PIKApp/libpika/pikavectors_pdb.c

/* LIBPIKA - The PIKA Library
 * Copyright (C) 1995-2003 Peter Mattis and Spencer Kimball
 *
 * pikavectors_pdb.c
 *
 * This library is free software: you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 3 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library.  If not, see
 * <https://www.gnu.org/licenses/>.
 */

/* NOTE: This file is auto-generated by pdbgen.pl */

#include "config.h"

#include "stamp-pdbgen.h"

#include "pika.h"


/**
 * SECTION: pikavectors
 * @title: pikavectors
 * @short_description: Functions for querying and manipulating vectors.
 *
 * Functions for querying and manipulating vectors.
 **/


/**
 * pika_vectors_new:
 * @image: The image.
 * @name: the name of the new vector object.
 *
 * Creates a new empty vectors object.
 *
 * Creates a new empty vectors object. The vectors object needs to be
 * added to the image using pika_image_insert_vectors().
 *
 * Returns: (transfer none):
 *          the current vector object, 0 if no vector exists in the image.
 *
 * Since: 2.4
 **/
PikaVectors *
pika_vectors_new (PikaImage   *image,
                  const gchar *name)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  PikaVectors *vectors = NULL;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_IMAGE, image,
                                          G_TYPE_STRING, name,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-new",
                                               args);
  pika_value_array_unref (args);

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    vectors = PIKA_VALUES_GET_VECTORS (return_vals, 1);

  pika_value_array_unref (return_vals);

  return vectors;
}

/**
 * pika_vectors_new_from_text_layer:
 * @image: The image.
 * @layer: The text layer.
 *
 * Creates a new vectors object from a text layer.
 *
 * Creates a new vectors object from a text layer. The vectors object
 * needs to be added to the image using pika_image_insert_vectors().
 *
 * Returns: (transfer none): The vectors of the text layer.
 *
 * Since: 2.6
 **/
PikaVectors *
pika_vectors_new_from_text_layer (PikaImage *image,
                                  PikaLayer *layer)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  PikaVectors *vectors = NULL;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_IMAGE, image,
                                          PIKA_TYPE_LAYER, layer,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-new-from-text-layer",
                                               args);
  pika_value_array_unref (args);

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    vectors = PIKA_VALUES_GET_VECTORS (return_vals, 1);

  pika_value_array_unref (return_vals);

  return vectors;
}

/**
 * pika_vectors_copy:
 * @vectors: The vectors object to copy.
 *
 * Copy a vectors object.
 *
 * This procedure copies the specified vectors object and returns the
 * copy.
 *
 * Returns: (transfer none): The newly copied vectors object.
 *
 * Since: 2.6
 **/
PikaVectors *
pika_vectors_copy (PikaVectors *vectors)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  PikaVectors *vectors_copy = NULL;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-copy",
                                               args);
  pika_value_array_unref (args);

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    vectors_copy = PIKA_VALUES_GET_VECTORS (return_vals, 1);

  pika_value_array_unref (return_vals);

  return vectors_copy;
}

/**
 * pika_vectors_get_strokes:
 * @vectors: The vectors object.
 * @num_strokes: (out): The number of strokes returned.
 *
 * List the strokes associated with the passed path.
 *
 * Returns an Array with the stroke-IDs associated with the passed
 * path.
 *
 * Returns: (array length=num_strokes) (element-type gint32) (transfer full):
 *          List of the strokes belonging to the path.
 *          The returned value must be freed with g_free().
 *
 * Since: 2.4
 **/
gint *
pika_vectors_get_strokes (PikaVectors *vectors,
                          gint        *num_strokes)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gint *stroke_ids = NULL;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-get-strokes",
                                               args);
  pika_value_array_unref (args);

  *num_strokes = 0;

