31 #define pSetCoeff(p,n) p_SetCoeff(p,n,currRing) 34 #define pGetOrder(p) p_GetOrder(p, currRing) 37 #define pGetComp(p) (int)__p_GetComp(p, currRing) 38 #define pSetComp(p,v) p_SetComp(p,v, currRing) 41 #define pGetExp(p,i) p_GetExp(p, i, currRing) 42 #define pSetExp(p,i,v) p_SetExp(p, i, v, currRing) 43 #define pIncrExp(p,i) p_IncrExp(p,i, currRing) 44 #define pDecrExp(p,i) p_DecrExp(p,i, currRing) 45 #define pAddExp(p,i,v) p_AddExp(p,i,v, currRing) 46 #define pSubExp(p,i,v) p_SubExp(p,i,v, currRing) 47 #define pMultExp(p,i,v) p_MultExp(p,i,v, currRing) 48 #define pGetExpSum(p1, p2, i) p_GetExpSum(p1, p2, i, currRing) 49 #define pGetExpDiff(p1, p2, i) p_GetExpDiff(p1, p2, i, currRing) 59 #define pNew() p_New(currRing) 61 #define pInit() p_Init(currRing,currRing->PolyBin) 64 #define pLmInit(p) p_LmInit(p, currRing) 67 #define pHead(p) p_Head(p, currRing) 74 #define pLmFreeAndNext(p) p_LmFreeAndNext(p, currRing) 76 #define pLmDelete(p) p_LmDelete(p, currRing) 78 #define pLmDeleteAndNext(p) p_LmDeleteAndNext(p, currRing) 86 #define pExpVectorCopy(d_p, s_p) p_ExpVectorCopy(d_p, s_p, currRing) 87 #define pExpVectorAdd(p1, p2) p_ExpVectorAdd(p1, p2, currRing) 88 #define pExpVectorSub(p1, p2) p_ExpVectorSub(p1, p2, currRing) 89 #define pExpVectorAddSub(p1, p2, p3) p_ExpVectorAddSub(p1, p2, p3, currRing) 90 #define pExpVectorSum(pr, p1, p2) p_ExpVectorSum(pr, p1, p2, currRing) 91 #define pExpVectorDiff(pr, p1, p2) p_ExpVectorDiff(pr, p1, p2, currRing) 96 #define pGetExpV(p, e) p_GetExpV(p, e, currRing) 97 #define pSetExpV(p, e) p_SetExpV(p, e, currRing) 105 #define pLmCmp(p,q) p_LmCmp(p,q,currRing) 108 #define pLmCmpAction(p,q, actionE, actionG, actionS) \ 109 _p_LmCmpAction(p,q,currRing, actionE, actionG,actionS) 111 #define pLmEqual(p1, p2) p_ExpVectorEqual(p1, p2, currRing) 115 #define pCmp(p1, p2) p_Cmp(p1, p2, currRing) 123 #define pLtCmp(p,q) p_LtCmp(p,q,currRing) 124 #define pLtCmpNoAbs(p,q) p_LtCmpNoAbs(p,q,currRing) 125 #define pLtCmpOrdSgnDiffM(p,q) p_LtCmpOrdSgnDiffM(p,q,currRing) 126 #define pLtCmpOrdSgnDiffP(p,q) p_LtCmpOrdSgnDiffP(p,q,currRing) 127 #define pLtCmpOrdSgnEqM(p,q) p_LtCmpOrdSgnEqM(p,q,currRing) 128 #define pLtCmpOrdSgnEqP(p,q) p_LtCmpOrdSgnEqP(p,q,currRing) 138 #define pDivisibleBy(a, b) p_DivisibleBy(a,b,currRing) 140 #define pLmDivisibleBy(a,b) p_LmDivisibleBy(a,b,currRing) 142 #define pLmDivisibleByNoComp(a, b) p_LmDivisibleByNoComp(a,b,currRing) 146 #define pLmShortDivisibleBy(a, sev_a, b, not_sev_b) \ 147 p_LmShortDivisibleBy(a, sev_a, b, not_sev_b, currRing) 148 #define pLmRingShortDivisibleBy(a, sev_a, b, not_sev_b) \ 149 p_LmRingShortDivisibleBy(a, sev_a, b, not_sev_b, currRing) 152 #define pGetShortExpVector(a) p_GetShortExpVector(a, currRing) 159 #define pDivisibleByRingCase(f,g) p_DivisibleByRingCase(f,g,currRing) 165 poly
