version 1.15, 2003/08/18 11:59:56 |
version 1.39, 2004/09/20 02:26:56 |
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/* $OpenXM: OpenXM/src/kan96xx/Kan/kanExport0.c,v 1.14 2003/07/14 12:49:52 takayama Exp $ */ |
/* $OpenXM: OpenXM/src/kan96xx/Kan/kanExport0.c,v 1.38 2004/09/20 02:11:22 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 |
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Line 19 int SerialCurrent = -1; /* Current Serial number of t |
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int ReverseOutputOrder = 1; |
int ReverseOutputOrder = 1; |
int WarningNoVectorVariable = 1; |
int WarningNoVectorVariable = 1; |
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extern int QuoteMode; |
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/** :arithmetic **/ |
/** :arithmetic **/ |
struct object KooAdd(ob1,ob2) |
struct object KooAdd(ob1,ob2) |
Line 142 struct object KooAdd(ob1,ob2) |
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Line 143 struct object KooAdd(ob1,ob2) |
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default: |
default: |
warningKan("KooAdd() has not supported yet these objects.\n"); |
if (QuoteMode) { |
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rob = addTree(ob1,ob2); |
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}else{ |
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warningKan("KooAdd() has not supported yet these objects.\n"); |
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} |
break; |
break; |
} |
} |
return(rob); |
return(rob); |
Line 270 struct object KooSub(ob1,ob2) |
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Line 275 struct object KooSub(ob1,ob2) |
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break; |
break; |
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default: |
default: |
warningKan("KooSub() has not supported yet these objects.\n"); |
if (QuoteMode) { |
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rob = minusTree(ob1,ob2); |
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}else{ |
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warningKan("KooSub() has not supported yet these objects.\n"); |
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} |
break; |
break; |
} |
} |
return(rob); |
return(rob); |
Line 412 struct object KooMult(ob1,ob2) |
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Line 421 struct object KooMult(ob1,ob2) |
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break; |
break; |
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default: |
default: |
warningKan("KooMult() has not supported yet these objects.\n"); |
if (QuoteMode) { |
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rob = timesTree(ob1,ob2); |
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}else{ |
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warningKan("KooMult() has not supported yet these objects.\n"); |
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} |
break; |
break; |
} |
} |
return(rob); |
return(rob); |
Line 451 struct object KoNegate(obj) |
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Line 464 struct object KoNegate(obj) |
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break; |
break; |
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default: |
default: |
warningKan("KoNegate() has not supported yet these objects.\n"); |
if (QuoteMode) { |
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rob = unaryminusTree(obj); |
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}else{ |
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warningKan("KoNegate() has not supported yet these objects.\n"); |
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} |
break; |
break; |
} |
} |
return(rob); |
return(rob); |
Line 653 struct object KooDiv(ob1,ob2) |
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Line 670 struct object KooDiv(ob1,ob2) |
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default: |
default: |
warningKan("KooDiv() has not supported yet these objects.\n"); |
if (QuoteMode) { |
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rob = divideTree(ob1,ob2); |
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}else{ |
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warningKan("KooDiv() has not supported yet these objects.\n"); |
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} |
break; |
break; |
} |
} |
return(rob); |
return(rob); |
Line 666 KooEqualQ(obj1,obj2) |
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Line 687 KooEqualQ(obj1,obj2) |
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{ |
{ |
struct object ob; |
struct object ob; |
int i; |
int i; |
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extern int Verbose; |
if (obj1.tag != obj2.tag) { |
if (obj1.tag != obj2.tag) { |
warningKan("KooEqualQ(ob1,ob2): the datatypes of ob1 and ob2 are not same. Returns false (0).\n"); |
warningKan("KooEqualQ(ob1,ob2): the datatypes of ob1 and ob2 are not same. Returns false (0).\n"); |
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if (Verbose & 0x10) { |
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fprintf(stderr,"obj1(tag:%d)=",obj1.tag); |
