OpenXM_contrib2/asir2000/builtin/itvnum.c - diff

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Diff for /OpenXM_contrib2/asir2000/builtin/itvnum.c between version 1.1 and 1.2

version 1.1, 2000/12/22 09:58:32

version 1.2, 2002/01/08 04:14:36

Line 1

* $OpenXM: $

* $OpenXM: OpenXM_contrib2/asir2000/builtin/itvnum.c,v 1.1 2000/12/22 09:58:32 saito Exp $

#include "ca.h"

Line 86 Pitv(NODE arg, Obj *rp)

*rp = 0;

return;

}

else if ( NID(a) == N_IP || NID(a) == N_IF) {

else if ( NID(a) == N_IP || NID(a) == N_IntervalBigFloat) {

*rp = (Obj)a;

return;

}

else if ( NID(a) == N_ID ) {

else if ( NID(a) == N_IntervalDouble ) {

inf = INF((ItvD)a);

inf = INF((IntervalDouble)a);

sup = SUP((ItvD)a);

sup = SUP((IntervalDouble)a);

double2bf(inf, (BF *)&i);

double2bf(sup, (BF *)&s);

istoitv(i,s,&c);

}

else istoitv(a,a,&c);

}

if ( NID( c ) == N_IF ) addulp((ItvF)c, (ItvF *)rp);

if ( NID( c ) == N_IntervalBigFloat )

addulp((IntervalBigFloat)c, (IntervalBigFloat *)rp);

else *rp = (Obj)c;

#endif

}

Line 132 Pitvbf(NODE arg, Obj *rp)

Line 133 Pitvbf(NODE arg, Obj *rp)

ToBf(s, &ss);

istoitv((Num)ii,(Num)ss,&c);

}

else if ( NID(a) == N_IF) {

else if ( NID(a) == N_IntervalBigFloat) {

*rp = (Obj)a;

return;

}

else if ( NID(a) == N_ID ) {

else if ( NID(a) == N_IntervalDouble ) {

inf = INF((ItvD)a);

inf = INF((IntervalDouble)a);

sup = SUP((ItvD)a);

sup = SUP((IntervalDouble)a);

double2bf(inf, (BF *)&i);

double2bf(sup, (BF *)&s);

istoitv(i,s,&c);

Line 148 Pitvbf(NODE arg, Obj *rp)

Line 149 Pitvbf(NODE arg, Obj *rp)

istoitv(i,i,&c);

}

if ( c && OID( c ) == O_N && NID( c ) == N_IF ) addulp((ItvF)c, (ItvF *)rp);

if ( c && OID( c ) == O_N && NID( c ) == N_IntervalBigFloat )

addulp((IntervalBigFloat)c, (IntervalBigFloat *)rp);

else *rp = (Obj)c;

}

Line 158 Pitvd(NODE arg, Obj *rp)

Line 160 Pitvd(NODE arg, Obj *rp)

double inf, sup;

Num a, a0, a1, t;

Itv ia;

ItvD d;

IntervalDouble d;

asir_assert(ARG0(arg),O_N,"intvald");

a0 = (Num)ARG0(arg);

Line 166 Pitvd(NODE arg, Obj *rp)

Line 168 Pitvd(NODE arg, Obj *rp)

asir_assert(ARG1(arg),O_N,"intvald");

a1 = (Num)ARG1(arg);

} else {

if ( a0 && OID(a0)==O_N && NID(a0)==N_ID ) {

if ( a0 && OID(a0)==O_N && NID(a0)==N_IntervalDouble ) {

inf = INF((ItvD)a0);

inf = INF((IntervalDouble)a0);

sup = SUP((ItvD)a0);

sup = SUP((IntervalDouble)a0);

MKItvD(inf,sup,d);

MKIntervalDouble(inf,sup,d);

*rp = (Obj)d;

return;

}

Line 180 Pitvd(NODE arg, Obj *rp)

Line 182 Pitvd(NODE arg, Obj *rp)

}

inf = ToRealDown(a0);

sup = ToRealUp(a1);

MKItvD(inf,sup,d);

MKIntervalDouble(inf,sup,d);

*rp = (Obj)d;

}

Line 196 Pinf(NODE arg, Obj *rp)

Line 198 Pinf(NODE arg, Obj *rp)

*rp = 0;

} else if ( OID(a) == O_N ) {

switch ( NID(a) ) {

case N_ID:

case N_IntervalDouble:

d = INF((ItvD)a);

d = INF((IntervalDouble)a);

MKReal(d, r);

*rp = (Obj)r;

break;

case N_IP:

case N_IF:

case N_IntervalBigFloat:

case N_IT:

case N_IntervalQuad:

itvtois((Itv)ARG0(arg),&i,&s);

*rp = (Obj)i;

break;

Line 228 Psup(NODE arg, Obj *rp)

Line 230 Psup(NODE arg, Obj *rp)

*rp = 0;

} else if ( OID(a) == O_N ) {

switch ( NID(a) ) {

case N_ID:

case N_IntervalDouble:

d = SUP((ItvD)a);

d = SUP((IntervalDouble)a);

MKReal(d, r);