p_Divide(poly a, poly
b,
const ring r);
166 poly
p_DivRem(poly a, poly
b, poly &rest,
const ring r);
181 #define pCopy(p) p_Copy(p, currRing) 182 #define pDelete(p_ptr) p_Delete(p_ptr, currRing) 194 #define pNeg(p) p_Neg(p, currRing) 195 #define ppMult_nn(p, n) pp_Mult_nn(p, n, currRing) 196 #define pMult_nn(p, n) p_Mult_nn(p, n, currRing) 197 #define ppMult_mm(p, m) pp_Mult_mm(p, m, currRing) 198 #define pMult_mm(p, m) p_Mult_mm(p, m, currRing) 199 #define pAdd(p, q) p_Add_q(p, q, currRing) 200 #define pPower(p, q) p_Power(p, q, currRing) 201 #define pMinus_mm_Mult_qq(p, m, q) p_Minus_mm_Mult_qq(p, m, q, currRing) 202 #define pPlus_mm_Mult_qq(p, m, q) p_Plus_mm_Mult_qq(p, m, q, currRing) 203 #define pMult(p, q) p_Mult_q(p, q, currRing) 204 #define ppMult_qq(p, q) pp_Mult_qq(p, q, currRing) 206 #define ppMult_Coeff_mm_DivSelect(p, m) pp_Mult_Coeff_mm_DivSelect(p, m, currRing) 213 #define pSortMerger(p) p_SortMerge(p, currRing) 214 #define pSort(p) p_SortMerge(p, currRing) 217 #define pSortAdd(p) p_SortAdd(p, currRing) 223 #define pSortCompCorrect(p) pSort(p) 232 #define pIsConstantComp(p) p_IsConstantComp(p, currRing) 234 #define pIsConstant(p) p_IsConstant(p,currRing) 236 #define pIsUnit(p) p_IsUnit(p,currRing) 238 #define pLmIsConstantComp(p) p_LmIsConstantComp(p, currRing) 239 #define pLmIsConstant(p) p_LmIsConstant(p,currRing) 242 #define pIsConstantPoly(p) p_IsConstantPoly(p, currRing) 244 #define pIsPurePower(p) p_IsPurePower(p, currRing) 245 #define pIsUnivariate(p) p_IsUnivariate(p, currRing) 246 #define pIsVector(p) (pGetComp(p)>0) 247 #define pGetVariables(p,e) p_GetVariables(p, e, currRing) 258 #define pHasNotCFRing(p1,p2) p_HasNotCFRing(p1,p2,currRing) 259 #define pHasNotCF(p1,p2) p_HasNotCF(p1,p2,currRing) 261 #define pSplit(p,r) p_Split(p,r) 267 #define pSetm(p) p_Setm(p, currRing) 269 #define pSetmComp(p) p_Setm(p, currRing) 276 #define pWeight(i) p_Weight(i,currRing) 279 #define pWTotaldegree(p) p_WTotaldegree(p,currRing) 280 #define pWDegree(p) p_WDegree(p,currRing) 283 #define pSub(a,b) p_Sub(a,b,currRing) 285 #define pmInit(a,b) p_mInit(a,b,currRing) 289 #define pMDivide(a,b) p_MDivide(a,b,currRing) 290 #define pDivideM(a,b) p_DivideM(a,b,currRing) 291 #define pLcm(a,b,m) p_Lcm(a,b,m,currRing) 292 #define pDiff(a,b) p_Diff(a,b,currRing) 293 #define pDiffOp(a,b,m) p_DiffOp(a,b,m,currRing) 295 #define pMaxComp(p) p_MaxComp(p, currRing) 296 #define pMinComp(p) p_MinComp(p, currRing) 298 #define pOneComp(p) p_OneComp(p, currRing) 299 #define pSetCompP(a,i) p_SetCompP(a, i, currRing) 308 #define pISet(i) p_ISet(i,currRing) 309 #define pNSet(n) p_NSet(n,currRing) 311 #define pOne() p_One(currRing) 313 #define pNormalize(p) p_Normalize(p,currRing) 314 #define pSize(p) p_Size(p,currRing) 318 #define pHomogen(p,varnum) p_Homogen(p,varnum,currRing) 