version 1.2, 2000/01/16 07:55:39 |
version 1.4, 2005/06/16 05:07:23 |
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/* $OpenXM$ */ |
/* $OpenXM: OpenXM/src/kan96xx/Kan/hilbert.c,v 1.3 2001/05/04 01:06:23 takayama Exp $ */ |
/* hilbert.c |
/* hilbert.c |
1992/06/16 |
1992/06/16 |
1992/06/18 |
1992/06/18 |
1993/04/28 |
1993/04/28 |
\bibitem{Cocoa-Hilbert} |
\bibitem{Cocoa-Hilbert} |
Bigatti, A., Caboara, M., Robianno, L. (1991): |
Bigatti, A., Caboara, M., Robianno, L. (1991): |
On the computation of Hilbert Poincar\'e series. |
On the computation of Hilbert Poincar\'e series. |
Applicable algebra in Engineering, Communication and Computing |
Applicable algebra in Engineering, Communication and Computing |
{\bf 2}, 21--33. |
{\bf 2}, 21--33. |
1998/10/31 |
1998/10/31 |
*/ |
*/ |
#include <stdio.h> |
#include <stdio.h> |
#include "datatype.h" |
#include "datatype.h" |
Line 41 struct object hilberto(struct object obgb,struct objec |
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Line 41 struct object hilberto(struct object obgb,struct objec |
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int n; /* number of variables */ |
int n; /* number of variables */ |
int i,j,k; |
int i,j,k; |
int n0; /* number of the variables for the polynomials in base. */ |
int n0; /* number of the variables for the polynomials in base. */ |
struct object obf; |
struct object obf = OINIT; |
struct ring *rp; |
struct ring *rp; |
struct ring *rr = (struct ring *)NULL; |
struct ring *rr = (struct ring *)NULL; |
POLY *base; |
POLY *base; |
Line 50 struct object hilberto(struct object obgb,struct objec |
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Line 50 struct object hilberto(struct object obgb,struct objec |
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int debug = 0; |
int debug = 0; |
POLY f; |
POLY f; |
POLY g; |
POLY g; |
struct object rob; |
struct object rob = OINIT; |
struct object ccc; |
struct object ccc = OINIT; |
extern struct ring SmallRing; |
extern struct ring SmallRing; |
int worg; |
int worg; |
extern int WarningNoVectorVariable; |
extern int WarningNoVectorVariable; |
Line 79 struct object hilberto(struct object obgb,struct objec |
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Line 79 struct object hilberto(struct object obgb,struct objec |
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f = KopPOLY(obf); |
f = KopPOLY(obf); |
if (rr != (struct ring*)NULL) { |
if (rr != (struct ring*)NULL) { |
if (rr != f->m->ringp) { |
if (rr != f->m->ringp) { |
errorKan1("%s\n","Hhilbert(): the element must belong to the same ring."); |
errorKan1("%s\n","Hhilbert(): the element must belong to the same ring."); |
} |
} |
}else{ |
}else{ |
rr = f->m->ringp; |
rr = f->m->ringp; |
Line 96 struct object hilberto(struct object obgb,struct objec |
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Line 96 struct object hilberto(struct object obgb,struct objec |
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f = KopPOLY(obf); |
f = KopPOLY(obf); |
if (rr != (struct ring*)NULL) { |
if (rr != (struct ring*)NULL) { |
if (rr != f->m->ringp) { |
if (rr != f->m->ringp) { |
errorKan1("%s\n","Hhilbert(): the element must belong to the same ring."); |
errorKan1("%s\n","Hhilbert(): the element must belong to the same ring."); |
} |
} |
}else{ |
}else{ |
rr = f->m->ringp; |
rr = f->m->ringp; |
Line 126 struct object hilberto(struct object obgb,struct objec |
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Line 126 struct object hilberto(struct object obgb,struct objec |
