns : | TRUE if the cursor can be placed at iter
|
gint gtk_text_iter_get_chars_in_line (const GtkTextIter *iter);
Returns the number of characters in the line containing iter
,
including the paragraph delimiters.
iter : |
an iterator |
Returns : | number of characters in the line |
gint gtk_text_iter_get_bytes_in_line (const GtkTextIter *iter);
Returns the number of bytes in the line containing iter
,
including the paragraph delimiters.
iter : |
an iterator |
Returns : | number of bytes in the line |
gboolean gtk_text_iter_get_attributes (const GtkTextIter *iter, GtkTextAttributes *values);
Computes the effect of any tags applied to this spot in the
text. The values
parameter should be initialized to the default
settings you wish to use if no tags are in effect. You'd typically
obtain the defaults from gtk_text_view_get_default_attributes()
.
gtk_text_iter_get_attributes()
will modify values
, applying the
effects of any tags present at iter
. If any tags affected values
,
the function returns TRUE
.
iter : |
an iterator |
values : |
a GtkTextAttributes to be filled in |
Returns : | TRUE if values was modified
|
PangoLanguage* gtk_text_iter_get_language (const GtkTextIter *iter);
A convenience wrapper around gtk_text_iter_get_attributes()
,
which returns the language in effect at iter
. If no tags affecting
language apply to iter
, the return value is identical to that of
gtk_get_default_language()
.
iter : |
an iterator |
Returns : | language in effect at iter
|
gboolean gtk_text_iter_is_end (const GtkTextIter *iter);
Returns TRUE
if iter
is the end iterator, i.e. one past the last
dereferenceable iterator in the buffer. gtk_text_iter_is_end()
is
the most efficient way to check whether an iterator is the end
iterator.
iter : |
an iterator |
Returns : | whether iter is the end iterator
|
gboolean gtk_text_iter_is_start (const GtkTextIter *iter);
Returns TRUE
if iter
is the first iterator in the buffer, that is
if iter
has a character offset of 0.
iter : |
an iterator |
Returns : | whether iter is the first in the buffer
|
gboolean gtk_text_iter_forward_char (GtkTextIter *iter);
Moves iter
forward by one character offset. Note that images
embedded in the buffer occupy 1 character slot, so
gtk_text_iter_forward_char()
may actually move onto an image instead
of a character, if you have images in your buffer. If iter
is the
end iterator or one character before it, iter
will now point at
the end iterator, and gtk_text_iter_forward_char()
returns FALSE
for
convenience when writing loops.
iter : |
an iterator |
Returns : | whether iter moved and is dereferenceable
|
gboolean gtk_text_iter_backward_char (GtkTextIter *iter);
Moves backward by one character offset. Returns TRUE
if movement
was possible; if iter
was the first in the buffer (character
offset 0), gtk_text_iter_backward_char()
returns FALSE
for convenience when
writing loops.
iter : |
an iterator |
Returns : | whether movement was possible |
gboolean gtk_text_iter_forward_chars (GtkTextIter *iter, gint count);
Moves count
characters if possible (if count
would move past the
start or end of the buffer, moves to the start or end of the
buffer). The return value indicates whether the new position of
iter
is different from its original position, and dereferenceable
(the last iterator in the buffer is not dereferenceable). If count
is 0, the function does nothing and returns FALSE
.
iter : |
an iterator |
count : |
number of characters to move, may be negative |
Returns : | whether iter moved and is dereferenceable
|
gboolean gtk_text_iter_backward_chars (GtkTextIter *iter, gint count);
Moves count
characters backward, if possible (if count
would move
past the start or end of the buffer, moves to the start or end of
the buffer). The return value indicates whether the iterator moved
onto a dereferenceable position; if the iterator didn't move, or
moved onto the end iterator, then FALSE
is returned. If count
is 0,
the function does nothing and returns FALSE
.
iter : |
an iterator |
count : |
number of characters to move |
Returns : | whether iter moved and is dereferenceable
|
gboolean gtk_text_iter_forward_line (GtkTextIter *iter);
Moves iter
to the start of the next line. Returns TRUE
if there
was a next line to move to, and FALSE
if iter
was simply moved to
the end of the buffer and is now not dereferenceable, or if iter
was
already at the end of the buffer.
