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/* cairo - a vector graphics library with display and print output
 *
 * Copyright © 2002 University of Southern California
 *
 * 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

#ifdef  __cplusplus
# define CAIRO_BEGIN_DECLS  extern "C" {
# define CAIRO_END_DECLS    }
#else
# define CAIRO_BEGIN_DECLS
# define CAIRO_END_DECLS
#endif

#include <cairo-features.h>
#include <pixman.h>

CAIRO_BEGIN_DECLS

/**
 * 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.
 **/
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. There are different subtypes of cairo_surface_t for
 * different drawing backends; for example, cairo_image_surface_create()
 * creates a bitmap image in memory.
 *
 * 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:
 *
 * A #cairo_matrix_t holds an affine transformation, such as a scale,
 * rotation, or shear, or a combination of those.
 **/
typedef struct _cairo_matrix cairo_matrix_t;
typedef struct _cairo_pattern cairo_pattern_t;

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_NO_TARGET_SURFACE,
    CAIRO_STATUS_NULL_POINTER,
    CAIRO_STATUS_INVALID_STRING,
    CAIRO_STATUS_INVALID_PATH_DATA,
    CAIRO_STATUS_WRITE_ERROR,
    CAIRO_STATUS_SURFACE_FINISHED
} cairo_status_t;

/* Functions for manipulating state objects */
cairo_t *
cairo_create (void);

void
cairo_reference (cairo_t *cr);

void
cairo_destroy (cairo_t *cr);

void
cairo_save (cairo_t *cr);

void
cairo_restore (cairo_t *cr);

/* XXX: Replace with cairo_get_gstate/cairo_set_gstate */
void
cairo_copy (cairo_t *dest, cairo_t *src);

/* XXX: I want to rethink this API
void
cairo_push_group (cairo_t *cr);

void
cairo_pop_group (cairo_t *cr);
*/

/* Modify state */
void
cairo_set_target_surface (cairo_t *cr, cairo_surface_t *surface);

/**
 * 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_t is used to identify the memory format of
 * image data.
 */
typedef enum cairo_format {
    CAIRO_FORMAT_ARGB32,
    CAIRO_FORMAT_RGB24,
    CAIRO_FORMAT_A8,
    CAIRO_FORMAT_A1
} cairo_format_t;

/* XXX: Need to add cairo_set_target_image_data */
void
cairo_set_target_image (cairo_t	*cr,
			char		*data,
			cairo_format_t	format,
			int		width,
			int		height,
			int		stride);

typedef enum cairo_operator { 
    CAIRO_OPERATOR_CLEAR,
    CAIRO_OPERATOR_SRC,
    CAIRO_OPERATOR_DST,
    CAIRO_OPERATOR_OVER,
    CAIRO_OPERATOR_OVER_REVERSE,
    CAIRO_OPERATOR_IN,
    CAIRO_OPERATOR_IN_REVERSE,
    CAIRO_OPERATOR_OUT,
    CAIRO_OPERATOR_OUT_REVERSE,
    CAIRO_OPERATOR_ATOP,
    CAIRO_OPERATOR_ATOP_REVERSE,
    CAIRO_OPERATOR_XOR,
    CAIRO_OPERATOR_ADD,
    CAIRO_OPERATOR_SATURATE
} cairo_operator_t;

void
cairo_set_operator (cairo_t *cr, cairo_operator_t op);

/* XXX: Probably want to bite the bullet and expose a cairo_color_t object */

/* XXX: I've been trying to come up with a sane way to specify:

   cairo_set_color (cairo_t *cr, cairo_color_t *color);

   Keith wants to be able to support super-luminescent colors,
   (premultiplied colors with R/G/B greater than alpha). The current
   API does not allow that. Adding a premulitplied RGBA cairo_color_t
   would do the trick.