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printObject(obj1,0,stderr); |
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fprintf(stderr,", obj2(tag:%d)=",obj2.tag); |
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printObject(obj2,0,stderr); |
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fprintf(stderr,"\n"); fflush(stderr); |
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} |
return(0); |
return(0); |
} |
} |
switch(obj1.tag) { |
switch(obj1.tag) { |
Line 776 struct object KooGreater(obj1,obj2) |
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Line 805 struct object KooGreater(obj1,obj2) |
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if ( KopDouble(obj1) > KopDouble(obj2) ) return(KpoInteger(1)); |
if ( KopDouble(obj1) > KopDouble(obj2) ) return(KpoInteger(1)); |
else return(KpoInteger(0)); |
else return(KpoInteger(0)); |
break; |
break; |
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case Sarray: |
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{ |
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int i,m1,m2; |
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struct object rr; |
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m1 = getoaSize(obj1); m2 = getoaSize(obj2); |
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for (i=0; i< (m1>m2?m2:m1); i++) { |
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rr=KooGreater(getoa(obj1,i),getoa(obj2,i)); |
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if (KopInteger(rr) == 1) return rr; |
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rr=KooGreater(getoa(obj2,i),getoa(obj1,i)); |
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if (KopInteger(rr) == 1) return KpoInteger(0); |
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} |
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if (m1 > m2) return KpoInteger(1); |
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else return KpoInteger(0); |
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} |
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break; |
default: |
default: |
errorKan1("%s\n","KooGreater() has not supported these objects yet."); |
errorKan1("%s\n","KooGreater() has not supported these objects yet."); |
break; |
break; |
Line 817 struct object KooLess(obj1,obj2) |
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Line 861 struct object KooLess(obj1,obj2) |
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if ( KopDouble(obj1) < KopDouble(obj2) ) return(KpoInteger(1)); |
if ( KopDouble(obj1) < KopDouble(obj2) ) return(KpoInteger(1)); |
else return(KpoInteger(0)); |
else return(KpoInteger(0)); |
break; |
break; |
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case Sarray: |
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{ |
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int i,m1,m2; |
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struct object rr; |
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m1 = getoaSize(obj1); m2 = getoaSize(obj2); |
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for (i=0; i< (m1>m2?m2:m1); i++) { |
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rr=KooLess(getoa(obj1,i),getoa(obj2,i)); |
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if (KopInteger(rr) == 1) return rr; |
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rr=KooLess(getoa(obj2,i),getoa(obj1,i)); |
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if (KopInteger(rr) == 1) return KpoInteger(0); |
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} |
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if (m1 < m2) return KpoInteger(1); |
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else return KpoInteger(0); |
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} |
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break; |
default: |
default: |
errorKan1("%s\n","KooLess() has not supported these objects yet."); |
errorKan1("%s\n","KooLess() has not supported these objects yet."); |
break; |
break; |
Line 868 struct object KdataConversion(obj,key) |
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Line 927 struct object KdataConversion(obj,key) |
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return(rob); |
return(rob); |
}else if (strcmp(key,"poly") == 0) { |
}else if (strcmp(key,"poly") == 0) { |
rob = KpoPOLY(ZERO); |
rob = KpoPOLY(ZERO); |
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return rob; |
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}else if (strcmp(key,"array") == 0) { |
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rob = newObjectArray(0); |
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return rob; |
}else{ |
}else{ |
warningKan("Sorry. The data conversion from null to this data type has not supported yet.\n"); |
warningKan("Sorry. The data conversion from null to this data type has not supported yet.\n"); |
} |
} |
Line 893 struct object KdataConversion(obj,key) |
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Line 956 struct object KdataConversion(obj,key) |