iter : |
an iterator |
Returns : | whether iter can be dereferenced
|
gboolean gtk_text_iter_backward_line (GtkTextIter *iter);
Moves iter
to the start of the previous line. Returns TRUE
if
iter
could be moved; i.e. if iter
was at character offset 0, this
function returns FALSE
. Therefore if iter
was already on line 0,
but not at the start of the line, iter
is snapped to the start of
the line and the function returns TRUE
. (Note that this implies that
in a loop calling this function, the line number may not change on
every iteration, if your first iteration is on line 0.)
iter : |
an iterator |
Returns : | whether iter moved
|
gboolean gtk_text_iter_forward_lines (GtkTextIter *iter, gint count);
Moves count
lines forward, if possible (if count
would move
past the start or end of the buffer, moves to the start or end of
the buffer). The return value indicates whether the iterator moved
onto a dereferenceable position; if the iterator didn't move, or
moved onto the end iterator, then FALSE
is returned. If count
is 0,
the function does nothing and returns FALSE
. If count
is negative,
moves backward by 0 - count
lines.
iter : |
a GtkTextIter |
count : |
number of lines to move forward |
Returns : | whether iter moved and is dereferenceable
|
gboolean gtk_text_iter_backward_lines (GtkTextIter *iter, gint count);
Moves count
lines backward, if possible (if count
would move
past the start or end of the buffer, moves to the start or end of
the buffer). The return value indicates whether the iterator moved
onto a dereferenceable position; if the iterator didn't move, or
moved onto the end iterator, then FALSE
is returned. If count
is 0,
the function does nothing and returns FALSE
. If count
is negative,
moves forward by 0 - count
lines.
iter : |
a GtkTextIter |
count : |
number of lines to move backward |
Returns : | whether iter moved and is dereferenceable
|
gboolean gtk_text_iter_forward_word_ends (GtkTextIter *iter, gint count);
Calls gtk_text_iter_forward_word_end()
up to count
times.
iter : |
a GtkTextIter |
count : |
number of times to move |
Returns : | TRUE if iter moved and is not the end iterator
|
gboolean gtk_text_iter_backward_word_starts (GtkTextIter *iter, gint count);
Calls gtk_text_iter_backward_word_start()
up to count
times.
iter : |
a GtkTextIter |
count : |
number of times to move |
Returns : | TRUE if iter moved and is not the end iterator
|
gboolean gtk_text_iter_forward_word_end (GtkTextIter *iter);
Moves forward to the next word end. (If iter
is currently on a
word end, moves forward to the next one after that.) Word breaks
are determined by Pango and should be correct for nearly any
language (if not, the correct fix would be to the Pango word break
algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter moved and is not the end iterator
|
gboolean gtk_text_iter_backward_word_start (GtkTextIter *iter);
Moves backward to the previous word start. (If iter
is currently on a
word start, moves backward to the next one after that.) Word breaks
are determined by Pango and should be correct for nearly any
language (if not, the correct fix would be to the Pango word break
algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter moved and is not the end iterator
|
gboolean gtk_text_iter_forward_cursor_position (GtkTextIter *iter);
Moves iter
forward by a single cursor position. Cursor positions
are (unsurprisingly) positions where the cursor can appear. Perhaps
surprisingly, there may not be a cursor position between all
characters. The most common example for European languages would be
a carriage return/newline sequence. For some Unicode characters,
the equivalent of say the letter "a" with an accent mark will be
represented as two characters, first the letter then a "combining
mark" that causes the accent to be rendered; so the cursor can't go
between those two characters. See also the PangoLogAttr structure and
pango_break()
function.
iter : |
a GtkTextIter |
Returns : | TRUE if we moved and the new position is dereferenceable
|
gboolean gtk_text_iter_backward_cursor_position (GtkTextIter *iter);
Like gtk_text_iter_forward_cursor_position()
, but moves backward.