   One problem though is that alpha is currently orthogonal to
   color. For example, show_surface uses gstate->alpha but ignores the
   color. So, it doesn't seem be right to have cairo_set_color modify
   the behavior of cairo_show_surface.
*/

void
cairo_set_rgb_color (cairo_t *cr, double red, double green, double blue);

void
cairo_set_pattern (cairo_t *cr, cairo_pattern_t *pattern);

void
cairo_set_alpha (cairo_t *cr, double alpha);

/* XXX: Currently, the tolerance value is specified by the user in
   terms of device-space units. If I'm not mistaken, this is the only
   value in this API that is not expressed in user-space units. I
   should think whether this value should be user-space instead. */
void
cairo_set_tolerance (cairo_t *cr, double tolerance);

/**
 * 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.)
 **/
typedef enum cairo_fill_rule {
    CAIRO_FILL_RULE_WINDING,
    CAIRO_FILL_RULE_EVEN_ODD
} cairo_fill_rule_t;

void
cairo_set_fill_rule (cairo_t *cr, cairo_fill_rule_t fill_rule);

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
 *
 * enumeration for style of line-endings
 **/
typedef enum cairo_line_cap {
    CAIRO_LINE_CAP_BUTT,
    CAIRO_LINE_CAP_ROUND,
    CAIRO_LINE_CAP_SQUARE
} cairo_line_cap_t;

void
cairo_set_line_cap (cairo_t *cr, cairo_line_cap_t line_cap);

typedef enum cairo_line_join {
    CAIRO_LINE_JOIN_MITER,
    CAIRO_LINE_JOIN_ROUND,
    CAIRO_LINE_JOIN_BEVEL
} cairo_line_join_t;

void
cairo_set_line_join (cairo_t *cr, cairo_line_join_t line_join);

void
cairo_set_dash (cairo_t *cr, double *dashes, int ndash, double offset);

void
cairo_set_miter_limit (cairo_t *cr, double limit);

void
cairo_translate (cairo_t *cr, double tx, double ty);

void
cairo_scale (cairo_t *cr, double sx, double sy);

void
cairo_rotate (cairo_t *cr, double angle);

void
cairo_transform (cairo_t *cr,
		 cairo_matrix_t *matrix);

void
cairo_set_matrix (cairo_t *cr,
		  cairo_matrix_t *matrix);

void
cairo_default_matrix (cairo_t *cr);

/* XXX: There's been a proposal to add cairo_default_matrix_exact */

void
cairo_identity_matrix (cairo_t *cr);

void
cairo_user_to_device (cairo_t *cr, double *x, double *y);

void
cairo_user_to_device_distance (cairo_t *cr, double *dx, double *dy);

void
cairo_device_to_user (cairo_t *cr, double *x, double *y);

void
cairo_device_to_user_distance (cairo_t *cr, double *dx, double *dy);

/* Path creation functions */
void
cairo_new_path (cairo_t *cr);

void
cairo_move_to (cairo_t *cr, double x, double y);

void
cairo_line_to (cairo_t *cr, double x, double y);

void
cairo_curve_to (cairo_t *cr,
		double x1, double y1,
		double x2, double y2,
		double x3, double y3);

void
cairo_arc (cairo_t *cr,
	   double xc, double yc,
	   double radius,
	   double angle1, double angle2);

void
cairo_arc_negative (cairo_t *cr,
		    double xc, double yc,
		    double radius,
		    double angle1, double angle2);

/* XXX: NYI
void
cairo_arc_to (cairo_t *cr,
	      double x1, double y1,
	      double x2, double y2,
	      double radius);
*/

void
cairo_rel_move_to (cairo_t *cr, double dx, double dy);

void
cairo_rel_line_to (cairo_t *cr, double dx, double dy);

void
cairo_rel_curve_to (cairo_t *cr,
		    double dx1, double dy1,
		    double dx2, double dy2,
		    double dx3, double dy3);

void
cairo_rectangle (cairo_t *cr,
		 double x, double y,
		 double width, double height);

/* XXX: This is the same name that PostScript uses, but to me the name
   suggests an actual drawing operation ala cairo_stroke --- especially
   since I want to add a cairo_path_t and with that it would be
   natural to have "cairo_stroke_path (cairo_t *, cairo_path_t *)"

   Maybe we could use something like "cairo_outline_path (cairo_t *)"? 
*/
/* XXX: NYI
void
cairo_stroke_path (cairo_t *cr);
*/

void
cairo_close_path (cairo_t *cr);

/* Painting functions */
void
cairo_stroke (cairo_t *cr);

void
cairo_fill (cairo_t *cr);

void
cairo_copy_page (cairo_t *cr);

void
cairo_show_page (cairo_t *cr);

/* Insideness testing */
cairo_bool_t
cairo_in_stroke (cairo_t *cr, double x, double y);

cairo_bool_t
cairo_in_fill (cairo_t *cr, double x, double y);

