tornavis/source/blender/blenkernel/BKE_ccg.h

/*
 * ***** BEGIN GPL LICENSE BLOCK *****
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program 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 General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
 *
 * The Original Code is Copyright (C) 2012 by Nicholas Bishop.
 * All rights reserved.
 *
 * The Original Code is: all of this file.
 *
 * Contributor(s): none yet.
 *
 * ***** END GPL LICENSE BLOCK *****
 */

#ifndef __BKE_CCG_H__
#define __BKE_CCG_H__

/** \file BKE_ccg.h
 *  \ingroup bke
 */

/* defines BLI_INLINE */
#include "BLI_utildefines.h"

/* declares fprintf() and abort(), needed for BLI_assert */
#include <stdio.h>
#include <stdlib.h>

struct CCGSubSurf;

/* Each CCGElem is CCGSubSurf's representation of a subdivided
 * vertex. All CCGElems in a particular CCGSubSurf have the same
 * layout, but the layout can vary from one CCGSubSurf to another. For
 * this reason, CCGElem is presented as an opaque pointer, and
 * elements should always be accompanied by a CCGKey, which provides
 * the necessary offsets to access components of a CCGElem.
 */
typedef struct CCGElem CCGElem;

typedef struct CCGKey {
	int level;

	/* number of bytes in each element (one float per layer, plus
	 * three floats for normals if enabled) */
	int elem_size;

	/* number of elements along each side of grid */
	int grid_size;
	/* number of elements in the grid (grid size squared) */
	int grid_area;
	/* number of bytes in each grid (grid_area * elem_size) */
	int grid_bytes;

	/* currently always the last three floats, unless normals are
	 * disabled */
	int normal_offset;

	/* offset in bytes of mask value; only valid if 'has_mask' is
	 * true */
	int mask_offset;

	int num_layers;
	int has_normals;
	int has_mask;
} CCGKey;

/* initialize 'key' at the specified level */
void CCG_key(CCGKey *key, const struct CCGSubSurf *ss, int level);
void CCG_key_top_level(CCGKey *key, const struct CCGSubSurf *ss);

/* get a pointer to the coordinate, normal, or mask components */
BLI_INLINE float *CCG_elem_co(const CCGKey *key, CCGElem *elem);
BLI_INLINE float *CCG_elem_no(const CCGKey *key, CCGElem *elem);
BLI_INLINE float *CCG_elem_mask(const CCGKey *key, CCGElem *elem);

/* get the element at 'offset' in an array */
BLI_INLINE CCGElem *CCG_elem_offset(const CCGKey *key, CCGElem *elem, int offset);

/* get the element at coordinate (x,y) in a face-grid array */
BLI_INLINE CCGElem *CCG_grid_elem(const CCGKey *key, CCGElem *elem, int x, int y);

/* combinations of above functions */
BLI_INLINE float *CCG_grid_elem_co(const CCGKey *key, CCGElem *elem, int x, int y);
BLI_INLINE float *CCG_grid_elem_no(const CCGKey *key, CCGElem *elem, int x, int y);
BLI_INLINE float *CCG_grid_elem_mask(const CCGKey *key, CCGElem *elem, int x, int y);
BLI_INLINE float *CCG_elem_offset_co(const CCGKey *key, CCGElem *elem, int offset);
BLI_INLINE float *CCG_elem_offset_no(const CCGKey *key, CCGElem *elem, int offset);
BLI_INLINE float *CCG_elem_offset_mask(const CCGKey *key, CCGElem *elem, int offset);

/* for iteration, get a pointer to the next element in an array */
BLI_INLINE CCGElem *CCG_elem_next(const CCGKey *key, CCGElem *elem);


/* inline definitions follow */

BLI_INLINE float *CCG_elem_co(const CCGKey *UNUSED(key), CCGElem *elem)
{
	return (float *)elem;
}

BLI_INLINE float *CCG_elem_no(const CCGKey *key, CCGElem *elem)
{
	BLI_assert(key->has_normals);
	return (float *)((char *)elem + key->normal_offset);
}

BLI_INLINE float *CCG_elem_mask(const CCGKey *key, CCGElem *elem)
{
	BLI_assert(key->has_mask);
	return (float *)((char *)elem + (key->mask_offset));
}

BLI_INLINE CCGElem *CCG_elem_offset(const CCGKey *key, CCGElem *elem, int offset)
{
	return (CCGElem *)(((char *)elem) + key->elem_size * offset);
}

BLI_INLINE CCGElem *CCG_grid_elem(const CCGKey *key, CCGElem *elem, int x, int y)
{
//	BLI_assert(x < key->grid_size && y < key->grid_size);
	return CCG_elem_offset(key, elem, (y * key->grid_size + x));
}

BLI_INLINE float *CCG_grid_elem_co(const CCGKey *key, CCGElem *elem, int x, int y)
{
	return CCG_elem_co(key, CCG_grid_elem(key, elem, x, y));
}

BLI_INLINE float *CCG_grid_elem_no(const CCGKey *key, CCGElem *elem, int x, int y)
{
	return CCG_elem_no(key, CCG_grid_elem(key, elem, x, y));
}

BLI_INLINE float *CCG_grid_elem_mask(const CCGKey *key, CCGElem *elem, int x, int y)
{
	return CCG_elem_mask(key, CCG_grid_elem(key, elem, x, y));
}

BLI_INLINE float *CCG_elem_offset_co(const CCGKey *key, CCGElem *elem, int offset)
{
	return CCG_elem_co(key, CCG_elem_offset(key, elem, offset));
}

BLI_INLINE float *CCG_elem_offset_no(const CCGKey *key, CCGElem *elem, int offset)
{
	return CCG_elem_no(key, CCG_elem_offset(key, elem, offset));
}

BLI_INLINE float *CCG_elem_offset_mask(const CCGKey *key, CCGElem *elem, int offset)
{
	return CCG_elem_mask(key, CCG_elem_offset(key, elem, offset));
}

BLI_INLINE CCGElem *CCG_elem_next(const CCGKey *key, CCGElem *elem)
{
	return CCG_elem_offset(key, elem, 1);
}

#endif