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59578c6d18
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823 lines
22 KiB
C
823 lines
22 KiB
C
/*
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* Copyright © 2020 Benjamin Otte
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library. If not, see <http://www.gnu.org/licenses/>.
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*
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* Authors: Benjamin Otte <otte@gnome.org>
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*/
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#include "config.h"
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#include "gskpathprivate.h"
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#include "gskcurveprivate.h"
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#include "gskpathbuilder.h"
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#include "gskpathpoint.h"
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#include "gskcontourprivate.h"
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/**
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* GskPath:
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*
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* A `GskPath` describes lines and curves that are more complex
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* than simple rectangles.
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*
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* Paths can used for rendering (filling or stroking) and for animations
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* (e.g. as trajectories).
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*
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* `GskPath` is an immutable, opaque, reference-counted struct.
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* After creation, you cannot change the types it represents. Instead,
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* new `GskPath` objects have to be created. The [struct@Gsk.PathBuilder]
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* structure is meant to help in this endeavor.
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*
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* Conceptually, a path consists of zero or more contours (continuous, connected
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* curves), each of which may or may not be closed. Contours are typically
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* constructed from Bézier segments.
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*
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* <picture>
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* <source srcset="path-dark.png" media="(prefers-color-scheme: dark)">
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* <img alt="A Path" src="path-light.png">
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* </picture>
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*
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* Since: 4.14
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*/
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struct _GskPath
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{
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/*< private >*/
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guint ref_count;
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GskPathFlags flags;
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gsize n_contours;
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GskContour *contours[];
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/* followed by the contours data */
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};
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G_DEFINE_BOXED_TYPE (GskPath, gsk_path, gsk_path_ref, gsk_path_unref)
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/* {{{ Private API */
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GskPath *
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gsk_path_new_from_contours (const GSList *contours)
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{
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GskPath *path;
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const GSList *l;
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gsize size;
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gsize n_contours;
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guint8 *contour_data;
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GskPathFlags flags;
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flags = GSK_PATH_CLOSED | GSK_PATH_FLAT;
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size = 0;
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n_contours = 0;
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for (l = contours; l; l = l->next)
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{
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GskContour *contour = l->data;
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n_contours++;
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size += sizeof (GskContour *);
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size += gsk_contour_get_size (contour);
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flags &= gsk_contour_get_flags (contour);
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}
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path = g_malloc0 (sizeof (GskPath) + size);
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path->ref_count = 1;
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path->flags = flags;
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path->n_contours = n_contours;
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contour_data = (guint8 *) &path->contours[n_contours];
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n_contours = 0;
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for (l = contours; l; l = l->next)
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{
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GskContour *contour = l->data;
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path->contours[n_contours] = (GskContour *) contour_data;
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gsk_contour_copy ((GskContour *) contour_data, contour);
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size = gsk_contour_get_size (contour);
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contour_data += size;
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n_contours++;
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}
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return path;
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}
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const GskContour *
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gsk_path_get_contour (const GskPath *self,
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gsize i)
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{
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if (i < self->n_contours)
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return self->contours[i];
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else
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return NULL;
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}
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GskPathFlags
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gsk_path_get_flags (const GskPath *self)
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{
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return self->flags;
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}
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gsize
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gsk_path_get_n_contours (const GskPath *self)
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{
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return self->n_contours;
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}
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/* }}} */
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/* {{{ Public API */
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/**
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* gsk_path_ref:
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* @self: a `GskPath`
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*
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* Increases the reference count of a `GskPath` by one.
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*
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* Returns: the passed in `GskPath`.
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*
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* Since: 4.14
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*/
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GskPath *
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gsk_path_ref (GskPath *self)
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{
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g_return_val_if_fail (self != NULL, NULL);
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self->ref_count++;
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return self;
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}
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/**
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* gsk_path_unref:
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* @self: a `GskPath`
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*
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* Decreases the reference count of a `GskPath` by one.
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*
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* If the resulting reference count is zero, frees the path.