/* Rectangular extents */
void
cairo_stroke_extents (cairo_t *cr,
		      double *x1, double *y1,
		      double *x2, double *y2);

void
cairo_fill_extents (cairo_t *cr,
		    double *x1, double *y1,
		    double *x2, double *y2);

/* Clipping */
void
cairo_reset_clip (cairo_t *cr);

/* Note: cairo_clip does not consume the current path */
void
cairo_clip (cairo_t *cr);

/* Font/Text functions */

/**
 * cairo_font_t:
 *
 * A #cairo_font_t is a font scaled to a particular size and device
 * resolution. A font can be set on a #cairo_t by using
 * cairo_set_font() assuming that the current transformation and
 * target surface of the #cairo_t match that for which the
 * #cairo_font_t was created. The effect of using a mismatched
 * #cairo_font_t will be incorrect font metrics.
 */
typedef struct _cairo_font cairo_font_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_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 don't scale along with
 * 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;

typedef struct {
    double ascent;
    double descent;
    double height;
    double max_x_advance;
    double max_y_advance;
} cairo_font_extents_t;

typedef enum cairo_font_slant {
  CAIRO_FONT_SLANT_NORMAL,
  CAIRO_FONT_SLANT_ITALIC,
  CAIRO_FONT_SLANT_OBLIQUE
} cairo_font_slant_t;
  
typedef enum cairo_font_weight {
  CAIRO_FONT_WEIGHT_NORMAL,
  CAIRO_FONT_WEIGHT_BOLD
} cairo_font_weight_t;
  
/* This interface is for dealing with text as text, not caring about the
   font object inside the the cairo_t. */

void
cairo_select_font (cairo_t              *cr, 
		   const char           *family, 
		   cairo_font_slant_t   slant, 
		   cairo_font_weight_t  weight);

void
cairo_scale_font (cairo_t *cr, double scale);

void
cairo_transform_font (cairo_t *cr, cairo_matrix_t *matrix);

void
cairo_show_text (cairo_t *cr, const unsigned char *utf8);

void
cairo_show_glyphs (cairo_t *cr, cairo_glyph_t *glyphs, int num_glyphs);

cairo_font_t *
cairo_get_font (cairo_t *cr);

void
cairo_get_font_extents (cairo_t              *cr, 
			cairo_font_extents_t *extents);

void
cairo_set_font (cairo_t *cr, cairo_font_t *font);

void
cairo_text_extents (cairo_t                *cr,
		    const unsigned char    *utf8,
		    cairo_text_extents_t   *extents);

void
cairo_glyph_extents (cairo_t               *cr,
		     cairo_glyph_t         *glyphs, 
		     int                   num_glyphs,
		     cairo_text_extents_t  *extents);

void
cairo_text_path  (cairo_t *cr, const unsigned char *utf8);

void
cairo_glyph_path (cairo_t *cr, cairo_glyph_t *glyphs, int num_glyphs);

/* Portable interface to general font features. */
  
void
cairo_font_reference (cairo_font_t *font);

void
cairo_font_destroy (cairo_font_t *font);

cairo_status_t
cairo_font_extents (cairo_font_t         *font,
		    cairo_matrix_t       *font_matrix,
		    cairo_font_extents_t *extents);

void
cairo_font_glyph_extents (cairo_font_t          *font,
			  cairo_matrix_t        *font_matrix,
			  cairo_glyph_t         *glyphs, 
			  int                   num_glyphs,
			  cairo_text_extents_t  *extents);

/* Image functions */

/* XXX: Eliminate width/height here */
void
cairo_show_surface (cairo_t		*cr,
		    cairo_surface_t	*surface,
		    int		width,
		    int		height);

/* Query functions */

/* XXX: It would be nice if I could find a simpler way to make the
   definitions for the deprecated functions. Ideally, I would just
   have to put DEPRECATE (cairo_get_operator, cairo_current_operator)
   into one file and be done with it. For now, I've got a little more
   typing than that. */

cairo_operator_t
cairo_get_operator (cairo_t *cr);

void
cairo_get_rgb_color (cairo_t *cr, double *red, double *green, double *blue);
cairo_pattern_t *
cairo_get_pattern (cairo_t *cr);

double
cairo_get_alpha (cairo_t *cr);

