/*
 * Copyright (c) 1999-2000 Image Power, Inc. and the University of
 *   British Columbia.
 * Copyright (c) 2001-2002 Michael David Adams.
 * All rights reserved.
 */

/* __START_OF_JASPER_LICENSE__
 * 
 * JasPer Software License
 * 
 * IMAGE POWER JPEG-2000 PUBLIC LICENSE
 * ************************************
 * 
 * GRANT:
 * 
 * Permission is hereby granted, free of charge, to any person (the "User")
 * obtaining a copy of this software and associated documentation, to deal
 * in the JasPer Software without restriction, including without limitation
 * the right to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the JasPer Software (in source and binary forms),
 * and to permit persons to whom the JasPer Software is furnished to do so,
 * provided further that the License Conditions below are met.
 * 
 * License Conditions
 * ******************
 * 
 * A.  Redistributions of source code must retain the above copyright notice,
 * and this list of conditions, and the following disclaimer.
 * 
 * B.  Redistributions in binary form must reproduce the above copyright
 * notice, and this list of conditions, and the following disclaimer in
 * the documentation and/or other materials provided with the distribution.
 * 
 * C.  Neither the name of Image Power, Inc. nor any other contributor
 * (including, but not limited to, the University of British Columbia and
 * Michael David Adams) may be used to endorse or promote products derived
 * from this software without specific prior written permission.
 * 
 * D.  User agrees that it shall not commence any action against Image Power,
 * Inc., the University of British Columbia, Michael David Adams, or any
 * other contributors (collectively "Licensors") for infringement of any
 * intellectual property rights ("IPR") held by the User in respect of any
 * technology that User owns or has a right to license or sublicense and
 * which is an element required in order to claim compliance with ISO/IEC
 * 15444-1 (i.e., JPEG-2000 Part 1).  "IPR" means all intellectual property
 * rights worldwide arising under statutory or common law, and whether
 * or not perfected, including, without limitation, all (i) patents and
 * patent applications owned or licensable by User; (ii) rights associated
 * with works of authorship including copyrights, copyright applications,
 * copyright registrations, mask work rights, mask work applications,
 * mask work registrations; (iii) rights relating to the protection of
 * trade secrets and confidential information; (iv) any right analogous
 * to those set forth in subsections (i), (ii), or (iii) and any other
 * proprietary rights relating to intangible property (other than trademark,
 * trade dress, or service mark rights); and (v) divisions, continuations,
 * renewals, reissues and extensions of the foregoing (as and to the extent
 * applicable) now existing, hereafter filed, issued or acquired.
 * 
 * E.  If User commences an infringement action against any Licensor(s) then
 * such Licensor(s) shall have the right to terminate User's license and
 * all sublicenses that have been granted hereunder by User to other parties.
 * 
 * F.  This software is for use only in hardware or software products that