*rp = (Obj)r;

break;

case N_IP:

case N_IF:

case N_IntervalBigFloat:

case N_IT:

case N_IntervalQuad:

itvtois((Itv)ARG0(arg),&i,&s);

*rp = (Obj)s;

break;

Line 260 Pmid(NODE arg, Obj *rp)

Line 262 Pmid(NODE arg, Obj *rp)

*rp = 0;

} else switch (OID(a)) {

case O_N:

if ( NID(a) == N_ID ) {

if ( NID(a) == N_IntervalDouble ) {

d = ( INF((ItvD)a)+SUP((ItvD)a) ) / 2.0;

d = ( INF((IntervalDouble)a)+SUP((IntervalDouble)a) ) / 2.0;

MKReal(d, r);

*rp = (Obj)r;

} else if ( NID(a) == N_IT ) {

} else if ( NID(a) == N_IntervalQuad ) {

error("mid: not supported operation");

*rp = 0;

} else if ( NID(a) == N_IP || NID(a) == N_IF ) {

} else if ( NID(a) == N_IP || NID(a) == N_IntervalBigFloat ) {

miditvp((Itv)ARG0(arg),&s);

*rp = (Obj)s;

} else {

Line 297 Pcup(NODE arg, Obj *rp)

Line 299 Pcup(NODE arg, Obj *rp)

asir_assert(ARG1(arg),O_N,"cup");

a = (Num)ARG0(arg);

b = (Num)ARG1(arg);

if ( a && NID(a) == N_ID && b && NID(b) == N_ID ) {

if ( a && NID(a) == N_IntervalDouble && b && NID(b) == N_IntervalDouble ) {

cupitvd((ItvD)a, (ItvD)b, (ItvD *)rp);

cupitvd((IntervalDouble)a, (IntervalDouble)b, (IntervalDouble *)rp);

} else {

cupitvp((Itv)ARG0(arg),(Itv)ARG1(arg),&s);

*rp = (Obj)s;

Line 315 Pcap(NODE arg, Obj *rp)

Line 317 Pcap(NODE arg, Obj *rp)

asir_assert(ARG1(arg),O_N,"cap");

a = (Num)ARG0(arg);

b = (Num)ARG1(arg);

if ( a && NID(a) == N_ID && b && NID(b) == N_ID ) {

if ( a && NID(a) == N_IntervalDouble && b && NID(b) == N_IntervalDouble ) {

capitvd((ItvD)a, (ItvD)b, (ItvD *)rp);

capitvd((IntervalDouble)a, (IntervalDouble)b, (IntervalDouble *)rp);

} else {

capitvp((Itv)ARG0(arg),(Itv)ARG1(arg),&s);

*rp = (Obj)s;

Line 335 Obj *rp;

Line 337 Obj *rp;

a = (Num)ARG0(arg);

if ( ! a ) {

*rp = 0;

} else if ( NID(a) == N_ID ) {

} else if ( NID(a) == N_IntervalDouble ) {

widthitvd((ItvD)a, (Num *)rp);

widthitvd((IntervalDouble)a, (Num *)rp);

} else {

widthitvp((Itv)ARG0(arg),&s);

*rp = (Obj)s;

Line 355 Obj *rp;

Line 357 Obj *rp;

a = (Num)ARG0(arg);

if ( ! a ) {

*rp = 0;

} else if ( NID(a) == N_ID ) {

} else if ( NID(a) == N_IntervalDouble ) {

absitvd((ItvD)a, (Num *)rp);

absitvd((IntervalDouble)a, (Num *)rp);

} else {

absitvp((Itv)ARG0(arg),&s);

*rp = (Obj)s;

Line 375 Obj *rp;

Line 377 Obj *rp;

asir_assert(ARG1(arg),O_N,"distance");

a = (Num)ARG0(arg);

b = (Num)ARG1(arg);

if ( a && NID(a) == N_ID && b && NID(b) == N_ID ) {

if ( a && NID(a) == N_IntervalDouble && b && NID(b) == N_IntervalDouble ) {

distanceitvd((ItvD)a, (ItvD)b, (Num *)rp);

distanceitvd((IntervalDouble)a, (IntervalDouble)b, (Num *)rp);

} else {

distanceitvp((Itv)ARG0(arg),(Itv)ARG1(arg),&s);

*rp = (Obj)s;

Line 397 Obj *rp;

Line 399 Obj *rp;

if ( ! ARG0(arg) ) s = 1;

else s = 0;

}

else if ( NID(ARG1(arg)) == N_ID ) {

else if ( NID(ARG1(arg)) == N_IntervalDouble ) {

s = initvd((Num)ARG0(arg),(ItvD)ARG1(arg));

s = initvd((Num)ARG0(arg),(IntervalDouble)ARG1(arg));

} else if ( NID(ARG1(arg)) == N_IP || NID(ARG1(arg)) == N_IF ) {

} else if ( NID(ARG1(arg)) == N_IP || NID(ARG1(arg)) == N_IntervalBigFloat ) {

if ( ! ARG0(arg) ) s = initvp((Num)ARG0(arg),(Itv)ARG1(arg));

else if ( NID(ARG0(arg)) == N_IP ) {

s = itvinitvp((Itv)ARG0(arg),(Itv)ARG1(arg));

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