version 1.7, 2000/11/09 02:30:45 |
version 1.23, 2015/08/14 13:51:56 |
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* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
* |
* |
* $OpenXM: OpenXM_contrib2/asir2000/plot/plotp.c,v 1.6 2000/11/09 01:51:13 noro Exp $ |
* $OpenXM: OpenXM_contrib2/asir2000/plot/plotp.c,v 1.22 2015/08/06 10:01:53 fujimoto Exp $ |
*/ |
*/ |
#include "ca.h" |
#include "ca.h" |
#include "parse.h" |
#include "parse.h" |
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#define EXP10(a) pow(10.0,a) |
#define EXP10(a) pow(10.0,a) |
#endif |
#endif |
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#if defined(VISUAL) |
#if defined(VISUAL) || defined(__MINGW32__) |
static POINT oldpos; |
static POINT oldpos; |
#endif |
#endif |
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if_print(display,tab,can) |
#if !defined(VISUAL) && !defined(__MINGW32__) |
DISPLAY *display; |
extern Pixel BackPixel; |
double **tab; |
unsigned long GetColor(Display *, char *); |
struct canvas *can; |
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unsigned long GetColor(Display *dis, char *color_name) |
{ |
{ |
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Colormap cmap; |
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XColor near_color, true_color; |
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cmap = DefaultColormap( dis, 0 ); |
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XAllocNamedColor( dis, cmap, color_name, &near_color, &true_color ); |
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return( near_color.pixel ); |
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} |
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void area_print(DISPLAY *display,double **tab,struct canvas *can,int GXcode){ |
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int ix,iy,width,height,wc,**mask; |
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XImage *image; |
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DRAWABLE pix; |
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unsigned int color,black,white,c2; |
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//unsigned long color,black,white,c2; |
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double *px,*px1,*px2; |
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//GXcode 0:new 1:cp 2:and 3:or 4:xor |
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width=can->width; |
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height=can->height; |
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pix=can->pix; |
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mask=(int **)ALLOCA((width)*sizeof(int *)); |
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for(ix=0;ix<width;ix++)mask[ix]=(int *)ALLOCA((height)*sizeof(int)); |
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// create mask table values boundary:0 positive:1 negativ:-1 |
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for(ix=0;ix<width;ix++)for(iy=0;iy<height;iy++) |
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if((tab[ix][iy]>0)&&(tab[ix+1][iy]>0)&&(tab[ix][iy+1]>0)&& |
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(tab[ix+1][iy+1]>0)) mask[ix][iy]=1;//all postive |
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else if((tab[ix][iy]<0)&&(tab[ix+1][iy]<0)&&(tab[ix][iy+1]<0)&& |
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(tab[ix+1][iy+1]<0)) mask[ix][iy]=-1;//all negativ |
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else mask[ix][iy]=0;//boundary |
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flush(); |
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black=GetColor(display,"black"); |
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white=GetColor(display,"white"); |
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set_drawcolor(can->color); |
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color=can->color; |
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image=XGetImage(display,pix,0,0,width,height,-1,ZPixmap); |
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for(ix=0;ix<width;ix++){ |
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for(iy=0;iy<height;iy++){ |
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c2=XGetPixel(image,ix,height-iy-1); |
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if(c2==white)wc=-1; |
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else if(c2==black)wc=0; |
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else wc=1; |
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if(wc!=0){//XPutPixel(image,ix,iy,black); |
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if(mask[ix][iy]==0)XPutPixel(image,ix,height-iy-1,black);//boundary |
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else { |
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switch (GXcode){ |
