5d32102efe
It fixes a lot of warnings about shadowing global variable https://bugs.freedesktop.org/show_bug.cgi?id=56439
271 lines
9.9 KiB
C
271 lines
9.9 KiB
C
/*******************************************************************************
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License:
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This software was developed at the National Institute of Standards and
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Technology (NIST) by employees of the Federal Government in the course
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of their official duties. Pursuant to title 17 Section 105 of the
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United States Code, this software is not subject to copyright protection
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and is in the public domain. NIST assumes no responsibility whatsoever for
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its use by other parties, and makes no guarantees, expressed or implied,
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about its quality, reliability, or any other characteristic.
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Disclaimer:
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This software was developed to promote biometric standards and biometric
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technology testing for the Federal Government in accordance with the USA
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PATRIOT Act and the Enhanced Border Security and Visa Entry Reform Act.
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Specific hardware and software products identified in this software were used
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in order to perform the software development. In no case does such
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identification imply recommendation or endorsement by the National Institute
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of Standards and Technology, nor does it imply that the products and equipment
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identified are necessarily the best available for the purpose.
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*******************************************************************************/
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/***********************************************************************
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LIBRARY: LFS - NIST Latent Fingerprint System
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FILE: MATCHPAT.C
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AUTHOR: Michael D. Garris
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DATE: 05/11/1999
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UPDATED: 03/16/2005 by MDG
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Contains routines responsible for matching minutia feature
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patterns as part of the NIST Latent Fingerprint System (LFS).
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***********************************************************************
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ROUTINES:
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match_1st_pair()
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match_2nd_pair()
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match_3rd_pair()
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skip_repeated_horizontal_pair()
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skip_repeated_vertical_pair()
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***********************************************************************/
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#include <stdio.h>
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#include <lfs.h>
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/*************************************************************************
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**************************************************************************
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#cat: match_1st_pair - Determines which of the feature_patterns[] have their
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#cat: first pixel pair match the specified pixel pair.
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Input:
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p1 - first pixel value of pair
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p2 - second pixel value of pair
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Output:
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possible - list of matching feature_patterns[] indices
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nposs - number of matches
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Return Code:
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nposs - number of matches
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*************************************************************************/
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int match_1st_pair(unsigned char p1, unsigned char p2,
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int *possible, int *nposs)
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{
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int i;
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/* Set possibilities to 0 */
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*nposs = 0;
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/* Foreach set of feature pairs ... */
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for(i = 0; i < NFEATURES; i++){
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/* If current scan pair matches first pair for feature ... */
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if((p1==g_feature_patterns[i].first[0]) &&
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(p2==g_feature_patterns[i].first[1])){
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/* Store feature as a possible match. */
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possible[*nposs] = i;
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/* Bump number of stored possibilities. */
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(*nposs)++;
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}
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}
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/* Return number of stored possibilities. */
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return(*nposs);
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}
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/*************************************************************************
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**************************************************************************
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#cat: match_2nd_pair - Determines which of the passed feature_patterns[] have
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#cat: their second pixel pair match the specified pixel pair.
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Input:
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p1 - first pixel value of pair
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p2 - second pixel value of pair
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possible - list of potentially-matching feature_patterns[] indices
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nposs - number of potential matches
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Output:
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possible - list of matching feature_patterns[] indices
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nposs - number of matches
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Return Code:
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nposs - number of matches
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*************************************************************************/
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int match_2nd_pair(unsigned char p1, unsigned char p2,
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int *possible, int *nposs)
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{
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int i;
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int tnposs;
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/* Store input possibilities. */
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tnposs = *nposs;
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/* Reset output possibilities to 0. */
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*nposs = 0;
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/* If current scan pair values are the same ... */
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if(p1 == p2)
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/* Simply return because pair can't be a second feature pair. */
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return(*nposs);
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/* Foreach possible match based on first pair ... */
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for(i = 0; i < tnposs; i++){
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/* If current scan pair matches second pair for feature ... */
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if((p1==g_feature_patterns[possible[i]].second[0]) &&
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(p2==g_feature_patterns[possible[i]].second[1])){
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/* Store feature as a possible match. */
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possible[*nposs] = possible[i];
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/* Bump number of stored possibilities. */
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(*nposs)++;
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}
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}
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/* Return number of stored possibilities. */
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return(*nposs);
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}
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/*************************************************************************
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**************************************************************************
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#cat: match_3rd_pair - Determines which of the passed feature_patterns[] have
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#cat: their third pixel pair match the specified pixel pair.
