OpenXM_contrib2/asir2000/builtin/strobj.c - diff

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Diff for /OpenXM_contrib2/asir2000/builtin/strobj.c between version 1.76 and 1.86

version 1.76, 2005/10/15 02:34:13

version 1.86, 2005/10/26 23:43:23

Line 45

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

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/builtin/strobj.c,v 1.75 2005/10/15 01:10:15 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/builtin/strobj.c,v 1.85 2005/10/26 11:07:50 noro Exp $

#include "ca.h"

#include "parse.h"

Line 64 struct TeXSymbol {

};

#define OPNAME(f) (((ARF)FA0(f))->name[0])

#define IS_ZERO(f) (((f)->id==I_FORMULA) && FA0(f)==0 )

#define IS_BINARYPWR(f) (((f)->id==I_BOP) &&(OPNAME(f)=='^'))

#define IS_NARYADD(f) (((f)->id==I_NARYOP) &&(OPNAME(f)=='+'))

#define IS_NARYMUL(f) (((f)->id==I_NARYOP) &&(OPNAME(f)=='*'))

Line 86 void Pflatten_quote();

Line 87 void Pflatten_quote();

void Pquote_is_integer(),Pquote_is_rational(),Pquote_is_number();

void Pquote_is_dependent(),Pquote_is_function();

void Pquote_normalize();

void Pquote_normalize_comp();

void Pquote_to_funargs(),Pfunargs_to_quote(),Pget_function_name();

void Pquote_unify(),Pget_quote_id(),Pquote_match_rewrite();

Line 125 struct ftab str_tab[] = {

Line 127 struct ftab str_tab[] = {

{"quote_is_dependent",Pquote_is_dependent,2},

{"quote_normalize",Pquote_normalize,-2},

{"quote_normalize_comp",Pquote_normalize_comp,2},

{"quote_to_nary",Pquote_to_nary,1},

{"quote_to_bin",Pquote_to_bin,2},

Line 662 void Pquote_match_rewrite(NODE arg,Obj *rp)

Line 665 void Pquote_match_rewrite(NODE arg,Obj *rp)

NEXTNODE(s0,s);

pair = BDY((LIST)BDY(t));

ind = (int)FA0((FNODE)BDY((QUOTE)BDY(pair)));

value = mkfnode(1,I_FORMULA,BDY(NEXT(pair)));

value = BDY((QUOTE)(BDY(NEXT(pair))));

BDY(s) = mknode(2,ind,value);

}

if ( s0 ) NEXT(s) = 0;

switch ( ac = argc(arg) ) {

case 3:

h = rewrite_fnode(BDY((QUOTE)ARG2(arg)),s0);

*rp = eval(h);

MKQUOTE(q,h); *rp = (Obj)q;

break;

case 4:

c = rewrite_fnode(BDY((QUOTE)ARG2(arg)),s0);

if ( eval(c) ) {

h = rewrite_fnode(BDY((QUOTE)ARG3(arg)),s0);

*rp = eval(h);

MKQUOTE(q,h); *rp = (Obj)q;

} else

*rp = VOIDobj;

break;

Line 1946 void Pquote_normalize(NODE arg,QUOTE *rp)

Line 1949 void Pquote_normalize(NODE arg,QUOTE *rp)

}

void Pquote_normalize_comp(NODE arg,Q *rp)

{

FNODE f1,f2;

int r;

f1 = BDY((QUOTE)ARG0(arg));

f2 = BDY((QUOTE)ARG1(arg));

f1 = fnode_normalize(f1,0);

f2 = fnode_normalize(f2,0);

r = fnode_normalize_comp(f1,f2);

STOQ(r,*rp);

}

int fnode_is_number(FNODE f)

{

Obj obj;

Line 2031 int fnode_is_integer(FNODE f)

Line 2047 int fnode_is_integer(FNODE f)

}

int fnode_is_zero(FNODE f)

{

Q n;

n = eval(f);

if ( !n ) return 1;

else return 0;

}

int fnode_is_nonnegative_integer(FNODE f)

{

Q n;

Line 2190 FNODE fnode_apply(FNODE f,FNODE (*func)(),int expand)

Line 2197 FNODE fnode_apply(FNODE f,FNODE (*func)(),int expand)

for ( i = 0; i < n; i++ ) {

switch ( spec->type[i] ) {

case A_fnode:

r->arg[i] = func(f->arg[i]);

r->arg[i] = func(f->arg[i],expand);

break;

case A_node:

s = (NODE)f->arg[i];

