/usr/include/pangomm-1.4/pangomm/layout.h is in libpangomm-1.4-dev 2.28.4-1ubuntu1.
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// Generated by gtkmmproc -- DO NOT MODIFY!
#ifndef _PANGOMM_LAYOUT_H
#define _PANGOMM_LAYOUT_H
#include <glibmm/ustring.h>
#include <sigc++/sigc++.h>
/* $Id: layout.hg,v 1.9 2006/06/08 20:39:39 murrayc Exp $ */
/* layout.h
*
* Copyright(C) 1998-1999 The gtkmm Development Team
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or(at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <glibmm/object.h>
#include <glibmm/slisthandle.h>
#include <pangomm/font.h>
#include <pangomm/fontdescription.h>
#include <pangomm/context.h>
#include <pangomm/attrlist.h>
#include <pangomm/tabarray.h>
#include <pangomm/layoutline.h>
#include <pangomm/layoutiter.h>
#include <pango/pango-layout.h>
#ifndef DOXYGEN_SHOULD_SKIP_THIS
typedef struct _PangoLayout PangoLayout;
typedef struct _PangoLayoutClass PangoLayoutClass;
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
namespace Pango
{ class Layout_Class; } // namespace Pango
namespace Pango
{
/** @addtogroup pangommEnums pangomm Enums and Flags */
/**
* @ingroup pangommEnums
*/
enum Alignment
{
ALIGN_LEFT,
ALIGN_CENTER,
ALIGN_RIGHT
};
} // namespace Pango
#ifndef DOXYGEN_SHOULD_SKIP_THIS
namespace Glib
{
template <>
class Value<Pango::Alignment> : public Glib::Value_Enum<Pango::Alignment>
{
public:
static GType value_type() G_GNUC_CONST;
};
} // namespace Glib
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
namespace Pango
{
/**
* @ingroup pangommEnums
*/
enum WrapMode
{
WRAP_WORD,
WRAP_CHAR,
WRAP_WORD_CHAR
};
} // namespace Pango
#ifndef DOXYGEN_SHOULD_SKIP_THIS
namespace Glib
{
template <>
class Value<Pango::WrapMode> : public Glib::Value_Enum<Pango::WrapMode>
{
public:
static GType value_type() G_GNUC_CONST;
};
} // namespace Glib
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
namespace Pango
{
/**
* @ingroup pangommEnums
*/
enum EllipsizeMode
{
ELLIPSIZE_NONE,
ELLIPSIZE_START,
ELLIPSIZE_MIDDLE,
ELLIPSIZE_END
};
} // namespace Pango
#ifndef DOXYGEN_SHOULD_SKIP_THIS
namespace Glib
{
template <>
class Value<Pango::EllipsizeMode> : public Glib::Value_Enum<Pango::EllipsizeMode>
{
public:
static GType value_type() G_GNUC_CONST;
};
} // namespace Glib
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
namespace Pango
{
/** A Pango::Layout represents an entire paragraph of text.
* It is initialized with a Pango::Context, UTF-8 string and set of attributes for that string.
* Once that is done, the set of formatted lines can be extracted from the object,
* the layout can be rendered, and conversion between logical character positions
* within the layout's text, and the physical position of the resulting glyphs can be made.
*/
class Layout : public Glib::Object
{
#ifndef DOXYGEN_SHOULD_SKIP_THIS
public:
typedef Layout CppObjectType;
typedef Layout_Class CppClassType;
typedef PangoLayout BaseObjectType;
typedef PangoLayoutClass BaseClassType;
private: friend class Layout_Class;
static CppClassType layout_class_;
private:
// noncopyable
Layout(const Layout&);
Layout& operator=(const Layout&);
protected:
explicit Layout(const Glib::ConstructParams& construct_params);
explicit Layout(PangoLayout* castitem);
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
public:
virtual ~Layout();
#ifndef DOXYGEN_SHOULD_SKIP_THIS
static GType get_type() G_GNUC_CONST;
static GType get_base_type() G_GNUC_CONST;
#endif
///Provides access to the underlying C GObject.
