OpenXM_contrib2/asir2000/plot/ox_plot.c - diff

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Diff for /OpenXM_contrib2/asir2000/plot/ox_plot.c between version 1.16 and 1.23

version 1.16, 2002/07/10 05:29:36

version 1.23, 2013/12/19 05:48:24

Line 45

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

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/plot/ox_plot.c,v 1.15 2001/12/27 07:51:18 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/plot/ox_plot.c,v 1.22 2011/08/10 04:51:58 saito Exp $

#include "ca.h"

#include "parse.h"

Line 53

#include "ifplot.h"

#include "version.h"

#include <signal.h>

#if PARI

#if defined(PARI)

#include "genpari.h"

#endif

Line 63 extern int asir_OperandStackSize;

extern Obj *asir_OperandStack;

extern int asir_OperandStackPtr;

/* environement is defined in libpari.a */

// environement is defined in libpari.a

#if !(PARI_VERSION_CODE > 131588)

extern jmp_buf environnement;

#endif

extern int do_message;

extern int ox_flushing;

Line 72 extern JMP_BUF ox_env;

Line 74 extern JMP_BUF ox_env;

extern MATHCAP my_mathcap;

extern char LastError[];

void create_error(ERR *,unsigned int ,char *);

void create_error(ERR *,unsigned int ,char *,LIST );

void ox_io_init();

void ox_asir_init(int,char **);

void ox_asir_init(int,char **,char *);

Obj asir_pop_one();

void asir_push_one(Obj);

void asir_end_flush();

Line 106 void ox_plot_main(int argc,char **argv)

Line 108 void ox_plot_main(int argc,char **argv)

int use_x;

#if !defined(VISUAL)

ox_asir_init(argc,argv);

ox_asir_init(argc,argv,"ox_plot");

use_x = init_plot_display(argc,argv);

use_x=init_plot_display(argc,argv);

if ( use_x )

if(use_x) ds=ConnectionNumber(display);

ds = ConnectionNumber(display);

else fprintf(stderr,"Entering no X mode\n");

else

fprintf(stderr,"Entering no X mode\n");

#endif

if ( do_message )

if(do_message)fprintf(stderr,"I'm an ox_plot, Version %d.\n",ASIR_VERSION);

fprintf(stderr,"I'm an ox_plot, Version %d.\n",ASIR_VERSION);

if ( SETJMP(ox_env) ) {

if(SETJMP(ox_env)){

while ( NEXT(asir_infile) )

while(NEXT(asir_infile))closecurrentinput();

closecurrentinput();

reset_current_computation();

ox_send_sync(0);

}

while ( 1 ) {

while (1){

#if defined(VISUAL)

process_ox();

#else

if ( ox_data_is_available(0) )

if(ox_data_is_available(0)) process_ox();

process_ox();

else if(use_x){

else if ( use_x ) {

FD_ZERO(&r);

FD_SET(3,&r); FD_SET(ds,&r);

select(FD_SETSIZE,&r,NULL,NULL,NULL);

if ( FD_ISSET(3,&r) )

if(FD_ISSET(3,&r)) process_ox();

process_ox();

else if(FD_ISSET(ds,&r)) process_xevent();

else if ( FD_ISSET(ds,&r) )

process_xevent();

}

#endif

}

static void process_ox()

static void process_ox(){

{

int id;

unsigned int cmd;

Obj obj;

Line 150 static void process_ox()

Line 144 static void process_ox()

unsigned int serial;

int ret;

serial = ox_recv(0,&id,&obj);

serial=ox_recv(0,&id,&obj);

if ( do_message )

if(do_message) fprintf(stderr,"#%d Got %s",serial,name_of_id(id));

fprintf(stderr,"#%d Got %s",serial,name_of_id(id));

switch (id){

switch ( id ) {

case OX_COMMAND:

cmd = ((USINT)obj)->body;

cmd=((USINT)obj)->body;

if ( ox_flushing )

if(ox_flushing) break;

break;

if(do_message) fprintf(stderr," %s\n",name_of_cmd(cmd));

if ( do_message )

if(ret=SETJMP(main_env)){

fprintf(stderr," %s\n",name_of_cmd(cmd));

if(ret==1){

if ( ret = SETJMP(main_env) ) {

create_error(&err,serial,LastError,0);

if ( ret == 1 ) {

create_error(&err,serial,LastError);

asir_push_one((Obj)err);

}

break;

Line 171 static void process_ox()

Line 162 static void process_ox()

break;

case OX_DATA:

case OX_LOCAL_OBJECT_ASIR:

if ( ox_flushing )

if(ox_flushing)break;

break;

if(do_message)fprintf(stderr," -> data pushed");

if ( do_message )

fprintf(stderr," -> data pushed");

asir_push_one(obj);

break;

case OX_SYNC_BALL:

asir_end_flush();

break;

default:

break;

}

if ( do_message )

if(do_message)fprintf(stderr,"\n");

fprintf(stderr,"\n");

}

static void asir_do_cmd(unsigned int cmd,unsigned int serial)

static void asir_do_cmd(unsigned int cmd,unsigned int serial){

{

MATHCAP client_mathcap;

LIST list;

int i;

Q q;

switch ( cmd ) {

switch (cmd){

case SM_dupErrors:

list = asir_GetErrorList();

list=asir_GetErrorList();

asir_push_one((Obj)list);

break;

case SM_getsp:

i = asir_OperandStackPtr+1;

i=asir_OperandStackPtr+1;

STOQ(i,q);

asir_push_one((Obj)q);

break;