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case 0: //new window |
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case 1: //cp |
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if(mask[ix][iy]==1)XPutPixel(image,ix,height-iy-1,color); |
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else XPutPixel(image,ix,height-iy-1,BackPixel); |
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break; |
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case 2: //and |
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if((mask[ix][iy]==1)&&(wc==1))XPutPixel(image,ix,height-iy-1,color); |
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else XPutPixel(image,ix,height-iy-1,BackPixel); |
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break; |
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case 3: //or |
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if((mask[ix][iy]==1)||(wc==1))XPutPixel(image,ix,height-iy-1,color); |
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else XPutPixel(image,ix,height-iy-1,BackPixel); |
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break; |
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case 4: //xor |
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if((mask[ix][iy]==1)^(wc==1))XPutPixel(image,ix,height-iy-1,color); |
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else XPutPixel(image,ix,height-iy-1,BackPixel); |
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break; |
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} |
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} |
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} |
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} |
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} |
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XPutImage(display,pix,drawGC,image,0,0,0,0,width,height); |
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count_and_flush(); |
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flush(); |
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} |
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#else |
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void area_print(DISPLAY *display,double **tab,struct canvas *can,int GXcode){ |
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/* not implemented */ |
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} |
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#endif |
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void over_print(DISPLAY *display,double **tab,struct canvas *can,int GXcode){ |
int ix,iy,width,height; |
int ix,iy,width,height; |
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DRAWABLE pix; |
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double vmin,vmax; |
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//GXcode 0:over 1:cp 2:and 3:or 4:xor |
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pix=can->pix; width=can->width; height=can->height; |
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for(ix=0;ix<width;ix++){ |
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for(iy=0;iy<height;iy++){ |
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vmax= |
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MAX(MAX(tab[ix][iy],tab[ix][iy+1]),MAX(tab[ix+1][iy],tab[ix+1][iy+1])); |
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vmin= |
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MIN(MIN(tab[ix][iy],tab[ix][iy+1]),MIN(tab[ix+1][iy],tab[ix+1][iy+1])); |
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if(vmin<=0.0&vmax>=0.0)DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
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} |
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count_and_flush(); |
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} |
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flush(); |
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} |
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void if_printNG(DISPLAY *display,double **tab,struct canvas *can,int cond){ |
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int ix,iy,width,height; |
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double zst,zed,zsp; |
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DRAWABLE pix; |
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width=can->width; height=can->height; pix=can->pix; |
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if(cond==0){ |
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//IFPLOTB |
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for(iy=0;iy<height-1;iy++)for(ix=0;ix<width-1;ix++) |
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if(tab[ix][iy]==0.0) DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
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} else if(cond==1) { |
