593 lines
17 KiB
C
593 lines
17 KiB
C
/* @(#) Functions which calculates the correlation coefficient between two
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* @(#) images.
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* @(#)
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* @(#) int im_spcor( IMAGE *in, IMAGE *ref, IMAGE *out )
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* @(#)
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* @(#) We calculate:
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* @(#)
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* @(#) sumij (ref(i,j)-mean(ref))(inkl(i,j)-mean(inkl))
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* @(#) c(k,l) = ------------------------------------------------
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* @(#) sqrt(sumij (ref(i,j)-mean(ref))^2) *
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* @(#) sqrt(sumij (inkl(i,j)-mean(inkl))^2)
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* @(#)
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* @(#) where inkl is the area of in centred at position (k,l).
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* @(#)
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* @(#) Writes float to out. in and ref must be 1 band uchar, or 1 band
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* @(#) ushort.
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* @(#)
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* @(#) Returns 0 on sucess and -1 on error.
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*
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* Copyright: 1990, N. Dessipris; 2006, 2007 Nottingham Trent University.
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*
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*
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* Author: Nicos Dessipris
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* Written on: 02/05/1990
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* Modified on :
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* 20/2/95 JC
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* - updated
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* - ANSIfied, a little
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* 21/2/95 JC
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* - rewritten
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* - partialed
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* - speed-ups
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* - new correlation coefficient (see above), from Niblack "An
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* Introduction to Digital Image Processing,", Prentice/Hall, pp 138.
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* 4/9/97 JC
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* - now does short/ushort as well
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* 13/2/03 JC
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* - oops, could segv for short images
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* 14/4/04 JC
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* - sets Xoffset / Yoffset
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* 8/3/06 JC
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* - use im_embed() with edge stretching on the input, not the output
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*
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* 2006-10-24 tcv
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* - add im_spcor2
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*
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* 2007-11-12 tcv
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* - make im_spcor a wrapper selecting either im__spcor1 or im__spcor2
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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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#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 <string.h>
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#include <stdio.h>
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#include <math.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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/* Hold global stuff here.
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*/
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typedef struct {
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IMAGE *ref; /* Image we are searching for */
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double rmean; /* Mean of search window */
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double c1; /* sqrt(sumij (ref(i,j)-mean(ref))^2) */
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} SpcorInfo;
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typedef struct {
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REGION *f;
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int *f_cols;
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size_t max_cols;
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} spcor2_seq;
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typedef struct {
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IMAGE *w;
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gint64 area;
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double recip_area;
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double mean;
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double n_var;
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} spcor2_w_inf;
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static void *spcor2_start( IMAGE *r, void *a, void *b );
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static int spcor2_gen( REGION *r, void *seq, void *a, void *b );
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static int spcor2_stop( void *seq, void *a, void *b );
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/* spcor1 generate function.
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*/
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static int
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spcor1_gen( REGION *or, void *seq, void *a, void *b )
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{
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#define LOOP(IN) \
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{ \
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IN *a = (IN *) p; \
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IN *b = (IN *) ref->data; \
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int in_lsk = lsk / sizeof( IN ); \
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IN *a1, *b1; \
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\
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/* For each pel in or, loop over ref. First, \
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* calculate mean of area in ir corresponding to ref. \
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*/ \
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for( a1 = a, sum1 = 0, j = 0; j < ref->Ysize; j++, a1 += in_lsk ) \
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for( i = 0; i < ref->Xsize; i++ ) \
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sum1 += a1[i]; \
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imean = (double) sum1 / (ref->Xsize * ref->Ysize); \
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\
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/* Loop over ir again, this time calculating \
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* sum-of-squares-of-differences for this window on \
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* ir, and also sum-of-products-of-differences. \
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*/ \
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for( a1 = a, b1 = b, sum2 = 0.0, sum3 = 0.0, j = 0; \
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j < ref->Ysize; j++, a1 += in_lsk, b1 += ref->Xsize ) { \
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for( i = 0; i < ref->Xsize; i++ ) { \
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/* Reference pel, and input pel. \
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*/ \
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IN rp = b1[i]; \
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IN ip = a1[i]; \
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\
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/* Accumulate sum-of-squares-of- \
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* differences for input image. \
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*/ \
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double t = ip - imean; \
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sum2 += t * t; \
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\
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/* Accumulate product-of-differences. \
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*/ \
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sum3 += (rp - inf->rmean) * (ip - imean); \
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} \
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} \
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}
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REGION *ir = (REGION *) seq;
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SpcorInfo *inf = (SpcorInfo *) b;
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IMAGE *ref = inf->ref;
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Rect irect;
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Rect *r = &or->valid;
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int le = r->left;
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int to = r->top;
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int bo = IM_RECT_BOTTOM(r);
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int ri = IM_RECT_RIGHT(r);
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int x, y, i, j;
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int lsk;
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double imean;
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double sum1;
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double sum2, sum3;
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double c2, cc;
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/* What part of ir do we need?