PangoLayout* gobj() { return reinterpret_cast<PangoLayout*>(gobject_); }
///Provides access to the underlying C GObject.
const PangoLayout* gobj() const { return reinterpret_cast<PangoLayout*>(gobject_); }
///Provides access to the underlying C instance. The caller is responsible for unrefing it. Use when directly setting fields in structs.
PangoLayout* gobj_copy();
private:
protected:
explicit Layout(const Glib::RefPtr<Context>& context);
public:
static Glib::RefPtr<Layout> create(const Glib::RefPtr<Context>& context);
/** Creates a layout object set up to match the current transformation
* and target surface of the Cairo context. This layout can then be
* used for text measurement with functions like
* get_size() or drawing with methods like show_in_cairo_contet().
* If you change the transformation or target surface for @a context,
* you need to call update_from_cairo_context()
*
* This is the most convenient way to use Cairo with Pango.
* However it is slightly inefficient since it creates a separate
* Pango Context object for each layout. This might matter in an
* application that is laying out large amounts of text.
*
* @param context A Cairo context.
* @result The newly created Pango Layout.
*/
static Glib::RefPtr<Layout> create(const Cairo::RefPtr<Cairo::Context>& context);
/** Updates the private Pango Context of a Pango Layout created with
* create(const Cairo::RefPtr<Cairo::Context>&) to match the current transformation
* and target surface of a Cairo Context.
*
* @param context A Cairo context.
*/
void update_from_cairo_context(const Cairo::RefPtr<Cairo::Context>& context);
/** Does a deep copy-by-value of the @a src layout. The attribute list,
* tab array, and text from the original layout are all copied by
* value.
* @return The newly allocated Pango::Layout, with a reference
* count of one, which should be freed with
* Glib::object_unref().
*/
Glib::RefPtr<Layout> copy();
/** Retrieves the Pango::Context used for this layout.
* @return The Pango::Context for the layout. This does not
* have an additional refcount added, so if you want to keep
* a copy of this around, you must reference it yourself.
*/
Glib::RefPtr<Context> get_context() const;
/** Sets the text attributes for a layout object.
* References @a attrs, so the caller can unref its reference.
* @param attrs A Pango::AttrList, can be <tt>0</tt>.
*/
void set_attributes(AttrList& attrs);
/** Gets the attribute list for the layout, if any.
* @return A Pango::AttrList.
*/
AttrList get_attributes() const;
/** Set the text of the layout.
* @param text The text for the layout.
*/
void set_text(const Glib::ustring& text);
/** Gets the text in the layout. The returned text should not
* be freed or modified.
* @return The text in the @a layout.
*/
Glib::ustring get_text() const;
/** Sets the layout text and attribute list from marked-up text (see markup format).
* Replaces the current text and attribute list.
* @param markup Some marked-up text.
*/
void set_markup(const Glib::ustring& markup);
/** Sets the layout text and attribute list from marked-up text (see markup format).
* Replaces the current text and attribute list.
*
* If @a accel_marker is nonzero, the given character will mark the character following
* it as an accelerator. For example, the accel marker might be an ampersand or
* underscore. All characters marked as an accelerator will receive a
* Pango::UNDERLINE_LOW attribute, and the first character so marked will be returned
* in @a accel_char. Two @a accel_marker characters following each other produce a
* single literal @a accel_marker character.
* @param markup Some marked-up text.
* @param accel_marker Marker for accelerators in the text.
* @param accel_char Return location for any located accelerators.
*/
void set_markup(const Glib::ustring& markup, gunichar accel_marker, gunichar& accel_char);
/** Set the default font description for the layout. If no font
* description is set on the layout, the font description from
* the layout's context is used.
* @param desc The new pango font description.
*/
void set_font_description(const FontDescription& desc);
void unset_font_description();
/** Gets the font description for the layout, if any.
*
* @newin{1,8}
* @return A pointer to the layout's font description,
* or <tt>0</tt> if the font description from the layout's
* context is inherited. This value is owned by the layout
* and must not be modified or freed.
