OpenXM_contrib2/asir2000/plot/if.c - diff

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Diff for /OpenXM_contrib2/asir2000/plot/if.c between version 1.8 and 1.21

version 1.8, 2001/12/25 02:39:07

version 1.21, 2006/11/09 15:54:35

Line 45

* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/plot/if.c,v 1.7 2001/10/09 01:36:27 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/plot/if.c,v 1.20 2006/11/09 03:41:47 saito Exp $

#include "ca.h"

#include "parse.h"

Line 88 int plot(NODE arg)

P formula;

LIST xrange,yrange,zrange,wsize;

STRING wname;

V v;

formula = (P)ARG0(arg);

xrange = (LIST)ARG1(arg);

Line 97 int plot(NODE arg)

Line 98 int plot(NODE arg)

wname = (STRING)ARG5(arg);

can = canvas[id = search_canvas()];

n = BDY(xrange); can->vx = VR((P)BDY(n)); n = NEXT(n);

if ( xrange ) {

can->qxmin = (Q)BDY(n); n = NEXT(n); can->qxmax = (Q)BDY(n);

n = BDY(xrange); can->vx = VR((P)BDY(n)); n = NEXT(n);

can->xmin = ToReal(can->qxmin); can->xmax = ToReal(can->qxmax);

can->qxmin = (Q)BDY(n); n = NEXT(n); can->qxmax = (Q)BDY(n);

can->xmin = ToReal(can->qxmin); can->xmax = ToReal(can->qxmax);

}

if ( yrange ) {

n = BDY(yrange); can->vy = VR((P)BDY(n)); n = NEXT(n);

can->qymin = (Q)BDY(n); n = NEXT(n); can->qymax = (Q)BDY(n);

can->ymin = ToReal(can->qymin); can->ymax = ToReal(can->qymax);

if ( zrange ) {

}

n = NEXT(BDY(zrange));

if ( xrange && yrange )

can->zmin = ToReal(BDY(n)); n = NEXT(n); can->zmax = ToReal(BDY(n));

can->mode = zrange ? MODE_CONPLOT : MODE_IFPLOT;

if ( n = NEXT(n) )

else

can->nzstep = QTOS((Q)BDY(n));

can->mode = xrange ? MODE_PLOT : MODE_POLARPLOT;

else

can->nzstep = MAXGC;

if ( zrange ) {

can->mode = MODE_CONPLOT;

n = NEXT(BDY(zrange));

} else

can->zmin = ToReal(BDY(n));

can->mode = MODE_IFPLOT;

n = NEXT(n); can->zmax = ToReal(BDY(n));

} else

n = NEXT(n);

can->mode = MODE_PLOT;

if ( can->mode == MODE_CONPLOT )

can->nzstep = n ? QTOS((Q)BDY(n)) : MAXGC;

else {

/* XXX */

can->vx = VR((P)BDY(BDY(zrange)));

can->nzstep = n ? QTOS((Q)BDY(n)) : DEFAULTPOLARSTEP;

}

if ( !wsize ) {

can->width = DEFAULTWIDTH; can->height = DEFAULTHEIGHT;

} else {

Line 127 int plot(NODE arg)

Line 138 int plot(NODE arg)

else

can->wname = "";

can->formula = formula;

create_canvas(can);

if ( can->mode == MODE_PLOT ) {

plotcalc(can);

create_canvas(can);

plot_print(display,can);

} else

} else if ( can->mode == MODE_POLARPLOT ) {

polarplotcalc(can);

create_canvas(can);

plot_print(display,can);

} else {

create_canvas(can);

ifplotmain(can);

}

copy_to_canvas(can);

return id;

}

Line 156 int memory_plot(NODE arg,LIST *bytes)

Line 173 int memory_plot(NODE arg,LIST *bytes)

zrange = (LIST)ARG3(arg);

wsize = (LIST)ARG4(arg);

bzero((char *)&tmp_can,sizeof(tmp_can));

can = &tmp_can;

n = BDY(xrange); can->vx = VR((P)BDY(n)); n = NEXT(n);

can->qxmin = (Q)BDY(n); n = NEXT(n); can->qxmax = (Q)BDY(n);

Line 184 int memory_plot(NODE arg,LIST *bytes)

Line 202 int memory_plot(NODE arg,LIST *bytes)

}

can->wname = "";

can->formula = formula;

if ( can->mode == MODE_PLOT )

if ( can->mode == MODE_PLOT ) {

plotcalc(can);

else {

memory_print(can,&barray);

STOQ(can->width,qw); STOQ(can->height,qh);

n = mknode(3,qw,qh,barray);

MKLIST(*bytes,n);

} else {

width = can->width; height = can->height;

tabe = (double **)ALLOCA(width*sizeof(double *));

for ( i = 0; i < width; i++ )

Line 201 int memory_plot(NODE arg,LIST *bytes)

Line 223 int memory_plot(NODE arg,LIST *bytes)

int plotover(NODE arg)

{

int index;

int index, color;

P formula;

struct canvas *can;

struct canvas fakecan;

VL vl,vl0;

index = QTOS((Q)ARG0(arg));

formula = (P)ARG1(arg);

can = canvas[index];

color = can->color;

if ( !can->window )

return -1;

get_vars_recursive((Obj)formula,&vl);