 * are compliant with ISO/IEC 15444-1 (i.e., JPEG-2000 Part 1).  No license
 * or right to this Software is granted for products that do not comply
 * with ISO/IEC 15444-1.  The JPEG-2000 Part 1 standard can be purchased
 * from the ISO.
 * 
 * THIS DISCLAIMER OF WARRANTY CONSTITUTES AN ESSENTIAL PART OF THIS LICENSE.
 * NO USE OF THE JASPER SOFTWARE IS AUTHORIZED HEREUNDER EXCEPT UNDER
 * THIS DISCLAIMER.  THE JASPER SOFTWARE IS PROVIDED BY THE LICENSORS AND
 * CONTRIBUTORS UNDER THIS LICENSE ON AN ``AS-IS'' BASIS, WITHOUT WARRANTY
 * OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, WITHOUT LIMITATION,
 * WARRANTIES THAT THE JASPER SOFTWARE IS FREE OF DEFECTS, IS MERCHANTABLE,
 * IS FIT FOR A PARTICULAR PURPOSE OR IS NON-INFRINGING.  THOSE INTENDING
 * TO USE THE JASPER SOFTWARE OR MODIFICATIONS THEREOF FOR USE IN HARDWARE
 * OR SOFTWARE PRODUCTS ARE ADVISED THAT THEIR USE MAY INFRINGE EXISTING
 * PATENTS, COPYRIGHTS, TRADEMARKS, OR OTHER INTELLECTUAL PROPERTY RIGHTS.
 * THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE JASPER SOFTWARE
 * IS WITH THE USER.  SHOULD ANY PART OF THE JASPER SOFTWARE PROVE DEFECTIVE
 * IN ANY RESPECT, THE USER (AND NOT THE INITIAL DEVELOPERS, THE UNIVERSITY
 * OF BRITISH COLUMBIA, IMAGE POWER, INC., MICHAEL DAVID ADAMS, OR ANY
 * OTHER CONTRIBUTOR) SHALL ASSUME THE COST OF ANY NECESSARY SERVICING,
 * REPAIR OR CORRECTION.  UNDER NO CIRCUMSTANCES AND UNDER NO LEGAL THEORY,
 * WHETHER TORT (INCLUDING NEGLIGENCE), CONTRACT, OR OTHERWISE, SHALL THE
 * INITIAL DEVELOPER, THE UNIVERSITY OF BRITISH COLUMBIA, IMAGE POWER, INC.,
 * MICHAEL DAVID ADAMS, ANY OTHER CONTRIBUTOR, OR ANY DISTRIBUTOR OF THE
 * JASPER SOFTWARE, OR ANY SUPPLIER OF ANY OF SUCH PARTIES, BE LIABLE TO
 * THE USER OR ANY OTHER PERSON FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR
 * CONSEQUENTIAL DAMAGES OF ANY CHARACTER INCLUDING, WITHOUT LIMITATION,
 * DAMAGES FOR LOSS OF GOODWILL, WORK STOPPAGE, COMPUTER FAILURE OR
 * MALFUNCTION, OR ANY AND ALL OTHER COMMERCIAL DAMAGES OR LOSSES, EVEN IF
 * SUCH PARTY HAD BEEN INFORMED, OR OUGHT TO HAVE KNOWN, OF THE POSSIBILITY
 * OF SUCH DAMAGES.  THE JASPER SOFTWARE AND UNDERLYING TECHNOLOGY ARE NOT
 * FAULT-TOLERANT AND ARE NOT DESIGNED, MANUFACTURED OR INTENDED FOR USE OR
 * RESALE AS ON-LINE CONTROL EQUIPMENT IN HAZARDOUS ENVIRONMENTS REQUIRING
 * FAIL-SAFE PERFORMANCE, SUCH AS IN THE OPERATION OF NUCLEAR FACILITIES,
 * AIRCRAFT NAVIGATION OR COMMUNICATION SYSTEMS, AIR TRAFFIC CONTROL, DIRECT
 * LIFE SUPPORT MACHINES, OR WEAPONS SYSTEMS, IN WHICH THE FAILURE OF THE
 * JASPER SOFTWARE OR UNDERLYING TECHNOLOGY OR PRODUCT COULD LEAD DIRECTLY
 * TO DEATH, PERSONAL INJURY, OR SEVERE PHYSICAL OR ENVIRONMENTAL DAMAGE
 * ("HIGH RISK ACTIVITIES").  LICENSOR SPECIFICALLY DISCLAIMS ANY EXPRESS
 * OR IMPLIED WARRANTY OF FITNESS FOR HIGH RISK ACTIVITIES.  USER WILL NOT
 * KNOWINGLY USE, DISTRIBUTE OR RESELL THE JASPER SOFTWARE OR UNDERLYING
 * TECHNOLOGY OR PRODUCTS FOR HIGH RISK ACTIVITIES AND WILL ENSURE THAT ITS
 * CUSTOMERS AND END-USERS OF ITS PRODUCTS ARE PROVIDED WITH A COPY OF THE
 * NOTICE SPECIFIED IN THIS SECTION.
 * 
 * __END_OF_JASPER_LICENSE__
 */

