version 1.5, 2005/07/14 22:46:03 |
version 1.7, 2018/03/29 01:32:50 |
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/* |
/* |
* $OpenXM: OpenXM_contrib2/asir2000/builtin/isolv.c,v 1.4 2005/02/08 18:06:05 saito Exp $ |
* $OpenXM: OpenXM_contrib2/asir2000/builtin/isolv.c,v 1.6 2006/12/22 05:00:08 saito Exp $ |
*/ |
*/ |
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#include "ca.h" |
#include "ca.h" |
Line 19 void separate(Q, Q, VECT, Q, Q, int, int, MAT, int *); |
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Line 19 void separate(Q, Q, VECT, Q, Q, int, int, MAT, int *); |
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void ueval(P, Q, Q *); |
void ueval(P, Q, Q *); |
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struct ftab isolv_tab[] = { |
struct ftab isolv_tab[] = { |
{"solve", Solve, 2}, |
{"solve", Solve, 2}, |
{"nsolve", NSolve, 2}, |
{"nsolve", NSolve, 2}, |
{0,0,0}, |
{0,0,0}, |
}; |
}; |
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static void |
static void |
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NODE arg; |
NODE arg; |
Obj *rp; |
Obj *rp; |
{ |
{ |
pointer p, Eps; |
pointer p, Eps; |
pointer root; |
pointer root; |
V v; |
V v; |
Q eps; |
Q eps; |
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p = (pointer)ARG0(arg); |
p = (pointer)ARG0(arg); |
if ( !p ) { |
if ( !p ) { |
*rp = 0; |
*rp = 0; |
return; |
return; |
} |
} |
Eps = (pointer)ARG1(arg); |
Eps = (pointer)ARG1(arg); |
asir_assert(Eps, O_N, "solve"); |
asir_assert(Eps, O_N, "solve"); |
if ( NID(Eps) != N_Q ) { |
if ( NID(Eps) != N_Q ) { |
fprintf(stderr,"solve arg 2 is required a rational number"); |
fprintf(stderr,"solve arg 2 is required a rational number"); |
error(" : invalid argument"); |
error(" : invalid argument"); |
return; |
return; |
} |
} |
DUPQ((Q)Eps, eps); |
DUPQ((Q)Eps, eps); |
SGN(eps) = 1; |
SGN(eps) = 1; |
switch (OID(p)) { |
switch (OID(p)) { |
case O_N: |
case O_N: |
*rp = 0; |
*rp = 0; |
break; |
break; |
case O_P: |
case O_P: |
Pvars(arg, &root); |
Pvars(arg, &root); |
if (NEXT(BDY((LIST)root)) != 0) { |
if (NEXT(BDY((LIST)root)) != 0) { |
fprintf(stderr,"solve arg 1 is univariate polynormial"); |
fprintf(stderr,"solve arg 1 is univariate polynormial"); |
error(" : invalid argument"); |
error(" : invalid argument"); |
break; |
break; |
} |
} |
Solve1((P)p, eps, &root); |
Solve1((P)p, eps, &root); |
*rp = (Obj)root; |
*rp = (Obj)root; |
break; |
break; |
case O_LIST: |
case O_LIST: |
fprintf(stderr,"solve,"); |
fprintf(stderr,"solve,"); |
error(" : Sorry, not yet implement of multivars"); |
