diff options
Diffstat (limited to 'sagemath-singular-4.2.patch')
-rw-r--r-- | sagemath-singular-4.2.patch | 1076 |
1 files changed, 0 insertions, 1076 deletions
diff --git a/sagemath-singular-4.2.patch b/sagemath-singular-4.2.patch deleted file mode 100644 index 132f6496ceac..000000000000 --- a/sagemath-singular-4.2.patch +++ /dev/null @@ -1,1076 +0,0 @@ -diff --git a/build/pkgs/singular/checksums.ini b/build/pkgs/singular/checksums.ini -index 55751d3429..ff4ab29cbe 100644 ---- a/build/pkgs/singular/checksums.ini -+++ b/build/pkgs/singular/checksums.ini -@@ -1,4 +1,5 @@ - tarball=singular-VERSION.tar.gz --sha1=5c6b6c3d2b5ebaca164967eec67e59ebb4e6142f --md5=cb50d64ab1b2b49a0c3f519e5c87639e --cksum=4294037094 -+sha1=3f85ab3e099928af4f1a44693ad425e4861d1b21 -+md5=cd8ee869421ca225b4c469a0ea74c5ee -+cksum=3689677991 -+upstream_url=ftp://jim.mathematik.uni-kl.de/pub/Math/Singular/SOURCES/4-2-0/singular-VERSION.tar.gz -diff --git a/build/pkgs/singular/package-version.txt b/build/pkgs/singular/package-version.txt -index dc3219d462..78a1780baf 100644 ---- a/build/pkgs/singular/package-version.txt -+++ b/build/pkgs/singular/package-version.txt -@@ -1 +1 @@ --4.1.1p2.p0 -+4.2.0p1 -diff --git a/build/pkgs/singular/patches/configure-no-ntl-header-check.patch b/build/pkgs/singular/patches/configure-no-ntl-header-check.patch -index 3109e57f4b..b4ec33fc05 100644 ---- a/build/pkgs/singular/patches/configure-no-ntl-header-check.patch -+++ b/build/pkgs/singular/patches/configure-no-ntl-header-check.patch -@@ -49,30 +49,4 @@ index db6423d..c0a2260 100755 - +## fi - done - -- if test "x$ntl_found" = "xyes" ; then --diff --git a/libpolys/configure b/libpolys/configure --index 41b0928..9a4b9f5 100755 ----- a/libpolys/configure --+++ b/libpolys/configure --@@ -20660,7 +20660,7 @@ fi -- -- for NTL_HOME in ${NTL_HOME_PATH} -- do ---if test -r "$NTL_HOME/include/NTL/ZZ.h"; then --+## if test -r "$NTL_HOME/include/NTL/ZZ.h"; then -- -- if test "x$NTL_HOME" != "x/usr"; then -- NTL_CPPFLAGS="-I${NTL_HOME}/include" --@@ -20731,9 +20731,9 @@ else -- fi -- rm -f core conftest.err conftest.$ac_objext \ -- conftest$ac_exeext conftest.$ac_ext ---else --- ntl_found="no" ---fi --+## else --+## ntl_found="no" --+## fi -- done -- - if test "x$ntl_found" = "xyes" ; then -diff --git a/build/pkgs/singular/patches/fix-building-with-nodebug.patch b/build/pkgs/singular/patches/fix-building-with-nodebug.patch -deleted file mode 100644 -index 46b8ab83ce..0000000000 ---- a/build/pkgs/singular/patches/fix-building-with-nodebug.patch -+++ /dev/null -@@ -1,31 +0,0 @@ --From 80a9ffc773542e3329935e5377f6906628be16e6 Mon Sep 17 00:00:00 2001 --From: Yue Ren <yue.ren.kl@gmail.com> --Date: Thu, 15 Nov 2018 10:48:24 -0500 --Subject: [PATCH] fix: building with NDEBUG=1, trac ticket 840 -- ----- -- Singular/dyn_modules/gfanlib/groebnerCone.h | 6 +++++- -- 1 file changed, 5 insertions(+), 1 deletion(-) -- --diff --git a/Singular/dyn_modules/gfanlib/groebnerCone.h b/Singular/dyn_modules/gfanlib/groebnerCone.h --index cb067250a0..8a212a7b7f 100644 ----- a/Singular/dyn_modules/gfanlib/groebnerCone.h --+++ b/Singular/dyn_modules/gfanlib/groebnerCone.h --@@ -99,12 +99,16 @@ class groebnerCone -- */ -- groebnerCones tropicalNeighbours() const; -- --+ /** --+ * Return 1 if w points is in the dual of the polyhedral cone, 0 otherwise --+ */ --+ bool pointsOutwards(const gfan::ZVector w) const; --+ -- /** -- * Debug tools. -- */ -- #ifndef NDEBUG -- bool checkFlipConeInput(const gfan::ZVector interiorPoint, const gfan::ZVector facetNormal) const; --- bool pointsOutwards(const gfan::ZVector) const; -- #endif -- }; -- -diff --git a/build/pkgs/singular/patches/singular-ntl-error-handler.patch b/build/pkgs/singular/patches/singular-ntl-error-handler.patch -deleted file mode 100644 -index 3d49529323..0000000000 ---- a/build/pkgs/singular/patches/singular-ntl-error-handler.patch -+++ /dev/null -@@ -1,75 +0,0 @@ --Move NTL error handler out of libsingular, otherwise it takes over Sage's error handler and makes it quit on NTL errors. --See https://www.singular.uni-kl.de/forum/viewtopic.php?f=10&t=2769 and https://trac.sagemath.org/ticket/24735#comment:29 --Rebased from upstream commit https://github.com/Singular/Sources/commit/502cf86d0bb2a96715be6764774b64a69c1ca34c -- --From 502cf86d0bb2a96715be6764774b64a69c1ca34c Mon Sep 17 00:00:00 2001 --From: Hans Schoenemann <hannes@mathematik.uni-kl.de> --Date: Wed, 25 Jul 2018 11:03:32 +0200 --Subject: [PATCH] move error handler for factory,NTL to the non-libSingular part -- --(see forum: "NTL error handling", for SAGE) -- --diff --git a/Singular/cntrlc.cc b/Singular/cntrlc.cc --index 622495490c..874a5deb79 100644 ----- a/Singular/cntrlc.cc --+++ b/Singular/cntrlc.cc --@@ -20,6 +20,14 @@ -- #include "Singular/links/silink.h" -- #include "Singular/links/ssiLink.h" -- --+#ifdef HAVE_NTL --+#include <NTL/version.h> --+#include <NTL/tools.h> --+#ifdef NTL_CLIENT --+NTL_CLIENT --+#endif --+#endif --+ -- /* undef, if you don't want GDB to come up on error */ -- -- #define CALL_GDB --@@ -549,11 +557,20 @@ static void stack_trace (char *const*args) -- -- # endif /* !__OPTIMIZE__ */ -- ---/*2 ---* init signal handlers ---*/ --+/// init signal handlers and error handling for libraries: NTL, factory -- void init_signals() -- { --+// NTL error handling (>= 9.3.0) ---------------------------------------- --+#ifdef HAVE_NTL --+#if (((NTL_MAJOR_VERSION==9)&&(NTL_MINOR_VERSION>=3))||(NTL_MAJOR_VERSION>=10)) --+ ErrorMsgCallback=WerrorS; --+ ErrorCallback=HALT; --+#endif --+#endif --+// factory error handling: ----------------------------------------------- --+ factoryError=WerrorS; --+ --+// signal handler ------------------------------------------------------- -- #ifdef SIGSEGV -- si_set_signal(SIGSEGV,(si_hdl_typ)sigsegv_handler); -- #endif --diff --git a/Singular/misc_ip.cc b/Singular/misc_ip.cc --index 49eddaae6f..3d5775edd7 100644 ----- a/Singular/misc_ip.cc --+++ b/Singular/misc_ip.cc --@@ -1316,16 +1316,6 @@ static BOOLEAN iiCrossProd(leftv res, leftv args) -- On(SW_USE_EZGCD_P); -- On(SW_USE_QGCD); -- Off(SW_USE_NTL_SORT); // may be changed by an command line option --- factoryError=WerrorS; --- ---// NTL error handling (>= 9.3.0) ---#ifdef HAVE_NTL ---#if (((NTL_MAJOR_VERSION==9)&&(NTL_MINOR_VERSION>=3))||(NTL_MAJOR_VERSION>=10)) --- ErrorMsgCallback=WerrorS; --- ErrorCallback=HALT; ---#endif ---#endif --- -- // memory initialization: ----------------------------------------------- -- om_Opts.OutOfMemoryFunc = omSingOutOfMemoryFunc; -- #ifndef OM_NDEBUG -diff --git a/src/doc/en/constructions/algebraic_geometry.rst b/src/doc/en/constructions/algebraic_geometry.rst -index 3933bf0839..76b173d80a 100644 ---- a/src/doc/en/constructions/algebraic_geometry.rst -+++ b/src/doc/en/constructions/algebraic_geometry.rst -@@ -139,7 +139,7 @@ Other methods - - sage: singular.lib("brnoeth.lib") - sage: s = singular.ring(2,'(x,y)','lp') -- sage: I = singular.ideal('[x^4+x, y^4+y]') -+ sage: I = singular.ideal('x^4+x', 'y^4+y') - sage: L = singular.closed_points(I) - sage: # Here you have all the points : - sage: L # random -@@ -329,7 +329,7 @@ Singular itself to help an understanding of how the wrapper works. - sage: X = Curve(f); pts = X.rational_points() - sage: D = X.divisor([ (3, pts[0]), (-1,pts[1]), (10, pts[5]) ]) - sage: X.riemann_roch_basis(D) -- [(-x - 2*y)/(-2*x - 2*y), (-x + z)/(x + y)] -+ [(-2*x + y)/(x + y), (-x + z)/(x + y)] - - - Using Singular's ``BrillNoether`` command (for details see the section - Brill-Noether in the Singular online documentation -diff --git a/src/sage/algebras/free_algebra.py b/src/sage/algebras/free_algebra.py -index 9e846158d1..b3dc47ba3f 100644 ---- a/src/sage/algebras/free_algebra.py -+++ b/src/sage/algebras/free_algebra.py -@@ -39,7 +39,15 @@ two-sided ideals, and thus provide ideal containment tests:: - Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field - sage: I = F*[x*y+y*z,x^2+x*y-y*x-y^2]*F - sage: I.groebner_basis(degbound=4) -- Twosided Ideal (y*z*y*y - y*z*y*z + y*z*z*y - y*z*z*z, y*z*y*x + y*z*y*z + y*z*z*x + y*z*z*z, y*y*z*y - y*y*z*z + y*z*z*y - y*z*z*z, y*y*z*x + y*y*z*z + y*z*z*x + y*z*z*z, y*y*y - y*y*z + y*z*y - y*z*z, y*y*x + y*y*z + y*z*x + y*z*z, x*y + y*z, x*x - y*x - y*y - y*z) of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field -+ Twosided Ideal (x*y + y*z, -+ x*x - y*x - y*y - y*z, -+ y*y*y - y*y*z + y*z*y - y*z*z, -+ y*y*x + y*y*z + y*z*x + y*z*z, -+ y*y*z*y - y*y*z*z + y*z*z*y - y*z*z*z, -+ y*z*y*y - y*z*y*z + y*z*z*y - y*z*z*z, -+ y*y*z*x + y*y*z*z + y*z*z*x + y*z*z*z, -+ y*z*y*x + y*z*y*z + y*z*z*x + y*z*z*z) of Free Associative Unital -+ Algebra on 3 generators (x, y, z) over Rational Field - sage: y*z*y*y*z*z + 2*y*z*y*z*z*x + y*z*y*z*z*z - y*z*z*y*z*x + y*z*z*z*z*x in I - True - -@@ -232,7 +240,7 @@ class FreeAlgebraFactory(UniqueFactory): - a*b^2*c^3 - """ - def create_key(self, base_ring, arg1=None, arg2=None, -- sparse=None, order='degrevlex', -+ sparse=None, order=None, - names=None, name=None, - implementation=None, degrees=None): - """ -@@ -263,6 +271,8 @@ class FreeAlgebraFactory(UniqueFactory): - return tuple(degrees),base_ring - # test if we can use libSingular/letterplace - if implementation == "letterplace": -+ if order is None: -+ order = 'degrevlex' if degrees is None else 'deglex' - args = [arg for arg in (arg1, arg2) if arg is not None] - kwds = dict(sparse=sparse, order=order, implementation="singular") - if name is not None: -@@ -273,7 +283,7 @@ class FreeAlgebraFactory(UniqueFactory): - if degrees is None: - return (PolRing,) - from sage.all import TermOrder -- T = PolRing.term_order() + TermOrder('lex',1) -+ T = TermOrder(PolRing.term_order(), PolRing.ngens() + 1) - varnames = list(PolRing.variable_names()) - newname = 'x' - while newname in varnames: -diff --git a/src/sage/algebras/letterplace/free_algebra_element_letterplace.pyx b/src/sage/algebras/letterplace/free_algebra_element_letterplace.pyx -index e7fed21ada..e9c1c9d908 100644 ---- a/src/sage/algebras/letterplace/free_algebra_element_letterplace.pyx -+++ b/src/sage/algebras/letterplace/free_algebra_element_letterplace.pyx -@@ -17,6 +17,7 @@ AUTHOR: - # https://www.gnu.org/licenses/ - # **************************************************************************** - -+from sage.groups.perm_gps.all import CyclicPermutationGroup - from sage.libs.singular.function import lib, singular_function - from sage.misc.repr import repr_lincomb - from sage.rings.polynomial.multi_polynomial_ideal import MPolynomialIdeal -@@ -25,7 +26,6 @@ from cpython.object cimport PyObject_RichCompare - # Define some singular functions - lib("freegb.lib") - poly_reduce = singular_function("NF") --singular_system=singular_function("system") - - ##################### - # Free algebra elements -@@ -445,9 +445,10 @@ cdef class FreeAlgebraElement_letterplace(AlgebraElement): - cdef int i - if P.monomial_divides(s_poly,p_poly): - return True -+ realngens = A._commutative_ring.ngens() -+ CG = CyclicPermutationGroup(P.ngens()) - for i from 0 <= i < p_d-s_d: -- s_poly = singular_system("stest",s_poly,1, -- A._degbound,A.__ngens,ring=P) -+ s_poly = s_poly * CG[realngens] - if P.monomial_divides(s_poly,p_poly): - return True - return False -@@ -601,7 +602,9 @@ cdef class FreeAlgebraElement_letterplace(AlgebraElement): - # we must put the polynomials into the same ring - left._poly = A._current_ring(left._poly) - right._poly = A._current_ring(right._poly) -- rshift = singular_system("stest",right._poly,left._poly.degree(),A._degbound,A.__ngens, ring=A._current_ring) -+ realngens = A._commutative_ring.ngens() -+ CG = CyclicPermutationGroup(A._current_ring.ngens()) -+ rshift = right._poly * CG[left._poly.degree() * realngens] - return FreeAlgebraElement_letterplace(A,left._poly*rshift, check=False) - - def __pow__(FreeAlgebraElement_letterplace self, int n, k): -@@ -627,10 +630,11 @@ cdef class FreeAlgebraElement_letterplace(AlgebraElement): - self._poly = A._current_ring(self._poly) - cdef int d = self._poly.degree() - q = p = self._poly -+ realngens = A._commutative_ring.ngens() - cdef int i -+ CG = CyclicPermutationGroup(A._current_ring.ngens()) - for i from 0<i<n: -- q = singular_system("stest",q,d,A._degbound,A.