/*
* Copyright (c) 1994-2000 FUJITSU LABORATORIES LIMITED
* All rights reserved.
*
* FUJITSU LABORATORIES LIMITED ("FLL") hereby grants you a limited,
* non-exclusive and royalty-free license to use, copy, modify and
* redistribute, solely for non-commercial and non-profit purposes, the
* computer program, "Risa/Asir" ("SOFTWARE"), subject to the terms and
* conditions of this Agreement. For the avoidance of doubt, you acquire
* only a limited right to use the SOFTWARE hereunder, and FLL or any
* third party developer retains all rights, including but not limited to
* copyrights, in and to the SOFTWARE.
*
* (1) FLL does not grant you a license in any way for commercial
* purposes. You may use the SOFTWARE only for non-commercial and
* non-profit purposes only, such as academic, research and internal
* business use.
* (2) The SOFTWARE is protected by the Copyright Law of Japan and
* international copyright treaties. If you make copies of the SOFTWARE,
* with or without modification, as permitted hereunder, you shall affix
* to all such copies of the SOFTWARE the above copyright notice.
* (3) An explicit reference to this SOFTWARE and its copyright owner
* shall be made on your publication or presentation in any form of the
* results obtained by use of the SOFTWARE.
* (4) In the event that you modify the SOFTWARE, you shall notify FLL by
* e-mail at risa-admin@sec.flab.fujitsu.co.jp of the detailed specification
* for such modification or the source code of the modified part of the
* SOFTWARE.
*
* THE SOFTWARE IS PROVIDED AS IS WITHOUT ANY WARRANTY OF ANY KIND. FLL
* MAKES ABSOLUTELY NO WARRANTIES, EXPRESSED, IMPLIED OR STATUTORY, AND
* EXPRESSLY DISCLAIMS ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF THIRD PARTIES'
* RIGHTS. NO FLL DEALER, AGENT, EMPLOYEES IS AUTHORIZED TO MAKE ANY
* MODIFICATIONS, EXTENSIONS, OR ADDITIONS TO THIS WARRANTY.
* UNDER NO CIRCUMSTANCES AND UNDER NO LEGAL THEORY, TORT, CONTRACT,
* OR OTHERWISE, SHALL FLL BE LIABLE TO YOU OR ANY OTHER PERSON FOR ANY
* DIRECT, INDIRECT, SPECIAL, INCIDENTAL, PUNITIVE OR CONSEQUENTIAL
* DAMAGES OF ANY CHARACTER, INCLUDING, WITHOUT LIMITATION, DAMAGES
* ARISING OUT OF OR RELATING TO THE SOFTWARE OR THIS AGREEMENT, DAMAGES
* FOR LOSS OF GOODWILL, WORK STOPPAGE, OR LOSS OF DATA, OR FOR ANY
* DAMAGES, EVEN IF FLL SHALL HAVE BEEN INFORMED OF THE POSSIBILITY OF
* SUCH DAMAGES, OR FOR ANY CLAIM BY ANY OTHER PARTY. EVEN IF A PART
* OF THE SOFTWARE HAS BEEN DEVELOPED BY A THIRD PARTY, THE THIRD PARTY
* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,
* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.