/*
 * Tier-2 Coding Library
 *
 * $Id$
 */

#include "jasper/jas_math.h"
#include "jasper/jas_malloc.h"
#include "jasper/jas_math.h"

#include "jpc_cs.h"
#include "jpc_t2cod.h"
#include "jpc_math.h"

static int jpc_pi_nextlrcp(jpc_pi_t *pi);
static int jpc_pi_nextrlcp(jpc_pi_t *pi);
static int jpc_pi_nextrpcl(jpc_pi_t *pi);
static int jpc_pi_nextpcrl(jpc_pi_t *pi);
static int jpc_pi_nextcprl(jpc_pi_t *pi);

int jpc_pi_next(jpc_pi_t *pi)
{
	jpc_pchg_t *pchg;
	int ret;


	for (;;) {

		pi->valid = false;

		if (!pi->pchg) {
			++pi->pchgno;
			pi->compno = 0;
			pi->rlvlno = 0;
			pi->prcno = 0;
			pi->lyrno = 0;
			pi->prgvolfirst = true;
			if (pi->pchgno < jpc_pchglist_numpchgs(pi->pchglist)) {
				pi->pchg = jpc_pchglist_get(pi->pchglist, pi->pchgno);
			} else if (pi->pchgno == jpc_pchglist_numpchgs(pi->pchglist)) {
				pi->pchg = &pi->defaultpchg;
			} else {
				return 1;
			}
		}

		pchg = pi->pchg;
		switch (pchg->prgord) {
		case JPC_COD_LRCPPRG:
			ret = jpc_pi_nextlrcp(pi);
			break;
		case JPC_COD_RLCPPRG:
			ret = jpc_pi_nextrlcp(pi);
			break;
		case JPC_COD_RPCLPRG:
			ret = jpc_pi_nextrpcl(pi);
			break;
		case JPC_COD_PCRLPRG:
			ret = jpc_pi_nextpcrl(pi);
			break;
		case JPC_COD_CPRLPRG:
			ret = jpc_pi_nextcprl(pi);
			break;
		default:
			ret = -1;
			break;
		}
		if (!ret) {
			pi->valid = true;
			++pi->pktno;
			return 0;
		}
		pi->pchg = 0;
	}
}

static int jpc_pi_nextlrcp(register jpc_pi_t *pi)
{
	jpc_pchg_t *pchg;
	int *prclyrno;

	pchg = pi->pchg;
	if (!pi->prgvolfirst) {
		prclyrno = &pi->pirlvl->prclyrnos[pi->prcno];
		goto skip;
	} else {
		pi->prgvolfirst = false;
	}

	for (pi->lyrno = 0; pi->lyrno < pi->numlyrs && pi->lyrno <
	  pchg->lyrnoend; ++pi->lyrno) {
		for (pi->rlvlno = pchg->rlvlnostart; pi->rlvlno < pi->maxrlvls &&
		  pi->rlvlno < pchg->rlvlnoend; ++pi->rlvlno) {
			for (pi->compno = pchg->compnostart, pi->picomp =
			  &pi->picomps[pi->compno]; pi->compno < pi->numcomps
			  && pi->compno < pchg->compnoend; ++pi->compno,
			  ++pi->picomp) {
				if (pi->rlvlno >= pi->picomp->numrlvls) {
					continue;
				}
				pi->pirlvl = &pi->picomp->pirlvls[pi->rlvlno];
				for (pi->prcno = 0, prclyrno =
				  pi->pirlvl->prclyrnos; pi->prcno <
				  pi->pirlvl->numprcs; ++pi->prcno,
				  ++prclyrno) {
					if (pi->lyrno >= *prclyrno) {
						*prclyrno = pi->lyrno;
						++(*prclyrno);
						return 0;
					}
skip:
					;
				}
			}
		}
	}
	return 1;
}

static int jpc_pi_nextrlcp(register jpc_pi_t *pi)
{
	jpc_pchg_t *pchg;
	int *prclyrno;

	pchg = pi->pchg;
	if (!pi->prgvolfirst) {
		assert(pi->prcno < pi->pirlvl->numprcs);
		prclyrno = &pi->pirlvl->prclyrnos[pi->prcno];
		goto skip;
	} else {
		pi->prgvolfirst = 0;
	}

