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|
/* cairo - a vector graphics library with display and print output
*
* Copyright © 2002 University of Southern California
* Copyright © 2005 Red Hat, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it either under the terms of the GNU Lesser General Public
* License version 2.1 as published by the Free Software Foundation
* (the "LGPL") or, at your option, under the terms of the Mozilla
* Public License Version 1.1 (the "MPL"). If you do not alter this
* notice, a recipient may use your version of this file under either
* the MPL or the LGPL.
*
* You should have received a copy of the LGPL along with this library
* in the file COPYING-LGPL-2.1; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
* You should have received a copy of the MPL along with this library
* in the file COPYING-MPL-1.1
*
* The contents of this file are subject to the Mozilla Public License
* Version 1.1 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY
* OF ANY KIND, either express or implied. See the LGPL or the MPL for
* the specific language governing rights and limitations.
*
* The Original Code is the cairo graphics library.
*
* The Initial Developer of the Original Code is University of Southern
* California.
*
* Contributor(s):
* Carl D. Worth <cworth@cworth.org>
*/
#ifndef CAIRO_H
#define CAIRO_H
#include "cairo-version.h"
#include "cairo-features.h"
#include "cairo-deprecated.h"
#ifdef __cplusplus
# define CAIRO_BEGIN_DECLS extern "C" {
# define CAIRO_END_DECLS }
#else
# define CAIRO_BEGIN_DECLS
# define CAIRO_END_DECLS
#endif
#ifndef cairo_public
# if defined (_MSC_VER) && ! defined (CAIRO_WIN32_STATIC_BUILD)
# define cairo_public __declspec(dllimport)
# else
# define cairo_public
# endif
#endif
CAIRO_BEGIN_DECLS
#define CAIRO_VERSION_ENCODE(major, minor, micro) ( \
((major) * 10000) \
+ ((minor) * 100) \
+ ((micro) * 1))
#define CAIRO_VERSION CAIRO_VERSION_ENCODE( \
CAIRO_VERSION_MAJOR, \
CAIRO_VERSION_MINOR, \
CAIRO_VERSION_MICRO)
#define CAIRO_VERSION_STRINGIZE_(major, minor, micro) \
#major"."#minor"."#micro
#define CAIRO_VERSION_STRINGIZE(major, minor, micro) \
CAIRO_VERSION_STRINGIZE_(major, minor, micro)
#define CAIRO_VERSION_STRING CAIRO_VERSION_STRINGIZE( \
CAIRO_VERSION_MAJOR, \
CAIRO_VERSION_MINOR, \
CAIRO_VERSION_MICRO)
cairo_public int
cairo_version (void);
cairo_public const char*
cairo_version_string (void);
/**
* cairo_bool_t:
*
* #cairo_bool_t is used for boolean values. Returns of type
* #cairo_bool_t will always be either 0 or 1, but testing against
* these values explicitly is not encouraged; just use the
* value as a boolean condition.
*
* <informalexample><programlisting>
* if (cairo_in_stroke (cr, x, y)) {
* /<!-- -->* do something *<!-- -->/
* }
* </programlisting></informalexample>
**/
typedef int cairo_bool_t;
/**
* cairo_t:
*
* A #cairo_t contains the current state of the rendering device,
* including coordinates of yet to be drawn shapes.
*
* Cairo contexts, as #cairo_t objects are named, are central to
* cairo and all drawing with cairo is always done to a #cairo_t
* object.
*
* Memory management of #cairo_t is done with
* cairo_reference() and cairo_destroy().
**/
typedef struct _cairo cairo_t;
/**
* cairo_surface_t:
*
* A #cairo_surface_t represents an image, either as the destination
* of a drawing operation or as source when drawing onto another
* surface. To draw to a #cairo_surface_t, create a cairo context
* with the surface as the target, using cairo_create().
*
* There are different subtypes of #cairo_surface_t for
* different drawing backends; for example, cairo_image_surface_create()
* creates a bitmap image in memory.
* The type of a surface can be queried with cairo_surface_get_type().
*
* Memory management of #cairo_surface_t is done with
* cairo_surface_reference() and cairo_surface_destroy().
**/
typedef struct _cairo_surface cairo_surface_t;
/**
* cairo_matrix_t:
* @xx: xx component of the affine transformation
* @yx: yx component of the affine transformation
* @xy: xy component of the affine transformation
* @yy: yy component of the affine transformation
* @x0: X translation component of the affine transformation
* @y0: Y translation component of the affine transformation
*
* A #cairo_matrix_t holds an affine transformation, such as a scale,
* rotation, shear, or a combination of those. The transformation of
* a point (x, y) is given by:
* <programlisting>
* x_new = xx * x + xy * y + x0;
* y_new = yx * x + yy * y + y0;
* </programlisting>
**/
typedef struct _cairo_matrix {
double xx; double yx;
double xy; double yy;
double x0; double y0;
} cairo_matrix_t;
/**
* cairo_pattern_t:
*
* A #cairo_pattern_t represents a source when drawing onto a
* surface. There are different subtypes of #cairo_pattern_t,
* for different types of sources; for example,
* cairo_pattern_create_rgb() creates a pattern for a solid
* opaque color.
*
* Other than various cairo_pattern_create_<emphasis>type</emphasis>()
* functions, some of the pattern types can be implicitly created
* using various cairo_set_source_<emphasis>type</emphasis>() functions;
* for example cairo_set_source_rgb().
*
* The type of a pattern can be queried with cairo_pattern_get_type().
*
* Memory management of #cairo_pattern_t is done with
* cairo_pattern_reference() and cairo_pattern_destroy().
**/
typedef struct _cairo_pattern cairo_pattern_t;
/**
* cairo_destroy_func_t:
* @data: The data element being destroyed.
*
* #cairo_destroy_func_t the type of function which is called when a
* data element is destroyed. It is passed the pointer to the data
* element and should free any memory and resources allocated for it.
**/
typedef void (*cairo_destroy_func_t) (void *data);
/**
* cairo_user_data_key_t:
* @unused: not used; ignore.
*
* #cairo_user_data_key_t is used for attaching user data to cairo
* data structures. The actual contents of the struct is never used,
* and there is no need to initialize the object; only the unique
* address of a #cairo_data_key_t object is used. Typically, you
* would just use the address of a static #cairo_data_key_t object.
**/
typedef struct _cairo_user_data_key {
int unused;
} cairo_user_data_key_t;
/**
* cairo_status_t:
* @CAIRO_STATUS_SUCCESS: no error has occurred
* @CAIRO_STATUS_NO_MEMORY: out of memory
* @CAIRO_STATUS_INVALID_RESTORE: cairo_restore() called without matching cairo_save()
* @CAIRO_STATUS_INVALID_POP_GROUP: no saved group to pop, i.e. cairo_pop_group() without matching cairo_push_group()
* @CAIRO_STATUS_NO_CURRENT_POINT: no current point defined
* @CAIRO_STATUS_INVALID_MATRIX: invalid matrix (not invertible)
* @CAIRO_STATUS_INVALID_STATUS: invalid value for an input #cairo_status_t
* @CAIRO_STATUS_NULL_POINTER: %NULL pointer
* @CAIRO_STATUS_INVALID_STRING: input string not valid UTF-8
* @CAIRO_STATUS_INVALID_PATH_DATA: input path data not valid
* @CAIRO_STATUS_READ_ERROR: error while reading from input stream
* @CAIRO_STATUS_WRITE_ERROR: error while writing to output stream
* @CAIRO_STATUS_SURFACE_FINISHED: target surface has been finished
* @CAIRO_STATUS_SURFACE_TYPE_MISMATCH: the surface type is not appropriate for the operation
* @CAIRO_STATUS_PATTERN_TYPE_MISMATCH: the pattern type is not appropriate for the operation
* @CAIRO_STATUS_INVALID_CONTENT: invalid value for an input #cairo_content_t
* @CAIRO_STATUS_INVALID_FORMAT: invalid value for an input #cairo_format_t
* @CAIRO_STATUS_INVALID_VISUAL: invalid value for an input Visual*
* @CAIRO_STATUS_FILE_NOT_FOUND: file not found
* @CAIRO_STATUS_INVALID_DASH: invalid value for a dash setting
* @CAIRO_STATUS_INVALID_DSC_COMMENT: invalid value for a DSC comment (Since 1.2)
* @CAIRO_STATUS_INVALID_INDEX: invalid index passed to getter (Since 1.4)
* @CAIRO_STATUS_CLIP_NOT_REPRESENTABLE: clip region not representable in desired format (Since 1.4)
* @CAIRO_STATUS_TEMP_FILE_ERROR: error creating or writing to a temporary file (Since 1.6)
* @CAIRO_STATUS_INVALID_STRIDE: invalid value for stride (Since 1.6)
* @CAIRO_STATUS_FONT_TYPE_MISMATCH: the font type is not appropriate for the operation (Since 1.8)
* @CAIRO_STATUS_USER_FONT_IMMUTABLE: the user-font is immutable (Since 1.8)
* @CAIRO_STATUS_USER_FONT_ERROR: error occurred in a user-font callback function (Since 1.8)
* @CAIRO_STATUS_NEGATIVE_COUNT: negative number used where it is not allowed (Since 1.8)
* @CAIRO_STATUS_INVALID_CLUSTERS: input clusters do not represent the accompanying text and glyph array (Since 1.8)
* @CAIRO_STATUS_INVALID_SLANT: invalid value for an input #cairo_font_slant_t (Since 1.8)
* @CAIRO_STATUS_INVALID_WEIGHT: invalid value for an input #cairo_font_weight_t (Since 1.8)
* @CAIRO_STATUS_INVALID_SIZE: invalid value (typically too big) for the size of the input (surface, pattern, etc.) (Since 1.10)
* @CAIRO_STATUS_USER_FONT_NOT_IMPLEMENTED: user-font method not implemented (Since 1.10)
* @CAIRO_STATUS_LAST_STATUS: this is a special value indicating the number of
* status values defined in this enumeration. When using this value, note
* that the version of cairo at run-time may have additional status values
* defined than the value of this symbol at compile-time. (Since 1.10)
*
* #cairo_status_t is used to indicate errors that can occur when
* using Cairo. In some cases it is returned directly by functions.
* but when using #cairo_t, the last error, if any, is stored in
* the context and can be retrieved with cairo_status().
*
* New entries may be added in future versions. Use cairo_status_to_string()
* to get a human-readable representation of an error message.
**/
typedef enum _cairo_status {
CAIRO_STATUS_SUCCESS = 0,
CAIRO_STATUS_NO_MEMORY,
CAIRO_STATUS_INVALID_RESTORE,
CAIRO_STATUS_INVALID_POP_GROUP,
CAIRO_STATUS_NO_CURRENT_POINT,
CAIRO_STATUS_INVALID_MATRIX,
CAIRO_STATUS_INVALID_STATUS,
CAIRO_STATUS_NULL_POINTER,
CAIRO_STATUS_INVALID_STRING,
CAIRO_STATUS_INVALID_PATH_DATA,
CAIRO_STATUS_READ_ERROR,
CAIRO_STATUS_WRITE_ERROR,
CAIRO_STATUS_SURFACE_FINISHED,
CAIRO_STATUS_SURFACE_TYPE_MISMATCH,
CAIRO_STATUS_PATTERN_TYPE_MISMATCH,
CAIRO_STATUS_INVALID_CONTENT,
CAIRO_STATUS_INVALID_FORMAT,
CAIRO_STATUS_INVALID_VISUAL,
CAIRO_STATUS_FILE_NOT_FOUND,
CAIRO_STATUS_INVALID_DASH,
CAIRO_STATUS_INVALID_DSC_COMMENT,
CAIRO_STATUS_INVALID_INDEX,
CAIRO_STATUS_CLIP_NOT_REPRESENTABLE,
CAIRO_STATUS_TEMP_FILE_ERROR,
CAIRO_STATUS_INVALID_STRIDE,
CAIRO_STATUS_FONT_TYPE_MISMATCH,
CAIRO_STATUS_USER_FONT_IMMUTABLE,
CAIRO_STATUS_USER_FONT_ERROR,
CAIRO_STATUS_NEGATIVE_COUNT,
CAIRO_STATUS_INVALID_CLUSTERS,
CAIRO_STATUS_INVALID_SLANT,
CAIRO_STATUS_INVALID_WEIGHT,
CAIRO_STATUS_INVALID_SIZE,
CAIRO_STATUS_USER_FONT_NOT_IMPLEMENTED,
CAIRO_STATUS_LAST_STATUS
} cairo_status_t;
/**
* cairo_content_t:
* @CAIRO_CONTENT_COLOR: The surface will hold color content only.