Line 2216 FNODE fnode_normalize_add(FNODE f1,FNODE f2,int expand

Line 2223 FNODE fnode_normalize_add(FNODE f1,FNODE f2,int expand

int s;

Num c1,c2,c;

if ( fnode_is_zero(f1) ) return f2;

if ( IS_ZERO(f1) ) return f2;

else if ( fnode_is_zero(f2) ) return f1;

else if ( IS_ZERO(f2) ) return f1;

f1 = to_naryadd(f1); f2 = to_naryadd(f2);

n1 = (NODE)FA1(f1); n2 = (NODE)FA1(f2);

r0 = 0;

while ( n1 && n2 ) {

fnode_coef_body(BDY(n1),&c1,&b1); fnode_coef_body(BDY(n2),&c2,&b2);

if ( (s = compfnode(b1,b2)) > 0 ) {

if ( (s = fnode_normalize_comp(b1,b2)) > 0 ) {

NEXTNODE(r0,r); BDY(r) = BDY(n1); n1 = NEXT(n1);

} else if ( s < 0 ) {

NEXTNODE(r0,r); BDY(r) = BDY(n2); n2 = NEXT(n2);

Line 2270 FNODE fnode_normalize_mul(FNODE f1,FNODE f2,int expand

Line 2277 FNODE fnode_normalize_mul(FNODE f1,FNODE f2,int expand

Num c1,c2,c,e;

int l1,l,i,j;

if ( fnode_is_zero(f1) || fnode_is_zero(f2) ) return 0;

if ( IS_ZERO(f1) || IS_ZERO(f2) ) return mkfnode(1,I_FORMULA,0);

else if ( fnode_is_number(f1) )

return fnode_normalize_mul_coef((Num)eval(f1),f2,expand);

else if ( fnode_is_number(f2) )

Line 2332 FNODE fnode_normalize_pwr(FNODE f1,FNODE f2,int expand

Line 2339 FNODE fnode_normalize_pwr(FNODE f1,FNODE f2,int expand

NODE arg,n;

Q q;

if ( fnode_is_zero(f2) ) return mkfnode(1,I_FORMULA,ONE);

if ( IS_ZERO(f2) ) return mkfnode(1,I_FORMULA,ONE);

else if ( fnode_is_zero(f1) ) return mkfnode(1,I_FORMULA,0);

else if ( IS_ZERO(f1) ) return mkfnode(1,I_FORMULA,0);

else if ( fnode_is_one(f2) ) return f1;

else if ( fnode_is_number(f1) )

if ( fnode_is_integer(f2) ) {

Line 2357 FNODE fnode_normalize_pwr(FNODE f1,FNODE f2,int expand

Line 2364 FNODE fnode_normalize_pwr(FNODE f1,FNODE f2,int expand

return b;

else

return fnode_node_to_narymul(mknode(2,cc,b));

} else if ( expand && fnode_is_nonnegative_integer(f2) ) {

} else if ( expand && fnode_is_integer(f2)

&& fnode_is_nonnegative_integer(f2) ) {

q = (Q)eval(f2);

if ( PL(NM(q)) > 1 ) error("fnode_normalize_pwr : exponent too large");

return fnode_expand_pwr(f1,QTOS(q));

Line 2371 FNODE fnode_expand_pwr(FNODE f,int n)

Line 2379 FNODE fnode_expand_pwr(FNODE f,int n)

FNODE f1,f2;

if ( !n ) return mkfnode(1,I_FORMULA,ONE);

else if ( fnode_is_zero(f) ) return mkfnode(1,I_FORMULA,0);

else if ( IS_ZERO(f) ) return mkfnode(1,I_FORMULA,0);

else if ( n == 1 ) return f;

else {

n1 = n/2;

Line 2468 void fnode_coef_body(FNODE f,Num *cp,FNODE *bp)

Line 2476 void fnode_coef_body(FNODE f,Num *cp,FNODE *bp)

} else {

*cp = (Num)ONE; *bp = f;

}

int fnode_normalize_comp_pwr(FNODE f1,FNODE f2);

int fnode_normalize_comp(FNODE f1,FNODE f2)

{

NODE n1,n2;

int r,i1,i2;

char *nm1,*nm2;

FNODE b1,b2,e1,e2,g;

Num ee,ee1,c1,c2;

if ( IS_NARYADD(f1) || IS_NARYADD(f2) ) {

f1 = to_naryadd(f1); f2 = to_naryadd(f2);

n1 = (NODE)FA1(f1); n2 = (NODE)FA1(f2);

while ( n1 && n2 )

if ( r = fnode_normalize_comp(BDY(n1),BDY(n2)) ) return r;

else {

n1 = NEXT(n1); n2 = NEXT(n2);

