version 1.5, 2002/02/09 06:21:02 |
version 1.10, 2004/05/13 04:38:28 |
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/* $OpenXM: OpenXM/src/kan96xx/Kan/order.c,v 1.4 2001/05/04 01:06:24 takayama Exp $ */ |
/* $OpenXM: OpenXM/src/kan96xx/Kan/order.c,v 1.9 2003/08/26 12:46:05 takayama Exp $ */ |
#include <stdio.h> |
#include <stdio.h> |
#include "datatype.h" |
#include "datatype.h" |
#include "stackm.h" |
#include "stackm.h" |
Line 59 void showRing(level,ringp) |
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Line 59 void showRing(level,ringp) |
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char *mtype; |
char *mtype; |
extern char *F_isSameComponent; |
extern char *F_isSameComponent; |
POLY f; |
POLY f; |
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POLY fx; |
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POLY fd; |
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POLY rf; |
fp = stdout; |
fp = stdout; |
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N=ringp->n; M = ringp->m; L = ringp->l; C = ringp->c; |
N=ringp->n; M = ringp->m; L = ringp->l; C = ringp->c; |
Line 81 void showRing(level,ringp) |
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Line 84 void showRing(level,ringp) |
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fprintf(fp,"\n"); |
fprintf(fp,"\n"); |
fprintf(fp,"where "); |
fprintf(fp,"where "); |
for (i=M; i<N; i++) { |
for (i=M; i<N; i++) { |
fprintf(fp," %s %s - %s %s = 1, ",TransD[i],TransX[i], |
fx = cxx(1,i,1,ringp); fd = cdd(1,i,1,ringp); |
TransX[i],TransD[i]); |
rf = ppSub(ppMult(fd,fx),ppMult(fx,fd)); |
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fprintf(fp," %s %s - %s %s = %s, ",TransD[i],TransX[i], |
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TransX[i],TransD[i],POLYToString(rf,'*',0)); |
} |
} |
fprintf(fp,"\n\n"); |
fprintf(fp,"\n\n"); |
} |
} |
Line 175 void showRing(level,ringp) |
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Line 180 void showRing(level,ringp) |
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printObjectList((struct object *)(ringp->gbListTower)); |
printObjectList((struct object *)(ringp->gbListTower)); |
fprintf(fp,"\n"); |
fprintf(fp,"\n"); |
} |
} |
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if (ringp->degreeShiftSize) { |
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fprintf(fp,"degreeShift vector (N=%d,Size=%d)= \n[\n",ringp->degreeShiftN,ringp->degreeShiftSize); |
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{ |
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int i,j; |
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for (i=0; i<ringp->degreeShiftN; i++) { |
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fprintf(fp," ["); |
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for (j=0; j< ringp->degreeShiftSize; j++) { |
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fprintf(fp," %d ",ringp->degreeShift[i*(ringp->degreeShiftSize)+j]); |
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} |
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fprintf(fp,"]\n"); |
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} |
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} |
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fprintf(fp,"]\n"); |
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} |
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fprintf(fp,"--- weight vectors ---\n"); |
if (level) printOrder(ringp); |
if (level) printOrder(ringp); |
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if (ringp->next != (struct ring *)NULL) { |
if (ringp->next != (struct ring *)NULL) { |
Line 331 int mmLarger_matrix(ff,gg) |
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Line 350 int mmLarger_matrix(ff,gg) |
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int in2; |
int in2; |
int *from, *to; |
int *from, *to; |
int omsize; |
int omsize; |
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int dssize; |
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int dsn; |
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int *degreeShiftVector; |
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if (ff == POLYNULL ) { |
if (ff == POLYNULL ) { |
if (gg == POLYNULL) return( 2 ); |
if (gg == POLYNULL) return( 2 ); |
Line 348 int mmLarger_matrix(ff,gg) |
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Line 370 int mmLarger_matrix(ff,gg) |
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from = rp->from; |
from = rp->from; |
to = rp->to; |
to = rp->to; |
omsize = rp->orderMatrixSize; |
omsize = rp->orderMatrixSize; |
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if (dssize = rp->degreeShiftSize) { |
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degreeShiftVector = rp->degreeShift; /* Note. 2003.06.26 */ |
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dsn = rp->degreeShiftN; |
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} |
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flag = 1; |
flag = 1; |
for (i=N-1,k=0; i>=0; i--,k++) { |
for (i=N-1,k=0; i>=0; i--,k++) { |
Line 364 int mmLarger_matrix(ff,gg) |
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Line 390 int mmLarger_matrix(ff,gg) |
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sum = 0; in2 = i*2*N; |
sum = 0; in2 = i*2*N; |
/* for (k=0; k<2*N; k++) sum += exp[k]*Order[in2+k]; */ |
/* for (k=0; k<2*N; k++) sum += exp[k]*Order[in2+k]; */ |
for (k=from[i]; k<to[i]; k++) sum += exp[k]*Order[in2+k]; |
for (k=from[i]; k<to[i]; k++) sum += exp[k]*Order[in2+k]; |
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if (dssize && ( i < dsn)) { /* Note, 2003.06.26 */ |
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if ((f->e[N-1].x < dssize) && (f->e[N-1].x >= 0) && |
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(g->e[N-1].x < dssize) && (g->e[N-1].x >= 0)) { |
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sum += degreeShiftVector[i*dssize+ (f->e[N-1].x)] |
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-degreeShiftVector[i*dssize+ (g->e[N-1].x)]; |
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}else{ |
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/*warningOrder("Size mismatch in the degree shift vector. It is ignored.");*/ |
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} |
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} |
if (sum > 0) return(1); |
if (sum > 0) return(1); |
if (sum < 0) return(0); |
if (sum < 0) return(0); |
} |
} |
Line 643 int mmLarger_tower3(POLY f,POLY g,struct object *gbLis |
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Line 678 int mmLarger_tower3(POLY f,POLY g,struct object *gbLis |