__ngens, -- ring=A._current_ring) -+ q = q * CG[d * realngens] - p *= q - return FreeAlgebraElement_letterplace(A, p, check=False) - -diff --git a/src/sage/algebras/letterplace/free_algebra_letterplace.pxd b/src/sage/algebras/letterplace/free_algebra_letterplace.pxd -index 7e5f2bbe97..d1d162c3b4 100644 ---- a/src/sage/algebras/letterplace/free_algebra_letterplace.pxd -+++ b/src/sage/algebras/letterplace/free_algebra_letterplace.pxd -@@ -13,8 +13,15 @@ from sage.rings.ring cimport Algebra - from sage.structure.element cimport AlgebraElement, ModuleElement, RingElement, Element - from sage.rings.polynomial.multi_polynomial_libsingular cimport MPolynomialRing_libsingular, MPolynomial_libsingular - from sage.algebras.letterplace.free_algebra_element_letterplace cimport FreeAlgebraElement_letterplace -+from sage.libs.singular.decl cimport ring - - -+cdef class FreeAlgebra_letterplace_libsingular(): -+ cdef ring* _lp_ring -+ cdef MPolynomialRing_libsingular _commutative_ring -+ cdef MPolynomialRing_libsingular _lp_ring_internal -+ cdef object __ngens -+ - cdef class FreeAlgebra_letterplace(Algebra): - cdef MPolynomialRing_libsingular _commutative_ring - cdef MPolynomialRing_libsingular _current_ring -diff --git a/src/sage/algebras/letterplace/free_algebra_letterplace.pyx b/src/sage/algebras/letterplace/free_algebra_letterplace.pyx -index 39cfa4dfed..b520c4cab8 100644 ---- a/src/sage/algebras/letterplace/free_algebra_letterplace.pyx -+++ b/src/sage/algebras/letterplace/free_algebra_letterplace.pyx -@@ -37,7 +37,15 @@ The preceding containment test is based on the computation of Groebner - bases with degree bound:: - - sage: I.groebner_basis(degbound=4) -- Twosided Ideal (y*z*y*y - y*z*y*z + y*z*z*y - y*z*z*z, y*z*y*x + y*z*y*z + y*z*z*x + y*z*z*z, y*y*z*y - y*y*z*z + y*z*z*y - y*z*z*z, y*y*z*x + y*y*z*z + y*z*z*x + y*z*z*z, y*y*y - y*y*z + y*z*y - y*z*z, y*y*x + y*y*z + y*z*x + y*z*z, x*y + y*z, x*x - y*x - y*y - y*z) of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field -+ Twosided Ideal (x*y + y*z, -+ x*x - y*x - y*y - y*z, -+ y*y*y - y*y*z + y*z*y - y*z*z, -+ y*y*x + y*y*z + y*z*x + y*z*z, -+ y*y*z*y - y*y*z*z + y*z*z*y - y*z*z*z, -+ y*z*y*y - y*z*y*z + y*z*z*y - y*z*z*z, -+ y*y*z*x + y*y*z*z + y*z*z*x + y*z*z*z, -+ y*z*y*x + y*z*y*z + y*z*z*x + y*z*z*z) of Free Associative Unital -+ Algebra on 3 generators (x, y, z) over Rational Field - - When reducing an element by `I`, the original generators are chosen:: - -@@ -67,7 +75,13 @@ different normal form:: - Lexicographic term order - sage: J = L*[a*b+b*c,a^2+a*b-b*c-c^2]*L - sage: J.groebner_basis(4) -- Twosided Ideal (2*b*c*b - b*c*c + c*c*b, a*c*c - 2*b*c*a - 2*b*c*c - c*c*a, a*b + b*c, a*a - 2*b*c - c*c) of Free Associative Unital Algebra on 3 generators (a, b, c) over Rational Field -+ Twosided Ideal (2*b*c*b - b*c*c + c*c*b, -+ a*b + b*c, -+ -a*c*c + 2*b*c*a + 2*b*c*c + c*c*a, -+ a*c*c*b - 2*b*c*c*b + b*c*c*c, -+ a*a - 2*b*c - c*c, -+ a*c*c*a - 2*b*c*c*a - 4*b*c*c*c - c*c*c*c) of Free Associative Unital -+ Algebra on 3 generators (a, b, c) over Rational Field - sage: (b*c*b*b).normal_form(J) - 1/2*b*c*c*b - 1/2*c*c*b*b - -@@ -105,15 +119,16 @@ TESTS:: - from sage.misc.misc_c import prod - from sage.rings.polynomial.polynomial_ring_constructor import PolynomialRing - from sage.libs.singular.function import lib, singular_function --from sage.rings.polynomial.term_order import TermOrder -+from sage.libs.singular.function cimport RingWrap -+from sage.libs.singular.ring cimport singular_ring_delete, singular_ring_reference - from sage.categories.algebras import Algebras - from sage.rings.noncommutative_ideals import IdealMonoid_nc -+from sage.rings.polynomial.plural cimport new_CRing - - ##################### - # Define some singular functions - lib("freegb.lib") --poly_reduce = singular_function("NF") --singular_system=singular_function("system") -+freeAlgebra = singular_function("freeAlgebra") - - # unfortunately we cannot set Singular attributes for MPolynomialRing_libsingular - # Hence, we must constantly work around Letterplace's sanity checks, -@@ -242,7 +257,7 @@ cdef class FreeAlgebra_letterplace(Algebra): - sage: F.<a,b,c> = FreeAlgebra(K, implementation='letterplace') - sage: TestSuite(F).run() - """ -- if not isinstance(R,MPolynomialRing_libsingular): -+ if not isinstance(R, MPolynomialRing_libsingular): - raise TypeError("A letterplace algebra must be provided by a polynomial ring of type %s" % MPolynomialRing_libsingular) - self.__ngens = R.ngens() - if degrees is None: -@@ -260,7 +275,9 @@ cdef class FreeAlgebra_letterplace(Algebra): - if degrees is None: - self._degrees = tuple([int(1)]*self.__ngens) - else: -- if (not isinstance(degrees,(tuple,list))) or len(degrees)!=self.