guile-cairo 1.4.0-3 / usr / share / guile / site / cairo / cairo-procedures.txt

WARNING: (gnome gw support gtk-doc): `filter' imported from both (srfi srfi-1) and (sxml xpath)
cairo-font-options-create
- Function: cairo-font-options-create ==>(RET `<cairo-font-options-t>')
     Allocates a new font options object with all options initialized to default
     values.

     ret
          a newly allocated `<cairo-font-options-t>'. Free with
          `cairo-font-options-destroy'. This function always returns a valid
          pointer; if memory cannot be allocated, then a special error object is
          returned where all operations on the object do nothing. You can check
          for this with `cairo-font-options-status'.

     This documentation was automatically generated.

cairo-font-options-copy
- Function: cairo-font-options-copy (ORIGINAL `<cairo-font-options-t>') ==>(RET
`<cairo-font-options-t>')
     Allocates a new font options object copying the option values from
     ORIGINAL.

     original
          a `<cairo-font-options-t>'

     ret
          a newly allocated `<cairo-font-options-t>'. Free with
          `cairo-font-options-destroy'. This function always returns a valid
          pointer; if memory cannot be allocated, then a special error object is
          returned where all operations on the object do nothing. You can check
          for this with `cairo-font-options-status'.

     This documentation was automatically generated.

cairo-font-options-merge
- Function: cairo-font-options-merge (OPTIONS `<cairo-font-options-t>')(OTHER
`<cairo-font-options-t>')
     Merges non-default options from OTHER into OPTIONS, replacing existing
     values. This operation can be thought of as somewhat similar to compositing
     OTHER onto OPTIONS with the operation of `CAIRO_OPERATION_OVER'.

     options
          a `<cairo-font-options-t>'

     other
          another `<cairo-font-options-t>'

     This documentation was automatically generated.

cairo-font-options-hash
- Function: cairo-font-options-hash (OPTIONS `<cairo-font-options-t>') ==>(RET
`<unsigned long>')
     Compute a hash for the font options object; this value will be useful when
     storing an object containing a cairo_font_options_t in a hash table.

     options
          a `<cairo-font-options-t>'

     ret
          the hash value for the font options object. The return value can be
          cast to a 32-bit type if a 32-bit hash value is needed.

     This documentation was automatically generated.

cairo-font-options-set-antialias
- Function: cairo-font-options-set-antialias (OPTIONS
`<cairo-font-options-t>')(ANTIALIAS `<cairo-antialias-t>')
     Sets the antialiasing mode for the font options object. This specifies the
     type of antialiasing to do when rendering text.

     options
          a `<cairo-font-options-t>'

     antialias
          the new antialiasing mode

     This documentation was automatically generated.

cairo-font-options-get-antialias
- Function: cairo-font-options-get-antialias (OPTIONS `<cairo-font-options-t>')
==>(RET `<cairo-antialias-t>')
     Gets the antialiasing mode for the font options object.

     options
          a `<cairo-font-options-t>'

     ret
          the antialiasing mode

     This documentation was automatically generated.

cairo-font-options-set-hint-style
- Function: cairo-font-options-set-hint-style (OPTIONS
`<cairo-font-options-t>')(HINT-STYLE `<cairo-hint-style-t>')
     Sets the hint style for font outlines for the font options object. This
     controls whether to fit font outlines to the pixel grid, and if so, whether
     to optimize for fidelity or contrast. See the documentation for
     `<cairo-hint-style-t>' for full details.

     options
          a `<cairo-font-options-t>'

     hint-style
          the new hint style

     This documentation was automatically generated.

cairo-font-options-get-hint-style
- Function: cairo-font-options-get-hint-style (OPTIONS `<cairo-font-options-t>')
==>(RET `<cairo-hint-style-t>')
     Gets the hint style for font outlines for the font options object. See the
     documentation for `<cairo-hint-style-t>' for full details.

     options
          a `<cairo-font-options-t>'

     ret
          the hint style for the font options object

     This documentation was automatically generated.

cairo-font-options-set-hint-metrics
- Function: cairo-font-options-set-hint-metrics (OPTIONS
`<cairo-font-options-t>')(HINT-METRICS `<cairo-hint-metrics-t>')
     Sets the metrics hinting mode for the font options object. This controls
     whether metrics are quantized to integer values in device units. See the
     documentation for `<cairo-hint-metrics-t>' for full details.

     options
          a `<cairo-font-options-t>'

     hint-metrics
          the new metrics hinting mode

     This documentation was automatically generated.

cairo-font-face-get-type
- Function: cairo-font-face-get-type (FONT-FACE `<cairo-font-face-t>') ==>(RET
`<cairo-font-type-t>')
     This function returns the type of the backend used to create a font face.
     See `<cairo-font-type-t>' for available types.

     font-face
          a font face

     ret
          The type of FONT-FACE.

     Since 1.2

     This documentation was automatically generated.

cairo-image-surface-create
- Function: cairo-image-surface-create (FORMAT `<cairo-format-t>')(WIDTH
`<int>')(HEIGHT `<int>') ==>(RET `<cairo-surface-t>')
     Creates an image surface of the specified format and dimensions. Initially
     the surface contents are all 0. (Specifically, within each pixel, each
     color or alpha channel belonging to format will be 0. The contents of bits
     within a pixel, but not belonging to the given format are undefined).

     format
          format of pixels in the surface to create

     width
          width of the surface, in pixels

     height
          height of the surface, in pixels

     ret
          a pointer to the newly created surface. The caller owns the surface
          and should call cairo_surface_destroy when done with it. This function
          always returns a valid pointer, but it will return a pointer to a
          "nil" surface if an error such as out of memory occurs. You can use
          `cairo-surface-status' to check for this.

     This documentation was automatically generated.

cairo-image-surface-get-format
- Function: cairo-image-surface-get-format (SURFACE `<cairo-surface-t>') ==>(RET
`<cairo-format-t>')
     Get the format of the surface.

     surface
          a `<cairo-image-surface-t>'

     ret
          the format of the surface

     Since 1.2

     This documentation was automatically generated.

cairo-image-surface-get-width
- Function: cairo-image-surface-get-width (SURFACE `<cairo-surface-t>') ==>(RET
`<int>')
     Get the width of the image surface in pixels.

     surface
          a `<cairo-image-surface-t>'

     ret
          the width of the surface in pixels.

     This documentation was automatically generated.

cairo-matrix-translate
- Function: cairo-matrix-translate (MATRIX `<cairo-matrix-t>')(TX `<double>')(TY
`<double>')
     Applies a translation by TX, TY to the transformation in MATRIX. The effect
     of the new transformation is to first translate the coordinates by TX and
     TY, then apply the original transformation to the coordinates.

     matrix
          a cairo_matrix_t

     tx
          amount to translate in the X direction

     ty
          amount to translate in the Y direction

     This documentation was automatically generated.

cairo-matrix-invert
- Function: cairo-matrix-invert (MATRIX `<cairo-matrix-t>') ==>(RET
`<cairo-status-t>')
     Changes MATRIX to be the inverse of it's original value. Not all
     transformation matrices have inverses; if the matrix collapses points
     together (it is "degenerate"), then it has no inverse and this function
     will fail.

     Returns: If MATRIX has an inverse, modifies MATRIX to be the inverse matrix
     and returns `CAIRO_STATUS_SUCCESS'. Otherwise,

     matrix
          a `<cairo-matrix-t>'

     ret
          `CAIRO_STATUS_INVALID_MATRIX'.

     This documentation was automatically generated.

cairo-matrix-multiply
- Function: cairo-matrix-multiply (RESULT `<cairo-matrix-t>')(A
`<cairo-matrix-t>')(B `<cairo-matrix-t>')
     Multiplies the affine transformations in A and B together and stores the
     result in RESULT. The effect of the resulting transformation is to first
     apply the transformation in A to the coordinates and then apply the
     transformation in B to the coordinates.

     It is allowable for RESULT to be identical to either A or B.

     result
          a `<cairo-matrix-t>' in which to store the result

     a
          a `<cairo-matrix-t>'

     b
          a `<cairo-matrix-t>'

     This documentation was automatically generated.

cairo-matrix-transform-distance
- Function: cairo-matrix-transform-distance (MATRIX `<cairo-matrix-t>') ==>(DX
`<double>')(DY `<double>')
     Transforms the distance vector (DX,DY) by MATRIX. This is similar to
     `cairo-matrix-transform-point' except that the translation components of
     the transformation are ignored. The calculation of the returned vector is
     as follows:

          
          dx2 = dx1 * a + dy1 * c;
          dy2 = dx1 * b + dy1 * d;
          

     Affine transformations are position invariant, so the same vector always
     transforms to the same vector. If (X1,Y1) transforms to (X2,Y2) then
     (X1+DX1,Y1+DY1) will transform to (X1+DX2,Y1+DY2) for all values of X1 and
     X2.

     matrix
          a `<cairo-matrix-t>'

     dx
          X component of a distance vector. An in/out parameter

     dy
          Y component of a distance vector. An in/out parameter

     This documentation was automatically generated.

cairo-matrix-transform-point
- Function: cairo-matrix-transform-point (MATRIX `<cairo-matrix-t>') ==>(X
`<double>')(Y `<double>')
     Transforms the point (X, Y) by MATRIX.

     matrix
          a `<cairo-matrix-t>'

     x
          X position. An in/out parameter

     y
          Y position. An in/out parameter

     This documentation was automatically generated.

cairo-copy-path
- Function: cairo-copy-path (CR `<cairo-t>') ==>(RET `<cairo-path-t>')
     Creates a copy of the current path and returns it to the user as a
     `<cairo-path-t>'. See `<cairo-path-data-t>' for hints on how to iterate
     over the returned data structure.

     This function will always return a valid pointer, but the result will have
     no data (`data==NULL' and `num_data==0'), if either of the following
     conditions hold:

If ther1. s insufficient memory to copy the path. In this
    case `path->status' will be set to
    `CAIRO_STATUS_NO_MEMORY'.If CR i2. lready in an error state. In this case
   `path->status' will contain the same status that
   would be returned by `cairo-status'.     In either case, `path->status' will be set to `CAIRO_STATUS_NO_MEMORY'
     (regardless of what the error status in CR might have been).

     cr
          a cairo context

     ret
          the copy of the current path. The caller owns the returned object and
          should call `cairo-path-destroy' when finished with it.

     This documentation was automatically generated.

cairo-copy-path-flat
- Function: cairo-copy-path-flat (CR `<cairo-t>') ==>(RET `<cairo-path-t>')
     Gets a flattened copy of the current path and returns it to the user as a
     `<cairo-path-t>'. See `<cairo-path-data-t>' for hints on how to iterate
     over the returned data structure.

     This function is like `cairo-copy-path' except that any curves in the path
     will be approximated with piecewise-linear approximations, (accurate to
     within the current tolerance value). That is, the result is guaranteed to
     not have any elements of type `CAIRO_PATH_CURVE_TO' which will instead be
     replaced by a series of `CAIRO_PATH_LINE_TO' elements.

     This function will always return a valid pointer, but the result will have
     no data (`data==NULL' and `num_data==0'), if either of the following
     conditions hold:

If ther1. s insufficient memory to copy the path. In this
    case `path->status' will be set to
    `CAIRO_STATUS_NO_MEMORY'.If CR i2. lready in an error state. In this case
   `path->status' will contain the same status that
   would be returned by `cairo-status'.     cr
          a cairo context

     ret
          the copy of the current path. The caller owns the returned object and
          should call `cairo-path-destroy' when finished with it.

     This documentation was automatically generated.

cairo-append-path
- Function: cairo-append-path (CR `<cairo-t>')(PATH `<cairo-path-t>')
     Append the PATH onto the current path. The PATH may be either the return
     value from one of `cairo-copy-path' or `cairo-copy-path-flat' or it may be
     constructed manually. See `<cairo-path-t>' for details on how the path data
     structure should be initialized, and note that `path->status' must be
     initialized to `CAIRO_STATUS_SUCCESS'.

     cr
          a cairo context

     path
          path to be appended

     This documentation was automatically generated.

cairo-get-current-point
- Function: cairo-get-current-point (CR `<cairo-t>') ==>(X `<double>')(Y
`<double>')
     Gets the current point of the current path, which is conceptually the final
     point reached by the path so far.

     The current point is returned in the user-space coordinate system. If there
     is no defined current point then X and Y will both be set to 0.0.

     Most path construction functions alter the current point. See the following
     for details on how they affect the current point:

     `cairo-new-path', `cairo-move-to', `cairo-line-to', `cairo-curve-to',
     `cairo-arc', `cairo-rel-move-to', `cairo-rel-line-to',
     `cairo-rel-curve-to', `cairo-arc', `cairo-text-path',
     `cairo-stroke-to-path'

     cr
          a cairo context

     x
          return value for X coordinate of the current point

     y
          return value for Y coordinate of the current point

     This documentation was automatically generated.

cairo-new-path
- Function: cairo-new-path (CR `<cairo-t>')
     Clears the current path. After this call there will be no path and no
     current point.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-new-sub-path
- Function: cairo-new-sub-path (CR `<cairo-t>')
     Begin a new sub-path. Note that the existing path is not affected. After
     this call there will be no current point.