*/
FontDescription get_font_description() const;
/** Sets the width to which the lines of the Pango::Layout should wrap or
* ellipsized. The default value is -1: no width set.
* @param width The desired width in Pango units, or -1 to indicate that no
* wrapping or ellipsization should be performed.
*/
void set_width(int width);
/** Gets the width to which the lines of the Pango::Layout should wrap.
* @return The width in Pango units, or -1 if no width set.
*/
int get_width() const;
/** Sets the height to which the Pango::Layout should be ellipsized at. There
* are two different behaviors, based on whether @a height is positive or
* negative.
*
* If @a height is positive, it will be the maximum height of the layout. Only
* lines would be shown that would fit, and if there is any text omitted,
* an ellipsis added. At least one line is included in each paragraph regardless
* of how small the height value is. A value of zero will render exactly one
* line for the entire layout.
*
* If @a height is negative, it will be the (negative of) maximum number of lines per
* paragraph. That is, the total number of lines shown may well be more than
* this value if the layout contains multiple paragraphs of text.
* The default value of -1 means that first line of each paragraph is ellipsized.
* This behvaior may be changed in the future to act per layout instead of per
* paragraph. File a bug against pango at http://bugzilla.gnome.org/ if your
* code relies on this behavior.
*
* Height setting only has effect if a positive width is set on
* @a layout and ellipsization mode of @a layout is not Pango::ELLIPSIZE_NONE.
* The behavior is undefined if a height other than -1 is set and
* ellipsization mode is set to Pango::ELLIPSIZE_NONE, and may change in the
* future.
*
* @newin{1,20}
* @param height The desired height of the layout in Pango units if positive,
* or desired number of lines if negative.
*/
void set_height(int height);
/** Gets the height of layout used for ellipsization. See
* set_height() for details.
*
* @newin{1,20}
* @return The height, in Pango units if positive, or
* number of lines if negative.
*/
int get_height() const;
/** Sets the wrap mode; the wrap mode only has effect if a width
* is set on the layout with set_width().
* To turn off wrapping, set the width to -1.
* @param wrap The wrap mode.
*/
void set_wrap(WrapMode wrap);
/** Gets the wrap mode for the layout.
*
* Use is_wrapped() to query whether any paragraphs
* were actually wrapped.
* @return Active wrap mode.
*/
WrapMode get_wrap() const;
/** Queries whether the layout had to wrap any paragraphs.
*
* This returns <tt>true</tt> if a positive width is set on @a layout,
* ellipsization mode of @a layout is set to Pango::ELLIPSIZE_NONE,
* and there are paragraphs exceeding the layout width that have
* to be wrapped.
*
* @newin{1,16}
* @return <tt>true</tt> if any paragraphs had to be wrapped, <tt>false</tt>
* otherwise.
*/
bool is_wrapped() const;
/** Sets the width in Pango units to indent each paragraph. A negative value
* of @a indent will produce a hanging indentation. That is, the first line will
* have the full width, and subsequent lines will be indented by the
* absolute value of @a indent.
*
* The indent setting is ignored if layout alignment is set to
* Pango::ALIGN_CENTER.
* @param indent The amount by which to indent.
*/
void set_indent(int indent);
/** Gets the paragraph indent width in Pango units. A negative value
* indicates a hanging indentation.
* @return The indent in Pango units.
*/
int get_indent() const;
/** Sets the amount of spacing in Pango unit between the lines of the
* layout.
* @param spacing The amount of spacing.
*/
void set_spacing(int spacing);
/** Gets the amount of spacing between the lines of the layout.
* @return The spacing in Pango units.
*/
int get_spacing() const;
/** Sets whether each complete line should be stretched to
* fill the entire width of the layout. This stretching is typically
* done by adding whitespace, but for some scripts (such as Arabic),
* the justification may be done in more complex ways, like extending
* the characters.
*
* Note that this setting is not implemented and so is ignored in Pango
* older than 1.18.
* @param justify Whether the lines in the layout should be justified.
*/
void set_justify(bool justify = true);
/** Gets whether each complete line should be stretched to fill the entire
* width of the layout.
