frot.cpp

// Copyright (c) 2007 Lionel Moisan <Lionel.Moisan@parisdescartes.fr>



#include "frot.h"

#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif


void bound(int x, int y, float ca, float sa, int *xmin, int *xmax, int *ymin, int *ymax);


/* NB : calling this module with out=in is nonsense */

/* void frot(in,out,a,b,k_flag)
     Fimage in,out;
     float  *a,*b;
     char *k_flag; */

void frot(vector<float>& in, vector<float>& out, int nx, int ny, int *nx_out, int *ny_out, float *a, float *b, char *k_flag)
//void frot(float *in, float *out, int nx, int ny, int *nx_out, int *ny_out, float *a, float *b, char *k_flag)
{
    /* int    nx,ny,x,y,x1,y1,adr; */
	int    x,y,x1,y1,adr; 
    float  ca,sa,xp,yp,a11,a12,a21,a22,ux,uy,xtrans,ytrans;
    int    tx1,ty1,tx2,ty2,xmin,xmax,ymin,ymax,sx,sy;

/*    nx = in->ncol;
    ny = in->nrow; */
	
    ca = (float)cos((double)(*a)*M_PI/180.0);
    sa = (float)sin((double)(*a)*M_PI/180.0);
	


    /********** Compute new image location **********/
    if (k_flag) {
      /* crop image and fix center */
      xmin = ymin = 0;
      xmax = nx-1;
      ymax = ny-1;
      xtrans = 0.5*( (float)(nx-1)*(1.0-ca)+(float)(ny-1)*sa );
      ytrans = 0.5*( (float)(ny-1)*(1.0-ca)-(float)(nx-1)*sa );
    } else {
      /* extend image size to include the whole input image */
      xmin = xmax = ymin = ymax = 0;
      bound(nx-1,0,ca,sa,&xmin,&xmax,&ymin,&ymax);
      bound(0,ny-1,ca,sa,&xmin,&xmax,&ymin,&ymax);
      bound(nx-1,ny-1,ca,sa,&xmin,&xmax,&ymin,&ymax);
      xtrans = ytrans = 0.0;
    }
    sx = xmax-xmin+1;
    sy = ymax-ymin+1;
	
    /* out = mw_change_fimage(out,sy,sx);
    if (!out) mwerror(FATAL,1,"not enough memory\n"); */
	
	*nx_out = sx;
	*ny_out = sy;
	
//	printf("Hello sx=%d, sy=%d\n", sx, sy);

//		out = new float[sy*sx];
	out = std::vector<float>(sx*sy);
	
    /********** Rotate image **********/
    for (x=xmin;x<=xmax;x++) 
      for (y=ymin;y<=ymax;y++) {
	xp = ca*(float)x-sa*(float)y + xtrans;
	yp = sa*(float)x+ca*(float)y + ytrans;
	x1 = (int)floor(xp); 
	y1 = (int)floor(yp); 
	ux = xp-(float)x1;
	uy = yp-(float)y1;
	adr = y1*nx+x1;
	tx1 = (x1>=0 && x1<nx);
	tx2 = (x1+1>=0 && x1+1<nx);
	ty1 = (y1>=0 && y1<ny);
	ty2 = (y1+1>=0 && y1+1<ny);
		  
/*	a11 = (tx1 && ty1? in->gray[adr]:*b);
	a12 = (tx1 && ty2? in->gray[adr+nx]:*b);
	a21 = (tx2 && ty1? in->gray[adr+1]:*b);
	a22 = (tx2 && ty2? in->gray[adr+nx+1]:*b); */
		  
	a11 = (tx1 && ty1? in[adr]:*b);
    a12 = (tx1 && ty2? in[adr+nx]:*b);
    a21 = (tx2 && ty1? in[adr+1]:*b);
    a22 = (tx2 && ty2? in[adr+nx+1]:*b); 
		  
		  
/*	out->gray[(y-ymin)*sx+x-xmin] = 
	  (1.0-uy)*((1.0-ux)*a11+ux*a21)+uy*((1.0-ux)*a12+ux*a22);*/
		
	out[(y-ymin)*sx+x-xmin] = 
		  (1.0-uy)*((1.0-ux)*a11+ux*a21)+uy*((1.0-ux)*a12+ux*a22);
		  
      }
}


void bound(int x, int y, float ca, float sa, int *xmin, int *xmax, int *ymin, int *ymax)
/* int x,y;
 float ca,sa;
 int *xmin,*xmax,*ymin,*ymax;*/
{   
    int rx,ry;
	
    rx = (int)floor(ca*(float)x+sa*(float)y);
    ry = (int)floor(-sa*(float)x+ca*(float)y);
    if (rx<*xmin) *xmin=rx; if (rx>*xmax) *xmax=rx;
    if (ry<*ymin) *ymin=ry; if (ry>*ymax) *ymax=ry;
}