error(" : Sorry, not yet implement of multivars"); |
break; |
break; |
default: |
default: |
*rp = 0; |
*rp = 0; |
} |
} |
} |
} |
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static void |
static void |
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NODE arg; |
NODE arg; |
Obj *rp; |
Obj *rp; |
{ |
{ |
pointer p, Eps; |
pointer p, Eps; |
pointer root; |
pointer root; |
LIST listp; |
LIST listp; |
V v; |
V v; |
Q eps; |
Q eps; |
NODE n, n0, m0, m, ln0; |
NODE n, n0, m0, m, ln0; |
Num r; |
Num r; |
Itv iv; |
Itv iv; |
BF breal; |
BF breal; |
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p = (pointer)ARG0(arg); |
p = (pointer)ARG0(arg); |
if ( !p ) { |
if ( !p ) { |
*rp = 0; |
*rp = 0; |
return; |
return; |
} |
} |
Eps = (pointer)ARG1(arg); |
Eps = (pointer)ARG1(arg); |
asir_assert(Eps, O_N, "solve"); |
asir_assert(Eps, O_N, "solve"); |
if ( NID(Eps) != N_Q ) { |
if ( NID(Eps) != N_Q ) { |
fprintf(stderr,"solve arg 2 is required a rational number"); |
fprintf(stderr,"solve arg 2 is required a rational number"); |
error(" : invalid argument"); |
error(" : invalid argument"); |
return; |
return; |
} |
} |
DUPQ((Q)Eps, eps); |
DUPQ((Q)Eps, eps); |
SGN(eps) = 1; |
SGN(eps) = 1; |
switch (OID(p)) { |
switch (OID(p)) { |
case O_N: |
case O_N: |
*rp = 0; |
*rp = 0; |
break; |
break; |
case O_P: |
case O_P: |
Pvars(arg, &root); |
Pvars(arg, &root); |
if (NEXT(BDY((LIST)root)) != 0) { |
if (NEXT(BDY((LIST)root)) != 0) { |
fprintf(stderr,"solve arg 1 is univariate polynormial"); |
fprintf(stderr,"solve arg 1 is univariate polynormial"); |
error(" : invalid argument"); |
error(" : invalid argument"); |
break; |
break; |
} |
} |
Solve1((P)p, eps, &root); |
Solve1((P)p, eps, &root); |
for (m0 = BDY((LIST)root), n0 = 0; m0; m0 = NEXT(m0)) { |
for (m0 = BDY((LIST)root), n0 = 0; m0; m0 = NEXT(m0)) { |
m = BDY((LIST)BDY(m0)); |
m = BDY((LIST)BDY(m0)); |
miditvp(BDY(m), &r); |
miditvp(BDY(m), &r); |
ToBf(r, &breal); |
ToBf(r, &breal); |
NEXTNODE( n0, n ); |
NEXTNODE( n0, n ); |
MKNODE(ln0, breal, NEXT(m)); |
MKNODE(ln0, breal, NEXT(m)); |
MKLIST((LIST)listp, ln0); |
MKLIST(listp, ln0); |
BDY(n) = (pointer)listp; |
BDY(n) = (pointer)listp; |
} |
} |
NEXT(n) = 0; |
NEXT(n) = 0; |
MKLIST((LIST)listp,n0); |
MKLIST(listp,n0); |
*rp = (pointer)listp; |
*rp = (pointer)listp; |
break; |
break; |
case O_LIST: |
case O_LIST: |
fprintf(stderr,"solve,"); |
fprintf(stderr,"solve,"); |
error(" : Sorry, not yet implement of multivars"); |
error(" : Sorry, not yet implement of multivars"); |
break; |
break; |
default: |