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*
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* Since: 4.14
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*/
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void
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gsk_path_unref (GskPath *self)
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{
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g_return_if_fail (self != NULL);
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g_return_if_fail (self->ref_count > 0);
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self->ref_count--;
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if (self->ref_count > 0)
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return;
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g_free (self);
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}
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/**
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* gsk_path_print:
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* @self: a `GskPath`
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* @string: The string to print into
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*
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* Converts @self into a human-readable string representation suitable
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* for printing.
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*
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* The string is compatible with (a superset of)
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* [SVG path syntax](https://www.w3.org/TR/SVG11/paths.html#PathData),
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* see [func@Gsk.Path.parse] for a summary of the syntax.
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*
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* Since: 4.14
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*/
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void
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gsk_path_print (GskPath *self,
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GString *string)
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{
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gsize i;
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g_return_if_fail (self != NULL);
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g_return_if_fail (string != NULL);
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for (i = 0; i < self->n_contours; i++)
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{
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if (i > 0)
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g_string_append_c (string, ' ');
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gsk_contour_print (self->contours[i], string);
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}
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}
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/**
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* gsk_path_to_string:
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* @self: a `GskPath`
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*
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* Converts the path into a string that is suitable for printing.
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*
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* You can use this function in a debugger to get a quick overview
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* of the path.
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*
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* This is a wrapper around [method@Gsk.Path.print], see that function
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* for details.
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*
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* Returns: A new string for @self
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*
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* Since: 4.14
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*/
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char *
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gsk_path_to_string (GskPath *self)
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{
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GString *string;
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g_return_val_if_fail (self != NULL, NULL);
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string = g_string_new ("");
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gsk_path_print (self, string);
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return g_string_free (string, FALSE);
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}
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static gboolean
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gsk_path_to_cairo_add_op (GskPathOperation op,
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const graphene_point_t *pts,
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gsize n_pts,
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float weight,
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gpointer cr)
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{
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switch (op)
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{
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case GSK_PATH_MOVE:
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cairo_move_to (cr, pts[0].x, pts[0].y);
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break;
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case GSK_PATH_CLOSE:
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cairo_close_path (cr);
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break;
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case GSK_PATH_LINE:
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cairo_line_to (cr, pts[1].x, pts[1].y);
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break;
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case GSK_PATH_CUBIC:
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cairo_curve_to (cr, pts[1].x, pts[1].y, pts[2].x, pts[2].y, pts[3].x, pts[3].y);
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break;
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case GSK_PATH_QUAD:
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case GSK_PATH_CONIC:
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default:
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g_assert_not_reached ();
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return FALSE;
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}
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return TRUE;
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}
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/**
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* gsk_path_to_cairo:
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* @self: a `GskPath`
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* @cr: a cairo context
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*
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* Appends the given @path to the given cairo context for drawing
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* with Cairo.
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*
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* This may cause some suboptimal conversions to be performed as
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* Cairo does not support all features of `GskPath`.
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*
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* This function does not clear the existing Cairo path. Call
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* cairo_new_path() if you want this.
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*
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* Since: 4.14
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*/
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void
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gsk_path_to_cairo (GskPath *self,
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cairo_t *cr)
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{
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g_return_if_fail (self != NULL);
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g_return_if_fail (cr != NULL);
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gsk_path_foreach_with_tolerance (self,
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GSK_PATH_FOREACH_ALLOW_CUBIC,
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cairo_get_tolerance (cr),
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gsk_path_to_cairo_add_op,
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cr);
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}
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/**
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* gsk_path_is_empty:
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* @self: a `GskPath`
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*
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* Checks if the path is empty, i.e. contains no lines or curves.
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*
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* Returns: `TRUE` if the path is empty
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*
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* Since: 4.14
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*/
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gboolean
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gsk_path_is_empty (GskPath *self)
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{
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g_return_val_if_fail (self != NULL, FALSE);
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return self->n_contours == 0;
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}
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/**
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* gsk_path_is_closed:
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* @self: a `GskPath`
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*
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* Returns if the path represents a single closed
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* contour.
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*
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* Returns: `TRUE` if the path is closed
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*
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* Since: 4.14
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*/
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gboolean
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gsk_path_is_closed (GskPath *self)
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{
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g_return_val_if_fail (self != NULL, FALSE);
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/* XXX: is the empty path closed? Currently it's not */
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if (self->n_contours != 1)
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return FALSE;
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return gsk_contour_get_flags (self->contours[0]) & GSK_PATH_CLOSED ? TRUE : FALSE;
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}
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/**
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* gsk_path_get_bounds:
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* @self: a `GskPath`
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* @bounds: (out caller-allocates): the bounds of the given path
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*
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* Computes the bounds of the given path.