*
* $OpenXM: OpenXM_contrib2/asir2000/plot/plotf.c,v 1.23 2012/10/04 04:56:39 saito Exp $
*/
#include "ca.h"
#include "parse.h"
#include "ox.h"
#include "ifplot.h"
void Pifplot(NODE, Obj *), Pconplot(NODE, Obj *), Pplotover(NODE, Q *);
void Pplot(NODE, Obj *), Parrayplot(NODE, Q *), Pdrawcircle(NODE, Q *);
#if defined(INTERVAL)
void Pitvplot1(NODE, Obj *), itvplot_main1(NODE, Obj *); //NORMAL
void Pitvplot2(NODE, Obj *), itvplot_main2(NODE, Obj *); //TRANSFER
void Pitvplot3(NODE, Obj *), itvplot_main3(NODE, Obj *); //RECURSION
void Pitvplot4(NODE, Obj *), itvplot_main4(NODE, Obj *); //RECURSION+TRANSFER
void Pitvplot(NODE, Obj *), itvplot_main(NODE, Obj *); //NEWTYPE
void Pobj_cp(NODE, Obj *);
void Pineqn(NODE, Obj *), Pineqnor(NODE, Obj *), Pineqnand(NODE, Obj *);
void Pineqnxor(NODE, Obj *), Pmemory_ineqn(NODE, Obj *);
void ineqn_main(NODE, int, Obj *);
void ineqn_main_op(NODE, int, int, Obj *);
#endif
void Ppolarplot(NODE, Q *);
void Pmemory_ifplot(NODE, Obj *), Pmemory_conplot(NODE, Obj *);
void Pmemory_plot(NODE, Obj *);
void Popen_canvas(NODE, Q *), Pclear_canvas(NODE, Q *), Pdraw_obj(NODE, Q *);
void Pdraw_string(NODE, Q *);
void Pox_rpc(), Pox_cmo_rpc();
void ifplot_main(NODE, int, Obj *);
void conplot_main(NODE, int, Obj *);
void plot_main(NODE, int, Obj *);
struct ftab plot_tab[] = {
{"ifplot",Pifplot,-7},
{"memory_ifplot",Pmemory_ifplot,-6},
#if defined(INTERVAL)
{"itvplot1",Pitvplot1,-7},
{"itvplot2",Pitvplot2,-7},
{"itvplot3",Pitvplot3,-7},
{"itvplot4",Pitvplot4,-7},
{"itvplot",Pitvplot,-7},
{"ineqn",Pineqn,-8},
{"ineqnor",Pineqnor,-7},
{"ineqnand",Pineqnand,-7},
{"ineqnxor",Pineqnxor,-7},
{"memory_ineqn",Pmemory_ineqn,-6},
{"obj_cp",Pobj_cp,4},
#endif
{"conplot",Pconplot,-8},
{"memory_conplot",Pmemory_conplot,-7},
{"plot",Pplot,-6},
{"memory_plot",Pmemory_plot,-5},
{"polarplot",Ppolarplot,-6},
{"plotover",Pplotover,-4},
{"drawcircle",Pdrawcircle,6},
{"open_canvas",Popen_canvas,-3},
{"clear_canvas",Pclear_canvas,2},
{"draw_obj",Pdraw_obj,-4},
{"draw_string",Pdraw_string,-5},
{0,0,0},
};
void Popen_canvas(NODE arg,Q *rp)
{
Q w300,s_id;
LIST geom;
int stream;
NODE n,n0;
STRING fname,wname;
geom = 0; wname = 0; stream = -1;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) )
stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_LIST:
geom = (LIST)BDY(arg);
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("open_canvas : invalid argument"); break;
}
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
MKSTR(fname,"open_canvas");
arg = mknode(4,s_id,fname,geom,wname);
Pox_cmo_rpc(arg,rp);
*rp = s_id;
}
void Pifplot(NODE arg,Obj *rp)
{
ifplot_main(arg,0,rp);
}
void Pmemory_ifplot(NODE arg,Obj *rp)
{
ifplot_main(arg,1,rp);
}
void ifplot_main(NODE arg,int is_memory, Obj *rp)
{
Q m2,p2,w300,s_id;
NODE defrange;
LIST xrange,yrange,range[2],list,geom;
VL vl,vl0;
V v[2],av[2];
int stream,ri,i,sign;
P poly;
P var;
NODE n,n0;
STRING fname,wname;
Obj t;
STOQ(-2,m2); STOQ(2,p2);
MKNODE(n,p2,0); MKNODE(defrange,m2,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = v[1] = 0;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) ) stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_P:
poly = (P)BDY(arg);
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 2 ) error("ifplot : invalid argument");
else v[i++] = vl0->v;
break;
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 1 ) error("ifplot : invalid argument");
else range[ri++] = list;
else geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("ifplot : invalid argument"); break;
}
if ( !poly ) error("ifplot : invalid argument");
switch ( ri ) {
case 0:
if ( !v[1] ) error("ifplot : please specify all variables");
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
break;
case 1:
if ( !v[1] ) error("ifplot : please specify all variables");