     In many cases, this call is not needed since new sub-paths are frequently
     started with `cairo-move-to'.

     A call to `cairo-new-sub-path' is particularly useful when beginning a new
     sub-path with one of the `cairo-arc' calls. This makes things easier as it
     is no longer necessary to manually compute the arc's initial coordinates
     for a call to `cairo-move-to'.

     cr
          a cairo context

     Since 1.2

     This documentation was automatically generated.

cairo-close-path
- Function: cairo-close-path (CR `<cairo-t>')
     Adds a line segment to the path from the current point to the beginning of
     the current sub-path, (the most recent point passed to `cairo-move-to'),
     and closes this sub-path. After this call the current point will be at the
     joined endpoint of the sub-path.

     The behavior of `cairo-close-path' is distinct from simply calling
     `cairo-line-to' with the equivalent coordinate in the case of stroking.
     When a closed sub-path is stroked, there are no caps on the ends of the
     sub-path. Instead, there is a line join connecting the final and initial
     segments of the sub-path.

     If there is no current point before the call to cairo_close_path, this
     function will have no effect.

     Note: As of cairo version 1.2.4 any call to cairo_close_path will place an
     explicit MOVE_TO element into the path immediately after the CLOSE_PATH
     element, (which can be seen in `cairo-copy-path' for example). This can
     simplify path processing in some cases as it may not be necessary to save
     the "last move_to point" during processing as the MOVE_TO immediately after
     the CLOSE_PATH will provide that point.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-arc
- Function: cairo-arc (CR `<cairo-t>')(XC `<double>')(YC `<double>')(RADIUS
`<double>')(ANGLE1 `<double>')(ANGLE2 `<double>')
     Adds a circular arc of the given RADIUS to the current path. The arc is
     centered at (XC, YC), begins at ANGLE1 and proceeds in the direction of
     increasing angles to end at ANGLE2. If ANGLE2 is less than ANGLE1 it will
     be progressively increased by 2*M_PI until it is greater than ANGLE1.

     If there is a current point, an initial line segment will be added to the
     path to connect the current point to the beginning of the arc.

     Angles are measured in radians. An angle of 0.0 is in the direction of the
     positive X axis (in user space). An angle of `M_PI'/2.0 radians (90
     degrees) is in the direction of the positive Y axis (in user space). Angles
     increase in the direction from the positive X axis toward the positive Y
     axis. So with the default transformation matrix, angles increase in a
     clockwise direction.

     (To convert from degrees to radians, use `degrees * (M_PI / 180.)'.)

     This function gives the arc in the direction of increasing angles; see
     `cairo-arc-negative' to get the arc in the direction of decreasing angles.

     The arc is circular in user space. To achieve an elliptical arc, you can
     scale the current transformation matrix by different amounts in the X and Y
     directions. For example, to draw an ellipse in the box given by X, Y,
     WIDTH, HEIGHT:

          
          cairo_save (cr);
          cairo_translate (cr, x + width / 2., y + height / 2.);
          cairo_scale (cr, width / 2., height / 2.);
          cairo_arc (cr, 0., 0., 1., 0., 2 * M_PI);
          cairo_restore (cr);
          

     cr
          a cairo context

     xc
          X position of the center of the arc

     yc
          Y position of the center of the arc

     radius
          the radius of the arc

     angle1
          the start angle, in radians

     angle2
          the end angle, in radians

     This documentation was automatically generated.

cairo-arc-negative
- Function: cairo-arc-negative (CR `<cairo-t>')(XC `<double>')(YC
`<double>')(RADIUS `<double>')(ANGLE1 `<double>')(ANGLE2 `<double>')
     Adds a circular arc of the given RADIUS to the current path. The arc is
     centered at (XC, YC), begins at ANGLE1 and proceeds in the direction of
     decreasing angles to end at ANGLE2. If ANGLE2 is greater than ANGLE1 it
     will be progressively decreased by 2*M_PI until it is less than ANGLE1.

     See `cairo-arc' for more details. This function differs only in the
     direction of the arc between the two angles.

     cr
          a cairo context

     xc
          X position of the center of the arc

     yc
          Y position of the center of the arc

     radius
          the radius of the arc

     angle1
          the start angle, in radians

     angle2
          the end angle, in radians

     This documentation was automatically generated.

cairo-curve-to
- Function: cairo-curve-to (CR `<cairo-t>')(X1 `<double>')(Y1 `<double>')(X2
`<double>')(Y2 `<double>')(X3 `<double>')(Y3 `<double>')
     Adds a cubic Bézier spline to the path from the current point to position
     (X3, Y3) in user-space coordinates, using (X1, Y1) and (X2, Y2) as the
     control points. After this call the current point will be (X3, Y3).

     If there is no current point before the call to `cairo-curve-to' this
     function will behave as if preceded by a call to cairo_move_to (CR, X1,
     Y1).

     cr
          a cairo context

     x1
          the X coordinate of the first control point

     y1
          the Y coordinate of the first control point

     x2
          the X coordinate of the second control point

     y2
          the Y coordinate of the second control point

     x3
          the X coordinate of the end of the curve

     y3
          the Y coordinate of the end of the curve

     This documentation was automatically generated.

cairo-line-to
- Function: cairo-line-to (CR `<cairo-t>')(X `<double>')(Y `<double>')
     Adds a line to the path from the current point to position (X, Y) in
     user-space coordinates. After this call the current point will be (X, Y).

     If there is no current point before the call to `cairo-line-to' this
     function will behave as cairo_move_to (CR, X, Y).

     cr
          a cairo context

     x
          the X coordinate of the end of the new line

     y
          the Y coordinate of the end of the new line

     This documentation was automatically generated.

cairo-move-to
- Function: cairo-move-to (CR `<cairo-t>')(X `<double>')(Y `<double>')
     Begin a new sub-path. After this call the current point will be (X, Y).

     cr
          a cairo context

     x
          the X coordinate of the new position

     y
          the Y coordinate of the new position

     This documentation was automatically generated.

cairo-rectangle
- Function: cairo-rectangle (CR `<cairo-t>')(X `<double>')(Y `<double>')(WIDTH
`<double>')(HEIGHT `<double>')
     Adds a closed sub-path rectangle of the given size to the current path at
     position (X, Y) in user-space coordinates.

     This function is logically equivalent to:

          
          cairo_move_to (cr, x, y);
          cairo_rel_line_to (cr, width, 0);
          cairo_rel_line_to (cr, 0, height);
          cairo_rel_line_to (cr, -width, 0);
          cairo_close_path (cr);
          

     cr
          a cairo context

     x
          the X coordinate of the top left corner of the rectangle

     y
          the Y coordinate to the top left corner of the rectangle

     width
          the width of the rectangle

     height
          the height of the rectangle

     This documentation was automatically generated.

cairo-glyph-path
- Function: cairo-glyph-path (CR `<cairo-t>')(GLYPHS
`<cairo-glyph-t>')(NUM-GLYPHS `<int>')
     Adds closed paths for the glyphs to the current path. The generated path if
     filled, achieves an effect similar to that of `cairo-show-glyphs'.

     cr
          a cairo context

     glyphs
          array of glyphs to show

     num-glyphs
          number of glyphs to show

     This documentation was automatically generated.

cairo-text-path
- Function: cairo-text-path (CR `<cairo-t>')(UTF8 `<char>')
     Adds closed paths for text to the current path. The generated path if
     filled, achieves an effect similar to that of `cairo-show-text'.

     Text conversion and positioning is done similar to `cairo-show-text'.

     Like `cairo-show-text', After this call the current point is moved to the
     origin of where the next glyph would be placed in this same progression.
     That is, the current point will be at the origin of the final glyph offset
     by its advance values. This allows for chaining multiple calls to to
     `cairo-text-path' without having to set current point in between.

     NOTE: The `cairo-text-path' function call is part of what the cairo
     designers call the "toy" text API. It is convenient for short demos and
     simple programs, but it is not expected to be adequate for serious
     text-using applications. See `cairo-glyph-path' for the "real" text path
     API in cairo.

     cr
          a cairo context

     utf8
          a string of text encoded in UTF-8

     This documentation was automatically generated.

cairo-rel-curve-to
- Function: cairo-rel-curve-to (CR `<cairo-t>')(DX1 `<double>')(DY1
`<double>')(DX2 `<double>')(DY2 `<double>')(DX3 `<double>')(DY3 `<double>')
     Relative-coordinate version of `cairo-curve-to'. All offsets are relative
     to the current point. Adds a cubic Bézier spline to the path from the
     current point to a point offset from the current point by (DX3, DY3), using
     points offset by (DX1, DY1) and (DX2, DY2) as the control points. After
     this call the current point will be offset by (DX3, DY3).

     Given a current point of (x, y), cairo_rel_curve_to (CR, DX1, DY1, DX2,
     DY2, DX3, DY3) is logically equivalent to cairo_curve_to (CR, x + DX1, y +
     DY1, x + DX2, y + DY2, x + DX3, y + DY3).

     It is an error to call this function with no current point. Doing so will
     cause CR to shutdown with a status of CAIRO_STATUS_NO_CURRENT_POINT.

     cr
          a cairo context

     dx1
          the X offset to the first control point

     dy1
          the Y offset to the first control point

     dx2
          the X offset to the second control point

     dy2
          the Y offset to the second control point

     dx3
          the X offset to the end of the curve

     dy3
          the Y offset to the end of the curve

     This documentation was automatically generated.

cairo-rel-line-to
- Function: cairo-rel-line-to (CR `<cairo-t>')(DX `<double>')(DY `<double>')
     Relative-coordinate version of `cairo-line-to'. Adds a line to the path
     from the current point to a point that is offset from the current point by
     (DX, DY) in user space. After this call the current point will be offset by
     (DX, DY).

     Given a current point of (x, y), cairo_rel_line_to(CR, DX, DY) is logically
     equivalent to cairo_line_to (CR, x + DX, y + DY).

     It is an error to call this function with no current point. Doing so will
     cause CR to shutdown with a status of CAIRO_STATUS_NO_CURRENT_POINT.

     cr
          a cairo context

     dx
          the X offset to the end of the new line

     dy
          the Y offset to the end of the new line

     This documentation was automatically generated.

cairo-rel-move-to
- Function: cairo-rel-move-to (CR `<cairo-t>')(DX `<double>')(DY `<double>')
     Begin a new sub-path. After this call the current point will offset by (X,
     Y).

     Given a current point of (x, y), cairo_rel_move_to(CR, DX, DY) is logically
     equivalent to cairo_move_to (CR, x + DX, y + DY).

     It is an error to call this function with no current point. Doing so will
     cause CR to shutdown with a status of CAIRO_STATUS_NO_CURRENT_POINT.

     cr
          a cairo context

     dx
          the X offset

     dy
          the Y offset

     This documentation was automatically generated.

cairo-pattern-add-color-stop-rgb
- Function: cairo-pattern-add-color-stop-rgb (PATTERN
`<cairo-pattern-t>')(OFFSET `<double>')(RED `<double>')(GREEN `<double>')(BLUE
`<double>')
     Adds an opaque color stop to a gradient pattern. The offset specifies the
     location along the gradient's control vector. For example, a linear
     gradient's control vector is from (x0,y0) to (x1,y1) while a radial
     gradient's control vector is from any point on the start circle to the
     corresponding point on the end circle.

     The color is specified in the same way as in `cairo-set-source-rgb'.

     Note: If the pattern is not a gradient pattern, (eg. a linear or radial
     pattern), then the pattern will be put into an error status with a status
     of `CAIRO_STATUS_PATTERN_TYPE_MISMATCH'.

     pattern
          a `<cairo-pattern-t>'

     offset
          an offset in the range [0.0 .. 1.0]

     red
          red component of color

     green
          green component of color

     blue
          blue component of color

     This documentation was automatically generated.

cairo-pattern-add-color-stop-rgba
- Function: cairo-pattern-add-color-stop-rgba (PATTERN
`<cairo-pattern-t>')(OFFSET `<double>')(RED `<double>')(GREEN `<double>')(BLUE
`<double>')(ALPHA `<double>')
     Adds a translucent color stop to a gradient pattern. The offset specifies
     the location along the gradient's control vector. For example, a linear
     gradient's control vector is from (x0,y0) to (x1,y1) while a radial
     gradient's control vector is from any point on the start circle to the
     corresponding point on the end circle.

     The color is specified in the same way as in `cairo-set-source-rgba'.

