mirror of
https://github.com/brl/mutter.git
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253 lines
6.9 KiB
C
253 lines
6.9 KiB
C
/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */
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/*
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* MetaWindowShape
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*
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* Extracted invariant window shape
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*
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* Copyright (C) 2010 Red Hat, Inc.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation; either version 2 of the
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* License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* 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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* General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, see <http://www.gnu.org/licenses/>.
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*/
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#include <string.h>
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#include "meta-window-shape.h"
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#include "region-utils.h"
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struct _MetaWindowShape
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{
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guint ref_count;
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int top, right, bottom, left;
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int n_rectangles;
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cairo_rectangle_int_t *rectangles;
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guint hash;
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};
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MetaWindowShape *
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meta_window_shape_new (cairo_region_t *region)
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{
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MetaWindowShape *shape;
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MetaRegionIterator iter;
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cairo_rectangle_int_t extents;
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int max_yspan_y1 = 0;
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int max_yspan_y2 = 0;
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int max_xspan_x1 = -1;
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int max_xspan_x2 = -1;
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guint hash;
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shape = g_slice_new0 (MetaWindowShape);
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shape->ref_count = 1;
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cairo_region_get_extents (region, &extents);
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shape->n_rectangles = cairo_region_num_rectangles (region);
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if (shape->n_rectangles == 0)
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{
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shape->rectangles = NULL;
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shape->top = shape->right = shape->bottom = shape->left = 0;
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shape->hash = 0;
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return shape;
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}
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for (meta_region_iterator_init (&iter, region);
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!meta_region_iterator_at_end (&iter);
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meta_region_iterator_next (&iter))
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{
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int max_line_xspan_x1 = -1;
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int max_line_xspan_x2 = -1;
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if (iter.rectangle.width > max_line_xspan_x2 - max_line_xspan_x1)
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{
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max_line_xspan_x1 = iter.rectangle.x;
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max_line_xspan_x2 = iter.rectangle.x + iter.rectangle.width;
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}
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if (iter.line_end)
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{
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if (iter.rectangle.height > max_yspan_y2 - max_yspan_y1)
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{
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max_yspan_y1 = iter.rectangle.y;
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max_yspan_y2 = iter.rectangle.y + iter.rectangle.height;
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}
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if (max_xspan_x1 < 0) /* First line */
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{
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max_xspan_x1 = max_line_xspan_x1;
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max_xspan_x2 = max_line_xspan_x2;
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}
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else
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{
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max_xspan_x1 = MAX (max_xspan_x1, max_line_xspan_x1);
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max_xspan_x2 = MIN (max_xspan_x2, max_line_xspan_x2);
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if (max_xspan_x2 < max_xspan_x1)
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max_xspan_x2 = max_xspan_x1;
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}
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}
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}
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#if 0
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g_print ("xspan: %d -> %d, yspan: %d -> %d\n",
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max_xspan_x1, max_xspan_x2,
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max_yspan_y1, max_yspan_y2);
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#endif
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shape->top = max_yspan_y1 - extents.y;
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shape->right = extents.x + extents.width - max_xspan_x2;
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shape->bottom = extents.y + extents.height - max_yspan_y2;
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shape->left = max_xspan_x1 - extents.x;
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shape->rectangles = g_new (cairo_rectangle_int_t, shape->n_rectangles);
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hash = 0;
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for (meta_region_iterator_init (&iter, region);
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!meta_region_iterator_at_end (&iter);
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meta_region_iterator_next (&iter))
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{
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int x1, x2, y1, y2;
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x1 = iter.rectangle.x;
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x2 = iter.rectangle.x + iter.rectangle.width;
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y1 = iter.rectangle.y;
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y2 = iter.rectangle.y + iter.rectangle.height;
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if (x1 > max_xspan_x1)
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x1 -= MIN (x1, max_xspan_x2 - 1) - max_xspan_x1;
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if (x2 > max_xspan_x1)
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x2 -= MIN (x2, max_xspan_x2 - 1) - max_xspan_x1;
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if (y1 > max_yspan_y1)
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y1 -= MIN (y1, max_yspan_y2 - 1) - max_yspan_y1;
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if (y2 > max_yspan_y1)
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y2 -= MIN (y2, max_yspan_y2 - 1) - max_yspan_y1;
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shape->rectangles[iter.i].x = x1 - extents.x;
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shape->rectangles[iter.i].y = y1 - extents.y;
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shape->rectangles[iter.i].width = x2 - x1;
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shape->rectangles[iter.i].height = y2 - y1;
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#if 0
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g_print ("%d: +%d+%dx%dx%d => +%d+%dx%dx%d\n",
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iter.i, iter.rectangle.x, iter.rectangle.y, iter.rectangle.width, iter.rectangle.height,
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shape->rectangles[iter.i].x, shape->rectangles[iter.i].y,
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hape->rectangles[iter.i].width, shape->rectangles[iter.i].height);
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#endif
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hash = hash * 31 + x1 * 17 + x2 * 27 + y1 * 37 + y2 * 43;
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}
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shape->hash = hash;
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#if 0
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g_print ("%d %d %d %d: %#x\n\n", shape->top, shape->right, shape->bottom, shape->left, shape->hash);
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#endif
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return shape;
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}
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MetaWindowShape *
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meta_window_shape_ref (MetaWindowShape *shape)
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{
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shape->ref_count++;
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return shape;
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}
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void
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meta_window_shape_unref (MetaWindowShape *shape)
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{
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shape->ref_count--;
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if (shape->ref_count == 0)
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{
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g_free (shape->rectangles);
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g_slice_free (MetaWindowShape, shape);
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}
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}
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guint
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meta_window_shape_hash (MetaWindowShape *shape)
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{
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return shape->hash;
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}
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gboolean
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meta_window_shape_equal (MetaWindowShape *shape_a,
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MetaWindowShape *shape_b)
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{
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if (shape_a->n_rectangles != shape_b->n_rectangles)
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return FALSE;
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return memcmp (shape_a->rectangles, shape_b->rectangles,
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sizeof (cairo_rectangle_int_t) * shape_a->n_rectangles) == 0;
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}
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void
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meta_window_shape_get_borders (MetaWindowShape *shape,
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int *border_top,
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int *border_right,
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int *border_bottom,
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int *border_left)
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{
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if (border_top)
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*border_top = shape->top;
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if (border_right)
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*border_right = shape->right;
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if (border_bottom)
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*border_bottom = shape->bottom;
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if (border_left)
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*border_left = shape->left;
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}
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/**
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* meta_window_shape_to_region:
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* @shape: a #MetaWindowShape
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* @center_width: size of the central region horizontally
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* @center_height: size of the central region vertically
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*
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* Converts the shape to to a cairo_region_t using the given width
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* and height for the central scaled region.
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*
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* Return value: a newly created region
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*/
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cairo_region_t *
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meta_window_shape_to_region (MetaWindowShape *shape,
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int center_width,
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int center_height)
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{
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cairo_region_t *region;
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int i;
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region = cairo_region_create ();
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for (i = 0; i < shape->n_rectangles; i++)
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{
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cairo_rectangle_int_t rect = shape->rectangles[i];
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if (rect.x <= shape->left && rect.x + rect.width >= shape->left + 1)
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rect.width += center_width;
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else if (rect.x >= shape->left + 1)
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rect.x += center_width;
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if (rect.y <= shape->top && rect.y + rect.height >= shape->top + 1)
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rect.height += center_height;
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else if (rect.y >= shape->top + 1)
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rect.y += center_height;
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cairo_region_union_rectangle (region, &rect);
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}
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return region;
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}
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