__ngens-1 or any(i <= 0 for i in degrees): -+ if (not isinstance(degrees, (tuple, list))) \ -+ or len(degrees) != self.__ngens - self._nb_slackvars \ -+ or any(i <= 0 for i in degrees): - raise TypeError("The generator degrees must be given by a list or tuple of %d positive integers" % (self.__ngens-1)) - self._degrees = tuple([int(i) for i in degrees]) - self.set_degbound(max(self._degrees)) -@@ -662,7 +679,7 @@ cdef class FreeAlgebra_letterplace(Algebra): - Sage, since it does the reductions in a different order - compared to Singular. Therefore, we call the original Singular - reduction method, and prevent a warning message by asserting -- that `G` is a Groebner basis. -+ that `G` is a Groebner basis. :: - - sage: from sage.libs.singular.function import singular_function - sage: poly_reduce = singular_function("NF") -@@ -678,8 +695,10 @@ cdef class FreeAlgebra_letterplace(Algebra): - ngens = self.__ngens - degbound = self._degbound - cdef list G = [C(x._poly) for x in g] -+ from sage.groups.perm_gps.all import CyclicPermutationGroup -+ CG = CyclicPermutationGroup(C.ngens()) - for y in G: -- out.extend([y]+[singular_system("stest",y,n+1,degbound,ngens,ring=C) for n in xrange(d-y.degree())]) -+ out.extend([y]+[y * CG[ngens*(n+1)] for n in xrange(d-y.degree())]) - return C.ideal(out) - - ########################### -@@ -875,3 +894,28 @@ cdef class FreeAlgebra_letterplace(Algebra): - PNames[P.ngens(): len(PNames): P.ngens()+1] = list(Names[self.ngens(): len(Names): self.ngens()+1])[:P.degbound()] - x = Ppoly.hom([Gens[Names.index(asdf)] for asdf in PNames])(x.letterplace_polynomial()) - return FreeAlgebraElement_letterplace(self,self._current_ring(x)) -+ -+cdef class FreeAlgebra_letterplace_libsingular(): -+ """ -+ Internally used wrapper around a Singular Letterplace polynomial ring. -+ """ -+ -+ def __cinit__(self, MPolynomialRing_libsingular commutative_ring, -+ int degbound): -+ cdef RingWrap rw = freeAlgebra(commutative_ring, degbound) -+ self._lp_ring = singular_ring_reference(rw._ring) -+ # `_lp_ring` viewed as `MPolynomialRing_libsingular` with additional -+ # letterplace attributes set (for internal use only) -+ self._lp_ring_internal = new_CRing(rw, commutative_ring.base_ring()) -+ self._commutative_ring = commutative_ring -+ -+ def __init__(self, commutative_ring, degbound): -+ self.__ngens = commutative_ring.ngens() * degbound -+ -+ def __dealloc__(self): -+ r""" -+ Carefully deallocate the ring, without changing ``currRing`` -+ (since this method can be at unpredictable times due to garbage -+ collection). -+ """ -+ singular_ring_delete(self._lp_ring) -diff --git a/src/sage/algebras/letterplace/letterplace_ideal.pyx b/src/sage/algebras/letterplace/letterplace_ideal.pyx -index f1430ee77c..c16803280b 100644 ---- a/src/sage/algebras/letterplace/letterplace_ideal.pyx -+++ b/src/sage/algebras/letterplace/letterplace_ideal.pyx -@@ -18,7 +18,11 @@ One can compute Groebner bases out to a finite degree, can compute normal - forms and can test containment in the ideal:: - - sage: I.groebner_basis(degbound=3) -- Twosided Ideal (y*y*y - y*y*z + y*z*y - y*z*z, y*y*x + y*y*z + y*z*x + y*z*z, x*y + y*z, x*x - y*x - y*y - y*z) of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field -+ Twosided Ideal (x*y + y*z, -+ x*x - y*x - y*y - y*z, -+ y*y*y - y*y*z + y*z*y - y*z*z, -+ y*y*x + y*y*z + y*z*x + y*z*z) of Free Associative Unital Algebra -+ on 3 generators (x, y, z) over Rational Field - sage: (x*y*z*y*x).normal_form(I) - y*z*z*y*z + y*z*z*z*x + y*z*z*z*z - sage: x*y*z*y*x - (x*y*z*y*x).normal_form(I) in I -@@ -42,14 +46,14 @@ AUTHOR: - - from sage.rings.noncommutative_ideals import Ideal_nc - from sage.libs.singular.function import lib, singular_function --from sage.algebras.letterplace.free_algebra_letterplace cimport FreeAlgebra_letterplace -+from sage.algebras.letterplace.free_algebra_letterplace cimport FreeAlgebra_letterplace, FreeAlgebra_letterplace_libsingular - from sage.algebras.letterplace.free_algebra_element_letterplace cimport FreeAlgebraElement_letterplace - from sage.rings.infinity import Infinity - - ##################### - # Define some singular functions - lib("freegb.lib") --singular_system=singular_function("system") -+singular_twostd=singular_function("twostd") - poly_reduce=singular_function("NF") - - class