default: |
*rp = 0; |
*rp = 0; |
} |
} |
} |
} |
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void |
void |
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Q eps; |
Q eps; |
pointer *rt; |
pointer *rt; |
{ |
{ |
P p; |
P p; |
Q up, low, a; |
Q up, low, a; |
DCP fctp, onedeg, zerodeg; |
DCP fctp, onedeg, zerodeg; |
LIST listp; |
LIST listp; |
VECT sseq; |
VECT sseq; |
MAT root; |
MAT root; |
int chvu, chvl, pad, tnumb, numb, i, j; |
int chvu, chvl, pad, tnumb, numb, i, j; |
Itv iv; |
Itv iv; |
NODE n0, n, ln0, ln; |
NODE n0, n, ln0, ln; |
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boundbody(inp, &up); |
boundbody(inp, &up); |
if (!up) { |
if (!up) { |
*rt = 0; |
*rt = 0; |
return; |
return; |
} |
} |
Sturm(inp, &sseq); |
Sturm(inp, &sseq); |
DUPQ(up,low); |
DUPQ(up,low); |
SGN(low) = -1; |
SGN(low) = -1; |
chvu = stumq(sseq, up); |
chvu = stumq(sseq, up); |
chvl = stumq(sseq, low); |
chvl = stumq(sseq, low); |
tnumb = abs(chvu - chvl); |
tnumb = abs(chvu - chvl); |
MKMAT(root, tnumb, 4); |
MKMAT(root, tnumb, 4); |
pad = -1; |
pad = -1; |
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fctrp(CO,inp,&fctp); |
fctrp(CO,inp,&fctp); |
for (fctp = NEXT(fctp), i = 0; fctp; fctp = NEXT(fctp)) { |
for (fctp = NEXT(fctp), i = 0; fctp; fctp = NEXT(fctp)) { |
p = COEF(fctp); |
p = COEF(fctp); |
onedeg = DC(p); |
onedeg = DC(p); |
if ( !cmpq(DEG(onedeg), ONE) ) { |
if ( !cmpq(DEG(onedeg), ONE) ) { |
pad++; |
pad++; |
if ( !NEXT(onedeg) ) { |
if ( !NEXT(onedeg) ) { |
BDY(root)[pad][0] = 0; |
BDY(root)[pad][0] = 0; |
BDY(root)[pad][1] = 0; |
BDY(root)[pad][1] = 0; |
BDY(root)[pad][2] = DEG(fctp); |
BDY(root)[pad][2] = DEG(fctp); |
BDY(root)[pad][3] = p; |
BDY(root)[pad][3] = p; |
} else { |
} else { |
divq((Q)COEF(NEXT(onedeg)),(Q)COEF(onedeg),&a); |
divq((Q)COEF(NEXT(onedeg)),(Q)COEF(onedeg),&a); |
BDY(root)[pad][0] = a; |
BDY(root)[pad][0] = a; |
BDY(root)[pad][1] = BDY(root)[pad][0]; |
BDY(root)[pad][1] = BDY(root)[pad][0]; |
BDY(root)[pad][2] = DEG(fctp); |
BDY(root)[pad][2] = DEG(fctp); |
BDY(root)[pad][3] = p; |
BDY(root)[pad][3] = p; |
} |
} |
continue; |
continue; |
} |
} |
boundbody(p, &up); |
boundbody(p, &up); |
Sturm(p, &sseq); |
Sturm(p, &sseq); |
DUPQ(up,low); |
DUPQ(up,low); |
SGN(low) = -1; |
SGN(low) = -1; |
chvu = stumq(sseq, up); |
chvu = stumq(sseq, up); |
chvl = stumq(sseq, low); |
chvl = stumq(sseq, low); |
numb = abs(chvu - chvl); |
numb = abs(chvu - chvl); |
separate(DEG(fctp), eps, sseq, up, low, chvu, chvl, root, &pad); |
separate(DEG(fctp), eps, sseq, up, low, chvu, chvl, root, &pad); |
} |