* @return The justify.
*/
bool get_justify() const;
/** Gets whether to calculate the bidirectional base direction
* for the layout according to the contents of the layout.
* See set_auto_dir().
*
* @newin{1,4}
* @return <tt>true</tt> if the bidirectional base direction
* is computed from the layout's contents, <tt>false</tt> otherwise.
*/
bool get_auto_dir() const;
/** Sets whether to calculate the bidirectional base direction
* for the layout according to the contents of the layout;
* when this flag is on (the default), then paragraphs in
* @a layout that begin with strong right-to-left characters
* (Arabic and Hebrew principally), will have right-to-left
* layout, paragraphs with letters from other scripts will
* have left-to-right layout. Paragraphs with only neutral
* characters get their direction from the surrounding paragraphs.
*
* When <tt>false</tt>, the choice between left-to-right and
* right-to-left layout is done according to the base direction
* of the layout's Pango::Context. (See Pango::Context::set_base_dir()).
*
* When the auto-computed direction of a paragraph differs from the
* base direction of the context, the interpretation of
* Pango::ALIGN_LEFT and Pango::ALIGN_RIGHT are swapped.
*
* @newin{1,4}
* @param auto_dir If <tt>true</tt>, compute the bidirectional base direction
* from the layout's contents.
*/
void set_auto_dir(bool auto_dir = true);
/** Sets the alignment for the layout: how partial lines are
* positioned within the horizontal space available.
* @param alignment The alignment.
*/
void set_alignment(Alignment alignment);
/** Gets the alignment for the layout: how partial lines are
* positioned within the horizontal space available.
* @return The alignment.
*/
Alignment get_alignment() const;
/** Sets the tabs to use for @a layout, overriding the default tabs
* (by default, tabs are every 8 spaces). If @a tabs is <tt>0</tt>, the default
* tabs are reinstated. @a tabs is copied into the layout; you must
* free your copy of @a tabs yourself.
* @param tabs A Pango::TabArray, or <tt>0</tt>.
*/
void set_tabs(TabArray& tabs);
/** Get the current Pango::TabArray used by this layout. If no
* Pango::TabArray has been set, then the default tabs are in use
* and an invalid instance is returned. Default tabs are every 8 spaces.
* @return A copy of the tabs for this layout.
*/
TabArray get_tabs() const;
/** If @a setting is <tt>true</tt>, do not treat newlines and similar characters
* as paragraph separators; instead, keep all text in a single paragraph,
* and display a glyph for paragraph separator characters. Used when
* you want to allow editing of newlines on a single text line.
* @param setting New setting.
*/
void set_single_paragraph_mode(bool setting = true);
/** Obtains the value set by set_single_paragraph_mode().
* @return <tt>true</tt> if the layout does not break paragraphs at
* paragraph separator characters, <tt>false</tt> otherwise.
*/
bool get_single_paragraph_mode() const;
/** Sets the type of ellipsization being performed for @a layout.
* Depending on the ellipsization mode @a ellipsize text is
* removed from the start, middle, or end of text so they
* fit within the width and height of layout set with
* set_width() and set_height().
*
* If the layout contains characters such as newlines that
* force it to be layed out in multiple paragraphs, then whether
* each paragraph is ellipsized separately or the entire layout
* is ellipsized as a whole depends on the set height of the layout.
* See set_height() for details.
*
* @newin{1,6}
* @param ellipsize The new ellipsization mode for @a layout.
*/
void set_ellipsize(EllipsizeMode ellipsize);
/** Gets the type of ellipsization being performed for @a layout.
* See set_ellipsize()
*
* @newin{1,6}
* @return The current ellipsization mode for @a layout.
*
* Use is_ellipsized() to query whether any paragraphs
* were actually ellipsized.
*/
EllipsizeMode get_ellipsize() const;
/** Queries whether the layout had to ellipsize any paragraphs.
*
* This returns <tt>true</tt> if the ellipsization mode for @a layout
* is not Pango::ELLIPSIZE_NONE, a positive width is set on @a layout,
* and there are paragraphs exceeding that width that have to be
* ellipsized.