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*
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* The returned bounds may be larger than necessary, because this
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* function aims to be fast, not accurate. The bounds are guaranteed
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* to contain the path.
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*
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* It is possible that the returned rectangle has 0 width and/or height.
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* This can happen when the path only describes a point or an
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* axis-aligned line.
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*
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* If the path is empty, `FALSE` is returned and @bounds are set to
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* graphene_rect_zero(). This is different from the case where the path
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* is a single point at the origin, where the @bounds will also be set to
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* the zero rectangle but `TRUE` will be returned.
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*
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* Returns: `TRUE` if the path has bounds, `FALSE` if the path is known
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* to be empty and have no bounds.
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*
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* Since: 4.14
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*/
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gboolean
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gsk_path_get_bounds (GskPath *self,
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graphene_rect_t *bounds)
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{
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GskBoundingBox b;
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g_return_val_if_fail (self != NULL, FALSE);
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g_return_val_if_fail (bounds != NULL, FALSE);
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if (self->n_contours == 0)
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{
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graphene_rect_init_from_rect (bounds, graphene_rect_zero ());
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return FALSE;
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}
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gsk_contour_get_bounds (self->contours[0], &b);
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for (gsize i = 1; i < self->n_contours; i++)
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{
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GskBoundingBox tmp;
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gsk_contour_get_bounds (self->contours[i], &tmp);
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gsk_bounding_box_union (&b, &tmp, &b);
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}
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gsk_bounding_box_to_rect (&b, bounds);
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return TRUE;
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}
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/**
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* gsk_path_get_stroke_bounds:
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* @self: a #GtkPath
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* @stroke: stroke parameters
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* @bounds: (out caller-allocates): the bounds to fill in
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*
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* Computes the bounds for stroking the given path with the
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* parameters in @stroke.
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*
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* The returned bounds may be larger than necessary, because this
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* function aims to be fast, not accurate. The bounds are guaranteed
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* to contain the area affected by the stroke, including protrusions
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* like miters.
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*
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* Returns: `TRUE` if the path has bounds, `FALSE` if the path is known
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* to be empty and have no bounds.
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*
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* Since: 4.14
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*/
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gboolean
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gsk_path_get_stroke_bounds (GskPath *self,
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const GskStroke *stroke,
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graphene_rect_t *bounds)
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{
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GskBoundingBox b;
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g_return_val_if_fail (self != NULL, FALSE);
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g_return_val_if_fail (bounds != NULL, FALSE);
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if (self->n_contours == 0)
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{
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graphene_rect_init_from_rect (bounds, graphene_rect_zero ());
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return FALSE;
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}
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gsk_contour_get_stroke_bounds (self->contours[0], stroke, &b);
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for (gsize i = 1; i < self->n_contours; i++)
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{
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GskBoundingBox tmp;
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if (gsk_contour_get_stroke_bounds (self->contours[i], stroke, &tmp))
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gsk_bounding_box_union (&b, &tmp, &b);
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}
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gsk_bounding_box_to_rect (&b, bounds);
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return TRUE;
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}
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/**
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* gsk_path_in_fill:
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* @self: a `GskPath`
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* @point: the point to test
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* @fill_rule: the fill rule to follow
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*
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* Returns whether the given point is inside the area
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* that would be affected if the path was filled according
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* to @fill_rule.
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*
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* Note that this function assumes that filling a contour
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* implicitly closes it.
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*
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* Returns: `TRUE` if @point is inside
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*
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* Since: 4.14
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*/
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gboolean
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gsk_path_in_fill (GskPath *self,
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const graphene_point_t *point,
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GskFillRule fill_rule)
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{
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int winding = 0;
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for (int i = 0; i < self->n_contours; i++)
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winding += gsk_contour_get_winding (self->contours[i], point);
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switch (fill_rule)
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{
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case GSK_FILL_RULE_EVEN_ODD:
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return winding & 1;
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case GSK_FILL_RULE_WINDING:
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return winding != 0;
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default:
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g_assert_not_reached ();
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}
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}
|
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|
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/**
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* gsk_path_get_start_point:
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* @self: a `GskPath`
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* @result: (out caller-allocates): return location for point
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*
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* Gets the start point of the path.