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//IFPLOT,IFPLOTD,IFPLOTQ |
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for(iy=0;iy<height-1;iy++)for(ix=0;ix<width-1;ix++){ |
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if(tab[ix][iy]==0.0) DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
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else if(tab[ix][iy]>0){ |
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if(tab[ix+1][iy+1]<0||tab[ix][iy+1]<0||tab[ix+1][iy]<0) |
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DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
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} else if(tab[ix+1][iy+1]>0||tab[ix][iy+1]>0||tab[ix+1][iy]>0) |
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DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
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count_and_flush(); |
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} |
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} |
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flush(); |
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} |
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void polar_print(DISPLAY *display,struct canvas *can){ |
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int len,i,j,x,y; |
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unsigned int color; |
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POINT *pa; |
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#if defined(VISUAL) || defined(__MINGW32__) |
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HDC dc; |
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HPEN pen,oldpen; |
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len=can->pa[0].length; |
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color=can->color; |
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pa=can->pa[0].pos; |
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for(i=1;i<len;i++){ |
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j=i-1; |
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if(color){ |
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pen=CreatePen(PS_SOLID,1,color); |
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oldpen=SelectObject(can->pix,pen); |
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DRAWLINE(display,can->pix,drawGC,XC(pa[j]),YC(pa[j]),XC(pa[i]),YC(pa[i])); |
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SelectObject(can->pix,oldpen); |
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dc = GetDC(can->hwnd); |
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oldpen = SelectObject(dc,pen); |
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DRAWLINE(display,dc,drawGC,XC(pa[j]),YC(pa[j]),XC(pa[i]),YC(pa[i])); |
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SelectObject(dc,oldpen); |
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ReleaseDC(can->hwnd,dc); |
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DeleteObject(pen); |
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} else { |
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DRAWLINE(display,can->pix,drawGC,XC(pa[j]),YC(pa[j]),XC(pa[i]),YC(pa[i])); |
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dc = GetDC(can->hwnd); |
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DRAWLINE(display,dc,drawGC,XC(pa[j]),YC(pa[j]),XC(pa[i]),YC(pa[i])); |
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ReleaseDC(can->hwnd,dc); |
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} |
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} |
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#else |
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len=can->pa[0].length; |
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color=can->color; |
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pa=can->pa[0].pos; |
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for(i=1;i<len;i++){ |
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j=i-1; |
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DRAWLINE(display,can->pix,cdrawGC,XC(pa[j]),YC(pa[j]),XC(pa[i]),YC(pa[i])); |
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} |
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XFlush(display); |
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#endif |
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} |
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void if_print(DISPLAY *display,double **tab,struct canvas *can){ |
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int ix,iy,width,height; |
double *px,*px1,*px2; |
double *px,*px1,*px2; |
DRAWABLE pix; |
DRAWABLE pix; |
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if ( can->mode == MODE_CONPLOT ) { |
if ( can->mode == modeNO(CONPLOT) ) { |
con_print(display,tab,can); return; |
