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Diff for /OpenXM/src/kan96xx/Kan/kanExport0.c between version 1.12 and 1.20

version 1.12, 2003/06/26 13:00:10 version 1.20, 2003/12/06 02:49:22
Line 1 
Line 1 
 /* $OpenXM: OpenXM/src/kan96xx/Kan/kanExport0.c,v 1.11 2003/06/26 08:14:46 takayama Exp $  */  /* $OpenXM: OpenXM/src/kan96xx/Kan/kanExport0.c,v 1.19 2003/12/05 13:51:31 takayama Exp $  */
 #include <stdio.h>  #include <stdio.h>
 #include "datatype.h"  #include "datatype.h"
 #include "stackm.h"  #include "stackm.h"
Line 19  int SerialCurrent = -1;  /* Current Serial number of t
Line 19  int SerialCurrent = -1;  /* Current Serial number of t
   
 int ReverseOutputOrder = 1;  int ReverseOutputOrder = 1;
 int WarningNoVectorVariable = 1;  int WarningNoVectorVariable = 1;
   extern int QuoteMode;
   
 /** :arithmetic **/  /** :arithmetic **/
 struct object KooAdd(ob1,ob2)  struct object KooAdd(ob1,ob2)
Line 142  struct object KooAdd(ob1,ob2)
Line 143  struct object KooAdd(ob1,ob2)
   
   
   default:    default:
     warningKan("KooAdd() has not supported yet these objects.\n");      if (QuoteMode) {
             rob = addTree(ob1,ob2);
       }else{
         warningKan("KooAdd() has not supported yet these objects.\n");
       }
     break;      break;
   }    }
   return(rob);    return(rob);
Line 270  struct object KooSub(ob1,ob2)
Line 275  struct object KooSub(ob1,ob2)
     break;      break;
   
   default:    default:
     warningKan("KooSub() has not supported yet these objects.\n");      if (QuoteMode) {
         rob = minusTree(ob1,ob2);
       }else{
         warningKan("KooSub() has not supported yet these objects.\n");
       }
     break;      break;
   }    }
   return(rob);    return(rob);
Line 412  struct object KooMult(ob1,ob2)
Line 421  struct object KooMult(ob1,ob2)
     break;      break;
   
   default:    default:
     warningKan("KooMult() has not supported yet these objects.\n");      if (QuoteMode) {
             rob = timesTree(ob1,ob2);
       }else{
         warningKan("KooMult() has not supported yet these objects.\n");
       }
     break;      break;
   }    }
   return(rob);    return(rob);
Line 451  struct object KoNegate(obj)
Line 464  struct object KoNegate(obj)
     break;      break;
   
   default:    default:
     warningKan("KoNegate() has not supported yet these objects.\n");      if (QuoteMode) {
         rob = unaryminusTree(obj);
       }else{
         warningKan("KoNegate() has not supported yet these objects.\n");
       }
     break;      break;
   }    }
   return(rob);    return(rob);
Line 653  struct object KooDiv(ob1,ob2)
Line 670  struct object KooDiv(ob1,ob2)
   
   
   default:    default:
     warningKan("KooDiv() has not supported yet these objects.\n");      if (QuoteMode) {
         rob = divideTree(ob1,ob2);
       }else{
         warningKan("KooDiv() has not supported yet these objects.\n");
       }
     break;      break;
   }    }
   return(rob);    return(rob);
Line 984  struct object KdataConversion(obj,key)
Line 1005  struct object KdataConversion(obj,key)
     }      }
     break;      break;
   case Spoly:    case Spoly:
     if (strcmp(key,"poly")==0) {      if ((strcmp(key,"poly")==0) || (strcmp(key,"numerator")==0)) {
       rob = obj;        rob = obj;
       return(rob);        return(rob);
     }else if (strcmp(key,"integer")==0) {      }else if (strcmp(key,"integer")==0) {
Line 1055  struct object KdataConversion(obj,key)
Line 1076  struct object KdataConversion(obj,key)
     }      }
     break;      break;
   case SuniversalNumber:    case SuniversalNumber:
     if (strcmp(key,"universalNumber")==0) {      if ((strcmp(key,"universalNumber")==0) || (strcmp(key,"numerator")==0)) {
       return(rob);        return(rob);
     }else if (strcmp(key,"integer")==0) {      }else if (strcmp(key,"integer")==0) {
       rob = KpoInteger(coeffToInt(obj.lc.universalNumber));        rob = KpoInteger(coeffToInt(obj.lc.universalNumber));
Line 1621  int KsetUpRing(ob1,ob2,ob3,ob4,ob5)
Line 1642  int KsetUpRing(ob1,ob2,ob3,ob4,ob5)
             }              }
           }            }
         }          }
                   switch_function("grade","module1v");
                   /* Warning: grading is changed to module1v!! */
       } else {        } else {
         errorKan1("%s\n","Unknown keyword to set_up_ring@");          errorKan1("%s\n","Unknown keyword to set_up_ring@");
       }        }
Line 2060  int KtoArgvbyCurryBrace(str,argv,limit)
Line 2083  int KtoArgvbyCurryBrace(str,argv,limit)
   return(argc);    return(argc);
 }  }
   