     Note: If the pattern is not a gradient pattern, (eg. a linear or radial
     pattern), then the pattern will be put into an error status with a status
     of `CAIRO_STATUS_PATTERN_TYPE_MISMATCH'.

     pattern
          a `<cairo-pattern-t>'

     offset
          an offset in the range [0.0 .. 1.0]

     red
          red component of color

     green
          green component of color

     blue
          blue component of color

     alpha
          alpha component of color

     This documentation was automatically generated.

cairo-pattern-get-color-stop-rgba
- Function: cairo-pattern-get-color-stop-rgba (PATTERN
`<cairo-pattern-t>')(INDEX `<int>') ==>(RET `<cairo-status-t>')(OFFSET
`<double>')(RED `<double>')(GREEN `<double>')(BLUE `<double>')(ALPHA `<double>')
     Gets the color and offset information at the given INDEX for a gradient
     pattern. Values of INDEX are 0 to 1 less than the number returned by
     `cairo-pattern-get-color-stop-count'.

     pattern
          a `<cairo-pattern-t>'

     index
          index of the stop to return data for

     offset
          return value for the offset of the stop, or ``#f''

     red
          return value for red component of color, or ``#f''

     green
          return value for green component of color, or ``#f''

     blue
          return value for blue component of color, or ``#f''

     alpha
          return value for alpha component of color, or ``#f''

     ret
          `CAIRO_STATUS_SUCCESS', or `CAIRO_STATUS_INVALID_INDEX' if INDEX is
          not valid for the given pattern. If the pattern is not a gradient
          pattern, `CAIRO_STATUS_PATTERN_TYPE_MISMATCH' is returned.

     Since 1.4

     This documentation was automatically generated.

cairo-pattern-create-rgb
- Function: cairo-pattern-create-rgb (RED `<double>')(GREEN `<double>')(BLUE
`<double>') ==>(RET `<cairo-pattern-t>')
     Creates a new cairo_pattern_t corresponding to an opaque color. The color
     components are floating point numbers in the range 0 to 1. If the values
     passed in are outside that range, they will be clamped.

     red
          red component of the color

     green
          green component of the color

     blue
          blue component of the color

     ret
          the newly created `<cairo-pattern-t>' if successful, or an error
          pattern in case of no memory. The caller owns the returned object and
          should call `cairo-pattern-destroy' when finished with it. This
          function will always return a valid pointer, but if an error occurred
          the pattern status will be set to an error. To inspect the status of a
          pattern use `cairo-pattern-status'.

     This documentation was automatically generated.

cairo-pattern-create-rgba
- Function: cairo-pattern-create-rgba (RED `<double>')(GREEN `<double>')(BLUE
`<double>')(ALPHA `<double>') ==>(RET `<cairo-pattern-t>')
     Creates a new cairo_pattern_t corresponding to a translucent color. The
     color components are floating point numbers in the range 0 to 1. If the
     values passed in are outside that range, they will be clamped.

     red
          red component of the color

     green
          green component of the color

     blue
          blue component of the color

     alpha
          alpha component of the color

     ret
          the newly created `<cairo-pattern-t>' if successful, or an error
          pattern in case of no memory. The caller owns the returned object and
          should call `cairo-pattern-destroy' when finished with it. This
          function will always return a valid pointer, but if an error occurred
          the pattern status will be set to an error. To inspect the status of a
          pattern use `cairo-pattern-status'.

     This documentation was automatically generated.

cairo-pattern-get-rgba
- Function: cairo-pattern-get-rgba (PATTERN `<cairo-pattern-t>') ==>(RET
`<cairo-status-t>')(RED `<double>')(GREEN `<double>')(BLUE `<double>')(ALPHA
`<double>')
     Gets the solid color for a solid color pattern.

     pattern
          a `<cairo-pattern-t>'

     red
          return value for red component of color, or ``#f''

     green
          return value for green component of color, or ``#f''

     blue
          return value for blue component of color, or ``#f''

     alpha
          return value for alpha component of color, or ``#f''

     ret
          `CAIRO_STATUS_SUCCESS', or `CAIRO_STATUS_PATTERN_TYPE_MISMATCH' if the
          pattern is not a solid color pattern.

     Since 1.4

     This documentation was automatically generated.

cairo-pattern-create-for-surface
- Function: cairo-pattern-create-for-surface (SURFACE `<cairo-surface-t>')
==>(RET `<cairo-pattern-t>')
     Create a new cairo_pattern_t for the given surface.

     surface
          the surface

     ret
          the newly created `<cairo-pattern-t>' if successful, or an error
          pattern in case of no memory. The caller owns the returned object and
          should call `cairo-pattern-destroy' when finished with it. This
          function will always return a valid pointer, but if an error occurred
          the pattern status will be set to an error. To inspect the status of a
          pattern use `cairo-pattern-status'.

     This documentation was automatically generated.

cairo-pattern-get-surface
- Function: cairo-pattern-get-surface (PATTERN `<cairo-pattern-t>') ==>(RET
`<cairo-status-t>')(SURFACE `<cairo-surface-t*>')
     Gets the surface of a surface pattern. The reference returned in SURFACE is
     owned by the pattern; the caller should call `cairo-surface-reference' if
     the surface is to be retained.

     pattern
          a `<cairo-pattern-t>'

     surface
          return value for surface of pattern, or ``#f''

     ret
          `CAIRO_STATUS_SUCCESS', or `CAIRO_STATUS_PATTERN_TYPE_MISMATCH' if the
          pattern is not a surface pattern.

     Since 1.4

     This documentation was automatically generated.

cairo-pattern-create-linear
- Function: cairo-pattern-create-linear (X0 `<double>')(Y0 `<double>')(X1
`<double>')(Y1 `<double>') ==>(RET `<cairo-pattern-t>')
     Create a new linear gradient cairo_pattern_t along the line defined by (x0,
     y0) and (x1, y1). Before using the gradient pattern, a number of color
     stops should be defined using `cairo-pattern-add-color-stop-rgb' or
     `cairo-pattern-add-color-stop-rgba'.

     Note: The coordinates here are in pattern space. For a new pattern, pattern
     space is identical to user space, but the relationship between the spaces
     can be changed with `cairo-pattern-set-matrix'.

     x0
          x coordinate of the start point

     y0
          y coordinate of the start point

     x1
          x coordinate of the end point

     y1
          y coordinate of the end point

     ret
          the newly created `<cairo-pattern-t>' if successful, or an error
          pattern in case of no memory. The caller owns the returned object and
          should call `cairo-pattern-destroy' when finished with it. This
          function will always return a valid pointer, but if an error occurred
          the pattern status will be set to an error. To inspect the status of a
          pattern use `cairo-pattern-status'.

     This documentation was automatically generated.

cairo-pattern-get-linear-points
- Function: cairo-pattern-get-linear-points (PATTERN `<cairo-pattern-t>')
==>(RET `<cairo-status-t>')(X0 `<double>')(Y0 `<double>')(X1 `<double>')(Y1
`<double>')
     Gets the gradient endpoints for a linear gradient.

     pattern
          a `<cairo-pattern-t>'

     x0
          return value for the x coordinate of the first point, or ``#f''

     y0
          return value for the y coordinate of the first point, or ``#f''

     x1
          return value for the x coordinate of the second point, or ``#f''

     y1
          return value for the y coordinate of the second point, or ``#f''

     ret
          `CAIRO_STATUS_SUCCESS', or `CAIRO_STATUS_PATTERN_TYPE_MISMATCH' if
          PATTERN is not a linear gradient pattern.

     Since 1.4

     This documentation was automatically generated.

cairo-pattern-create-radial
- Function: cairo-pattern-create-radial (CX0 `<double>')(CY0 `<double>')(RADIUS0
`<double>')(CX1 `<double>')(CY1 `<double>')(RADIUS1 `<double>') ==>(RET
`<cairo-pattern-t>')
     Creates a new radial gradient cairo_pattern_t between the two circles
     defined by (x0, y0, c0) and (x1, y1, c0). Before using the gradient
     pattern, a number of color stops should be defined using
     `cairo-pattern-add-color-stop-rgb' or `cairo-pattern-add-color-stop-rgba'.

     Note: The coordinates here are in pattern space. For a new pattern, pattern
     space is identical to user space, but the relationship between the spaces
     can be changed with `cairo-pattern-set-matrix'.

     cx0
          x coordinate for the center of the start circle

     cy0
          y coordinate for the center of the start circle

     radius0
          radius of the start circle

     cx1
          x coordinate for the center of the end circle

     cy1
          y coordinate for the center of the end circle

     radius1
          radius of the end circle

     ret
          the newly created `<cairo-pattern-t>' if successful, or an error
          pattern in case of no memory. The caller owns the returned object and
          should call `cairo-pattern-destroy' when finished with it. This
          function will always return a valid pointer, but if an error occurred
          the pattern status will be set to an error. To inspect the status of a
          pattern use `cairo-pattern-status'.

     This documentation was automatically generated.

cairo-pattern-get-radial-circles
- Function: cairo-pattern-get-radial-circles (PATTERN `<cairo-pattern-t>')
==>(RET `<cairo-status-t>')(X0 `<double>')(Y0 `<double>')(R0 `<double>')(X1
`<double>')(Y1 `<double>')(R1 `<double>')
     Gets the gradient endpoint circles for a radial gradient, each specified as
     a center coordinate and a radius.

     pattern
          a `<cairo-pattern-t>'

     x0
          return value for the x coordinate of the center of the first circle,
          or ``#f''

     y0
          return value for the y coordinate of the center of the first circle,
          or ``#f''

     r0
          return value for the radius of the first circle, or ``#f''

     x1
          return value for the x coordinate of the center of the second circle,
          or ``#f''

     y1
          return value for the y coordinate of the center of the second circle,
          or ``#f''

     r1
          return value for the radius of the second circle, or ``#f''

     ret
          `CAIRO_STATUS_SUCCESS', or `CAIRO_STATUS_PATTERN_TYPE_MISMATCH' if
          PATTERN is not a radial gradient pattern.

     Since 1.4

     This documentation was automatically generated.

cairo-pattern-set-extend
- Function: cairo-pattern-set-extend (PATTERN `<cairo-pattern-t>')(EXTEND
`<cairo-extend-t>')
     Sets the mode to be used for drawing outside the area of a pattern. See
     `<cairo-extend-t>' for details on the semantics of each extend strategy.

     pattern
          a `<cairo-pattern-t>'

     extend
          a `<cairo-extend-t>' describing how the area outside of the pattern
          will be drawn

     This documentation was automatically generated.

cairo-pattern-get-extend
- Function: cairo-pattern-get-extend (PATTERN `<cairo-pattern-t>') ==>(RET
`<cairo-extend-t>')
     Gets the current extend mode for a pattern. See `<cairo-extend-t>' for
     details on the semantics of each extend strategy.

     pattern
          a `<cairo-pattern-t>'

     ret
          the current extend strategy used for drawing the pattern.

     This documentation was automatically generated.

cairo-pattern-set-filter
- Function: cairo-pattern-set-filter (PATTERN `<cairo-pattern-t>')(FILTER
`<cairo-filter-t>')
     Sets the filter to be used for resizing when using this pattern. See
     `<cairo-filter-t>' for details on each filter.

     pattern
          a `<cairo-pattern-t>'

     filter
          a `<cairo-filter-t>' describing the filter to use for resizing the
          pattern

     This documentation was automatically generated.

cairo-pattern-get-filter
- Function: cairo-pattern-get-filter (PATTERN `<cairo-pattern-t>') ==>(RET
`<cairo-filter-t>')
     Gets the current filter for a pattern. See `<cairo-filter-t>' for details
     on each filter.

     pattern
          a `<cairo-pattern-t>'

     ret
          the current filter used for resizing the pattern.

     This documentation was automatically generated.

cairo-pattern-set-matrix
- Function: cairo-pattern-set-matrix (PATTERN `<cairo-pattern-t>')(MATRIX
`<cairo-matrix-t>')
     Sets the pattern's transformation matrix to MATRIX. This matrix is a
     transformation from user space to pattern space.

     When a pattern is first created it always has the identity matrix for its
     transformation matrix, which means that pattern space is initially
     identical to user space.

     Important: Please note that the direction of this transformation matrix is
     from user space to pattern space. This means that if you imagine the flow
     from a pattern to user space (and on to device space), then coordinates in
     that flow will be transformed by the inverse of the pattern matrix.

     For example, if you want to make a pattern appear twice as large as it does
     by default the correct code to use is:

          
          cairo_matrix_init_scale (&matrix, 0.5, 0.5);
          cairo_pattern_set_matrix (pattern, &matrix);
          

     Meanwhile, using values of 2.0 rather than 0.5 in the code above would
     cause the pattern to appear at half of its default size.

     Also, please note the discussion of the user-space locking semantics of
     `cairo-set-source'.

     pattern
          a `<cairo-pattern-t>'

     matrix
          a `<cairo-matrix-t>'

     This documentation was automatically generated.

cairo-pattern-get-matrix
- Function: cairo-pattern-get-matrix (PATTERN `<cairo-pattern-t>')(MATRIX
`<cairo-matrix-t>')
     Stores the pattern's transformation matrix into MATRIX.

     pattern
          a `<cairo-pattern-t>'

     matrix
          return value for the matrix

     This documentation was automatically generated.

cairo-pattern-get-type
- Function: cairo-pattern-get-type (PATTERN `<cairo-pattern-t>') ==>(RET
`<cairo-pattern-type-t>')
     This function returns the type a pattern. See `<cairo-pattern-type-t>' for
     available types.

     pattern
          a `<cairo-pattern-t>'

     ret
          The type of PATTERN.