con_print(display,tab,can); return; |
} |
} |
flush(); |
flush(); |
Line 81 struct canvas *can; |
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Line 248 struct canvas *can; |
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for(iy=0, px=tab[ix], px1 = tab[ix+1], px2 = px+1; |
for(iy=0, px=tab[ix], px1 = tab[ix+1], px2 = px+1; |
iy<height-1 ;iy++, px++, px1++, px2++ ) |
iy<height-1 ;iy++, px++, px1++, px2++ ) |
if ( ((*px >= 0) && ((*px1 <= 0) || (*px2 <= 0))) || |
if ( ((*px >= 0) && ((*px1 <= 0) || (*px2 <= 0))) || |
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((*px <= 0) && ((*px1 >= 0) || (*px2 >= 0))) ) { |
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DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
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count_and_flush(); |
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} |
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flush(); |
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/* |
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int i,ix,iy,width,height; |
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double *px,*px1,*px2; |
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double **vmax,**vmin,*zst,zstep,zv,u,l; |
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DRAWABLE pix; |
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POINT *pa,*pa1; |
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struct pa *parray; |
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if(can->mode==modeNO(CONPLOT)){ |
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width=can->width;height=can->height;pix=can->pix; |
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//con_print(display,tab,can); |
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// calc all cell max,min value |
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vmax=((double **)ALLOCA((width+1)*sizeof(double *))); |
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vmin=((double **)ALLOCA((width+1)*sizeof(double *))); |
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for(i=0;i<width;i++){ |
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vmax[i]=(double *)ALLOCA((height+1)*sizeof(double)); |
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vmin[i]=(double *)ALLOCA((height+1)*sizeof(double)); |
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} |
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for(ix=0;ix<width;ix++){ |
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for(iy=0;iy<height;iy++){ |
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vmax[ix][iy]= |
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MAX(MAX(tab[ix][iy],tab[ix][iy+1]),MAX(tab[ix+1][iy],tab[ix+1][iy+1])); |
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vmin[ix][iy]= |
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MIN(MIN(tab[ix][iy],tab[ix][iy+1]),MIN(tab[ix+1][iy],tab[ix+1][iy+1])); |
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} |
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} |
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if(can->zmax==can->zmin)zstep=(can->vmax-can->vmin)/can->nzstep; |
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else zstep=(can->zmax-can->zmin)/can->nzstep; |
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zst=(double *)ALLOCA((can->nzstep+1)*sizeof(double)); |
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zv=can->xmin; |
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for(i=0,zv=can->xmin;i<can->nzstep;zv+=zstep,i++)zst[i]=zv; |
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for(iy=0;iy<height-1;iy++){ |
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for(ix=0;ix<width-1;ix++){ |
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for(i=0;i<can->nzstep;i++){ |
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if(vmin[ix][iy]<=zst[i] && vmax[ix][iy]>=zst[i]){ |
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DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
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break; |
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} |
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count_and_flush(); |
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} |
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} |
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} |
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} else { |
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width=can->width;height=can->height;pix=can->pix; |
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for(ix=0;ix<width-1;ix++) |
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for(iy=0,px=tab[ix],px1=tab[ix+1],px2=px+1;iy<height-1; |
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iy++,px++,px1++,px2++) |
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if(((*px>=0)&&((*px1<=0)||(*px2<=0)))|| |