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    {
      *num_strokes = PIKA_VALUES_GET_INT (return_vals, 1);
      stroke_ids = PIKA_VALUES_DUP_INT32_ARRAY (return_vals, 2);
    }

  pika_value_array_unref (return_vals);

  return stroke_ids;
}

/**
 * pika_vectors_stroke_get_length:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @precision: The precision used for approximating straight portions of the stroke.
 *
 * Measure the length of the given stroke.
 *
 * Measure the length of the given stroke.
 *
 * Returns: The length (in pixels) of the given stroke.
 *
 * Since: 2.4
 **/
gdouble
pika_vectors_stroke_get_length (PikaVectors *vectors,
                                gint         stroke_id,
                                gdouble      precision)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gdouble length = 0.0;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, precision,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-get-length",
                                               args);
  pika_value_array_unref (args);

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    length = PIKA_VALUES_GET_DOUBLE (return_vals, 1);

  pika_value_array_unref (return_vals);

  return length;
}

/**
 * pika_vectors_stroke_get_point_at_dist:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @dist: The given distance.
 * @precision: The precision used for the approximation.
 * @x_point: (out): The x position of the point.
 * @y_point: (out): The y position of the point.
 * @slope: (out): The slope (dy / dx) at the specified point.
 * @valid: (out): Indicator for the validity of the returned data.
 *
 * Get point at a specified distance along the stroke.
 *
 * This will return the x,y position of a point at a given distance
 * along the stroke. The distance will be obtained by first digitizing
 * the curve internally and then walking along the curve. For a closed
 * stroke the start of the path is the first point on the path that was
 * created. This might not be obvious. If the stroke is not long
 * enough, a \"valid\" flag will be FALSE.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_stroke_get_point_at_dist (PikaVectors *vectors,
                                       gint         stroke_id,
                                       gdouble      dist,
                                       gdouble      precision,
                                       gdouble     *x_point,
                                       gdouble     *y_point,
                                       gdouble     *slope,
                                       gboolean    *valid)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, dist,
                                          G_TYPE_DOUBLE, precision,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-get-point-at-dist",
                                               args);
  pika_value_array_unref (args);

  *x_point = 0.0;
  *y_point = 0.0;
  *slope = 0.0;
  *valid = FALSE;

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  if (success)
    {
      *x_point = PIKA_VALUES_GET_DOUBLE (return_vals, 1);
      *y_point = PIKA_VALUES_GET_DOUBLE (return_vals, 2);
      *slope = PIKA_VALUES_GET_DOUBLE (return_vals, 3);
      *valid = PIKA_VALUES_GET_BOOLEAN (return_vals, 4);
    }