     Since 1.2

     This documentation was automatically generated.

cairo-pdf-surface-create
- Function: cairo-pdf-surface-create (FILENAME `<char>')(WIDTH-IN-POINTS
`<double>')(HEIGHT-IN-POINTS `<double>') ==>(RET `<cairo-surface-t>')
     Creates a PDF surface of the specified size in points to be written to
     FILENAME.

     filename
          a filename for the PDF output (must be writable)

     width-in-points
          width of the surface, in points (1 point == 1/72.0 inch)

     height-in-points
          height of the surface, in points (1 point == 1/72.0 inch)

     ret
          a pointer to the newly created surface. The caller owns the surface
          and should call cairo_surface_destroy when done with it. This function
          always returns a valid pointer, but it will return a pointer to a
          "nil" surface if an error such as out of memory occurs. You can use
          `cairo-surface-status' to check for this.

     Since 1.2

     This documentation was automatically generated.

cairo-pdf-surface-set-size
- Function: cairo-pdf-surface-set-size (SURFACE
`<cairo-surface-t>')(WIDTH-IN-POINTS `<double>')(HEIGHT-IN-POINTS `<double>')
     Changes the size of a PDF surface for the current (and subsequent) pages.

     This function should only be called before any drawing operations have been
     performed on the current page. The simplest way to do this is to call this
     function immediately after creating the surface or immediately after
     completing a page with either `cairo-show-page' or `cairo-copy-page'.

     surface
          a PDF cairo_surface_t

     width-in-points
          new surface width, in points (1 point == 1/72.0 inch)

     height-in-points
          new surface height, in points (1 point == 1/72.0 inch)

     Since 1.2

     This documentation was automatically generated.

cairo-image-surface-create-from-png
- Function: cairo-image-surface-create-from-png (FILENAME `<char>') ==>(RET
`<cairo-surface-t>')
     Creates a new image surface and initializes the contents to the given PNG
     file.

     filename
          name of PNG file to load

     ret
          a new `<cairo-surface-t>' initialized with the contents of the PNG
          file, or a "nil" surface if any error occurred. A nil surface can be
          checked for with cairo_surface_status(surface) which may return one of
          the following values: CAIRO_STATUS_NO_MEMORY
          CAIRO_STATUS_FILE_NOT_FOUND CAIRO_STATUS_READ_ERROR

     This documentation was automatically generated.

cairo-surface-write-to-png
- Function: cairo-surface-write-to-png (SURFACE `<cairo-surface-t>')(FILENAME
`<char>') ==>(RET `<cairo-status-t>')
     Writes the contents of SURFACE to a new file FILENAME as a PNG image.

     surface
          a `<cairo-surface-t>' with pixel contents

     filename
          the name of a file to write to

     ret
          CAIRO_STATUS_SUCCESS if the PNG file was written successfully.
          Otherwise, CAIRO_STATUS_NO_MEMORY if memory could not be allocated for
          the operation or CAIRO_STATUS_SURFACE_TYPE_MISMATCH if the surface
          does not have pixel contents, or CAIRO_STATUS_WRITE_ERROR if an I/O
          error occurs while attempting to write the file.

     This documentation was automatically generated.

cairo-ps-surface-create
- Function: cairo-ps-surface-create (FILENAME `<char>')(WIDTH-IN-POINTS
`<double>')(HEIGHT-IN-POINTS `<double>') ==>(RET `<cairo-surface-t>')
     Creates a PostScript surface of the specified size in points to be written
     to FILENAME. See `cairo-ps-surface-create-for-stream' for a more flexible
     mechanism for handling the PostScript output than simply writing it to a
     named file.

     Note that the size of individual pages of the PostScript output can vary.
     See `cairo-ps-surface-set-size'.

     filename
          a filename for the PS output (must be writable)

     width-in-points
          width of the surface, in points (1 point == 1/72.0 inch)

     height-in-points
          height of the surface, in points (1 point == 1/72.0 inch)

     ret
          a pointer to the newly created surface. The caller owns the surface
          and should call cairo_surface_destroy when done with it. This function
          always returns a valid pointer, but it will return a pointer to a
          "nil" surface if an error such as out of memory occurs. You can use
          `cairo-surface-status' to check for this.

     Since 1.2

     This documentation was automatically generated.

cairo-ps-surface-set-size
- Function: cairo-ps-surface-set-size (SURFACE
`<cairo-surface-t>')(WIDTH-IN-POINTS `<double>')(HEIGHT-IN-POINTS `<double>')
     Changes the size of a PostScript surface for the current (and subsequent)
     pages.

     This function should only be called before any drawing operations have been
     performed on the current page. The simplest way to do this is to call this
     function immediately after creating the surface or immediately after
     completing a page with either `cairo-show-page' or `cairo-copy-page'.

     surface
          a PostScript cairo_surface_t

     width-in-points
          new surface width, in points (1 point == 1/72.0 inch)

     height-in-points
          new surface height, in points (1 point == 1/72.0 inch)

     Since 1.2

     This documentation was automatically generated.

cairo-ps-surface-dsc-comment
- Function: cairo-ps-surface-dsc-comment (SURFACE `<cairo-surface-t>')(COMMENT
`<char>')
     Emit a comment into the PostScript output for the given surface.

     The comment is expected to conform to the PostScript Language Document
     Structuring Conventions (DSC). Please see that manual for details on the
     available comments and their meanings. In particular, the %`IncludeFeature'
     comment allows a device-independent means of controlling printer device
     features. So the PostScript Printer Description Files Specification will
     also be a useful reference.

     The comment string must begin with a percent character (%) and the total
     length of the string (including any initial percent characters) must not
     exceed 255 characters. Violating either of these conditions will place
     SURFACE into an error state. But beyond these two conditions, this function
     will not enforce conformance of the comment with any particular
     specification.

     The comment string should not have a trailing newline.

     The DSC specifies different sections in which particular comments can
     appear. This function provides for comments to be emitted within three
     sections: the header, the Setup section, and the PageSetup section.
     Comments appearing in the first two sections apply to the entire document
     while comments in the BeginPageSetup section apply only to a single page.

     For comments to appear in the header section, this function should be
     called after the surface is created, but before a call to
     `cairo-ps-surface-begin-setup'.

     For comments to appear in the Setup section, this function should be called
     after a call to `cairo-ps-surface-begin-setup' but before a call to
     `cairo-ps-surface-begin-page-setup'.

     For comments to appear in the PageSetup section, this function should be
     called after a call to `cairo-ps-surface-begin-page-setup'.

     Note that it is only necessary to call `cairo-ps-surface-begin-page-setup'
     for the first page of any surface. After a call to `cairo-show-page' or
     `cairo-copy-page' comments are unambiguously directed to the PageSetup
     section of the current page. But it doesn't hurt to call this function at
     the beginning of every page as that consistency may make the calling code
     simpler.

     As a final note, cairo automatically generates several comments on its own.
     As such, applications must not manually generate any of the following
     comments:

     Header section: %!PS-Adobe-3.0, %`Creator', %`CreationDate', %`Pages',
     %`BoundingBox', %`DocumentData', %`LanguageLevel', %`EndComments'.

     Setup section: %`BeginSetup', %`EndSetup'

     PageSetup section: %`BeginPageSetup', %`PageBoundingBox', %`EndPageSetup'.

     Other sections: %`BeginProlog', %`EndProlog', %`Page', %`Trailer', %`EOF'

     Here is an example sequence showing how this function might be used:

          
          cairo_surface_t *surface = cairo_ps_surface_create (filename, width, height);
          ...
          cairo_ps_surface_dsc_comment (surface, "%%Title: My excellent document");
          cairo_ps_surface_dsc_comment (surface, "%%Copyright: Copyright (C) 2006 Cairo Lover")
          ...
          cairo_ps_surface_dsc_begin_setup (surface);
          cairo_ps_surface_dsc_comment (surface, "%%IncludeFeature: *MediaColor White");
          ...
          cairo_ps_surface_dsc_begin_page_setup (surface);
          cairo_ps_surface_dsc_comment (surface, "%%IncludeFeature: *PageSize A3");
          cairo_ps_surface_dsc_comment (surface, "%%IncludeFeature: *InputSlot LargeCapacity");
          cairo_ps_surface_dsc_comment (surface, "%%IncludeFeature: *MediaType Glossy");
          cairo_ps_surface_dsc_comment (surface, "%%IncludeFeature: *MediaColor Blue");
          ... draw to first page here ..
          cairo_show_page (cr);
          ...
          cairo_ps_surface_dsc_comment (surface, "%%IncludeFeature: *PageSize A5");
          ...
          

     surface
          a PostScript cairo_surface_t

     comment
          a comment string to be emitted into the PostScript output

     Since 1.2

     This documentation was automatically generated.

cairo-scaled-font-create
- Function: cairo-scaled-font-create (FONT-FACE
`<cairo-font-face-t>')(FONT-MATRIX `<cairo-matrix-t>')(CTM
`<cairo-matrix-t>')(OPTIONS `<cairo-font-options-t>') ==>(RET
`<cairo-scaled-font-t>')
     Creates a `<cairo-scaled-font-t>' object from a font face and matrices that
     describe the size of the font and the environment in which it will be used.

     font-face
          a `<cairo-font-face-t>'

     font-matrix
          font space to user space transformation matrix for the font. In the
          simplest case of a N point font, this matrix is just a scale by N, but
          it can also be used to shear the font or stretch it unequally along
          the two axes. See `cairo-set-font-matrix'.

     ctm
          user to device transformation matrix with which the font will be used.

     options
          options to use when getting metrics for the font and rendering with
          it.

     ret
          a newly created `<cairo-scaled-font-t>'. Destroy with
          `cairo-scaled-font-destroy'

     This documentation was automatically generated.

cairo-scaled-font-extents
- Function: cairo-scaled-font-extents (SCALED-FONT
`<cairo-scaled-font-t>')(EXTENTS `<cairo-font-extents-t>')
     Gets the metrics for a `<cairo-scaled-font-t>'.

     scaled-font
          a `<cairo-scaled-font-t>'

     extents
          a `<cairo-font-extents-t>' which to store the retrieved extents.

     This documentation was automatically generated.

cairo-scaled-font-text-extents
- Function: cairo-scaled-font-text-extents (SCALED-FONT
`<cairo-scaled-font-t>')(UTF8 `<char>')(EXTENTS `<cairo-text-extents-t>')
     Gets the extents for a string of text. The extents describe a user-space
     rectangle that encloses the "inked" portion of the text drawn at the origin
     (0,0) (as it would be drawn by `cairo-show-text' if the cairo graphics
     state were set to the same font_face, font_matrix, ctm, and font_options as
     SCALED-FONT). Additionally, the x_advance and y_advance values indicate the
     amount by which the current point would be advanced by `cairo-show-text'.

     Note that whitespace characters do not directly contribute to the size of
     the rectangle (extents.width and extents.height). They do contribute
     indirectly by changing the position of non-whitespace characters. In
     particular, trailing whitespace characters are likely to not affect the
     size of the rectangle, though they will affect the x_advance and y_advance
     values.

     scaled-font
          a `<cairo-scaled-font-t>'

     utf8
          a string of text, encoded in UTF-8

     extents
          a `<cairo-text-extents-t>' which to store the retrieved extents.

     Since 1.2

     This documentation was automatically generated.

cairo-scaled-font-glyph-extents
- Function: cairo-scaled-font-glyph-extents (SCALED-FONT
`<cairo-scaled-font-t>')(GLYPHS `<cairo-glyph-t>')(NUM-GLYPHS `<int>')(EXTENTS
`<cairo-text-extents-t>')
     Gets the extents for an array of glyphs. The extents describe a user-space
     rectangle that encloses the "inked" portion of the glyphs, (as they would
     be drawn by `cairo-show-glyphs' if the cairo graphics state were set to the
     same font_face, font_matrix, ctm, and font_options as SCALED-FONT).
     Additionally, the x_advance and y_advance values indicate the amount by
     which the current point would be advanced by cairo_show_glyphs.

     Note that whitespace glyphs do not contribute to the size of the rectangle
     (extents.width and extents.height).

     scaled-font
          a `<cairo-scaled-font-t>'

     glyphs
          an array of glyph IDs with X and Y offsets.

     num-glyphs
          the number of glyphs in the GLYPHS array

     extents
          a `<cairo-text-extents-t>' which to store the retrieved extents.

     This documentation was automatically generated.

cairo-scaled-font-get-font-face
- Function: cairo-scaled-font-get-font-face (SCALED-FONT
`<cairo-scaled-font-t>') ==>(RET `<cairo-font-face-t>')
     Gets the font face that this scaled font was created for.

     scaled-font
          a `<cairo-scaled-font-t>'

     ret
          The `<cairo-font-face-t>' with which SCALED-FONT was created.

