1 | #ifndef MODULOP_H |
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2 | #define MODULOP_H |
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3 | /**************************************** |
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4 | * Computer Algebra System SINGULAR * |
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5 | ****************************************/ |
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6 | /* $Id: modulop.h,v 1.3 1997-04-09 12:20:01 Singular Exp $ */ |
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7 | /* |
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8 | * ABSTRACT: numbers modulo p (<=32003) |
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9 | */ |
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10 | #include "structs.h" |
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11 | |
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12 | extern int npPrimeM; |
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13 | extern int npGen; |
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14 | extern int npMapPrime; |
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15 | |
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16 | BOOLEAN npGreaterZero (number k); |
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17 | number npMult (number a, number b); |
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18 | number npInit (int i); |
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19 | int npInt (number &n); |
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20 | number npCopy (number k1); |
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21 | number npAdd (number a, number b); |
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22 | number npSub (number a, number b); |
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23 | void npPower (number a, int i, number * result); |
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24 | BOOLEAN npIsZero (number a); |
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25 | BOOLEAN npIsOne (number a); |
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26 | BOOLEAN npIsMOne (number a); |
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27 | number npDiv (number a, number b); |
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28 | number npNeg (number c); |
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29 | number npInvers (number c); |
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30 | BOOLEAN npGreater (number a, number b); |
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31 | BOOLEAN npEqual (number a, number b); |
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32 | void npWrite (number &a); |
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33 | char * npRead (char *s, number *a); |
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34 | number npIntMod (number a, number b); |
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35 | #ifdef LDEBUG |
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36 | BOOLEAN npDBTest (number a, char *f, int l); |
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37 | #endif |
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38 | void npSetChar(int c); |
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39 | //int npGetChar(); |
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40 | |
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41 | BOOLEAN npSetMap(int c, char ** par, int nop, number minpol); |
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42 | number npMapP(number from); |
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43 | /*-------specials for spolys, do NOT use otherwise--------------------------*/ |
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44 | /* for npMultM, npSubM, npNegM, npEqualM : */ |
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45 | extern int npPminus1M; |
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46 | extern CARDINAL *npExpTable; |
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47 | extern CARDINAL *npLogTable; |
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48 | |
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49 | inline number npMultM(number a, number b) |
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50 | { |
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51 | int x = npLogTable[(int)a]+npLogTable[(int)b]; |
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52 | return (number)npExpTable[x<npPminus1M ? x : x-npPminus1M]; |
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53 | } |
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54 | /* |
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55 | *inline number npMultM(number a, number b) |
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56 | *{ |
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57 | * return (number)(((int)a*(int)b) % npPrimeM); |
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58 | *} |
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59 | */ |
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60 | #define npSubM(a,b) (number)((int)a<(int)b ?\ |
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61 | npPrimeM-(int)b+(int)a : (int)a-(int)b) |
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62 | #define npNegM(A) (number)(npPrimeM-(int)(A)) |
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63 | #define npEqualM(A,B) ((int)A==(int)B) |
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64 | |
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65 | #endif |
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66 | |
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