325 #define pIsHomogen(p) p_IsHomogen(p,currRing) 328 #define pVectorHasUnitB(p,k) p_VectorHasUnitB(p,k,currRing) 329 #define pVectorHasUnit(p,k,l) p_VectorHasUnit(p,k,l,currRing) 330 #define pTakeOutComp1(p,k) p_TakeOutComp1(p,k,currRing) 357 #define pDeleteComp(p,k) p_DeleteComp(p,k,currRing) 362 #define pSubst(p,n,e) p_Subst(p,n,e,currRing) 363 #define ppJet(p,m) pp_Jet(p,m,currRing) 364 #define pJet(p,m) p_Jet(p,m,currRing) 365 #define ppJetW(p,m,iv) pp_JetW(p,m,iv,currRing) 366 #define pJetW(p,m,iv) p_JetW(p,m,iv,currRing) 367 #define pMinDeg(p,w) p_MinDeg(p,w,currRing) 368 #define pSeries(n,p,u,w) p_Series(n,p,u,w,currRing) 373 #define pDegW(p,w) p_DegW(p,w,currRing) 377 #define pVar(m) p_Var(m,currRing) 396 #define pEqualPolys(p1,p2) p_EqualPolys(p1,p2,currRing) 411 #define pTest(p) _p_Test(p, currRing, PDEBUG) 412 #define pLmTest(p) _p_LmTest(p, currRing, PDEBUG) 416 #define pTest(p) do {} while (0) 417 #define pLmTest(p) do {} while (0) static poly pLast(poly a, int &length)
returns the length of a polynomial (numbers of monomials) respect syzComp
int lcm(unsigned long *l, unsigned long *a, unsigned long *b, unsigned long p, int dega, int degb)
char * p_String(poly p, ring lmRing, ring tailRing)
void p_TakeOutComp(poly *p, long comp, poly *q, int *lq, const ring r)
BOOLEAN pIsHomogeneous(poly p)
static long p_Totaldegree(poly p, const ring r)
void p_Norm(poly p1, const ring r)
static void p_LmFree(poly p, ring)
poly p_Divide(poly a, poly b, const ring r)
polynomial division a/b, ignoring the rest via singclap_pdivide resp. idLift destroyes a...
int comp(const CanonicalForm &A, const CanonicalForm &B)
compare polynomials
poly p_DivRem(poly a, poly b, poly &rest, const ring r)
void rChangeCurrRing(ring r)
static long pTotaldegree(poly p)
BOOLEAN pCompareChain(poly p, poly p1, poly p2, poly lcm, const ring R=currRing)
Returns TRUE if.
poly singclap_gcd(poly f, poly g, const ring r)
polynomial gcd via singclap_gcd_r resp. idSyzygies destroys f and g
void p_Write0(poly p, ring lmRing, ring tailRing)
void pTakeOutComp(poly *p, long comp, poly *q, int *lq, const ring R=currRing)
Splits *p into two polys: *q which consists of all monoms with component == comp and *p of all other ...
poly p_Last(const poly p, int &l, const ring r)
void pNorm(poly p, const ring R=currRing)
static BOOLEAN length(leftv result, leftv arg)
static void pLmFree(poly p)
frees the space of the monomial m, assumes m != NULL coef is not freed, m is not advanced ...
void p_wrp(poly p, ring lmRing, ring tailRing)
void p_String0(poly p, ring lmRing, ring tailRing)
print p according to ShortOut in lmRing & tailRing
void p_Write(poly p, ring lmRing, ring tailRing)
BOOLEAN pCompareChainPart(poly p, poly p1, poly p2, poly lcm, const ring R=currRing)
void pSetPolyComp(poly p, int comp)