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strcpy(rob.lc.str,intstr); |
strcpy(rob.lc.str,intstr); |
return(rob); |
return(rob); |
}else if (strcmp(key,"universalNumber")==0) { |
}else if (strcmp(key,"universalNumber")==0) { |
rob.tag = SuniversalNumber; |
rob = KintToUniversalNumber(obj.lc.ival); |
rob.lc.universalNumber = intToCoeff(obj.lc.ival,&SmallRing); |
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return(rob); |
return(rob); |
}else if (strcmp(key,"double") == 0) { |
}else if (strcmp(key,"double") == 0) { |
rob = KpoDouble((double) (obj.lc.ival)); |
rob = KpoDouble((double) (obj.lc.ival)); |
Line 965 struct object KdataConversion(obj,key) |
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Line 1027 struct object KdataConversion(obj,key) |
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if (strcmp(key,"array") == 0) { |
if (strcmp(key,"array") == 0) { |
return(rob); |
return(rob); |
}else if (strcmp(key,"list") == 0) { |
}else if (strcmp(key,"list") == 0) { |
rob = *( arrayToList(obj) ); |
rob = KarrayToList(obj); |
return(rob); |
return(rob); |
}else if (strcmp(key,"arrayOfPOLY")==0) { |
}else if (strcmp(key,"arrayOfPOLY")==0) { |
rob = KpoArrayOfPOLY(arrayToArrayOfPOLY(obj)); |
rob = KpoArrayOfPOLY(arrayToArrayOfPOLY(obj)); |
Line 979 struct object KdataConversion(obj,key) |
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Line 1041 struct object KdataConversion(obj,key) |
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}else if (strcmp(key,"null") == 0) { |
}else if (strcmp(key,"null") == 0) { |
rob = NullObject; |
rob = NullObject; |
return(rob); |
return(rob); |
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}else if (strcmp(key,"byteArray") == 0) { |
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rob = newByteArray(getoaSize(obj),obj); |
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return(rob); |
}else { |
}else { |
warningKan("Sorry. This type of data conversion has not supported yet.\n"); |
{ /* Automatically maps the elements. */ |
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int n,i; |
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n = getoaSize(obj); |
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rob = newObjectArray(n); |
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for (i=0; i<n; i++) { |
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putoa(rob,i,KdataConversion(getoa(obj,i),key)); |
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} |
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return(rob); |
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} |
} |
} |
break; |
break; |
case Spoly: |
case Spoly: |
Line 1050 struct object KdataConversion(obj,key) |
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Line 1123 struct object KdataConversion(obj,key) |
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break; |
break; |
case Slist: |
case Slist: |
if (strcmp(key,"array") == 0) { |
if (strcmp(key,"array") == 0) { |
rob = listToArray(&obj); |
rob = KlistToArray(obj); |
return(rob); |
return(rob); |
} |
} |
break; |
break; |
case SuniversalNumber: |
case SuniversalNumber: |
if ((strcmp(key,"universalNumber")==0) || (strcmp(key,"numerator")==0)) { |
if ((strcmp(key,"universalNumber")==0) || (strcmp(key,"numerator")==0)) { |
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rob = obj; |
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 1073 struct object KdataConversion(obj,key) |
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Line 1147 struct object KdataConversion(obj,key) |
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}else if (strcmp(key,"double") == 0) { |
}else if (strcmp(key,"double") == 0) { |
rob = KpoDouble( toDouble0(obj) ); |
rob = KpoDouble( toDouble0(obj) ); |
return(rob); |
return(rob); |
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}else if (strcmp(key,"denominator") == 0) { |
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rob = KintToUniversalNumber(1); |
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return(rob); |
}else{ |
}else{ |
warningKan("Sorry. This type of data conversion of universalNumber has not supported yet.\n"); |
warningKan("Sorry. This type of data conversion of universalNumber has not supported yet.\n"); |
} |
} |
Line 1137 struct object KdataConversion(obj,key) |
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Line 1214 struct object KdataConversion(obj,key) |
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if (strcmp(key,"orderMatrix")==0) { |
if (strcmp(key,"orderMatrix")==0) { |
rob = oGetOrderMatrix(KopRingp(obj)); |
rob = oGetOrderMatrix(KopRingp(obj)); |
return(rob); |
return(rob); |
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}else if (strcmp(key,"oxRingStructure")==0) { |
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rob = oRingToOXringStructure(KopRingp(obj)); |
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return(rob); |
}else{ |
}else{ |
warningKan("Sorryl This type of data conversion of ringp has not supported yet.\n"); |
warningKan("Sorryl This type of data conversion of ringp has not supported yet.\n"); |
} |
} |
break; |
break; |