/* XXX: Do we want cairo_get_pattern as well? */

double
cairo_get_tolerance (cairo_t *cr);

void
cairo_get_current_point (cairo_t *cr, double *x, double *y);

cairo_fill_rule_t
cairo_get_fill_rule (cairo_t *cr);

double
cairo_get_line_width (cairo_t *cr);

cairo_line_cap_t
cairo_get_line_cap (cairo_t *cr);

cairo_line_join_t
cairo_get_line_join (cairo_t *cr);

double
cairo_get_miter_limit (cairo_t *cr);

/* XXX: How to do cairo_get_dash??? Do we want to switch to a cairo_dash object? */

void
cairo_get_matrix (cairo_t *cr, cairo_matrix_t *matrix);

/* XXX: Need to decide the memory management semantics of this
   function. Should it reference the surface again? */
cairo_surface_t *
cairo_get_target_surface (cairo_t *cr);

typedef void (cairo_move_to_func_t) (void *closure,
				     double x, double y);

typedef void (cairo_line_to_func_t) (void *closure,
				     double x, double y);

typedef void (cairo_curve_to_func_t) (void *closure,
				      double x1, double y1,
				      double x2, double y2,
				      double x3, double y3);

typedef void (cairo_close_path_func_t) (void *closure);

void
cairo_get_path (cairo_t			*cr,
		cairo_move_to_func_t	*move_to,
		cairo_line_to_func_t	*line_to,
		cairo_curve_to_func_t	*curve_to,
		cairo_close_path_func_t	*close_path,
		void			*closure);

void
cairo_get_path_flat (cairo_t                 *cr,
		     cairo_move_to_func_t    *move_to,
		     cairo_line_to_func_t    *line_to,
		     cairo_close_path_func_t *close_path,
		     void                    *closure);

/**
 * cairo_path_data_t:
 *
 * A data structure for holding path data---appears within
 * #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 must be as
 * follows:
 *
 *	CAIRO_PATH_MOVE_TO:	1 point
 *	CAIRO_PATH_LINE_TO:	1 point
 *	CAIRO_PATH_CURVE_TO:	3 points
 *	CAIRO_PATH_CLOSE_PATH:	0 points
 *
 * 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>
 */
typedef union {
    struct {
	enum {
	    CAIRO_PATH_MOVE_TO,
	    CAIRO_PATH_LINE_TO,
	    CAIRO_PATH_CURVE_TO,
	    CAIRO_PATH_CLOSE_PATH
	} type;
	int length;
    } header;
    struct {
	double x, y;
    } point;
} cairo_path_data_t;

/**
 * cairo_path_t:
 *
 * A data structure for holding a path. This data structure serves as
 * the return value for cairo_copy_path_data() and
 * cairo_copy_path_data_flat() as well the input value for
 * cairo_append_path_data().
 *
 * 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 (MOVE_TO, LINE_TO, CURVE_TO, CLOSE_PATH), since the data
 * includes both headers and coordinates for each portion.
 **/
typedef struct cairo_path {
    cairo_path_data_t *data;
    int num_data;
} cairo_path_t;

cairo_path_t *
cairo_copy_path (cairo_t *cr);

cairo_path_t *
cairo_copy_path_flat (cairo_t *cr);

void
cairo_append_path (cairo_t	*cr,
		   cairo_path_t *path);

void
cairo_path_destroy (cairo_path_t *path);

/* Error status queries */

cairo_status_t
cairo_status (cairo_t *cr);

const char *
cairo_status_string (cairo_t *cr);

/**
 * cairo_destroy_func_t
 *
 * #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);

/* Surface manipulation */
/* XXX: We may want to rename this function in light of the new
   virtualized surface backends... */
cairo_surface_t *
cairo_surface_create_for_image (char           *data,
				cairo_format_t  format,
				int             width,
				int             height,
				int             stride);

/* XXX: I want to remove this function, (replace with
   cairo_set_target_scratch or similar). */
cairo_surface_t *
cairo_surface_create_similar (cairo_surface_t	*other,
			      cairo_format_t	format,
			      int		width,
			      int		height);

void
cairo_surface_reference (cairo_surface_t *surface);

void
cairo_surface_destroy (cairo_surface_t *surface);

cairo_status_t
cairo_surface_finish (cairo_surface_t *surface);