* @CAIRO_CONTENT_ALPHA: The surface will hold alpha content only.
* @CAIRO_CONTENT_COLOR_ALPHA: The surface will hold color and alpha content.
*
* #cairo_content_t is used to describe the content that a surface will
* contain, whether color information, alpha information (translucence
* vs. opacity), or both.
*
* Note: The large values here are designed to keep #cairo_content_t
* values distinct from #cairo_format_t values so that the
* implementation can detect the error if users confuse the two types.
**/
typedef enum _cairo_content {
CAIRO_CONTENT_COLOR = 0x1000,
CAIRO_CONTENT_ALPHA = 0x2000,
CAIRO_CONTENT_COLOR_ALPHA = 0x3000
} cairo_content_t;
/**
* cairo_write_func_t:
* @closure: the output closure
* @data: the buffer containing the data to write
* @length: the amount of data to write
*
* #cairo_write_func_t is the type of function which is called when a
* backend needs to write data to an output stream. It is passed the
* closure which was specified by the user at the time the write
* function was registered, the data to write and the length of the
* data in bytes. The write function should return
* %CAIRO_STATUS_SUCCESS if all the data was successfully written,
* %CAIRO_STATUS_WRITE_ERROR otherwise.
*
* Returns: the status code of the write operation
**/
typedef cairo_status_t (*cairo_write_func_t) (void *closure,
const unsigned char *data,
unsigned int length);
/**
* cairo_read_func_t:
* @closure: the input closure
* @data: the buffer into which to read the data
* @length: the amount of data to read
*
* #cairo_read_func_t is the type of function which is called when a
* backend needs to read data from an input stream. It is passed the
* closure which was specified by the user at the time the read
* function was registered, the buffer to read the data into and the
* length of the data in bytes. The read function should return
* %CAIRO_STATUS_SUCCESS if all the data was successfully read,
* %CAIRO_STATUS_READ_ERROR otherwise.
*
* Returns: the status code of the read operation
**/
typedef cairo_status_t (*cairo_read_func_t) (void *closure,
unsigned char *data,
unsigned int length);
/* Functions for manipulating state objects */
cairo_public cairo_t *
cairo_create (cairo_surface_t *target);
cairo_public cairo_t *
cairo_reference (cairo_t *cr);
cairo_public void
cairo_destroy (cairo_t *cr);
cairo_public unsigned int
cairo_get_reference_count (cairo_t *cr);
cairo_public void *
cairo_get_user_data (cairo_t *cr,
const cairo_user_data_key_t *key);
cairo_public cairo_status_t
cairo_set_user_data (cairo_t *cr,
const cairo_user_data_key_t *key,
void *user_data,
cairo_destroy_func_t destroy);
cairo_public void
cairo_save (cairo_t *cr);
cairo_public void
cairo_restore (cairo_t *cr);
cairo_public void
cairo_push_group (cairo_t *cr);
cairo_public void
cairo_push_group_with_content (cairo_t *cr, cairo_content_t content);
cairo_public cairo_pattern_t *
cairo_pop_group (cairo_t *cr);
cairo_public void
cairo_pop_group_to_source (cairo_t *cr);
/* Modify state */
/**
* cairo_operator_t:
* @CAIRO_OPERATOR_CLEAR: clear destination layer (bounded)
* @CAIRO_OPERATOR_SOURCE: replace destination layer (bounded)
* @CAIRO_OPERATOR_OVER: draw source layer on top of destination layer
* (bounded)
* @CAIRO_OPERATOR_IN: draw source where there was destination content
* (unbounded)
* @CAIRO_OPERATOR_OUT: draw source where there was no destination
* content (unbounded)
* @CAIRO_OPERATOR_ATOP: draw source on top of destination content and
* only there
* @CAIRO_OPERATOR_DEST: ignore the source
* @CAIRO_OPERATOR_DEST_OVER: draw destination on top of source
* @CAIRO_OPERATOR_DEST_IN: leave destination only where there was
* source content (unbounded)
* @CAIRO_OPERATOR_DEST_OUT: leave destination only where there was no
* source content
* @CAIRO_OPERATOR_DEST_ATOP: leave destination on top of source content
* and only there (unbounded)
* @CAIRO_OPERATOR_XOR: source and destination are shown where there is only
* one of them
* @CAIRO_OPERATOR_ADD: source and destination layers are accumulated
* @CAIRO_OPERATOR_SATURATE: like over, but assuming source and dest are
* disjoint geometries
* @CAIRO_OPERATOR_MULTIPLY: source and destination layers are multiplied.
* This causes the result to be at least as dark as the darker inputs.
* @CAIRO_OPERATOR_SCREEN: source and destination are complemented and
* multiplied. This causes the result to be at least as light as the lighter
* inputs.
* @CAIRO_OPERATOR_OVERLAY: multiplies or screens, depending on the
* lightness of the destination color.
* @CAIRO_OPERATOR_DARKEN: replaces the destination with the source if it
* is darker, otherwise keeps the source.
* @CAIRO_OPERATOR_LIGHTEN: replaces the destination with the source if it
* is lighter, otherwise keeps the source.
* @CAIRO_OPERATOR_COLOR_DODGE: brightens the destination color to reflect
* the source color.
* @CAIRO_OPERATOR_COLOR_BURN: darkens the destination color to reflect
* the source color.
* @CAIRO_OPERATOR_HARD_LIGHT: Multiplies or screens, dependant on source
* color.
* @CAIRO_OPERATOR_SOFT_LIGHT: Darkens or lightens, dependant on source
* color.
* @CAIRO_OPERATOR_DIFFERENCE: Takes the difference of the source and
* destination color.
* @CAIRO_OPERATOR_EXCLUSION: Produces an effect similar to difference, but
* with lower contrast.
* @CAIRO_OPERATOR_HSL_HUE: Creates a color with the hue of the source
* and the saturation and luminosity of the target.
* @CAIRO_OPERATOR_HSL_SATURATION: Creates a color with the saturation
* of the source and the hue and luminosity of the target. Painting with
* this mode onto a gray area prduces no change.
* @CAIRO_OPERATOR_HSL_COLOR: Creates a color with the hue and saturation
* of the source and the luminosity of the target. This preserves the gray
* levels of the target and is useful for coloring monochrome images or
* tinting color images.
* @CAIRO_OPERATOR_HSL_LUMINOSITY: Creates a color with the luminosity of
* the source and the hue and saturation of the target. This produces an
* inverse effect to @CAIRO_OPERATOR_HSL_COLOR.
*
* #cairo_operator_t is used to set the compositing operator for all cairo
* drawing operations.
*
* The default operator is %CAIRO_OPERATOR_OVER.
*
* The operators marked as <firstterm>unbounded</firstterm> modify their
* destination even outside of the mask layer (that is, their effect is not
* bound by the mask layer). However, their effect can still be limited by
* way of clipping.
*
* To keep things simple, the operator descriptions here
* document the behavior for when both source and destination are either fully
* transparent or fully opaque. The actual implementation works for
* translucent layers too.
* For a more detailed explanation of the effects of each operator, including
* the mathematical definitions, see
* <ulink url="http://cairographics.org/operators/">http://cairographics.org/operators/</ulink>.
**/
typedef enum _cairo_operator {
CAIRO_OPERATOR_CLEAR,
CAIRO_OPERATOR_SOURCE,
CAIRO_OPERATOR_OVER,
CAIRO_OPERATOR_IN,
CAIRO_OPERATOR_OUT,
CAIRO_OPERATOR_ATOP,
CAIRO_OPERATOR_DEST,
CAIRO_OPERATOR_DEST_OVER,
CAIRO_OPERATOR_DEST_IN,
CAIRO_OPERATOR_DEST_OUT,
CAIRO_OPERATOR_DEST_ATOP,
CAIRO_OPERATOR_XOR,
CAIRO_OPERATOR_ADD,
CAIRO_OPERATOR_SATURATE,
CAIRO_OPERATOR_MULTIPLY,
CAIRO_OPERATOR_SCREEN,
CAIRO_OPERATOR_OVERLAY,
CAIRO_OPERATOR_DARKEN,
CAIRO_OPERATOR_LIGHTEN,
CAIRO_OPERATOR_COLOR_DODGE,
CAIRO_OPERATOR_COLOR_BURN,
CAIRO_OPERATOR_HARD_LIGHT,
CAIRO_OPERATOR_SOFT_LIGHT,
CAIRO_OPERATOR_DIFFERENCE,
CAIRO_OPERATOR_EXCLUSION,
CAIRO_OPERATOR_HSL_HUE,
CAIRO_OPERATOR_HSL_SATURATION,
CAIRO_OPERATOR_HSL_COLOR,
CAIRO_OPERATOR_HSL_LUMINOSITY
} cairo_operator_t;
cairo_public void
cairo_set_operator (cairo_t *cr, cairo_operator_t op);
cairo_public void
cairo_set_source (cairo_t *cr, cairo_pattern_t *source);
cairo_public void
cairo_set_source_rgb (cairo_t *cr, double red, double green, double blue);
cairo_public void
cairo_set_source_rgba (cairo_t *cr,
double red, double green, double blue,
double alpha);
cairo_public void
cairo_set_source_surface (cairo_t *cr,
cairo_surface_t *surface,
double x,
double y);
cairo_public void
cairo_set_tolerance (cairo_t *cr, double tolerance);
/**
* cairo_antialias_t:
* @CAIRO_ANTIALIAS_DEFAULT: Use the default antialiasing for
* the subsystem and target device
* @CAIRO_ANTIALIAS_NONE: Use a bilevel alpha mask
* @CAIRO_ANTIALIAS_GRAY: Perform single-color antialiasing (using
* shades of gray for black text on a white background, for example).
* @CAIRO_ANTIALIAS_SUBPIXEL: Perform antialiasing by taking
* advantage of the order of subpixel elements on devices
* such as LCD panels
*
* Specifies the type of antialiasing to do when rendering text or shapes.
**/
typedef enum _cairo_antialias {
CAIRO_ANTIALIAS_DEFAULT,
CAIRO_ANTIALIAS_NONE,
CAIRO_ANTIALIAS_GRAY,
CAIRO_ANTIALIAS_SUBPIXEL
} cairo_antialias_t;
cairo_public void
cairo_set_antialias (cairo_t *cr, cairo_antialias_t antialias);
/**
* cairo_fill_rule_t:
* @CAIRO_FILL_RULE_WINDING: If the path crosses the ray from
* left-to-right, counts +1. If the path crosses the ray
* from right to left, counts -1. (Left and right are determined
* from the perspective of looking along the ray from the starting
* point.) If the total count is non-zero, the point will be filled.