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case SbyteArray: |
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if (strcmp(key,"array") == 0) { |
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rob = byteArrayToArray(obj); |
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return(rob); |
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} else { |
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warningKan("Sorryl This type of data conversion of ringp has not supported yet.\n"); |
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} |
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break; |
default: |
default: |
warningKan("Sorry. This type of data conversion has not supported yet.\n"); |
warningKan("Sorry. This type of data conversion has not supported yet.\n"); |
} |
} |
return(NullObject); |
return(NullObject); |
} |
} |
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/* cf. macro to_int32 */ |
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struct object Kto_int32(struct object ob) { |
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int n,i; |
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struct object otmp; |
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struct object rob; |
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if (ob.tag == SuniversalNumber) return KdataConversion(ob,"integer"); |
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if (ob.tag == Sarray) { |
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n = getoaSize(ob); |
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rob = newObjectArray(n); |
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for (i=0; i<n; i++) { |
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otmp = Kto_int32(getoa(ob,i)); |
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putoa(rob,i,otmp); |
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} |
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return rob; |
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} |
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return ob; |
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} |
/* conversion functions between primitive data and objects. |
/* conversion functions between primitive data and objects. |
If it's not time critical, it is recommended to use these functions */ |
If it's not time critical, it is recommended to use these functions */ |
struct object KpoInteger(k) |
struct object KpoInteger(k) |
Line 1200 struct object KpoRingp(ringp) |
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Line 1305 struct object KpoRingp(ringp) |
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return(obj); |
return(obj); |
} |
} |
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struct object KpoUniversalNumber(u) |
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struct coeff *u; |
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{ |
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struct object obj; |
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obj.tag = SuniversalNumber; |
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obj.lc.universalNumber = u; |
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return(obj); |
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} |
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struct object KintToUniversalNumber(n) |
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int n; |
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{ |
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struct object rob; |
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extern struct ring SmallRing; |
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rob.tag = SuniversalNumber; |
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rob.lc.universalNumber = intToCoeff(n,&SmallRing); |
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return(rob); |
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} |
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/*** conversion 2. Data conversions on arrays and matrices. ****/ |
/*** conversion 2. Data conversions on arrays and matrices. ****/ |
struct object arrayOfPOLYToArray(aa) |
struct object arrayOfPOLYToArray(aa) |
struct arrayOfPOLY *aa; |
struct arrayOfPOLY *aa; |
Line 1496 int KsetUpRing(ob1,ob2,ob3,ob4,ob5) |
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Line 1619 int KsetUpRing(ob1,ob2,ob3,ob4,ob5) |
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outputVars[i] = i; |
outputVars[i] = i; |
} |
} |
} |
} |
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ob4 = Kto_int32(ob4); /* order matrix */ |
oasize = getoaSize(ob4); |
oasize = getoaSize(ob4); |
order = (int *)sGC_malloc(sizeof(int)*((2*n)*oasize+1)); |
order = (int *)sGC_malloc(sizeof(int)*((2*n)*oasize+1)); |
if (order == (int *)NULL) errorKan1("%s\n","No memory."); |
if (order == (int *)NULL) errorKan1("%s\n","No memory."); |
Line 1541 int KsetUpRing(ob1,ob2,ob3,ob4,ob5) |
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Line 1665 int KsetUpRing(ob1,ob2,ob3,ob4,ob5) |
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newRingp->degreeShiftSize = 0; |
