📄 hilbert.c~
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/*---------------------------------------------------------------------------* Arnold transformation* ---------------------------------------------------------------------------*/#include <tina/all_tina.h>#include "bmp.h"
#define MAXPATHLEN 64static char directory_name[MAXPATHLEN];static char file_name[MAXPATHLEN];static char pathname[MAXPATHLEN];
static void *pdir=0, *pfile=0;static int SCRAM_n = 1;static Tv *tv = NULL;static Tv *tv1=NULL;
static int x = -1, y = 0;
static int i = 0, j = 0;
static int width;
static void step(int dir, int **r, int **c)
{
/*int x0 = x, y0 = y;*/
switch(dir & 3)
{
case 0: x = x + 1; break;
case 1: y = y + 1; break;
case 2: x = x - 1; break;
case 3: y = y - 1; break;
}
/*if(x0 >= 0) tv_linexy(tv, x0*10, y0*10, x*10, y*10);*/
if(j == width)
{
j = 0;
++i;
}
r[y][x] = i;
c[y][x] = j++;
}
static void hilbert(int dir, int rot, int order, int **r, int **c)
{
if(order == 0) return;
dir += rot;
hilbert(dir, -rot, order-1, r, c);
step(dir, r, c);
dir = dir - rot;
hilbert(dir, rot, order-1, r, c);
step(dir, r, c);
hilbert(dir, rot, order-1, r, c);
dir = dir - rot;
step(dir, r, c);
hilbert(dir, -rot, order-1, r, c);
}
static void hilbert_curve(int order, int **r, int **c)
{
x = -1, y = 0;
i = 0, j = 0;
width = 1;
int k;
for(k = 0; k < order; k++) width *= 2;
step(0, r, c);
hilbert(0, 1, order, r, c);
}/*--------------------------------------------------------------------------- To generate the scrambling mapping-matrix of arnold transformation. ---------------------------------------------------------------------------*/void hilbert_matrix(int** r, int** c, int height, int width)
{
int i, lev = 1;
while((int)pow(2,lev) < height) lev++;
printf("\nHilbert transform\n");
hilbert_curve(lev, r, c);
} /*--------------------------------------------------------------------------- To generate the inverse scrambling mapping-matrix of arnold transformation. ---------------------------------------------------------------------------*/void r_hilbert_matrix(int** src_r,int** src_c, int height, int width){ int i,j,r,c; int **trans_r, **trans_c;
trans_r = int_matrix(height, width);
trans_c = int_matrix(height, width); hilbert_matrix(trans_r, trans_c, height, width); printf("\nR_Hilbert transform\n"); for(i = 0; i < height; i++)
{
for(j = 0; j < width; j++)
{
r = trans_r[i][j];
c = trans_c[i][j];
src_r[r][c] = i;
src_c[r][c] = j;
}
} free_int_matrix(trans_r, height);
free_int_matrix(trans_c, height);}static Imrect *read_image(void){ Imrect *srcIm;/*----------------Read the image---------------------------*/ (void) strip_spaces(file_name); (void) strip_spaces(directory_name); (void) string_append(pathname, directory_name, "/", file_name, NULL); srcIm = ReadGIF(pathname, 1);/*------------------------------------------------*/ return(srcIm);} /*--------------------------------------------------------------------------- arnold transformation ---------------------------------------------------------------------------*/void Hilbert_Trans(int nTrans)
{
Imrect *srcIm,*destIm,*tmpIm;
int width, height;
Imregion *roi; int i,j,k; int type;
BYTE pix;/* if (stack_check_types(IMRECT, NULL) == false)
{
error("Hilbert : wrong types on stack", warning);
return;
} srcIm = (Imrect *) stack_pop(&type);*/ srcIm = read_image(); //srcIm = DrawRGB_proc();
width = srcIm->width;
height = srcIm->height;
if (width != height)
{
error("Hilbert:width != height", warning);
return;
}
roi = srcIm->region;
if (roi == NULL) return ;/*------------------------------------------------*/ int **trans_r, **trans_c;
trans_r = int_matrix(height, width);
trans_c = int_matrix(height, width); hilbert_matrix(trans_r, trans_c, height, width);/*------------------------------------------------*/
printf("\n\n=== Hilbert Transform begin: ===\n"); destIm = im_alloc( height, width, roi, int_v ); int r,c;
for( k = 0; k < SCRAM_n; k++)
{ for (i = 0; i < height ; i++)
{
for (j = 0; j< width ; j++)