* @CAIRO_FILL_RULE_EVEN_ODD: Counts the total number of
* intersections, without regard to the orientation of the contour. If
* the total number of intersections is odd, the point will be
* filled.
*
* #cairo_fill_rule_t is used to select how paths are filled. For both
* fill rules, whether or not a point is included in the fill is
* determined by taking a ray from that point to infinity and looking
* at intersections with the path. The ray can be in any direction,
* as long as it doesn't pass through the end point of a segment
* or have a tricky intersection such as intersecting tangent to the path.
* (Note that filling is not actually implemented in this way. This
* is just a description of the rule that is applied.)
*
* The default fill rule is %CAIRO_FILL_RULE_WINDING.
*
* New entries may be added in future versions.
**/
typedef enum _cairo_fill_rule {
CAIRO_FILL_RULE_WINDING,
CAIRO_FILL_RULE_EVEN_ODD
} cairo_fill_rule_t;
cairo_public void
cairo_set_fill_rule (cairo_t *cr, cairo_fill_rule_t fill_rule);
cairo_public void
cairo_set_line_width (cairo_t *cr, double width);
/**
* cairo_line_cap_t:
* @CAIRO_LINE_CAP_BUTT: start(stop) the line exactly at the start(end) point
* @CAIRO_LINE_CAP_ROUND: use a round ending, the center of the circle is the end point
* @CAIRO_LINE_CAP_SQUARE: use squared ending, the center of the square is the end point
*
* Specifies how to render the endpoints of the path when stroking.
*
* The default line cap style is %CAIRO_LINE_CAP_BUTT.
**/
typedef enum _cairo_line_cap {
CAIRO_LINE_CAP_BUTT,
CAIRO_LINE_CAP_ROUND,
CAIRO_LINE_CAP_SQUARE
} cairo_line_cap_t;
cairo_public void
cairo_set_line_cap (cairo_t *cr, cairo_line_cap_t line_cap);
/**
* cairo_line_join_t:
* @CAIRO_LINE_JOIN_MITER: use a sharp (angled) corner, see
* cairo_set_miter_limit()
* @CAIRO_LINE_JOIN_ROUND: use a rounded join, the center of the circle is the
* joint point
* @CAIRO_LINE_JOIN_BEVEL: use a cut-off join, the join is cut off at half
* the line width from the joint point
*
* Specifies how to render the junction of two lines when stroking.
*
* The default line join style is %CAIRO_LINE_JOIN_MITER.
**/
typedef enum _cairo_line_join {
CAIRO_LINE_JOIN_MITER,
CAIRO_LINE_JOIN_ROUND,
CAIRO_LINE_JOIN_BEVEL
} cairo_line_join_t;
cairo_public void
cairo_set_line_join (cairo_t *cr, cairo_line_join_t line_join);
cairo_public void
cairo_set_dash (cairo_t *cr,
const double *dashes,
int num_dashes,
double offset);
cairo_public void
cairo_set_miter_limit (cairo_t *cr, double limit);
cairo_public void
cairo_translate (cairo_t *cr, double tx, double ty);
cairo_public void
cairo_scale (cairo_t *cr, double sx, double sy);
cairo_public void
cairo_rotate (cairo_t *cr, double angle);
cairo_public void
cairo_transform (cairo_t *cr,
const cairo_matrix_t *matrix);
cairo_public void
cairo_set_matrix (cairo_t *cr,
const cairo_matrix_t *matrix);
cairo_public void
cairo_identity_matrix (cairo_t *cr);
cairo_public void
cairo_user_to_device (cairo_t *cr, double *x, double *y);
cairo_public void
cairo_user_to_device_distance (cairo_t *cr, double *dx, double *dy);
cairo_public void
cairo_device_to_user (cairo_t *cr, double *x, double *y);
cairo_public void
cairo_device_to_user_distance (cairo_t *cr, double *dx, double *dy);
/* Path creation functions */
cairo_public void
cairo_new_path (cairo_t *cr);
cairo_public void
cairo_move_to (cairo_t *cr, double x, double y);
cairo_public void
cairo_new_sub_path (cairo_t *cr);
cairo_public void
cairo_line_to (cairo_t *cr, double x, double y);
cairo_public void
cairo_curve_to (cairo_t *cr,
double x1, double y1,
double x2, double y2,
double x3, double y3);
cairo_public void
cairo_arc (cairo_t *cr,
double xc, double yc,
double radius,
double angle1, double angle2);
cairo_public void
cairo_arc_negative (cairo_t *cr,
double xc, double yc,
double radius,
double angle1, double angle2);
/* XXX: NYI
cairo_public void
cairo_arc_to (cairo_t *cr,
double x1, double y1,
double x2, double y2,
double radius);
*/
cairo_public void
cairo_rel_move_to (cairo_t *cr, double dx, double dy);
cairo_public void
cairo_rel_line_to (cairo_t *cr, double dx, double dy);
cairo_public void
cairo_rel_curve_to (cairo_t *cr,
double dx1, double dy1,
double dx2, double dy2,
double dx3, double dy3);
cairo_public void
cairo_rectangle (cairo_t *cr,
double x, double y,
double width, double height);
/* XXX: NYI
cairo_public void
cairo_stroke_to_path (cairo_t *cr);
*/
cairo_public void
cairo_close_path (cairo_t *cr);
cairo_public void
cairo_path_extents (cairo_t *cr,
double *x1, double *y1,
double *x2, double *y2);
/* Painting functions */
cairo_public void
cairo_paint (cairo_t *cr);
cairo_public void
cairo_paint_with_alpha (cairo_t *cr,
double alpha);
cairo_public void
cairo_mask (cairo_t *cr,
cairo_pattern_t *pattern);
cairo_public void
cairo_mask_surface (cairo_t *cr,
cairo_surface_t *surface,
double surface_x,
double surface_y);
cairo_public void
cairo_stroke (cairo_t *cr);
cairo_public void
cairo_stroke_preserve (cairo_t *cr);
cairo_public void
cairo_fill (cairo_t *cr);
cairo_public void
cairo_fill_preserve (cairo_t *cr);
cairo_public void
cairo_copy_page (cairo_t *cr);
cairo_public void
cairo_show_page (cairo_t *cr);
/* Insideness testing */
cairo_public cairo_bool_t
cairo_in_stroke (cairo_t *cr, double x, double y);
cairo_public cairo_bool_t
cairo_in_fill (cairo_t *cr, double x, double y);
cairo_public cairo_bool_t
cairo_in_clip (cairo_t *cr, double x, double y);
/* Rectangular extents */
cairo_public void
cairo_stroke_extents (cairo_t *cr,
double *x1, double *y1,
double *x2, double *y2);
cairo_public void
cairo_fill_extents (cairo_t *cr,
double *x1, double *y1,
double *x2, double *y2);
/* Clipping */
cairo_public void
cairo_reset_clip (cairo_t *cr);
cairo_public void
cairo_clip (cairo_t *cr);
cairo_public void
cairo_clip_preserve (cairo_t *cr);
cairo_public void
cairo_clip_extents (cairo_t *cr,
double *x1, double *y1,
double *x2, double *y2);
/**
* cairo_rectangle_t:
* @x: X coordinate of the left side of the rectangle
* @y: Y coordinate of the the top side of the rectangle
* @width: width of the rectangle
* @height: height of the rectangle
*
* A data structure for holding a rectangle.
*
* Since: 1.4
**/
typedef struct _cairo_rectangle {
double x, y, width, height;
} cairo_rectangle_t;
/**
* cairo_rectangle_list_t:
* @status: Error status of the rectangle list
* @rectangles: Array containing the rectangles
* @num_rectangles: Number of rectangles in this list
*
* A data structure for holding a dynamically allocated
* array of rectangles.
*
* Since: 1.4
**/
typedef struct _cairo_rectangle_list {
cairo_status_t status;
cairo_rectangle_t *rectangles;
int num_rectangles;
} cairo_rectangle_list_t;
cairo_public cairo_rectangle_list_t *
cairo_copy_clip_rectangle_list (cairo_t *cr);
cairo_public void
cairo_rectangle_list_destroy (cairo_rectangle_list_t *rectangle_list);
/* Font/Text functions */
/**
* cairo_scaled_font_t:
*
* A #cairo_scaled_font_t is a font scaled to a particular size and device
* resolution. A #cairo_scaled_font_t is most useful for low-level font
* usage where a library or application wants to cache a reference
* to a scaled font to speed up the computation of metrics.
*
* There are various types of scaled fonts, depending on the
* <firstterm>font backend</firstterm> they use. The type of a
* scaled font can be queried using cairo_scaled_font_get_type().
*
* Memory management of #cairo_scaled_font_t is done with
* cairo_scaled_font_reference() and cairo_scaled_font_destroy().
**/
typedef struct _cairo_scaled_font cairo_scaled_font_t;
/**
* cairo_font_face_t:
*
* A #cairo_font_face_t specifies all aspects of a font other
* than the size or font matrix (a font matrix is used to distort
* a font by sheering it or scaling it unequally in the two
* directions) . A font face can be set on a #cairo_t by using
* cairo_set_font_face(); the size and font matrix are set with
* cairo_set_font_size() and cairo_set_font_matrix().
*
* There are various types of font faces, depending on the
* <firstterm>font backend</firstterm> they use. The type of a
* font face can be queried using cairo_font_face_get_type().
*
* Memory management of #cairo_font_face_t is done with
* cairo_font_face_reference() and cairo_font_face_destroy().
**/
typedef struct _cairo_font_face cairo_font_face_t;
/**
* cairo_glyph_t:
* @index: glyph index in the font. The exact interpretation of the
* glyph index depends on the font technology being used.
* @x: the offset in the X direction between the origin used for
* drawing or measuring the string and the origin of this glyph.
* @y: the offset in the Y direction between the origin used for
* drawing or measuring the string and the origin of this glyph.
*
* The #cairo_glyph_t structure holds information about a single glyph
* when drawing or measuring text. A font is (in simple terms) a
* collection of shapes used to draw text. A glyph is one of these
* shapes. There can be multiple glyphs for a single character
* (alternates to be used in different contexts, for example), or a
* glyph can be a <firstterm>ligature</firstterm> of multiple
* characters. Cairo doesn't expose any way of converting input text
* into glyphs, so in order to use the Cairo interfaces that take
* arrays of glyphs, you must directly access the appropriate
* underlying font system.
*
* Note that the offsets given by @x and @y are not cumulative. When
* drawing or measuring text, each glyph is individually positioned
* with respect to the overall origin
**/
typedef struct {
unsigned long index;
double x;
double y;
} cairo_glyph_t;
cairo_public cairo_glyph_t *
cairo_glyph_allocate (int num_glyphs);
cairo_public void
cairo_glyph_free (cairo_glyph_t *glyphs);
/**
* cairo_text_cluster_t:
* @num_bytes: the number of bytes of UTF-8 text covered by cluster
* @num_glyphs: the number of glyphs covered by cluster
*
* The #cairo_text_cluster_t structure holds information about a single
* <firstterm>text cluster</firstterm>. A text cluster is a minimal
* mapping of some glyphs corresponding to some UTF-8 text.
*
* For a cluster to be valid, both @num_bytes and @num_glyphs should
* be non-negative, and at least one should be non-zero.
* Note that clusters with zero glyphs are not as well supported as
* normal clusters. For example, PDF rendering applications typically
* ignore those clusters when PDF text is being selected.
*
* See cairo_show_text_glyphs() for how clusters are used in advanced
* text operations.
