blender-archive/source/blender/imbuf/intern/allocimbuf.c

/*
 * allocimbuf.c
 *
 * $Id$
 *
 * ***** BEGIN GPL/BL DUAL 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. The Blender
 * Foundation also sells licenses for use in proprietary software under
 * the Blender License.  See http://www.blender.org/BL/ for information
 * about this.
 *
 * 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., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
 *
 * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
 * All rights reserved.
 *
 * The Original Code is: all of this file.
 *
 * Contributor(s): none yet.
 *
 * ***** END GPL/BL DUAL LICENSE BLOCK *****
 */

/* It's become a bit messy... Basically, only the IMB_ prefixed files
 * should remain. */

#include "IMB_imbuf_types.h"

#include "imbuf.h"
#include "imbuf_patch.h"
#include "IMB_imbuf.h"

#include "IMB_divers.h"
#include "IMB_allocimbuf.h"
#include "MEM_CacheLimiterC-Api.h"

static unsigned int dfltcmap[16] = {
	0x00000000, 0xffffffff, 0x777777ff, 0xccccccff, 
	0xcc3344ff, 0xdd8844ff, 0xccdd44ff, 0x888833ff, 
	0x338844ff, 0x44dd44ff, 0x44ddccff, 0x3388ccff, 
	0x8888ddff, 0x4433ccff, 0xcc33ccff, 0xcc88ddff
};

void imb_freeplanesImBuf(struct ImBuf * ibuf)
{
	if (ibuf==NULL) return;
	if (ibuf->planes){
		if (ibuf->mall & IB_planes) MEM_freeN(ibuf->planes);
	}
	ibuf->planes = 0;
	ibuf->mall &= ~IB_planes;
}

void imb_freerectfloatImBuf(struct ImBuf * ibuf)
{
	if (ibuf==NULL) return;
	
	if (ibuf->rect_float) {
		if (ibuf->mall & IB_rectfloat) {
			MEM_freeN(ibuf->rect_float);
			ibuf->rect_float=NULL;
		}
	}

	ibuf->rect_float= NULL;
	ibuf->mall &= ~IB_rectfloat;
}

void imb_freerectImBuf(struct ImBuf * ibuf)
{
	if (ibuf==NULL) return;
	
	if (ibuf->rect) {
		if (ibuf->mall & IB_rect) {
			MEM_freeN(ibuf->rect);
		}
	}
	
	ibuf->rect= NULL;
	ibuf->mall &= ~IB_rect;
}

static void freeencodedbufferImBuf(struct ImBuf * ibuf)
{
	if (ibuf==NULL) return;
	if (ibuf->encodedbuffer){
		if (ibuf->mall & IB_mem) MEM_freeN(ibuf->encodedbuffer);
	}
	ibuf->encodedbuffer = 0;
	ibuf->encodedbuffersize = 0;
	ibuf->encodedsize = 0;
	ibuf->mall &= ~IB_mem;
}

void IMB_freezbufImBuf(struct ImBuf * ibuf)
{
	if (ibuf==NULL) return;
	if (ibuf->zbuf){
		if (ibuf->mall & IB_zbuf) MEM_freeN(ibuf->zbuf);
	}
	ibuf->zbuf= NULL;
	ibuf->mall &= ~IB_zbuf;
}

void IMB_freezbuffloatImBuf(struct ImBuf * ibuf)
{
	if (ibuf==NULL) return;
	if (ibuf->zbuf_float){
		if (ibuf->mall & IB_zbuffloat) MEM_freeN(ibuf->zbuf_float);
	}
	ibuf->zbuf_float= NULL;
	ibuf->mall &= ~IB_zbuffloat;
}

void IMB_freecmapImBuf(struct ImBuf * ibuf)
{
	if (ibuf==NULL) return;
	if (ibuf->cmap){
		if (ibuf->mall & IB_cmap) MEM_freeN(ibuf->cmap);
	}
	ibuf->cmap = 0;
	ibuf->mall &= ~IB_cmap;
}