} |
for (i = 0; i < pad; i++) { |
for (i = 0; i < pad; i++) { |
for (j = i; j <= pad; j++) { |
for (j = i; j <= pad; j++) { |
if (cmpq(BDY(root)[i][0], BDY(root)[j][0]) > 0) { |
if (cmpq(BDY(root)[i][0], BDY(root)[j][0]) > 0) { |
a = BDY(root)[i][0]; |
a = BDY(root)[i][0]; |
BDY(root)[i][0] = BDY(root)[j][0]; |
BDY(root)[i][0] = BDY(root)[j][0]; |
BDY(root)[j][0] = a; |
BDY(root)[j][0] = a; |
a = BDY(root)[i][1]; |
a = BDY(root)[i][1]; |
BDY(root)[i][1] = BDY(root)[j][1]; |
BDY(root)[i][1] = BDY(root)[j][1]; |
BDY(root)[j][1] = a; |
BDY(root)[j][1] = a; |
a = BDY(root)[i][2]; |
a = BDY(root)[i][2]; |
BDY(root)[i][2] = BDY(root)[j][2]; |
BDY(root)[i][2] = BDY(root)[j][2]; |
BDY(root)[j][2] = a; |
BDY(root)[j][2] = a; |
a = BDY(root)[i][3]; |
a = BDY(root)[i][3]; |
BDY(root)[i][3] = BDY(root)[j][3]; |
BDY(root)[i][3] = BDY(root)[j][3]; |
BDY(root)[j][3] = a; |
BDY(root)[j][3] = a; |
} |
} |
} |
} |
} |
} |
for (i = 0; i < pad; i++) { |
for (i = 0; i < pad; i++) { |
while(cmpq(BDY(root)[i][1], BDY(root)[i+1][0]) > 0 ) { |
while(cmpq(BDY(root)[i][1], BDY(root)[i+1][0]) > 0 ) { |
binary(i, root); |
binary(i, root); |
binary(i+1, root); |
binary(i+1, root); |
if ( cmpq(BDY(root)[i][0], BDY(root)[i+1][1]) > 0 ) { |
if ( cmpq(BDY(root)[i][0], BDY(root)[i+1][1]) > 0 ) { |
a = BDY(root)[i][0]; |
a = BDY(root)[i][0]; |
BDY(root)[i][0] = BDY(root)[i+1][0]; |
BDY(root)[i][0] = BDY(root)[i+1][0]; |
BDY(root)[i+1][0] = a; |
BDY(root)[i+1][0] = a; |
a = BDY(root)[i][1]; |
a = BDY(root)[i][1]; |
BDY(root)[i][1] = BDY(root)[i+1][1]; |
BDY(root)[i][1] = BDY(root)[i+1][1]; |
BDY(root)[i+1][1] = a; |
BDY(root)[i+1][1] = a; |
a = BDY(root)[i][2]; |
a = BDY(root)[i][2]; |
BDY(root)[i][2] = BDY(root)[i+1][2]; |
BDY(root)[i][2] = BDY(root)[i+1][2]; |
BDY(root)[i+1][2] = a; |
BDY(root)[i+1][2] = a; |
a = BDY(root)[i][3]; |
a = BDY(root)[i][3]; |
BDY(root)[i][3] = BDY(root)[i+1][3]; |
BDY(root)[i][3] = BDY(root)[i+1][3]; |
BDY(root)[i+1][3] = a; |
BDY(root)[i+1][3] = a; |
break; |
break; |
} |
} |
} |
} |
} |
} |
for (i = 0, n0 = 0; i <= pad; i++) { |
for (i = 0, n0 = 0; i <= pad; i++) { |
istoitv(BDY(root)[i][0], BDY(root)[i][1], &iv); |
istoitv(BDY(root)[i][0], BDY(root)[i][1], &iv); |
NEXTNODE(n0,n); |
NEXTNODE(n0,n); |
MKNODE(ln, BDY(root)[i][2], 0); MKNODE(ln0, iv, ln); |
MKNODE(ln, BDY(root)[i][2], 0); MKNODE(ln0, iv, ln); |
MKLIST(listp, ln0);BDY(n) = (pointer)listp; |
MKLIST(listp, ln0);BDY(n) = (pointer)listp; |
} |
} |
NEXT(n) = 0; |
NEXT(n) = 0; |
MKLIST(listp,n0); |
MKLIST(listp,n0); |
*rt = (pointer)listp; |
*rt = (pointer)listp; |
} |
} |