}

return n1?1:(n2?-1:0);

}

if ( IS_NARYMUL(f1) || IS_NARYMUL(f2) ) {

fnode_coef_body(f1,&c1,&b1);

fnode_coef_body(f2,&c2,&b2);

if ( !compfnode(b1,b2) ) return compnum(0,c1,c2);

b1 = to_narymul(b1); b2 = to_narymul(b2);

n1 = (NODE)FA1(b1); n2 = (NODE)FA1(b2);

while ( 1 ) {

while ( n1 && n2 && !compfnode(BDY(n1),BDY(n2)) ) {

n1 = NEXT(n1); n2 = NEXT(n2);

}

if ( !n1 || !n2 ) {

return n1?1:(n2?-1:0);

}

fnode_base_exp(BDY(n1),&b1,&e1);

fnode_base_exp(BDY(n2),&b2,&e2);

if ( r = fnode_normalize_comp(b1,b2) ) {

if ( r > 0 )

return fnode_normalize_comp(e1,mkfnode(1,I_FORMULA,0));

else if ( r < 0 )

return fnode_normalize_comp(mkfnode(1,I_FORMULA,0),e2);

} else {

n1 = NEXT(n1); n2 = NEXT(n2);

if ( fnode_is_number(e1) && fnode_is_number(e2) ) {

/* f1 = t b^e1 ... , f2 = t b^e2 ... */

subnum(0,eval(e1),eval(e2),&ee);

r = compnum(0,ee,0);

if ( r > 0 ) {

g = mkfnode(3,I_BOP,pwrfs,b1,mkfnode(1,I_FORMULA,ee));

MKNODE(n1,g,n1);

} else if ( r < 0 ) {

chsgnnum(ee,&ee1);

g = mkfnode(3,I_BOP,pwrfs,b1,mkfnode(1,I_FORMULA,ee1));

MKNODE(n2,g,n2);

}

} else {

r = fnode_normalize_comp(e1,e2);

if ( r > 0 ) return 1;

else if ( r < 0 ) return -1;

}

if ( IS_BINARYPWR(f1) || IS_BINARYPWR(f2) )

return fnode_normalize_comp_pwr(f1,f2);

/* now, IDs of f1 and f2 must be I_FORMULA, I_FUNC, or I_PVAR */

switch ( f1->id ) {

case I_FORMULA:

switch ( f2->id ) {

case I_FORMULA:

return arf_comp(CO,FA0(f1),FA0(f2));

case I_FUNC: case I_PVAR:

return -1;

default:

error("fnode_normalize_comp : undefined");

}

break;

case I_FUNC:

switch ( f2->id ) {

case I_FORMULA:

return 1;

case I_FUNC:

nm1 = ((FUNC)FA0(f1))->name; nm2 = ((FUNC)FA0(f2))->name;

r = strcmp(nm1,nm2);

if ( r > 0 ) return 1;

else if ( r < 0 ) return -1;

else {

/* compare args */

n1 = FA0((FNODE)FA1(f1)); n2 = FA0((FNODE)FA1(f2));

while ( n1 && n2 )

if ( r = fnode_normalize_comp(BDY(n1),BDY(n2)) ) return r;

else {

n1 = NEXT(n1); n2 = NEXT(n2);

}

return n1?1:(n2?-1:0);

}

break;

case I_PVAR:

return -1;

default:

error("fnode_normalize_comp : undefined");

}

case I_PVAR:

switch ( f2->id ) {

case I_FORMULA: case I_FUNC:

return 1;

case I_PVAR:

i1 = (int)FA0(f1); i2 = (int)FA0(f2);

if ( i1 > i2 ) return 1;

else if ( i1 < i2 ) return -1;

else return 0;

default:

error("fnode_normalize_comp : undefined");

}

break;

default:

error("fnode_normalize_comp : undefined");

}

int fnode_normalize_comp_pwr(FNODE f1,FNODE f2)

{

FNODE b1,b2,e1,e2;

int r;

fnode_base_exp(f1,&b1,&e1);

fnode_base_exp(f2,&b2,&e2);

if ( r = fnode_normalize_comp(b1,b2) ) {

if ( r > 0 )

return fnode_normalize_comp(e1,mkfnode(1,I_FORMULA,0));

else if ( r < 0 )

return fnode_normalize_comp(mkfnode(1,I_FORMULA,0),e2);

} else return fnode_normalize_comp(e1,e2);

}

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