iter : |
a GtkTextIter |
Returns : | TRUE if we moved
|
gboolean gtk_text_iter_forward_cursor_positions (GtkTextIter *iter, gint count);
Moves up to count
cursor positions. See
gtk_text_iter_forward_cursor_position()
for details.
iter : |
a GtkTextIter |
count : |
number of positions to move |
Returns : | TRUE if we moved and the new position is dereferenceable
|
gboolean gtk_text_iter_backward_cursor_positions (GtkTextIter *iter, gint count);
Moves up to count
cursor positions. See
gtk_text_iter_forward_cursor_position()
for details.
iter : |
a GtkTextIter |
count : |
number of positions to move |
Returns : | TRUE if we moved and the new position is dereferenceable
|
gboolean gtk_text_iter_backward_sentence_start (GtkTextIter *iter);
Moves backward to the previous sentence start; if iter
is already at
the start of a sentence, moves backward to the next one. Sentence
boundaries are determined by Pango and should be correct for nearly
any language (if not, the correct fix would be to the Pango text
boundary algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter moved and is not the end iterator
|
gboolean gtk_text_iter_backward_sentence_starts (GtkTextIter *iter, gint count);
Calls gtk_text_iter_backward_sentence_start()
up to count
times,
or until it returns FALSE
. If count
is negative, moves forward
instead of backward.
iter : |
a GtkTextIter |
count : |
number of sentences to move |
Returns : | TRUE if iter moved and is not the end iterator
|
gboolean gtk_text_iter_forward_sentence_end (GtkTextIter *iter);
Moves forward to the next sentence end. (If iter
is at the end of
a sentence, moves to the next end of sentence.) Sentence
boundaries are determined by Pango and should be correct for nearly
any language (if not, the correct fix would be to the Pango text
boundary algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter moved and is not the end iterator
|
gboolean gtk_text_iter_forward_sentence_ends (GtkTextIter *iter, gint count);
Calls gtk_text_iter_forward_sentence_end()
count
times (or until
gtk_text_iter_forward_sentence_end()
returns FALSE
). If count
is
negative, moves backward instead of forward.
iter : |
a GtkTextIter |
count : |
number of sentences to move |
Returns : | TRUE if iter moved and is not the end iterator
|
gboolean gtk_text_iter_forward_visible_word_ends (GtkTextIter *iter, gint count);
Calls gtk_text_iter_forward_visible_word_end()
up to count
times.
iter : |
a GtkTextIter |
count : |
number of times to move |
Returns : | TRUE if iter moved and is not the end iterator
|
Since 2.4
gboolean gtk_text_iter_backward_visible_word_starts (GtkTextIter *iter, gint count);
Calls gtk_text_iter_backward_visible_word_start()
up to count
times.
iter : |
a GtkTextIter |
count : |
number of times to move |
Returns : | TRUE if iter moved and is not the end iterator
|
Since 2.4
gboolean gtk_text_iter_forward_visible_word_end (GtkTextIter *iter);
Moves forward to the next visible word end. (If iter
is currently on a
word end, moves forward to the next one after that.) Word breaks
are determined by Pango and should be correct for nearly any
language (if not, the correct fix would be to the Pango word break
algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter moved and is not the end iterator
|
Since 2.4
gboolean gtk_text_iter_backward_visible_word_start (GtkTextIter *iter);
Moves backward to the previous visible word start. (If iter
is currently
on a word start, moves backward to the next one after that.) Word breaks
are determined by Pango and should be correct for nearly any
language (if not, the correct fix would be to the Pango word break
algorithms).
iter : |
a GtkTextIter |
Returns : | TRUE if iter moved and is not the end iterator
|
Since 2.4
gboolean gtk_text_iter_forward_visible_cursor_position (GtkTextIter *iter);
Moves iter
forward to the next visible cursor position. See
gtk_text_iter_forward_cursor_position()
for details.
iter : |
a GtkTextIter |
Returns : | TRUE if we moved and the new position is dereferenceable
|
Since 2.4
gboolean gtk_text_iter_backward_visible_cursor_position (GtkTextIter *iter);
Moves iter
forward to the previous visible cursor position. See
gtk_text_iter_backward_cursor_position()
for details.