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f = KopPOLY(obf); |
f = KopPOLY(obf); |
for (j=0; j<n0; j++) { |
for (j=0; j<n0; j++) { |
if ((f->m->e)[j].x) { |
if ((f->m->e)[j].x) { |
x[j] = 1; break; |
x[j] = 1; break; |
} |
} |
if ((f->m->e)[j].D) { |
if ((f->m->e)[j].D) { |
d[j] = 1; break; |
d[j] = 1; break; |
} |
} |
} |
} |
} |
} |
Line 158 struct object hilberto(struct object obgb,struct objec |
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Line 158 struct object hilberto(struct object obgb,struct objec |
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g = cxx(1,0,0,rp); |
g = cxx(1,0,0,rp); |
for (j=0; j<n0; j++) { |
for (j=0; j<n0; j++) { |
if ((f->m->e)[j].x) { |
if ((f->m->e)[j].x) { |
if (x[j] != -1) { |
if (x[j] != -1) { |
(g->m->e)[x[j]].D = (f->m->e)[j].x; |
(g->m->e)[x[j]].D = (f->m->e)[j].x; |
} |
} |
} |
} |
if ((f->m->e)[j].D) { |
if ((f->m->e)[j].D) { |
if (d[j] != -1) { |
if (d[j] != -1) { |
(g->m->e)[d[j]].D = (f->m->e)[j].D; |
(g->m->e)[d[j]].D = (f->m->e)[j].D; |
} |
} |
} |
} |
} |
} |
base[i] = g; |
base[i] = g; |
Line 220 static int polyToInt(POLY f) { |
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Line 220 static int polyToInt(POLY f) { |
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static shell(v,n) |
static shell(v,n) |
int v[]; |
int v[]; |
int n; |
int n; |
{ |
{ |
int gap,i,j,temp; |
int gap,i,j,temp; |
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for (gap = n/2; gap > 0; gap /= 2) { |
for (gap = n/2; gap > 0; gap /= 2) { |
for (i = gap; i<n; i++) { |
for (i = gap; i<n; i++) { |
for (j=i-gap ; j>=0 && v[j]>v[j+gap]; j -= gap) { |
for (j=i-gap ; j>=0 && v[j]>v[j+gap]; j -= gap) { |
temp = v[j]; |
temp = v[j]; |
v[j] = v[j+gap]; |
v[j] = v[j+gap]; |
v[j+gap] = temp; |
v[j+gap] = temp; |
} |
} |
} |
} |
} |
} |
} |
} |
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static POLY ppifac(f,n) |
static POLY ppifac(f,n) |
POLY f; |
POLY f; |
int n; |
int n; |
/* ppifac returns (f+n) (f+n-1) ... (f+1). */ |
/* ppifac returns (f+n) (f+n-1) ... (f+1). */ |
{ |
{ |
POLY r; |
POLY r; |
int i; |
int i; |
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static int isReducibleD1(f,g) |
static int isReducibleD1(f,g) |
POLY f; |
POLY f; |
POLY g; |
POLY g; |
{ |
{ |
int i; |
int i; |
for (i = M; i < NN; i++) { |
for (i = M; i < NN; i++) { |
if (((f->m->e)[i].x >= (g->m->e)[i].x) && |
if (((f->m->e)[i].x >= (g->m->e)[i].x) && |
((f->m->e)[i].D >= (g->m->e)[i].D)) { |
((f->m->e)[i].D >= (g->m->e)[i].D)) { |
/* do nothing */ |
/* do nothing */ |
} else { |
} else { |
return(0); |
return(0); |
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static struct arrayOfPOLYold |
static struct arrayOfPOLYold |
reduceMonomials(set) |
reduceMonomials(set) |
struct arrayOfPOLYold set; |
struct arrayOfPOLYold set; |
{ |
{ |
int *drop; /* 1--> yes. drop set[i]. 0--> no. */ |
int *drop; /* 1--> yes. drop set[i]. 0--> no. */ |
int i,j; |
int i,j; |
Line 295 struct arrayOfPOLYold set; |
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Line 295 struct arrayOfPOLYold set; |
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for (i = 0; i < size; i++) { |
for (i = 0; i < size; i++) { |
if (!drop[i]) { |
if (!drop[i]) { |
for (j=i+1; j < size; j++) { |
for (j=i+1; j < size; j++) { |
if (!drop[j]) { |
if (!drop[j]) { |
if (isReducibleD1(getArrayOfPOLYold(set,i), |
if (isReducibleD1(getArrayOfPOLYold(set,i), |
getArrayOfPOLYold(set,j))) { |
getArrayOfPOLYold(set,j))) { |
drop[i] = 1; break; |
drop[i] = 1; break; |