*
* @newin{1,16}
* @return <tt>true</tt> if any paragraphs had to be ellipsized, <tt>false</tt>
* otherwise.
*/
bool is_ellipsized() const;
/** Counts the number unknown glyphs in @a layout. That is, zero if
* glyphs for all characters in the layout text were found, or more
* than zero otherwise.
*
* This function can be used to determine if there are any fonts
* available to render all characters in a certain string, or when
* used in combination with Pango::ATTR_FALLBACK, to check if a
* certain font supports all the characters in the string.
*
* @newin{1,16}
* @return The number of unknown glyphs in @a layout.
*/
int get_unknown_glyphs_count() const;
/** Forces recomputation of any state in the Pango::Layout that
* might depend on the layout's context. This function should
* be called if you make changes to the context subsequent
* to creating the layout.
*/
void context_changed();
/** Retrieve an array of logical attributes for each character in the layout.
* @return An array of logical attributes.
*/
Glib::ArrayHandle<LogAttr> get_log_attrs() const;
/** Convert from an index within the layout to the onscreen position corresponding to the grapheme at that index, which is represented as rectangle.
* Note that @a x in the returned rectangle is always the leading edge of the grapheme
* and @a x + @a width the trailing edge of the grapheme.
* If the directionality of the grapheme is right-to-left, then @a width will be negative.
* @param index Byte index within layout.
* @return The position of the grapheme.
*/
Rectangle index_to_pos(int index) const;
/** Converts from byte @a index within the @a layout to line and X position.
* (X position is measured from the left edge of the line)
* @param index The byte index of a grapheme within the layout.
* @param trailing An integer indicating the edge of the grapheme to retrieve the
* position of. If 0, the trailing edge of the grapheme, if > 0,
* the leading of the grapheme.
* @param line Location to store resulting line index. (which will
* between 0 and pango_layout_get_line_count(layout) - 1).
* @param x_pos Location to store resulting position within line
* (Pango::SCALE units per device unit).
*/
void index_to_line_x(int index_, bool trailing, int& line, int& x_pos) const;
/** Given an index within a layout, determines the positions that of the
* strong and weak cursors if the insertion point is at that
* index. The position of each cursor is stored as a zero-width
* rectangle. The strong cursor location is the location where
* characters of the directionality equal to the base direction of the
* layout are inserted. The weak cursor location is the location
* where characters of the directionality opposite to the base
* direction of the layout are inserted.
* @param index The byte index of the cursor.
* @param strong_pos Location to store the strong cursor position (may be <tt>0</tt>).
* @param weak_pos Location to store the weak cursor position (may be <tt>0</tt>).
*/
void get_cursor_pos(int index, Rectangle& strong_pos, Rectangle& weak_pos) const;
/** Given an index within the layout, determine the positions that of the strong cursors if the insertion point is at that index.
* @param index The byte index of the cursor.
* @return The strong cursor position.
*/
Rectangle get_cursor_strong_pos(int index) const;
/** Given an index within the layout, determine the positions that of the weak cursors if the insertion point is at that index.
* @param index The byte index of the cursor.
* @return The weak cursor position.
*/
Rectangle get_cursor_weak_pos(int index) const;
/** Computes a new cursor position from an old position and
* a count of positions to move visually. If @a direction is positive,
* then the new strong cursor position will be one position
* to the right of the old cursor position. If @a direction is negative,
* then the new strong cursor position will be one position
* to the left of the old cursor position.
*
* In the presence of bidirectional text, the correspondence
* between logical and visual order will depend on the direction
* of the current run, and there may be jumps when the cursor
* is moved off of the end of a run.
*
* Motion here is in cursor positions, not in characters, so a
* single call to move_cursor_visually() may move the
* cursor over multiple characters when multiple characters combine
* to form a single grapheme.
* @param strong Whether the moving cursor is the strong cursor or the
* weak cursor. The strong cursor is the cursor corresponding
* to text insertion in the base direction for the layout.
* @param old_index The byte index of the grapheme for the old index.