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void |
void |
separate(mult, eps, sseq, up, low, upn, lown, root, padp) |
separate(mult, eps, sseq, up, low, upn, lown, root, padp) |
VECT sseq; |
VECT sseq; |
Q mult, eps, up, low; |
Q mult, eps, up, low; |
int upn, lown; |
int upn, lown; |
MAT root; |
MAT root; |
int *padp; |
int *padp; |
{ |
{ |
int de, midn; |
int de, midn; |
Q mid, e; |
Q mid, e; |
P p; |
P p; |
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de = abs(lown - upn); |
de = abs(lown - upn); |
if (de == 0) return; |
if (de == 0) return; |
if (de == 1) { |
if (de == 1) { |
(*padp)++; |
(*padp)++; |
BDY(root)[*padp][0] = up; |
BDY(root)[*padp][0] = up; |
BDY(root)[*padp][1] = low; |
BDY(root)[*padp][1] = low; |
BDY(root)[*padp][3] = (P *)sseq->body[0]; |
BDY(root)[*padp][3] = (P *)sseq->body[0]; |
subq( BDY(root)[*padp][1], BDY(root)[*padp][0], &e ); |
subq( BDY(root)[*padp][1], BDY(root)[*padp][0], &e ); |
SGN(e) = 1; |
SGN(e) = 1; |
while (cmpq(e, eps) > 0) { |
while (cmpq(e, eps) > 0) { |
binary(*padp, root); |
binary(*padp, root); |
subq( BDY(root)[*padp][1], BDY(root)[*padp][0], &e); |
subq( BDY(root)[*padp][1], BDY(root)[*padp][0], &e); |
SGN(e) = 1; |
SGN(e) = 1; |
} |
} |
BDY(root)[*padp][2] = mult; |
BDY(root)[*padp][2] = mult; |
return; |
return; |
} |
} |
addq(up, low, &mid); |
addq(up, low, &mid); |
divq(mid, TWO, &mid); |
divq(mid, TWO, &mid); |
midn = stumq(sseq, mid); |
midn = stumq(sseq, mid); |
separate(mult, eps, sseq, low, mid, lown, midn, root, padp); |
separate(mult, eps, sseq, low, mid, lown, midn, root, padp); |
separate(mult, eps, sseq, mid, up, midn, upn, root, padp); |
separate(mult, eps, sseq, mid, up, midn, upn, root, padp); |
} |
} |
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void |
void |
Line 284 binary(indx, root) |
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Line 284 binary(indx, root) |
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int indx; |
int indx; |
MAT root; |
MAT root; |
{ |
{ |
Q a, b, c, d, e; |
Q a, b, c, d, e; |
P p; |
P p; |
p = (P)BDY(root)[indx][3]; |
p = (P)BDY(root)[indx][3]; |
addq(BDY(root)[indx][0], BDY(root)[indx][1], &c); |
addq(BDY(root)[indx][0], BDY(root)[indx][1], &c); |
divq(c, TWO, &d); |
divq(c, TWO, &d); |
ueval(p, BDY(root)[indx][1], &a); |
ueval(p, BDY(root)[indx][1], &a); |
ueval(p, d, &b); |
ueval(p, d, &b); |
if (SGN(a) == SGN(b)){ |
if (SGN(a) == SGN(b)){ |
BDY(root)[indx][1] = d; |
BDY(root)[indx][1] = d; |
} else { |
} else { |
BDY(root)[indx][0] = d; |
BDY(root)[indx][0] = d; |
} |
} |
} |
} |