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] ) {
xrange = range[0];
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
} else if ( v[1] == av[0] ) {
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
yrange = range[0];
} else error("ifplot : invalid argument");
break;
case 2:
av[0] = VR((P)BDY(BDY(range[0])));
av[1] = VR((P)BDY(BDY(range[1])));
if ( ((v[0] == av[0]) && (!v[1] || v[1] == av[1])) ||
((v[0] == av[1]) && (!v[1] || v[1] == av[0])) ) {
xrange = range[0]; yrange = range[1];
} else error("ifplot : invalid argument");
break;
default:
error("ifplot : cannot happen"); break;
}
/* ifplot in ox_plot requires
[s_id (Q),
formula (Obj),
xrange=[x,xmin,xmax] (LIST),
yrange=[y,ymin,ymax] (LIST),
zrange=0,
geom=[xsize,ysize] (LIST),
wname=name (STRING)]
*/
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
if ( is_memory ) {
MKSTR(fname,"memory_plot");
arg = mknode(8,s_id,fname,poly,xrange,yrange,0,geom);
Pox_rpc(arg,&t);
arg = mknode(1,s_id);
Pox_pop_cmo(arg,rp);
} else {
MKSTR(fname,"plot");
arg = mknode(8,s_id,fname,poly,xrange,yrange,0,geom,wname);
Pox_rpc(arg,&t);
*rp = (Obj)s_id;
}
}
#if defined(INTERVAL)
void Pitvplot(NODE arg, Obj *rp)
{
itvplot_main(arg, rp);
}
void itvplot_main(NODE arg, Obj *rp)
{
Q m2,p2,w300,s_id, itvsize;
NODE defrange;
LIST xrange,yrange,range[2],list,geom;
VL vl,vl0;
V v[2],av[2];
int stream,ri,i,sign;
P poly;
P var;
NODE n,n0;
STRING fname,wname;
Obj t;
STOQ(-2,m2); STOQ(2,p2);
MKNODE(n,p2,0); MKNODE(defrange,m2,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = v[1] = 0;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) ) stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_P:
poly = (P)BDY(arg);
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 2 ) error("itvplot : invalid argument");
else v[i++] = vl0->v;
break;
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 1 ) error("itvplot : invalid argument");
else range[ri++] = list;
else geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("itvplot : invalid argument"); break;
}
if ( !poly ) error("itvplot : invalid argument");
switch ( ri ) {
case 0:
if ( !v[1] ) error("itvplot : please specify all variables");
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
break;
case 1:
if ( !v[1] ) error("itvplot : please specify all variables");
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] ) {
xrange = range[0];
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
} else if ( v[1] == av[0] ) {
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
yrange = range[0];
} else error("itvplot : invalid argument");
break;
case 2:
av[0] = VR((P)BDY(BDY(range[0])));
av[1] = VR((P)BDY(BDY(range[1])));
if ( ((v[0] == av[0]) && (!v[1] || v[1] == av[1])) ||
((v[0] == av[1]) && (!v[1] || v[1] == av[0])) ) {
xrange = range[0]; yrange = range[1];
} else error("itvplot : invalid argument");
break;
default:
error("itvplot : cannot happen"); break;
}
/* itvplot in ox_plot requires
[s_id (Q),
formula (Obj),
xrange=[x,xmin,xmax] (LIST),
yrange=[y,ymin,ymax] (LIST),
zrange=0,
geom=[xsize,ysize] (LIST),
wname=name (STRING)]
*/
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
MKSTR(fname,"itvifplot");
STOQ(Itvplot, itvsize);
arg = mknode(9,s_id,fname,poly,xrange,yrange,0,geom,wname,itvsize);
Pox_rpc(arg,&t);
*rp = (Obj)s_id;
}
void Pitvplot1(NODE arg, Obj *rp)
{
itvplot_main1(arg, rp);
}
void Pitvplot2(NODE arg, Obj *rp)
{
itvplot_main2(arg, rp);
}
void Pitvplot3(NODE arg, Obj *rp)
{
itvplot_main3(arg, rp);
}
void Pitvplot4(NODE arg, Obj *rp)
{
itvplot_main4(arg, rp);
}
// NORMAL type
void itvplot_main1(NODE arg, Obj *rp)
{
Q m2,p2,w300,s_id;
NODE defrange;
LIST xrange,yrange,range[2],list,geom;
VL vl,vl0;
V v[2],av[2];
int stream,ri,i,sign;
P poly;
P var;
NODE n,n0;
STRING fname,wname;
Obj t;
STOQ(-2,m2); STOQ(2,p2);