}else if (isReducibleD1(getArrayOfPOLYold(set,j), |
}else if (isReducibleD1(getArrayOfPOLYold(set,j), |
getArrayOfPOLYold(set,i))) { |
getArrayOfPOLYold(set,i))) { |
drop[j] = 1; break; |
drop[j] = 1; break; |
}else { } |
}else { } |
} |
} |
} |
} |
} |
} |
} |
} |
Line 326 struct arrayOfPOLYold set; |
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Line 326 struct arrayOfPOLYold set; |
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return(ans); |
return(ans); |
} |
} |
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static int tryDecompose(set,i,j,vA,vWhich) |
static int tryDecompose(set,i,j,vA,vWhich) |
struct arrayOfPOLYold set; /* input: monomials */ |
struct arrayOfPOLYold set; /* input: monomials */ |
int i,j; /* decompose with respect to the (i,j)-th |
int i,j; /* decompose with respect to the (i,j)-th |
variable: i=0-->x_j, i=1--->D_j */ |
variable: i=0-->x_j, i=1--->D_j */ |
int vA[]; /* Return value: vA[0] is a_0, ... */ |
int vA[]; /* Return value: vA[0] is a_0, ... */ |
int vWhich[]; /* Return value: vWhich[i] is <<a>> of set[i] */ |
int vWhich[]; /* Return value: vWhich[i] is <<a>> of set[i] */ |
/* set ---> x_j^(a_0) I_{a_0} + .... + x_j^{a_{p-1}} I_{a_{p-1}} */ |
/* set ---> x_j^(a_0) I_{a_0} + .... + x_j^{a_{p-1}} I_{a_{p-1}} */ |
/* return value is p */ |
/* return value is p */ |
/* tryDecompose is used to find the best decomposition. */ |
/* tryDecompose is used to find the best decomposition. */ |
{ |
{ |
int size,k,ell,ell2; |
int size,k,ell,ell2; |
POLY f; |
POLY f; |
Line 356 int vWhich[]; /* Return value: vWhich[i] |
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Line 356 int vWhich[]; /* Return value: vWhich[i] |
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} |
} |
#ifdef DEBUG3 |
#ifdef DEBUG3 |
/*for (i=0; i<size; i++) printf("%3d", vWhich[i]); |
/*for (i=0; i<size; i++) printf("%3d", vWhich[i]); |
printf(" vWhich\n");*/ |
printf(" vWhich\n");*/ |
#endif |
#endif |
/* sort and prune */ |
/* sort and prune */ |
tmp = (int *)sGC_malloc(sizeof(int)*((size+1)*2)); |
tmp = (int *)sGC_malloc(sizeof(int)*((size+1)*2)); |
Line 371 int vWhich[]; /* Return value: vWhich[i] |
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Line 371 int vWhich[]; /* Return value: vWhich[i] |
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#ifdef DEBUG3 |
#ifdef DEBUG3 |
/*for (i=0; i<p; i++) printf("%3d", vA[i]); |
/*for (i=0; i<p; i++) printf("%3d", vA[i]); |
printf("---vA\n");*/ |
printf("---vA\n");*/ |
#endif |
#endif |
return(p); |
return(p); |
} |
} |
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static struct arrayOfPOLYold getJA(a,set,vWhich,ja,ii,xd,ith) |
static struct arrayOfPOLYold getJA(a,set,vWhich,ja,ii,xd,ith) |
/* get J_{a_{i+1}} from J_{a_i} |
/* get J_{a_{i+1}} from J_{a_i} |
J_{a_{i+1}} = J_{a_i} \cup I_{a_{i+1}} |
J_{a_{i+1}} = J_{a_i} \cup I_{a_{i+1}} |
*/ |
*/ |
int a; /* each a_i */ |
int a; /* each a_i */ |
struct arrayOfPOLYold set; /* polynomials */ |
struct arrayOfPOLYold set; /* polynomials */ |
int *vWhich; /* vWhich[0] is exponent a of set[0], .... */ |
int *vWhich; /* vWhich[0] is exponent a of set[0], .... */ |
struct arrayOfPOLYold ja; /* J_i */ |
struct arrayOfPOLYold ja; /* J_i */ |
Line 400 int ith; /* x_{ith} or D_{ith} is the b |
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Line 400 int ith; /* x_{ith} or D_{ith} is the b |
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size = set.n; |
size = set.n; |
start = 0; |
start = 0; |
/* input = newArrayOfPOLYold(size); */ |
/* input = newArrayOfPOLYold(size); */ |