*
* Since: 1.8
**/
typedef struct {
int num_bytes;
int num_glyphs;
} cairo_text_cluster_t;
cairo_public cairo_text_cluster_t *
cairo_text_cluster_allocate (int num_clusters);
cairo_public void
cairo_text_cluster_free (cairo_text_cluster_t *clusters);
/**
* cairo_text_cluster_flags_t:
* @CAIRO_TEXT_CLUSTER_FLAG_BACKWARD: The clusters in the cluster array
* map to glyphs in the glyph array from end to start.
*
* Specifies properties of a text cluster mapping.
*
* Since: 1.8
**/
typedef enum _cairo_text_cluster_flags {
CAIRO_TEXT_CLUSTER_FLAG_BACKWARD = 0x00000001
} cairo_text_cluster_flags_t;
/**
* cairo_text_extents_t:
* @x_bearing: the horizontal distance from the origin to the
* leftmost part of the glyphs as drawn. Positive if the
* glyphs lie entirely to the right of the origin.
* @y_bearing: the vertical distance from the origin to the
* topmost part of the glyphs as drawn. Positive only if the
* glyphs lie completely below the origin; will usually be
* negative.
* @width: width of the glyphs as drawn
* @height: height of the glyphs as drawn
* @x_advance:distance to advance in the X direction
* after drawing these glyphs
* @y_advance: distance to advance in the Y direction
* after drawing these glyphs. Will typically be zero except
* for vertical text layout as found in East-Asian languages.
*
* The #cairo_text_extents_t structure stores the extents of a single
* glyph or a string of glyphs in user-space coordinates. Because text
* extents are in user-space coordinates, they are mostly, but not
* entirely, independent of the current transformation matrix. If you call
* <literal>cairo_scale(cr, 2.0, 2.0)</literal>, text will
* be drawn twice as big, but the reported text extents will not be
* doubled. They will change slightly due to hinting (so you can't
* assume that metrics are independent of the transformation matrix),
* but otherwise will remain unchanged.
**/
typedef struct {
double x_bearing;
double y_bearing;
double width;
double height;
double x_advance;
double y_advance;
} cairo_text_extents_t;
/**
* cairo_font_extents_t:
* @ascent: the distance that the font extends above the baseline.
* Note that this is not always exactly equal to the maximum
* of the extents of all the glyphs in the font, but rather
* is picked to express the font designer's intent as to
* how the font should align with elements above it.
* @descent: the distance that the font extends below the baseline.
* This value is positive for typical fonts that include
* portions below the baseline. Note that this is not always
* exactly equal to the maximum of the extents of all the
* glyphs in the font, but rather is picked to express the
* font designer's intent as to how the the font should
* align with elements below it.
* @height: the recommended vertical distance between baselines when
* setting consecutive lines of text with the font. This
* is greater than @ascent+@descent by a
* quantity known as the <firstterm>line spacing</firstterm>
* or <firstterm>external leading</firstterm>. When space
* is at a premium, most fonts can be set with only
* a distance of @ascent+@descent between lines.
* @max_x_advance: the maximum distance in the X direction that
* the the origin is advanced for any glyph in the font.
* @max_y_advance: the maximum distance in the Y direction that
* the the origin is advanced for any glyph in the font.
* this will be zero for normal fonts used for horizontal
* writing. (The scripts of East Asia are sometimes written
* vertically.)
*
* The #cairo_font_extents_t structure stores metric information for
* a font. Values are given in the current user-space coordinate
* system.
*
* Because font metrics are in user-space coordinates, they are
* mostly, but not entirely, independent of the current transformation
* matrix. If you call <literal>cairo_scale(cr, 2.0, 2.0)</literal>,
* text will be drawn twice as big, but the reported text extents will
* not be doubled. They will change slightly due to hinting (so you
* can't assume that metrics are independent of the transformation
* matrix), but otherwise will remain unchanged.
**/
typedef struct {
double ascent;
double descent;
double height;
double max_x_advance;
double max_y_advance;
} cairo_font_extents_t;
/**
* cairo_font_slant_t:
* @CAIRO_FONT_SLANT_NORMAL: Upright font style
* @CAIRO_FONT_SLANT_ITALIC: Italic font style
* @CAIRO_FONT_SLANT_OBLIQUE: Oblique font style
*
* Specifies variants of a font face based on their slant.
**/
typedef enum _cairo_font_slant {
CAIRO_FONT_SLANT_NORMAL,
CAIRO_FONT_SLANT_ITALIC,
CAIRO_FONT_SLANT_OBLIQUE
} cairo_font_slant_t;
/**
* cairo_font_weight_t:
* @CAIRO_FONT_WEIGHT_NORMAL: Normal font weight
* @CAIRO_FONT_WEIGHT_BOLD: Bold font weight
*
* Specifies variants of a font face based on their weight.
**/
typedef enum _cairo_font_weight {
CAIRO_FONT_WEIGHT_NORMAL,
CAIRO_FONT_WEIGHT_BOLD
} cairo_font_weight_t;
/**
* cairo_subpixel_order_t:
* @CAIRO_SUBPIXEL_ORDER_DEFAULT: Use the default subpixel order for
* for the target device
* @CAIRO_SUBPIXEL_ORDER_RGB: Subpixel elements are arranged horizontally
* with red at the left
* @CAIRO_SUBPIXEL_ORDER_BGR: Subpixel elements are arranged horizontally
* with blue at the left
* @CAIRO_SUBPIXEL_ORDER_VRGB: Subpixel elements are arranged vertically
* with red at the top
* @CAIRO_SUBPIXEL_ORDER_VBGR: Subpixel elements are arranged vertically
* with blue at the top
*
* The subpixel order specifies the order of color elements within
* each pixel on the display device when rendering with an
* antialiasing mode of %CAIRO_ANTIALIAS_SUBPIXEL.
**/
typedef enum _cairo_subpixel_order {
CAIRO_SUBPIXEL_ORDER_DEFAULT,
CAIRO_SUBPIXEL_ORDER_RGB,
CAIRO_SUBPIXEL_ORDER_BGR,
CAIRO_SUBPIXEL_ORDER_VRGB,
CAIRO_SUBPIXEL_ORDER_VBGR
} cairo_subpixel_order_t;
/**
* cairo_hint_style_t:
* @CAIRO_HINT_STYLE_DEFAULT: Use the default hint style for
* font backend and target device
* @CAIRO_HINT_STYLE_NONE: Do not hint outlines
* @CAIRO_HINT_STYLE_SLIGHT: Hint outlines slightly to improve
* contrast while retaining good fidelity to the original
* shapes.
* @CAIRO_HINT_STYLE_MEDIUM: Hint outlines with medium strength
* giving a compromise between fidelity to the original shapes
* and contrast
* @CAIRO_HINT_STYLE_FULL: Hint outlines to maximize contrast
*
* Specifies the type of hinting to do on font outlines. Hinting
* is the process of fitting outlines to the pixel grid in order
* to improve the appearance of the result. Since hinting outlines
* involves distorting them, it also reduces the faithfulness
* to the original outline shapes. Not all of the outline hinting
* styles are supported by all font backends.
*
* New entries may be added in future versions.
**/
typedef enum _cairo_hint_style {
CAIRO_HINT_STYLE_DEFAULT,
CAIRO_HINT_STYLE_NONE,
CAIRO_HINT_STYLE_SLIGHT,
CAIRO_HINT_STYLE_MEDIUM,
CAIRO_HINT_STYLE_FULL
} cairo_hint_style_t;
/**
* cairo_hint_metrics_t:
* @CAIRO_HINT_METRICS_DEFAULT: Hint metrics in the default
* manner for the font backend and target device
* @CAIRO_HINT_METRICS_OFF: Do not hint font metrics
* @CAIRO_HINT_METRICS_ON: Hint font metrics
*
* Specifies whether to hint font metrics; hinting font metrics
* means quantizing them so that they are integer values in
* device space. Doing this improves the consistency of
* letter and line spacing, however it also means that text
* will be laid out differently at different zoom factors.
**/
typedef enum _cairo_hint_metrics {
CAIRO_HINT_METRICS_DEFAULT,
CAIRO_HINT_METRICS_OFF,
CAIRO_HINT_METRICS_ON
} cairo_hint_metrics_t;
/**
* cairo_font_options_t:
*
* An opaque structure holding all options that are used when
* rendering fonts.
*
* Individual features of a #cairo_font_options_t can be set or
* accessed using functions named
* cairo_font_options_set_<emphasis>feature_name</emphasis> and
* cairo_font_options_get_<emphasis>feature_name</emphasis>, like
* cairo_font_options_set_antialias() and
* cairo_font_options_get_antialias().
*
* New features may be added to a #cairo_font_options_t in the
* future. For this reason, cairo_font_options_copy(),
* cairo_font_options_equal(), cairo_font_options_merge(), and
* cairo_font_options_hash() should be used to copy, check
* for equality, merge, or compute a hash value of
* #cairo_font_options_t objects.
**/
typedef struct _cairo_font_options cairo_font_options_t;
cairo_public cairo_font_options_t *
cairo_font_options_create (void);
cairo_public cairo_font_options_t *
cairo_font_options_copy (const cairo_font_options_t *original);
cairo_public void
cairo_font_options_destroy (cairo_font_options_t *options);
cairo_public cairo_status_t
cairo_font_options_status (cairo_font_options_t *options);
cairo_public void
cairo_font_options_merge (cairo_font_options_t *options,
const cairo_font_options_t *other);
cairo_public cairo_bool_t
cairo_font_options_equal (const cairo_font_options_t *options,
const cairo_font_options_t *other);
cairo_public unsigned long
cairo_font_options_hash (const cairo_font_options_t *options);
cairo_public void
cairo_font_options_set_antialias (cairo_font_options_t *options,
cairo_antialias_t antialias);
cairo_public cairo_antialias_t
cairo_font_options_get_antialias (const cairo_font_options_t *options);
cairo_public void
cairo_font_options_set_subpixel_order (cairo_font_options_t *options,
cairo_subpixel_order_t subpixel_order);
cairo_public cairo_subpixel_order_t
cairo_font_options_get_subpixel_order (const cairo_font_options_t *options);
cairo_public void
cairo_font_options_set_hint_style (cairo_font_options_t *options,
cairo_hint_style_t hint_style);
cairo_public cairo_hint_style_t
cairo_font_options_get_hint_style (const cairo_font_options_t *options);
cairo_public void
cairo_font_options_set_hint_metrics (cairo_font_options_t *options,
cairo_hint_metrics_t hint_metrics);
cairo_public cairo_hint_metrics_t
cairo_font_options_get_hint_metrics (const cairo_font_options_t *options);
/* This interface is for dealing with text as text, not caring about the
font object inside the the cairo_t. */
cairo_public void
cairo_select_font_face (cairo_t *cr,
const char *family,
cairo_font_slant_t slant,
cairo_font_weight_t weight);
cairo_public void
cairo_set_font_size (cairo_t *cr, double size);
cairo_public void
cairo_set_font_matrix (cairo_t *cr,
const cairo_matrix_t *matrix);
cairo_public void
cairo_get_font_matrix (cairo_t *cr,
cairo_matrix_t *matrix);
cairo_public void
cairo_set_font_options (cairo_t *cr,
const cairo_font_options_t *options);
cairo_public void
cairo_get_font_options (cairo_t *cr,
cairo_font_options_t *options);
cairo_public void
cairo_set_font_face (cairo_t *cr, cairo_font_face_t *font_face);
cairo_public cairo_font_face_t *
cairo_get_font_face (cairo_t *cr);
cairo_public void
cairo_set_scaled_font (cairo_t *cr,
const cairo_scaled_font_t *scaled_font);
cairo_public cairo_scaled_font_t *
cairo_get_scaled_font (cairo_t *cr);
cairo_public void
cairo_show_text (cairo_t *cr, const char *utf8);
cairo_public void
cairo_show_glyphs (cairo_t *cr, const cairo_glyph_t *glyphs, int num_glyphs);
cairo_public void
cairo_show_text_glyphs (cairo_t *cr,
const char *utf8,
int utf8_len,
const cairo_glyph_t *glyphs,
int num_glyphs,
const cairo_text_cluster_t *clusters,
int num_clusters,
cairo_text_cluster_flags_t cluster_flags);
cairo_public void
cairo_text_path (cairo_t *cr, const char *utf8);
cairo_public void
cairo_glyph_path (cairo_t *cr, const cairo_glyph_t *glyphs, int num_glyphs);
cairo_public void
cairo_text_extents (cairo_t *cr,
const char *utf8,
cairo_text_extents_t *extents);
cairo_public void
cairo_glyph_extents (cairo_t *cr,
const cairo_glyph_t *glyphs,
int num_glyphs,
cairo_text_extents_t *extents);
cairo_public void
cairo_font_extents (cairo_t *cr,
cairo_font_extents_t *extents);
/* Generic identifier for a font style */
cairo_public cairo_font_face_t *
cairo_font_face_reference (cairo_font_face_t *font_face);
cairo_public void
cairo_font_face_destroy (cairo_font_face_t *font_face);
cairo_public unsigned int
cairo_font_face_get_reference_count (cairo_font_face_t *font_face);
cairo_public cairo_status_t
cairo_font_face_status (cairo_font_face_t *font_face);
/**
* cairo_font_type_t:
* @CAIRO_FONT_TYPE_TOY: The font was created using cairo's toy font api
* @CAIRO_FONT_TYPE_FT: The font is of type FreeType
* @CAIRO_FONT_TYPE_WIN32: The font is of type Win32
* @CAIRO_FONT_TYPE_QUARTZ: The font is of type Quartz (Since: 1.6)
* @CAIRO_FONT_TYPE_USER: The font was create using cairo's user font api (Since: 1.8)
*
* #cairo_font_type_t is used to describe the type of a given font
* face or scaled font. The font types are also known as "font
* backends" within cairo.