	for (pi->rlvlno = pchg->rlvlnostart; pi->rlvlno < pi->maxrlvls &&
	  pi->rlvlno < pchg->rlvlnoend; ++pi->rlvlno) {
		for (pi->lyrno = 0; pi->lyrno < pi->numlyrs && pi->lyrno <
		  pchg->lyrnoend; ++pi->lyrno) {
			for (pi->compno = pchg->compnostart, pi->picomp =
			  &pi->picomps[pi->compno]; pi->compno < pi->numcomps &&
			  pi->compno < pchg->compnoend; ++pi->compno, ++pi->picomp) {
				if (pi->rlvlno >= pi->picomp->numrlvls) {
					continue;
				}
				pi->pirlvl = &pi->picomp->pirlvls[pi->rlvlno];
				for (pi->prcno = 0, prclyrno = pi->pirlvl->prclyrnos;
				  pi->prcno < pi->pirlvl->numprcs; ++pi->prcno, ++prclyrno) {
					if (pi->lyrno >= *prclyrno) {
						*prclyrno = pi->lyrno;
						++(*prclyrno);
						return 0;
					}
skip:
					;
				}
			}
		}
	}
	return 1;
}

static int jpc_pi_nextrpcl(register jpc_pi_t *pi)
{
	int rlvlno;
	jpc_pirlvl_t *pirlvl;
	jpc_pchg_t *pchg;
	int prchind;
	int prcvind;
	int *prclyrno;
	int compno;
	jpc_picomp_t *picomp;
	int xstep;
	int ystep;
	uint_fast32_t r;
	uint_fast32_t rpx;
	uint_fast32_t rpy;
	uint_fast32_t trx0;
	uint_fast32_t try0;

	pchg = pi->pchg;
	if (!pi->prgvolfirst) {
		goto skip;
	} else {
		pi->xstep = 0;
		pi->ystep = 0;
		for (compno = 0, picomp = pi->picomps; compno < pi->numcomps;
		  ++compno, ++picomp) {
			for (rlvlno = 0, pirlvl = picomp->pirlvls; rlvlno <
			  picomp->numrlvls; ++rlvlno, ++pirlvl) {
				xstep = picomp->hsamp * (1 << (pirlvl->prcwidthexpn +
				  picomp->numrlvls - rlvlno - 1));
				ystep = picomp->vsamp * (1 << (pirlvl->prcheightexpn +
				  picomp->numrlvls - rlvlno - 1));
				pi->xstep = (!pi->xstep) ? xstep : JAS_MIN(pi->xstep, xstep);
				pi->ystep = (!pi->ystep) ? ystep : JAS_MIN(pi->ystep, ystep);
			}
		}
		pi->prgvolfirst = 0;
	}

	for (pi->rlvlno = pchg->rlvlnostart; pi->rlvlno < pchg->rlvlnoend &&
	  pi->rlvlno < pi->maxrlvls; ++pi->rlvlno) {
		for (pi->y = pi->ystart; pi->y < pi->yend; pi->y +=
		  pi->ystep - (pi->y % pi->ystep)) {
			for (pi->x = pi->xstart; pi->x < pi->xend; pi->x +=
			  pi->xstep - (pi->x % pi->xstep)) {
				for (pi->compno = pchg->compnostart,
				  pi->picomp = &pi->picomps[pi->compno];
				  pi->compno < pchg->compnoend && pi->compno <
				  pi->numcomps; ++pi->compno, ++pi->picomp) {
					if (pi->rlvlno >= pi->picomp->numrlvls) {
						continue;
					}
					pi->pirlvl = &pi->picomp->pirlvls[pi->rlvlno];
					if (pi->pirlvl->numprcs == 0) {
						continue;
					}
					r = pi->picomp->numrlvls - 1 - pi->rlvlno;
					rpx = r + pi->pirlvl->prcwidthexpn;
					rpy = r + pi->pirlvl->prcheightexpn;
					trx0 = JPC_CEILDIV(pi->xstart, pi->picomp->hsamp << r);
					try0 = JPC_CEILDIV(pi->ystart, pi->picomp->vsamp << r);
					if (((pi->x == pi->xstart && ((trx0 << r) % (1 << rpx)))
					  || !(pi->x % (1 << rpx))) &&
					  ((pi->y == pi->ystart && ((try0 << r) % (1 << rpy)))
					  || !(pi->y % (1 << rpy)))) {
						prchind = JPC_FLOORDIVPOW2(JPC_CEILDIV(pi->x, pi->picomp->hsamp
						  << r), pi->pirlvl->prcwidthexpn) - JPC_FLOORDIVPOW2(trx0,
						  pi->pirlvl->prcwidthexpn);
						prcvind = JPC_FLOORDIVPOW2(JPC_CEILDIV(pi->y, pi->picomp->vsamp
						  << r), pi->pirlvl->prcheightexpn) - JPC_FLOORDIVPOW2(try0,
						  pi->pirlvl->prcheightexpn);
						pi->prcno = prcvind * pi->pirlvl->numhprcs + prchind;