MKNODE(n,p2,0); MKNODE(defrange,m2,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = v[1] = 0;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) ) stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_P:
poly = (P)BDY(arg);
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 2 ) error("itvplot : invalid argument");
else v[i++] = vl0->v;
break;
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 1 ) error("itvplot : invalid argument");
else range[ri++] = list;
else geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("itvplot : invalid argument"); break;
}
if ( !poly ) error("itvplot : invalid argument");
switch ( ri ) {
case 0:
if ( !v[1] ) error("itvplot : please specify all variables");
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
break;
case 1:
if ( !v[1] ) error("itvplot : please specify all variables");
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] ) {
xrange = range[0];
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
} else if ( v[1] == av[0] ) {
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
yrange = range[0];
} else error("itvplot : invalid argument");
break;
case 2:
av[0] = VR((P)BDY(BDY(range[0])));
av[1] = VR((P)BDY(BDY(range[1])));
if ( ((v[0] == av[0]) && (!v[1] || v[1] == av[1])) ||
((v[0] == av[1]) && (!v[1] || v[1] == av[0])) ) {
xrange = range[0]; yrange = range[1];
} else error("itvplot : invalid argument");
break;
default:
error("itvplot : cannot happen"); break;
}
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
MKSTR(fname,"itvplot1");
arg = mknode(8,s_id,fname,poly,xrange,yrange,0,geom,wname);
Pox_rpc(arg,&t);
*rp = (Obj)s_id;
}
// TRANSFER TYPE
void itvplot_main2(NODE arg, Obj *rp)
{
Q m2,p2,w300,s_id;
NODE defrange;
LIST xrange,yrange,range[2],list,geom;
VL vl,vl0;
V v[2],av[2];
int stream,ri,i,sign;
P poly;
P var;
NODE n,n0;
STRING fname,wname;
Obj t;
STOQ(-2,m2); STOQ(2,p2);
MKNODE(n,p2,0); MKNODE(defrange,m2,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = v[1] = 0;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) )
stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_P:
poly = (P)BDY(arg);
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 2 )
error("itvplot : invalid argument");
else
v[i++] = vl0->v;
break;
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 1 )
error("itvplot : invalid argument");
else
range[ri++] = list;
else
geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("itvplot : invalid argument"); break;
}
if ( !poly )
error("itvplot : invalid argument");
switch ( ri ) {
case 0:
if ( !v[1] )
error("itvplot : please specify all variables");
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
break;
case 1:
if ( !v[1] )
error("itvplot : please specify all variables");
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] ) {
xrange = range[0];
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
} else if ( v[1] == av[0] ) {
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
yrange = range[0];
} else
error("itvplot : invalid argument");
break;
case 2:
av[0] = VR((P)BDY(BDY(range[0])));
av[1] = VR((P)BDY(BDY(range[1])));
if ( ((v[0] == av[0]) && (!v[1] || v[1] == av[1])) ||
((v[0] == av[1]) && (!v[1] || v[1] == av[0])) ) {
xrange = range[0]; yrange = range[1];
} else
error("itvplot : invalid argument");
break;
default:
error("itvplot : cannot happen"); break;
}
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
MKSTR(fname,"itvplot2");
arg = mknode(8,s_id,fname,poly,xrange,yrange,0,geom,wname);
Pox_rpc(arg,&t);
*rp = (Obj)s_id;
}
// RECURSION TYPE
void itvplot_main3(NODE arg, Obj *rp)
{
Q m2,p2,w300,s_id, itvsize;
NODE defrange;
LIST xrange,yrange,range[2],list,geom;
VL vl,vl0;
V v[2],av[2];
int stream,ri,i,sign;
P poly;
P var;
NODE n,n0;
STRING fname,wname;
Obj t;
STOQ(-2,m2); STOQ(2,p2);