void IMB_freeImBuf(struct ImBuf * ibuf)
{
	if (ibuf){
		if (ibuf->refcounter > 0) {
			ibuf->refcounter--;
		} else {
			imb_freeplanesImBuf(ibuf);
			imb_freerectImBuf(ibuf);
			imb_freerectfloatImBuf(ibuf);
			IMB_freezbufImBuf(ibuf);
			IMB_freezbuffloatImBuf(ibuf);
			IMB_freecmapImBuf(ibuf);
			freeencodedbufferImBuf(ibuf);
			IMB_cache_limiter_unmanage(ibuf);
			MEM_freeN(ibuf);
		}
	}
}

void IMB_refImBuf(struct ImBuf * ibuf)
{
	ibuf->refcounter++;
}

short addzbufImBuf(struct ImBuf * ibuf)
{
	int size;
	
	if (ibuf==NULL) return(FALSE);
	
	IMB_freezbufImBuf(ibuf);
	
	size = ibuf->x * ibuf->y * sizeof(unsigned int);
	if ( (ibuf->zbuf = MEM_mapallocN(size, "addzbufImBuf")) ){
		ibuf->mall |= IB_zbuf;
		ibuf->flags |= IB_zbuf;
		return (TRUE);
	}
	
	return (FALSE);
}

short addzbuffloatImBuf(struct ImBuf * ibuf)
{
	int size;
	
	if (ibuf==NULL) return(FALSE);
	
	IMB_freezbuffloatImBuf(ibuf);
	
	size = ibuf->x * ibuf->y * sizeof(float);
	if ( (ibuf->zbuf_float = MEM_mapallocN(size, "addzbuffloatImBuf")) ){
		ibuf->mall |= IB_zbuffloat;
		ibuf->flags |= IB_zbuffloat;
		return (TRUE);
	}
	
	return (FALSE);
}


short imb_addencodedbufferImBuf(struct ImBuf * ibuf)
{
	if (ibuf==NULL) return(FALSE);

	freeencodedbufferImBuf(ibuf);

	if (ibuf->encodedbuffersize == 0) 
		ibuf->encodedbuffersize = 10000;

	ibuf->encodedsize = 0;

	if ( (ibuf->encodedbuffer = MEM_mallocN(ibuf->encodedbuffersize, "addencodedbufferImBuf") )){
		ibuf->mall |= IB_mem;
		ibuf->flags |= IB_mem;
		return (TRUE);
	}

	return (FALSE);
}


short imb_enlargeencodedbufferImBuf(struct ImBuf * ibuf)
{
	unsigned int newsize, encodedsize;
	void *newbuffer;

	if (ibuf==NULL) return(FALSE);

	if (ibuf->encodedbuffersize < ibuf->encodedsize) {
		printf("imb_enlargeencodedbufferImBuf: error in parameters\n");
		return(FALSE);
	}

	newsize = 2 * ibuf->encodedbuffersize;
	if (newsize < 10000) newsize = 10000;

	newbuffer = MEM_mallocN(newsize, "enlargeencodedbufferImBuf");
	if (newbuffer == NULL) return(FALSE);

	if (ibuf->encodedbuffer) {
		memcpy(newbuffer, ibuf->encodedbuffer, ibuf->encodedsize);
	} else {
		ibuf->encodedsize = 0;
	}

	encodedsize = ibuf->encodedsize;

	freeencodedbufferImBuf(ibuf);

	ibuf->encodedbuffersize = newsize;
	ibuf->encodedsize = encodedsize;
	ibuf->encodedbuffer = newbuffer;
	ibuf->mall |= IB_mem;
	ibuf->flags |= IB_mem;

	return (TRUE);
}

short imb_addrectfloatImBuf(struct ImBuf * ibuf)
{
	int size;
	
	if (ibuf==NULL) return(FALSE);
	
	imb_freerectfloatImBuf(ibuf);
	
	size = ibuf->x * ibuf->y;
	size = size * 4 * sizeof(float);
	
	if ( (ibuf->rect_float = MEM_mapallocN(size, "imb_addrectfloatImBuf")) ){
		ibuf->mall |= IB_rectfloat;
		ibuf->flags |= IB_rectfloat;
		return (TRUE);
	}
	
	return (FALSE);
}

/* question; why also add zbuf? */
short imb_addrectImBuf(struct ImBuf * ibuf)
{
	int size;

	if (ibuf==NULL) return(FALSE);
	imb_freerectImBuf(ibuf);