* @param old_trailing If 0, the cursor was at the trailing edge of the
* grapheme indicated by @a old_index, if > 0, the cursor
* was at the leading edge.
* @param direction Direction to move cursor. A negative
* value indicates motion to the left.
* @param new_index Location to store the new cursor byte index. A value of -1
* indicates that the cursor has been moved off the beginning
* of the layout. A value of MAXINT indicates that
* the cursor has been moved off the end of the layout.
* @param new_trailing Number of characters to move forward from the location returned
* for @a new_index to get the position where the cursor should
* be displayed. This allows distinguishing the position at
* the beginning of one line from the position at the end
* of the preceding line. @a new_index is always on the line
* where the cursor should be displayed.
*/
void move_cursor_visually(bool strong, int old_index, int old_trailing, int direction, int& new_index, int& new_trailing) const;
/** Converts from X and Y position within a layout to the byte
* index to the character at that logical position. If the
* Y position is not inside the layout, the closest position is chosen
* (the position will be clamped inside the layout). If the
* X position is not within the layout, then the start or the
* end of the line is chosen as described for pango_layout_x_to_index().
* If either the X or Y positions were not inside the layout, then the
* function returns <tt>false</tt>; on an exact hit, it returns <tt>true</tt>.
* @param x The X offset (in Pango units)
* from the left edge of the layout.
* @param y The Y offset (in Pango units)
* from the top edge of the layout.
* @param index Location to store calculated byte index.
* @param trailing Location to store a integer indicating where
* in the grapheme the user clicked. It will either
* be zero, or the number of characters in the
* grapheme. 0 represents the trailing edge of the grapheme.
* @return <tt>true</tt> if the coordinates were inside text, <tt>false</tt> otherwise.
*/
bool xy_to_index(int x, int y, int& index, int& trailing) const;
/** Compute the logical and ink extents of @a layout. Logical extents
* are usually what you want for positioning things. The extents
* are given in layout coordinates; layout coordinates begin at the
* top left corner of the layout.
* @param ink_rect Rectangle used to store the extents of the layout as drawn.
* @param logical_rect Rectangle used to store the logical extents of the layout.
*/
void get_extents(Rectangle& ink_rect, Rectangle& logical_rect) const;
/** Compute the ink extents of layout.
* @return The extents of the layout as drawn.
*/
Rectangle get_ink_extents() const;
/** Compute the logical extents of layout.
* @return The logical extents of the layout.
*/
Rectangle get_logical_extents() const;
/** Compute the logical and ink extents of @a layout in device units.
* See get_extents(); this function just calls
* get_extents() and then converts the extents to
* pixels using the Pango::SCALE factor.
* @param ink_rect Rectangle used to store the extents of the layout as drawn.
* @param logical_rect Rectangle used to store the logical extents of the
* layout.
*/
void get_pixel_extents(Rectangle& ink_rect, Rectangle& logical_rect) const;
/** Compute the ink extents of the layout in device units.
* @return The extents of the layout as drawn.
*/
Rectangle get_pixel_ink_extents() const;
/** Compute the logical extents of the layout in device units.
* @return The logical extents of the layout.
*/
Rectangle get_pixel_logical_extents() const;
/** Determines the logical width and height of a Pango::Layout
* in Pango units (device units scaled by Pango::SCALE). This
* is simply a convenience function around get_extents().
* @param width Location to store the logical width, or <tt>0</tt>.
* @param height Location to store the logical height, or <tt>0</tt>.
*/
void get_size(int& width, int& height) const;
/** Determines the logical width and height of a Pango::Layout
* in device units. (get_size() returns the width
* and height scaled by Pango::SCALE.) This
* is simply a convenience function around
* get_pixel_extents().
* @param width Location to store the logical width, or <tt>0</tt>.
* @param height Location to store the logical height, or <tt>0</tt>.
*/
void get_pixel_size(int& width, int& height) const;
/** Gets the Y position of baseline of the first line in @a layout.
*
* @newin{1,22}
* @return Baseline of first line, from top of @a layout.
*/
int get_baseline() const;
/** Retrieves the count of lines for the @a layout.