MKNODE(n,p2,0); MKNODE(defrange,m2,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = v[1] = 0;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) )
stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_P:
poly = (P)BDY(arg);
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 2 )
error("itvplot : invalid argument");
else
v[i++] = vl0->v;
break;
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 1 )
error("itvplot : invalid argument");
else
range[ri++] = list;
else
geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("itvplot : invalid argument"); break;
}
if ( !poly )
error("itvplot : invalid argument");
switch ( ri ) {
case 0:
if ( !v[1] )
error("itvplot : please specify all variables");
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
break;
case 1:
if ( !v[1] )
error("itvplot : please specify all variables");
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] ) {
xrange = range[0];
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
} else if ( v[1] == av[0] ) {
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
yrange = range[0];
} else
error("itvplot : invalid argument");
break;
case 2:
av[0] = VR((P)BDY(BDY(range[0])));
av[1] = VR((P)BDY(BDY(range[1])));
if ( ((v[0] == av[0]) && (!v[1] || v[1] == av[1])) ||
((v[0] == av[1]) && (!v[1] || v[1] == av[0])) ) {
xrange = range[0]; yrange = range[1];
} else
error("itvplot : invalid argument");
break;
default:
error("itvplot : cannot happen"); break;
}
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
MKSTR(fname,"itvplot3");
STOQ(Itvplot, itvsize);
arg = mknode(9,s_id,fname,poly,xrange,yrange,0,geom,wname,itvsize);
Pox_rpc(arg,&t);
*rp = (Obj)s_id;
}
// RECURSION and TRANSFER TYPE
void itvplot_main4(NODE arg, Obj *rp)
{
Q m2,p2,w300,s_id,itvsize;
NODE defrange;
LIST xrange,yrange,range[2],list,geom;
VL vl,vl0;
V v[2],av[2];
int stream,ri,i,sign;
P poly;
P var;
NODE n,n0;
STRING fname,wname;
Obj t;
STOQ(-2,m2); STOQ(2,p2);
MKNODE(n,p2,0); MKNODE(defrange,m2,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = v[1] = 0;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) )
stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_P:
poly = (P)BDY(arg);
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 2 )
error("itvplot : invalid argument");
else
v[i++] = vl0->v;
break;
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 1 )
error("itvplot : invalid argument");
else
range[ri++] = list;
else
geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("itvplot : invalid argument"); break;
}
if ( !poly )
error("itvplot : invalid argument");
switch ( ri ) {
case 0:
if ( !v[1] )
error("itvplot : please specify all variables");
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
break;
case 1:
if ( !v[1] )
error("itvplot : please specify all variables");
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] ) {
xrange = range[0];
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
} else if ( v[1] == av[0] ) {
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
yrange = range[0];
} else
error("itvplot : invalid argument");
break;
case 2:
av[0] = VR((P)BDY(BDY(range[0])));
av[1] = VR((P)BDY(BDY(range[1])));
if ( ((v[0] == av[0]) && (!v[1] || v[1] == av[1])) ||
((v[0] == av[1]) && (!v[1] || v[1] == av[0])) ) {
xrange = range[0]; yrange = range[1];
} else
error("itvplot : invalid argument");
break;
default:
error("itvplot : cannot happen"); break;
}
/* itvplot in ox_plot requires
[s_id (Q),
formula (Obj),
xrange=[x,xmin,xmax] (LIST),
yrange=[y,ymin,ymax] (LIST),
zrange=0,
geom=[xsize,ysize] (LIST),
wname=name (STRING)]
*/
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
MKSTR(fname,"itvplot4");
STOQ(Itvplot, itvsize);
arg = mknode(9,s_id,fname,poly,xrange,yrange,0,geom,wname,itvsize);
Pox_rpc(arg,&t);
*rp = (Obj)s_id;
}
void Pineqn(NODE arg, Obj *rp)
{
ineqn_main(arg, 1, rp);
}