LetterplaceIdeal(Ideal_nc): -@@ -69,14 +73,22 @@ class LetterplaceIdeal(Ideal_nc): - sage: I.groebner_basis(2) - Twosided Ideal (x*y + y*z, x*x - y*x - y*y - y*z) of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field - sage: I.groebner_basis(4) -- Twosided Ideal (y*z*y*y - y*z*y*z + y*z*z*y - y*z*z*z, y*z*y*x + y*z*y*z + y*z*z*x + y*z*z*z, y*y*z*y - y*y*z*z + y*z*z*y - y*z*z*z, y*y*z*x + y*y*z*z + y*z*z*x + y*z*z*z, y*y*y - y*y*z + y*z*y - y*z*z, y*y*x + y*y*z + y*z*x + y*z*z, x*y + y*z, x*x - y*x - y*y - y*z) of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field -+ Twosided Ideal (x*y + y*z, -+ x*x - y*x - y*y - y*z, -+ y*y*y - y*y*z + y*z*y - y*z*z, -+ y*y*x + y*y*z + y*z*x + y*z*z, -+ y*y*z*y - y*y*z*z + y*z*z*y - y*z*z*z, -+ y*z*y*y - y*z*y*z + y*z*z*y - y*z*z*z, -+ y*y*z*x + y*y*z*z + y*z*z*x + y*z*z*z, -+ y*z*y*x + y*z*y*z + y*z*z*x + y*z*z*z) of Free Associative Unital -+ Algebra on 3 generators (x, y, z) over Rational Field - - Groebner bases are cached. If one has computed a Groebner basis - out to a high degree then it will also be returned if a Groebner - basis with a lower degree bound is requested:: - -- sage: I.groebner_basis(2) -- Twosided Ideal (y*z*y*y - y*z*y*z + y*z*z*y - y*z*z*z, y*z*y*x + y*z*y*z + y*z*z*x + y*z*z*z, y*y*z*y - y*y*z*z + y*z*z*y - y*z*z*z, y*y*z*x + y*y*z*z + y*z*z*x + y*z*z*z, y*y*y - y*y*z + y*z*y - y*z*z, y*y*x + y*y*z + y*z*x + y*z*z, x*y + y*z, x*x - y*x - y*y - y*z) of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field -+ sage: I.groebner_basis(2) is I.groebner_basis(4) -+ True - - Of course, the normal form of any element has to satisfy the following:: - -@@ -116,8 +128,11 @@ class LetterplaceIdeal(Ideal_nc): - sage: F.<x,y,z> = FreeAlgebra(QQ, implementation='letterplace',degrees=[1,2,3]) - sage: I = F*[x*y+z-y*x,x*y*z-x^6+y^3]*F - sage: I.groebner_basis(Infinity) -- Twosided Ideal (x*z*z - y*x*x*z - y*x*y*y + y*x*z*x + y*y*y*x + z*x*z + z*y*y - z*z*x, -- x*y - y*x + z, -+ Twosided Ideal (x*y - y*x + z, -+ x*x*x*x*x*x - y*x*z - y*y*y + z*z, -+ x*z*z - y*x*x*z + y*x*z*x + y*y*z + y*z*y + z*x*z + z*y*y - z*z*x, -+ x*x*x*x*x*z + x*x*x*x*z*x + x*x*x*z*x*x + x*x*z*x*x*x + x*z*x*x*x*x + -+ y*x*z*y - y*y*x*z + y*z*z + z*x*x*x*x*x - z*z*y, - x*x*x*x*z*y*y + x*x*x*z*y*y*x - x*x*x*z*y*z - x*x*z*y*x*z + x*x*z*y*y*x*x + - x*x*z*y*y*y - x*x*z*y*z*x - x*z*y*x*x*z - x*z*y*x*z*x + - x*z*y*y*x*x*x + 2*x*z*y*y*y*x - 2*x*z*y*y*z - x*z*y*z*x*x - -@@ -135,10 +150,7 @@ class LetterplaceIdeal(Ideal_nc): - z*y*y*y*y - 3*z*y*y*z*x - z*y*z*x*x*x - 2*z*y*z*y*x + - 2*z*y*z*z - z*z*x*x*x*x*x + 4*z*z*x*x*z + 4*z*z*x*z*x - - 4*z*z*y*x*x*x - 3*z*z*y*y*x + 4*z*z*y*z + 4*z*z*z*x*x + -- 2*z*z*z*y, -- x*x*x*x*x*z + x*x*x*x*z*x + x*x*x*z*x*x + x*x*z*x*x*x + x*z*x*x*x*x + -- y*x*z*y - y*y*x*z + y*z*z + z*x*x*x*x*x - z*z*y, -- x*x*x*x*x*x - y*x*z - y*y*y + z*z) -+ 2*z*z*z*y) - of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field - - Again, we can compute normal forms:: -@@ -226,7 +238,15 @@ class LetterplaceIdeal(Ideal_nc): - sage: I.groebner_basis() # not tested - Twosided Ideal (y*y*y - y*y*z + y*z*y - y*z*z, y*y*x + y*y*z + y*z*x + y*z*z, x*y + y*z, x*x - y*x - y*y - y*z) of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field - sage: I.groebner_basis(4) -- Twosided Ideal (y*z*y*y - y*z*y*z + y*z*z*y - y*z*z*z, y*z*y*x + y*z*y*z + y*z*z*x + y*z*z*z, y*y*z*y - y*y*z*z + y*z*z*y - y*z*z*z, y*y*z*x + y*y*z*z + y*z*z*x + y*z*z*z, y*y*y - y*y*z + y*z*y - y*z*z, y*y*x + y*y*z + y*z*x + y*z*z, x*y + y*z, x*x - y*x - y*y - y*z) of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field -+ Twosided Ideal (x*y + y*z, -+ x*x - y*x - y*y - y*z, -+ y*y*y - y*y*z + y*z*y - y*z*z, -+ y*y*x + y*y*z + y*z*x + y*z*z, -+ y*y*z*y - y*y*z*z + y*z*z*y - y*z*z*z, -+ y*z*y*y - y*z*y*z + y*z*z*y - y*z*z*z, -+ y*y*z*x + y*y*z*z + y*z*z*x + y*z*z*z, -+ y*z*y*x + y*z*y*z + y*z*z*x + y*z*z*z) of Free Associative -+ Unital Algebra on 3 generators (x, y, z) over Rational Field - sage: I.groebner_basis(2) is I.groebner_basis(4) - True - sage: G = I.groebner_basis(4) -@@ -238,7 +258,14 @@ class LetterplaceIdeal(Ideal_nc): - - sage: I = F*[x*y-y*x,x*z-z*x,y*z-z*y,x^2*y-z^3,x*y^2+z*x^2]*F - sage: I.groebner_basis(Infinity) -- Twosided Ideal (z*z*z*y*y + z*z*z*z*x, z*x*x*x + z*z*z*y, y*z - z*y, y*y*x + z*x*x, y*x*x - z*z*z, x*z - z*x, x*y - y*x) of Free Associative Unital Algebra on 3 generators (x, y, z) over Rational Field -+ Twosided Ideal (-y*z + z*y, -+ -x*z + z*x, -+ -x*y + y*x, -+ x*x*z + x*y*y, -+ x*x*y - z*z*z, -+ x*x*x*z + y*z*z*z, -+ x*z*z*z*z + y*y*z*z*z) of Free Associative Unital Algebra -+ on 3 generators (x, y, z) over Rational Field - - Since the commutators of the generators are contained in the ideal, - we can verify the above result by a computation in a polynomial ring -@@ -275,9 +302,32 @@ class LetterplaceIdeal(Ideal_nc): - libsingular_options['redSB'] = True - A.set_degbound(degbound) - P = A._current_ring -- out = [FreeAlgebraElement_letterplace(A,X,check=False) for X in -- singular_system("freegb",P.ideal([x._poly for x in self.__GB.gens()]), -- degbound,A.__ngens, ring = P)] -+ -+ # note that degbound might be smaller than A._degbound due to caching, -+ # but degbound must be large enough to map all generators to the -+ # letterplace ring L -+ if degbound < A._degbound: -+ max_deg = max([x._poly.degree() for x in self.__GB.gens()]) -+ if degbound < max_deg: -+ degbound = max_deg -+ -+ # The following is a workaround for calling Singular's new Letterplace -+ # API (see :trac:`25993`). We construct a temporary polynomial ring L -+ # with letterplace attributes set as required by the API. As L has -+ # duplicate variable names, we need to handle this ring carefully; in -+ # particular, we cannot coerce to and from L, so we use homomorphisms -+ # for the conversion. -+ -+ cdef FreeAlgebra_letterplace_libsingular lp_ring = \ -+ FreeAlgebra_letterplace_libsingular(A._commutative_ring, degbound) -+ L = lp_ring._lp_ring_internal -+ to_L = P.hom(L.gens(), L, check=False) -+ from_L = L.hom(P.gens(), P, check=False) -+ I = L.ideal([to_L(x._poly) for x in self.__GB.gens()]) -+ gb = singular_twostd(I) -+ out = [FreeAlgebraElement_letterplace(A, from_L(X), check=False) -+ for X in gb] -+ - libsingular_options['redTail'] = bck[0] - libsingular_options['redSB'] = bck[1] - self.__GB = A.ideal(out,side='twosided',coerce=False) -diff --git a/src/sage/combinat/root_system/hecke_algebra_representation.py b/src/sage/combinat/root_system/hecke_algebra_representation.py -index 51f4113706..ba42ed1524 100644 ---- a/src/sage/combinat/root_system/hecke_algebra_representation.py -+++ b/src/sage/combinat/root_system/hecke_algebra_representation.py -@@ -746,7 +746,7 @@ class HeckeAlgebraRepresentation(WithEqualityById, SageObject): - -2121 + 212, - (q2/(q1-q2))*2121 + (q2/(-q1+q2))*121 + (q2/(-q1+q2))*212 - 12 + ((-q2)/(-q1+q2))*21 + 2, - ((-q2^2)/(-q1^2+q1*q2-q2^2))*2121 - 121 + (q2^2/(-q1^2+q1*q2-q2^2))*212 + 21, -- ((q1^2+q2^2)/(-q1^2+q1*q2-q2^2))*2121 + ((-q1^2-q2^2)/(-q1^2+q1*q2-q2^2))*121 + ((-q2^2)/(-q1^2+q1*q2-q2^2))*212 + (q2^2/(-q1^2+q1*q2-q2^2))*12 - 21 + 1, -+ ((-q1^2-q2^2)/(q1^2-q1*q2+q2^2))*2121 + ((-q1^2-q2^2)/(-q1^2+q1*q2-q2^2))*121 + ((-q2^2)/(-q1^2+q1*q2-q2^2))*212 + (q2^2/(-q1^2+q1*q2-q2^2))*12 - 21 + 1, - 2121, - (q2/(-q1+q2))*2121 + ((-q2)/(-q1+q2))*121 - 212 + 12, - -2121 + 121] -diff --git a/src/sage/combinat/root_system/non_symmetric_macdonald_polynomials.py b/src/sage/combinat/root_system/non_symmetric_macdonald_polynomials.py -index 35377724c9..ee8ddec7dd 100644 ---- a/src/sage/combinat/root_system/non_symmetric_macdonald_polynomials.py -+++ b/src/sage/combinat/root_system/non_symmetric_macdonald_polynomials.py -@@ -555,8 +555,7 @@ class NonSymmetricMacdonaldPolynomials(CherednikOperatorsEigenvectors): - B[(1, 0, 0)] - - sage: E[-omega[1]] -- B[(-1, 0, 0)] + ((-q*q1^6-q*q1^5*q2-q1*q2^5-q2^6)/(-q^3*q1^6-q^2*q1^5*q2-q*q1*q2^5-q2^6))*B[(1, 0, 0)] + ((-q1-q2)/(-q*q1-q2))*B[(0, -1, 0)] -- + ((q1+q2)/(q*q1+q2))*B[(0, 1, 0)] + ((-q1-q2)/(-q*q1-q2))*B[(0, 0, -1)] + ((-q1-q2)/(-q*q1-q2))*B[(0, 0, 1)] -+ B[(-1, 0, 0)] + ((q*q1^6+q*q1^5*q2+q1*q2^5+q2^6)/(q^3*q1^6+q^2*q1^5*q2+q*q1*q2^5+q2^6))*B[(1, 0, 0)] + ((q1+q2)/(q*q1+q2))*B[(0, -1, 0)] + ((q1+q2)/(q*q1+q2))*B[(0, 1, 0)] + ((q1+q2)/(q*q1+q2))*B[(0, 0, -1)] + ((q1+q2)/(q*q1+q2))*B[(0, 0, 1)] - - sage: E[omega[2]] - ((-q1*q2^3-q2^4)/(q*q1^4-q2^4))*B[(1, 0, 0)] + B[(0, 1, 0)] -@@ -567,14 +566,7 @@ class