/* XXX: Note: The current Render/Ic implementations don't do the right
   thing with repeat when the surface has a non-identity matrix. */
/* XXX: Rework this as a cairo function with an enum: cairo_set_pattern_extend */
cairo_status_t
cairo_surface_set_repeat (cairo_surface_t *surface, int repeat);

/* XXX: Rework this as a cairo function: cairo_set_pattern_transform */
cairo_status_t
cairo_surface_set_matrix (cairo_surface_t *surface, cairo_matrix_t *matrix);

/* XXX: Rework this as a cairo function: cairo_get_pattern_transform */
cairo_status_t
cairo_surface_get_matrix (cairo_surface_t *surface, cairo_matrix_t *matrix);

typedef enum {
    CAIRO_FILTER_FAST,
    CAIRO_FILTER_GOOD,
    CAIRO_FILTER_BEST,
    CAIRO_FILTER_NEAREST,
    CAIRO_FILTER_BILINEAR,
    CAIRO_FILTER_GAUSSIAN
} cairo_filter_t;
  
/* XXX: Rework this as a cairo function: cairo_set_pattern_filter */
cairo_status_t
cairo_surface_set_filter (cairo_surface_t *surface, cairo_filter_t filter);

cairo_filter_t 
cairo_surface_get_filter (cairo_surface_t *surface);


/**
 * cairo_user_data_key_t
 *
 * #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;

void *
cairo_surface_get_user_data (cairo_surface_t		 *surface,
			     const cairo_user_data_key_t *key);

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);

void
cairo_surface_set_device_offset (cairo_surface_t *surface,
				 double           x_offset,
				 double           y_offset);

/* Image-surface functions */

cairo_surface_t *
cairo_image_surface_create (cairo_format_t	format,
			    int			width,
			    int			height);

cairo_surface_t *
cairo_image_surface_create_for_data (char			*data,
				     cairo_format_t		format,
				     int			width,
				     int			height,
				     int			stride);

/* Pattern creation functions */
cairo_pattern_t *
cairo_pattern_create_for_surface (cairo_surface_t *surface);

cairo_pattern_t *
cairo_pattern_create_linear (double x0, double y0,
			     double x1, double y1);

cairo_pattern_t *
cairo_pattern_create_radial (double cx0, double cy0, double radius0,
			     double cx1, double cy1, double radius1);

void
cairo_pattern_reference (cairo_pattern_t *pattern);

void
cairo_pattern_destroy (cairo_pattern_t *pattern);
  
cairo_status_t
cairo_pattern_add_color_stop (cairo_pattern_t *pattern,
			      double offset,
			      double red, double green, double blue,
			      double alpha);
  
cairo_status_t
cairo_pattern_set_matrix (cairo_pattern_t *pattern, cairo_matrix_t *matrix);

cairo_status_t
cairo_pattern_get_matrix (cairo_pattern_t *pattern, cairo_matrix_t *matrix);

typedef enum {
    CAIRO_EXTEND_NONE,
    CAIRO_EXTEND_REPEAT,
    CAIRO_EXTEND_REFLECT
} cairo_extend_t;

cairo_status_t
cairo_pattern_set_extend (cairo_pattern_t *pattern, cairo_extend_t extend);

cairo_extend_t
cairo_pattern_get_extend (cairo_pattern_t *pattern);

cairo_status_t
cairo_pattern_set_filter (cairo_pattern_t *pattern, cairo_filter_t filter);

cairo_filter_t
cairo_pattern_get_filter (cairo_pattern_t *pattern);

/* Matrix functions */

/* XXX: Rename all of these to cairo_transform_t */

cairo_matrix_t *
cairo_matrix_create (void);

void
cairo_matrix_destroy (cairo_matrix_t *matrix);

cairo_status_t
cairo_matrix_copy (cairo_matrix_t *matrix, const cairo_matrix_t *other);

cairo_status_t
cairo_matrix_set_identity (cairo_matrix_t *matrix);

cairo_status_t
cairo_matrix_set_affine (cairo_matrix_t *matrix,
			 double a, double b,
			 double c, double d,
			 double tx, double ty);

cairo_status_t
cairo_matrix_get_affine (cairo_matrix_t *matrix,
			 double *a, double *b,
			 double *c, double *d,
			 double *tx, double *ty);

cairo_status_t
cairo_matrix_translate (cairo_matrix_t *matrix, double tx, double ty);

cairo_status_t
cairo_matrix_scale (cairo_matrix_t *matrix, double sx, double sy);

cairo_status_t
cairo_matrix_rotate (cairo_matrix_t *matrix, double radians);

cairo_status_t
cairo_matrix_invert (cairo_matrix_t *matrix);

cairo_status_t
cairo_matrix_multiply (cairo_matrix_t *result, const cairo_matrix_t *a, const cairo_matrix_t *b);

cairo_status_t
cairo_matrix_transform_distance (cairo_matrix_t *matrix, double *dx, double *dy);

cairo_status_t
cairo_matrix_transform_point (cairo_matrix_t *matrix, double *x, double *y);