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_remove_stroke:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 *
 * remove the stroke from a vectors object.
 *
 * Remove the stroke from a vectors object.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_remove_stroke (PikaVectors *vectors,
                            gint         stroke_id)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-remove-stroke",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_stroke_close:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 *
 * closes the specified stroke.
 *
 * Closes the specified stroke.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_stroke_close (PikaVectors *vectors,
                           gint         stroke_id)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-close",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_stroke_reverse:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 *
 * reverses the specified stroke.
 *
 * Reverses the specified stroke.
 *
 * Returns: TRUE on success.
 *
 * Since: 3.0
 **/
gboolean
pika_vectors_stroke_reverse (PikaVectors *vectors,
                             gint         stroke_id)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-reverse",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_stroke_translate:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @off_x: Offset in x direction.
 * @off_y: Offset in y direction.
 *
 * translate the given stroke.
 *
 * Translate the given stroke.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_stroke_translate (PikaVectors *vectors,
                               gint         stroke_id,
                               gdouble      off_x,
                               gdouble      off_y)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, off_x,
                                          G_TYPE_DOUBLE, off_y,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-translate",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_stroke_scale:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @scale_x: Scale factor in x direction.
 * @scale_y: Scale factor in y direction.
 *
 * scales the given stroke.
 *
 * Scale the given stroke.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_stroke_scale (PikaVectors *vectors,
                           gint         stroke_id,
                           gdouble      scale_x,
                           gdouble      scale_y)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, scale_x,
                                          G_TYPE_DOUBLE, scale_y,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-scale",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_stroke_rotate:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @center_x: X coordinate of the rotation center.
 * @center_y: Y coordinate of the rotation center.
 * @angle: angle to rotate about.
 *
 * rotates the given stroke.
 *
 * Rotates the given stroke around given center by angle (in degrees).
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_stroke_rotate (PikaVectors *vectors,
                            gint         stroke_id,
                            gdouble      center_x,
                            gdouble      center_y,
                            gdouble      angle)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, center_x,
                                          G_TYPE_DOUBLE, center_y,
                                          G_TYPE_DOUBLE, angle,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-rotate",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_stroke_flip:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @flip_type: Flip orientation, either vertical or horizontal.
 * @axis: axis coordinate about which to flip, in pixels.
 *
 * flips the given stroke.
 *
 * Rotates the given stroke around given center by angle (in degrees).
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_stroke_flip (PikaVectors         *vectors,
                          gint                 stroke_id,
                          PikaOrientationType  flip_type,
                          gdouble              axis)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          PIKA_TYPE_ORIENTATION_TYPE, flip_type,
                                          G_TYPE_DOUBLE, axis,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-flip",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_stroke_flip_free:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @x1: X coordinate of the first point of the flipping axis.
 * @y1: Y coordinate of the first point of the flipping axis.
 * @x2: X coordinate of the second point of the flipping axis.
 * @y2: Y coordinate of the second point of the flipping axis.
 *
 * flips the given stroke about an arbitrary axis.
 *
 * Flips the given stroke about an arbitrary axis. Axis is defined by
 * two coordinates in the image (in pixels), through which the flipping
 * axis passes.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_stroke_flip_free (PikaVectors *vectors,
                               gint         stroke_id,
                               gdouble      x1,
                               gdouble      y1,
                               gdouble      x2,
                               gdouble      y2)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, x1,
                                          G_TYPE_DOUBLE, y1,
                                          G_TYPE_DOUBLE, x2,
                                          G_TYPE_DOUBLE, y2,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-flip-free",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_stroke_get_points:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @num_points: (out): The number of floats returned.
 * @controlpoints: (out) (array length=num_points) (element-type gdouble) (transfer full): List of the control points for the stroke (x0, y0, x1, y1, ...).
 * @closed: (out): Whether the stroke is closed or not.
 *
 * returns the control points of a stroke.
 *
 * returns the control points of a stroke. The interpretation of the
 * coordinates returned depends on the type of the stroke. For Pika 2.4
 * this is always a bezier stroke, where the coordinates are the
 * control points.
 *
 * Returns: type of the stroke (always PIKA_VECTORS_STROKE_TYPE_BEZIER for now).
 *
 * Since: 2.4
 **/
PikaVectorsStrokeType
pika_vectors_stroke_get_points (PikaVectors  *vectors,
                                gint          stroke_id,
                                gint         *num_points,
                                gdouble     **controlpoints,
                                gboolean     *closed)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  PikaVectorsStrokeType type = 0;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-get-points",
                                               args);
  pika_value_array_unref (args);

  *num_points = 0;

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    {
      type = PIKA_VALUES_GET_ENUM (return_vals, 1);
      *num_points = PIKA_VALUES_GET_INT (return_vals, 2);
      *controlpoints = PIKA_VALUES_DUP_FLOAT_ARRAY (return_vals, 3);
      *closed = PIKA_VALUES_GET_BOOLEAN (return_vals, 4);
    }

  pika_value_array_unref (return_vals);

  return type;
}

/**
 * pika_vectors_stroke_new_from_points:
 * @vectors: The vectors object.
 * @type: type of the stroke (always PIKA_VECTORS_STROKE_TYPE_BEZIER for now).
 * @num_points: The number of elements in the array, i.e. the number of controlpoints in the stroke * 2 (x- and y-coordinate).
 * @controlpoints: (array length=num_points) (element-type gdouble): List of the x- and y-coordinates of the control points.
 * @closed: Whether the stroke is to be closed or not.
 *
 * Adds a stroke of a given type to the vectors object.
 *
 * Adds a stroke of a given type to the vectors object. The coordinates
 * of the control points can be specified. For now only strokes of the
 * type PIKA_VECTORS_STROKE_TYPE_BEZIER are supported. The control
 * points are specified as a pair of float values for the x- and
 * y-coordinate. The Bezier stroke type needs a multiple of three
 * control points. Each Bezier segment endpoint (anchor, A) has two
 * additional control points (C) associated. They are specified in the
 * order CACCACCAC...
 *
 * Returns: The stroke ID of the newly created stroke.
 *
 * Since: 2.4
 **/
gint
pika_vectors_stroke_new_from_points (PikaVectors           *vectors,
                                     PikaVectorsStrokeType  type,
                                     gint                   num_points,
                                     const gdouble         *controlpoints,
                                     gboolean               closed)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gint stroke_id = 0;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          PIKA_TYPE_VECTORS_STROKE_TYPE, type,
                                          G_TYPE_INT, num_points,
                                          PIKA_TYPE_FLOAT_ARRAY, NULL,
                                          G_TYPE_BOOLEAN, closed,
                                          G_TYPE_NONE);
  pika_value_set_float_array (pika_value_array_index (args, 3), controlpoints, num_points);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-new-from-points",
                                               args);
  pika_value_array_unref (args);