Line 235 static void asir_do_cmd(unsigned int cmd,unsigned int

Line 222 static void asir_do_cmd(unsigned int cmd,unsigned int

asir_push_one((Obj)my_mathcap);

break;

case SM_setMathcap:

client_mathcap = (MATHCAP)asir_pop_one();

client_mathcap=(MATHCAP)asir_pop_one();

store_remote_mathcap(0,client_mathcap);

break;

case SM_nop:

default:

break;

}

static void asir_executeFunction(int serial)

static void asir_executeFunction(int serial){

{

char *fn;

char *func;

int argc,id;

int argc;

int id;

FUNC f;

Q ret;

VL vl;

Line 255 static void asir_executeFunction(int serial)

Line 241 static void asir_executeFunction(int serial)

NODE n,n1;

LIST bytes;

func = ((STRING)asir_pop_one())->body;

fn=((STRING)asir_pop_one())->body;

argc = (int)(((USINT)asir_pop_one())->body);

argc=(int)(((USINT)asir_pop_one())->body);

for(n=0;argc;argc--){

for ( n = 0; argc; argc-- ) {

NEXTNODE(n,n1);

BDY(n1) = (pointer)asir_pop_one();

BDY(n1)=(pointer)asir_pop_one();

}

if ( n )

if(n)NEXT(n1)=0;

NEXT(n1) = 0;

id=-1;

id = -1;

if(!strcmp(fn,"plot")){

if ( !strcmp(func,"plot") ) {

id=plot(n,MODE_PLOT);

id = plot(n);

STOQ(id,ret);

STOQ(id,ret); asir_push_one((Obj)ret);

asir_push_one((Obj)ret);

} else if ( !strcmp(func,"memory_plot") ) {

} else if(!strcmp(fn,"ifplot")){

memory_plot(n,&bytes); asir_push_one((Obj)bytes);

id=plot(n,MODE_IFPLOT);

} else if ( !strcmp(func,"arrayplot") ) {

STOQ(id,ret);

id = arrayplot(n);

asir_push_one((Obj)ret);

STOQ(id,ret); asir_push_one((Obj)ret);

} else if(!strcmp(fn,"conplot")){

} else if ( !strcmp(func,"open_canvas") ) {

id=plot(n,MODE_CONPLOT);

id = open_canvas(n);

STOQ(id,ret);

STOQ(id,ret); asir_push_one((Obj)ret);

asir_push_one((Obj)ret);

} else if ( !strcmp(func,"plotover") ) {

} else if(!strcmp(fn,"polarplot")){

id=plot(n,MODE_POLARPLOT);

STOQ(id,ret);

asir_push_one((Obj)ret);

} else if(!strcmp(fn,"memory_plot")){

memory_plot(n,&bytes);

asir_push_one((Obj)bytes);

} else if(!strcmp(fn,"arrayplot")){

id=arrayplot(n);

STOQ(id,ret);

asir_push_one((Obj)ret);

} else if(!strcmp(fn,"open_canvas")){

id=open_canvas(n);

STOQ(id,ret);

asir_push_one((Obj)ret);

} else if(!strcmp(fn,"plotover")){

plotover(n);

} else if ( !strcmp(func,"drawcircle") ) {

} else if(!strcmp(fn,"drawcircle")){

drawcircle(n);

} else if ( !strcmp(func,"draw_obj") ) {

} else if(!strcmp(fn,"draw_obj")){

if ( draw_obj(n) < 0 ) {

if(draw_obj(n) < 0 ){

create_error(&err,serial,LastError);

create_error(&err,serial,LastError,0);

asir_push_one((Obj)err);

}

} else if ( !strcmp(func,"draw_string") ) {

} else if(!strcmp(fn,"draw_string")){

if ( draw_string(n) < 0 ) {

if(draw_string(n) < 0 ){

create_error(&err,serial,LastError);

create_error(&err,serial,LastError,0);

asir_push_one((Obj)err);

}

} else if ( !strcmp(func,"clear_canvas") ) {

} else if(!strcmp(fn,"clear_canvas")){

clear_canvas(n);

// ifplotNG

} else if(!strcmp(fn,"objcp")){

id=objcp(n);

STOQ(id,ret);

asir_push_one((Obj)ret);

} else if(!(

strcmp(fn,"ifplotD")&strcmp(fn,"ifplotQ")&strcmp(fn,"ifplotB")&

strcmp(fn,"ineqnD")&strcmp(fn,"ineqnQ")&strcmp(fn,"ineqnB")&

strcmp(fn,"conplotD")&strcmp(fn,"conplotQ")&strcmp(fn,"conplotB"))){

id=ifplotNG(n,fn);

STOQ(id,ret);

asir_push_one((Obj)ret);

} else if(!(

strcmp(fn,"ineqnandD")&strcmp(fn,"ineqnandQ")&strcmp(fn,"ineqnandB")&

strcmp(fn,"ineqnorD")&strcmp(fn,"ineqnorQ")&strcmp(fn,"ineqnorB")&

strcmp(fn,"ineqnxorD")&strcmp(fn,"ineqnxorQ")&strcmp(fn,"ineqnxorB")&

strcmp(fn,"plotoverD")&strcmp(fn,"plotoverQ")&strcmp(fn,"plotoverB"))){

id=ifplotOP(n,fn);

STOQ(id,ret);

asir_push_one((Obj)ret);

#if defined(INTERVAL)

} else if(!strcmp(fn,"itvifplot")){

id=ifplotNG(n,fn);

STOQ(id,ret);

asir_push_one((Obj)ret);

#endif

}

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