iter : |
a GtkTextIter |
Returns : | TRUE if we moved and the new position is dereferenceable
|
Since 2.4
gboolean gtk_text_iter_forward_visible_cursor_positions (GtkTextIter *iter, gint count);
Moves up to count
visible cursor positions. See
gtk_text_iter_forward_cursor_position()
for details.
iter : |
a GtkTextIter |
count : |
number of positions to move |
Returns : | TRUE if we moved and the new position is dereferenceable
|
Since 2.4
gboolean gtk_text_iter_backward_visible_cursor_positions (GtkTextIter *iter, gint count);
Moves up to count
visible cursor positions. See
gtk_text_iter_backward_cursor_position()
for details.
iter : |
a GtkTextIter |
count : |
number of positions to move |
Returns : | TRUE if we moved and the new position is dereferenceable
|
Since 2.4
gboolean gtk_text_iter_forward_visible_line (GtkTextIter *iter);
Moves iter
to the start of the next visible line. Returns TRUE
if there
was a next line to move to, and FALSE
if iter
was simply moved to
the end of the buffer and is now not dereferenceable, or if iter
was
already at the end of the buffer.
iter : |
an iterator |
Returns : | whether iter can be dereferenced
|
Since 2.8
gboolean gtk_text_iter_backward_visible_line (GtkTextIter *iter);
Moves iter
to the start of the previous visible line. Returns TRUE
if
iter
could be moved; i.e. if iter
was at character offset 0, this
function returns FALSE
. Therefore if iter
was already on line 0,
but not at the start of the line, iter
is snapped to the start of
the line and the function returns TRUE
. (Note that this implies that
in a loop calling this function, the line number may not change on
every iteration, if your first iteration is on line 0.)
iter : |
an iterator |
Returns : | whether iter moved
|
Since 2.8
gboolean gtk_text_iter_forward_visible_lines (GtkTextIter *iter, gint count);
Moves count
visible lines forward, if possible (if count
would move
past the start or end of the buffer, moves to the start or end of
the buffer). The return value indicates whether the iterator moved
onto a dereferenceable position; if the iterator didn't move, or
moved onto the end iterator, then FALSE
is returned. If count
is 0,
the function does nothing and returns FALSE
. If count
is negative,
moves backward by 0 - count
lines.
iter : |
a GtkTextIter |
count : |
number of lines to move forward |
Returns : | whether iter moved and is dereferenceable
|
Since 2.8
gboolean gtk_text_iter_backward_visible_lines (GtkTextIter *iter, gint count);
Moves count
visible lines backward, if possible (if count
would move
past the start or end of the buffer, moves to the start or end of
the buffer). The return value indicates whether the iterator moved
onto a dereferenceable position; if the iterator didn't move, or
moved onto the end iterator, then FALSE
is returned. If count
is 0,
the function does nothing and returns FALSE
. If count
is negative,
moves forward by 0 - count
lines.
iter : |
a GtkTextIter |
count : |
number of lines to move backward |
Returns : | whether iter moved and is dereferenceable
|
Since 2.8
void gtk_text_iter_set_offset (GtkTextIter *iter, gint char_offset);
Sets iter
to point to char_offset
. char_offset
counts from the start
of the entire text buffer, starting with 0.
iter : |
a GtkTextIter |
char_offset : |
a character number |
void gtk_text_iter_set_line (GtkTextIter *iter, gint line_number);
Moves iterator iter
to the start of the line line_number
. If
line_number
is negative or larger than the number of lines in the
buffer, moves iter
to the start of the last line in the buffer.
iter : |
a GtkTextIter |
line_number : |
line number (counted from 0) |
void gtk_text_iter_set_line_offset (GtkTextIter *iter, gint char_on_line);
Moves iter
within a line, to a new character
(not byte) offset. The given character offset must be less than or
equal to the number of characters in the line; if equal, iter
moves to the start of the next line. See
gtk_text_iter_set_line_index()
if you have a byte index rather than
a character offset.