void ineqn_main(NODE arg,int is_memory, Obj *rp)
{
Q s_id, m2, p2, w300, color;
NODE defrange, n, n0;
P poly, var;
VL vl, vl0;
V v[2], av[2];
LIST xrange, yrange, range[2], list, geom;
int stream, ri, i,sign;
STRING fname,wname;
STOQ(-2,m2); STOQ(2,p2);
MKNODE(n,p2,0); MKNODE(defrange,m2,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = v[1] = 0;
/* get polynomial */
if ( !(OID(BDY(arg)) == O_P || (OID(BDY(arg)) ==O_R)) )
error("ineqn : first argument must be a polynormial");
else {
poly = (P)BDY(arg);
/* get vars */
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 2 )
error(
"ineqn : first argument must be a univariate or bivariate polynormial");
else
v[i++] = vl0->v;
}
/* get color */
arg = NEXT(arg);
if ( OID(BDY(arg)) != O_N )
error("ineqn : second argument must be color code");
else
color = (Q)BDY(arg);
/* other argument is optional */
arg = NEXT(arg);
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) )
stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 1 )
error("ineqn : invalid list argument");
else
range[ri++] = list;
else
geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("ineqn : invalid argument"); break;
}
switch ( ri ) {
case 0:
if ( !v[1] ) error("ineqn : please specify all variables");
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
break;
case 1:
if ( !v[1] ) error("ineqn : please specify all variables");
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] ) {
xrange = range[0];
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
} else if ( v[1] == av[0] ) {
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
yrange = range[0];
} else error("ineqn : invalid argument");
break;
case 2:
av[0] = VR((P)BDY(BDY(range[0])));
av[1] = VR((P)BDY(BDY(range[1])));
if ( ((v[0] == av[0]) && (!v[1] || v[1] == av[1])) ||
((v[0] == av[1]) && (!v[1] || v[1] == av[0])) ) {
xrange = range[0]; yrange = range[1];
} else error("ineqn : invalid argument");
break;
default:
error("ineqn : cannot happen"); break;
}
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
MKSTR(fname, "ineqn");
arg = mknode(8, s_id, fname, poly, color, xrange, yrange, geom, wname);
Pox_cmo_rpc(arg,rp);
*rp = (Obj)s_id;
}
void Pineqnor(NODE arg, Obj *rp)
{
ineqn_main_op(arg, 7, 0, rp);
}
void Pineqnand(NODE arg, Obj *rp)
{
ineqn_main_op(arg, 1, 0, rp);
}
void Pineqnxor(NODE arg, Obj *rp)
{
ineqn_main_op(arg, 6, 0, rp);
}
void Pmemory_ineqn(NODE arg, Obj *rp)
{
ineqn_main(arg, 1, rp);
}
void ineqn_main_op(NODE arg, int op, int is_memory, Obj *rp)
{
Q s_id, index, color, op_code;
P poly;
STRING fname;
Obj t;
poly = (P)ARG0(arg);
color = (Q)ARG1(arg);
s_id = (Q)ARG2(arg);
index = (Q)ARG3(arg);
STOQ( op, op_code);
MKSTR(fname, "ineqnover");
arg = mknode(6, s_id, fname, index, poly, color, op_code);
Pox_rpc(arg, &t);
*rp = (Obj)s_id;
}
void Pobj_cp(NODE arg, Obj *rp)
{
Q sysid, index_A, index_B, op_code;
STRING fname;
Obj t;
sysid = (Q)ARG0(arg);
index_A = (Q)ARG1(arg);
index_B = (Q)ARG2(arg);
op_code = (Q)ARG3(arg);
MKSTR(fname, "objcp");
arg = mknode(5, sysid, fname, index_A, index_B, op_code);
Pox_rpc(arg, &t);
*rp = (Obj)sysid;
}
#endif
void Pconplot(NODE arg,Obj *rp)
{
conplot_main(arg, 0, rp);
}
void Pmemory_conplot(NODE arg,Obj *rp)
{
conplot_main(arg,1,rp);
}
void conplot_main(NODE arg,int is_memory,Obj *rp)
{
Q m2,p2,w300,s_id;
NODE defrange;
LIST xrange,yrange,zrange,range[3],list,geom;
VL vl,vl0;
V v[2],av[2];
int stream,ri,i;
P poly;
P var;
NODE n,n0;
STRING fname,wname;
Obj t;
STOQ(-2,m2); STOQ(2,p2);
MKNODE(n,p2,0); MKNODE(defrange,m2,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = v[1] = 0;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) )
stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_P:
poly = (P)BDY(arg);
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 2 )
error("ifplot : invalid argument");
else
v[i++] = vl0->v;