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*
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* An empty path has no points, so `FALSE`
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* is returned in this case.
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*
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* Returns: `TRUE` if @result was filled
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*
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* Since: 4.14
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*/
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gboolean
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gsk_path_get_start_point (GskPath *self,
|
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GskPathPoint *result)
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{
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g_return_val_if_fail (self != NULL, FALSE);
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g_return_val_if_fail (result != NULL, FALSE);
|
|
|
|
if (self->n_contours == 0)
|
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return FALSE;
|
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|
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/* Conceptually, there is always a move at the
|
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* beginning, which jumps from where to the start
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* point of the contour, so we use idx == 1 here.
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*/
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result->contour = 0;
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result->idx = 1;
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result->t = 0;
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return TRUE;
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}
|
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|
|
/**
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* gsk_path_get_end_point:
|
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* @self: a `GskPath`
|
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* @result: (out caller-allocates): return location for point
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*
|
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* Gets the end point of the path.
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|
*
|
|
* An empty path has no points, so `FALSE`
|
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* is returned in this case.
|
|
*
|
|
* Returns: `TRUE` if @result was filled
|
|
*
|
|
* Since: 4.14
|
|
*/
|
|
gboolean
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gsk_path_get_end_point (GskPath *self,
|
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GskPathPoint *result)
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{
|
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g_return_val_if_fail (self != NULL, FALSE);
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|
g_return_val_if_fail (result != NULL, FALSE);
|
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|
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if (self->n_contours == 0)
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return FALSE;
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result->contour = self->n_contours - 1;
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result->idx = gsk_contour_get_n_ops (self->contours[self->n_contours - 1]) - 1;
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result->t = 1;
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return TRUE;
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}
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|
|
/**
|
|
* gsk_path_get_closest_point:
|
|
* @self: a `GskPath`
|
|
* @point: the point
|
|
* @threshold: maximum allowed distance
|
|
* @result: (out caller-allocates): return location for the closest point
|
|
* @distance: (out) (optional): return location for the distance
|
|
*
|
|
* Computes the closest point on the path to the given point
|
|
* and sets the @result to it.
|
|
*
|
|
* If there is no point closer than the given threshold,
|
|
* `FALSE` is returned.
|
|
*
|
|
* Returns: `TRUE` if @point was set to the closest point
|
|
* on @self, `FALSE` if no point is closer than @threshold
|
|
*
|
|
* Since: 4.14
|
|
*/
|
|
gboolean
|
|
gsk_path_get_closest_point (GskPath *self,
|
|
const graphene_point_t *point,
|
|
float threshold,
|
|
GskPathPoint *result,
|
|
float *distance)
|
|
{
|
|
gboolean found;
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|
|
|
g_return_val_if_fail (self != NULL, FALSE);
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|
g_return_val_if_fail (point != NULL, FALSE);
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g_return_val_if_fail (threshold >= 0, FALSE);
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|
g_return_val_if_fail (result != NULL, FALSE);
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|
|
|
found = FALSE;
|
|
|
|
for (int i = 0; i < self->n_contours; i++)
|
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{
|
|
float dist;
|
|
|
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if (gsk_contour_get_closest_point (self->contours[i], point, threshold, result, &dist))
|
|
{
|
|
found = TRUE;
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g_assert (0 <= result->t && result->t <= 1);
|
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result->contour = i;
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threshold = dist;
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|
|
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if (distance)
|
|
*distance = dist;
|
|
}
|
|
}
|
|
|
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return found;
|
|
}
|
|
|
|
/* }}} */
|
|
/* {{{ Foreach and decomposition */
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|
|
|
/**
|
|
* gsk_path_foreach:
|
|
* @self: a `GskPath`
|
|
* @flags: flags to pass to the foreach function. See [flags@Gsk.PathForeachFlags]
|
|
* for details about flags
|
|
* @func: (scope call) (closure user_data): the function to call for operations
|
|
* @user_data: (nullable): user data passed to @func
|
|
*
|
|
* Calls @func for every operation of the path.