iter : |
a GtkTextIter |
char_on_line : |
a character offset relative to the start of iter 's current line
|
void gtk_text_iter_set_line_index (GtkTextIter *iter, gint byte_on_line);
Same as gtk_text_iter_set_line_offset()
, but works with a
byte index. The given byte index must be at
the start of a character, it can't be in the middle of a UTF-8
encoded character.
iter : |
a GtkTextIter |
byte_on_line : |
a byte index relative to the start of iter 's current line
|
void gtk_text_iter_set_visible_line_index (GtkTextIter *iter, gint byte_on_line);
Like gtk_text_iter_set_line_index()
, but the index is in visible
bytes, i.e. text with a tag making it invisible is not counted
in the index.
iter : |
a GtkTextIter |
byte_on_line : |
a byte index |
void gtk_text_iter_set_visible_line_offset (GtkTextIter *iter, gint char_on_line);
Like gtk_text_iter_set_line_offset()
, but the offset is in visible
characters, i.e. text with a tag making it invisible is not
counted in the offset.
iter : |
a GtkTextIter |
char_on_line : |
a character offset |
void gtk_text_iter_forward_to_end (GtkTextIter *iter);
Moves iter
forward to the "end iterator," which points one past the last
valid character in the buffer. gtk_text_iter_get_char()
called on the
end iterator returns 0, which is convenient for writing loops.
iter : |
a GtkTextIter |
gboolean gtk_text_iter_forward_to_line_end (GtkTextIter *iter);
Moves the iterator to point to the paragraph delimiter characters,
which will be either a newline, a carriage return, a carriage
return/newline in sequence, or the Unicode paragraph separator
character. If the iterator is already at the paragraph delimiter
characters, moves to the paragraph delimiter characters for the
next line. If iter
is on the last line in the buffer, which does
not end in paragraph delimiters, moves to the end iterator (end of
the last line), and returns FALSE
.
iter : |
a GtkTextIter |
Returns : | TRUE if we moved and the new location is not the end iterator
|
gboolean gtk_text_iter_forward_to_tag_toggle (GtkTextIter *iter, GtkTextTag *tag);
Moves forward to the next toggle (on or off) of the
GtkTextTag tag
, or to the next toggle of any tag if
tag
is NULL
. If no matching tag toggles are found,
returns FALSE
, otherwise TRUE
. Does not return toggles
located at iter
, only toggles after iter
. Sets iter
to
the location of the toggle, or to the end of the buffer
if no toggle is found.
iter : |
a GtkTextIter |
tag : |
a GtkTextTag, or NULL
|
Returns : | whether we found a tag toggle after iter
|
gboolean gtk_text_iter_backward_to_tag_toggle (GtkTextIter *iter, GtkTextTag *tag);
Moves backward to the next toggle (on or off) of the
GtkTextTag tag
, or to the next toggle of any tag if
tag
is NULL
. If no matching tag toggles are found,
returns FALSE
, otherwise TRUE
. Does not return toggles
located at iter
, only toggles before iter
. Sets iter
to the location of the toggle, or the start of the buffer
if no toggle is found.
iter : |
a GtkTextIter |
tag : |
a GtkTextTag, or NULL
|
Returns : | whether we found a tag toggle before iter
|
gboolean (*GtkTextCharPredicate) (gunichar ch, gpointer user_data);
ch : |
|
user_data : |
|
Returns : |
gboolean gtk_text_iter_forward_find_char (GtkTextIter *iter, GtkTextCharPredicate pred, gpointer user_data, const GtkTextIter *limit);
Advances iter
, calling pred
on each character. If
pred
returns TRUE
, returns TRUE
and stops scanning.
If pred
never returns TRUE
, iter
is set to limit
if
limit
is non-NULL
, otherwise to the end iterator.
iter : |
a GtkTextIter |
pred : |
a function to be called on each character |
user_data : |
user data for pred
|
limit : |
search limit, or NULL for none
|
Returns : | whether a match was found |
gboolean gtk_text_iter_backward_find_char (GtkTextIter *iter, GtkTextCharPredicate pred, gpointer user_data, const GtkTextIter *limit);
Same as gtk_text_iter_forward_find_char()
, but goes backward from iter
.
