#ifdef _WIN32
#pragma warning(disable : 4996)
#include "windows.h"
#endif
#include <vector>
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <sys/types.h>
#include <sys/timeb.h>
#include <string.h>
#include <math.h>
#include "Params.h"
#include "YOMBParam.h"
#include "YOMBInputParam.h"
#include "InputParam.h"
#include "STColSelPic.h"
#include "BlurMatrix.h"
#include "SDirection.h"
#include "SDef.h"
#include "CallCircle.h"
#include "CallParam.h"
//#include "tmsg.h"
using namespace std;
#ifdef __cplusplus
extern "C" {
#endif
#define P(d) tmsg_info(" - %d -\n", d)
#define COPY_RASTER(inr, outr, border) \
tP.copy_raster(inr, outr, border, border, inr->lx - border - 1, \
inr->ly - border - 1, 0, 0)
// ----- CALLIGRAPH for UCHAR pixels (range 0-255) --------------------------
void calligraphUC(const RASTER *inr, RASTER *outr, CCallParam &par,
const int border,
bool isOutBorder) // throw(SMemAllocError,SWriteRasterError)
{
try {
SRECT rect = {border, border, inr->lx - border - 1, inr->ly - border - 1};
SPOINT p = {0, 0};
CSTColSelPic<UC_PIXEL> ipUC;
ipUC.read(inr);
ipUC.initSel();
// Selection of pixels using CM
int nbSel = ipUC.makeSelectionCMAP(par.m_ink, par.m_paint);
if (nbSel > 0) {
// Calculation of 'DIRECTION MAP'
double fSize = par.m_accuracy / 5.0;
fSize = D_CUT(fSize, 1.0, 20.0);
// CSDirection
//dir(ipUC.m_lX,ipUC.m_lY,ipUC.m_sel,I_ROUND(fSize));
// Only on border (thickness of border is 3 )
CSDirection dir(ipUC.m_lX, ipUC.m_lY, ipUC.m_sel.get(), I_ROUND(fSize),
3);
dir.doDir();
// Calculation of 'RADIUS MAP' based on the 'DIRECTION MAP'
// doRadius(rH,rLR,rV,rRL,radiusBlur)
fSize = par.m_accuracy / 10.0;
fSize = D_CUT(fSize, 1.0, 10.0);
;
dir.doRadius(par.m_rH, par.m_rLR, par.m_rV, par.m_rRL, I_ROUND(fSize));
dir.getResult(ipUC.m_sel.get());
// Draws the circles
CCallCircle cc(par.m_thickness);
cc.draw(ipUC, (par.m_ink.m_nb == 1), par.m_randomness);
// ipUC.showSelection();
}
if (isOutBorder)
ipUC.writeOutBorder(inr, border, outr, rect, p);
else
ipUC.write(outr, rect, p);
} catch (SMemAllocError) {
// SMemAllocError();
} catch (SWriteRasterError) {
// SWriteRasterError();
}
}
// ----- CALLIGRAPH for USHORT pixels (range 0-65535) ------------------------
void calligraphUS(const RASTER *inr, RASTER *outr, CCallParam &par,
const int border,
bool isOutBorder) // throw(SMemAllocError,SWriteRasterError)
{
try {
SRECT rect = {border, border, inr->lx - border - 1, inr->ly - border - 1};
SPOINT p = {0, 0};
CSTColSelPic<US_PIXEL> ipUS;
ipUS.read(inr);
ipUS.initSel();
// Selection of pixels using CM
int nbSel = ipUS.makeSelectionCMAP(par.m_ink, par.m_paint);
if (nbSel > 0) {
// Calculation of 'DIRECTION MAP'
double fSize = par.m_accuracy / 5.0;
fSize = D_CUT(fSize, 1.0, 20.0);
// CSDirection
//dir(ipUS.m_lX,ipUS.m_lY,ipUS.m_sel,I_ROUND(fSize));
// Only on border (thickness of border is 3 )
CSDirection dir(ipUS.m_lX, ipUS.m_lY, ipUS.m_sel.get(), I_ROUND(fSize),
3);
dir.doDir();
// Calculation of 'RADIUS MAP' based on the 'DIRECTION MAP'
// doRadius(rH,rLR,rV,rRL,radiusBlur)
fSize = par.m_accuracy / 10.0;
fSize = D_CUT(fSize, 1.0, 10.0);
;
dir.doRadius(par.m_rH, par.m_rLR, par.m_rV, par.m_rRL, I_ROUND(fSize));
dir.getResult(ipUS.m_sel.get());
// Draws the circles
CCallCircle cc(par.m_thickness);
cc.draw(ipUS, (par.m_ink.m_nb == 1), par.m_randomness);
// ipUC.showSelection();
}
if (isOutBorder)
ipUS.writeOutBorder(inr, border, outr, rect, p);
else
ipUS.write(outr, rect, p);
} catch (SMemAllocError) {
// SMemAllocError();
} catch (SWriteRasterError) {
// SWriteRasterError();
}
}
int calligraph(const RASTER *inr, RASTER *outr, const int border, int argc,
const char *argv[], const int shrink, bool isOutBorder) {
// The input raster must be RAS_CM16 or RAS_CM32!!!!
CSTPic<UC_PIXEL> tP;
if (inr->type != RAS_CM32) {
COPY_RASTER(inr, outr, border);
return 0;
}
try {
CCallParam callP(argc, argv, shrink);
if (!callP.isOK()) {
COPY_RASTER(inr, outr, border);
return 0;
}
srand(10);
if (outr->type == RAS_RGBM) {
calligraphUC(inr, outr, callP, border, isOutBorder);
} else if (outr->type == RAS_RGBM64) {
calligraphUS(inr, outr, callP, border, isOutBorder);
} else {
COPY_RASTER(inr, outr, border);
return 0;
}
} catch (SMemAllocError e) {
e.debug_print();
COPY_RASTER(inr, outr, border);
return 0;
} catch (SWriteRasterError e) {
e.debug_print();
COPY_RASTER(inr, outr, border);
return 0;
}
return 1;
}
#ifdef __cplusplus
}
#endif