     Since 1.2

     This documentation was automatically generated.

cairo-scaled-font-get-font-options
- Function: cairo-scaled-font-get-font-options (SCALED-FONT
`<cairo-scaled-font-t>')(OPTIONS `<cairo-font-options-t>')
     Stores the font options with which SCALED-FONT was created into OPTIONS.

     scaled-font
          a `<cairo-scaled-font-t>'

     options
          return value for the font options

     Since 1.2

     This documentation was automatically generated.

cairo-scaled-font-get-font-matrix
- Function: cairo-scaled-font-get-font-matrix (SCALED-FONT
`<cairo-scaled-font-t>')(FONT-MATRIX `<cairo-matrix-t>')
     Stores the font matrix with which SCALED-FONT was created into MATRIX.

     scaled-font
          a `<cairo-scaled-font-t>'

     font-matrix
          return value for the matrix

     Since 1.2

     This documentation was automatically generated.

cairo-scaled-font-get-ctm
- Function: cairo-scaled-font-get-ctm (SCALED-FONT `<cairo-scaled-font-t>')(CTM
`<cairo-matrix-t>')
     Stores the CTM with which SCALED-FONT was created into CTM.

     scaled-font
          a `<cairo-scaled-font-t>'

     ctm
          return value for the CTM

     Since 1.2

     This documentation was automatically generated.

cairo-scaled-font-get-type
- Function: cairo-scaled-font-get-type (SCALED-FONT `<cairo-scaled-font-t>')
==>(RET `<cairo-font-type-t>')
     This function returns the type of the backend used to create a scaled font.
     See `<cairo-font-type-t>' for available types.

     scaled-font
          a `<cairo-scaled-font-t>'

     ret
          The type of SCALED-FONT.

     Since 1.2

     This documentation was automatically generated.

cairo-surface-create-similar
- Function: cairo-surface-create-similar (OTHER `<cairo-surface-t>')(CONTENT
`<cairo-content-t>')(WIDTH `<int>')(HEIGHT `<int>') ==>(RET `<cairo-surface-t>')
     Create a new surface that is as compatible as possible with an existing
     surface. For example the new surface will have the same fallback resolution
     and font options as OTHER. Generally, the new surface will also use the
     same backend as OTHER, unless that is not possible for some reason. The
     type of the returned surface may be examined with `cairo-surface-get-type'.

     Initially the surface contents are all 0 (transparent if contents have
     transparency, black otherwise.)

     other
          an existing surface used to select the backend of the new surface

     content
          the content for the new surface

     width
          width of the new surface, (in device-space units)

     height
          height of the new surface (in device-space units)

     ret
          a pointer to the newly allocated surface. The caller owns the surface
          and should call cairo_surface_destroy when done with it. This function
          always returns a valid pointer, but it will return a pointer to a
          "nil" surface if OTHER is already in an error state or any other error
          occurs.

     This documentation was automatically generated.

cairo-surface-finish
- Function: cairo-surface-finish (SURFACE `<cairo-surface-t>')
     This function finishes the surface and drops all references to external
     resources. For example, for the Xlib backend it means that cairo will no
     longer access the drawable, which can be freed. After calling
     `cairo-surface-finish' the only valid operations on a surface are getting
     and setting user data and referencing and destroying it. Further drawing to
     the surface will not affect the surface but will instead trigger a
     CAIRO_STATUS_SURFACE_FINISHED error.

     When the last call to `cairo-surface-destroy' decreases the reference count
     to zero, cairo will call `cairo-surface-finish' if it hasn't been called
     already, before freeing the resources associated with the surface.

     surface
          the `<cairo-surface-t>' to finish

     This documentation was automatically generated.

cairo-surface-flush
- Function: cairo-surface-flush (SURFACE `<cairo-surface-t>')
     Do any pending drawing for the surface and also restore any temporary
     modification's cairo has made to the surface's state. This function must be
     called before switching from drawing on the surface with cairo to drawing
     on it directly with native APIs. If the surface doesn't support direct
     access, then this function does nothing.

     surface
          a `<cairo-surface-t>'

     This documentation was automatically generated.

cairo-surface-get-font-options
- Function: cairo-surface-get-font-options (SURFACE `<cairo-surface-t>')(OPTIONS
`<cairo-font-options-t>')
     Retrieves the default font rendering options for the surface. This allows
     display surfaces to report the correct subpixel order for rendering on
     them, print surfaces to disable hinting of metrics and so forth. The result
     can then be used with `cairo-scaled-font-create'.

     surface
          a `<cairo-surface-t>'

     options
          a `<cairo-font-options-t>' object into which to store the retrieved
          options. All existing values are overwritten

     This documentation was automatically generated.

cairo-surface-get-content
- Function: cairo-surface-get-content (SURFACE `<cairo-surface-t>') ==>(RET
`<cairo-content-t>')
     This function returns the content type of SURFACE which indicates whether
     the surface contains color and/or alpha information. See
     `<cairo-content-t>'.

     surface
          a `<cairo-surface-t>'

     ret
          The content type of SURFACE.

     Since 1.2

     This documentation was automatically generated.

cairo-surface-mark-dirty
- Function: cairo-surface-mark-dirty (SURFACE `<cairo-surface-t>')
     Tells cairo that drawing has been done to surface using means other than
     cairo, and that cairo should reread any cached areas. Note that you must
     call `cairo-surface-flush' before doing such drawing.

     surface
          a `<cairo-surface-t>'

     This documentation was automatically generated.

cairo-surface-mark-dirty-rectangle
- Function: cairo-surface-mark-dirty-rectangle (SURFACE `<cairo-surface-t>')(X
`<int>')(Y `<int>')(WIDTH `<int>')(HEIGHT `<int>')
     Like `cairo-surface-mark-dirty', but drawing has been done only to the
     specified rectangle, so that cairo can retain cached contents for other
     parts of the surface.

     Any cached clip set on the surface will be reset by this function, to make
     sure that future cairo calls have the clip set that they expect.

     surface
          a `<cairo-surface-t>'

     x
          X coordinate of dirty rectangle

     y
          Y coordinate of dirty rectangle

     width
          width of dirty rectangle

     height
          height of dirty rectangle

     This documentation was automatically generated.

cairo-surface-set-device-offset
- Function: cairo-surface-set-device-offset (SURFACE
`<cairo-surface-t>')(X-OFFSET `<double>')(Y-OFFSET `<double>')
     Sets an offset that is added to the device coordinates determined by the
     CTM when drawing to SURFACE. One use case for this function is when we want
     to create a `<cairo-surface-t>' that redirects drawing for a portion of an
     onscreen surface to an offscreen surface in a way that is completely
     invisible to the user of the cairo API. Setting a transformation via
     `cairo-translate' isn't sufficient to do this, since functions like
     `cairo-device-to-user' will expose the hidden offset.

     Note that the offset affects drawing to the surface as well as using the
     surface in a source pattern.

     surface
          a `<cairo-surface-t>'

     x-offset
          the offset in the X direction, in device units

     y-offset
          the offset in the Y direction, in device units

     This documentation was automatically generated.

cairo-surface-get-device-offset
- Function: cairo-surface-get-device-offset (SURFACE `<cairo-surface-t>')
==>(X-OFFSET `<double>')(Y-OFFSET `<double>')
     This function returns the previous device offset set by
     `cairo-surface-set-device-offset'.

     surface
          a `<cairo-surface-t>'

     x-offset
          the offset in the X direction, in device units

     y-offset
          the offset in the Y direction, in device units

     Since 1.2

     This documentation was automatically generated.

cairo-surface-get-type
- Function: cairo-surface-get-type (SURFACE `<cairo-surface-t>') ==>(RET
`<cairo-surface-type-t>')
     This function returns the type of the backend used to create a surface. See
     `<cairo-surface-type-t>' for available types.

     surface
          a `<cairo-surface-t>'

     ret
          The type of SURFACE.

     Since 1.2

     This documentation was automatically generated.

cairo-svg-surface-create
- Function: cairo-svg-surface-create (FILENAME `<char>')(WIDTH-IN-POINTS
`<double>')(HEIGHT-IN-POINTS `<double>') ==>(RET `<cairo-surface-t>')
     Creates a SVG surface of the specified size in points to be written to
     FILENAME.

     filename
          a filename for the SVG output (must be writable)

     width-in-points
          width of the surface, in points (1 point == 1/72.0 inch)

     height-in-points
          height of the surface, in points (1 point == 1/72.0 inch)

     ret
          a pointer to the newly created surface. The caller owns the surface
          and should call cairo_surface_destroy when done with it. This function
          always returns a valid pointer, but it will return a pointer to a
          "nil" surface if an error such as out of memory occurs. You can use
          `cairo-surface-status' to check for this.

     Since 1.2

     This documentation was automatically generated.

cairo-select-font-face
- Function: cairo-select-font-face (CR `<cairo-t>')(FAMILY `<char>')(SLANT
`<cairo-font-slant-t>')(WEIGHT `<cairo-font-weight-t>')
     Selects a family and style of font from a simplified description as a
     family name, slant and weight. This function is meant to be used only for
     applications with simple font needs: Cairo doesn't provide for operations
     such as listing all available fonts on the system, and it is expected that
     most applications will need to use a more comprehensive font handling and
     text layout library in addition to cairo.

     cr
          a `<cairo-t>'

     family
          a font family name, encoded in UTF-8

     slant
          the slant for the font

     weight
          the weight for the font

     This documentation was automatically generated.

cairo-set-font-size
- Function: cairo-set-font-size (CR `<cairo-t>')(SIZE `<double>')
     Sets the current font matrix to a scale by a factor of SIZE, replacing any
     font matrix previously set with `cairo-set-font-size' or
     `cairo-set-font-matrix'. This results in a font size of SIZE user space
     units. (More precisely, this matrix will result in the font's em-square
     being a SIZE by SIZE square in user space.)

     cr
          a `<cairo-t>'

     size
          the new font size, in user space units

     This documentation was automatically generated.

cairo-set-font-matrix
- Function: cairo-set-font-matrix (CR `<cairo-t>')(MATRIX `<cairo-matrix-t>')
     Sets the current font matrix to MATRIX. The font matrix gives a
     transformation from the design space of the font (in this space, the
     em-square is 1 unit by 1 unit) to user space. Normally, a simple scale is
     used (see `cairo-set-font-size'), but a more complex font matrix can be
     used to shear the font or stretch it unequally along the two axes

     cr
          a `<cairo-t>'

     matrix
          a `<cairo-matrix-t>' describing a transform to be applied to the
          current font.

     This documentation was automatically generated.

cairo-get-font-matrix
- Function: cairo-get-font-matrix (CR `<cairo-t>')(MATRIX `<cairo-matrix-t>')
     Stores the current font matrix into MATRIX. See `cairo-set-font-matrix'.

     cr
          a `<cairo-t>'

     matrix
          return value for the matrix

     This documentation was automatically generated.

cairo-set-font-options
- Function: cairo-set-font-options (CR `<cairo-t>')(OPTIONS
`<cairo-font-options-t>')
     Sets a set of custom font rendering options for the `<cairo-t>'. Rendering
     options are derived by merging these options with the options derived from
     underlying surface; if the value in OPTIONS has a default value (like
     `CAIRO_ANTIALIAS_DEFAULT'), then the value from the surface is used.

     cr
          a `<cairo-t>'

     options
          font options to use

     This documentation was automatically generated.

cairo-get-font-options
- Function: cairo-get-font-options (CR `<cairo-t>')(OPTIONS
`<cairo-font-options-t>')
     Retrieves font rendering options set via `<cairo-set-font-options>'. Note
     that the returned options do not include any options derived from the
     underlying surface; they are literally the options passed to
     `cairo-set-font-options'.

     cr
          a `<cairo-t>'

     options
          a `<cairo-font-options-t>' object into which to store the retrieved
          options. All existing values are overwritten

     This documentation was automatically generated.

cairo-set-font-face
- Function: cairo-set-font-face (CR `<cairo-t>')(FONT-FACE
`<cairo-font-face-t>')
     Replaces the current `<cairo-font-face-t>' object in the `<cairo-t>' with
     FONT-FACE. The replaced font face in the `<cairo-t>' will be destroyed if
     there are no other references to it.

     cr
          a `<cairo-t>'

     font-face
          a `<cairo-font-face-t>', or ``#f'' to restore to the default font

     This documentation was automatically generated.

cairo-get-font-face
- Function: cairo-get-font-face (CR `<cairo-t>') ==>(RET `<cairo-font-face-t>')
     Gets the current font face for a `<cairo-t>'.

     cr
          a `<cairo-t>'

     ret
          the current font face. This object is owned by cairo. To keep a
          reference to it, you must call cairo_font_face_reference. This
          function never returns ``#f''. If memory cannot be allocated, a
          special "nil" `<cairo-font-face-t>' object will be returned on which
          `cairo-font-face-status' returns `CAIRO_STATUS_NO_MEMORY'. Using this
          nil object will cause its error state to propagate to other objects it
          is passed to, (for example, calling `cairo-set-font-face' with a nil
          font will trigger an error that will shutdown the cairo_t object).

     This documentation was automatically generated.

cairo-set-scaled-font
- Function: cairo-set-scaled-font (CR `<cairo-t>')(SCALED-FONT
`<cairo-scaled-font-t>')
     Replaces the current font face, font matrix, and font options in the
     `<cairo-t>' with those of the `<cairo-scaled-font-t>'. Except for some
     translation, the current CTM of the `<cairo-t>' should be the same as that
     of the `<cairo-scaled-font-t>', which can be accessed using
     `cairo-scaled-font-get-ctm'.

     cr
          a `<cairo-t>'

     scaled-font
          a `<cairo-scaled-font-t>'

     Since 1.2

     This documentation was automatically generated.

cairo-get-scaled-font
- Function: cairo-get-scaled-font (CR `<cairo-t>') ==>(RET
`<cairo-scaled-font-t>')
     Gets the current scaled font for a `<cairo-t>'.

     cr
          a `<cairo-t>'

     ret
          the current scaled font. This object is owned by cairo. To keep a
          reference to it, you must call `cairo-scaled-font-reference'. This
          function never returns ``#f''. If memory cannot be allocated, a
          special "nil" `<cairo-scaled-font-t>' object will be returned on which
          `cairo-scaled-font-status' returns `CAIRO_STATUS_NO_MEMORY'. Using
          this nil object will cause its error state to propagate to other
          objects it is passed to, (for example, calling `cairo-set-scaled-font'
          with a nil font will trigger an error that will shutdown the cairo_t
          object).