|
|
*
|
|
* Note that this may only approximate @self, because paths can contain
|
|
* optimizations for various specialized contours, and depending on the
|
|
* @flags, the path may be decomposed into simpler curves than the ones
|
|
* that it contained originally.
|
|
*
|
|
* This function serves two purposes:
|
|
*
|
|
* - When the @flags allow everything, it provides access to the raw,
|
|
* unmodified data of the path.
|
|
* - When the @flags disallow certain operations, it provides
|
|
* an approximation of the path using just the allowed operations.
|
|
*
|
|
* Returns: `FALSE` if @func returned FALSE`, `TRUE` otherwise.
|
|
*
|
|
* Since: 4.14
|
|
*/
|
|
gboolean
|
|
gsk_path_foreach (GskPath *self,
|
|
GskPathForeachFlags flags,
|
|
GskPathForeachFunc func,
|
|
gpointer user_data)
|
|
{
|
|
g_return_val_if_fail (self != NULL, FALSE);
|
|
g_return_val_if_fail (func, FALSE);
|
|
|
|
return gsk_path_foreach_with_tolerance (self,
|
|
flags,
|
|
GSK_PATH_TOLERANCE_DEFAULT,
|
|
func,
|
|
user_data);
|
|
}
|
|
|
|
typedef struct _GskPathForeachTrampoline GskPathForeachTrampoline;
|
|
struct _GskPathForeachTrampoline
|
|
{
|
|
GskPathForeachFlags flags;
|
|
double tolerance;
|
|
GskPathForeachFunc func;
|
|
gpointer user_data;
|
|
};
|
|
|
|
static gboolean
|
|
gsk_path_foreach_trampoline_add_line (const graphene_point_t *from,
|
|
const graphene_point_t *to,
|
|
float from_progress,
|
|
float to_progress,
|
|
GskCurveLineReason reason,
|
|
gpointer data)
|
|
{
|
|
GskPathForeachTrampoline *trampoline = data;
|
|
|
|
return trampoline->func (GSK_PATH_LINE,
|
|
(graphene_point_t[2]) { *from, *to },
|
|
2,
|
|
0.f,
|
|
trampoline->user_data);
|
|
}
|
|
|
|
static gboolean
|
|
gsk_path_foreach_trampoline_add_curve (GskPathOperation op,
|
|
const graphene_point_t *pts,
|
|
gsize n_pts,
|
|
float weight,
|
|
gpointer data)
|
|
{
|
|
GskPathForeachTrampoline *trampoline = data;
|
|
|
|
return trampoline->func (op, pts, n_pts, weight, trampoline->user_data);
|
|
}
|
|
|
|
static gboolean
|
|
gsk_path_foreach_trampoline (GskPathOperation op,
|
|
const graphene_point_t *pts,
|
|
gsize n_pts,
|
|
float weight,
|
|
gpointer data)
|
|
{
|
|
GskPathForeachTrampoline *trampoline = data;
|
|
|
|
switch (op)
|
|
{
|
|
case GSK_PATH_MOVE:
|
|
case GSK_PATH_CLOSE:
|
|
case GSK_PATH_LINE:
|
|
return trampoline->func (op, pts, n_pts, weight, trampoline->user_data);
|
|
|
|
case GSK_PATH_QUAD:
|
|
{
|
|
GskCurve curve;
|
|
|
|
if (trampoline->flags & GSK_PATH_FOREACH_ALLOW_QUAD)
|
|
return trampoline->func (op, pts, n_pts, weight, trampoline->user_data);
|
|
else if (trampoline->flags & GSK_PATH_FOREACH_ALLOW_CUBIC)
|
|
{
|
|
return trampoline->func (GSK_PATH_CUBIC,
|
|
(graphene_point_t[4]) {
|
|
pts[0],
|
|
