460 lines
13 KiB
C
460 lines
13 KiB
C
/* @(#) Find the coordinates and values of the n maxima of an image.
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* @(#)
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* @(#) int im_maxpos_vec(
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* @(#) IMAGE *im,
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* @(#) int *xpos,
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* @(#) int *ypos,
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* @(#) double *maxima,
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* @(#) int n
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* @(#) );
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* @(#)
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* @(#) Find the coordinates and values of the n minima of an image.
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* @(#)
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* @(#) int im_minpos_vec(
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* @(#) IMAGE *im,
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* @(#) int *xpos,
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* @(#) int *ypos,
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* @(#) double *minima,
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* @(#) int n
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* @(#) );
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* @(#)
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*
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* Copyright: 2006, The Nottingham Trent University
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* Copyright: 2006, Tom Vajzovic
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*
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* Author: Tom Vajzovic
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*
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* Written on: 2006-09-01
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*/
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/*
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This file is part of VIPS.
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VIPS is free software; you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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/*
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These files are distributed with VIPS - http://www.vips.ecs.soton.ac.uk
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*/
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/** HEADERS **/
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif /* HAVE_CONFIG_H */
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#include <vips/intl.h>
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#include <stdlib.h>
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#include <float.h>
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#include <vips/vips.h>
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#ifdef WITH_DMALLOC
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#include <dmalloc.h>
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#endif /*WITH_DMALLOC */
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/** TYPE DEFINITIONS **/
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typedef struct {
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int *xs;
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int *ys;
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double *vals;
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int *ptrs;
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int start;
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} maxpos_list;
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/** LOCAL FUNCTIONS DECLARATIONS **/
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static maxpos_list *maxpos_list_alloc( int n );
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static void maxpos_list_free( maxpos_list *list );
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static void maxpos_list_init( maxpos_list *list, int n );
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static maxpos_list *maxpos_vec_start( void *unrequired, int *n );
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static int maxpos_vec_scan( REGION *reg, maxpos_list *list );
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static void add_to_maxpos_list( maxpos_list *list, int x, int y, double val );
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static int maxpos_vec_stop( maxpos_list *list, int *n, maxpos_list *master_list );
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static void minpos_list_init( maxpos_list *list, int n );
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static maxpos_list *minpos_vec_start( void *unrequired, int *n );
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static int minpos_vec_scan( REGION *reg, maxpos_list *list );
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static void add_to_minpos_list( maxpos_list *list, int x, int y, double val );
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static int minpos_vec_stop( maxpos_list *list, int *n, maxpos_list *master_list );
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/** EXPORTED FUNCTIONS **/
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int im_maxpos_vec( IMAGE *im, int *xpos, int *ypos, double *maxima, int n ){
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#define FUNCTION_NAME "im_maxpos_vec"
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/* number of sequences used is beyond my control at this level, but I note that */
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/* effeciency decreases as more sequences are used - speed may still increase */
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int result;
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int *pointers= im_malloc( NULL, n * sizeof( int* ) );
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maxpos_list master_list= { xpos, ypos, maxima, pointers, 0 };
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if( im_pincheck( im ) )
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return -1;
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if( !pointers )
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return -1;
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if( ! ( im_isint( im ) || im_isfloat( im ) ) ){
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im_error( FUNCTION_NAME, _( "scalar images only" ) );
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return -1;
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}
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if( 1 != im-> Bands ){
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im_error( FUNCTION_NAME, _( "single band images only" ) );
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return -1;
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}
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if( IM_CODING_NONE != im-> Coding ){
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im_error( FUNCTION_NAME, _( "uncoded images only" ) );
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return -1;
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}
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if( ! xpos || ! ypos || ! maxima || n < 1 ){
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im_error( FUNCTION_NAME, _( "invalid argument" ) );
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return -1;
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}
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maxpos_list_init( &master_list, n );
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result= im_iterate( im, (void*)maxpos_vec_start, maxpos_vec_scan, maxpos_vec_stop, &n, &master_list );
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im_free( pointers );
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return result;
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#undef FUNCTION_NAME
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}
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int im_minpos_vec( IMAGE *im, int *xpos, int *ypos, double *minima, int n ){
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#define FUNCTION_NAME "im_minpos_vec"
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/* number of sequences used is beyond my control at this level, but I note that */
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/* effeciency decreases as more sequences are used - speed may still increase */
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int result;
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int *pointers= im_malloc( NULL, n * sizeof( int* ) );
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maxpos_list master_list= { xpos, ypos, minima, pointers, 0 };
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if( im_pincheck( im ) )
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return -1;
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if( !pointers )