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    stroke_id = PIKA_VALUES_GET_INT (return_vals, 1);

  pika_value_array_unref (return_vals);

  return stroke_id;
}

/**
 * pika_vectors_stroke_interpolate:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @precision: The precision used for the approximation.
 * @num_coords: (out): The number of floats returned.
 * @closed: (out): Whether the stroke is closed or not.
 *
 * returns polygonal approximation of the stroke.
 *
 * returns polygonal approximation of the stroke.
 *
 * Returns: (array length=num_coords) (element-type gdouble) (transfer full):
 *          List of the coords along the path (x0, y0, x1, y1, ...).
 *          The returned value must be freed with g_free().
 *
 * Since: 2.4
 **/
gdouble *
pika_vectors_stroke_interpolate (PikaVectors *vectors,
                                 gint         stroke_id,
                                 gdouble      precision,
                                 gint        *num_coords,
                                 gboolean    *closed)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gdouble *coords = NULL;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, precision,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-stroke-interpolate",
                                               args);
  pika_value_array_unref (args);

  *num_coords = 0;

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    {
      *num_coords = PIKA_VALUES_GET_INT (return_vals, 1);
      coords = PIKA_VALUES_DUP_FLOAT_ARRAY (return_vals, 2);
      *closed = PIKA_VALUES_GET_BOOLEAN (return_vals, 3);
    }

  pika_value_array_unref (return_vals);

  return coords;
}

/**
 * pika_vectors_bezier_stroke_new_moveto:
 * @vectors: The vectors object.
 * @x0: The x-coordinate of the moveto.
 * @y0: The y-coordinate of the moveto.
 *
 * Adds a bezier stroke with a single moveto to the vectors object.
 *
 * Adds a bezier stroke with a single moveto to the vectors object.
 *
 * Returns: The resulting stroke.
 *
 * Since: 2.4
 **/
gint
pika_vectors_bezier_stroke_new_moveto (PikaVectors *vectors,
                                       gdouble      x0,
                                       gdouble      y0)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gint stroke_id = 0;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_DOUBLE, x0,
                                          G_TYPE_DOUBLE, y0,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-bezier-stroke-new-moveto",
                                               args);
  pika_value_array_unref (args);

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    stroke_id = PIKA_VALUES_GET_INT (return_vals, 1);

  pika_value_array_unref (return_vals);