	size = ibuf->x * ibuf->y;
 	size = size * sizeof(unsigned int);

	if ( (ibuf->rect = MEM_mapallocN(size, "imb_addrectImBuf")) ){
		ibuf->mall |= IB_rect;
		ibuf->flags |= IB_rect;
		if (ibuf->depth > 32) return (addzbufImBuf(ibuf));
		else return (TRUE);
	}

	return (FALSE);
}


short imb_addcmapImBuf(struct ImBuf *ibuf)
{
	int min;
	
	if (ibuf==NULL) return(FALSE);
	IMB_freecmapImBuf(ibuf);

	imb_checkncols(ibuf);
	if (ibuf->maxcol == 0) return (TRUE);

	if ( (ibuf->cmap = MEM_callocN(sizeof(unsigned int) * ibuf->maxcol, "imb_addcmapImBuf") ) ){
		min = ibuf->maxcol * sizeof(unsigned int);
		if (min > sizeof(dfltcmap)) min = sizeof(dfltcmap);
		memcpy(ibuf->cmap, dfltcmap, min);
		ibuf->mall |= IB_cmap;
		ibuf->flags |= IB_cmap;
		return (TRUE);
	}

	return (FALSE);
}


short imb_addplanesImBuf(struct ImBuf *ibuf)
{
	int size;
	short skipx,d,y;
	unsigned int **planes;
	unsigned int *point2;

	if (ibuf==NULL) return(FALSE);
	imb_freeplanesImBuf(ibuf);

	skipx = ((ibuf->x+31) >> 5);
	ibuf->skipx=skipx;
	y=ibuf->y;
	d=ibuf->depth;

	planes = MEM_mallocN( (d*skipx*y)*sizeof(int) + d*sizeof(int *), "imb_addplanesImBuf");
	
	ibuf->planes = planes;
	if (planes==0) return (FALSE);

	point2 = (unsigned int *)(planes+d);
	size = skipx*y;

	for (;d>0;d--){
		*(planes++) = point2;
		point2 += size;
	}
	ibuf->mall |= IB_planes;
	ibuf->flags |= IB_planes;

	return (TRUE);
}


struct ImBuf *IMB_allocImBuf(short x, short y, uchar d, unsigned int flags, uchar bitmap)
{
	struct ImBuf *ibuf;

	ibuf = MEM_callocN(sizeof(struct ImBuf), "ImBuf_struct");
	if (bitmap) flags |= IB_planes;

	if (ibuf){
		ibuf->x= x;
		ibuf->y= y;
		ibuf->depth= d;
		ibuf->ftype= TGA;

		if (flags & IB_rect){
			if (imb_addrectImBuf(ibuf)==FALSE){
				IMB_freeImBuf(ibuf);
				return NULL;
			}
		}
		
		if (flags & IB_rectfloat){
			if (imb_addrectfloatImBuf(ibuf)==FALSE){
				IMB_freeImBuf(ibuf);
				return NULL;
			}
		}
		
		if (flags & IB_zbuf){
			if (addzbufImBuf(ibuf)==FALSE){
				IMB_freeImBuf(ibuf);
				return NULL;
			}
		}
		
		if (flags & IB_zbuffloat){
			if (addzbuffloatImBuf(ibuf)==FALSE){
				IMB_freeImBuf(ibuf);
				return NULL;
			}
		}
		
		if (flags & IB_planes){
			if (imb_addplanesImBuf(ibuf)==FALSE){
				IMB_freeImBuf(ibuf);
				return NULL;
			}
		}
	}
	return (ibuf);
}

/* does no zbuffers? */
struct ImBuf *IMB_dupImBuf(struct ImBuf *ibuf1)
{
	struct ImBuf *ibuf2, tbuf;
	int flags = 0;
	int x, y;
	
	if (ibuf1 == NULL) return NULL;

	if (ibuf1->rect) flags |= IB_rect;
	if (ibuf1->rect_float) flags |= IB_rectfloat;
	if (ibuf1->planes) flags |= IB_planes;

	x = ibuf1->x;
	y = ibuf1->y;
	if (ibuf1->flags & IB_fields) y *= 2;
	
	ibuf2 = IMB_allocImBuf(x, y, ibuf1->depth, flags, 0);
	if (ibuf2 == NULL) return NULL;