newRingp->degreeShiftSize = 0; |
newRingp->degreeShiftN = 0; |
newRingp->degreeShiftN = 0; |
newRingp->degreeShift = NULL; |
newRingp->degreeShift = NULL; |
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newRingp->partialEcart = 0; |
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newRingp->partialEcartGlobalVarX = NULL; |
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if (ob5.tag != Sarray || (getoaSize(ob5) % 2) != 0) { |
if (ob5.tag != Sarray || (getoaSize(ob5) % 2) != 0) { |
errorKan1("%s\n","[(keyword) value (keyword) value ....] should be given."); |
errorKan1("%s\n","[(keyword) value (keyword) value ....] should be given."); |
Line 1621 int KsetUpRing(ob1,ob2,ob3,ob4,ob5) |
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Line 1747 int KsetUpRing(ob1,ob2,ob3,ob4,ob5) |
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} |
} |
} |
} |
} |
} |
switch_function("grade","module1v"); |
} else if (strcmp(KopString(getoa(ob5,i)),"partialEcartGlobalVarX") == 0) { |
/* Warning: grading is changed to module1v!! */ |
if (getoa(ob5,i+1).tag != Sarray) { |
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errorKan1("%s\n","An array of array should be given. (partialEcart)"); |
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} |
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{ |
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struct object odv; |
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struct object ovv; |
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int k,j,nn; |
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char *vname; |
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odv=getoa(ob5,i+1); |
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nn = getoaSize(odv); |
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newRingp->partialEcart = nn; |
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newRingp->partialEcartGlobalVarX = (int *) sGC_malloc(sizeof(int)*nn+1); |
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if (newRingp->partialEcartGlobalVarX == NULL) errorKan1("%s\n","No more memory."); |
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for (j=0; j<nn; j++) |
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(newRingp->partialEcartGlobalVarX)[j] = -1; |
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for (j=0; j<nn; j++) { |
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ovv = getoa(odv,j); |
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if (ovv.tag != Sdollar) errorKan1("%s\n","partialEcartGlobalVarX: string is expected."); |
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vname = KopString(ovv); |
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for (k=0; k<n; k++) { |
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if (strcmp(vname,xvars[k]) == 0) { |
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(newRingp->partialEcartGlobalVarX)[j] = k; break; |
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}else{ |
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if (k == n-1) errorKan1("%s\n","partialEcartGlobalVarX: no such variable."); |
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} |
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} |
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} |
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} |
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switch_function("grade","module1v"); |
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/* 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 2068 struct object KstringToArgv(struct object ob) { |
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Line 2224 struct object KstringToArgv(struct object ob) { |
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int n,wc,i,inblank; |
int n,wc,i,inblank; |
char **argv; |
char **argv; |
if (ob.tag != Sdollar) |
if (ob.tag != Sdollar) |
errorKan1("%s\n","KstringToArgv(): the argument must be a string."); |
errorKan1("%s\n","KstringToArgv(): the argument must be a string."); |
n = strlen(KopString(ob)); |
n = strlen(KopString(ob)); |
s = (char *) sGC_malloc(sizeof(char)*(n+2)); |
s = (char *) sGC_malloc(sizeof(char)*(n+2)); |
if (s == NULL) errorKan1("%s\n","KstringToArgv(): No memory."); |
if (s == NULL) errorKan1("%s\n","KstringToArgv(): No memory."); |
strcpy(s,KopString(ob)); |
strcpy(s,KopString(ob)); |
inblank = 1; wc = 0; |
inblank = 1; wc = 0; |
for (i=0; i<n; i++) { |
for (i=0; i<n; i++) { |
if (inblank && (s[i] > ' ')) { |
if (inblank && (s[i] > ' ')) { |
wc++; inblank = 0; |
wc++; inblank = 0; |
}else if ((!inblank) && (s[i] <= ' ')) { |
}else if ((!inblank) && (s[i] <= ' ')) { |
inblank = 1; |
inblank = 1; |
} |
} |
} |
} |
argv = (char **) sGC_malloc(sizeof(char *)*(wc+2)); |
argv = (char **) sGC_malloc(sizeof(char *)*(wc+2)); |
argv[0] = NULL; |
argv[0] = NULL; |
inblank = 1; wc = 0; |
inblank = 1; wc = 0; |
for (i=0; i<n; i++) { |
for (i=0; i<n; i++) { |
if (inblank && (s[i] > ' ')) { |
if (inblank && (s[i] > ' ')) { |
argv[wc] = &(s[i]); argv[wc+1]=NULL; |
argv[wc] = &(s[i]); argv[wc+1]=NULL; |
wc++; inblank = 0; |
