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Diff for /OpenXM/src/kan96xx/Kan/order.c between version 1.1.1.1 and 1.4

version 1.1.1.1, 1999/10/08 02:12:01 version 1.4, 2001/05/04 01:06:24
Line 1 
Line 1 
   /* $OpenXM: OpenXM/src/kan96xx/Kan/order.c,v 1.3 2000/06/09 08:02:02 takayama Exp $ */
 #include <stdio.h>  #include <stdio.h>
 #include "datatype.h"  #include "datatype.h"
 #include "stackm.h"  #include "stackm.h"
Line 20  static void warningOrder(char *s);
Line 21  static void warningOrder(char *s);
 static void errorOrder(char *s);  static void errorOrder(char *s);
   
 void setOrderByMatrix(order,n,c,l,omsize)  void setOrderByMatrix(order,n,c,l,omsize)
 int order[];       int order[];
 int n,c,l,omsize;       int n,c,l,omsize;
 {  {
   int i,j;    int i,j;
   int *Order;    int *Order;
   extern struct ring *CurrentRingp;    extern struct ring *CurrentRingp;
   
   switch_mmLarger("default");    switch_mmLarger("default");
     /* q-case */    /* q-case */
   if ( l-c > 0) {    if ( l-c > 0) {
     switch_mmLarger("qmatrix");      switch_mmLarger("qmatrix");
   }    }
Line 45  int n,c,l,omsize;
Line 46  int n,c,l,omsize;
 }  }
   
 void showRing(level,ringp)  void showRing(level,ringp)
 int level;       int level;
 struct ring *ringp;       struct ring *ringp;
 {  {
   int i,j;    int i,j;
   FILE *fp;    FILE *fp;
Line 80  struct ring *ringp;
Line 81  struct ring *ringp;
     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],        fprintf(fp," %s %s - %s %s = 1, ",TransD[i],TransX[i],
                                         TransX[i],TransD[i]);                TransX[i],TransD[i]);
     }      }
     fprintf(fp,"\n\n");      fprintf(fp,"\n\n");
   }    }
Line 92  struct ring *ringp;
Line 93  struct ring *ringp;
     fprintf(fp,"where ");      fprintf(fp,"where ");
     for (i=L; i<M; i++) {      for (i=L; i<M; i++) {
       fprintf(fp," %s %s - %s %s = %s, ",TransD[i],TransX[i],        fprintf(fp," %s %s - %s %s = %s, ",TransD[i],TransX[i],
                                          TransX[i],TransD[i],                TransX[i],TransD[i],
                                          TransD[i]);                TransD[i]);
     }      }
     fprintf(fp,"\n\n");      fprintf(fp,"\n\n");
   }    }
Line 105  struct ring *ringp;
Line 106  struct ring *ringp;
     fprintf(fp,"where ");      fprintf(fp,"where ");
     for (i=C; i<L; i++) {      for (i=C; i<L; i++) {
       fprintf(fp," %s %s = %s %s %s, ",TransD[i],TransX[i],        fprintf(fp," %s %s = %s %s %s, ",TransD[i],TransX[i],
                                        TransX[0],                TransX[0],
                                        TransX[i],TransD[i]);                TransX[i],TransD[i]);
     }      }
     fprintf(fp,"\n\n");      fprintf(fp,"\n\n");
   }    }
Line 165  struct ring *ringp;
Line 166  struct ring *ringp;
     mtype = "unknown";      mtype = "unknown";
   }    }
   fprintf(fp,"Multiplication function --%s(%xH).\n",    fprintf(fp,"Multiplication function --%s(%xH).\n",
           mtype,(unsigned int) ringp->multiplication);            mtype,(unsigned int) ringp->multiplication);
   if (ringp->schreyer) {    if (ringp->schreyer) {
     fprintf(fp,"schreyer=1, gbListTower=");      fprintf(fp,"schreyer=1, gbListTower=");
     printObjectList((struct object *)(ringp->gbListTower));      printObjectList((struct object *)(ringp->gbListTower));
Line 202  if (isD(i))  D_{itod(i)}
Line 203  if (isD(i))  D_{itod(i)}
 */  */
   
 void printOrder(ringp)  void printOrder(ringp)
 struct ring *ringp;       struct ring *ringp;
 {  {
   int i,j;    int i,j;
   FILE *fp;    FILE *fp;
Line 244  struct ring *ringp;
Line 245  struct ring *ringp;
   fprintf(fp,"\n");    fprintf(fp,"\n");
   