     Since 1.4

     This documentation was automatically generated.

cairo-show-text
- Function: cairo-show-text (CR `<cairo-t>')(UTF8 `<char>')
     A drawing operator that generates the shape from a string of UTF-8
     characters, rendered according to the current font_face, font_size
     (font_matrix), and font_options.

     This function first computes a set of glyphs for the string of text. The
     first glyph is placed so that its origin is at the current point. The
     origin of each subsequent glyph is offset from that of the previous glyph
     by the advance values of the previous glyph.

     After this call the current point is moved to the origin of where the next
     glyph would be placed in this same progression. That is, the current point
     will be at the origin of the final glyph offset by its advance values. This
     allows for easy display of a single logical string with multiple calls to
     `cairo-show-text'.

     NOTE: The `cairo-show-text' function call is part of what the cairo
     designers call the "toy" text API. It is convenient for short demos and
     simple programs, but it is not expected to be adequate for serious
     text-using applications. See `cairo-show-glyphs' for the "real" text
     display API in cairo.

     cr
          a cairo context

     utf8
          a string of text encoded in UTF-8

     This documentation was automatically generated.

cairo-show-glyphs
- Function: cairo-show-glyphs (CR `<cairo-t>')(GLYPHS
`<cairo-glyph-t>')(NUM-GLYPHS `<int>')
     A drawing operator that generates the shape from an array of glyphs,
     rendered according to the current font_face, font_size (font_matrix), and
     font_options.

     cr
          a cairo context

     glyphs
          array of glyphs to show

     num-glyphs
          number of glyphs to show

     This documentation was automatically generated.

cairo-font-extents
- Function: cairo-font-extents (CR `<cairo-t>')(EXTENTS
`<cairo-font-extents-t>')
     Gets the font extents for the currently selected font.

     cr
          a `<cairo-t>'

     extents
          a `<cairo-font-extents-t>' object into which the results will be
          stored.

     This documentation was automatically generated.

cairo-text-extents
- Function: cairo-text-extents (CR `<cairo-t>')(UTF8 `<char>')(EXTENTS
`<cairo-text-extents-t>')
     Gets the extents for a string of text. The extents describe a user-space
     rectangle that encloses the "inked" portion of the text, (as it would be
     drawn by `cairo-show-text'). Additionally, the x_advance and y_advance
     values indicate the amount by which the current point would be advanced by
     `cairo-show-text'.

     Note that whitespace characters do not directly contribute to the size of
     the rectangle (extents.width and extents.height). They do contribute
     indirectly by changing the position of non-whitespace characters. In
     particular, trailing whitespace characters are likely to not affect the
     size of the rectangle, though they will affect the x_advance and y_advance
     values.

     cr
          a `<cairo-t>'

     utf8
          a string of text, encoded in UTF-8

     extents
          a `<cairo-text-extents-t>' object into which the results will be
          stored

     This documentation was automatically generated.

cairo-glyph-extents
- Function: cairo-glyph-extents (CR `<cairo-t>')(GLYPHS
`<cairo-glyph-t>')(NUM-GLYPHS `<int>')(EXTENTS `<cairo-text-extents-t>')
     Gets the extents for an array of glyphs. The extents describe a user-space
     rectangle that encloses the "inked" portion of the glyphs, (as they would
     be drawn by `cairo-show-glyphs'). Additionally, the x_advance and y_advance
     values indicate the amount by which the current point would be advanced by
     cairo_show_glyphs.

     Note that whitespace glyphs do not contribute to the size of the rectangle
     (extents.width and extents.height).

     cr
          a `<cairo-t>'

     glyphs
          an array of `<cairo-glyph-t>' objects

     num-glyphs
          the number of elements in GLYPHS

     extents
          a `<cairo-text-extents-t>' object into which the results will be
          stored

     This documentation was automatically generated.

cairo-translate
- Function: cairo-translate (CR `<cairo-t>')(TX `<double>')(TY `<double>')
     Modifies the current transformation matrix (CTM) by translating the
     user-space origin by (TX, TY). This offset is interpreted as a user-space
     coordinate according to the CTM in place before the new call to
     cairo_translate. In other words, the translation of the user-space origin
     takes place after any existing transformation.

     cr
          a cairo context

     tx
          amount to translate in the X direction

     ty
          amount to translate in the Y direction

     This documentation was automatically generated.

cairo-scale
- Function: cairo-scale (CR `<cairo-t>')(SX `<double>')(SY `<double>')
     Modifies the current transformation matrix (CTM) by scaling the X and Y
     user-space axes by SX and SY respectively. The scaling of the axes takes
     place after any existing transformation of user space.

     cr
          a cairo context

     sx
          scale factor for the X dimension

     sy
          scale factor for the Y dimension

     This documentation was automatically generated.

cairo-rotate
- Function: cairo-rotate (CR `<cairo-t>')(ANGLE `<double>')
     Modifies the current transformation matrix (CTM) by rotating the user-space
     axes by ANGLE radians. The rotation of the axes takes places after any
     existing transformation of user space. The rotation direction for positive
     angles is from the positive X axis toward the positive Y axis.

     cr
          a cairo context

     angle
          angle (in radians) by which the user-space axes will be rotated

     This documentation was automatically generated.

cairo-transform
- Function: cairo-transform (CR `<cairo-t>')(MATRIX `<cairo-matrix-t>')
     Modifies the current transformation matrix (CTM) by applying MATRIX as an
     additional transformation. The new transformation of user space takes place
     after any existing transformation.

     cr
          a cairo context

     matrix
          a transformation to be applied to the user-space axes

     This documentation was automatically generated.

cairo-set-matrix
- Function: cairo-set-matrix (CR `<cairo-t>')(MATRIX `<cairo-matrix-t>')
     Modifies the current transformation matrix (CTM) by setting it equal to
     MATRIX.

     cr
          a cairo context

     matrix
          a transformation matrix from user space to device space

     This documentation was automatically generated.

cairo-get-matrix
- Function: cairo-get-matrix (CR `<cairo-t>')(MATRIX `<cairo-matrix-t>')
     Stores the current transformation matrix (CTM) into MATRIX.

     cr
          a cairo context

     matrix
          return value for the matrix

     This documentation was automatically generated.

cairo-identity-matrix
- Function: cairo-identity-matrix (CR `<cairo-t>')
     Resets the current transformation matrix (CTM) by setting it equal to the
     identity matrix. That is, the user-space and device-space axes will be
     aligned and one user-space unit will transform to one device-space unit.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-user-to-device
- Function: cairo-user-to-device (CR `<cairo-t>') ==>(X `<double>')(Y
`<double>')
     Transform a coordinate from user space to device space by multiplying the
     given point by the current transformation matrix (CTM).

     cr
          a cairo context

     x
          X value of coordinate (in/out parameter)

     y
          Y value of coordinate (in/out parameter)

     This documentation was automatically generated.

cairo-user-to-device-distance
- Function: cairo-user-to-device-distance (CR `<cairo-t>') ==>(DX `<double>')(DY
`<double>')
     Transform a distance vector from user space to device space. This function
     is similar to `cairo-user-to-device' except that the translation components
     of the CTM will be ignored when transforming (DX,DY).

     cr
          a cairo context

     dx
          X component of a distance vector (in/out parameter)

     dy
          Y component of a distance vector (in/out parameter)

     This documentation was automatically generated.

cairo-device-to-user
- Function: cairo-device-to-user (CR `<cairo-t>') ==>(X `<double>')(Y
`<double>')
     Transform a coordinate from device space to user space by multiplying the
     given point by the inverse of the current transformation matrix (CTM).

     cr
          a cairo

     x
          X value of coordinate (in/out parameter)

     y
          Y value of coordinate (in/out parameter)

     This documentation was automatically generated.

cairo-device-to-user-distance
- Function: cairo-device-to-user-distance (CR `<cairo-t>') ==>(DX `<double>')(DY
`<double>')
     Transform a distance vector from device space to user space. This function
     is similar to `cairo-device-to-user' except that the translation components
     of the inverse CTM will be ignored when transforming (DX,DY).

     cr
          a cairo context

     dx
          X component of a distance vector (in/out parameter)

     dy
          Y component of a distance vector (in/out parameter)

     This documentation was automatically generated.

cairo-version
- Function: cairo-version ==>(RET `<int>')
     Returns the version of the cairo library encoded in a single integer as per
     CAIRO_VERSION_ENCODE. The encoding ensures that later versions compare
     greater than earlier versions.

     A run-time comparison to check that cairo's version is greater than or
     equal to version X.Y.Z could be performed as follows:

          
          if (cairo_version() >= CAIRO_VERSION_ENCODE(X,Y,Z)) {...}
          

     See also `cairo-version-string' as well as the compile-time equivalents
     `CAIRO_VERSION' and `CAIRO_VERSION_STRING'.

     ret
          the encoded version.

     This documentation was automatically generated.

cairo-version-string
- Function: cairo-version-string ==>(RET `<char>')
     Returns the version of the cairo library as a human-readable string of the
     form "X.Y.Z".

     See also `cairo-version' as well as the compile-time equivalents
     `CAIRO_VERSION_STRING' and `CAIRO_VERSION'.

     ret
          a string containing the version.

     This documentation was automatically generated.

cairo-create
- Function: cairo-create (TARGET `<cairo-surface-t>') ==>(RET `<cairo-t>')
     Creates a new `<cairo-t>' with all graphics state parameters set to default
     values and with TARGET as a target surface. The target surface should be
     constructed with a backend-specific function such as
     `cairo-image-surface-create' (or any other `cairo_<backend>_surface_create'
     variant).

     This function references TARGET, so you can immediately call
     `cairo-surface-destroy' on it if you don't need to maintain a separate
     reference to it.

     target
          target surface for the context

     ret
          a newly allocated `<cairo-t>' with a reference count of 1. The initial
          reference count should be released with `cairo-destroy' when you are
          done using the `<cairo-t>'. This function never returns ``#f''. If
          memory cannot be allocated, a special `<cairo-t>' object will be
          returned on which `cairo-status' returns `CAIRO_STATUS_NO_MEMORY'. You
          can use this object normally, but no drawing will be done.

     This documentation was automatically generated.

cairo-save
- Function: cairo-save (CR `<cairo-t>')
     Makes a copy of the current state of CR and saves it on an internal stack
     of saved states for CR. When `cairo-restore' is called, CR will be restored
     to the saved state. Multiple calls to `cairo-save' and `cairo-restore' can
     be nested; each call to `cairo-restore' restores the state from the
     matching paired `cairo-save'.

     It isn't necessary to clear all saved states before a `<cairo-t>' is freed.
     If the reference count of a `<cairo-t>' drops to zero in response to a call
     to `cairo-destroy', any saved states will be freed along with the
     `<cairo-t>'.

     cr
          a `<cairo-t>'

     This documentation was automatically generated.

cairo-restore
- Function: cairo-restore (CR `<cairo-t>')
     Restores CR to the state saved by a preceding call to `cairo-save' and
     removes that state from the stack of saved states.

     cr
          a `<cairo-t>'

     This documentation was automatically generated.

cairo-get-target
- Function: cairo-get-target (CR `<cairo-t>') ==>(RET `<cairo-surface-t>')
     Gets the target surface for the cairo context as passed to `cairo-create'.

     This function will always return a valid pointer, but the result can be a
     "nil" surface if CR is already in an error state, (ie.
     `cairo-status'`!='`CAIRO_STATUS_SUCCESS'). A nil surface is indicated by
     `cairo-surface-status'`!='`CAIRO_STATUS_SUCCESS'.

     cr
          a cairo context

     ret
          the target surface. This object is owned by cairo. To keep a reference
          to it, you must call `cairo-surface-reference'.

     This documentation was automatically generated.

cairo-push-group
- Function: cairo-push-group (CR `<cairo-t>')
     Temporarily redirects drawing to an intermediate surface known as a group.
     The redirection lasts until the group is completed by a call to
     `cairo-pop-group' or `cairo-pop-group-to-source'. These calls provide the
     result of any drawing to the group as a pattern, (either as an explicit
     object, or set as the source pattern).

     This group functionality can be convenient for performing intermediate
     compositing. One common use of a group is to render objects as opaque
     within the group, (so that they occlude each other), and then blend the
     result with translucence onto the destination.

     Groups can be nested arbitrarily deep by making balanced calls to
     `cairo-push-group'/`cairo-pop-group'. Each call pushes/pops the new target
     group onto/from a stack.

