// YOMBInputParam.cpp: implementation of the CYOMBInputParam class.
//
//////////////////////////////////////////////////////////////////////
#ifdef _MSC_VER
#pragma warning(disable : 4996)
#endif
#include <algorithm>
#include <math.h>
#include <stdlib.h>
#include <string.h>
#include <search.h>
#include "YOMBInputParam.h"
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
bool CYOMBInputParam::isRange(const char *s) const {
for (int i = 0; i < (int)strlen(s); i++)
if (s[i] == '-') return true;
return false;
}
int CYOMBInputParam::getRangeBegin(const char *s) const {
char ss[100];
strcpy(ss, s);
for (int i = 0; i < (int)strlen(ss); i++)
if (ss[i] == '-') {
ss[i] = '\0';
break;
}
if (strlen(ss) == 0) return -1;
return atoi(ss);
}
int CYOMBInputParam::getRangeEnd(const char *s) const {
char ss[100];
int i = 0;
for (i = strlen(s) - 1; i >= 0; i--)
if (s[i] == '-') break;
strcpy(ss, &s[i + 1]);
if (strlen(ss) == 0) return -1;
return atoi(ss);
}
void CYOMBInputParam::strToColorIndex(const char *s, COLOR_INDEX_LIST &cil,
const int maxIndex) {
/* If s=="-1", all of the indices are put into the ColorIndexList
*/
if (strcmp(s, "-1") == 0) {
for (int i = 0; i <= maxIndex; i++)
if (cil.nb < MAXNBCIL) {
cil.ci[cil.nb] = (unsigned short)i;
cil.nb++;
} else
return;
return;
}
if (isRange(s)) {
int begin = getRangeBegin(s);
int end = getRangeEnd(s);
if (begin >= 0 && end >= 0) {
begin = std::min(begin, maxIndex);
end = std::min(end, maxIndex);
for (int i = std::min(begin, end);
i <= std::max(begin, end) && cil.nb < MAXNBCIL; i++)
cil.ci[cil.nb++] = (unsigned short)i;
}
// If there is no 'begin' or 'end' of range, it is considered
// 'bad parameter'. For example: '-3' or '5-'.
/* else if ( begin>=0 && end<0 ) {
if ( cil.nb<MAXNBCIL ) {
cil.ci[cil.nb]=begin;
cil.nb++;
}
} else if ( begin<0 && end>=0 ) {
if ( cil.nb<MAXNBCIL ) {
cil.ci[cil.nb]=end;
cil.nb++;
}
}
*/
} else {
if (cil.nb < MAXNBCIL) {
int q = atoi(s);
if (q >= 0 && q <= maxIndex) cil.ci[cil.nb++] = (unsigned short)q;
}
}
}
static int ushortCompare(const void *a, const void *b) {
unsigned short *aa;
unsigned short *bb;
aa = (unsigned short *)a;
bb = (unsigned short *)b;
if (*aa == *bb) return 0;
if (*aa < *bb) return -1;
return 1;
}
void CYOMBInputParam::makeColorIndexList(const char *s, COLOR_INDEX_LIST &cil,
const int maxIndex) {
int ln = strlen(s);
int i, j;
char ss[100];
COLOR_INDEX_LIST tmpCil;
cil.nb = tmpCil.nb = 0;
for (i = 0; i < ln; i++) {
if (s[i] != ',') {
strcpy(ss, &s[i]);
for (j = 0; j < (int)strlen(ss); j++)
if (ss[j] == ',') {
ss[j] = '\0';
break;
}
i += (strlen(ss) - 1);
strToColorIndex(ss, tmpCil, maxIndex);
}
}
qsort(tmpCil.ci, tmpCil.nb, sizeof(unsigned short), ushortCompare);
if (tmpCil.nb > 0) {
cil.ci[0] = tmpCil.ci[0];
cil.nb = 1;
for (i = j = 1; i < tmpCil.nb; i++)
if (tmpCil.ci[i] != tmpCil.ci[i - 1]) cil.ci[cil.nb++] = tmpCil.ci[i];
} else
cil.nb = 0;
}
// Constructor of RGBM input parameters.
// It supposes 30 parameters:
// 0,1,2,3,4 isColor4, color4 (RGBM)
// 5,6,7,8,9 isColor3, color3 (RGBM)
// 10,11,12,13,14 isColor2, color2 (RGBM)
// 15,16,17,18,19 isColor1, color1 (RGBM)
// 20,21,22,23,24 isColor0, color0 (RGBM)
// 25. sensitivity of selection (dAB)
// 26. nbSamples (Quality). The number of sampling pixels.
// 27. dSamples (Amount). The distance of sampling.