  return stroke_id;
}

/**
 * pika_vectors_bezier_stroke_lineto:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @x0: The x-coordinate of the lineto.
 * @y0: The y-coordinate of the lineto.
 *
 * Extends a bezier stroke with a lineto.
 *
 * Extends a bezier stroke with a lineto.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_bezier_stroke_lineto (PikaVectors *vectors,
                                   gint         stroke_id,
                                   gdouble      x0,
                                   gdouble      y0)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, x0,
                                          G_TYPE_DOUBLE, y0,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-bezier-stroke-lineto",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_bezier_stroke_conicto:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @x0: The x-coordinate of the control point.
 * @y0: The y-coordinate of the control point.
 * @x1: The x-coordinate of the end point.
 * @y1: The y-coordinate of the end point.
 *
 * Extends a bezier stroke with a conic bezier spline.
 *
 * Extends a bezier stroke with a conic bezier spline. Actually a cubic
 * bezier spline gets added that realizes the shape of a conic bezier
 * spline.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_bezier_stroke_conicto (PikaVectors *vectors,
                                    gint         stroke_id,
                                    gdouble      x0,
                                    gdouble      y0,
                                    gdouble      x1,
                                    gdouble      y1)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, x0,
                                          G_TYPE_DOUBLE, y0,
                                          G_TYPE_DOUBLE, x1,
                                          G_TYPE_DOUBLE, y1,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-bezier-stroke-conicto",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_bezier_stroke_cubicto:
 * @vectors: The vectors object.
 * @stroke_id: The stroke ID.
 * @x0: The x-coordinate of the first control point.
 * @y0: The y-coordinate of the first control point.
 * @x1: The x-coordinate of the second control point.
 * @y1: The y-coordinate of the second control point.
 * @x2: The x-coordinate of the end point.
 * @y2: The y-coordinate of the end point.
 *
 * Extends a bezier stroke with a cubic bezier spline.
 *
 * Extends a bezier stroke with a cubic bezier spline.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_bezier_stroke_cubicto (PikaVectors *vectors,
                                    gint         stroke_id,
                                    gdouble      x0,
                                    gdouble      y0,
                                    gdouble      x1,
                                    gdouble      y1,
                                    gdouble      x2,
                                    gdouble      y2)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_INT, stroke_id,
                                          G_TYPE_DOUBLE, x0,
                                          G_TYPE_DOUBLE, y0,
                                          G_TYPE_DOUBLE, x1,
                                          G_TYPE_DOUBLE, y1,
                                          G_TYPE_DOUBLE, x2,
                                          G_TYPE_DOUBLE, y2,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-bezier-stroke-cubicto",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_bezier_stroke_new_ellipse:
 * @vectors: The vectors object.
 * @x0: The x-coordinate of the center.
 * @y0: The y-coordinate of the center.
 * @radius_x: The radius in x direction.
 * @radius_y: The radius in y direction.
 * @angle: The angle the x-axis of the ellipse (radians, counterclockwise).
 *
 * Adds a bezier stroke describing an ellipse the vectors object.
 *
 * Adds a bezier stroke describing an ellipse the vectors object.
 *
 * Returns: The resulting stroke.
 *
 * Since: 2.4
 **/
gint
pika_vectors_bezier_stroke_new_ellipse (PikaVectors *vectors,
                                        gdouble      x0,
                                        gdouble      y0,
                                        gdouble      radius_x,
                                        gdouble      radius_y,
                                        gdouble      angle)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gint stroke_id = 0;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_DOUBLE, x0,
                                          G_TYPE_DOUBLE, y0,
                                          G_TYPE_DOUBLE, radius_x,
                                          G_TYPE_DOUBLE, radius_y,
                                          G_TYPE_DOUBLE, angle,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-bezier-stroke-new-ellipse",
                                               args);
  pika_value_array_unref (args);

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    stroke_id = PIKA_VALUES_GET_INT (return_vals, 1);

  pika_value_array_unref (return_vals);

  return stroke_id;
}

/**
 * pika_vectors_import_from_file:
 * @image: The image.
 * @file: The SVG file to import.
 * @merge: Merge paths into a single vectors object.
 * @scale: Scale the SVG to image dimensions.
 * @num_vectors: (out): The number of newly created vectors.
 * @vectors: (out) (array length=num_vectors) (element-type PikaVectors) (transfer container): The list of newly created vectors.
 *
 * Import paths from an SVG file.
 *
 * This procedure imports paths from an SVG file. SVG elements other
 * than paths and basic shapes are ignored.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_import_from_file (PikaImage     *image,
                               GFile         *file,
                               gboolean       merge,
                               gboolean       scale,
                               gint          *num_vectors,
                               PikaVectors ***vectors)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_IMAGE, image,
                                          G_TYPE_FILE, file,
                                          G_TYPE_BOOLEAN, merge,
                                          G_TYPE_BOOLEAN, scale,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-import-from-file",
                                               args);
  pika_value_array_unref (args);

  *num_vectors = 0;
  *vectors = NULL;