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*/
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irect.left = or->valid.left;
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irect.top = or->valid.top;
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irect.width = or->valid.width + ref->Xsize - 1;
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irect.height = or->valid.height + ref->Ysize - 1;
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if( im_prepare( ir, &irect ) )
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return( -1 );
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lsk = IM_REGION_LSKIP( ir );
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/* Loop over or.
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*/
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for( y = to; y < bo; y++ ) {
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float *q = (float *) IM_REGION_ADDR( or, le, y );
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for( x = le; x < ri; x++ ) {
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PEL *p = (PEL *) IM_REGION_ADDR( ir, x, y );
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/* Find sums for this position.
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*/
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switch( ref->BandFmt ) {
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case IM_BANDFMT_UCHAR: LOOP(unsigned char); break;
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case IM_BANDFMT_USHORT: LOOP(unsigned short); break;
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case IM_BANDFMT_SHORT: LOOP(signed short); break;
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default:
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error_exit( "im_spcor1: internal error #7934" );
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/* Keep gcc -Wall happy.
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*/
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return( -1 );
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}
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/* Now: calculate correlation coefficient!
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*/
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c2 = sqrt( sum2 );
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cc = sum3 / (inf->c1 * c2);
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*q++ = cc;
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}
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}
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return( 0 );
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#undef LOOP
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}
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/* Pre-calculate stuff for our reference image.
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*/
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static SpcorInfo *
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make_inf( IMAGE *out, IMAGE *ref )
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{
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SpcorInfo *inf = IM_NEW( out, SpcorInfo );
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int sz = ref->Xsize * ref->Ysize;
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PEL *p = (PEL *) ref->data;
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double s;
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int i;
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if( !inf )
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return( NULL );
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/* Pre-calculate stuff on our reference image.
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*/
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inf->ref = ref;
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if( im_avg( inf->ref, &inf->rmean ) )
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return( NULL );
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/* Find sqrt-of-sum-of-squares-of-differences.
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*/
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for( s = 0.0, i = 0; i < sz; i++ ) {
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double t = (int) p[i] - inf->rmean;
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s += t * t;
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}
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inf->c1 = sqrt( s );
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return( inf );
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}
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static int
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im__spcor1_raw( IMAGE *in, IMAGE *ref, IMAGE *out )
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{
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SpcorInfo *inf;
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/* PIO between in and out; WIO from ref.
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*/
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if( im_piocheck( in, out ) || im_incheck( ref ) )
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return( -1 );
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/* Check sizes.
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*/
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if( in->Xsize < ref->Xsize || in->Ysize < ref->Ysize ) {
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im_errormsg( "im_spcor1_raw: ref not smaller than in" );
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return( -1 );
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}
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/* Check types.
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*/
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if( in->Coding != IM_CODING_NONE || in->Bands != 1 ||
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ref->Coding != IM_CODING_NONE || ref->Bands != 1 ||
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in->BandFmt != ref->BandFmt ) {
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im_errormsg( "im_spcor1_raw: input not uncoded 1 band" );
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return( -1 );
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}
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if( in->BandFmt != IM_BANDFMT_UCHAR &&
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in->BandFmt != IM_BANDFMT_SHORT &&
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in->BandFmt != IM_BANDFMT_USHORT ) {
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im_errormsg( "im_spcor1_raw: input not char/short/ushort" );
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return( -1 );
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}
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/* Prepare the output image.
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*/
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if( im_cp_descv( out, in, ref, NULL ) )
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return( -1 );
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out->Bbits = IM_BBITS_FLOAT;
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out->BandFmt = IM_BANDFMT_FLOAT;
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out->Xsize = in->Xsize - ref->Xsize + 1;
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out->Ysize = in->Ysize - ref->Ysize + 1;
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/* Pre-calculate some stuff.
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*/
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if( !(inf = make_inf( out, ref )) )
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return( -1 );
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/* Set demand hints. FATSTRIP is good for us, as THINSTRIP will cause
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* too many recalculations on overlaps.
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*/
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if( im_demand_hint( out, IM_FATSTRIP, in, NULL ) )
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return( -1 );
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/* Write the correlation.
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*/
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if( im_generate( out,
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im_start_one, spcor1_gen, im_stop_one, in, inf ) )
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return( -1 );
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out->Xoffset = -ref->Xsize / 2;
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out->Yoffset = -ref->Ysize / 2;
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return( 0 );
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}
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/* The above, with the input expanded to make out the same size as in.