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((*px<=0)&&((*px1>=0)||(*px2>=0)))){ |
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DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
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count_and_flush(); |
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} |
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} |
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flush(); |
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*/ |
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} |
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#define MEMORY_DRAWPOINT(a,len,x,y) (((a)[(len)*(y)+((x)>>3)]) |= (1<<((x)&7))) |
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void memory_if_print(double **tab,struct canvas *can,BYTEARRAY *bytes){ |
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int ix,iy,width,height; |
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double *px,*px1,*px2; |
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unsigned char *array; |
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int scan_len; |
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if ( can->mode==modeNO(CONPLOT)){ |
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memory_con_print(tab,can,bytes); |
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return; |
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} |
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width = can->width; height = can->height; |
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// scan_len = byte length of the scan line |
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scan_len = (width+7)/8; |
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MKBYTEARRAY(*bytes,scan_len*height); |
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array = BDY(*bytes); |
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for( ix=0; ix<width-1; ix++ ) |
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for(iy=0, px=tab[ix], px1 = tab[ix+1], px2 = px+1; |
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iy<height-1 ;iy++, px++, px1++, px2++ ) |
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if ( ((*px >= 0) && ((*px1 <= 0) || (*px2 <= 0))) || |
((*px <= 0) && ((*px1 >= 0) || (*px2 >= 0))) ) { |
((*px <= 0) && ((*px1 >= 0) || (*px2 >= 0))) ) { |
DRAWPOINT(display,pix,drawGC,ix,height-iy-1); |
MEMORY_DRAWPOINT(array,scan_len,ix,height-iy-1); |
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} |
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} |
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void con_print(DISPLAY *display,double **tab,struct canvas *can){ |
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int i,ix,iy,width,height; |
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double *px,*px1,*px2; |
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double **vmax,**vmin,*zst,zstep,zv,u,l; |
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DRAWABLE pix; |
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POINT *pa,*pa1; |
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struct pa *parray; |
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width=can->width;height=can->height;pix=can->pix; |
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vmax=((double **)ALLOCA((width+1)*sizeof(double *))); |
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vmin=((double **)ALLOCA((width+1)*sizeof(double *))); |
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for(i=0;i<width;i++){ |
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vmax[i]=(double *)ALLOCA((height+1)*sizeof(double)); |
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vmin[i]=(double *)ALLOCA((height+1)*sizeof(double)); |
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} |
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for(ix=0;ix<width;ix++){ |
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for(iy=0;iy<height;iy++){ |
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vmax[ix][iy]= |
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MAX(MAX(tab[ix][iy],tab[ix][iy+1]),MAX(tab[ix+1][iy],tab[ix+1][iy+1])); |
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vmin[ix][iy]= |
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MIN(MIN(tab[ix][iy],tab[ix][iy+1]),MIN(tab[ix+1][iy],tab[ix+1][iy+1])); |
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} |
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} |
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if(can->zmax==can->zmin)zstep=(can->vmax-can->vmin)/can->nzstep; |
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else zstep=(can->zmax-can->zmin)/can->nzstep; |
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zst=(double *)ALLOCA((can->nzstep+1)*sizeof(double)); |