GRAPHENE_POINT_INIT ((pts[0].x + 2 * pts[1].x) / 3,
|
|
(pts[0].y + 2 * pts[1].y) / 3),
|
|
GRAPHENE_POINT_INIT ((pts[2].x + 2 * pts[1].x) / 3,
|
|
(pts[2].y + 2 * pts[1].y) / 3),
|
|
pts[2],
|
|
},
|
|
4,
|
|
weight,
|
|
trampoline->user_data);
|
|
}
|
|
|
|
gsk_curve_init (&curve, gsk_pathop_encode (GSK_PATH_QUAD, pts));
|
|
return gsk_curve_decompose (&curve,
|
|
trampoline->tolerance,
|
|
gsk_path_foreach_trampoline_add_line,
|
|
trampoline);
|
|
}
|
|
|
|
case GSK_PATH_CUBIC:
|
|
{
|
|
GskCurve curve;
|
|
|
|
if (trampoline->flags & GSK_PATH_FOREACH_ALLOW_CUBIC)
|
|
return trampoline->func (op, pts, n_pts, weight, trampoline->user_data);
|
|
|
|
gsk_curve_init (&curve, gsk_pathop_encode (GSK_PATH_CUBIC, pts));
|
|
if (trampoline->flags & (GSK_PATH_FOREACH_ALLOW_QUAD|GSK_PATH_FOREACH_ALLOW_CONIC))
|
|
return gsk_curve_decompose_curve (&curve,
|
|
trampoline->flags,
|
|
trampoline->tolerance,
|
|
gsk_path_foreach_trampoline_add_curve,
|
|
trampoline);
|
|
|
|
return gsk_curve_decompose (&curve,
|
|
trampoline->tolerance,
|
|
gsk_path_foreach_trampoline_add_line,
|
|
trampoline);
|
|
}
|
|
|
|
case GSK_PATH_CONIC:
|
|
{
|
|
GskCurve curve;
|
|
|
|
if (trampoline->flags & GSK_PATH_FOREACH_ALLOW_CONIC)
|
|
return trampoline->func (op, pts, n_pts, weight, trampoline->user_data);
|
|
|
|
gsk_curve_init (&curve, gsk_pathop_encode (GSK_PATH_CONIC, (graphene_point_t[4]) { pts[0], pts[1], { weight, 0.f }, pts[2] } ));
|
|
if (trampoline->flags & (GSK_PATH_FOREACH_ALLOW_QUAD|GSK_PATH_FOREACH_ALLOW_CUBIC))
|
|
return gsk_curve_decompose_curve (&curve,
|
|
trampoline->flags,
|
|
trampoline->tolerance,
|
|
gsk_path_foreach_trampoline_add_curve,
|
|
trampoline);
|
|
|
|
return gsk_curve_decompose (&curve,
|
|
trampoline->tolerance,
|
|
gsk_path_foreach_trampoline_add_line,
|
|
trampoline);
|
|
}
|
|
|
|
default:
|
|
g_assert_not_reached ();
|
|
return FALSE;
|
|
}
|
|
}
|
|
|
|
#define ALLOW_ANY (GSK_PATH_FOREACH_ALLOW_QUAD | \
|
|
GSK_PATH_FOREACH_ALLOW_CUBIC | \
|
|
GSK_PATH_FOREACH_ALLOW_CONIC)
|
|
|
|
gboolean
|
|
gsk_path_foreach_with_tolerance (GskPath *self,
|
|
GskPathForeachFlags flags,
|
|
double tolerance,
|
|
GskPathForeachFunc func,
|
|
gpointer user_data)
|
|
{
|
|
GskPathForeachTrampoline trampoline;
|
|
gsize i;
|
|
|
|
/* If we need to massage the data, set up a trampoline here */
|
|
if ((flags & ALLOW_ANY) != ALLOW_ANY)
|
|
{
|
|
trampoline = (GskPathForeachTrampoline) { flags, tolerance, func, user_data };
|
|
func = gsk_path_foreach_trampoline;
|
|
user_data = &trampoline;
|
|
}
|
|
|
|
for (i = 0; i < self->n_contours; i++)
|
|
{
|
|
if (!gsk_contour_foreach (self->contours[i], func, user_data))
|
|
return FALSE;
|
|
}
|
|
|
|
return TRUE;
|
|
}
|
|
|
|
/* }}} */
|
|
|
|
/* vim:set foldmethod=marker expandtab: */
|