wc++; inblank = 0; |
}else if ((inblank == 0) && (s[i] <= ' ')) { |
}else if ((inblank == 0) && (s[i] <= ' ')) { |
inblank = 1; s[i] = 0; |
inblank = 1; s[i] = 0; |
}else if (inblank && (s[i] <= ' ')) { |
}else if (inblank && (s[i] <= ' ')) { |
s[i] = 0; |
s[i] = 0; |
} |
} |
} |
} |
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rob = newObjectArray(wc); |
rob = newObjectArray(wc); |
for (i=0; i<wc; i++) { |
for (i=0; i<wc; i++) { |
putoa(rob,i,KpoString(argv[i])); |
putoa(rob,i,KpoString(argv[i])); |
printf("%s\n",argv[i]); |
/* printf("%s\n",argv[i]); */ |
} |
} |
return(rob); |
return(rob); |
} |
} |
Line 2124 static void checkDuplicateName(xvars,dvars,n) |
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Line 2280 static void checkDuplicateName(xvars,dvars,n) |
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} |
} |
} |
} |
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struct object KooPower(struct object ob1,struct object ob2) { |
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struct object rob; |
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/* Bug. It has not yet been implemented. */ |
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if (QuoteMode) { |
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rob = powerTree(ob1,ob2); |
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}else{ |
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warningKan("KooDiv2() has not supported yet these objects.\n"); |
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} |
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return(rob); |
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} |
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Line 2186 struct object KooDiv2(ob1,ob2) |
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Line 2352 struct object KooDiv2(ob1,ob2) |
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break; |
break; |
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default: |
default: |
warningKan("KooDiv2() has not supported yet these objects.\n"); |
if (QuoteMode) { |
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rob = divideTree(ob1,ob2); |
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}else{ |
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warningKan("KooDiv2() has not supported yet these objects.\n"); |
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} |
break; |
break; |
} |
} |
return(rob); |
return(rob); |
Line 2242 struct object KgbExtension(struct object obj) |
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Line 2412 struct object KgbExtension(struct object obj) |
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POLY f; |
POLY f; |
int m,i; |
int m,i; |
struct pairOfPOLY pf; |
struct pairOfPOLY pf; |
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struct coeff *cont; |
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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 2321 struct object KgbExtension(struct object obj) |
|
Line 2492 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 2355 struct object KgbExtension(struct object obj) |
|
Line 2533 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 if (strcmp(key,"exponents")==0) { |
|
if (size == 3) { |
|
obj1 = getoa(obj,1); |
|
obj2 = getoa(obj,2); |
|
rob = KgetExponents(obj1,obj2); |
|
}else if (size == 2) { |
|
obj1 = getoa(obj,1); |
|
obj2 = KpoInteger(2); |
|
rob = KgetExponents(obj1,obj2); |
|
}else{ |
|
errorKan1("%s\n","[(exponents) f type] gbext"); |
|
} |
}else { |
}else { |
errorKan1("%s\n","gbext : unknown tag."); |
errorKan1("%s\n","gbext : unknown tag."); |
} |
} |
Line 2390 struct object KmpzExtension(struct object obj) |
|
Line 2599 struct object KmpzExtension(struct object obj) |
|
if (size != 3) errorKan1("%s\n","[(gcd) universalNumber universalNumber] mpzext."); |
if (size != 3) errorKan1("%s\n","[(gcd) universalNumber universalNumber] mpzext."); |
obj1 = getoa(obj,1); |
obj1 = getoa(obj,1); |
obj2 = getoa(obj,2); |
obj2 = getoa(obj,2); |
|
if (obj1.tag != SuniversalNumber) { |
|
obj1 = KdataConversion(obj1,"universalNumber"); |
|
} |
|
if (obj2.tag != SuniversalNumber) { |
|
obj2 = KdataConversion(obj2,"universalNumber"); |
|
} |
if (obj1.tag != SuniversalNumber || obj2.tag != SuniversalNumber) |
if (obj1.tag != SuniversalNumber || obj2.tag != SuniversalNumber) |
errorKan1("%s\n","[(gcd) universalNumber universalNumber] mpzext."); |
errorKan1("%s\n","[(gcd) universalNumber universalNumber] mpzext."); |
if (! is_this_coeff_MP_INT(obj1.lc.universalNumber) || |
if (! is_this_coeff_MP_INT(obj1.lc.universalNumber) || |
Line 2406 struct object KmpzExtension(struct object obj) |
|
Line 2621 struct object KmpzExtension(struct object obj) |
|
if (size != 3) errorKan1("%s\n","[(tdiv_qr) universalNumber universalNumber] mpzext."); |
if (size != 3) errorKan1("%s\n","[(tdiv_qr) universalNumber universalNumber] mpzext."); |
obj1 = getoa(obj,1); |
obj1 = getoa(obj,1); |
obj2 = getoa(obj,2); |
obj2 = getoa(obj,2); |
|
if (obj1.tag != SuniversalNumber) { |
|
obj1 = KdataConversion(obj1,"universalNumber"); |
|
} |
|
if (obj2.tag != SuniversalNumber) { |
|