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zv=can->xmin; |
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for(i=0,zv=can->xmin;i<can->nzstep;zv+=zstep,i++)zst[i]=zv; |
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for(iy=0;iy<height-1;iy++){ |
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for(ix=0;ix<width-1;ix++){ |
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for(i=0;i<can->nzstep;i++){ |
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if(vmin[ix][iy]<=zst[i] && vmax[ix][iy]>=zst[i]){ |
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DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
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break; |
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} |
count_and_flush(); |
count_and_flush(); |
} |
} |
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} |
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} |
flush(); |
flush(); |
} |
} |
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con_print(display,tab,can) |
void memory_con_print(double **tab,struct canvas *can,BYTEARRAY *bytes){ |
DISPLAY *display; |
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double **tab; |
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struct canvas *can; |
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{ |
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int ix,iy,iz,width,height,pas,pai,len; |
int ix,iy,iz,width,height,pas,pai,len; |
double zstep,z; |
double zstep,z; |
double *px,*px1,*px2; |
double *px,*px1,*px2; |
DRAWABLE pix; |
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POINT *pa,*pa1; |
POINT *pa,*pa1; |
struct pa *parray; |
struct pa *parray; |
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unsigned char *array; |
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int scan_len; |
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width = can->width; height = can->height; |
width = can->width; height = can->height; pix = can->pix; |
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zstep = (can->zmax-can->zmin)/can->nzstep; |
zstep = (can->zmax-can->zmin)/can->nzstep; |
can->pa = (struct pa *)MALLOC((can->nzstep+1)*sizeof(struct pa)); |
can->pa = (struct pa *)MALLOC((can->nzstep+1)*sizeof(struct pa)); |
pas = width; |
pas = width; |
pa = (POINT *)ALLOCA(pas*sizeof(POINT)); |
pa = (POINT *)ALLOCA(pas*sizeof(POINT)); |
initmarker(can,"Drawing..."); |
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for ( z = can->zmin, iz = 0; z <= can->zmax; z += zstep, iz++ ) { |
for ( z = can->zmin, iz = 0; z <= can->zmax; z += zstep, iz++ ) { |
marker(can,DIR_Z,iz); |
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pai = 0; |
pai = 0; |
for( ix=0; ix<width-1; ix++ ) |
for( ix=0; ix<width-1; ix++ ) |
for(iy=0, px=tab[ix], px1 = tab[ix+1], px2 = px+1; |
for(iy=0, px=tab[ix], px1 = tab[ix+1], px2 = px+1; |
Line 129 struct canvas *can; |
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Line 412 struct canvas *can; |
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can->pa[iz].pos = pa1; |
can->pa[iz].pos = pa1; |
} |
} |
} |
} |
flush(); |
/* scan_len = byte length of the scan line */ |
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scan_len = (width+7)/8; |
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MKBYTEARRAY(*bytes,scan_len*height); |
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array = BDY(*bytes); |
for ( parray = can->pa, iz = 0; iz <= can->nzstep; iz++, parray++ ) |
for ( parray = can->pa, iz = 0; iz <= can->nzstep; iz++, parray++ ) |
for ( pa = parray->pos, len = parray->length, ix = 0; ix < len; ix++ ) { |
for ( pa = parray->pos, len = parray->length, ix = 0; ix < len; ix++ ) { |
DRAWPOINT(display,pix,drawGC,XC(pa[ix]),YC(pa[ix])); |
MEMORY_DRAWPOINT(array,scan_len,XC(pa[ix]),YC(pa[ix])); |
count_and_flush(); |
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} |
} |
flush(); |
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} |
} |
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qif_print(display,tab,can) |
void memory_print(struct canvas *can,BYTEARRAY *bytes){ |
DISPLAY *display; |
int len,scan_len,i; |
char **tab; |
POINT *pa; |
struct canvas *can; |
char *array; |
{ |
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/* scan_len = byte length of the scan line */ |
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scan_len = (can->width+7)/8; |
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MKBYTEARRAY(*bytes,scan_len*can->height); |
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array = (char*)BDY(*bytes); |
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len = can->pa[0].length; |
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pa = can->pa[0].pos; |
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for ( i = 0; i < len; i++ ) { |
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MEMORY_DRAWPOINT(array,scan_len,pa[i].x,pa[i].y); |