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*/
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static int
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im__spcor1( IMAGE *in, IMAGE *ref, IMAGE *out )
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{
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IMAGE *t1 = im_open_local( out, "im_spcor1 intermediate", "p" );
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if( !t1 ||
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im_embed( in, t1, 1,
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ref->Xsize / 2, ref->Ysize / 2,
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in->Xsize + ref->Xsize - 1,
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in->Ysize + ref->Ysize - 1 ) ||
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im__spcor1_raw( t1, ref, out ) )
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return( -1 );
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out->Xoffset = 0;
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out->Yoffset = 0;
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return( 0 );
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}
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static int
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im__spcor2_raw(
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IMAGE *f,
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IMAGE *w,
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IMAGE *r
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){
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#define FUNCTION_NAME "im_spcor2_raw"
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DOUBLEMASK *w_stats;
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spcor2_w_inf *w_inf;
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if( im_piocheck( f, r ) || im_incheck( w ) )
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return -1;
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if( f-> Xsize < w-> Xsize || f-> Ysize < w-> Ysize ){
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im_error( FUNCTION_NAME, "window must be smaller than search area" );
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return -1;
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}
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if( f-> Coding || w-> 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( 1 != f-> Bands || 1 != w-> 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_BANDFMT_UCHAR == f-> BandFmt
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|| IM_BANDFMT_CHAR == f-> BandFmt
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|| IM_BANDFMT_USHORT == f-> BandFmt
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|| IM_BANDFMT_SHORT == f-> BandFmt ) ){
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im_error( FUNCTION_NAME, "short or char images only" );
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return -1;
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}
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if( f-> BandFmt != w-> BandFmt ){
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im_error( FUNCTION_NAME, "band formats must match" );
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return -1;
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}
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if( im_cp_descv( r, f, w, NULL ) )
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return -1;
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r-> Xsize-= ( w-> Xsize - 1 );
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r-> Ysize-= ( w-> Ysize - 1 );
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r-> BandFmt= IM_BANDFMT_FLOAT;
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r-> Bbits= IM_BBITS_FLOAT;
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r-> Xoffset= - w-> Xsize / 2;
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r-> Yoffset= - w-> Ysize / 2;
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if( im_demand_hint( r, IM_FATSTRIP, f, NULL ) )
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return -1;
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w_inf= IM_NEW( r, spcor2_w_inf );
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w_stats= im_stats( w );
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if( ! w_inf || ! w_stats )
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return -1;
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w_inf-> w= w;
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w_inf-> area= w-> Xsize * w-> Ysize;
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w_inf-> recip_area= 1.0 / (double) w_inf-> area;
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w_inf-> mean= w_stats-> coeff[ 4 ];
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w_inf-> n_var= w_stats-> coeff[ 3 ] - w_stats-> coeff[ 2 ] * w_stats-> coeff[ 2 ] * w_inf-> recip_area;
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im_free_dmask( w_stats );
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return im_generate( r, spcor2_start, spcor2_gen, spcor2_stop, f, w_inf );
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#undef FUNCTION_NAME
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}
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static void *
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spcor2_start( IMAGE *r, void *a, void *b ){
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IMAGE *f= (IMAGE *) a;
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spcor2_seq *seq;
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seq= IM_NEW( r, spcor2_seq );
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if( ! seq )
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return NULL;
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seq-> f= im_region_create( f );
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seq-> f_cols= NULL;
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seq-> max_cols= 0;
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if( ! seq-> f )
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return NULL;
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return seq;
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}
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static int
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spcor2_gen(
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REGION *r,
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void *vseq, void *a, void *b
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){