						assert(pi->prcno < pi->pirlvl->numprcs);
						for (pi->lyrno = 0; pi->lyrno <
						  pi->numlyrs && pi->lyrno < pchg->lyrnoend; ++pi->lyrno) {
							prclyrno = &pi->pirlvl->prclyrnos[pi->prcno];
							if (pi->lyrno >= *prclyrno) {
								++(*prclyrno);
								return 0;
							}
skip:
							;
						}
					}
				}
			}
		}
	}
	return 1;
}

static int jpc_pi_nextpcrl(register jpc_pi_t *pi)
{
	int rlvlno;
	jpc_pirlvl_t *pirlvl;
	jpc_pchg_t *pchg;
	int prchind;
	int prcvind;
	int *prclyrno;
	int compno;
	jpc_picomp_t *picomp;
	int xstep;
	int ystep;
	uint_fast32_t trx0;
	uint_fast32_t try0;
	uint_fast32_t r;
	uint_fast32_t rpx;
	uint_fast32_t rpy;

	pchg = pi->pchg;
	if (!pi->prgvolfirst) {
		goto skip;
	} else {
		pi->xstep = 0;
		pi->ystep = 0;
		for (compno = 0, picomp = pi->picomps; compno < pi->numcomps;
		  ++compno, ++picomp) {
			for (rlvlno = 0, pirlvl = picomp->pirlvls; rlvlno <
			  picomp->numrlvls; ++rlvlno, ++pirlvl) {
				xstep = picomp->hsamp * (1 <<
				  (pirlvl->prcwidthexpn + picomp->numrlvls -
				  rlvlno - 1));
				ystep = picomp->vsamp * (1 <<
				  (pirlvl->prcheightexpn + picomp->numrlvls -
				  rlvlno - 1));
				pi->xstep = (!pi->xstep) ? xstep :
				  JAS_MIN(pi->xstep, xstep);
				pi->ystep = (!pi->ystep) ? ystep :
				  JAS_MIN(pi->ystep, ystep);
			}
		}
		pi->prgvolfirst = 0;
	}