obj2 = KdataConversion(obj2,"universalNumber"); |
|
} |
if (obj1.tag != SuniversalNumber || obj2.tag != SuniversalNumber) |
if (obj1.tag != SuniversalNumber || obj2.tag != SuniversalNumber) |
errorKan1("%s\n","[(tdiv_qr) universalNumber universalNumber] mpzext."); |
errorKan1("%s\n","[(tdiv_qr) universalNumber universalNumber] mpzext."); |
if (! is_this_coeff_MP_INT(obj1.lc.universalNumber) || |
if (! is_this_coeff_MP_INT(obj1.lc.universalNumber) || |
Line 2464 struct object KmpzExtension(struct object obj) |
|
Line 2685 struct object KmpzExtension(struct object obj) |
|
/* One arg functions */ |
/* One arg functions */ |
if (size != 2) errorKan1("%s\n","[key num] mpzext"); |
if (size != 2) errorKan1("%s\n","[key num] mpzext"); |
obj1 = getoa(obj,1); |
obj1 = getoa(obj,1); |
|
if (obj1.tag != SuniversalNumber) { |
|
obj1 = KdataConversion(obj1,"universalNumber"); |
|
} |
if (obj1.tag != SuniversalNumber) |
if (obj1.tag != SuniversalNumber) |
errorKan1("%s\n","[key num] mpzext : num must be a universalNumber."); |
errorKan1("%s\n","[key num] mpzext : num must be a universalNumber."); |
if (! is_this_coeff_MP_INT(obj1.lc.universalNumber)) |
if (! is_this_coeff_MP_INT(obj1.lc.universalNumber)) |
Line 2485 struct object KmpzExtension(struct object obj) |
|
Line 2709 struct object KmpzExtension(struct object obj) |
|
if (size != 3) errorKan1("%s\n","[key num1 num2] mpzext."); |
if (size != 3) errorKan1("%s\n","[key num1 num2] mpzext."); |
obj1 = getoa(obj,1); |
obj1 = getoa(obj,1); |
obj2 = getoa(obj,2); |
obj2 = getoa(obj,2); |
|
if (obj1.tag != SuniversalNumber) { |
|
obj1 = KdataConversion(obj1,"universalNumber"); |
|
} |
|
if (obj2.tag != SuniversalNumber) { |
|
obj2 = KdataConversion(obj2,"universalNumber"); |
|
} |
if (obj1.tag != SuniversalNumber || obj2.tag != SuniversalNumber) |
if (obj1.tag != SuniversalNumber || obj2.tag != SuniversalNumber) |
errorKan1("%s\n","[key num1 num2] mpzext."); |
errorKan1("%s\n","[key num1 num2] mpzext."); |
if (! is_this_coeff_MP_INT(obj1.lc.universalNumber) || |
if (! is_this_coeff_MP_INT(obj1.lc.universalNumber) || |
Line 2516 struct object KmpzExtension(struct object obj) |
|
Line 2746 struct object KmpzExtension(struct object obj) |
|
/* three args */ |
/* three args */ |
if (size != 4) errorKan1("%s\n","[key num1 num2 num3] mpzext"); |
if (size != 4) errorKan1("%s\n","[key num1 num2 num3] mpzext"); |
obj1 = getoa(obj,1); obj2 = getoa(obj,2); obj3 = getoa(obj,3); |
obj1 = getoa(obj,1); obj2 = getoa(obj,2); obj3 = getoa(obj,3); |
|
if (obj1.tag != SuniversalNumber) { |
|
obj1 = KdataConversion(obj1,"universalNumber"); |
|
} |
|
if (obj2.tag != SuniversalNumber) { |
|
obj2 = KdataConversion(obj2,"universalNumber"); |
|
} |
|
if (obj3.tag != SuniversalNumber) { |
|
obj3 = KdataConversion(obj3,"universalNumber"); |
|
} |
if (obj1.tag != SuniversalNumber || |
if (obj1.tag != SuniversalNumber || |
obj2.tag != SuniversalNumber || |
obj2.tag != SuniversalNumber || |
obj3.tag != SuniversalNumber ) { |
obj3.tag != SuniversalNumber ) { |
Line 2534 struct object KmpzExtension(struct object obj) |
|
Line 2773 struct object KmpzExtension(struct object obj) |
|
mpz_powm(r1,f,g,h); |
mpz_powm(r1,f,g,h); |
rob.tag = SuniversalNumber; |
rob.tag = SuniversalNumber; |
rob.lc.universalNumber = mpintToCoeff(r1,SmallRingp); |
rob.lc.universalNumber = mpintToCoeff(r1,SmallRingp); |
|
} else if (strcmp(key,"lcm")==0) { |
|
if (size != 3) errorKan1("%s\n","[(lcm) universalNumber universalNumber] mpzext."); |
|
obj1 = getoa(obj,1); |
|
obj2 = getoa(obj,2); |
|
if (obj1.tag != SuniversalNumber) { |
|
obj1 = KdataConversion(obj1,"universalNumber"); |
|
} |
|
if (obj2.tag != SuniversalNumber) { |
|
obj2 = KdataConversion(obj2,"universalNumber"); |
|
} |
|
if (obj1.tag != SuniversalNumber || obj2.tag != SuniversalNumber) |
|
errorKan1("%s\n","[lcm num1 num2] mpzext."); |
|
if (! is_this_coeff_MP_INT(obj1.lc.universalNumber) || |
|
! is_this_coeff_MP_INT(obj2.lc.universalNumber)) { |
|
errorKan1("%s\n","[(lcm) universalNumber universalNumber] mpzext."); |
|
} |
|
f = coeff_to_MP_INT(obj1.lc.universalNumber); |
|
g = coeff_to_MP_INT(obj2.lc.universalNumber); |
|
r1 = newMP_INT(); |
|
mpz_lcm(r1,f,g); |
|
rob.tag = SuniversalNumber; |
|
rob.lc.universalNumber = mpintToCoeff(r1,SmallRingp); |
}else { |
}else { |
errorKan1("%s\n","mpzExtension(): Unknown tag."); |
errorKan1("%s\n","mpzExtension(): Unknown tag."); |
} |
} |
Line 2740 struct object KdefaultPolyRing(struct object ob) { |
|
Line 3001 struct object KdefaultPolyRing(struct object ob) { |
|
} |
} |
|
|
|
|
|
struct object Krest(struct object ob) { |
|
struct object rob; |
|
struct object *op; |
|
int n,i; |
|
if (ob.tag == Sarray) { |
|
n = getoaSize(ob); |
|
if (n == 0) return ob; |
|
rob = newObjectArray(n-1); |
|
for (i=1; i<n; i++) { |
|
putoa(rob,i-1,getoa(ob,i)); |
|
} |
|
return rob; |
|
}else if ((ob.tag == Slist) || (ob.tag == Snull)) { |
|
return Kcdr(ob); |
|
}else{ |
|
errorKan1("%s\n","Krest(ob): ob must be an array or a list."); |
|
} |
|
} |
|
struct object Kjoin(struct object ob1, struct object ob2) { |
|
struct object rob; |
|
int n1,n2,i; |
|
if ((ob1.tag == Sarray) && (ob2.tag == Sarray)) { |