* @return The line count.
*/
int get_line_count() const;
//Note that the const version uses a different (faster) C function:
/** Retrieves a particular line from a Pango::Layout.
*
* Use the faster get_line_readonly() if you do not plan
* to modify the contents of the line (glyphs, glyph widths, etc.).
* @param line The index of a line, which must be between 0 and
* <tt>pango_layout_get_line_count(layout) - 1</tt>, inclusive.
* @return The requested Pango::LayoutLine, or <tt>0</tt> if the
* index is out of range. This layout line can
* be ref'ed and retained, but will become invalid
* if changes are made to the Pango::Layout.
*/
Glib::RefPtr<LayoutLine> get_line(int line);
/** Retrieves a particular line from a Pango::Layout.
*
* This is a faster alternative to get_line(),
* but the user is not expected
* to modify the contents of the line (glyphs, glyph widths, etc.).
*
* @newin{1,16}
* @param line The index of a line, which must be between 0 and
* <tt>pango_layout_get_line_count(layout) - 1</tt>, inclusive.
* @return The requested Pango::LayoutLine, or <tt>0</tt> if the
* index is out of range. This layout line can
* be ref'ed and retained, but will become invalid
* if changes are made to the Pango::Layout.
* No changes should be made to the line.
*/
Glib::RefPtr<const LayoutLine> get_line(int line) const;
//Note that the const version uses a different (faster) C function:
/** Returns the lines of the @a layout as a list.
*
* Use the faster get_lines_readonly() if you do not plan
* to modify the contents of the lines (glyphs, glyph widths, etc.).
* @return A SList containing
* the lines in the layout. This points to internal data of the Pango::Layout
* and must be used with care. It will become invalid on any change to the layout's
* text or properties.
*/
SListHandle_LayoutLine get_lines();
/** Returns the lines of the @a layout as a list.
*
* This is a faster alternative to get_lines(),
* but the user is not expected
* to modify the contents of the lines (glyphs, glyph widths, etc.).
*
* @newin{1,16}
* @return A SList containing
* the lines in the layout. This points to internal data of the Pango::Layout and
* must be used with care. It will become invalid on any change to the layout's
* text or properties. No changes should be made to the lines.
*/
SListHandle_ConstLayoutLine get_lines() const;
#ifndef PANGOMM_DISABLE_DEPRECATED
/** Gets an iterator to iterate over the visual extents of the layout.
* @param iter Location to store the iterator.
*
* @deprecated Use the get_iter() that returns the LayoutIter instead of
* using an output parameter.
*/
void get_iter(LayoutIter& iter);
#endif // PANGOMM_DISABLE_DEPRECATED
/** Gets an iterator to iterate over the visual extents of the layout.
* @result The iterator.
*
* @newin{2,28}
*/
LayoutIter get_iter();
/** Adds the text in this LayoutLine to the current path in the
* specified Cairo @a context. The origin of the glyphs (the left edge
* of the line) will be at the current point of the cairo context.
*
* @param context A Cairo context.
*/
void add_to_cairo_context(const Cairo::RefPtr<Cairo::Context>& context);
/** Draws a Layout in the specified Cairo @a context. The top-left
* corner of the Layout will be drawn at the current point of the
* cairo context.
*
* @param context A Cairo context.
*
* @newin{2,16}
*/
void show_in_cairo_context(const Cairo::RefPtr<Cairo::Context>& context);
public:
public:
//C++ methods used to invoke GTK+ virtual functions:
protected:
//GTK+ Virtual Functions (override these to change behaviour):
//Default Signal Handlers::
};
} /* namespace Pango */
namespace Glib
{
/** A Glib::wrap() method for this object.
*
* @param object The C instance.
* @param take_copy False if the result should take ownership of the C instance. True if it should take a new copy or ref.
* @result A C++ instance that wraps this C instance.
*
* @relates Pango::Layout
*/
Glib::RefPtr<Pango::Layout> wrap(PangoLayout* object, bool take_copy = false);
}
#endif /* _PANGOMM_LAYOUT_H */
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