	for (pi->y = pi->ystart; pi->y < pi->yend; pi->y += pi->ystep -
	  (pi->y % pi->ystep)) {
		for (pi->x = pi->xstart; pi->x < pi->xend; pi->x += pi->xstep -
		  (pi->x % pi->xstep)) {
			for (pi->compno = pchg->compnostart, pi->picomp =
			  &pi->picomps[pi->compno]; pi->compno < pi->numcomps
			  && pi->compno < pchg->compnoend; ++pi->compno,
			  ++pi->picomp) {
				for (pi->rlvlno = pchg->rlvlnostart,
				  pi->pirlvl = &pi->picomp->pirlvls[pi->rlvlno];
				  pi->rlvlno < pi->picomp->numrlvls &&
				  pi->rlvlno < pchg->rlvlnoend; ++pi->rlvlno,
				  ++pi->pirlvl) {
					if (pi->pirlvl->numprcs == 0) {
						continue;
					}
					r = pi->picomp->numrlvls - 1 - pi->rlvlno;
					trx0 = JPC_CEILDIV(pi->xstart, pi->picomp->hsamp << r);
					try0 = JPC_CEILDIV(pi->ystart, pi->picomp->vsamp << r);
					rpx = r + pi->pirlvl->prcwidthexpn;
					rpy = r + pi->pirlvl->prcheightexpn;
					if (((pi->x == pi->xstart && ((trx0 << r) % (1 << rpx))) ||
					  !(pi->x % (pi->picomp->hsamp << rpx))) &&
					  ((pi->y == pi->ystart && ((try0 << r) % (1 << rpy))) ||
					  !(pi->y % (pi->picomp->vsamp << rpy)))) {
						prchind = JPC_FLOORDIVPOW2(JPC_CEILDIV(pi->x, pi->picomp->hsamp
						  << r), pi->pirlvl->prcwidthexpn) - JPC_FLOORDIVPOW2(trx0,
						  pi->pirlvl->prcwidthexpn);
						prcvind = JPC_FLOORDIVPOW2(JPC_CEILDIV(pi->y, pi->picomp->vsamp
						  << r), pi->pirlvl->prcheightexpn) - JPC_FLOORDIVPOW2(try0,
						  pi->pirlvl->prcheightexpn);
						pi->prcno = prcvind * pi->pirlvl->numhprcs + prchind;
						assert(pi->prcno < pi->pirlvl->numprcs);
						for (pi->lyrno = 0; pi->lyrno < pi->numlyrs &&
						  pi->lyrno < pchg->lyrnoend; ++pi->lyrno) {
							prclyrno = &pi->pirlvl->prclyrnos[pi->prcno];
							if (pi->lyrno >= *prclyrno) {
								++(*prclyrno);
								return 0;
							}
skip:
							;
						}
					}
				}
			}
		}
	}
	return 1;
}

static int jpc_pi_nextcprl(register jpc_pi_t *pi)
{
	int rlvlno;
	jpc_pirlvl_t *pirlvl;
	jpc_pchg_t *pchg;
	int prchind;
	int prcvind;
	int *prclyrno;
	uint_fast32_t trx0;
	uint_fast32_t try0;
	uint_fast32_t r;
	uint_fast32_t rpx;
	uint_fast32_t rpy;

	pchg = pi->pchg;
	if (!pi->prgvolfirst) {
		goto skip;
	} else {
		pi->prgvolfirst = 0;
	}