   struct object KstringToArgv(struct object ob) {
     struct object rob;
     char *s;
     int n,wc,i,inblank;
     char **argv;
     if (ob.tag != Sdollar)
           errorKan1("%s\n","KstringToArgv(): the argument must be a string.");
     n = strlen(KopString(ob));
     s = (char *) sGC_malloc(sizeof(char)*(n+2));
     if (s == NULL) errorKan1("%s\n","KstringToArgv(): No memory.");
     strcpy(s,KopString(ob));
     inblank = 1;  wc = 0;
     for (i=0; i<n; i++) {
           if (inblank && (s[i] > ' ')) {
             wc++; inblank = 0;
           }else if ((!inblank) && (s[i] <= ' ')) {
             inblank = 1;
           }
     }
     argv = (char **) sGC_malloc(sizeof(char *)*(wc+2));
     argv[0] = NULL;
     inblank = 1;  wc = 0;
     for (i=0; i<n; i++) {
           if (inblank && (s[i] > ' ')) {
             argv[wc] = &(s[i]); argv[wc+1]=NULL;
             wc++; inblank = 0;
           }else if ((inblank == 0) && (s[i] <= ' ')) {
             inblank = 1; s[i] = 0;
           }else if (inblank && (s[i] <= ' ')) {
             s[i] = 0;
           }
     }
   
     rob = newObjectArray(wc);
     for (i=0; i<wc; i++) {
           putoa(rob,i,KpoString(argv[i]));
           printf("%s\n",argv[i]);
     }
     return(rob);
   }
   
 static void checkDuplicateName(xvars,dvars,n)  static void checkDuplicateName(xvars,dvars,n)
      char *xvars[];       char *xvars[];
      char *dvars[];       char *dvars[];
Line 2082  static void checkDuplicateName(xvars,dvars,n)
Line 2145  static void checkDuplicateName(xvars,dvars,n)
   }    }
 }  }
   
   struct object KooPower(struct object ob1,struct object ob2) {
     struct object rob;
     /* Bug. It has not yet been implemented. */
     if (QuoteMode) {
           rob = powerTree(ob1,ob2);
     }else{
           warningKan("KooDiv2() has not supported yet these objects.\n");
     }
     return(rob);
   }
   
   
   
Line 2144  struct object KooDiv2(ob1,ob2)
Line 2217  struct object KooDiv2(ob1,ob2)
     break;      break;
   
   default:    default:
     warningKan("KooDiv2() has not supported yet these objects.\n");      if (QuoteMode) {
         rob = divideTree(ob1,ob2);
       }else{
         warningKan("KooDiv2() has not supported yet these objects.\n");
       }
     break;      break;
   }    }
   return(rob);    return(rob);
Line 2200  struct object KgbExtension(struct object obj)
Line 2277  struct object KgbExtension(struct object obj)
   POLY f;    POLY f;
   int m,i;    int m,i;
   struct pairOfPOLY pf;    struct pairOfPOLY pf;
     struct coeff *cont;
   
   if (obj.tag != Sarray) errorKan1("%s\n","KgbExtension(): The argument must be an array.");    if (obj.tag != Sarray) errorKan1("%s\n","KgbExtension(): The argument must be an array.");
   size = getoaSize(obj);    size = getoaSize(obj);
Line 2279  struct object KgbExtension(struct object obj)
Line 2357  struct object KgbExtension(struct object obj)
       errorKan1("%s\n","The datatype of the argument mismatch: [(isConstant) polynomial] gbext");        errorKan1("%s\n","The datatype of the argument mismatch: [(isConstant) polynomial] gbext");
     }      }
     return(KpoInteger(isConstant(KopPOLY(obj1))));      return(KpoInteger(isConstant(KopPOLY(obj1))));
     }else if (strcmp(key,"isConstantAll")==0) {
       if (size != 2) errorKan1("%s\n","[(isConstantAll) poly ] gbext bool");
       obj1 = getoa(obj,1);
       if (obj1.tag != Spoly) {
         errorKan1("%s\n","The datatype of the argument mismatch: [(isConstantAll) polynomial] gbext");
       }
       return(KpoInteger(isConstantAll(KopPOLY(obj1))));
   }else if (strcmp(key,"schreyerSkelton") == 0) {    }else if (strcmp(key,"schreyerSkelton") == 0) {
     if (size != 2) errorKan1("%s\n","[(schreyerSkelton) array_of_poly ] gbext array");      if (size != 2) errorKan1("%s\n","[(schreyerSkelton) array_of_poly ] gbext array");
     obj1 = getoa(obj,1);      obj1 = getoa(obj,1);
Line 2313  struct object KgbExtension(struct object obj)
Line 2398  struct object KgbExtension(struct object obj)
     obj1 = getoa(obj,1);      obj1 = getoa(obj,1);
     if (obj1.tag != Spoly) errorKan1("%s\n","[(isOrdered) poly] gbext poly");      if (obj1.tag != Spoly) errorKan1("%s\n","[(isOrdered) poly] gbext poly");
     return(KisOrdered(obj1));      return(KisOrdered(obj1));
     }else if (strcmp(key,"reduceContent")==0) {
       if (size != 2) errorKan1("%s\n","[(reduceContent)  poly1 ] gbext.");
       obj1 = getoa(obj,1);
       if (obj1.tag != Spoly)
         errorKan1("%s\n","[(reduceContent)  poly1 ] gbext.");
       f1 = KopPOLY(obj1);
           rob = newObjectArray(2);
           f1 = reduceContentOfPoly(f1,&cont);
           putoa(rob,0,KpoPOLY(f1));
           if (f1 == POLYNULL) {
             putoa(rob,1,KpoPOLY(f1));
           }else{
             putoa(rob,1,KpoPOLY(newCell(cont,newMonomial(f1->m->ringp))));
           }
     }else if (strcmp(key,"ord_ws_all")==0) {
       if (size != 3) errorKan1("%s\n","[(ord_ws_all) fv wv] gbext");
       obj1 = getoa(obj,1);
       obj2 = getoa(obj,2);
       rob  = KordWsAll(obj1,obj2);
   }else {    }else {
     errorKan1("%s\n","gbext : unknown tag.");      errorKan1("%s\n","gbext : unknown tag.");
   }    }

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