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return -1;
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if( ! ( im_isint( im ) || im_isfloat( im ) ) ){
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im_error( FUNCTION_NAME, _( "scalar images only" ) );
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return -1;
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}
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if( 1 != im-> Bands ){
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im_error( FUNCTION_NAME, _( "single band images only" ) );
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return -1;
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}
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if( IM_CODING_NONE != im-> Coding ){
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im_error( FUNCTION_NAME, _( "uncoded images only" ) );
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return -1;
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}
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if( ! xpos || ! ypos || ! minima || n < 1 ){
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im_error( FUNCTION_NAME, _( "invalid argument" ) );
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return -1;
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}
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minpos_list_init( &master_list, n );
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result= im_iterate( im, (void*)minpos_vec_start, minpos_vec_scan, minpos_vec_stop, &n, &master_list );
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im_free( pointers );
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return result;
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#undef FUNCTION_NAME
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}
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/** LOCAL FUNCTION DEFINITIONS **/
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static maxpos_list *maxpos_list_alloc( int n ){
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maxpos_list *list= im_malloc( NULL, sizeof( maxpos_list ) );
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if( ! list )
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return NULL;
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list-> xs= im_malloc( NULL, 3 * n * sizeof( int ) );
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list-> vals= im_malloc( NULL, n * sizeof( double ) );
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if( ! list-> xs || ! list-> vals ){
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im_free( list-> xs );
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im_free( list-> vals );
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im_free( list );
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return NULL;
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}
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list-> ys= list-> xs + n;
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list-> ptrs= list-> ys + n;
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return list;
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}
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static void maxpos_list_free( maxpos_list *list ){
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im_free( list-> xs );
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im_free( list-> vals );
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im_free( list );
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}
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static void maxpos_list_init( maxpos_list *list, int n ){
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int i;
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for( i= 0; i < n; ++i ){
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list-> xs[ i ]= 0;
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list-> ys[ i ]= 0;
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list-> vals[ i ]= 0;
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list-> ptrs[ i ]= i + 1;
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}
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list-> ptrs[ n - 1 ]= -1;
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list-> start= 0;
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}
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static maxpos_list *maxpos_vec_start( void *unrequired, int *n ){
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maxpos_list *list= maxpos_list_alloc( *n );
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if( ! list )
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return NULL;
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maxpos_list_init( list, *n );
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return list;
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}
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static int maxpos_vec_scan( REGION *reg, maxpos_list *list ){
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#define MAXPOS_VEC_SCAN( type ){ \
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\
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int y= reg-> valid. top; \
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int x; \
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int ymax= y + reg-> valid. height; \
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int xmax= reg-> valid. left + reg-> valid. width; \
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\
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type *row= (type*)IM_REGION_ADDR( reg, reg-> valid. left, y ) - reg-> valid. left; \
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size_t skip= IM_REGION_LSKIP( reg ) / sizeof( type ); \
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\
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for( ; y < ymax; ++y, row+= skip ) \
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for( x= reg-> valid. left; x < xmax; ++x ) \
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if( row[ x ] > list-> vals[ list-> start ] ) \
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add_to_maxpos_list( list, x, y, row[ x ] ); \
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}
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switch( reg-> im-> BandFmt ){
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case IM_BANDFMT_UCHAR: MAXPOS_VEC_SCAN( guint8 ) break;
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case IM_BANDFMT_CHAR: MAXPOS_VEC_SCAN( gint8 ) break;
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case IM_BANDFMT_USHORT: MAXPOS_VEC_SCAN( guint16 ) break;
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case IM_BANDFMT_SHORT: MAXPOS_VEC_SCAN( gint16 ) break;
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case IM_BANDFMT_UINT: MAXPOS_VEC_SCAN( guint32 ) break;
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case IM_BANDFMT_INT: MAXPOS_VEC_SCAN( gint32 ) break;
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case IM_BANDFMT_FLOAT: MAXPOS_VEC_SCAN( float ) break;
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case IM_BANDFMT_DOUBLE: MAXPOS_VEC_SCAN( double ) break;
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}
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#undef MAXPOS_VEC_SCAN
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return 0;
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}
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static void add_to_maxpos_list( maxpos_list *list, int x, int y, double val ){
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int pointer= list-> start;
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while( -1 != list-> ptrs[ pointer ] && val > list-> vals[ list-> ptrs[ pointer ] ] )
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pointer= list-> ptrs[ pointer ];
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list-> xs[ list-> start ]= x;
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list-> ys[ list-> start ]= y;
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list-> vals[ list-> start ]= val;
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if( list-> start != pointer ){
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/* we are adding mid-chain not at the very bottom */
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int second= list-> ptrs[ list-> start ];
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list-> ptrs[ list-> start ]= list-> ptrs[ pointer ];
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list-> ptrs[ pointer ]= list-> start;
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list-> start= second;
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}
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}
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static int maxpos_vec_stop( maxpos_list *list, int *n, maxpos_list *master_list ){
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/* reverse list */