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spcor2_seq *seq= (spcor2_seq *) vseq;
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spcor2_w_inf *w_inf= (spcor2_w_inf *) b;
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Rect need= {
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r-> valid. left,
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r-> valid. top,
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r-> valid. width + w_inf-> w-> Xsize - 1,
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r-> valid. height + w_inf-> w-> Ysize - 1
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};
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int j;
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float *r_data= (float*) IM_REGION_ADDR( r, r-> valid. left, r-> valid. top );
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size_t r_skip= IM_REGION_LSKIP( r ) / sizeof( float );
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float *r_end= r_data + r-> valid. height * r_skip;
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r_skip-= r-> valid. width;
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if( im_prepare( seq-> f, & need ) )
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return -1;
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if( need. width > seq-> max_cols ){
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im_free( seq-> f_cols );
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seq-> f_cols= IM_ARRAY( NULL, need. width + 1, int ); /* one spare for the last right move */
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if( ! seq-> f_cols )
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return -1;
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seq-> max_cols= need. width;
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}
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memset( seq-> f_cols, 0, seq-> max_cols * sizeof( int ) );
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#define LOOPS(TYPE) { \
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TYPE *f_start= (TYPE*) IM_REGION_ADDR( seq-> f, need. left, need. top ); \
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size_t f_skip= IM_REGION_LSKIP( seq-> f ) / sizeof( TYPE ); \
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size_t f_row_skip= f_skip - r-> valid. width; \
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size_t f_win_skip= f_skip - w_inf-> w-> Xsize; \
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\
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TYPE *f_win_end= f_start; \
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TYPE *f_stop= f_win_end + f_skip * w_inf-> w-> Ysize; \
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\
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for( ; f_win_end < f_stop; f_win_end+= f_skip ) \
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for( j= 0; j < need. width; ++j ) \
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seq-> f_cols[ j ]+= f_win_end[ j ]; \
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\
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for( ; r_data < r_end; r_data+= r_skip, f_start+= f_row_skip, f_win_end+= f_skip ){ \
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double f_mean= 0.0; \
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\
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for( j= 0; j < w_inf-> w-> Xsize; ++j ) \
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f_mean+= seq-> f_cols[ j ]; \
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\
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f_mean*= w_inf-> recip_area; \
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\
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for( j= 0; j < r-> valid. width; ++f_start, ++r_data, \
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f_mean+= ( seq-> f_cols[ w_inf-> w-> Xsize + j ] - seq-> f_cols[ j ] ) * w_inf-> recip_area, \
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++j ){ \
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\
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double num_sum= 0.0; \
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double den_sum= 0.0; \
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TYPE *w_data= (TYPE*) w_inf-> w-> data; \
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TYPE *w_end= w_data + w_inf-> area; \
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TYPE *w_stop; \
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TYPE *f_data= f_start; \
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\
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for( ; w_data < w_end; f_data+= f_win_skip ) \
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for( w_stop= w_data + w_inf-> w-> Xsize; w_data < w_stop; ++w_data, ++f_data ){ \
|
|
\
|
|
double f_term= *f_data - f_mean; \
|
|
\
|
|
num_sum+= f_term * ( *w_data - w_inf-> mean ); \
|
|
den_sum+= f_term * f_term; \
|
|
} \
|
|
\
|
|
*r_data= num_sum * pow( den_sum * w_inf-> n_var, -0.5 ); \
|
|
} \
|
|
\
|
|
if( r_data + r_skip < r_end ) \
|
|
for( j= 0; j < need. width; ++j ) \
|
|
seq-> f_cols[ j ]+= f_win_end[ j ] - f_start[ j ]; \
|
|
} \
|
|
}
|
|
|
|
switch( w_inf-> w-> BandFmt ){
|
|
case IM_BANDFMT_UCHAR: LOOPS( guint8 ) break;
|
|
case IM_BANDFMT_CHAR: LOOPS( gint8 ) break;
|
|
case IM_BANDFMT_USHORT: LOOPS( guint16 ) break;
|
|
case IM_BANDFMT_SHORT: LOOPS( gint16 ) break;
|
|
}
|
|
|
|
#undef LOOPS
|
|
return 0;
|
|
}
|
|
|
|
static int
|
|
spcor2_stop( void *vseq, void *a, void *b ){
|
|
|
|
spcor2_seq *seq= (spcor2_seq *) vseq;
|
|
|
|
IM_FREEF( im_region_free, seq-> f );
|
|
IM_FREE( seq-> f_cols );
|
|
|
|
return 0;
|
|
}
|
|
|
|
static int
|
|
im__spcor2( IMAGE *in, IMAGE *ref, IMAGE *out )
|
|
{
|
|
IMAGE *t1 = im_open_local( out, "im_spcor2 intermediate", "p" );
|
|
|
|
if( !t1 ||
|
|
im_embed( in, t1, 1,
|
|
ref->Xsize / 2, ref->Ysize / 2,
|
|
in->Xsize + ref->Xsize - 1,
|
|
in->Ysize + ref->Ysize - 1 ) ||
|
|
im__spcor2_raw( t1, ref, out ) )
|
|
return( -1 );
|
|
|
|
out->Xoffset = 0;
|
|
out->Yoffset = 0;
|
|
|
|
return( 0 );
|
|
}
|
|
|
|
int
|
|
im_spcor_raw(
|
|
IMAGE *f,
|
|
IMAGE *w,
|
|
IMAGE *r
|
|
){
|
|
if( im_incheck( w ))
|
|
return -1;
|
|
|
|
if( 3 <= w-> Xsize || 3 <= w-> Ysize )
|
|
return im__spcor2( f, w, r );
|
|
|
|
else
|
|
return im__spcor1( f, w, r );
|
|
}
|
|
|
|
int
|
|
im_spcor(
|
|
IMAGE *f,
|
|
IMAGE *w,
|
|
IMAGE *r
|
|
){
|
|
if( im_incheck( w ))
|
|
return -1;
|
|
|
|
if( 3 <= w-> Xsize || 3 <= w-> Ysize )
|
|
return im__spcor2( f, w, r );
|
|
|
|
else
|
|
return im__spcor1( f, w, r );
|
|
}
|