   /* print D: differential     DE: differential, should be eliminated    /* print D: differential     DE: differential, should be eliminated
            E: difference       E: difference
            Q: q-difference       Q: q-difference
            C: commutative       C: commutative
   */    */
   if (strcmp(F_isSameComponent,"x")== 0 || strcmp(F_isSameComponent,"xd")==0) {    if (strcmp(F_isSameComponent,"x")== 0 || strcmp(F_isSameComponent,"xd")==0) {
     for (i=0; i<N; i++) {      for (i=0; i<N; i++) {
Line 315  struct object oGetOrderMatrix(struct ring *ringp)
Line 316  struct object oGetOrderMatrix(struct ring *ringp)
   
   
 int mmLarger_matrix(ff,gg)  int mmLarger_matrix(ff,gg)
 POLY ff; POLY gg;       POLY ff; POLY gg;
 {  {
   int exp[2*N0]; /* exponents */    int exp[2*N0]; /* exponents */
   int i,k;    int i,k;
Line 368  POLY ff; POLY gg;
Line 369  POLY ff; POLY gg;
   
 /* This should be used in case of q */  /* This should be used in case of q */
 int mmLarger_qmatrix(ff,gg)  int mmLarger_qmatrix(ff,gg)
 POLY ff; POLY gg;       POLY ff; POLY gg;
 {  {
   int exp[2*N0]; /* exponents */    int exp[2*N0]; /* exponents */
   int i,k;    int i,k;
Line 417  POLY ff; POLY gg;
Line 418  POLY ff; POLY gg;
   
 /* x(N-1)>x(N-2)>....>D(N-1)>....>D(0) */  /* x(N-1)>x(N-2)>....>D(N-1)>....>D(0) */
 mmLarger_pureLexicographic(f,g)  mmLarger_pureLexicographic(f,g)
 POLY f;       POLY f;
 POLY g;       POLY g;
 {  {
   int i,r;    int i,r;
   int n;    int n;
Line 457  POLY g;
Line 458  POLY g;
   
   
 void setFromTo(ringp)  void setFromTo(ringp)
 struct ring *ringp;       struct ring *ringp;
 {  {
   int n;    int n;
   int i,j,oasize;    int i,j,oasize;
Line 473  struct ring *ringp;
Line 474  struct ring *ringp;
     ringp->from[i] = 0; ringp->to[i] = n;      ringp->from[i] = 0; ringp->to[i] = n;
     for (j=0; j<n; j++) {      for (j=0; j<n; j++) {
       if (ringp->order[i*n+j] != 0) {        if (ringp->order[i*n+j] != 0) {
         ringp->from[i] = j;          ringp->from[i] = j;
         break;          break;
       }        }
     }      }
     for (j=n-1; j>=0; j--) {      for (j=n-1; j>=0; j--) {
       if (ringp->order[i*n+j] != 0) {        if (ringp->order[i*n+j] != 0) {
         ringp->to[i] = j+1;          ringp->to[i] = j+1;
         break;          break;
       }        }
     }      }
   }    }
Line 489  struct ring *ringp;
Line 490  struct ring *ringp;
 /* It ignores h and should be used with mmLarger_tower */  /* It ignores h and should be used with mmLarger_tower */
 /* cf. mmLarger_matrix.  h always must be checked at last. */  /* cf. mmLarger_matrix.  h always must be checked at last. */
 static int mmLarger_matrix_schreyer(ff,gg)  static int mmLarger_matrix_schreyer(ff,gg)
 POLY ff; POLY gg;       POLY ff; POLY gg;
 {  {
   int exp[2*N0]; /* exponents */    int exp[2*N0]; /* exponents */
   int i,k;    int i,k;
Line 557  int mmLarger_tower(POLY f,POLY g) {
Line 558  int mmLarger_tower(POLY f,POLY g) {
   }    }
   if (!(f->m->ringp->schreyer) || !(g->m->ringp->schreyer))    if (!(f->m->ringp->schreyer) || !(g->m->ringp->schreyer))
     return(mmLarger_matrix(f,g));      return(mmLarger_matrix(f,g));
     /* modifiable: mmLarger_qmatrix */    /* modifiable: mmLarger_qmatrix */
   gbList = (struct object *)(g->m->ringp->gbListTower);    gbList = (struct object *)(g->m->ringp->gbListTower);
   if (gbList == NULL) return(mmLarger_matrix(f,g));    if (gbList == NULL) return(mmLarger_matrix(f,g));
                       /* modifiable: mmLarger_qmatrix */    /* modifiable: mmLarger_qmatrix */
   if (gbList->tag != Slist) {    if (gbList->tag != Slist) {
     warningOrder("mmLarger_tower(): gbList must be in Slist.\n");      warningOrder("mmLarger_tower(): gbList must be in Slist.\n");
     return(1);      return(1);
   }    }
   if (klength(gbList) ==0) return(mmLarger_matrix(f,g));    if (klength(gbList) ==0) return(mmLarger_matrix(f,g));
                       /* modifiable: mmLarger_qmatrix */    /* modifiable: mmLarger_qmatrix */
   