// 28. isStopAtContour (Y/N) Stops the sampling at contour line.
// 29. isRandomSampling (Y/N) Random or equal sampling.
CYOMBInputParam::CYOMBInputParam(const int argc, const char *argv[],
const int shrink) {
m_nbColor = m_nbSample = 0;
m_dSample = 0.0;
m_scale = shrink > 0 ? 1.0 / (double)shrink : 1.0;
m_isEconf = false;
m_isShowSelection = false;
if (argc == 30) {
m_isCM = false;
m_isRandomSampling = argv[29][0] == '0' ? false : true;
m_isStopAtContour = argv[28][0] == '0' ? false : true;
// Amount - dSample
m_dSample = atof(argv[27]) * m_scale;
// Quality - nbSamples
m_nbSample = (int)atof(argv[26]);
if (shrink > 1) {
// if ( m_nbSample>2 ) {
// m_nbSample=
//(int)((double)m_nbSample*sqrt(m_scale)+0.5);
// m_nbSample= m_nbSample<3 ? 3 :
// m_nbSample;
// }
} else
m_nbSample = m_nbSample < 1 ? 1 : m_nbSample;
if ((int)(m_dSample * m_dSample * 2.5) < m_nbSample)
m_nbSample = (int)(m_dSample * m_dSample * 2.5);
// Sensitivity - dist A
m_dA = 3.0 * atof(argv[25]) / 50.0;
m_dA = m_dA <= 0.001 ? 0.001 : m_dA;
// Sensitivity - dist AB
m_dAB = atof(argv[25]) / 50.0;
m_dAB = m_dAB <= 0.001 ? 0.001 : m_dAB;
int j = 24;
m_nbColor = 0;
for (int i = 0; i < 5; i++) {
if (atoi(argv[j--]) > 0) {
m_color[m_nbColor][0] = atoi(argv[j--]);
m_color[m_nbColor][1] = atoi(argv[j--]);
m_color[m_nbColor][2] = atoi(argv[j--]);
m_color[m_nbColor][3] = atoi(argv[j--]);
m_nbColor++;
} else
j -= 4;
}
}
}
// Constructor of RGBM input parameters.
// It supposes 6 parameters:
// 0. Paint index list
// 1. Ink index list
// 2. nbSamples (Quality). The number of sampling pixels.
// 3. dSamples (Amount). The distance of sampling.
// 4. isStopAtContour (Y/N) Stops the sampling at contour line.
// 5. isRandomSampling (Y/N) Random or equal sampling.
// isCM16 - informs about the type of colormap CM16/CM24.
CYOMBInputParam::CYOMBInputParam(const int argc, const char *argv[],
const int shrink, const bool isCM16) {
int nbInk = isCM16 ? 31 : 4095;
int nbPaint = isCM16 ? 127 : 4095;
m_nbColor = m_nbSample = 0;
m_dSample = 0.0;
m_scale = shrink > 0 ? 1.0 / (double)shrink : 1.0;
m_isEconf = false;
m_isShowSelection = false;
m_dA = m_dAB = 0.01;
if (argc == 6) {
m_isCM = true;
m_isRandomSampling = argv[5][0] == '0' ? false : true;
m_isStopAtContour = argv[4][0] == '0' ? false : true;
// Amount - dSample
m_dSample = atof(argv[3]) * m_scale;
// Quality - nbSamples
m_nbSample = (int)atof(argv[2]);
if (shrink > 1) {
if (m_nbSample > 2) {
m_nbSample = (int)((double)m_nbSample * sqrt(m_scale) + 0.5);
m_nbSample = m_nbSample < 2 ? 2 : m_nbSample;
}
} else
m_nbSample = m_nbSample < 1 ? 1 : m_nbSample;
if ((int)(m_dSample * m_dSample * 2.5) < m_nbSample)
m_nbSample = (int)(m_dSample * m_dSample * 2.5);
// Preparing of INK and PAINT index lists
makeColorIndexList(&argv[1][0], m_ink, nbInk);
makeColorIndexList(&argv[0][0], m_paint, nbPaint);
}
}
bool CYOMBInputParam::isOK() {
if (!m_isCM && m_nbColor <= 1) return false;
if (m_isCM && m_paint.nb <= 1) return false;
if (m_dSample < 1.1) return false;
if (m_nbSample <= 1) return false;
// if ( (int)(m_dSample*m_dSample*3.1)<m_nbSample)
// return false;
return true;
}
void CYOMBInputParam::print(COLOR_INDEX_LIST &cil) {
/* tmsg_info("nb=%d ci=",cil.nb);
for( int i=0; i<cil.nb; i++ )
tmsg_info("i=%d %d",i,(int)cil.ci[i]);*/
}