{ IM_PIX_GET(srcIm, i, j, pix);
IM_PIX_SET(destIm, trans_r[i][j], trans_c[i][j], pix);
}
}
tmpIm = srcIm;
srcIm = destIm;
destIm = tmpIm; }/*----------------------Save the image as .gif--------------------------*/ char filename[64]; char string[25]; gcvt(k,5,string); printf("string=%s\n",string); char *filename0 ="result/Hilbert/"; strcpy(filename,filename0); //strcat(filename,file_name); strcat(filename,"Hilbert_"); strcat(filename, string); strcat(filename,".gif"); //gif_write_file(srcIm,filename); gif_write_file_color(srcIm,filename); //strcat(filename,".bmp"); //ImrectToBMP8(srcIm,filename);//}/*------------------------------------------------*/ tv_imrect2(tv1, srcIm); im_free(destIm); free_int_matrix(trans_r, height);
free_int_matrix(trans_c, height); printf("=== Hilbert transform complete! ===\n");
}
/*--------------------------------------------------------------------------- inverse arnold transformation ---------------------------------------------------------------------------*/void R_Hilbert_Trans(int nTrans)
{
Imrect *srcIm,*destIm,*tmpIm;
int width, height;
Imregion *roi; int i,j,k; int type;
BYTE pix;/* if (stack_check_types(IMRECT, NULL) == false)
{
error("Hilbert : wrong types on stack", warning);
return;
} srcIm = (Imrect *) stack_pop(&type);*/ srcIm = read_image();
width = srcIm->width;
height = srcIm->height;
if (width != height)
{
error("R_Hilbert:width != height", warning);
return;
}
roi = srcIm->region;
if (roi == NULL) return ;
/*------------------------------------------------*/ int **trans_r, **trans_c;
trans_r = int_matrix(height, width);
trans_c = int_matrix(height, width); r_hilbert_matrix(trans_r, trans_c, height, width);/*------------------------------------------------*/
printf("\n\n=== R_Hilbert Transform begin: ===\n"); destIm = im_alloc( height, width, roi, int_v ); int r,c;
for( k = 0; k < SCRAM_n; k++)
{ for (i = 0; i < height ; i++)
{
for (j = 0; j< width ; j++)
{ IM_PIX_GET(srcIm, i, j, pix);
IM_PIX_SET(destIm, trans_r[i][j], trans_c[i][j], pix);
}
}
tmpIm = srcIm;
srcIm = destIm;
destIm = tmpIm; }/*----------------------Save the image as .gif--------------------------*/ char filename[64]; char string[25]; gcvt(k,5,string); printf("string=%s\n",string); char *filename0 ="result/Hilbert/"; strcpy(filename,filename0); strcat(filename,file_name); strcat(filename,"+R_Hilbert_"); strcat(filename, string); strcat(filename,".gif"); gif_write_file(srcIm,filename);/*------------------------------------------------*/ tv_imrect2(tv1, srcIm); im_free(destIm); free_int_matrix(trans_r, height);
free_int_matrix(trans_c, height); printf("=== R_Hilbert transform complete! ===\n");
}static void tv_choice_proc(choice)
int choice;
{
switch (choice)
{
case 0: tv_set_next(tv);
break;
case 1: tv_set_next(tv1);
break;
default:error("tv_choice_proc: unknown choice\n", warning);
break;
}}static void scan_proc(void){ scan_files(directory_name,file_name); tw_sglobal_reset(pdir); tw_sglobal_reset(pfile);}void Hilbert_tool(int x, int y)
{
static void *tool = NULL;
static void tv_choice_proc(); if (tool)
{
tw_show_tool(tool);
return;
}
tool = (void *)tw_tool("Hilbert Scrambling tool", x, y); /* Initialise pathname from environment variable (or #define) */ (void) environ_pathname_get(directory_name, file_name, "TINA_IMAGE_DEFAULT", "/home/wzz/newimscramdegree/result/Hilbert/gRGB.gif"); tv = tv_create("Hilbert original");
tv1 = tv_create("Hilbert scrambled");
tw_choice("Tv choice", tv_choice_proc, 0, "original","scrambled", NULL); tw_newrow();
tw_newrow(); /*---------------------------*/ pdir = (void *) tw_sglobal("Directory:", directory_name, 32); tw_button("scan", scan_proc, NULL); tw_newrow(); pfile = (void*) tw_sglobal("File:", file_name, 32); tw_newrow(); /*---------------------------*/ tw_iglobal("Scrambling times = ", &SCRAM_n, 5);
tw_newrow();
tw_button("Hilbert", Hilbert_Trans,NULL); tw_button("R_Hilbert", R_Hilbert_Trans,NULL); tw_newrow(); tw_newrow();
tw_end_tool();
}
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