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  if (success)
    {
      *num_vectors = PIKA_VALUES_GET_INT (return_vals, 1);
      { PikaObjectArray *a = g_value_get_boxed (pika_value_array_index (return_vals, 2)); if (a) *vectors = g_memdup2 (a->data, a->length * sizeof (gpointer)); };
    }

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_import_from_string:
 * @image: The image.
 * @string: A string that must be a complete and valid SVG document.
 * @length: Number of bytes in string or -1 if the string is NULL terminated.
 * @merge: Merge paths into a single vectors object.
 * @scale: Scale the SVG to image dimensions.
 * @num_vectors: (out): The number of newly created vectors.
 * @vectors: (out) (array length=num_vectors) (element-type PikaVectors) (transfer container): The list of newly created vectors.
 *
 * Import paths from an SVG string.
 *
 * This procedure works like pika_vectors_import_from_file() but takes
 * a string rather than reading the SVG from a file. This allows you to
 * write scripts that generate SVG and feed it to PIKA.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.4
 **/
gboolean
pika_vectors_import_from_string (PikaImage     *image,
                                 const gchar   *string,
                                 gint           length,
                                 gboolean       merge,
                                 gboolean       scale,
                                 gint          *num_vectors,
                                 PikaVectors ***vectors)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_IMAGE, image,
                                          G_TYPE_STRING, string,
                                          G_TYPE_INT, length,
                                          G_TYPE_BOOLEAN, merge,
                                          G_TYPE_BOOLEAN, scale,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-import-from-string",
                                               args);
  pika_value_array_unref (args);

  *num_vectors = 0;
  *vectors = NULL;

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  if (success)
    {
      *num_vectors = PIKA_VALUES_GET_INT (return_vals, 1);
      { PikaObjectArray *a = g_value_get_boxed (pika_value_array_index (return_vals, 2)); if (a) *vectors = g_memdup2 (a->data, a->length * sizeof (gpointer)); };
    }

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_export_to_file:
 * @image: The image.
 * @file: The SVG file to create.
 * @vectors: The vectors object to be saved, or 0 for all in the image.
 *
 * save a path as an SVG file.
 *
 * This procedure creates an SVG file to save a Vectors object, that
 * is, a path. The resulting file can be edited using a vector graphics
 * application, or later reloaded into PIKA. If you pass 0 as the
 * 'vectors' argument, then all paths in the image will be exported.
 *
 * Returns: TRUE on success.
 *
 * Since: 2.6
 **/
gboolean
pika_vectors_export_to_file (PikaImage   *image,
                             GFile       *file,
                             PikaVectors *vectors)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gboolean success = TRUE;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_IMAGE, image,
                                          G_TYPE_FILE, file,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-export-to-file",
                                               args);
  pika_value_array_unref (args);

  success = PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS;

  pika_value_array_unref (return_vals);

  return success;
}

/**
 * pika_vectors_export_to_string:
 * @image: The image.
 * @vectors: The vectors object to save, or 0 for all in the image.
 *
 * Save a path as an SVG string.
 *
 * This procedure works like pika_vectors_export_to_file() but creates
 * a string rather than a file. The contents are a NUL-terminated
 * string that holds a complete XML document. If you pass 0 as the
 * 'vectors' argument, then all paths in the image will be exported.
 *
 * Returns: (transfer full):
 *          A string whose contents are a complete SVG document.
 *          The returned value must be freed with g_free().
 *
 * Since: 2.6
 **/
gchar *
pika_vectors_export_to_string (PikaImage   *image,
                               PikaVectors *vectors)
{
  PikaValueArray *args;
  PikaValueArray *return_vals;
  gchar *string = NULL;

  args = pika_value_array_new_from_types (NULL,
                                          PIKA_TYPE_IMAGE, image,
                                          PIKA_TYPE_VECTORS, vectors,
                                          G_TYPE_NONE);

  return_vals = _pika_pdb_run_procedure_array (pika_get_pdb (),
                                               "pika-vectors-export-to-string",
                                               args);
  pika_value_array_unref (args);

  if (PIKA_VALUES_GET_ENUM (return_vals, 0) == PIKA_PDB_SUCCESS)
    string = PIKA_VALUES_DUP_STRING (return_vals, 1);

  pika_value_array_unref (return_vals);

  return string;
}