Line 217 int plotover(NODE arg)

Line 239 int plotover(NODE arg)

if ( vl0->v->attr == (pointer)V_IND )

if ( vl->v != can->vx && vl->v != can->vy )

return -1;

if ( argc(arg) == 3 )

can->color = QTOS((Q)ARG2(arg));

else

can->color = 0;

#if !defined(VISUAL)

set_drawcolor(can->color);

#endif

current_can = can;

fakecan = *can; fakecan.formula = formula;

can->formula = formula;

if ( can->mode == MODE_PLOT ) {

plotcalc(&fakecan);

plotcalc(can);

plot_print(display,&fakecan);

plot_print(display,can);

} else

ifplotmain(&fakecan);

ifplotmain(can);

copy_to_canvas(&fakecan);

copy_to_canvas(can);

can->color = color;

#if !defined(VISUAL)

set_drawcolor(can->color);

#endif

return index;

}

Line 237 int drawcircle(NODE arg)

Line 270 int drawcircle(NODE arg)

Q ret;

LIST xyr;

Obj x,y,r;

int wx,wy,wr;

int wx,wy,wr,c;

struct canvas *can;

struct canvas fakecan;

index = QTOS((Q)ARG0(arg));

xyr = (LIST)ARG1(arg);

x = (Obj)ARG0(BDY(xyr)); y = (Obj)ARG1(BDY(xyr)); r = (Obj)ARG2(BDY(xyr));

c = QTOS((Q)ARG2(arg));

can = canvas[index];

if ( !can->window )

return -1;

else {

current_can = can;

set_drawcolor(c);

wx = (ToReal(x)-can->xmin)*can->width/(can->xmax-can->xmin);

wy = (can->ymax-ToReal(y))*can->height/(can->ymax-can->ymin);

wr = ToReal(r);

XFillArc(display,can->pix,colorGC,wx-wr/2,wy-wr/2,wr,wr,0,360*64);

XFillArc(display,can->pix,cdrawGC,wx-wr/2,wy-wr/2,wr,wr,0,360*64);

copy_to_canvas(can);

set_drawcolor(can->color);

return index;

}

#endif

Line 270 int draw_obj(NODE arg)

Line 305 int draw_obj(NODE arg)

index = QTOS((Q)ARG0(arg));

can = canvas[index];

if ( !can || !can->window ) {

if ( !can && closed_canvas[index] ) {

canvas[index] = closed_canvas[index];

closed_canvas[index] = 0;

can = canvas[index];

popup_canvas(index);

current_can = can;

} else if ( !can || (can && !can->window) ) {

set_lasterror("draw_obj : canvas does not exist");

return -1;

}

Line 284 int draw_obj(NODE arg)

Line 325 int draw_obj(NODE arg)

case 2: /* point */

x = (int)ToReal((Q)ARG0(obj)); y = (int)ToReal((Q)ARG1(obj));

draw_point(display,can,x,y,color);

MKRVECT2(vect,x,y); MKNODE(n,vect,can->history); can->history = n;

MKRVECT3(vect,x,y,color); MKNODE(n,vect,can->history);

can->history = n;

break;

case 3: /* circle */

x = (int)ToReal((Q)ARG0(obj)); y = (int)ToReal((Q)ARG1(obj));

r = (int)ToReal((Q)ARG2(obj));

MKRVECT3(vect,x,y,r); MKNODE(n,vect,can->history); can->history = n;

MKRVECT4(vect,x,y,r,color); MKNODE(n,vect,can->history);

can->history = n;

break;

case 4: /* line */

x = (int)ToReal((Q)ARG0(obj)); y = (int)ToReal((Q)ARG1(obj));

u = (int)ToReal((Q)ARG2(obj)); v = (int)ToReal((Q)ARG3(obj));

draw_line(display,can,x,y,u,v,color);

MKRVECT4(vect,x,y,u,v); MKNODE(n,vect,can->history); can->history = n;

MKRVECT5(vect,x,y,u,v,color); MKNODE(n,vect,can->history);

can->history = n;

break;

default:

set_lasterror("draw_obj : invalid request");

return -1;

}

#if !defined(VISUAL)

set_drawcolor(can->color);

#endif

return 0;

}

int draw_string(NODE arg)

{

int index,x,y;

char *str;

NODE pos;

struct canvas *can;

int color;

index = QTOS((Q)ARG0(arg));

can = canvas[index];

if ( !can && closed_canvas[index] ) {

canvas[index] = closed_canvas[index];

closed_canvas[index] = 0;

can = canvas[index];

popup_canvas(index);

current_can = can;

} else if ( !can || (can && !can->window) ) {

set_lasterror("draw_obj : canvas does not exist");

return -1;

}

pos = BDY((LIST)ARG1(arg));

str = BDY((STRING)ARG2(arg));

if ( argc(arg) == 4 )

color = QTOS((Q)ARG3(arg));

else

color = 0; /* black */

x = (int)ToReal((Q)ARG0(pos));

y = (int)ToReal((Q)ARG1(pos));

draw_character_string(display,can,x,y,str,color);

#if !defined(VISUAL)

set_drawcolor(can->color);

#endif

return 0;

}

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