*
* The type of a font face is determined by the function used to
* create it, which will generally be of the form
* cairo_<emphasis>type</emphasis>_font_face_create(). The font face type can be queried
* with cairo_font_face_get_type()
*
* The various #cairo_font_face_t functions can be used with a font face
* of any type.
*
* The type of a scaled font is determined by the type of the font
* face passed to cairo_scaled_font_create(). The scaled font type can
* be queried with cairo_scaled_font_get_type()
*
* The various #cairo_scaled_font_t functions can be used with scaled
* fonts of any type, but some font backends also provide
* type-specific functions that must only be called with a scaled font
* of the appropriate type. These functions have names that begin with
* cairo_<emphasis>type</emphasis>_scaled_font() such as cairo_ft_scaled_font_lock_face().
*
* The behavior of calling a type-specific function with a scaled font
* of the wrong type is undefined.
*
* New entries may be added in future versions.
*
* Since: 1.2
**/
typedef enum _cairo_font_type {
CAIRO_FONT_TYPE_TOY,
CAIRO_FONT_TYPE_FT,
CAIRO_FONT_TYPE_WIN32,
CAIRO_FONT_TYPE_QUARTZ,
CAIRO_FONT_TYPE_USER
} cairo_font_type_t;
cairo_public cairo_font_type_t
cairo_font_face_get_type (cairo_font_face_t *font_face);
cairo_public void *
cairo_font_face_get_user_data (cairo_font_face_t *font_face,
const cairo_user_data_key_t *key);
cairo_public cairo_status_t
cairo_font_face_set_user_data (cairo_font_face_t *font_face,
const cairo_user_data_key_t *key,
void *user_data,
cairo_destroy_func_t destroy);
/* Portable interface to general font features. */
cairo_public cairo_scaled_font_t *
cairo_scaled_font_create (cairo_font_face_t *font_face,
const cairo_matrix_t *font_matrix,
const cairo_matrix_t *ctm,
const cairo_font_options_t *options);
cairo_public cairo_scaled_font_t *
cairo_scaled_font_reference (cairo_scaled_font_t *scaled_font);
cairo_public void
cairo_scaled_font_destroy (cairo_scaled_font_t *scaled_font);
cairo_public unsigned int
cairo_scaled_font_get_reference_count (cairo_scaled_font_t *scaled_font);
cairo_public cairo_status_t
cairo_scaled_font_status (cairo_scaled_font_t *scaled_font);
cairo_public cairo_font_type_t
cairo_scaled_font_get_type (cairo_scaled_font_t *scaled_font);
cairo_public void *
cairo_scaled_font_get_user_data (cairo_scaled_font_t *scaled_font,
const cairo_user_data_key_t *key);
cairo_public cairo_status_t
cairo_scaled_font_set_user_data (cairo_scaled_font_t *scaled_font,
const cairo_user_data_key_t *key,
void *user_data,
cairo_destroy_func_t destroy);
cairo_public void
cairo_scaled_font_extents (cairo_scaled_font_t *scaled_font,
cairo_font_extents_t *extents);
cairo_public void
cairo_scaled_font_text_extents (cairo_scaled_font_t *scaled_font,
const char *utf8,
cairo_text_extents_t *extents);
cairo_public void
cairo_scaled_font_glyph_extents (cairo_scaled_font_t *scaled_font,
const cairo_glyph_t *glyphs,
int num_glyphs,
cairo_text_extents_t *extents);
cairo_public cairo_status_t
cairo_scaled_font_text_to_glyphs (cairo_scaled_font_t *scaled_font,
double x,
double y,
const char *utf8,
int utf8_len,
cairo_glyph_t **glyphs,
int *num_glyphs,
cairo_text_cluster_t **clusters,
int *num_clusters,
cairo_text_cluster_flags_t *cluster_flags);
cairo_public cairo_font_face_t *
cairo_scaled_font_get_font_face (cairo_scaled_font_t *scaled_font);
cairo_public void
cairo_scaled_font_get_font_matrix (cairo_scaled_font_t *scaled_font,
cairo_matrix_t *font_matrix);
cairo_public void
cairo_scaled_font_get_ctm (cairo_scaled_font_t *scaled_font,
cairo_matrix_t *ctm);
cairo_public void
cairo_scaled_font_get_scale_matrix (cairo_scaled_font_t *scaled_font,
cairo_matrix_t *scale_matrix);
cairo_public void
cairo_scaled_font_get_font_options (cairo_scaled_font_t *scaled_font,
cairo_font_options_t *options);
/* Toy fonts */
cairo_public cairo_font_face_t *
cairo_toy_font_face_create (const char *family,
cairo_font_slant_t slant,
cairo_font_weight_t weight);
cairo_public const char *
cairo_toy_font_face_get_family (cairo_font_face_t *font_face);
cairo_public cairo_font_slant_t
cairo_toy_font_face_get_slant (cairo_font_face_t *font_face);
cairo_public cairo_font_weight_t
cairo_toy_font_face_get_weight (cairo_font_face_t *font_face);
/* User fonts */
cairo_public cairo_font_face_t *
cairo_user_font_face_create (void);
/* User-font method signatures */
/**
* cairo_user_scaled_font_init_func_t:
* @scaled_font: the scaled-font being created
* @cr: a cairo context, in font space
* @extents: font extents to fill in, in font space
*
* #cairo_user_scaled_font_init_func_t is the type of function which is
* called when a scaled-font needs to be created for a user font-face.
*
* The cairo context @cr is not used by the caller, but is prepared in font
* space, similar to what the cairo contexts passed to the render_glyph
* method will look like. The callback can use this context for extents
* computation for example. After the callback is called, @cr is checked
* for any error status.
*
* The @extents argument is where the user font sets the font extents for
* @scaled_font. It is in font space, which means that for most cases its
* ascent and descent members should add to 1.0. @extents is preset to
* hold a value of 1.0 for ascent, height, and max_x_advance, and 0.0 for
* descent and max_y_advance members.
*
* The callback is optional. If not set, default font extents as described
* in the previous paragraph will be used.
*
* Note that @scaled_font is not fully initialized at this
* point and trying to use it for text operations in the callback will result
* in deadlock.
*
* Returns: %CAIRO_STATUS_SUCCESS upon success, or an error status on error.
*
* Since: 1.8
**/
typedef cairo_status_t (*cairo_user_scaled_font_init_func_t) (cairo_scaled_font_t *scaled_font,
cairo_t *cr,
cairo_font_extents_t *extents);
/**
* cairo_user_scaled_font_render_glyph_func_t:
* @scaled_font: user scaled-font
* @glyph: glyph code to render
* @cr: cairo context to draw to, in font space
* @extents: glyph extents to fill in, in font space
*
* #cairo_user_scaled_font_render_glyph_func_t is the type of function which
* is called when a user scaled-font needs to render a glyph.
*
* The callback is mandatory, and expected to draw the glyph with code @glyph to
* the cairo context @cr. @cr is prepared such that the glyph drawing is done in
* font space. That is, the matrix set on @cr is the scale matrix of @scaled_font,
* The @extents argument is where the user font sets the font extents for
* @scaled_font. However, if user prefers to draw in user space, they can
* achieve that by changing the matrix on @cr. All cairo rendering operations
* to @cr are permitted, however, the result is undefined if any source other
* than the default source on @cr is used. That means, glyph bitmaps should
* be rendered using cairo_mask() instead of cairo_paint().
*
* Other non-default settings on @cr include a font size of 1.0 (given that
* it is set up to be in font space), and font options corresponding to
* @scaled_font.
*
* The @extents argument is preset to have <literal>x_bearing</literal>,
* <literal>width</literal>, and <literal>y_advance</literal> of zero,
* <literal>y_bearing</literal> set to <literal>-font_extents.ascent</literal>,
* <literal>height</literal> to <literal>font_extents.ascent+font_extents.descent</literal>,
* and <literal>x_advance</literal> to <literal>font_extents.max_x_advance</literal>.
* The only field user needs to set in majority of cases is
* <literal>x_advance</literal>.
* If the <literal>width</literal> field is zero upon the callback returning
* (which is its preset value), the glyph extents are automatically computed
* based on the drawings done to @cr. This is in most cases exactly what the
* desired behavior is. However, if for any reason the callback sets the
* extents, it must be ink extents, and include the extents of all drawing
* done to @cr in the callback.
*
* Returns: %CAIRO_STATUS_SUCCESS upon success, or
* %CAIRO_STATUS_USER_FONT_ERROR or any other error status on error.
*
* Since: 1.8
**/
typedef cairo_status_t (*cairo_user_scaled_font_render_glyph_func_t) (cairo_scaled_font_t *scaled_font,
unsigned long glyph,
cairo_t *cr,
cairo_text_extents_t *extents);
/**
* cairo_user_scaled_font_text_to_glyphs_func_t:
* @scaled_font: the scaled-font being created
* @utf8: a string of text encoded in UTF-8
* @utf8_len: length of @utf8 in bytes
* @glyphs: pointer to array of glyphs to fill, in font space
* @num_glyphs: pointer to number of glyphs
* @clusters: pointer to array of cluster mapping information to fill, or %NULL
* @num_clusters: pointer to number of clusters
* @cluster_flags: pointer to location to store cluster flags corresponding to the
* output @clusters
*
* #cairo_user_scaled_font_text_to_glyphs_func_t is the type of function which
* is called to convert input text to an array of glyphs. This is used by the
* cairo_show_text() operation.