break;
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 2 )
error("ifplot : invalid argument");
else
range[ri++] = list;
else
geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("ifplot : invalid argument"); break;
}
if ( !poly )
error("ifplot : invalid argument");
switch ( ri ) {
case 0:
if ( !v[1] )
error("ifplot : please specify all variables");
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
MKNODE(n,0,defrange); MKLIST(zrange,n);
break;
case 1:
if ( !v[1] )
error("ifplot : please specify all variables");
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] ) {
xrange = range[0];
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
MKNODE(n,0,defrange); MKLIST(zrange,n);
} else if ( v[1] == av[0] ) {
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
yrange = range[0];
MKNODE(n,0,defrange); MKLIST(zrange,n);
} else {
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
MKV(v[1],var); MKNODE(n,var,defrange); MKLIST(yrange,n);
zrange = range[0];
}
break;
case 2: case 3:
av[0] = VR((P)BDY(BDY(range[0])));
av[1] = VR((P)BDY(BDY(range[1])));
if ( ((v[0] == av[0]) && (!v[1] || v[1] == av[1])) ||
((v[0] == av[1]) && (!v[1] || v[1] == av[0])) ) {
xrange = range[0]; yrange = range[1];
if ( ri == 3 )
zrange = range[2];
else {
MKNODE(n,0,defrange); MKLIST(zrange,n);
}
} else
error("ifplot : invalid argument");
break;
default:
error("ifplot : cannot happen"); break;
}
/* conplot in ox_plot requires
[s_id (Q),
formula (Obj),
xrange=[x,xmin,xmax] (LIST),
yrange=[y,ymin,ymax] (LIST),
zrange=[z,zmin,zmax] (LIST),
geom=[xsize,ysize] (LIST),
wname=name (STRING)]
*/
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
if ( is_memory ) {
MKSTR(fname,"memory_plot");
arg = mknode(7,s_id,fname,poly,xrange,yrange,zrange,geom);
Pox_rpc(arg,&t);
arg = mknode(1,s_id);
Pox_pop_cmo(arg,rp);
} else {
MKSTR(fname,"plot");
arg = mknode(8,s_id,fname,poly,xrange,yrange,zrange,geom,wname);
Pox_rpc(arg,&t);
*rp = (Obj)s_id;
}
}
void Pplot(NODE arg,Obj *rp)
{
plot_main(arg,0,rp);
}
void Pmemory_plot(NODE arg,Obj *rp)
{
plot_main(arg,1,rp);
}
void plot_main(NODE arg,int is_memory,Obj *rp)
{
Q m2,p2,w300,s_id;
NODE defrange;
LIST xrange,range[1],list,geom;
VL vl,vl0;
V v[1],av[1];
int stream,ri,i;
P poly;
P var;
NODE n,n0;
STRING fname,wname;
Obj t;
STOQ(-2,m2); STOQ(2,p2);
MKNODE(n,p2,0); MKNODE(defrange,m2,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = 0;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) )
stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_P: case O_R:
poly = (P)BDY(arg);
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 1 )
error("ifplot : invalid argument");
else
v[i++] = vl0->v;
if ( i != 1 )
error("ifplot : invalid argument");
break;
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 0 )
error("plot : invalid argument");
else
range[ri++] = list;
else
geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("plot : invalid argument"); break;
}
if ( !poly )
error("plot : invalid argument");
switch ( ri ) {
case 0:
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(xrange,n);
break;
case 1:
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] )
xrange = range[0];
else
error("plot : invalid argument");
break;
default:
error("plot : cannot happen"); break;
}
/* conplot in ox_plot requires
[s_id (Q),
formula (Obj),
xrange=[x,xmin,xmax] (LIST),
yrange=0,
zrange=0,
geom=[xsize,ysize] (LIST),
wname=name (STRING)]
*/
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
if ( is_memory ) {
MKSTR(fname,"memory_plot");
arg = mknode(7,s_id,fname,poly,xrange,NULLP,NULLP,geom);
Pox_rpc(arg,&t);
arg = mknode(1,s_id);
Pox_pop_cmo(arg,rp);
} else {
MKSTR(fname,"plot");
arg = mknode(8,s_id,fname,poly,xrange,NULLP,NULLP,geom,wname);
Pox_rpc(arg,&t);
*rp = (Obj)s_id;
}
}
#define Pi 3.14159265358979323846264