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void |
void |
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P p; |
P p; |
VECT *ret; |
VECT *ret; |
{ |
{ |
P g1,g2,q,r,s, *t; |
P g1,g2,q,r,s, *t; |
Q a,b,c,d,h,l,m,x; |
Q a,b,c,d,h,l,m,x; |
V v; |
V v; |
VECT seq; |
VECT seq; |
int i,j; |
int i,j; |
|
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v = VR(p); |
v = VR(p); |
t = (P *)ALLOCA((deg(v,p)+1)*sizeof(P)); |
t = (P *)ALLOCA((deg(v,p)+1)*sizeof(P)); |
g1 = t[0] = p; diffp(CO,p,v,(P *)&a); ptozp((P)a,1,&c,&g2); t[1] = g2; |
g1 = t[0] = p; diffp(CO,p,v,(P *)&a); ptozp((P)a,1,&c,&g2); t[1] = g2; |
for ( i = 1, h = ONE, x = ONE; ; ) { |
for ( i = 1, h = ONE, x = ONE; ; ) { |
if ( NUM(g2) ) break; |
if ( NUM(g2) ) break; |
subq(DEG(DC(g1)),DEG(DC(g2)),&d); |
subq(DEG(DC(g1)),DEG(DC(g2)),&d); |
l = (Q)LC(g2); |
l = (Q)LC(g2); |
if ( SGN(l) < 0 ) { |
if ( SGN(l) < 0 ) { |
chsgnq(l,&a); l = a; |
chsgnq(l,&a); l = a; |
} |
} |
addq(d,ONE,&a); pwrq(l,a,&b); mulp(CO,(P)b,g1,(P *)&a); |
addq(d,ONE,&a); pwrq(l,a,&b); mulp(CO,(P)b,g1,(P *)&a); |
divsrp(CO,(P)a,g2,&q,&r); |
divsrp(CO,(P)a,g2,&q,&r); |
if ( !r ) break; |
if ( !r ) break; |
chsgnp(r,&s); r = s; i++; |
chsgnp(r,&s); r = s; i++; |
if ( NUM(r) ) { |
if ( NUM(r) ) { |
t[i] = r; break; |
t[i] = r; break; |
} |
} |
pwrq(h,d,&m); g1 = g2; |
pwrq(h,d,&m); g1 = g2; |
mulq(m,x,&a); divsp(CO,r,(P)a,&g2); t[i] = g2; |
mulq(m,x,&a); divsp(CO,r,(P)a,&g2); t[i] = g2; |
x = (Q)LC(g1); |
x = (Q)LC(g1); |
if ( SGN(x) < 0 ) { |
if ( SGN(x) < 0 ) { |
chsgnq(x,&a); x = a; |
chsgnq(x,&a); x = a; |
} |
} |
pwrq(x,d,&a); mulq(a,h,&b); divq(b,m,&h); |
pwrq(x,d,&a); mulq(a,h,&b); divq(b,m,&h); |
} |
} |
MKVECT(seq,i+1); |
MKVECT(seq,i+1); |
for ( j = 0; j <= i; j++ ) seq->body[j] = (pointer)t[j]; |
for ( j = 0; j <= i; j++ ) seq->body[j] = (pointer)t[j]; |
*ret = seq; |
*ret = seq; |
} |
} |
|
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int |
int |
|
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VECT s; |
VECT s; |
Q val; |
Q val; |
{ |
{ |
int len, i, j, c; |
int len, i, j, c; |
P *ss; |
P *ss; |
Q a, a0; |
Q a, a0; |
|
|
len = s->len; |
len = s->len; |
ss = (P *)s->body; |
ss = (P *)s->body; |
for ( j = 0; j < len; j++ ){ |
for ( j = 0; j < len; j++ ){ |
ueval(ss[j],val,&a0); |
ueval(ss[j],val,&a0); |
if (a0) break; |
if (a0) break; |
} |
} |
for ( i = j++, c =0; i < len; i++) { |
for ( i = j++, c =0; i < len; i++) { |
ueval( ss[i], val, &a); |
ueval( ss[i], val, &a); |
if ( a ) { |
if ( a ) { |
if( (SGN(a) > 0 && SGN(a0) < 0) || (SGN(a) < 0 && SGN(a0) > 0) ){ |