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} |
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} |
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void qif_print(DISPLAY *display,char **tab,struct canvas *can){ |
int ix,iy,width,height; |
int ix,iy,width,height; |
char *px; |
char *px; |
DRAWABLE pix; |
DRAWABLE pix; |
Line 152 struct canvas *can; |
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Line 449 struct canvas *can; |
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for( ix = 0; ix < width; ix++ ) |
for( ix = 0; ix < width; ix++ ) |
for(iy = 0, px = tab[ix]; iy < height ;iy++, px++ ) |
for(iy = 0, px = tab[ix]; iy < height ;iy++, px++ ) |
if ( *px ) { |
if ( *px ) { |
DRAWPOINT(display,pix,drawGC,ix,height-iy-1); |
DRAWPOINT(display,pix,cdrawGC,ix,height-iy-1); |
count_and_flush(); |
count_and_flush(); |
} |
} |
flush(); |
flush(); |
} |
} |
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plot_print(display,can) |
void plot_print(DISPLAY *display,struct canvas *can){ |
DISPLAY *display; |
int len; |
struct canvas *can; |
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{ |
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int len,i; |
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POINT *pa; |
POINT *pa; |
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#if defined(VISUAL) |
#if defined(VISUAL) || defined(__MINGW32__) |
len = can->pa[0].length; |
len = can->pa[0].length; |
pa = can->pa[0].pos; |
pa = can->pa[0].pos; |
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Line 180 struct canvas *can; |
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Line 474 struct canvas *can; |
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#endif |
#endif |
} |
} |
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draw_point(display,can,x,y,color) |
void draw_point(DISPLAY *display,struct canvas *can,int x,int y,unsigned int color){ |
DISPLAY *display; |
//void draw_point(DISPLAY *display,struct canvas *can,int x,int y,int color){ |
struct canvas *can; |
#if defined(VISUAL) || defined(__MINGW32__) |
int x,y; |
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int color; |
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{ |
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#if defined(VISUAL) |
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HDC dc; |
HDC dc; |
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SetPixel(can->pix,x,y,(COLORREF)color); |
SetPixel(can->pix,x,y,(COLORREF)color); |
|
|
SetPixel(dc,x,y,(COLORREF)color); |
SetPixel(dc,x,y,(COLORREF)color); |
ReleaseDC(can->hwnd,dc); |
ReleaseDC(can->hwnd,dc); |
#else |
#else |
if ( color ) { |
set_drawcolor(color); |
set_drawcolor(color); |
DRAWPOINT(display,can->pix,cdrawGC,x,y); |
DRAWPOINT(display,can->pix,cdrawGC,x,y); |
DRAWPOINT(display,can->window,cdrawGC,x,y); |
DRAWPOINT(display,can->window,cdrawGC,x,y); |
|
} else { |
|
DRAWPOINT(display,can->pix,drawGC,x,y); |
|
DRAWPOINT(display,can->window,drawGC,x,y); |
|
} |
|
XFlush(display); |
XFlush(display); |
#endif |
#endif |
} |
} |
|
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draw_line(display,can,x,y,u,v,color) |
void draw_line( |
DISPLAY *display; |
DISPLAY *display,struct canvas *can,int x,int y,int u,int v,unsigned int color){ |
struct canvas *can; |
//DISPLAY *display,struct canvas *can,int x,int y,int u,int v,int color){ |
int x,y,u,v; |
#if defined(VISUAL) || defined(__MINGW32__) |
int color; |
|
{ |
|
#if defined(VISUAL) |
|
HDC dc; |
HDC dc; |
HPEN pen,oldpen; |
HPEN pen,oldpen; |
|
|
|
|
ReleaseDC(can->hwnd,dc); |
ReleaseDC(can->hwnd,dc); |
} |
} |
#else |
#else |
|
set_drawcolor(color); |
|
DRAWLINE(display,can->pix,cdrawGC,x,y,u,v); |
|
DRAWLINE(display,can->window,cdrawGC,x,y,u,v); |
|
XFlush(display); |
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#endif |
|
} |
|
|
|
void draw_character_string( |
|
DISPLAY *display,struct canvas *can,int x,int y,char *str,unsigned int color){ |
|
//DISPLAY *display,struct canvas *can,int x,int y,char *str,int color){ |
|
#if defined(VISUAL) || defined(__MINGW32__) |
|
HDC dc; |
|
COLORREF oldcolor; |
|
|
if ( color ) { |
if ( color ) { |
set_drawcolor(color); |
oldcolor = SetTextColor(can->pix,color); |
DRAWLINE(display,can->pix,cdrawGC,x,y,u,v); |
DRAWSTRING(display,can->pix,drawGC,x,y,str,strlen(str)); |
DRAWLINE(display,can->window,cdrawGC,x,y,u,v); |
SetTextColor(can->pix,oldcolor); |
|
|
|
dc = GetDC(can->hwnd); |
|
oldcolor = SetTextColor(dc,color); |
|
DRAWSTRING(display,dc,drawGC,x,y,str,strlen(str)); |
|
SetTextColor(dc,oldcolor); |
|
ReleaseDC(can->hwnd,dc); |
} else { |
} else { |
DRAWLINE(display,can->pix,drawGC,x,y,u,v); |
DRAWSTRING(display,can->pix,drawGC,x,y,str,strlen(str)); |
DRAWLINE(display,can->window,drawGC,x,y,u,v); |
dc = GetDC(can->hwnd); |
|
DRAWSTRING(display,dc,drawGC,x,y,str,strlen(str)); |