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else if (fv < gv) return(1); /* modifiable */ |
else if (fv < gv) return(1); /* modifiable */ |
} |
} |
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struct object oRingToOXringStructure(struct ring *ringp) |
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{ |
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struct object rob,ob2; |
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struct object obMat; |
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struct object obV; |
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struct object obShift; |
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struct object obt; |
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char **TransX; char **TransD; |
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int n,i,j,m,p,nonzero; |
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int *om; |
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n = ringp->n; |
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m = ringp->orderMatrixSize; |
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om = ringp->order; |
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TransX = ringp->x; TransD = ringp->D; |
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if (m<=0) m = 1; |
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/*test: (1). getRing /rr set rr (oxRingStructure) dc */ |
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obMat = newObjectArray(m); |
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for (i=0; i<m; i++) { |
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nonzero = 0; |
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for (j=0; j<2*n; j++) { |
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if (om[2*n*i+j] != 0) nonzero++; |
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} |
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ob2 = newObjectArray(nonzero*2); |
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nonzero=0; |
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for (j=0; j<2*n; j++) { |
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/* fprintf(stderr,"%d, ",nonzero); */ |
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if (om[2*n*i+j] != 0) { |
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if (j < n) { |
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putoa(ob2,nonzero,KpoString(TransX[n-1-j])); nonzero++; |
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}else{ |
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putoa(ob2,nonzero,KpoString(TransD[n-1-(j-n)])); nonzero++; |
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} |
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putoa(ob2,nonzero,KpoUniversalNumber(newUniversalNumber(om[2*n*i+j]))); nonzero++; |
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} |
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} |
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/* printObject(ob2,0,stderr); fprintf(stderr,".\n"); */ |
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putoa(obMat,i,ob2); |
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} |
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/* printObject(obMat,0,stderr); */ |
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obV = newObjectArray(2*n); |
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for (i=0; i<n; i++) putoa(obV,i,KpoString(TransX[n-1-i])); |
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for (i=0; i<n; i++) putoa(obV,i+n,KpoString(TransD[n-1-i])); |
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/* printObject(obV,0,stderr); */ |
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if (ringp->degreeShiftSize) { |
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/*test: |
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[(x) ring_of_differential_operators [[(x)]] weight_vector 0 |
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[(weightedHomogenization) 1 (degreeShift) [[1 2 1]]] ] define_ring ; |
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(1). getRing /rr set rr (oxRingStructure) dc message |
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*/ |
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obShift = newObjectArray(ringp->degreeShiftN); |
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for (i=0; i<ringp->degreeShiftN; i++) { |
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obt = newObjectArray(ringp->degreeShiftSize); |
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for (j=0; j< ringp->degreeShiftSize; j++) { |
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putoa(obt,j,KpoUniversalNumber(newUniversalNumber(ringp->degreeShift[i*(ringp->degreeShiftSize)+j]))); |
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} |
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putoa(obShift,i,obt); |
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} |
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/* printObject(obShift,0,stderr); */ |
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} |
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p = 0; |
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if (ringp->degreeShiftSize) { |
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rob = newObjectArray(3); |
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obt = newObjectArray(2); |
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putoa(obt,0,KpoString("degreeShift")); |
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putoa(obt,1,obShift); |
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putoa(rob,p, obt); p++; |
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}else { |
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rob = newObjectArray(2); |
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} |
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obt = newObjectArray(2); |
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putoa(obt,0,KpoString("v")); |
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putoa(obt,1,obV); |
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putoa(rob,p, obt); p++; |
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obt = newObjectArray(2); |
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putoa(obt,0,KpoString("order")); |
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putoa(obt,1,obMat); |
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putoa(rob,p, obt); p++; |
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return(rob); |
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} |
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static void warningOrder(s) |
static void warningOrder(s) |
char *s; |
char *s; |
{ |
{ |