input = newArrayOfPOLYold(size+ja.n+1); /* 1993/09/08 */ |
input = newArrayOfPOLYold(size+ja.n+1); /* 1993/09/08 */ |
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Line 414 int ith; /* x_{ith} or D_{ith} is the b |
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Line 414 int ith; /* x_{ith} or D_{ith} is the b |
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if (vWhich[i] == a) { |
if (vWhich[i] == a) { |
f = pcmCopy(getArrayOfPOLYold(set,i)); |
f = pcmCopy(getArrayOfPOLYold(set,i)); |
if (xd == 0) { |
if (xd == 0) { |
(f->m->e)[ith].x = 0; |
(f->m->e)[ith].x = 0; |
}else{ |
}else{ |
(f->m->e)[ith].D = 0; |
(f->m->e)[ith].D = 0; |
} |
} |
getArrayOfPOLYold(input,start) = f; |
getArrayOfPOLYold(input,start) = f; |
start++ ; |
start++ ; |
Line 435 int ith; /* x_{ith} or D_{ith} is the b |
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Line 435 int ith; /* x_{ith} or D_{ith} is the b |
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#endif |
#endif |
return( input ); |
return( input ); |
} |
} |
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static struct arrayOfPOLYold *getDecomposition(set,activeX,activeD) |
static struct arrayOfPOLYold *getDecomposition(set,activeX,activeD) |
struct arrayOfPOLYold set; |
struct arrayOfPOLYold set; |
int activeX[N0]; |
int activeX[N0]; |
int activeD[N0]; |
int activeD[N0]; |
{ |
{ |
int i; |
int i; |
int size; |
int size; |
Line 462 int activeD[N0]; |
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Line 462 int activeD[N0]; |
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if (activeX[i]) { |
if (activeX[i]) { |
p = tryDecompose(set,0,i,vA,vWhich); |
p = tryDecompose(set,0,i,vA,vWhich); |
if (p > xmax) { |
if (p > xmax) { |
xmax = p; |
xmax = p; |
xi = i; |
xi = i; |
if (xmax == size) { |
if (xmax == size) { |
break; |
break; |
} |
} |
} |
} |
} |
} |
} |
} |
if (xmax != size) { |
if (xmax != size) { |
for ( i = M; i < NN; i++) { |
for ( i = M; i < NN; i++) { |
if (activeD[i]) { |
if (activeD[i]) { |
p = tryDecompose(set,1,i,vA,vWhich); |
p = tryDecompose(set,1,i,vA,vWhich); |
if (p > dmax) { |
if (p > dmax) { |
dmax = p; |
dmax = p; |
di = i; |
di = i; |
if (dmax == size) { |
if (dmax == size) { |
break; |
break; |
} |
} |
} |
} |
} |
} |
} |
} |
} |
} |
/* |
/* |
ans[0] = (a_0,...,a_{p-1}) |
ans[0] = (a_0,...,a_{p-1}) |
ans[1] = generators of J_{a_0} |
ans[1] = generators of J_{a_0} |
.... |
.... |
ans[p] = generators of J_{a_{p-1}}, p = xmax or dmax |
ans[p] = generators of J_{a_{p-1}}, p = xmax or dmax |
*/ |
*/ |
if (xmax > dmax) { |
if (xmax > dmax) { |
Line 520 int activeD[N0]; |
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Line 520 int activeD[N0]; |
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} |
} |
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static POLY hilbert1T(set) |
static POLY hilbert1T(set) |
struct arrayOfPOLYold set; |
struct arrayOfPOLYold set; |
/* <<set>> must be reduced basis and each polynomial must have the length 1 */ |
/* <<set>> must be reduced basis and each polynomial must have the length 1 */ |
/* Unnecessary exponents should be set to zero. For example, f = x_{M-1} x_M |
/* Unnecessary exponents should be set to zero. For example, f = x_{M-1} x_M |
is illegal input. It should be x_M ( M <= index <= NN ). |
is illegal input. It should be x_M ( M <= index <= NN ). |
cf. hilbert1() and hilbert2() |
cf. hilbert1() and hilbert2() |
*/ |
*/ |
Line 566 struct arrayOfPOLYold set; |
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Line 566 struct arrayOfPOLYold set; |