void Ppolarplot(NODE arg,Q *rp)
{
Q m2,p2,w300,s_id;
NODE defrange;
LIST zrange,range[1],list,geom;
VL vl,vl0;
V v[1],av[1];
int stream,ri,i;
P poly;
P var;
NODE n,n0;
STRING fname,wname;
Real pi2;
Obj t;
MKReal(2*Pi,pi2);
MKNODE(n,pi2,0); MKNODE(defrange,0,n);
poly = 0; vl = 0; geom = 0; wname = 0; stream = -1; ri = 0;
v[0] = 0;
for ( ; arg; arg = NEXT(arg) )
if ( !BDY(arg) )
stream = 0;
else
switch ( OID(BDY(arg)) ) {
case O_P: case O_R:
poly = (P)BDY(arg);
get_vars_recursive((Obj)poly,&vl);
for ( vl0 = vl, i = 0; vl0; vl0 = NEXT(vl0) )
if ( vl0->v->attr == (pointer)V_IND )
if ( i >= 1 )
error("polarplot : invalid argument");
else
v[i++] = vl0->v;
if ( i != 1 )
error("polarplot : invalid argument");
break;
case O_LIST:
list = (LIST)BDY(arg);
if ( OID(BDY(BDY(list))) == O_P )
if ( ri > 0 )
error("polarplot : invalid argument");
else
range[ri++] = list;
else
geom = list;
break;
case O_N:
stream = QTOS((Q)BDY(arg)); break;
case O_STR:
wname = (STRING)BDY(arg); break;
default:
error("polarplot : invalid argument"); break;
}
if ( !poly )
error("polarplot : invalid argument");
switch ( ri ) {
case 0:
MKV(v[0],var); MKNODE(n,var,defrange); MKLIST(zrange,n);
break;
case 1:
av[0] = VR((P)BDY(BDY(range[0])));
if ( v[0] == av[0] )
zrange = range[0];
else
error("polarplot : invalid argument");
break;
default:
error("polarplot : cannot happen"); break;
}
stream = validate_ox_plot_stream(stream);
STOQ(stream,s_id);
if ( !geom ) {
STOQ(300,w300);
MKNODE(n0,w300,0); MKNODE(n,w300,n0); MKLIST(geom,n);
}
MKSTR(fname,"plot");
arg = mknode(8,s_id,fname,poly,NULLP,NULLP,zrange,geom,wname);
Pox_rpc(arg,&t);
*rp = s_id;
}
void Pplotover(NODE arg,Q *rp)
{
Q s_id,index;
P poly;
STRING fname;
Obj t;
poly = (P)ARG0(arg);
s_id = (Q)ARG1(arg);
index = (Q)ARG2(arg);
MKSTR(fname,"plotover");
if ( argc(arg) == 4 )
arg = mknode(5,s_id,fname,index,poly,(Q)ARG3(arg));
else
arg = mknode(4,s_id,fname,index,poly);
Pox_rpc(arg,&t);
*rp = s_id;
}
/* arg = [x,y,r,s_id,index] */
void Pdrawcircle(NODE arg,Q *rp)
{
Q s_id,index;
Obj x,y,r,c;
STRING fname;
NODE n;
LIST pos;
Obj t;
x = (Obj)ARG0(arg);
y = (Obj)ARG1(arg);
r = (Obj)ARG2(arg);
c = (Obj)ARG3(arg);
s_id = (Q)ARG4(arg);
index = (Q)ARG5(arg);
MKSTR(fname,"drawcircle");
n = mknode(3,x,y,r,c); MKLIST(pos,n);
arg = mknode(5,s_id,fname,index,pos,c);
Pox_rpc(arg,&t);
*rp = s_id;
}
/* draw_obj(s_id,cindex,point|line); point = [x,y], line = [xa,ya,xb,yb] */
void Pdraw_obj(NODE arg,Q *rp)
{
static STRING fname;
Q s_id,index;
LIST obj;
Obj t;
if ( !fname ) {
MKSTR(fname,"draw_obj");
}
s_id = (Q)ARG0(arg);
index = (Q)ARG1(arg);
obj = (LIST)ARG2(arg);
/* ARG3(arg) = color */
if ( argc(arg) == 4 )
arg = mknode(5,s_id,fname,index,obj,ARG3(arg));
else
arg = mknode(4,s_id,fname,index,obj);
Pox_cmo_rpc(arg,&t);
*rp = s_id;
}
/* draw_string(s_id,cindex,pos,string,[,color]); pos=[x,y] */
void Pdraw_string(NODE arg,Q *rp)
{
static STRING fname;
STRING str;
Q s_id,index;
LIST pos;
Obj t;
if ( !fname ) {
MKSTR(fname,"draw_string");
}
s_id = (Q)ARG0(arg);
index = (Q)ARG1(arg);
pos = (LIST)ARG2(arg);
str = (STRING)ARG3(arg);
/* ARG4(arg) = color */
if ( argc(arg) == 5 )
arg = mknode(6,s_id,fname,index,pos,str,ARG4(arg));
else
arg = mknode(5,s_id,fname,index,pos,str);
Pox_cmo_rpc(arg,&t);
*rp = s_id;
}
void Pclear_canvas(NODE arg,Q *rp)
{
static STRING fname;
Q s_id,index;
Obj t;
if ( !fname ) {
MKSTR(fname,"clear_canvas");
}
s_id = (Q)ARG0(arg);
index = (Q)ARG1(arg);
arg = mknode(3,s_id,fname,index);
Pox_cmo_rpc(arg,&t);
*rp = s_id;
}
#if 0
void Parrayplot(NODE arg,Obj *rp)
{
int s;
int id;
if ( ID((Obj)ARG0(arg)) == O_VECT && ID((Obj)ARG1(arg)) == O_LIST ) {
s = current_s;
gensend(s,C_APLOT,0);
gensend(s,C_OBJ,ARG0(arg)); gensend(s,C_OBJ,ARG1(arg)); genflush(s);
}
genrecv(s,&id,rp);
}
#endif
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