     The `cairo-push-group' function calls `cairo-save' so that any changes to
     the graphics state will not be visible outside the group, (the pop_group
     functions call `cairo-restore').

     By default the intermediate group will have a content type of
     CAIRO_CONTENT_COLOR_ALPHA. Other content types can be chosen for the group
     by using `cairo-push-group-with-content' instead.

     As an example, here is how one might fill and stroke a path with
     translucence, but without any portion of the fill being visible under the
     stroke:

          
          cairo_push_group (cr);
          cairo_set_source (cr, fill_pattern);
          cairo_fill_preserve (cr);
          cairo_set_source (cr, stroke_pattern);
          cairo_stroke (cr);
          cairo_pop_group_to_source (cr);
          cairo_paint_with_alpha (cr, alpha);
          

     cr
          a cairo context

     Since 1.2

     This documentation was automatically generated.

cairo-pop-group
- Function: cairo-pop-group (CR `<cairo-t>') ==>(RET `<cairo-pattern-t>')
     Terminates the redirection begun by a call to `cairo-push-group' or
     `cairo-push-group-with-content' and returns a new pattern containing the
     results of all drawing operations performed to the group.

     The `cairo-pop-group' function calls `cairo-restore', (balancing a call to
     `cairo-save' by the push_group function), so that any changes to the
     graphics state will not be visible outside the group.

     cr
          a cairo context

     ret
          a newly created (surface) pattern containing the results of all
          drawing operations performed to the group. The caller owns the
          returned object and should call `cairo-pattern-destroy' when finished
          with it.

     Since 1.2

     This documentation was automatically generated.

cairo-pop-group-to-source
- Function: cairo-pop-group-to-source (CR `<cairo-t>')
     Terminates the redirection begun by a call to `cairo-push-group' or
     `cairo-push-group-with-content' and installs the resulting pattern as the
     source pattern in the given cairo context.

     The behavior of this function is equivalent to the sequence of operations:

          
          cairo_pattern_t *group = cairo_pop_group (cr);
          cairo_set_source (cr, group);
          cairo_pattern_destroy (group);
          

     but is more convenient as their is no need for a variable to store the
     short-lived pointer to the pattern.

     The `cairo-pop-group' function calls `cairo-restore', (balancing a call to
     `cairo-save' by the push_group function), so that any changes to the
     graphics state will not be visible outside the group.

     cr
          a cairo context

     Since 1.2

     This documentation was automatically generated.

cairo-get-group-target
- Function: cairo-get-group-target (CR `<cairo-t>') ==>(RET `<cairo-surface-t>')
     Gets the target surface for the current group as started by the most recent
     call to `cairo-push-group' or `cairo-push-group-with-content'.

     This function will return NULL if called "outside" of any group rendering
     blocks, (that is, after the last balancing call to `cairo-pop-group' or
     `cairo-pop-group-to-source').

     cr
          a cairo context

     ret
          the target group surface, or NULL if none. This object is owned by
          cairo. To keep a reference to it, you must call
          `cairo-surface-reference'.

     Since 1.2

     This documentation was automatically generated.

cairo-set-source-rgb
- Function: cairo-set-source-rgb (CR `<cairo-t>')(RED `<double>')(GREEN
`<double>')(BLUE `<double>')
     Sets the source pattern within CR to an opaque color. This opaque color
     will then be used for any subsequent drawing operation until a new source
     pattern is set.

     The color components are floating point numbers in the range 0 to 1. If the
     values passed in are outside that range, they will be clamped.

     cr
          a cairo context

     red
          red component of color

     green
          green component of color

     blue
          blue component of color

     This documentation was automatically generated.

cairo-set-source-rgba
- Function: cairo-set-source-rgba (CR `<cairo-t>')(RED `<double>')(GREEN
`<double>')(BLUE `<double>')(ALPHA `<double>')
     Sets the source pattern within CR to a translucent color. This color will
     then be used for any subsequent drawing operation until a new source
     pattern is set.

     The color and alpha components are floating point numbers in the range 0 to
     1. If the values passed in are outside that range, they will be clamped.

     cr
          a cairo context

     red
          red component of color

     green
          green component of color

     blue
          blue component of color

     alpha
          alpha component of color

     This documentation was automatically generated.

cairo-set-source
- Function: cairo-set-source (CR `<cairo-t>')(SOURCE `<cairo-pattern-t>')
     Sets the source pattern within CR to SOURCE. This pattern will then be used
     for any subsequent drawing operation until a new source pattern is set.

     Note: The pattern's transformation matrix will be locked to the user space
     in effect at the time of `cairo-set-source'. This means that further
     modifications of the current transformation matrix will not affect the
     source pattern. See `cairo-pattern-set-matrix'.

     XXX: I'd also like to direct the reader's attention to some
     (not-yet-written) section on cairo's imaging model. How would I do that if
     such a section existed? (cworth).

     cr
          a cairo context

     source
          a `<cairo-pattern-t>' to be used as the source for subsequent drawing
          operations.

     This documentation was automatically generated.

cairo-set-source-surface
- Function: cairo-set-source-surface (CR `<cairo-t>')(SURFACE
`<cairo-surface-t>')(X `<double>')(Y `<double>')
     This is a convenience function for creating a pattern from SURFACE and
     setting it as the source in CR with `cairo-set-source'.

     The X and Y parameters give the user-space coordinate at which the surface
     origin should appear. (The surface origin is its upper-left corner before
     any transformation has been applied.) The X and Y patterns are negated and
     then set as translation values in the pattern matrix.

     Other than the initial translation pattern matrix, as described above, all
     other pattern attributes, (such as its extend mode), are set to the default
     values as in `cairo-pattern-create-for-surface'. The resulting pattern can
     be queried with `cairo-get-source' so that these attributes can be modified
     if desired, (eg. to create a repeating pattern with
     `cairo-pattern-set-extend').

     cr
          a cairo context

     surface
          a surface to be used to set the source pattern

     x
          User-space X coordinate for surface origin

     y
          User-space Y coordinate for surface origin

     This documentation was automatically generated.

cairo-get-source
- Function: cairo-get-source (CR `<cairo-t>') ==>(RET `<cairo-pattern-t>')
     Gets the current source pattern for CR.

     cr
          a cairo context

     ret
          the current source pattern. This object is owned by cairo. To keep a
          reference to it, you must call `cairo-pattern-reference'.

     This documentation was automatically generated.

cairo-set-antialias
- Function: cairo-set-antialias (CR `<cairo-t>')(ANTIALIAS
`<cairo-antialias-t>')
     Set the antialiasing mode of the rasterizer used for drawing shapes. This
     value is a hint, and a particular backend may or may not support a
     particular value. At the current time, no backend supports
     `CAIRO_ANTIALIAS_SUBPIXEL' when drawing shapes.

     Note that this option does not affect text rendering, instead see
     `cairo-font-options-set-antialias'.

     cr
          a `<cairo-t>'

     antialias
          the new antialiasing mode

     This documentation was automatically generated.

cairo-get-antialias
- Function: cairo-get-antialias (CR `<cairo-t>') ==>(RET `<cairo-antialias-t>')
     Gets the current shape antialiasing mode, as set by
     `cairo-set-shape-antialias'.

     cr
          a cairo context

     ret
          the current shape antialiasing mode.

     This documentation was automatically generated.

cairo-set-dash
- Function: cairo-set-dash (CR `<cairo-t>') ==>(DASHES `<double>')(NUM-DASHES
`<int>')(OFFSET `<double>')
     Sets the dash pattern to be used by `cairo-stroke'. A dash pattern is
     specified by DASHES, an array of positive values. Each value provides the
     length of alternate "on" and "off" portions of the stroke. The OFFSET
     specifies an offset into the pattern at which the stroke begins.

     Each "on" segment will have caps applied as if the segment were a separate
     sub-path. In particular, it is valid to use an "on" length of 0.0 with
     CAIRO_LINE_CAP_ROUND or CAIRO_LINE_CAP_SQUARE in order to distributed dots
     or squares along a path.

     Note: The length values are in user-space units as evaluated at the time of
     stroking. This is not necessarily the same as the user space at the time of
     `cairo-set-dash'.

     If NUM-DASHES is 0 dashing is disabled.

     If NUM-DASHES is 1 a symmetric pattern is assumed with alternating on and
     off portions of the size specified by the single value in DASHES.

     If any value in DASHES is negative, or if all values are 0, then CAIRO-T
     will be put into an error state with a status of
     `<cairo-status-invalid-dash>'.

     cr
          a cairo context

     dashes
          an array specifying alternate lengths of on and off stroke portions

     num-dashes
          the length of the dashes array

     offset
          an offset into the dash pattern at which the stroke should start

     This documentation was automatically generated.

cairo-get-dash-count
- Function: cairo-get-dash-count (CR `<cairo-t>') ==>(RET `<int>')
     This function returns the length of the dash array in CR (0 if dashing is
     not currently in effect).

     See also `cairo-set-dash' and `cairo-get-dash'.

     cr
          a `<cairo-t>'

     ret
          the length of the dash array, or 0 if no dash array set.

     Since 1.4

     This documentation was automatically generated.

cairo-set-fill-rule
- Function: cairo-set-fill-rule (CR `<cairo-t>')(FILL-RULE
`<cairo-fill-rule-t>')
     Set the current fill rule within the cairo context. The fill rule is used
     to determine which regions are inside or outside a complex (potentially
     self-intersecting) path. The current fill rule affects both cairo_fill and
     cairo_clip. See `<cairo-fill-rule-t>' for details on the semantics of each
     available fill rule.

     cr
          a `<cairo-t>'

     fill-rule
          a fill rule, specified as a `<cairo-fill-rule-t>'

     This documentation was automatically generated.

cairo-get-fill-rule
- Function: cairo-get-fill-rule (CR `<cairo-t>') ==>(RET `<cairo-fill-rule-t>')
     Gets the current fill rule, as set by `cairo-set-fill-rule'.

     cr
          a cairo context

     ret
          the current fill rule.

     This documentation was automatically generated.

cairo-set-line-cap
- Function: cairo-set-line-cap (CR `<cairo-t>')(LINE-CAP `<cairo-line-cap-t>')
     Sets the current line cap style within the cairo context. See
     `<cairo-line-cap-t>' for details about how the available line cap styles
     are drawn.

     As with the other stroke parameters, the current line cap style is examined
     by `cairo-stroke', `cairo-stroke-extents', and `cairo-stroke-to-path', but
     does not have any effect during path construction.

     cr
          a cairo context

     line-cap
          a line cap style

     This documentation was automatically generated.

cairo-get-line-cap
- Function: cairo-get-line-cap (CR `<cairo-t>') ==>(RET `<cairo-line-cap-t>')
     Gets the current line cap style, as set by `cairo-set-line-cap'.

     cr
          a cairo context

     ret
          the current line cap style.

     This documentation was automatically generated.

cairo-set-line-join
- Function: cairo-set-line-join (CR `<cairo-t>')(LINE-JOIN
`<cairo-line-join-t>')
     Sets the current line join style within the cairo context. See
     `<cairo-line-join-t>' for details about how the available line join styles
     are drawn.

     As with the other stroke parameters, the current line join style is
     examined by `cairo-stroke', `cairo-stroke-extents', and
     `cairo-stroke-to-path', but does not have any effect during path
     construction.

     cr
          a cairo context

     line-join
          a line joint style

     This documentation was automatically generated.

cairo-get-line-join
- Function: cairo-get-line-join (CR `<cairo-t>') ==>(RET `<cairo-line-join-t>')
     Gets the current line join style, as set by `cairo-set-line-join'.

     cr
          a cairo context

     ret
          the current line join style.

     This documentation was automatically generated.

cairo-set-line-width
- Function: cairo-set-line-width (CR `<cairo-t>')(WIDTH `<double>')
     Sets the current line width within the cairo context. The line width value
     specifies the diameter of a pen that is circular in user space, (though
     device-space pen may be an ellipse in general due to scaling/shear/rotation
     of the CTM).

     Note: When the description above refers to user space and CTM it refers to
     the user space and CTM in effect at the time of the stroking operation, not
     the user space and CTM in effect at the time of the call to
     `cairo-set-line-width'. The simplest usage makes both of these spaces
     identical. That is, if there is no change to the CTM between a call to
     `cairo-set-line-with' and the stroking operation, then one can just pass
     user-space values to `cairo-set-line-width' and ignore this note.

     As with the other stroke parameters, the current line width is examined by
     `cairo-stroke', `cairo-stroke-extents', and `cairo-stroke-to-path', but
     does not have any effect during path construction.

     The default line width value is 2.0.

     cr
          a `<cairo-t>'

     width
          a line width

     This documentation was automatically generated.

cairo-get-line-width
- Function: cairo-get-line-width (CR `<cairo-t>') ==>(RET `<double>')
     This function returns the current line width value exactly as set by
     `cairo-set-line-width'. Note that the value is unchanged even if the CTM
     has changed between the calls to `cairo-set-line-width' and
     `cairo-get-line-width'.

     cr
          a cairo context

     ret
          the current line width.

     This documentation was automatically generated.

cairo-set-miter-limit
- Function: cairo-set-miter-limit (CR `<cairo-t>')(LIMIT `<double>')
     Sets the current miter limit within the cairo context.