|
ReleaseDC(can->hwnd,dc); |
} |
} |
|
#else |
|
set_drawcolor(color); |
|
DRAWSTRING(display,can->pix,cdrawGC,x,y,str,strlen(str)); |
|
DRAWSTRING(display,can->window,cdrawGC,x,y,str,strlen(str)); |
XFlush(display); |
XFlush(display); |
#endif |
#endif |
} |
} |
|
|
#define D 5 |
#define D 5 |
|
|
pline(display,can,d) |
void pline(DISPLAY *display,struct canvas *can,DRAWABLE d){ |
DISPLAY *display; |
double w,w1,e,n; |
struct canvas *can; |
|
DRAWABLE d; |
|
{ |
|
double w,w1,k,e,n; |
|
int x0,y0,x,y,xadj,yadj; |
int x0,y0,x,y,xadj,yadj; |
char buf[BUFSIZ]; |
char buf[BUFSIZ]; |
double adjust_scale(); |
double adjust_scale(); |
|
|
/* XXX : should be cleaned up */ |
/* XXX : should be cleaned up */ |
if ( can->noaxis || (can->mode == MODE_PLOT && !can->pa) ) |
if ( can->noaxis || (can->mode==modeNO(PLOT)&& !can->pa) ) |
return; |
return; |
if ( can->mode == MODE_INTERACTIVE ) |
if ( can->mode==modeNO(INTERACTIVE)) |
return; |
return; |
|
|
xadj = yadj = 0; |
xadj = yadj = 0; |
|
|
w1 = w * DEFAULTWIDTH/can->width; |
w1 = w * DEFAULTWIDTH/can->width; |
e = adjust_scale(EXP10(floor(log10(w1))),w1); |
e = adjust_scale(EXP10(floor(log10(w1))),w1); |
for ( n = ceil(can->xmin/e); n*e<= can->xmax; n++ ) { |
for ( n = ceil(can->xmin/e); n*e<= can->xmax; n++ ) { |
x = (int)can->width*(n*e-can->xmin)/w; |
x = (int)(can->width*(n*e-can->xmin)/w); |
DRAWLINE(display,d,drawGC,x,y0,x,y0-D); |
DRAWLINE(display,d,drawGC,x,y0,x,y0-D); |
sprintf(buf,"%g",n*e); |
sprintf(buf,"%g",n*e); |
DRAWSTRING(display,d,scaleGC,x+2,y0+2,buf,strlen(buf)); |
DRAWSTRING(display,d,scaleGC,x+2,y0+2,buf,strlen(buf)); |
|
|
w1 = w * DEFAULTHEIGHT/can->height; |
w1 = w * DEFAULTHEIGHT/can->height; |
e = adjust_scale(EXP10(floor(log10(w1))),w1); |
e = adjust_scale(EXP10(floor(log10(w1))),w1); |
for ( n = ceil(can->ymin/e); n*e<= can->ymax; n++ ) { |
for ( n = ceil(can->ymin/e); n*e<= can->ymax; n++ ) { |
y = (int)can->height*(1-(n*e-can->ymin)/w); |
y = (int)(can->height*(1-(n*e-can->ymin)/w)); |
DRAWLINE(display,d,drawGC,x0,y,x0+D,y); |
DRAWLINE(display,d,drawGC,x0,y,x0+D,y); |
sprintf(buf,"%g",n*e); |
sprintf(buf,"%g",n*e); |
if ( can->xmax <= 0 ) { |
if ( can->xmax <= 0 ) { |
#if !defined(VISUAL) |
#if !defined(VISUAL) && !defined(__MINGW32__) |
xadj = TEXTWIDTH(sffs,buf,strlen(buf)); |
xadj = TEXTWIDTH(sffs,buf,strlen(buf)); |
#else |
#else |
SIZE size; |
SIZE size; |
|
|
} |
} |
} |
} |
|
|
double adjust_scale(e,w) |
double adjust_scale(double e,double w){ |
double e,w; |
|
{ |
|
switch ( (int)floor(w/e) ) { |
switch ( (int)floor(w/e) ) { |
case 1: |
case 1: |
return e/4; break; |
return e/4; break; |
|
|
} |
} |
} |
} |
|
|
initmarker(can,message) |
void initmarker(struct canvas *can,char *message){ |
struct canvas *can; |
#if defined(VISUAL) || defined(__MINGW32__) |
char *message; |
|
{ |
|
#if defined(VISUAL) |
|
can->real_can->percentage = 0; |
can->real_can->percentage = 0; |
can->real_can->prefix = message; |
can->real_can->prefix = message; |
#else |
#else |
|
|
#endif |
#endif |
} |
} |
|
|
marker(can,dir,p) |
void marker(struct canvas *can,int dir,int p){ |
struct canvas *can; |
#if defined(VISUAL) || defined(__MINGW32__) |
int dir,p; |
|
{ |
|
#if defined(VISUAL) |
|
if ( dir == DIR_X ) |
if ( dir == DIR_X ) |
can->real_can->percentage = ceil((float)p/(float)can->real_can->width*100); |
can->real_can->percentage = (int)ceil((float)p/(float)can->real_can->width*100); |
else if ( dir == DIR_Y ) |
else if ( dir == DIR_Y ) |
can->real_can->percentage = ceil((float)p/(float)can->real_can->height*100); |
can->real_can->percentage = (int)ceil((float)p/(float)can->real_can->height*100); |
else |
else |
can->real_can->percentage = ceil((float)p/(float)can->real_can->nzstep*100); |
can->real_can->percentage = (int)ceil((float)p/(float)can->real_can->nzstep*100); |
#else |
#else |
if ( dir == DIR_X ) { |
if ( dir == DIR_X ) { |
XawScrollbarSetThumb(can->xdone,(float)p/(float)can->width,0.05); |
XawScrollbarSetThumb(can->xdone,(float)p/(float)can->width,0.05); |
|
|
#endif |
#endif |
} |
} |
|
|
define_cursor(w,cur) |
void define_cursor(WINDOW w,CURSOR cur){ |
WINDOW w; |
#if !defined(VISUAL) && !defined(__MINGW32__) |
CURSOR cur; |
|
{ |
|
#if !defined(VISUAL) |
|
XDefineCursor(display,w,cur); flush(); |
XDefineCursor(display,w,cur); flush(); |
#endif |
#endif |
} |
} |
Line 386 static int flush_count; |
|
Line 679 static int flush_count; |
|
#define MAX_COUNT 32 |
#define MAX_COUNT 32 |
#endif |
#endif |
|
|
count_and_flush() { |
void count_and_flush(){ |
#if !defined(VISUAL) |
#if !defined(VISUAL) && !defined(__MINGW32__) |
if ( ++flush_count == MAX_COUNT ) |
if ( ++flush_count == MAX_COUNT ) |
flush(); |
flush(); |
#endif |
#endif |
} |
} |
|
|
flush() { |
void flush(){ |
#if !defined(VISUAL) |
#if !defined(VISUAL) && !defined(__MINGW32__) |
flush_count = 0; |
flush_count = 0; |
XFlush(display); |
XFlush(display); |
#endif |
#endif |