if( (SGN(a) > 0 && SGN(a0) < 0) || (SGN(a) < 0 && SGN(a0) > 0) ){ |
c++; |
c++; |
a0 = a; |
a0 = a; |
} |
} |
} |
} |
} |
} |
return c; |
return c; |
} |
} |
|
|
void |
void |
|
|
P p; |
P p; |
Q *q; |
Q *q; |
{ |
{ |
Q t, max, tmp; |
Q t, max, tmp; |
DCP dc; |
DCP dc; |
|
|
if ( !p ) |
if ( !p ) |
*q = 0; |
*q = 0; |
else if ( p->id == O_N ) |
else if ( p->id == O_N ) |
*q = 0; |
*q = 0; |
else { |
else { |
NEWQ(tmp); |
NEWQ(tmp); |
SGN(tmp)=1; |
SGN(tmp)=1; |
for ( dc = DC(p), max=0; dc; dc = NEXT(dc) ) { |
for ( dc = DC(p), max=0; dc; dc = NEXT(dc) ) { |
t = (Q)COEF(dc); |
t = (Q)COEF(dc); |
NM(tmp)=NM(t); |
NM(tmp)=NM(t); |
DN(tmp)=DN(t); |
DN(tmp)=DN(t); |
if ( cmpq(tmp, max) > 0 ) DUPQ(tmp, max); |
if ( cmpq(tmp, max) > 0 ) DUPQ(tmp, max); |
} |
} |
addq(ONE, max, q); |
addq(ONE, max, q); |
} |
} |
} |
} |
|
|
void |
void |
|
|
Q q; |
Q q; |
Q *rp; |
Q *rp; |
{ |
{ |
Q d, d1, a, b, t; |
Q d, d1, a, b, t; |
Q deg, da; |
Q deg, da; |
Q nm, dn; |
Q nm, dn; |
DCP dc; |
DCP dc; |
|
|
if ( !p ) *rp = 0; |
if ( !p ) *rp = 0; |
else if ( NUM(p) ) *rp = (Q)p; |
else if ( NUM(p) ) *rp = (Q)p; |
else { |
else { |
if ( q ) { |
if ( q ) { |
NTOQ( DN(q), 1, dn ); |
NTOQ( DN(q), 1, dn ); |
NTOQ( NM(q), SGN(q), nm ); |
NTOQ( NM(q), SGN(q), nm ); |
} else { |
} else { |
dn = 0; |
dn = 0; |
nm = 0; |
nm = 0; |
} |
} |
if ( !dn ) { |
if ( !dn ) { |
dc = DC(p); t = (Q)COEF(dc); |
dc = DC(p); t = (Q)COEF(dc); |
for ( d = DEG(dc), dc = NEXT(dc); dc; d = DEG(dc), dc= NEXT(dc) ) { |
for ( d = DEG(dc), dc = NEXT(dc); dc; d = DEG(dc), dc= NEXT(dc) ) { |
subq(d, DEG(dc), &d1); pwrq(nm, d1, &a); |
subq(d, DEG(dc), &d1); pwrq(nm, d1, &a); |
mulq(t,a,&b); addq(b,(Q)COEF(dc),&t); |
mulq(t,a,&b); addq(b,(Q)COEF(dc),&t); |
} |
} |
if ( d ) { |
if ( d ) { |
pwrq(nm,d,&a); mulq(t,a,&b); t = b; |
pwrq(nm,d,&a); mulq(t,a,&b); t = b; |
} |
} |
*rp = t; |
*rp = t; |
} else { |
} else { |
dc = DC(p); t = (Q)COEF(dc); |
dc = DC(p); t = (Q)COEF(dc); |
for ( d=deg= DEG(dc), dc = NEXT(dc); dc; d = DEG(dc), dc= NEXT(dc) ) { |
for ( d=deg= DEG(dc), dc = NEXT(dc); dc; d = DEG(dc), dc= NEXT(dc) ) { |
subq(d, DEG(dc), &d1); pwrq(nm, d1, &a); |
subq(d, DEG(dc), &d1); pwrq(nm, d1, &a); |
mulq(t,a,&b); |
mulq(t,a,&b); |
subq(deg, DEG(dc), &d1); pwrq(dn, d1, &a); |
subq(deg, DEG(dc), &d1); pwrq(dn, d1, &a); |
mulq(a, (Q)COEF(dc), &da); |
mulq(a, (Q)COEF(dc), &da); |
addq(b,da,&t); |
addq(b,da,&t); |
} |
} |
if ( d ) { |
if ( d ) { |
pwrq(nm,d,&a); mulq(t,a,&b); t = b; |
pwrq(nm,d,&a); mulq(t,a,&b); t = b; |
} |
} |
*rp = t; |
*rp = t; |
} |
} |
} |
} |
} |
} |
#endif |
#endif |