	if (flags & IB_rect)
		memcpy(ibuf2->rect, ibuf1->rect, x * y * sizeof(int));
	
	if (flags & IB_rectfloat)
		memcpy(ibuf2->rect_float, ibuf1->rect_float, 4 * x * y * sizeof(float));

	if (flags & IB_planes) 
		memcpy(*(ibuf2->planes),*(ibuf1->planes),ibuf1->depth * ibuf1->skipx * y * sizeof(int));

	if (ibuf1->encodedbuffer) {
		ibuf2->encodedbuffersize = ibuf1->encodedbuffersize;
		if (imb_addencodedbufferImBuf(ibuf2) == FALSE) {
			IMB_freeImBuf(ibuf2);
			return NULL;
		}

		memcpy(ibuf2->encodedbuffer, ibuf1->encodedbuffer, ibuf1->encodedsize);
	}

	/* silly trick to copy the entire contents of ibuf1 struct over to ibuf */
	tbuf = *ibuf1;
	
	// fix pointers 
	tbuf.rect		= ibuf2->rect;
	tbuf.rect_float = ibuf2->rect_float;
	tbuf.planes		= ibuf2->planes;
	tbuf.cmap		= ibuf2->cmap;
	tbuf.encodedbuffer = ibuf2->encodedbuffer;
	tbuf.zbuf= NULL;
	tbuf.zbuf_float= NULL;
	
	// set malloc flag
	tbuf.mall		= ibuf2->mall;
	tbuf.c_handle           = 0;

	*ibuf2 = tbuf;
	
	if (ibuf1->cmap){
		imb_addcmapImBuf(ibuf2);
		if (ibuf2->cmap) memcpy(ibuf2->cmap,ibuf1->cmap,ibuf2->maxcol * sizeof(int));
	}

	return(ibuf2);
}

/* support for cache limiting */

static void imbuf_cache_destructor(void * data)
{
	struct ImBuf * ibuf = (struct ImBuf*) data;

	imb_freeplanesImBuf(ibuf);
	imb_freerectImBuf(ibuf);
	imb_freerectfloatImBuf(ibuf);
	IMB_freezbufImBuf(ibuf);
	IMB_freezbuffloatImBuf(ibuf);
	IMB_freecmapImBuf(ibuf);
	freeencodedbufferImBuf(ibuf);

	ibuf->c_handle = 0;
}

static MEM_CacheLimiterC ** get_imbuf_cache_limiter()
{
	static MEM_CacheLimiterC * c = 0;
	if (!c) {
		c = new_MEM_CacheLimiter(imbuf_cache_destructor);
	}
	return &c;
}

void IMB_free_cache_limiter()
{
	delete_MEM_CacheLimiter(*get_imbuf_cache_limiter());
	*get_imbuf_cache_limiter() = 0;
}

void IMB_cache_limiter_insert(struct ImBuf * i)
{
	if (!i->c_handle) {
		i->c_handle = MEM_CacheLimiter_insert(
			*get_imbuf_cache_limiter(), i);
		MEM_CacheLimiter_ref(i->c_handle);
		MEM_CacheLimiter_enforce_limits(
			*get_imbuf_cache_limiter());
		MEM_CacheLimiter_unref(i->c_handle);
	}
}

void IMB_cache_limiter_unmanage(struct ImBuf * i)
{
	if (i->c_handle) {
		MEM_CacheLimiter_unmanage(i->c_handle);
		i->c_handle = 0;
	}
}

void IMB_cache_limiter_touch(struct ImBuf * i)
{
	if (i->c_handle) {
		MEM_CacheLimiter_touch(i->c_handle);
	}
}

void IMB_cache_limiter_ref(struct ImBuf * i)
{
	if (i->c_handle) {
		MEM_CacheLimiter_ref(i->c_handle);
	}
}

void IMB_cache_limiter_unref(struct ImBuf * i)
{
	if (i->c_handle) {
		MEM_CacheLimiter_unref(i->c_handle);
	}
}

int IMB_cache_limiter_get_refcount(struct ImBuf * i)
{
	if (i->c_handle) {
		return MEM_CacheLimiter_get_refcount(i->c_handle);
	}
	return 0;
}