	for (pi->compno = pchg->compnostart, pi->picomp =
	  &pi->picomps[pi->compno]; pi->compno < pchg->compnoend; ++pi->compno,
	  ++pi->picomp) {
		pirlvl = pi->picomp->pirlvls;
		pi->xstep = pi->picomp->hsamp * (1 << (pirlvl->prcwidthexpn +
		  pi->picomp->numrlvls - 1));
		pi->ystep = pi->picomp->vsamp * (1 << (pirlvl->prcheightexpn +
		  pi->picomp->numrlvls - 1));
		for (rlvlno = 1, pirlvl = &pi->picomp->pirlvls[1];
		  rlvlno < pi->picomp->numrlvls; ++rlvlno, ++pirlvl) {
			pi->xstep = JAS_MIN(pi->xstep, pi->picomp->hsamp * (1 <<
			  (pirlvl->prcwidthexpn + pi->picomp->numrlvls -
			  rlvlno - 1)));
			pi->ystep = JAS_MIN(pi->ystep, pi->picomp->vsamp * (1 <<
			  (pirlvl->prcheightexpn + pi->picomp->numrlvls -
			  rlvlno - 1)));
		}
		for (pi->y = pi->ystart; pi->y < pi->yend;
		  pi->y += pi->ystep - (pi->y % pi->ystep)) {
			for (pi->x = pi->xstart; pi->x < pi->xend;
			  pi->x += pi->xstep - (pi->x % pi->xstep)) {
				for (pi->rlvlno = pchg->rlvlnostart,
				  pi->pirlvl = &pi->picomp->pirlvls[pi->rlvlno];
				  pi->rlvlno < pi->picomp->numrlvls && pi->rlvlno <
				  pchg->rlvlnoend; ++pi->rlvlno, ++pi->pirlvl) {
					if (pi->pirlvl->numprcs == 0) {
						continue;
					}
					r = pi->picomp->numrlvls - 1 - pi->rlvlno;
					trx0 = JPC_CEILDIV(pi->xstart, pi->picomp->hsamp << r);
					try0 = JPC_CEILDIV(pi->ystart, pi->picomp->vsamp << r);
					rpx = r + pi->pirlvl->prcwidthexpn;
					rpy = r + pi->pirlvl->prcheightexpn;
					if (((pi->x == pi->xstart && ((trx0 << r) % (1 << rpx))) ||
					  !(pi->x % (pi->picomp->hsamp << rpx))) &&
					  ((pi->y == pi->ystart && ((try0 << r) % (1 << rpy))) ||
					  !(pi->y % (pi->picomp->vsamp << rpy)))) {
						prchind = JPC_FLOORDIVPOW2(JPC_CEILDIV(pi->x, pi->picomp->hsamp
						  << r), pi->pirlvl->prcwidthexpn) - JPC_FLOORDIVPOW2(trx0,
						  pi->pirlvl->prcwidthexpn);
						prcvind = JPC_FLOORDIVPOW2(JPC_CEILDIV(pi->y, pi->picomp->vsamp
						  << r), pi->pirlvl->prcheightexpn) - JPC_FLOORDIVPOW2(try0,
						  pi->pirlvl->prcheightexpn);
						pi->prcno = prcvind *
						  pi->pirlvl->numhprcs +
						  prchind;
						assert(pi->prcno <
						  pi->pirlvl->numprcs);
						for (pi->lyrno = 0; pi->lyrno <
						  pi->numlyrs && pi->lyrno < pchg->lyrnoend; ++pi->lyrno) {
							prclyrno = &pi->pirlvl->prclyrnos[pi->prcno];
							if (pi->lyrno >= *prclyrno) {
								++(*prclyrno);
								return 0;
							}
skip:
							;
						}
					}
				}
			}
		}
	}
	return 1;
}

static void pirlvl_destroy(jpc_pirlvl_t *rlvl)
{
	if (rlvl->prclyrnos) {
		jas_free(rlvl->prclyrnos);
	}
}

static void jpc_picomp_destroy(jpc_picomp_t *picomp)
{
	int rlvlno;
	jpc_pirlvl_t *pirlvl;
	if (picomp->pirlvls) {
		for (rlvlno = 0, pirlvl = picomp->pirlvls; rlvlno <
		  picomp->numrlvls; ++rlvlno, ++pirlvl) {
			pirlvl_destroy(pirlvl);
		}
		jas_free(picomp->pirlvls);
	}
}

void jpc_pi_destroy(jpc_pi_t *pi)
{
	jpc_picomp_t *picomp;
	int compno;
	if (pi->picomps) {
		for (compno = 0, picomp = pi->picomps; compno < pi->numcomps;
		  ++compno, ++picomp) {
			jpc_picomp_destroy(picomp);
		}
		jas_free(pi->picomps);
	}
	if (pi->pchglist) {
		jpc_pchglist_destroy(pi->pchglist);
	}
	jas_free(pi);
}

jpc_pi_t *jpc_pi_create0(void)
{
	jpc_pi_t *pi;
	if (!(pi = jas_malloc(sizeof(jpc_pi_t)))) {
		return 0;
	}
	pi->picomps = 0;
	pi->pchgno = 0;
	if (!(pi->pchglist = jpc_pchglist_create())) {
		jas_free(pi);
		return 0;
	}
	return pi;
}

int jpc_pi_addpchg(jpc_pi_t *pi, jpc_pocpchg_t *pchg)
{
	return jpc_pchglist_insert(pi->pchglist, -1, pchg);
}

jpc_pchglist_t *jpc_pchglist_create(void)
{
	jpc_pchglist_t *pchglist;
	if (!(pchglist = jas_malloc(sizeof(jpc_pchglist_t)))) {
		return 0;
	}
	pchglist->numpchgs = 0;
	pchglist->maxpchgs = 0;
	pchglist->pchgs = 0;
	return pchglist;
}