   r = mmLarger_tower3(f,g,gbList);    r = mmLarger_tower3(f,g,gbList);
   /* printf("mmLarger_tower3(%s,%s) -->  %d\n",POLYToString(head(f),'*',1),POLYToString(head(g),'*',1),r); */    /* printf("mmLarger_tower3(%s,%s) -->  %d\n",POLYToString(head(f),'*',1),POLYToString(head(g),'*',1),r); */
Line 597  int mmLarger_tower3(POLY f,POLY g,struct object *gbLis
Line 598  int mmLarger_tower3(POLY f,POLY g,struct object *gbLis
   n = f->m->ringp->n;    n = f->m->ringp->n;
   nn = f->m->ringp->nn;    nn = f->m->ringp->nn;
   /* critical and modifiable */  /* m e_u > m e_v <==> m g_u > m g_v */    /* critical and modifiable */  /* m e_u > m e_v <==> m g_u > m g_v */
                                  /*                  or equal and u < v */    /*                  or equal and u < v */
   fv = f->m->e[nn].x ; /* extract component (vector) number of f! */    fv = f->m->e[nn].x ; /* extract component (vector) number of f! */
   gv = g->m->e[nn].x ;    gv = g->m->e[nn].x ;
   if (fv == gv) { /* They have the same component number. */    if (fv == gv) { /* They have the same component number. */
Line 605  int mmLarger_tower3(POLY f,POLY g,struct object *gbLis
Line 606  int mmLarger_tower3(POLY f,POLY g,struct object *gbLis
   }    }
   
   if (gbList == NULL) return(mmLarger_matrix_schreyer(f,g));    if (gbList == NULL) return(mmLarger_matrix_schreyer(f,g));
                       /* modifiable: mmLarger_qmatrix */    /* modifiable: mmLarger_qmatrix */
   if (gbList->tag != Slist) {    if (gbList->tag != Slist) {
     warningOrder("mmLarger_tower(): gbList must be in Slist.\n");      warningOrder("mmLarger_tower(): gbList must be in Slist.\n");
     return(1);      return(1);
   }    }
   if (klength(gbList) ==0) return(mmLarger_matrix(f,g));    if (klength(gbList) ==0) return(mmLarger_matrix(f,g));
                       /* modifiable: mmLarger_qmatrix */    /* modifiable: mmLarger_qmatrix */
   gb = car(gbList);  /* each entry must be monomials */    gb = car(gbList);  /* each entry must be monomials */
   if (gb.tag != Sarray) {    if (gb.tag != Sarray) {
     warningOrder("mmLarger_tower3(): car(gbList) must be an array.\n");      warningOrder("mmLarger_tower3(): car(gbList) must be an array.\n");
Line 625  int mmLarger_tower3(POLY f,POLY g,struct object *gbLis
Line 626  int mmLarger_tower3(POLY f,POLY g,struct object *gbLis
   if (fv >= t || gv >= t) {    if (fv >= t || gv >= t) {
     warningOrder("mmLarger_tower3(): incompatible input and gbList.\n");      warningOrder("mmLarger_tower3(): incompatible input and gbList.\n");
     printf("Length of gb is %d, f is %s, g is %s\n",t,KPOLYToString(f),      printf("Length of gb is %d, f is %s, g is %s\n",t,KPOLYToString(f),
            KPOLYToString(g));             KPOLYToString(g));
       KSexecuteString(" show_ring ");
     return(1);      return(1);
   }    }
   /* mpMult_poly is too expensive to call. @@@*/    /* mpMult_poly is too expensive to call. @@@*/
Line 639  int mmLarger_tower3(POLY f,POLY g,struct object *gbLis
Line 641  int mmLarger_tower3(POLY f,POLY g,struct object *gbLis
 }  }
   
 static void warningOrder(s)  static void warningOrder(s)
 char *s;       char *s;
 {  {
   fprintf(stderr,"Warning in order.c: %s\n",s);    fprintf(stderr,"Warning in order.c: %s\n",s);
 }  }
   
 static void errorOrder(s)  static void errorOrder(s)
 char *s;       char *s;
 {  {
   fprintf(stderr,"order.c: %s\n",s);    fprintf(stderr,"order.c: %s\n",s);
   exit(14);    exit(14);

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  Added in v.1.4

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