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int prev= -1;
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int pointer= list-> start;
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while( -1 != list-> ptrs[ pointer ] ){
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int next= list-> ptrs[ pointer ];
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list-> ptrs[ pointer ]= prev;
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prev= pointer;
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pointer= next;
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}
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list-> ptrs[ pointer ]= prev;
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list-> start= pointer;
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/* add to main list */
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for( ; -1 != pointer; pointer= list-> ptrs[ pointer ] )
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/* loop over all the ones found in this sequence */
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if( list-> vals[ pointer ] > master_list-> vals[ master_list-> start ] )
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add_to_maxpos_list( master_list, list-> xs[ pointer ], list-> ys[ pointer ], list-> vals[ pointer ] );
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else
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break;
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/* since we are now high->low, if this one isn't big enough, none of the rest are */
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maxpos_list_free( list );
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return 0;
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}
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static void minpos_list_init( maxpos_list *list, int n ){
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int i;
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for( i= 0; i < n; ++i ){
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list-> xs[ i ]= 0;
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list-> ys[ i ]= 0;
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list-> vals[ i ]= DBL_MAX;
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list-> ptrs[ i ]= i + 1;
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}
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list-> ptrs[ n - 1 ]= -1;
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list-> start= 0;
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}
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static maxpos_list *minpos_vec_start( void *unrequired, int *n ){
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maxpos_list *list= maxpos_list_alloc( *n );
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if( ! list )
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return NULL;
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minpos_list_init( list, *n );
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return list;
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}
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static int minpos_vec_scan( REGION *reg, maxpos_list *list ){
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#define MINPOS_VEC_SCAN( type ){ \
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\
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int y= reg-> valid. top; \
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int x; \
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int ymax= y + reg-> valid. height; \
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int xmax= reg-> valid. left + reg-> valid. width; \
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\
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type *row= (type*)IM_REGION_ADDR( reg, reg-> valid. left, y ) - reg-> valid. left; \
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size_t skip= IM_REGION_LSKIP( reg ) / sizeof( type ); \
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\
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for( ; y < ymax; ++y, row+= skip ) \
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for( x= reg-> valid. left; x < xmax; ++x ) \
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if( row[ x ] < list-> vals[ list-> start ] ) \
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add_to_minpos_list( list, x, y, row[ x ] ); \
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}
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switch( reg-> im-> BandFmt ){
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case IM_BANDFMT_UCHAR: MINPOS_VEC_SCAN( guint8 ) break;
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case IM_BANDFMT_CHAR: MINPOS_VEC_SCAN( gint8 ) break;
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case IM_BANDFMT_USHORT: MINPOS_VEC_SCAN( guint16 ) break;
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case IM_BANDFMT_SHORT: MINPOS_VEC_SCAN( gint16 ) break;
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case IM_BANDFMT_UINT: MINPOS_VEC_SCAN( guint32 ) break;
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case IM_BANDFMT_INT: MINPOS_VEC_SCAN( gint32 ) break;
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case IM_BANDFMT_FLOAT: MINPOS_VEC_SCAN( float ) break;
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case IM_BANDFMT_DOUBLE: MINPOS_VEC_SCAN( double ) break;
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}
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#undef MINPOS_VEC_SCAN
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return 0;
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}
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static void add_to_minpos_list( maxpos_list *list, int x, int y, double val ){
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int pointer= list-> start;
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while( -1 != list-> ptrs[ pointer ] && val < list-> vals[ list-> ptrs[ pointer ] ] )
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pointer= list-> ptrs[ pointer ];
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list-> xs[ list-> start ]= x;
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list-> ys[ list-> start ]= y;
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list-> vals[ list-> start ]= val;
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if( list-> start != pointer ){
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/* we are adding mid-chain not at the very bottom */
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int second= list-> ptrs[ list-> start ];
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list-> ptrs[ list-> start ]= list-> ptrs[ pointer ];
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list-> ptrs[ pointer ]= list-> start;
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list-> start= second;
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}
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}
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static int minpos_vec_stop( maxpos_list *list, int *n, maxpos_list *master_list ){
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/* reverse list */
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int prev= -1;
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int pointer= list-> start;
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while( -1 != list-> ptrs[ pointer ] ){
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int next= list-> ptrs[ pointer ];
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list-> ptrs[ pointer ]= prev;
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prev= pointer;
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pointer= next;
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}
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list-> ptrs[ pointer ]= prev;
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list-> start= pointer;
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/* add to main list */
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for( ; -1 != pointer; pointer= list-> ptrs[ pointer ] )
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/* loop over all the ones found in this sequence */
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if( list-> vals[ pointer ] < master_list-> vals[ master_list-> start ] )
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add_to_minpos_list( master_list, list-> xs[ pointer ], list-> ys[ pointer ], list-> vals[ pointer ] );
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else
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break;
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/* since we are now high->low, if this one isn't big enough, none of the rest are */
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maxpos_list_free( list );
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return 0;
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}
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