*
* Using this callback the user-font has full control on glyphs and their
* positions. That means, it allows for features like ligatures and kerning,
* as well as complex <firstterm>shaping</firstterm> required for scripts like
* Arabic and Indic.
*
* The @num_glyphs argument is preset to the number of glyph entries available
* in the @glyphs buffer. If the @glyphs buffer is %NULL, the value of
* @num_glyphs will be zero. If the provided glyph array is too short for
* the conversion (or for convenience), a new glyph array may be allocated
* using cairo_glyph_allocate() and placed in @glyphs. Upon return,
* @num_glyphs should contain the number of generated glyphs. If the value
* @glyphs points at has changed after the call, the caller will free the
* allocated glyph array using cairo_glyph_free().
* The callback should populate the glyph indices and positions (in font space)
* assuming that the text is to be shown at the origin.
*
* If @clusters is not %NULL, @num_clusters and @cluster_flags are also
* non-%NULL, and cluster mapping should be computed. The semantics of how
* cluster array allocation works is similar to the glyph array. That is,
* if @clusters initially points to a non-%NULL value, that array may be used
* as a cluster buffer, and @num_clusters points to the number of cluster
* entries available there. If the provided cluster array is too short for
* the conversion (or for convenience), a new cluster array may be allocated
* using cairo_text_cluster_allocate() and placed in @clusters. Upon return,
* @num_clusters should contain the number of generated clusters.
* If the value @clusters points at has changed after the call, the caller
* will free the allocated cluster array using cairo_text_cluster_free().
*
* The callback is optional. If @num_glyphs is negative upon
* the callback returning or if the return value
* is %CAIRO_STATUS_USER_FONT_NOT_IMPLEMENTED, the unicode_to_glyph callback
* is tried. See #cairo_user_scaled_font_unicode_to_glyph_func_t.
*
* Note: While cairo does not impose any limitation on glyph indices,
* some applications may assume that a glyph index fits in a 16-bit
* unsigned integer. As such, it is advised that user-fonts keep their
* glyphs in the 0 to 65535 range. Furthermore, some applications may
* assume that glyph 0 is a special glyph-not-found glyph. User-fonts
* are advised to use glyph 0 for such purposes and do not use that
* glyph value for other purposes.
*
* Returns: %CAIRO_STATUS_SUCCESS upon success,
* %CAIRO_STATUS_USER_FONT_NOT_IMPLEMENTED if fallback options should be tried,
* or %CAIRO_STATUS_USER_FONT_ERROR or any other error status on error.
*
* Since: 1.8
**/
typedef cairo_status_t (*cairo_user_scaled_font_text_to_glyphs_func_t) (cairo_scaled_font_t *scaled_font,
const char *utf8,
int utf8_len,
cairo_glyph_t **glyphs,
int *num_glyphs,
cairo_text_cluster_t **clusters,
int *num_clusters,
cairo_text_cluster_flags_t *cluster_flags);
/**
* cairo_user_scaled_font_unicode_to_glyph_func_t:
* @scaled_font: the scaled-font being created
* @unicode: input unicode character code-point
* @glyph_index: output glyph index
*
* #cairo_user_scaled_font_unicode_to_glyph_func_t is the type of function which
* is called to convert an input Unicode character to a single glyph.
* This is used by the cairo_show_text() operation.
*
* This callback is used to provide the same functionality as the
* text_to_glyphs callback does (see #cairo_user_scaled_font_text_to_glyphs_func_t)
* but has much less control on the output,
* in exchange for increased ease of use. The inherent assumption to using
* this callback is that each character maps to one glyph, and that the
* mapping is context independent. It also assumes that glyphs are positioned
* according to their advance width. These mean no ligatures, kerning, or
* complex scripts can be implemented using this callback.
*
* The callback is optional, and only used if text_to_glyphs callback is not
* set or fails to return glyphs. If this callback is not set or if it returns
* %CAIRO_STATUS_USER_FONT_NOT_IMPLEMENTED, an identity mapping from Unicode
* code-points to glyph indices is assumed.
*
* Note: While cairo does not impose any limitation on glyph indices,
* some applications may assume that a glyph index fits in a 16-bit
* unsigned integer. As such, it is advised that user-fonts keep their
* glyphs in the 0 to 65535 range. Furthermore, some applications may
* assume that glyph 0 is a special glyph-not-found glyph. User-fonts
* are advised to use glyph 0 for such purposes and do not use that
* glyph value for other purposes.
*
* Returns: %CAIRO_STATUS_SUCCESS upon success,
* %CAIRO_STATUS_USER_FONT_NOT_IMPLEMENTED if fallback options should be tried,
* or %CAIRO_STATUS_USER_FONT_ERROR or any other error status on error.
*
* Since: 1.8
**/
typedef cairo_status_t (*cairo_user_scaled_font_unicode_to_glyph_func_t) (cairo_scaled_font_t *scaled_font,
unsigned long unicode,
unsigned long *glyph_index);
/* User-font method setters */
cairo_public void
cairo_user_font_face_set_init_func (cairo_font_face_t *font_face,
cairo_user_scaled_font_init_func_t init_func);
cairo_public void
cairo_user_font_face_set_render_glyph_func (cairo_font_face_t *font_face,
cairo_user_scaled_font_render_glyph_func_t render_glyph_func);
cairo_public void
cairo_user_font_face_set_text_to_glyphs_func (cairo_font_face_t *font_face,
cairo_user_scaled_font_text_to_glyphs_func_t text_to_glyphs_func);
cairo_public void
cairo_user_font_face_set_unicode_to_glyph_func (cairo_font_face_t *font_face,
cairo_user_scaled_font_unicode_to_glyph_func_t unicode_to_glyph_func);
/* User-font method getters */
cairo_public cairo_user_scaled_font_init_func_t
cairo_user_font_face_get_init_func (cairo_font_face_t *font_face);
cairo_public cairo_user_scaled_font_render_glyph_func_t
cairo_user_font_face_get_render_glyph_func (cairo_font_face_t *font_face);
cairo_public cairo_user_scaled_font_text_to_glyphs_func_t
cairo_user_font_face_get_text_to_glyphs_func (cairo_font_face_t *font_face);
cairo_public cairo_user_scaled_font_unicode_to_glyph_func_t
cairo_user_font_face_get_unicode_to_glyph_func (cairo_font_face_t *font_face);
/* Query functions */
cairo_public cairo_operator_t
cairo_get_operator (cairo_t *cr);
cairo_public cairo_pattern_t *
cairo_get_source (cairo_t *cr);
cairo_public double
cairo_get_tolerance (cairo_t *cr);
cairo_public cairo_antialias_t
cairo_get_antialias (cairo_t *cr);
cairo_public cairo_bool_t
cairo_has_current_point (cairo_t *cr);
cairo_public void
cairo_get_current_point (cairo_t *cr, double *x, double *y);
cairo_public cairo_fill_rule_t
cairo_get_fill_rule (cairo_t *cr);
cairo_public double
cairo_get_line_width (cairo_t *cr);
cairo_public cairo_line_cap_t
cairo_get_line_cap (cairo_t *cr);
cairo_public cairo_line_join_t
cairo_get_line_join (cairo_t *cr);
cairo_public double
cairo_get_miter_limit (cairo_t *cr);
cairo_public int
cairo_get_dash_count (cairo_t *cr);
cairo_public void
cairo_get_dash (cairo_t *cr, double *dashes, double *offset);
cairo_public void
cairo_get_matrix (cairo_t *cr, cairo_matrix_t *matrix);
cairo_public cairo_surface_t *
cairo_get_target (cairo_t *cr);
cairo_public cairo_surface_t *
cairo_get_group_target (cairo_t *cr);
/**
* cairo_path_data_type_t:
* @CAIRO_PATH_MOVE_TO: A move-to operation
* @CAIRO_PATH_LINE_TO: A line-to operation
* @CAIRO_PATH_CURVE_TO: A curve-to operation
* @CAIRO_PATH_CLOSE_PATH: A close-path operation
*
* #cairo_path_data_t is used to describe the type of one portion
* of a path when represented as a #cairo_path_t.
* See #cairo_path_data_t for details.
**/
typedef enum _cairo_path_data_type {
CAIRO_PATH_MOVE_TO,
CAIRO_PATH_LINE_TO,
CAIRO_PATH_CURVE_TO,
CAIRO_PATH_CLOSE_PATH
} cairo_path_data_type_t;
/**
* cairo_path_data_t:
*
* #cairo_path_data_t is used to represent the path data inside a
* #cairo_path_t.
*
* The data structure is designed to try to balance the demands of
* efficiency and ease-of-use. A path is represented as an array of
* #cairo_path_data_t, which is a union of headers and points.
*
* Each portion of the path is represented by one or more elements in
* the array, (one header followed by 0 or more points). The length
* value of the header is the number of array elements for the current
* portion including the header, (ie. length == 1 + # of points), and
* where the number of points for each element type is as follows:
*
* <programlisting>
* %CAIRO_PATH_MOVE_TO: 1 point
* %CAIRO_PATH_LINE_TO: 1 point
* %CAIRO_PATH_CURVE_TO: 3 points
* %CAIRO_PATH_CLOSE_PATH: 0 points
* </programlisting>
*
* The semantics and ordering of the coordinate values are consistent
* with cairo_move_to(), cairo_line_to(), cairo_curve_to(), and
* cairo_close_path().
*
* Here is sample code for iterating through a #cairo_path_t:
*
* <informalexample><programlisting>
* int i;
* cairo_path_t *path;
* cairo_path_data_t *data;
*
* path = cairo_copy_path (cr);
*
* for (i=0; i < path->num_data; i += path->data[i].header.length) {
* data = &path->data[i];
* switch (data->header.type) {
* case CAIRO_PATH_MOVE_TO:
* do_move_to_things (data[1].point.x, data[1].point.y);
* break;
* case CAIRO_PATH_LINE_TO:
* do_line_to_things (data[1].point.x, data[1].point.y);
* break;
* case CAIRO_PATH_CURVE_TO:
* do_curve_to_things (data[1].point.x, data[1].point.y,
* data[2].point.x, data[2].point.y,
* data[3].point.x, data[3].point.y);
* break;
* case CAIRO_PATH_CLOSE_PATH:
* do_close_path_things ();
* break;
* }
* }
* cairo_path_destroy (path);
* </programlisting></informalexample>
*
* As of cairo 1.4, cairo does not mind if there are more elements in
* a portion of the path than needed. Such elements can be used by
* users of the cairo API to hold extra values in the path data
* structure. For this reason, it is recommended that applications
* always use <literal>data->header.length</literal> to
* iterate over the path data, instead of hardcoding the number of
* elements for each element type.
**/
typedef union _cairo_path_data_t cairo_path_data_t;
union _cairo_path_data_t {
struct {
cairo_path_data_type_t type;
int length;
} header;
struct {
double x, y;
} point;
};
/**
* cairo_path_t:
* @status: the current error status
* @data: the elements in the path
* @num_data: the number of elements in the data array
*
* A data structure for holding a path. This data structure serves as
* the return value for cairo_copy_path() and
* cairo_copy_path_flat() as well the input value for
* cairo_append_path().
*
* See #cairo_path_data_t for hints on how to iterate over the
* actual data within the path.
*
* The num_data member gives the number of elements in the data
* array. This number is larger than the number of independent path
* portions (defined in #cairo_path_data_type_t), since the data
* includes both headers and coordinates for each portion.