     If the current line join style is set to `CAIRO_LINE_JOIN_MITER' (see
     `cairo-set-line-join'), the miter limit is used to determine whether the
     lines should be joined with a bevel instead of a miter. Cairo divides the
     length of the miter by the line width. If the result is greater than the
     miter limit, the style is converted to a bevel.

     As with the other stroke parameters, the current line miter limit is
     examined by `cairo-stroke', `cairo-stroke-extents', and
     `cairo-stroke-to-path', but does not have any effect during path
     construction.

     cr
          a cairo context

     limit
          miter limit to set

     This documentation was automatically generated.

cairo-get-miter-limit
- Function: cairo-get-miter-limit (CR `<cairo-t>') ==>(RET `<double>')
     Gets the current miter limit, as set by `cairo-set-miter-limit'.

     cr
          a cairo context

     ret
          the current miter limit.

     This documentation was automatically generated.

cairo-set-operator
- Function: cairo-set-operator (CR `<cairo-t>')(OP `<cairo-operator-t>')
     Sets the compositing operator to be used for all drawing operations. See
     `<cairo-operator-t>' for details on the semantics of each available
     compositing operator.

     XXX: I'd also like to direct the reader's attention to some
     (not-yet-written) section on cairo's imaging model. How would I do that if
     such a section existed? (cworth).

     cr
          a `<cairo-t>'

     op
          a compositing operator, specified as a `<cairo-operator-t>'

     This documentation was automatically generated.

cairo-get-operator
- Function: cairo-get-operator (CR `<cairo-t>') ==>(RET `<cairo-operator-t>')
     Gets the current compositing operator for a cairo context.

     cr
          a cairo context

     ret
          the current compositing operator.

     This documentation was automatically generated.

cairo-set-tolerance
- Function: cairo-set-tolerance (CR `<cairo-t>')(TOLERANCE `<double>')
     Sets the tolerance used when converting paths into trapezoids. Curved
     segments of the path will be subdivided until the maximum deviation between
     the original path and the polygonal approximation is less than TOLERANCE.
     The default value is 0.1. A larger value will give better performance, a
     smaller value, better appearance. (Reducing the value from the default
     value of 0.1 is unlikely to improve appearance significantly.)

     cr
          a `<cairo-t>'

     tolerance
          the tolerance, in device units (typically pixels)

     This documentation was automatically generated.

cairo-get-tolerance
- Function: cairo-get-tolerance (CR `<cairo-t>') ==>(RET `<double>')
     Gets the current tolerance value, as set by `cairo-set-tolerance'.

     cr
          a cairo context

     ret
          the current tolerance value.

     This documentation was automatically generated.

cairo-clip
- Function: cairo-clip (CR `<cairo-t>')
     Establishes a new clip region by intersecting the current clip region with
     the current path as it would be filled by `cairo-fill' and according to the
     current fill rule (see `cairo-set-fill-rule').

     After cairo_clip, the current path will be cleared from the cairo context.

     The current clip region affects all drawing operations by effectively
     masking out any changes to the surface that are outside the current clip
     region.

     Calling `cairo-clip' can only make the clip region smaller, never larger.
     But the current clip is part of the graphics state, so a temporary
     restriction of the clip region can be achieved by calling `cairo-clip'
     within a `cairo-save'/`cairo-restore' pair. The only other means of
     increasing the size of the clip region is `cairo-reset-clip'.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-clip-preserve
- Function: cairo-clip-preserve (CR `<cairo-t>')
     Establishes a new clip region by intersecting the current clip region with
     the current path as it would be filled by `cairo-fill' and according to the
     current fill rule (see `cairo-set-fill-rule').

     Unlike `cairo-clip', cairo_clip_preserve preserves the path within the
     cairo context.

     The current clip region affects all drawing operations by effectively
     masking out any changes to the surface that are outside the current clip
     region.

     Calling `cairo-clip' can only make the clip region smaller, never larger.
     But the current clip is part of the graphics state, so a temporary
     restriction of the clip region can be achieved by calling `cairo-clip'
     within a `cairo-save'/`cairo-restore' pair. The only other means of
     increasing the size of the clip region is `cairo-reset-clip'.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-clip-extents
- Function: cairo-clip-extents (CR `<cairo-t>') ==>(X1 `<double>')(Y1
`<double>')(X2 `<double>')(Y2 `<double>')
     Computes a bounding box in user coordinates covering the area inside the
     current clip.

     cr
          a cairo context

     x1
          left of the resulting extents

     y1
          top of the resulting extents

     x2
          right of the resulting extents

     y2
          bottom of the resulting extents

     Since 1.4

     This documentation was automatically generated.

cairo-reset-clip
- Function: cairo-reset-clip (CR `<cairo-t>')
     Reset the current clip region to its original, unrestricted state. That is,
     set the clip region to an infinitely large shape containing the target
     surface. Equivalently, if infinity is too hard to grasp, one can imagine
     the clip region being reset to the exact bounds of the target surface.

     Note that code meant to be reusable should not call `cairo-reset-clip' as
     it will cause results unexpected by higher-level code which calls
     `cairo-clip'. Consider using `cairo-save' and `cairo-restore' around
     `cairo-clip' as a more robust means of temporarily restricting the clip
     region.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-copy-clip-rectangle-list
- Function: cairo-copy-clip-rectangle-list (CR `<cairo-t>') ==>(RET
`<cairo-rectangle-list-t>')
     Gets the current clip region as a list of rectangles in user coordinates.
     Never returns ``#f''.

     The status in the list may be CAIRO_STATUS_CLIP_NOT_REPRESENTABLE to
     indicate that the clip region cannot be represented as a list of user-space
     rectangles. The status may have other values to indicate other errors.

     The caller must always call cairo_rectangle_list_destroy on the result of
     this function.

     cr
          a cairo context

     ret
          the current clip region as a list of rectangles in user coordinates.

     Since 1.4

     This documentation was automatically generated.

cairo-fill
- Function: cairo-fill (CR `<cairo-t>')
     A drawing operator that fills the current path according to the current
     fill rule, (each sub-path is implicitly closed before being filled). After
     cairo_fill, the current path will be cleared from the cairo context. See
     `cairo-set-fill-rule' and `cairo-fill-preserve'.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-fill-preserve
- Function: cairo-fill-preserve (CR `<cairo-t>')
     A drawing operator that fills the current path according to the current
     fill rule, (each sub-path is implicitly closed before being filled). Unlike
     `cairo-fill', cairo_fill_preserve preserves the path within the cairo
     context.

     See `cairo-set-fill-rule' and `cairo-fill'.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-fill-extents
- Function: cairo-fill-extents (CR `<cairo-t>') ==>(X1 `<double>')(Y1
`<double>')(X2 `<double>')(Y2 `<double>')
     Computes a bounding box in user coordinates covering the area that would be
     affected by a `cairo-fill' operation given the current path and fill
     parameters. If the current path is empty, returns an empty rectangle (0,0,
     0,0). Surface dimensions and clipping are not taken into account.

     See `cairo-fill', `cairo-set-fill-rule' and `cairo-fill-preserve'.

     cr
          a cairo context

     x1
          left of the resulting extents

     y1
          top of the resulting extents

     x2
          right of the resulting extents

     y2
          bottom of the resulting extents

     This documentation was automatically generated.

cairo-in-fill
- Function: cairo-in-fill (CR `<cairo-t>')(X `<double>')(Y `<double>') ==>(RET
`<cairo-bool-t>')
     Tests whether the given point is inside the area that would be affected by
     a `cairo-fill' operation given the current path and filling parameters.
     Surface dimensions and clipping are not taken into account.

     See `cairo-fill', `cairo-set-fill-rule' and `cairo-fill-preserve'.

     cr
          a cairo context

     x
          X coordinate of the point to test

     y
          Y coordinate of the point to test

     ret
          A non-zero value if the point is inside, or zero if outside.

     This documentation was automatically generated.

cairo-mask
- Function: cairo-mask (CR `<cairo-t>')(PATTERN `<cairo-pattern-t>')
     A drawing operator that paints the current source using the alpha channel
     of PATTERN as a mask. (Opaque areas of PATTERN are painted with the source,
     transparent areas are not painted.)

     cr
          a cairo context

     pattern
          a `<cairo-pattern-t>'

     This documentation was automatically generated.

cairo-mask-surface
- Function: cairo-mask-surface (CR `<cairo-t>')(SURFACE
`<cairo-surface-t>')(SURFACE-X `<double>')(SURFACE-Y `<double>')
     A drawing operator that paints the current source using the alpha channel
     of SURFACE as a mask. (Opaque areas of SURFACE are painted with the source,
     transparent areas are not painted.)

     cr
          a cairo context

     surface
          a `<cairo-surface-t>'

     surface-x
          X coordinate at which to place the origin of SURFACE

     surface-y
          Y coordinate at which to place the origin of SURFACE

     This documentation was automatically generated.

cairo-paint
- Function: cairo-paint (CR `<cairo-t>')
     A drawing operator that paints the current source everywhere within the
     current clip region.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-paint-with-alpha
- Function: cairo-paint-with-alpha (CR `<cairo-t>')(ALPHA `<double>')
     A drawing operator that paints the current source everywhere within the
     current clip region using a mask of constant alpha value ALPHA. The effect
     is similar to `cairo-paint', but the drawing is faded out using the alpha
     value.

     cr
          a cairo context

     alpha
          alpha value, between 0 (transparent) and 1 (opaque)

     This documentation was automatically generated.

cairo-stroke
- Function: cairo-stroke (CR `<cairo-t>')
     A drawing operator that strokes the current path according to the current
     line width, line join, line cap, and dash settings. After cairo_stroke, the
     current path will be cleared from the cairo context. See
     `cairo-set-line-width', `cairo-set-line-join', `cairo-set-line-cap',
     `cairo-set-dash', and `cairo-stroke-preserve'.

     Note: Degenerate segments and sub-paths are treated specially and provide a
     useful result. These can result in two different situations:

     1. Zero-length "on" segments set in `cairo-set-dash'. If the cap style is
     CAIRO_LINE_CAP_ROUND or CAIRO_LINE_CAP_SQUARE then these segments will be
     drawn as circular dots or squares respectively. In the case of
     CAIRO_LINE_CAP_SQUARE, the orientation of the squares is determined by the
     direction of the underlying path.

     2. A sub-path created by `cairo-move-to' followed by either a
     `cairo-close-path' or one or more calls to `cairo-line-to' to the same
     coordinate as the `cairo-move-to'. If the cap style is CAIRO_LINE_CAP_ROUND
     then these sub-paths will be drawn as circular dots. Note that in the case
     of CAIRO_LINE_CAP_SQUARE a degenerate sub-path will not be drawn at all,
     (since the correct orientation is indeterminate).

     In no case will a cap style of CAIRO_LINE_CAP_BUTT cause anything to be
     drawn in the case of either degenerate segments or sub-paths.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-stroke-preserve
- Function: cairo-stroke-preserve (CR `<cairo-t>')
     A drawing operator that strokes the current path according to the current
     line width, line join, line cap, and dash settings. Unlike `cairo-stroke',
     cairo_stroke_preserve preserves the path within the cairo context.

     See `cairo-set-line-width', `cairo-set-line-join', `cairo-set-line-cap',
     `cairo-set-dash', and `cairo-stroke-preserve'.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-stroke-extents
- Function: cairo-stroke-extents (CR `<cairo-t>') ==>(X1 `<double>')(Y1
`<double>')(X2 `<double>')(Y2 `<double>')
     Computes a bounding box in user coordinates covering the area that would be
     affected by a `cairo-stroke' operation operation given the current path and
     stroke parameters. If the current path is empty,

     cr
          a cairo context

     x1
          left of the resulting extents

     y1
          top of the resulting extents

     x2
          right of the resulting extents

     y2
          bottom of the resulting extents

     This documentation was automatically generated.

cairo-in-stroke
- Function: cairo-in-stroke (CR `<cairo-t>')(X `<double>')(Y `<double>') ==>(RET
`<cairo-bool-t>')
     Tests whether the given point is inside the area that would be affected by
     a `cairo-stroke' operation given the current path and stroking parameters.
     Surface dimensions and clipping are not taken into account.

     See `cairo-stroke', `cairo-set-line-width', `cairo-set-line-join',
     `cairo-set-line-cap', `cairo-set-dash', and `cairo-stroke-preserve'.

     cr
          a cairo context

     x
          X coordinate of the point to test

     y
          Y coordinate of the point to test

     ret
          A non-zero value if the point is inside, or zero if outside.

     This documentation was automatically generated.

cairo-copy-page
- Function: cairo-copy-page (CR `<cairo-t>')
     Emits the current page for backends that support multiple pages, but
     doesn't clear it, so, the contents of the current page will be retained for
     the next page too. Use `cairo-show-page' if you want to get an empty page
     after the emission.

     cr
          a cairo context

     This documentation was automatically generated.

cairo-show-page
- Function: cairo-show-page (CR `<cairo-t>')
     Emits and clears the current page for backends that support multiple pages.
     Use `cairo-copy-page' if you don't want to clear the page.

     cr
          a cairo context

     This documentation was automatically generated.