/* cairo - a vector graphics library with display and print output * * Copyright © 2002 University of Southern California * * This library is free software; you can redistribute it and/or * modify it either under the terms of the GNU Lesser General Public * License version 2.1 as published by the Free Software Foundation * (the "LGPL") or, at your option, under the terms of the Mozilla * Public License Version 1.1 (the "MPL"). If you do not alter this * notice, a recipient may use your version of this file under either * the MPL or the LGPL. * * You should have received a copy of the LGPL along with this library * in the file COPYING-LGPL-2.1; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * You should have received a copy of the MPL along with this library * in the file COPYING-MPL-1.1 * * The contents of this file are subject to the Mozilla Public License * Version 1.1 (the "License"); you may not use this file except in * compliance with the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY * OF ANY KIND, either express or implied. See the LGPL or the MPL for * the specific language governing rights and limitations. * * The Original Code is the cairo graphics library. * * The Initial Developer of the Original Code is University of Southern * California. * * Contributor(s): * Carl D. Worth */ #include #include "cairoint.h" /* private functions */ static cairo_status_t _cairo_path_add (cairo_path_t *path, cairo_path_op_t op, cairo_point_t *points, int num_pts); static void _cairo_path_add_op_buf (cairo_path_t *path, cairo_path_op_buf_t *op); static cairo_status_t _cairo_path_new_op_buf (cairo_path_t *path); static void _cairo_path_add_arg_buf (cairo_path_t *path, cairo_path_arg_buf_t *arg); static cairo_status_t _cairo_path_new_arg_buf (cairo_path_t *path); static cairo_path_op_buf_t * _cairo_path_op_buf_create (void); static void _cairo_path_op_buf_destroy (cairo_path_op_buf_t *buf); static void _cairo_path_op_buf_add (cairo_path_op_buf_t *op_buf, cairo_path_op_t op); static cairo_path_arg_buf_t * _cairo_path_arg_buf_create (void); static void _cairo_path_arg_buf_destroy (cairo_path_arg_buf_t *buf); static void _cairo_path_arg_buf_add (cairo_path_arg_buf_t *arg, cairo_point_t *points, int num_points); void _cairo_path_init (cairo_path_t *path) { path->op_head = NULL; path->op_tail = NULL; path->arg_head = NULL; path->arg_tail = NULL; path->current_point.x = 0; path->current_point.y = 0; path->has_current_point = 0; path->last_move_point = path->current_point; } cairo_status_t _cairo_path_init_copy (cairo_path_t *path, cairo_path_t *other) { cairo_path_op_buf_t *op, *other_op; cairo_path_arg_buf_t *arg, *other_arg; _cairo_path_init (path); path->current_point = other->current_point; path->has_current_point = other->has_current_point; path->last_move_point = other->last_move_point; for (other_op = other->op_head; other_op; other_op = other_op->next) { op = _cairo_path_op_buf_create (); if (op == NULL) { return CAIRO_STATUS_NO_MEMORY; } *op = *other_op; _cairo_path_add_op_buf (path, op); } for (other_arg = other->arg_head; other_arg; other_arg = other_arg->next) { arg = _cairo_path_arg_buf_create (); if (arg == NULL) { return CAIRO_STATUS_NO_MEMORY; } *arg = *other_arg; _cairo_path_add_arg_buf (path, arg); } return CAIRO_STATUS_SUCCESS; } void _cairo_path_fini (cairo_path_t *path) { cairo_path_op_buf_t *op; cairo_path_arg_buf_t *arg; while (path->op_head) { op = path->op_head; path->op_head = op->next; _cairo_path_op_buf_destroy (op); } path->op_tail = NULL; while (path->arg_head) { arg = path->arg_head; path->arg_head = arg->next; _cairo_path_arg_buf_destroy (arg); } path->arg_tail = NULL; path->has_current_point = 0; } cairo_status_t _cairo_path_move_to (cairo_path_t *path, cairo_point_t *point) { cairo_status_t status; status = _cairo_path_add (path, CAIRO_PATH_OP_MOVE_TO, point, 1); if (status) return status; path->current_point = *point; path->has_current_point = 1; path->last_move_point = path->current_point; return CAIRO_STATUS_SUCCESS; } cairo_status_t _cairo_path_rel_move_to (cairo_path_t *path, cairo_distance_t *distance) { cairo_point_t point; point.x = path->current_point.x + distance->dx; point.y = path->current_point.y + distance->dy; return _cairo_path_move_to (path, &point); } cairo_status_t _cairo_path_line_to (cairo_path_t *path, cairo_point_t *point) { cairo_status_t status; status = _cairo_path_add (path, CAIRO_PATH_OP_LINE_TO, point, 1); if (status) return status; path->current_point = *point; path->has_current_point = 1; return CAIRO_STATUS_SUCCESS; } cairo_status_t _cairo_path_rel_line_to (cairo_path_t *path, cairo_distance_t *distance) { cairo_point_t point; point.x = path->current_point.x + distance->dx; point.y = path->current_point.y + distance->dy; return _cairo_path_line_to (path, &point); } cairo_status_t _cairo_path_curve_to (cairo_path_t *path, cairo_point_t *p0, cairo_point_t *p1, cairo_point_t *p2) { cairo_status_t status; cairo_point_t point[3]; point[0] = *p0; point[1] = *p1; point[2] = *p2; status = _cairo_path_add (path, CAIRO_PATH_OP_CURVE_TO, point, 3); if (status) return status; path->current_point = *p2; path->has_current_point = 1; return CAIRO_STATUS_SUCCESS; } cairo_status_t _cairo_path_rel_curve_to (cairo_path_t *path, cairo_distance_t *d0, cairo_distance_t *d1, cairo_distance_t *d2) { cairo_point_t p0, p1, p2; p0.x = path->current_point.x + d0->dx; p0.y = path->current_point.y + d0->dy; p1.x = path->current_point.x + d1->dx; p1.y = path->current_point.y + d1->dy; p2.x = path->current_point.x + d2->dx; p2.y = path->current_point.y + d2->dy; return _cairo_path_curve_to (path, &p0, &p1, &p2); } cairo_status_t _cairo_path_close_path (cairo_path_t *path) { cairo_status_t status; status = _cairo_path_add (path, CAIRO_PATH_OP_CLOSE_PATH, NULL, 0); if (status) return status; path->current_point.x = path->last_move_point.x; path->current_point.y = path->last_move_point.y; path->has_current_point = 1; return CAIRO_STATUS_SUCCESS; } cairo_status_t _cairo_path_current_point (cairo_path_t *path, cairo_point_t *point) { if (! path->has_current_point) return CAIRO_STATUS_NO_CURRENT_POINT; *point = path->current_point; return CAIRO_STATUS_SUCCESS; } static cairo_status_t _cairo_path_add (cairo_path_t *path, cairo_path_op_t op, cairo_point_t *points, int num_points) { cairo_status_t status; if (path->op_tail == NULL || path->op_tail->num_ops + 1 > CAIRO_PATH_BUF_SZ) { status = _cairo_path_new_op_buf (path); if (status) return status; } _cairo_path_op_buf_add (path->op_tail, op); if (path->arg_tail == NULL || path->arg_tail->num_points + num_points > CAIRO_PATH_BUF_SZ) { status = _cairo_path_new_arg_buf (path); if (status) return status; } _cairo_path_arg_buf_add (path->arg_tail, points, num_points); return CAIRO_STATUS_SUCCESS; } static void _cairo_path_add_op_buf (cairo_path_t *path, cairo_path_op_buf_t *op) { op->next = NULL; op->prev = path->op_tail; if (path->op_tail) { path->op_tail->next = op; } else { path->op_head = op; } path->op_tail = op; } static cairo_status_t _cairo_path_new_op_buf (cairo_path_t *path) { cairo_path_op_buf_t *op; op = _cairo_path_op_buf_create (); if (op == NULL) return CAIRO_STATUS_NO_MEMORY; _cairo_path_add_op_buf (path, op); return CAIRO_STATUS_SUCCESS; } static void _cairo_path_add_arg_buf (cairo_path_t *path, cairo_path_arg_buf_t *arg) { arg->next = NULL; arg->prev = path->arg_tail; if (path->arg_tail) { path->arg_tail->next = arg; } else { path->arg_head = arg; } path->arg_tail = arg; } static cairo_status_t _cairo_path_new_arg_buf (cairo_path_t *path) { cairo_path_arg_buf_t *arg; arg = _cairo_path_arg_buf_create (); if (arg == NULL) return CAIRO_STATUS_NO_MEMORY; _cairo_path_add_arg_buf (path, arg); return CAIRO_STATUS_SUCCESS; } static cairo_path_op_buf_t * _cairo_path_op_buf_create (void) { cairo_path_op_buf_t *op; op = malloc (sizeof (cairo_path_op_buf_t)); if (op) { op->num_ops = 0; op->next = NULL; } return op; } static void _cairo_path_op_buf_destroy (cairo_path_op_buf_t *op) { free (op); } static void _cairo_path_op_buf_add (cairo_path_op_buf_t *op_buf, cairo_path_op_t op) { op_buf->op[op_buf->num_ops++] = op; } static cairo_path_arg_buf_t * _cairo_path_arg_buf_create (void) { cairo_path_arg_buf_t *arg; arg = malloc (sizeof (cairo_path_arg_buf_t)); if (arg) { arg->num_points = 0; arg->next = NULL; } return arg; } static void _cairo_path_arg_buf_destroy (cairo_path_arg_buf_t *arg) { free (arg); } static void _cairo_path_arg_buf_add (cairo_path_arg_buf_t *arg, cairo_point_t *points, int num_points) { int i; for (i=0; i < num_points; i++) { arg->points[arg->num_points++] = points[i]; } } #define CAIRO_PATH_OP_MAX_ARGS 3 static int const num_args[] = { 1, /* cairo_path_move_to */ 1, /* cairo_path_op_line_to */ 3, /* cairo_path_op_curve_to */ 0, /* cairo_path_op_close_path */ }; cairo_status_t _cairo_path_interpret (cairo_path_t *path, cairo_direction_t dir, cairo_path_move_to_func_t *move_to, cairo_path_line_to_func_t *line_to, cairo_path_curve_to_func_t *curve_to, cairo_path_close_path_func_t *close_path, void *closure) { cairo_status_t status; int i, arg; cairo_path_op_buf_t *op_buf; cairo_path_op_t op; cairo_path_arg_buf_t *arg_buf = path->arg_head; int buf_i = 0; cairo_point_t point[CAIRO_PATH_OP_MAX_ARGS]; int step = (dir == CAIRO_DIRECTION_FORWARD) ? 1 : -1; for (op_buf = (dir == CAIRO_DIRECTION_FORWARD) ? path->op_head : path->op_tail; op_buf; op_buf = (dir == CAIRO_DIRECTION_FORWARD) ? op_buf->next : op_buf->prev) { int start, stop; if (dir == CAIRO_DIRECTION_FORWARD) { start = 0; stop = op_buf->num_ops; } else { start = op_buf->num_ops - 1; stop = -1; } for (i=start; i != stop; i += step) { op = op_buf->op[i]; if (dir == CAIRO_DIRECTION_REVERSE) { if (buf_i == 0) { arg_buf = arg_buf->prev; buf_i = arg_buf->num_points; } buf_i -= num_args[op]; } for (arg = 0; arg < num_args[op]; arg++) { point[arg] = arg_buf->points[buf_i]; buf_i++; if (buf_i >= arg_buf->num_points) { arg_buf = arg_buf->next; buf_i = 0; } } if (dir == CAIRO_DIRECTION_REVERSE) { buf_i -= num_args[op]; } switch (op) { case CAIRO_PATH_OP_MOVE_TO: status = (*move_to) (closure, &point[0]); break; case CAIRO_PATH_OP_LINE_TO: status = (*line_to) (closure, &point[0]); break; case CAIRO_PATH_OP_CURVE_TO: status = (*curve_to) (closure, &point[0], &point[1], &point[2]); break; case CAIRO_PATH_OP_CLOSE_PATH: default: status = (*close_path) (closure); break; } if (status) return status; } } return CAIRO_STATUS_SUCCESS; }