**/
typedef struct cairo_path {
cairo_status_t status;
cairo_path_data_t *data;
int num_data;
} cairo_path_t;
cairo_public cairo_path_t *
cairo_copy_path (cairo_t *cr);
cairo_public cairo_path_t *
cairo_copy_path_flat (cairo_t *cr);
cairo_public void
cairo_append_path (cairo_t *cr,
const cairo_path_t *path);
cairo_public void
cairo_path_destroy (cairo_path_t *path);
/* Error status queries */
cairo_public cairo_status_t
cairo_status (cairo_t *cr);
cairo_public const char *
cairo_status_to_string (cairo_status_t status);
/* Surface manipulation */
cairo_public cairo_surface_t *
cairo_surface_create_similar (cairo_surface_t *other,
cairo_content_t content,
int width,
int height);
cairo_public cairo_surface_t *
cairo_surface_reference (cairo_surface_t *surface);
cairo_public void
cairo_surface_finish (cairo_surface_t *surface);
cairo_public void
cairo_surface_destroy (cairo_surface_t *surface);
cairo_public unsigned int
cairo_surface_get_reference_count (cairo_surface_t *surface);
cairo_public cairo_status_t
cairo_surface_status (cairo_surface_t *surface);
/**
* cairo_surface_type_t:
* @CAIRO_SURFACE_TYPE_IMAGE: The surface is of type image
* @CAIRO_SURFACE_TYPE_PDF: The surface is of type pdf
* @CAIRO_SURFACE_TYPE_PS: The surface is of type ps
* @CAIRO_SURFACE_TYPE_XLIB: The surface is of type xlib
* @CAIRO_SURFACE_TYPE_XCB: The surface is of type xcb
* @CAIRO_SURFACE_TYPE_GLITZ: The surface is of type glitz
* @CAIRO_SURFACE_TYPE_QUARTZ: The surface is of type quartz
* @CAIRO_SURFACE_TYPE_WIN32: The surface is of type win32
* @CAIRO_SURFACE_TYPE_BEOS: The surface is of type beos
* @CAIRO_SURFACE_TYPE_DIRECTFB: The surface is of type directfb
* @CAIRO_SURFACE_TYPE_SVG: The surface is of type svg
* @CAIRO_SURFACE_TYPE_OS2: The surface is of type os2
* @CAIRO_SURFACE_TYPE_WIN32_PRINTING: The surface is a win32 printing surface
* @CAIRO_SURFACE_TYPE_QUARTZ_IMAGE: The surface is of type quartz_image
* @CAIRO_SURFACE_TYPE_SCRIPT: The surface is of type script, since 1.10
* @CAIRO_SURFACE_TYPE_QT: The surface is of type Qt, since 1.10
* @CAIRO_SURFACE_TYPE_META: The surface is a meta-type, since 1.10
* @CAIRO_SURFACE_TYPE_VG: The surface is a OpenVG surface, since 1.10
* @CAIRO_SURFACE_TYPE_GL: The surface is of type OpenGL, since 1.10
* @CAIRO_SURFACE_TYPE_DRM: The surface is of type Direct Render Manager, since 1.10
* @CAIRO_SURFACE_TYPE_TEE: The surface is of type 'tee' (a multiplexing surface), since 1.10
* @CAIRO_SURFACE_TYPE_XML: The surface is of type XML (for debugging), since 1.10
* @CAIRO_SURFACE_TYPE_SKIA: The surface is of type Skia, since 1.10
*
* #cairo_surface_type_t is used to describe the type of a given
* surface. The surface types are also known as "backends" or "surface
* backends" within cairo.
*
* The type of a surface is determined by the function used to create
* it, which will generally be of the form cairo_<emphasis>type</emphasis>_surface_create(),
* (though see cairo_surface_create_similar() as well).
*
* The surface type can be queried with cairo_surface_get_type()
*
* The various #cairo_surface_t functions can be used with surfaces of
* any type, but some backends also provide type-specific functions
* that must only be called with a surface of the appropriate
* type. These functions have names that begin with
* cairo_<emphasis>type</emphasis>_surface<!-- --> such as cairo_image_surface_get_width().
*
* The behavior of calling a type-specific function with a surface of
* the wrong type is undefined.
*
* New entries may be added in future versions.
*
* Since: 1.2
**/
typedef enum _cairo_surface_type {
CAIRO_SURFACE_TYPE_IMAGE,
CAIRO_SURFACE_TYPE_PDF,
CAIRO_SURFACE_TYPE_PS,
CAIRO_SURFACE_TYPE_XLIB,
CAIRO_SURFACE_TYPE_XCB,
CAIRO_SURFACE_TYPE_GLITZ,
CAIRO_SURFACE_TYPE_QUARTZ,
CAIRO_SURFACE_TYPE_WIN32,
CAIRO_SURFACE_TYPE_BEOS,
CAIRO_SURFACE_TYPE_DIRECTFB,
CAIRO_SURFACE_TYPE_SVG,
CAIRO_SURFACE_TYPE_OS2,
CAIRO_SURFACE_TYPE_WIN32_PRINTING,
CAIRO_SURFACE_TYPE_QUARTZ_IMAGE,
CAIRO_SURFACE_TYPE_SCRIPT,
CAIRO_SURFACE_TYPE_QT,
CAIRO_SURFACE_TYPE_META,
CAIRO_SURFACE_TYPE_VG,
CAIRO_SURFACE_TYPE_GL,
CAIRO_SURFACE_TYPE_DRM,
CAIRO_SURFACE_TYPE_TEE,
CAIRO_SURFACE_TYPE_XML,
CAIRO_SURFACE_TYPE_SKIA
} cairo_surface_type_t;
cairo_public cairo_surface_type_t
cairo_surface_get_type (cairo_surface_t *surface);
cairo_public cairo_content_t
cairo_surface_get_content (cairo_surface_t *surface);
#if CAIRO_HAS_PNG_FUNCTIONS
cairo_public cairo_status_t
cairo_surface_write_to_png (cairo_surface_t *surface,
const char *filename);
cairo_public cairo_status_t
cairo_surface_write_to_png_stream (cairo_surface_t *surface,
cairo_write_func_t write_func,
void *closure);
#endif
cairo_public void *
cairo_surface_get_user_data (cairo_surface_t *surface,
const cairo_user_data_key_t *key);
cairo_public cairo_status_t
cairo_surface_set_user_data (cairo_surface_t *surface,
const cairo_user_data_key_t *key,
void *user_data,
cairo_destroy_func_t destroy);
#define CAIRO_MIME_TYPE_JPEG "image/jpeg"
#define CAIRO_MIME_TYPE_PNG "image/png"
#define CAIRO_MIME_TYPE_JP2 "image/jp2"
cairo_public void
cairo_surface_get_mime_data (cairo_surface_t *surface,
const char *mime_type,
const unsigned char **data,
unsigned int *length);
cairo_public cairo_status_t
cairo_surface_set_mime_data (cairo_surface_t *surface,
const char *mime_type,
const unsigned char *data,
unsigned int length,
cairo_destroy_func_t destroy,
void *closure);
cairo_public void
cairo_surface_get_font_options (cairo_surface_t *surface,
cairo_font_options_t *options);
cairo_public void
cairo_surface_flush (cairo_surface_t *surface);
cairo_public void
cairo_surface_mark_dirty (cairo_surface_t *surface);
cairo_public void
cairo_surface_mark_dirty_rectangle (cairo_surface_t *surface,
int x,
int y,
int width,
int height);
cairo_public void
cairo_surface_set_device_offset (cairo_surface_t *surface,
double x_offset,
double y_offset);
cairo_public void
cairo_surface_get_device_offset (cairo_surface_t *surface,
double *x_offset,
double *y_offset);
cairo_public void
cairo_surface_set_fallback_resolution (cairo_surface_t *surface,
double x_pixels_per_inch,
double y_pixels_per_inch);
cairo_public void
cairo_surface_get_fallback_resolution (cairo_surface_t *surface,
double *x_pixels_per_inch,
double *y_pixels_per_inch);
cairo_public void
cairo_surface_copy_page (cairo_surface_t *surface);
cairo_public void
cairo_surface_show_page (cairo_surface_t *surface);
cairo_public cairo_bool_t
cairo_surface_has_show_text_glyphs (cairo_surface_t *surface);
/* Image-surface functions */
/**
* cairo_format_t:
* @CAIRO_FORMAT_ARGB32: each pixel is a 32-bit quantity, with
* alpha in the upper 8 bits, then red, then green, then blue.
* The 32-bit quantities are stored native-endian. Pre-multiplied
* alpha is used. (That is, 50% transparent red is 0x80800000,
* not 0x80ff0000.)
* @CAIRO_FORMAT_RGB24: each pixel is a 32-bit quantity, with
* the upper 8 bits unused. Red, Green, and Blue are stored
* in the remaining 24 bits in that order.
* @CAIRO_FORMAT_A8: each pixel is a 8-bit quantity holding
* an alpha value.
* @CAIRO_FORMAT_A1: each pixel is a 1-bit quantity holding
* an alpha value. Pixels are packed together into 32-bit
* quantities. The ordering of the bits matches the
* endianess of the platform. On a big-endian machine, the
* first pixel is in the uppermost bit, on a little-endian
* machine the first pixel is in the least-significant bit.
* @CAIRO_FORMAT_RGB16_565: This format value is deprecated. It has
* never been properly implemented in cairo and should not be used
* by applications. (since 1.2)
*
* #cairo_format_t is used to identify the memory format of
* image data.
*
* New entries may be added in future versions.
**/
typedef enum _cairo_format {
CAIRO_FORMAT_ARGB32,
CAIRO_FORMAT_RGB24,
CAIRO_FORMAT_A8,
CAIRO_FORMAT_A1
/* The value of 4 is reserved by a deprecated enum value.
* The next format added must have an explicit value of 5.
CAIRO_FORMAT_RGB16_565 = 4,
*/
} cairo_format_t;
cairo_public cairo_surface_t *
cairo_image_surface_create (cairo_format_t format,
int width,
int height);
cairo_public int
cairo_format_stride_for_width (cairo_format_t format,
int width);
cairo_public cairo_surface_t *
cairo_image_surface_create_for_data (unsigned char *data,
cairo_format_t format,
int width,
int height,
int stride);
cairo_public unsigned char *
cairo_image_surface_get_data (cairo_surface_t *surface);
cairo_public cairo_format_t
cairo_image_surface_get_format (cairo_surface_t *surface);
cairo_public int
cairo_image_surface_get_width (cairo_surface_t *surface);
cairo_public int
cairo_image_surface_get_height (cairo_surface_t *surface);
cairo_public int
cairo_image_surface_get_stride (cairo_surface_t *surface);
#if CAIRO_HAS_PNG_FUNCTIONS
cairo_public cairo_surface_t *
cairo_image_surface_create_from_png (const char *filename);
cairo_public cairo_surface_t *
cairo_image_surface_create_from_png_stream (cairo_read_func_t read_func,
void *closure);
#endif
/* Meta-surface functions */
cairo_public cairo_surface_t *
cairo_meta_surface_create (cairo_content_t content,
const cairo_rectangle_t *extents);
cairo_public void
cairo_meta_surface_ink_extents (cairo_surface_t *surface,
double *x0,
double *y0,
double *width,
double *height);
cairo_public cairo_status_t
cairo_meta_surface_replay (cairo_surface_t *surface,
cairo_surface_t *target);
/* Tee-surface functions */
cairo_public cairo_surface_t *
cairo_tee_surface_create (cairo_surface_t *master);
cairo_public void
cairo_tee_surface_add (cairo_surface_t *surface,
cairo_surface_t *target);
cairo_public void
cairo_tee_surface_remove (cairo_surface_t *surface,
cairo_surface_t *target);
cairo_public cairo_surface_t *
cairo_tee_surface_index (cairo_surface_t *surface,
int index);
/* Pattern creation functions */
cairo_public cairo_pattern_t *
cairo_pattern_create_rgb (double red, double green, double blue);
cairo_public cairo_pattern_t *
cairo_pattern_create_rgba (double red, double green, double blue,
double alpha);
cairo_public cairo_pattern_t *
cairo_pattern_create_for_surface (cairo_surface_t *surface);
cairo_public cairo_pattern_t *
cairo_pattern_create_linear (double x0, double y0,
double x1, double y1);
cairo_public cairo_pattern_t *
cairo_pattern_create_radial (double cx0, double cy0, double radius0,
double cx1, double cy1, double radius1);
cairo_public cairo_pattern_t *
cairo_pattern_reference (cairo_pattern_t *pattern);
cairo_public void
cairo_pattern_destroy (cairo_pattern_t *pattern);
cairo_public unsigned int
cairo_pattern_get_reference_count (cairo_pattern_t *pattern);
cairo_public cairo_status_t
cairo_pattern_status (cairo_pattern_t *pattern);
cairo_public void *
cairo_pattern_get_user_data (cairo_pattern_t *pattern,
const cairo_user_data_key_t *key);
cairo_public cairo_status_t
cairo_pattern_set_user_data (cairo_pattern_t *pattern,
const cairo_user_data_key_t *key,
void *user_data,
cairo_destroy_func_t destroy);
/**
* cairo_pattern_type_t:
* @CAIRO_PATTERN_TYPE_SOLID: The pattern is a solid (uniform)
* color. It may be opaque or translucent.