int jpc_pchglist_insert(jpc_pchglist_t *pchglist, int pchgno, jpc_pchg_t *pchg)
{
	int i;
	int newmaxpchgs;
	jpc_pchg_t **newpchgs;
	if (pchgno < 0) {
		pchgno = pchglist->numpchgs;
	}
	if (pchglist->numpchgs >= pchglist->maxpchgs) {
		newmaxpchgs = pchglist->maxpchgs + 128;
		if (!(newpchgs = jas_realloc(pchglist->pchgs, newmaxpchgs * sizeof(jpc_pchg_t *)))) {
			return -1;
		}
		pchglist->maxpchgs = newmaxpchgs;
		pchglist->pchgs = newpchgs;
	}
	for (i = pchglist->numpchgs; i > pchgno; --i) {
		pchglist->pchgs[i] = pchglist->pchgs[i - 1];
	}
	pchglist->pchgs[pchgno] = pchg;
	++pchglist->numpchgs;
	return 0;
}

jpc_pchg_t *jpc_pchglist_remove(jpc_pchglist_t *pchglist, int pchgno)
{
	int i;
	jpc_pchg_t *pchg;
	assert(pchgno < pchglist->numpchgs);
	pchg = pchglist->pchgs[pchgno];
	for (i = pchgno + 1; i < pchglist->numpchgs; ++i) {
		pchglist->pchgs[i - 1] = pchglist->pchgs[i];
	}
	--pchglist->numpchgs;
	return pchg;
}

jpc_pchg_t *jpc_pchg_copy(jpc_pchg_t *pchg)
{
	jpc_pchg_t *newpchg;
	if (!(newpchg = jas_malloc(sizeof(jpc_pchg_t)))) {
		return 0;
	}
	*newpchg = *pchg;
	return newpchg;
}

jpc_pchglist_t *jpc_pchglist_copy(jpc_pchglist_t *pchglist)
{
	jpc_pchglist_t *newpchglist;
	jpc_pchg_t *newpchg;
	int pchgno;
	if (!(newpchglist = jpc_pchglist_create())) {
		return 0;
	}
	for (pchgno = 0; pchgno < pchglist->numpchgs; ++pchgno) {
		if (!(newpchg = jpc_pchg_copy(pchglist->pchgs[pchgno])) ||
		  jpc_pchglist_insert(newpchglist, -1, newpchg)) {
			jpc_pchglist_destroy(newpchglist);
			return 0;
		}
	}
	return newpchglist;
}

void jpc_pchglist_destroy(jpc_pchglist_t *pchglist)
{
	int pchgno;
	if (pchglist->pchgs) {
		for (pchgno = 0; pchgno < pchglist->numpchgs; ++pchgno) {
			jpc_pchg_destroy(pchglist->pchgs[pchgno]);
		}
		jas_free(pchglist->pchgs);
	}
	jas_free(pchglist);
}

void jpc_pchg_destroy(jpc_pchg_t *pchg)
{
	jas_free(pchg);
}

jpc_pchg_t *jpc_pchglist_get(jpc_pchglist_t *pchglist, int pchgno)
{
	return pchglist->pchgs[pchgno];
}

int jpc_pchglist_numpchgs(jpc_pchglist_t *pchglist)
{
	return pchglist->numpchgs;
}

int jpc_pi_init(jpc_pi_t *pi)
{
	int compno;
	int rlvlno;
	int prcno;
	jpc_picomp_t *picomp;
	jpc_pirlvl_t *pirlvl;
	int *prclyrno;

	pi->prgvolfirst = 0;
	pi->valid = 0;
	pi->pktno = -1;
	pi->pchgno = -1;
	pi->pchg = 0;

	for (compno = 0, picomp = pi->picomps; compno < pi->numcomps;
	  ++compno, ++picomp) {
		for (rlvlno = 0, pirlvl = picomp->pirlvls; rlvlno <
		  picomp->numrlvls; ++rlvlno, ++pirlvl) {
			for (prcno = 0, prclyrno = pirlvl->prclyrnos;
			  prcno < pirlvl->numprcs; ++prcno, ++prclyrno) {
				*prclyrno = 0;
			}
		}
	}
	return 0;
}