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Input:
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p1 - first pixel value of pair
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p2 - second pixel value of pair
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possible - list of potentially-matching feature_patterns[] indices
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nposs - number of potential matches
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Output:
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possible - list of matching feature_patterns[] indices
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nposs - number of matches
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Return Code:
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nposs - number of matches
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*************************************************************************/
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int match_3rd_pair(unsigned char p1, unsigned char p2,
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int *possible, int *nposs)
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{
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int i;
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int tnposs;
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/* Store input possibilities. */
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tnposs = *nposs;
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/* Reset output possibilities to 0. */
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*nposs = 0;
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/* Foreach possible match based on first and second pairs ... */
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for(i = 0; i < tnposs; i++){
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/* If current scan pair matches third pair for feature ... */
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if((p1==g_feature_patterns[possible[i]].third[0]) &&
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(p2==g_feature_patterns[possible[i]].third[1])){
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/* Store feature as a possible match. */
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possible[*nposs] = possible[i];
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/* Bump number of stored possibilities. */
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(*nposs)++;
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}
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}
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/* Return number of stored possibilities. */
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return(*nposs);
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}
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/*************************************************************************
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**************************************************************************
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#cat: skip_repeated_horizontal_pair - Takes the location of two pixel in
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#cat: adjacent pixel rows within an image region and skips
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#cat: rightward until the either the pixel pair no longer repeats
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#cat: itself or the image region is exhausted.
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Input:
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cx - current x-coord of starting pixel pair
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ex - right edge of the image region
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p1ptr - pointer to current top pixel in pair
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p2ptr - pointer to current bottom pixel in pair
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iw - width (in pixels) of image
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ih - height (in pixels) of image
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Output:
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cx - x-coord of where rightward skip terminated
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p1ptr - points to top pixel where rightward skip terminated
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p2ptr - points to bottom pixel where rightward skip terminated
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*************************************************************************/
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void skip_repeated_horizontal_pair(int *cx, const int ex,
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unsigned char **p1ptr, unsigned char **p2ptr,
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const int iw, const int ih)
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{
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int old1, old2;
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/* Store starting pixel pair. */
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old1 = **p1ptr;
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old2 = **p2ptr;
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/* Bump horizontally to next pixel pair. */
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(*cx)++;
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(*p1ptr)++;
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(*p2ptr)++;
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/* While not at right of scan region... */
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while(*cx < ex){
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/* If one or the other pixels in the new pair are different */
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/* from the starting pixel pair... */
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if((**p1ptr != old1) || (**p2ptr != old2))
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/* Done skipping repreated pixel pairs. */
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return;
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/* Otherwise, bump horizontally to next pixel pair. */
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(*cx)++;
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(*p1ptr)++;
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(*p2ptr)++;
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}
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}
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/*************************************************************************
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**************************************************************************
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#cat: skip_repeated_vertical_pair - Takes the location of two pixel in
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#cat: adjacent pixel columns within an image region and skips
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#cat: downward until the either the pixel pair no longer repeats
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#cat: itself or the image region is exhausted.
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Input:
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cy - current y-coord of starting pixel pair
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ey - bottom of the image region
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p1ptr - pointer to current left pixel in pair
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p2ptr - pointer to current right pixel in pair
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iw - width (in pixels) of image
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ih - height (in pixels) of image
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Output:
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cy - y-coord of where downward skip terminated
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p1ptr - points to left pixel where downward skip terminated
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p2ptr - points to right pixel where donward skip terminated
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*************************************************************************/
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void skip_repeated_vertical_pair(int *cy, const int ey,
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unsigned char **p1ptr, unsigned char **p2ptr,
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const int iw, const int ih)
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{
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int old1, old2;
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/* Store starting pixel pair. */
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old1 = **p1ptr;
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old2 = **p2ptr;
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/* Bump vertically to next pixel pair. */
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(*cy)++;
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(*p1ptr)+=iw;
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(*p2ptr)+=iw;
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/* While not at bottom of scan region... */
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while(*cy < ey){
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/* If one or the other pixels in the new pair are different */
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/* from the starting pixel pair... */
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if((**p1ptr != old1) || (**p2ptr != old2))
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/* Done skipping repreated pixel pairs. */
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return;
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/* Otherwise, bump vertically to next pixel pair. */
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(*cy)++;
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(*p1ptr)+=iw;
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(*p2ptr)+=iw;
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}
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}
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