iter : |
a GtkTextIter |
pred : |
function to be called on each character |
user_data : |
user data for pred
|
limit : |
search limit, or NULL for none
|
Returns : | whether a match was found |
typedef enum { GTK_TEXT_SEARCH_VISIBLE_ONLY = 1 << 0, GTK_TEXT_SEARCH_TEXT_ONLY = 1 << 1 /* Possible future plans: SEARCH_CASE_INSENSITIVE, SEARCH_REGEXP */ } GtkTextSearchFlags;
gboolean gtk_text_iter_forward_search (const GtkTextIter *iter, const gchar *str, GtkTextSearchFlags flags, GtkTextIter *match_start, GtkTextIter *match_end, const GtkTextIter *limit);
Searches forward for str
. Any match is returned by setting
match_start
to the first character of the match and match_end
to the
first character after the match. The search will not continue past
limit
. Note that a search is a linear or O(n) operation, so you
may wish to use limit
to avoid locking up your UI on large
buffers.
If the GTK_TEXT_SEARCH_VISIBLE_ONLY flag is present, the match may
have invisible text interspersed in str
. i.e. str
will be a
possibly-noncontiguous subsequence of the matched range. similarly,
if you specify GTK_TEXT_SEARCH_TEXT_ONLY, the match may have
pixbufs or child widgets mixed inside the matched range. If these
flags are not given, the match must be exact; the special 0xFFFC
character in str
will match embedded pixbufs or child widgets.
iter : |
start of search |
str : |
a search string |
flags : |
flags affecting how the search is done |
match_start : |
return location for start of match, or NULL
|
match_end : |
return location for end of match, or NULL
|
limit : |
bound for the search, or NULL for the end of the buffer
|
Returns : | whether a match was found |
gboolean gtk_text_iter_backward_search (const GtkTextIter *iter, const gchar *str, GtkTextSearchFlags flags, GtkTextIter *match_start, GtkTextIter *match_end, const GtkTextIter *limit);
Same as gtk_text_iter_forward_search()
, but moves backward.
iter : |
a GtkTextIter where the search begins |
str : |
search string |
flags : |
bitmask of flags affecting the search |
match_start : |
return location for start of match, or NULL
|
match_end : |
return location for end of match, or NULL
|
limit : |
location of last possible match_start , or NULL for start of buffer
|
Returns : | whether a match was found |
gboolean gtk_text_iter_equal (const GtkTextIter *lhs, const GtkTextIter *rhs);
Tests whether two iterators are equal, using the fastest possible
mechanism. This function is very fast; you can expect it to perform
better than e.g. getting the character offset for each iterator and
comparing the offsets yourself. Also, it's a bit faster than
gtk_text_iter_compare()
.
lhs : |
a GtkTextIter |
rhs : |
another GtkTextIter |
Returns : | TRUE if the iterators point to the same place in the buffer
|
gint gtk_text_iter_compare (const GtkTextIter *lhs, const GtkTextIter *rhs);
A qsort()
-style function that returns negative if lhs
is less than
rhs
, positive if lhs
is greater than rhs
, and 0 if they're equal.
Ordering is in character offset order, i.e. the first character in the buffer
is less than the second character in the buffer.
lhs : |
a GtkTextIter |
rhs : |
another GtkTextIter |
Returns : | -1 if lhs is less than rhs , 1 if lhs is greater, 0 if they are equal
|
gboolean gtk_text_iter_in_range (const GtkTextIter *iter, const GtkTextIter *start, const GtkTextIter *end);
Checks whether iter
falls in the range [start
, end
).
start
and end
must be in ascending order.
iter : |
a GtkTextIter |
start : |
start of range |
end : |
end of range |
Returns : | TRUE if iter is in the range
|
void gtk_text_iter_order (GtkTextIter *first, GtkTextIter *second);
Swaps the value of first
and second
if second
comes before
first
in the buffer. That is, ensures that first
and second
are
in sequence. Most text buffer functions that take a range call this
automatically on your behalf, so there's no real reason to call it yourself
in those cases. There are some exceptions, such as gtk_text_iter_in_range()
,
that expect a pre-sorted range.
first : |
a GtkTextIter |
second : |
another GtkTextIter |