* @CAIRO_PATTERN_TYPE_SURFACE: The pattern is a based on a surface (an image).
* @CAIRO_PATTERN_TYPE_LINEAR: The pattern is a linear gradient.
* @CAIRO_PATTERN_TYPE_RADIAL: The pattern is a radial gradient.
*
* #cairo_pattern_type_t is used to describe the type of a given pattern.
*
* The type of a pattern is determined by the function used to create
* it. The cairo_pattern_create_rgb() and cairo_pattern_create_rgba()
* functions create SOLID patterns. The remaining
* cairo_pattern_create<!-- --> functions map to pattern types in obvious
* ways.
*
* The pattern type can be queried with cairo_pattern_get_type()
*
* Most #cairo_pattern_t functions can be called with a pattern of any
* type, (though trying to change the extend or filter for a solid
* pattern will have no effect). A notable exception is
* cairo_pattern_add_color_stop_rgb() and
* cairo_pattern_add_color_stop_rgba() which must only be called with
* gradient patterns (either LINEAR or RADIAL). Otherwise the pattern
* will be shutdown and put into an error state.
*
* New entries may be added in future versions.
*
* Since: 1.2
**/
typedef enum _cairo_pattern_type {
CAIRO_PATTERN_TYPE_SOLID,
CAIRO_PATTERN_TYPE_SURFACE,
CAIRO_PATTERN_TYPE_LINEAR,
CAIRO_PATTERN_TYPE_RADIAL
} cairo_pattern_type_t;
cairo_public cairo_pattern_type_t
cairo_pattern_get_type (cairo_pattern_t *pattern);
cairo_public void
cairo_pattern_add_color_stop_rgb (cairo_pattern_t *pattern,
double offset,
double red, double green, double blue);
cairo_public void
cairo_pattern_add_color_stop_rgba (cairo_pattern_t *pattern,
double offset,
double red, double green, double blue,
double alpha);
cairo_public void
cairo_pattern_set_matrix (cairo_pattern_t *pattern,
const cairo_matrix_t *matrix);
cairo_public void
cairo_pattern_get_matrix (cairo_pattern_t *pattern,
cairo_matrix_t *matrix);
/**
* cairo_extend_t:
* @CAIRO_EXTEND_NONE: pixels outside of the source pattern
* are fully transparent
* @CAIRO_EXTEND_REPEAT: the pattern is tiled by repeating
* @CAIRO_EXTEND_REFLECT: the pattern is tiled by reflecting
* at the edges (Implemented for surface patterns since 1.6)
* @CAIRO_EXTEND_PAD: pixels outside of the pattern copy
* the closest pixel from the source (Since 1.2; but only
* implemented for surface patterns since 1.6)
*
* #cairo_extend_t is used to describe how pattern color/alpha will be
* determined for areas "outside" the pattern's natural area, (for
* example, outside the surface bounds or outside the gradient
* geometry).
*
* The default extend mode is %CAIRO_EXTEND_NONE for surface patterns
* and %CAIRO_EXTEND_PAD for gradient patterns.
*
* New entries may be added in future versions.
**/
typedef enum _cairo_extend {
CAIRO_EXTEND_NONE,
CAIRO_EXTEND_REPEAT,
CAIRO_EXTEND_REFLECT,
CAIRO_EXTEND_PAD
} cairo_extend_t;
cairo_public void
cairo_pattern_set_extend (cairo_pattern_t *pattern, cairo_extend_t extend);
cairo_public cairo_extend_t
cairo_pattern_get_extend (cairo_pattern_t *pattern);
/**
* cairo_filter_t:
* @CAIRO_FILTER_FAST: A high-performance filter, with quality similar
* to %CAIRO_FILTER_NEAREST
* @CAIRO_FILTER_GOOD: A reasonable-performance filter, with quality
* similar to %CAIRO_FILTER_BILINEAR
* @CAIRO_FILTER_BEST: The highest-quality available, performance may
* not be suitable for interactive use.
* @CAIRO_FILTER_NEAREST: Nearest-neighbor filtering
* @CAIRO_FILTER_BILINEAR: Linear interpolation in two dimensions
* @CAIRO_FILTER_GAUSSIAN: This filter value is currently
* unimplemented, and should not be used in current code.
*
* #cairo_filter_t is used to indicate what filtering should be
* applied when reading pixel values from patterns. See
* cairo_pattern_set_source() for indicating the desired filter to be
* used with a particular pattern.
*/
typedef enum _cairo_filter {
CAIRO_FILTER_FAST,
CAIRO_FILTER_GOOD,
CAIRO_FILTER_BEST,
CAIRO_FILTER_NEAREST,
CAIRO_FILTER_BILINEAR,
CAIRO_FILTER_GAUSSIAN
} cairo_filter_t;
cairo_public void
cairo_pattern_set_filter (cairo_pattern_t *pattern, cairo_filter_t filter);
cairo_public cairo_filter_t
cairo_pattern_get_filter (cairo_pattern_t *pattern);
cairo_public cairo_status_t
cairo_pattern_get_rgba (cairo_pattern_t *pattern,
double *red, double *green,
double *blue, double *alpha);
cairo_public cairo_status_t
cairo_pattern_get_surface (cairo_pattern_t *pattern,
cairo_surface_t **surface);
cairo_public cairo_status_t
cairo_pattern_get_color_stop_rgba (cairo_pattern_t *pattern,
int index, double *offset,
double *red, double *green,
double *blue, double *alpha);
cairo_public cairo_status_t
cairo_pattern_get_color_stop_count (cairo_pattern_t *pattern,
int *count);
cairo_public cairo_status_t
cairo_pattern_get_linear_points (cairo_pattern_t *pattern,
double *x0, double *y0,
double *x1, double *y1);
cairo_public cairo_status_t
cairo_pattern_get_radial_circles (cairo_pattern_t *pattern,
double *x0, double *y0, double *r0,
double *x1, double *y1, double *r1);
/* Matrix functions */
cairo_public void
cairo_matrix_init (cairo_matrix_t *matrix,
double xx, double yx,
double xy, double yy,
double x0, double y0);
cairo_public void
cairo_matrix_init_identity (cairo_matrix_t *matrix);
cairo_public void
cairo_matrix_init_translate (cairo_matrix_t *matrix,
double tx, double ty);
cairo_public void
cairo_matrix_init_scale (cairo_matrix_t *matrix,
double sx, double sy);
cairo_public void
cairo_matrix_init_rotate (cairo_matrix_t *matrix,
double radians);
cairo_public void
cairo_matrix_translate (cairo_matrix_t *matrix, double tx, double ty);
cairo_public void
cairo_matrix_scale (cairo_matrix_t *matrix, double sx, double sy);
cairo_public void
cairo_matrix_rotate (cairo_matrix_t *matrix, double radians);
cairo_public cairo_status_t
cairo_matrix_invert (cairo_matrix_t *matrix);
cairo_public void
cairo_matrix_multiply (cairo_matrix_t *result,
const cairo_matrix_t *a,
const cairo_matrix_t *b);
cairo_public void
cairo_matrix_transform_distance (const cairo_matrix_t *matrix,
double *dx, double *dy);
cairo_public void
cairo_matrix_transform_point (const cairo_matrix_t *matrix,
double *x, double *y);
/* Region functions */
typedef struct _cairo_region cairo_region_t;
typedef struct _cairo_rectangle_int {
int x, y;
int width, height;
} cairo_rectangle_int_t;
typedef enum _cairo_region_overlap {
CAIRO_REGION_OVERLAP_IN, /* completely inside region */
CAIRO_REGION_OVERLAP_OUT, /* completely outside region */
CAIRO_REGION_OVERLAP_PART /* partly inside region */
} cairo_region_overlap_t;
cairo_public cairo_region_t *
cairo_region_create (void);
cairo_public cairo_region_t *
cairo_region_create_rectangle (const cairo_rectangle_int_t *rectangle);
cairo_public cairo_region_t *
cairo_region_create_rectangles (const cairo_rectangle_int_t *rects,
int count);
cairo_public cairo_region_t *
cairo_region_copy (const cairo_region_t *original);
cairo_public cairo_region_t *
cairo_region_reference (cairo_region_t *);
cairo_public void
cairo_region_destroy (cairo_region_t *region);
cairo_public cairo_bool_t
cairo_region_equal (const cairo_region_t *a, const cairo_region_t *b);
cairo_public cairo_status_t
cairo_region_status (const cairo_region_t *region);
cairo_public void
cairo_region_get_extents (const cairo_region_t *region,
cairo_rectangle_int_t *extents);
cairo_public int
cairo_region_num_rectangles (const cairo_region_t *region);
cairo_public void
cairo_region_get_rectangle (const cairo_region_t *region,
int nth_rectangle,
cairo_rectangle_int_t *rectangle);
cairo_public cairo_bool_t
cairo_region_is_empty (const cairo_region_t *region);
cairo_public cairo_region_overlap_t
cairo_region_contains_rectangle (const cairo_region_t *region,
const cairo_rectangle_int_t *rectangle);
cairo_public cairo_bool_t
cairo_region_contains_point (const cairo_region_t *region, int x, int y);
cairo_public void
cairo_region_translate (cairo_region_t *region, int dx, int dy);
cairo_public cairo_status_t
cairo_region_subtract (cairo_region_t *dst, const cairo_region_t *other);
cairo_public cairo_status_t
cairo_region_subtract_rectangle (cairo_region_t *dst,
const cairo_rectangle_int_t *rectangle);
cairo_public cairo_status_t
cairo_region_intersect (cairo_region_t *dst, cairo_region_t *other);
cairo_public cairo_status_t
cairo_region_intersect_rectangle (cairo_region_t *dst,
const cairo_rectangle_int_t *rectangle);
cairo_public cairo_status_t
cairo_region_union (cairo_region_t *dst, cairo_region_t *other);
cairo_public cairo_status_t
cairo_region_union_rectangle (cairo_region_t *dst,
const cairo_rectangle_int_t *rectangle);
/* Functions to be used while debugging (not intended for use in production code) */
cairo_public void
cairo_debug_reset_static_data (void);
CAIRO_END_DECLS
#endif /* CAIRO_H */
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