OpenXM_contrib2/asir2000/parse/eval.c - diff

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Diff for /OpenXM_contrib2/asir2000/parse/eval.c between version 1.10 and 1.15

version 1.10, 2001/08/21 01:39:39

version 1.15, 2001/09/20 04:08:21

Line 45

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

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/parse/eval.c,v 1.9 2001/08/20 09:50:34 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/parse/eval.c,v 1.14 2001/09/05 09:01:28 noro Exp $

#include <ctype.h>

#include "ca.h"

Line 82 FNODE f;

FNODE f1;

UP2 up2;

UP up;

UM um;

Obj obj;

GF2N gf2n;

GFPN gfpn;

GFSN gfsn;

#if defined(VISUAL)

if ( recv_intr ) {

Line 103 FNODE f;

Line 106 FNODE f;

case I_PAREN:

val = eval((FNODE)(FA0(f)));

break;

case I_MINUS:

a1 = eval((FNODE)(FA0(f)));

arf_chsgn((Obj)a1,&obj);

val = (pointer)obj;

break;

case I_BOP:

a1 = eval((FNODE)FA1(f)); a2 = eval((FNODE)FA2(f));

(*((ARF)FA0(f))->fp)(CO,a1,a2,&val);

Line 244 FNODE f;

Line 252 FNODE f;

a = eval((FNODE)FA0(f1)); ind = (NODE)FA1(f1);

evalnodebody(ind,&tn);

putarray(a,tn,val = eval((FNODE)FA1(f)));

} else {

error("eval : invalid assignment");

}

break;

case I_ANS:

Line 259 FNODE f;

Line 269 FNODE f;

break;

case I_GFPNGEN:

up = UPALLOC(1);

up->d=1;

DEG(up)=1;

up->c[0] = 0;

COEF(up)[0] = 0;

up->c[1] = (Num)ONELM;

COEF(up)[1] = (Num)ONELM;

MKGFPN(up,gfpn);

val = (pointer)gfpn;

break;

case I_GFSNGEN:

um = UMALLOC(1);

DEG(um) = 1;

COEF(um)[0] = 0;

COEF(um)[1] = _onesf();

MKGFSN(um,gfsn);

val = (pointer)gfsn;

break;

case I_STR:

MKSTR(str,FA0(f)); val = (pointer)str; break;

case I_FORMULA:

Line 445 FNODE opt;

Line 463 FNODE opt;

LIST args;

pointer val;

int i,n,level;

NODE tn,sn,opts;

NODE tn,sn,opts,opt1;

VS pvs;

char errbuf[BUFSIZ];

static int stack_size;

static void *stack_base;

if ( f->id == A_UNDEF ) {

sprintf(errbuf,"evalf : %s undefined",NAME(f));

Line 479 FNODE opt;

Line 499 FNODE opt;

cur_binf = 0;

break;

case A_USR:

/* stack check */

#if !defined(VISUAL)

if ( !stack_size ) {

struct rlimit rl;

getrlimit(RLIMIT_STACK,&rl);

stack_size = rl.rlim_cur;

}

if ( !stack_base )

stack_base = (void *)GC_get_stack_base();

if ( (stack_base - (void *)&args) +0x100000 > stack_size )

error("stack overflow");

#endif

args = (LIST)eval(a);

if ( opt )

if ( opt ) {

opts = BDY((LIST)eval(opt));

else

/* opts = ["opt1",arg1],... */

opt1 = BDY((LIST)BDY(opts));

if ( !strcmp(BDY((STRING)BDY(opt1)),"option_list") ) {

* the special option specification:

* option_list=[["o1","a1"],...]

asir_assert(BDY(NEXT(opt1)),O_LIST,"evalf");

opts = BDY((LIST)BDY(NEXT(opt1)));

}

} else

opts = 0;

pvs = f->f.usrf->pvs;

if ( PVSS ) {

Line 767 NODE *dnp;

Line 809 NODE *dnp;

NEXT(n) = 0; *dnp = n0;

}

void gen_searchf(name,r)

char *name;

FUNC *r;

{

FUNC val;

searchf(sysf,name,&val);

if ( !val )

searchf(ubinf,name,&val);

if ( !val )

searchpf(name,&val);

if ( !val )

searchf(usrf,name,&val);

if ( !val )

appenduf(name,&val);

*r = val;

}

void searchf(fn,name,r)

NODE fn;

char *name;

Line 863 char *key;

Line 923 char *key;

{

NODE opts,opt;

Obj value;

LIST r;

extern Obj VOIDobj;

opts = CPVS->opt;

for ( ; opts; opts = NEXT(opts) ) {

if ( !key ) {

opt = BDY((LIST)BDY(opts));

MKLIST(r,opts);

if ( !strcmp(key,BDY((STRING)BDY(opt))) )

return (Obj)r;

return (Obj)BDY(NEXT(opt));

} else {

for ( ; opts; opts = NEXT(opts) ) {

asir_assert(BDY(opts),O_LIST,"getopt_from_cvps");

opt = BDY((LIST)BDY(opts));

if ( !strcmp(key,BDY((STRING)BDY(opt))) )

return (Obj)BDY(NEXT(opt));

}

return VOIDobj;

}

return VOIDobj;

}

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