/**
 * cairo_write_func_t
 *
 * #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.
 */
typedef cairo_status_t (*cairo_write_func_t) (void *closure,
					      const char *data,
					      unsigned int length);

#define CAIRO_API_SHAKEUP_FLAG_DAY 0

#ifndef _CAIROINT_H_

#if CAIRO_API_SHAKEUP_FLAG_DAY

/* Deprecated functions. We've made some effort to allow the
   deprecated functions to continue to work for now, (with useful
   warnings). But the deprecated functions will not appear in the next
   release. */
#define cairo_current_path	     cairo_current_path_DEPRECATED_BY_cairo_get_path
#define cairo_current_path_flat	     cairo_current_path_flat_DEPRECATED_BY_cairo_get_path_flat
#define cairo_current_font	     cairo_current_font_DEPRECATED_BY_cairo_get_font
#define cairo_current_font_extents   cairo_current_font_extents_DEPRECATED_BY_cairo_get_font_extents
#define cairo_current_operator       cairo_current_operator_DEPRECATED_BY_cairo_get_operator
#define cairo_current_rgb_color      cairo_current_rgb_color_DEPRECATED_BY_cairo_get_rgb_color
#define cairo_current_alpha	     cairo_current_alpha_DEPRECATED_BY_cairo_get_alpha
#define cairo_current_tolerance	     cairo_current_tolerance_DEPRECATED_BY_cairo_get_tolerance
#define cairo_current_point	     cairo_current_point_DEPRECATED_BY_cairo_get_current_point
#define cairo_current_fill_rule	     cairo_current_fill_rule_DEPRECATED_BY_cairo_get_fill_rule
#define cairo_current_line_width     cairo_current_line_width_DEPRECATED_BY_cairo_get_line_width
#define cairo_current_line_cap       cairo_current_line_cap_DEPRECATED_BY_cairo_get_line_cap
#define cairo_current_line_join      cairo_current_line_join_DEPRECATED_BY_cairo_get_line_join
#define cairo_current_miter_limit    cairo_current_miter_limit_DEPRECATED_BY_cairo_get_miter_limit
#define cairo_current_matrix         cairo_current_matrix_DEPRECATED_BY_cairo_get_matrix
#define cairo_current_target_surface cairo_current_target_surface_DEPRECATED_BY_cairo_get_target_surface
#define cairo_get_status             cairo_get_status_DEPRECATED_BY_cairo_status
#define cairo_get_status_string	     cairo_get_status_string_DEPRECATED_BY_cairo_status_string

#else /* CAIRO_API_SHAKEUP_FLAG_DAY */

#define cairo_current_path	     cairo_get_path
#define cairo_current_path_flat	     cairo_get_path_flat
#define cairo_current_font	     cairo_get_font
#define cairo_current_font_extents   cairo_get_font_extents
#define cairo_current_operator       cairo_get_operator
#define cairo_current_rgb_color      cairo_get_rgb_color
#define cairo_current_alpha	     cairo_get_alpha
#define cairo_current_tolerance	     cairo_get_tolerance
#define cairo_current_point	     cairo_get_current_point
#define cairo_current_fill_rule	     cairo_get_fill_rule
#define cairo_current_line_width     cairo_get_line_width
#define cairo_current_line_cap       cairo_get_line_cap
#define cairo_current_line_join      cairo_get_line_join
#define cairo_current_miter_limit    cairo_get_miter_limit
#define cairo_current_matrix         cairo_get_matrix
#define cairo_current_target_surface cairo_get_target_surface
#define cairo_get_status             cairo_status
#define cairo_get_status_string	     cairo_status_string

#endif /* CAIRO_API_SHAKEUP_FLAG_DAY */

#endif

CAIRO_END_DECLS

#endif /* CAIRO_H */