|
n1 = getoaSize(ob1); n2 = getoaSize(ob2); |
|
rob = newObjectArray(n1+n2); |
|
for (i=0; i<n1; i++) { |
|
putoa(rob,i,getoa(ob1,i)); |
|
} |
|
for (i=n1; i<n1+n2; i++) { |
|
putoa(rob,i,getoa(ob2,i-n1)); |
|
} |
|
return rob; |
|
}else if ((ob1.tag == Slist) || (ob1.tag == Snull)) { |
|
if ((ob2.tag == Slist) || (ob2.tag == Snull)) { |
|
return KvJoin(ob1,ob2); |
|
}else{ |
|
errorKan1("%s\n","Kjoin: both argument must be a list."); |
|
} |
|
}else{ |
|
errorKan1("%s\n","Kjoin: arguments must be arrays."); |
|
} |
|
} |
|
|
|
struct object Kget(struct object ob1, struct object ob2) { |
|
struct object rob; |
|
struct object tob; |
|
int i,j,size,n; |
|
if (ob2.tag == Sinteger) { |
|
i =ob2.lc.ival; |
|
}else if (ob2.tag == SuniversalNumber) { |
|
i = KopInteger(KdataConversion(ob2,"integer")); |
|
}else if (ob2.tag == Sarray) { |
|
n = getoaSize(ob2); |
|
if (n == 0) return ob1; |
|
rob = ob1; |
|
for (i=0; i<n; i++) { |
|
rob=Kget(rob,getoa(ob2,i)); |
|
} |
|
return rob; |
|
} |
|
if (ob1.tag == Sarray) { |
|
size = getoaSize(ob1); |
|
if ((0 <= i) && (i<size)) { |
|
return(getoa(ob1,i)); |
|
}else{ |
|
errorKan1("%s\n","Kget: Index is out of bound. (get)\n"); |
|
} |
|
}else if (ob1.tag == Slist) { |
|
rob = NullObject; |
|
if (i < 0) errorKan1("%s\n","Kget: Index is negative. (get)"); |
|
for (j=0; j<i; j++) { |
|
rob = Kcdr(ob1); |
|
if ((ob1.tag == Snull) && (rob.tag == Snull)) { |
|
errorKan1("%s\n","Kget: Index is out of bound. (get) cdr of null list.\n"); |
|
} |
|
ob1 = rob; |
|
} |
|
return Kcar(ob1); |
|
} else if (ob1.tag == SbyteArray) { |
|
size = getByteArraySize(ob1); |
|
if ((0 <= i) && (i<size)) { |
|
return(KpoInteger(KopByteArray(ob1)[i])); |
|
}else{ |
|
errorKan1("%s\n","Kget: Index is out of bound. (get)\n"); |
|
} |
|
} else if (ob1.tag == Sdollar) { |
|
unsigned char *sss; |
|
sss = (unsigned char *) KopString(ob1); |
|
size = strlen(sss); |
|
if ((0 <= i) && (i<size)) { |
|
return(KpoInteger(sss[i])); |
|
}else{ |
|
errorKan1("%s\n","Kget: Index is out of bound. (get)\n"); |
|
} |
|
|
|
}else errorKan1("%s\n","Kget: argument must be an array or a list."); |
|
} |
|
|
|
/* Constructor of byteArray */ |
|
struct object newByteArray(int size,struct object obj) { |
|
unsigned char *ba; |
|
unsigned char *ba2; |
|
struct object rob,tob; |
|
int i,n; |
|
ba = NULL; |
|
if (size > 0) { |
|
ba = (unsigned char *) sGC_malloc(size); |
|
if (ba == NULL) errorKan1("%s\n","No more memory."); |
|
} |
|
rob.tag = SbyteArray; rob.lc.bytes = ba; rob.rc.ival = size; |
|
if (obj.tag == SbyteArray) { |
|
n = getByteArraySize(obj); |
|
ba2 = KopByteArray(obj); |
|
for (i=0; i<(n<size?n:size); i++) { |
|
ba[i] = ba2[i]; |
|
} |
|
for (i=n; i<size; i++) ba[i] = 0; |
|
return rob; |
|
}else if (obj.tag == Sarray) { |
|
n = getoaSize(obj); |
|
for (i=0; i<n; i++) { |
|
tob = getoa(obj,i); |
|
tob = Kto_int32(tob); |
|
if (tob.tag != Sinteger) errorKan1("%s\n","newByteArray: array is not an array of integer or universalNumber."); |
|
ba[i] = (unsigned char) KopInteger(tob); |
|
} |
|
for (i=n; i<size; i++) ba[i] = 0; |
|
return rob; |
|
}else{ |
|
for (i=0; i<size; i++) ba[i] = 0; |
|
return rob; |
|
} |
|
} |
|
struct object byteArrayToArray(struct object obj) { |
|
int n,i; unsigned char *ba; |
|
struct object rob; |
|
if (obj.tag != SbyteArray) errorKan1("%s\n","byteArrayToArray: argument is not an byteArray."); |
|
n = getByteArraySize(obj); |
|
rob = newObjectArray(n); |
|
ba = KopByteArray(obj); |
|
for (i=0; i<n; i++) putoa(rob,i,KpoInteger((int) ba[i])); |
|
return rob; |
|
} |
|
|
/****************************************************************** |
/****************************************************************** |
error handler |
error handler |
******************************************************************/ |
******************************************************************/ |
Line 2754 errorKan1(str,message) |
|
Line 3155 errorKan1(str,message) |
|
extern char *GotoLabel; |
extern char *GotoLabel; |
extern int GotoP; |
extern int GotoP; |
extern int ErrorMessageMode; |
extern int ErrorMessageMode; |
|
extern int RestrictedMode, RestrictedMode_saved; |
char tmpc[1024]; |
char tmpc[1024]; |
|
RestrictedMode = RestrictedMode_saved; |
cancelAlarm(); |
cancelAlarm(); |
if (ErrorMessageMode == 1 || ErrorMessageMode == 2) { |
if (ErrorMessageMode == 1 || ErrorMessageMode == 2) { |
sprintf(tmpc,"\nERROR(kanExport[0|1].c): "); |
sprintf(tmpc,"\nERROR(kanExport[0|1].c): "); |
Line 2766 errorKan1(str,message) |
|
Line 3169 errorKan1(str,message) |
|
if (ErrorMessageMode != 1) { |
if (ErrorMessageMode != 1) { |
fprintf(stderr,"\nERROR(kanExport[0|1].c): "); |
fprintf(stderr,"\nERROR(kanExport[0|1].c): "); |
fprintf(stderr,str,message); |
fprintf(stderr,str,message); |
|
(void) traceShowStack(); traceClearStack(); |
} |
} |
/* fprintf(stderr,"Hello "); */ |
/* fprintf(stderr,"Hello "); */ |
if (GotoP) { |
if (GotoP) { |
Line 2781 errorKan1(str,message) |
|
Line 3185 errorKan1(str,message) |
|
longjmp(EnvOfStackMachine,1); |
longjmp(EnvOfStackMachine,1); |
#endif |
#endif |
} |
} |
|
|
|
|
warningKan(str) |
warningKan(str) |
char *str; |
char *str; |