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f = getArrayOfPOLYold(set,i); |
f = getArrayOfPOLYold(set,i); |
for (j = M; j < NN; j++) { |
for (j = M; j < NN; j++) { |
if ((f->m->e)[j].x) { |
if ((f->m->e)[j].x) { |
activeX[j] = 1; |
activeX[j] = 1; |
} |
} |
if ((f->m->e)[j].D) { |
if ((f->m->e)[j].D) { |
activeD[j] = 1; |
activeD[j] = 1; |
} |
} |
} |
} |
} |
} |
for (i = M; i < NN; i++) { |
for (i = M; i < NN; i++) { |
if (activeX[i]) { |
if (activeX[i]) { |
if (active) { |
if (active) { |
active = 2; |
active = 2; |
break; |
break; |
} |
} |
active = 1; |
active = 1; |
xxdd = 0; xi = i; |
xxdd = 0; xi = i; |
} |
} |
if (activeD[i]) { |
if (activeD[i]) { |
if (active) { |
if (active) { |
active = 2; |
active = 2; |
break; |
break; |
} |
} |
active = 1; |
active = 1; |
xxdd = 1; di = i; |
xxdd = 1; di = i; |
Line 642 struct arrayOfPOLYold set; |
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Line 642 struct arrayOfPOLYold set; |
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return(ansp); |
return(ansp); |
} |
} |
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POLY hilbert2(k,p,pArray) |
POLY hilbert2(k,p,pArray) |
POLY k; |
POLY k; |
int p; |
int p; |
POLY pArray[]; |
POLY pArray[]; |
/* This returns n! H(k,p,a^0, ..., a^{p-1}) */ |
/* This returns n! H(k,p,a^0, ..., a^{p-1}) */ |
/* n = (NN-M); */ |
/* n = (NN-M); */ |
/* Expample: hilbert2(xx(0,1),3,...) */ |
/* Expample: hilbert2(xx(0,1),3,...) */ |
{ |
{ |
struct arrayOfPOLYold set; |
struct arrayOfPOLYold set; |
int i,j; |
int i,j; |
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#ifdef DEBUG2 |
#ifdef DEBUG2 |
checkh(set,i) |
checkh(set,i) |
struct arrayOfPOLYold set; |
struct arrayOfPOLYold set; |
int i; |
int i; |
{ |
{ |
if (pLength(getArrayOfPOLYold(set,i)) != 1) { |
if (pLength(getArrayOfPOLYold(set,i)) != 1) { |
printf("Size is %d.",pSize(getArrayOfPOLYold(set,i))); |
printf("Size is %d.",pSize(getArrayOfPOLYold(set,i))); |
getchar(); getchar(); getchar(); getchar(); |
getchar(); getchar(); getchar(); getchar(); |
getchar();getchar(); |
getchar();getchar(); |
} |
} |
} |
} |
#endif |
#endif |
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#ifdef DEBUG3 |
#ifdef DEBUG3 |
outputDecomposition(p,activeX,activeD,ja) |
outputDecomposition(p,activeX,activeD,ja) |
int p; |
int p; |
int activeX[]; |
int activeX[]; |
int activeD[]; |
int activeD[]; |
struct arrayOfPOLYold ja[]; |
struct arrayOfPOLYold ja[]; |
{ |
{ |
int i; |
int i; |
printf("\nActiveX: "); |
printf("\nActiveX: "); |
Line 740 struct arrayOfPOLYold ja[]; |
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Line 740 struct arrayOfPOLYold ja[]; |
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} |
} |
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outputarrayOfPOLYold(set) |
outputarrayOfPOLYold(set) |
struct arrayOfPOLYold set; |
struct arrayOfPOLYold set; |
{ |
{ |
int i; |
int i; |
for (i=0; i< set.n ; i++) { |
for (i=0; i< set.n ; i++) { |
Line 751 struct arrayOfPOLYold set; |
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Line 751 struct arrayOfPOLYold set; |
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warningHilbert(str) |
warningHilbert(str) |
char str[]; |
char str[]; |
{ |
{ |
fprintf(stderr,"Warning (hilbert.c): %s\n",str); |
fprintf(stderr,"Warning (hilbert.c): %s\n",str); |
} |
} |
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errorHilbert(str) |
errorHilbert(str) |
char str[]; |
char str[]; |
{ |
{ |
errorKan1("%s\n",str); |
errorKan1("%s\n",str); |
} |
} |