NonSymmetricMacdonaldPolynomials(CherednikOperatorsEigenvectors): - + ((-q1*q2-q2^2)/(q*q1^2-q2^2))*B[(0, 0, -1)] + ((q1*q2+q2^2)/(-q*q1^2+q2^2))*B[(0, 0, 1)] - - sage: E[-omega[1]-omega[2]] -- ((-q^3*q1^6-q^3*q1^5*q2-2*q^2*q1^6-3*q^2*q1^5*q2+q^2*q1^4*q2^2+2*q^2*q1^3*q2^3+q*q1^5*q2+2*q*q1^4*q2^2-q*q1^3*q2^3-2*q*q1^2*q2^4+q*q1*q2^5+q*q2^6-q1^3*q2^3-q1^2*q2^4+2*q1*q2^5+2*q2^6)/(-q^4*q1^6-q^3*q1^5*q2+q^3*q1^4*q2^2-q*q1^2*q2^4+q*q1*q2^5+q2^6))*B[(0, 0, 0)] + B[(-1, -1, 0)] -- + ((q*q1^4+q*q1^3*q2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(-1, 1, 0)] + ((q1+q2)/(q*q1+q2))*B[(-1, 0, -1)] + ((-q1-q2)/(-q*q1-q2))*B[(-1, 0, 1)] -- + ((q*q1^4+q*q1^3*q2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(1, -1, 0)] -- + ((-q^2*q1^6-q^2*q1^5*q2-q*q1^5*q2+q*q1^3*q2^3+q1^5*q2+q1^4*q2^2-q1^3*q2^3-q1^2*q2^4+q1*q2^5+q2^6)/(-q^4*q1^6-q^3*q1^5*q2+q^3*q1^4*q2^2-q*q1^2*q2^4+q*q1*q2^5+q2^6))*B[(1, 1, 0)] -- + ((-q*q1^4-2*q*q1^3*q2-q*q1^2*q2^2+q1^3*q2+q1^2*q2^2-q1*q2^3-q2^4)/(-q^3*q1^4-q^2*q1^3*q2-q*q1*q2^3-q2^4))*B[(1, 0, -1)] -- + ((-q*q1^4-2*q*q1^3*q2-q*q1^2*q2^2+q1^3*q2+q1^2*q2^2-q1*q2^3-q2^4)/(-q^3*q1^4-q^2*q1^3*q2-q*q1*q2^3-q2^4))*B[(1, 0, 1)] + ((q1+q2)/(q*q1+q2))*B[(0, -1, -1)] -- + ((-q1-q2)/(-q*q1-q2))*B[(0, -1, 1)] + ((q*q1^4+2*q*q1^3*q2+q*q1^2*q2^2-q1^3*q2-q1^2*q2^2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(0, 1, -1)] -- + ((q*q1^4+2*q*q1^3*q2+q*q1^2*q2^2-q1^3*q2-q1^2*q2^2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(0, 1, 1)] -+ ((q^3*q1^6+q^3*q1^5*q2+2*q^2*q1^6+3*q^2*q1^5*q2-q^2*q1^4*q2^2-2*q^2*q1^3*q2^3-q*q1^5*q2-2*q*q1^4*q2^2+q*q1^3*q2^3+2*q*q1^2*q2^4-q*q1*q2^5-q*q2^6+q1^3*q2^3+q1^2*q2^4-2*q1*q2^5-2*q2^6)/(q^4*q1^6+q^3*q1^5*q2-q^3*q1^4*q2^2+q*q1^2*q2^4-q*q1*q2^5-q2^6))*B[(0, 0, 0)] + B[(-1, -1, 0)] + ((q*q1^4+q*q1^3*q2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(-1, 1, 0)] + ((q1+q2)/(q*q1+q2))*B[(-1, 0, -1)] + ((-q1-q2)/(-q*q1-q2))*B[(-1, 0, 1)] + ((q*q1^4+q*q1^3*q2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(1, -1, 0)] + ((q^2*q1^6+q^2*q1^5*q2+q*q1^5*q2-q*q1^3*q2^3-q1^5*q2-q1^4*q2^2+q1^3*q2^3+q1^2*q2^4-q1*q2^5-q2^6)/(q^4*q1^6+q^3*q1^5*q2-q^3*q1^4*q2^2+q*q1^2*q2^4-q*q1*q2^5-q2^6))*B[(1, 1, 0)] + ((q*q1^4+2*q*q1^3*q2+q*q1^2*q2^2-q1^3*q2-q1^2*q2^2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(1, 0, -1)] + ((q*q1^4+2*q*q1^3*q2+q*q1^2*q2^2-q1^3*q2-q1^2*q2^2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(1, 0, 1)] + ((q1+q2)/(q*q1+q2))*B[(0, -1, -1)] + ((q1+q2)/(q*q1+q2))*B[(0, -1, 1)] + ((q*q1^4+2*q*q1^3*q2+q*q1^2*q2^2-q1^3*q2-q1^2*q2^2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(0, 1, -1)] + ((q*q1^4+2*q*q1^3*q2+q*q1^2*q2^2-q1^3*q2-q1^2*q2^2+q1*q2^3+q2^4)/(q^3*q1^4+q^2*q1^3*q2+q*q1*q2^3+q2^4))*B[(0, 1, 1)] - - sage: E[omega[1]-omega[2]] - ((q^3*q1^7+q^3*q1^6*q2-q*q1*q2^6-q*q2^7)/(q^3*q1^7-q^2*q1^5*q2^2+q*q1^2*q2^5-q2^7))*B[(0, 0, 0)] + B[(1, -1, 0)] -@@ -812,7 +804,7 @@ class NonSymmetricMacdonaldPolynomials(CherednikOperatorsEigenvectors): - ((-q*q1*q2^3-q*q2^4)/(q^2*q1^4-q2^4))*B[(0, 0)] + B[(1, 0)] - - sage: E[2*omega[2]] # long time # not checked against Bogdan's notes, but a good self-consistency test -- ((-q^12*q1^6-q^12*q1^5*q2+2*q^10*q1^5*q2+5*q^10*q1^4*q2^2+3*q^10*q1^3*q2^3+2*q^8*q1^5*q2+4*q^8*q1^4*q2^2+q^8*q1^3*q2^3-q^8*q1^2*q2^4+q^8*q1*q2^5+q^8*q2^6-q^6*q1^3*q2^3+q^6*q1^2*q2^4+4*q^6*q1*q2^5+2*q^6*q2^6+q^4*q1^3*q2^3+3*q^4*q1^2*q2^4+4*q^4*q1*q2^5+2*q^4*q2^6)/(-q^12*q1^6-q^10*q1^5*q2-q^8*q1^3*q2^3+q^6*q1^4*q2^2-q^6*q1^2*q2^4+q^4*q1^3*q2^3+q^2*q1*q2^5+q2^6))*B[(0, 0)] + ((q^7*q1^2*q2+2*q^7*q1*q2^2+q^7*q2^3+q^5*q1^2*q2+2*q^5*q1*q2^2+q^5*q2^3)/(-q^8*q1^3-q^6*q1^2*q2+q^2*q1*q2^2+q2^3))*B[(-1, 0)] + ((q^6*q1*q2+q^6*q2^2)/(-q^6*q1^2+q2^2))*B[(-1, -1)] + ((q^6*q1^2*q2+2*q^6*q1*q2^2+q^6*q2^3+q^4*q1^2*q2+2*q^4*q1*q2^2+q^4*q2^3)/(-q^8*q1^3-q^6*q1^2*q2+q^2*q1*q2^2+q2^3))*B[(-1, 1)] + ((q^3*q1*q2+q^3*q2^2)/(-q^6*q1^2+q2^2))*B[(-1, 2)] + ((-q^7*q1^3-q^7*q1^2*q2+q^7*q1*q2^2+q^7*q2^3+2*q^5*q1^2*q2+4*q^5*q1*q2^2+2*q^5*q2^3+2*q^3*q1^2*q2+4*q^3*q1*q2^2+2*q^3*q2^3)/(-q^8*q1^3-q^6*q1^2*q2+q^2*q1*q2^2+q2^3))*B[(1, 0)] + ((-q^6*q1^2*q2-2*q^6*q1*q2^2-q^6*q2^3-q^4*q1^2*q2-2*q^4*q1*q2^2-q^4*q2^3)/(q^8*q1^3+q^6*q1^2*q2-q^2*q1*q2^2-q2^3))*B[(1, -1)] + ((q^8*q1^3+q^8*q1^2*q2+q^6*q1^3+q^6*q1^2*q2-q^6*q1*q2^2-q^6*q2^3-2*q^4*q1^2*q2-4*q^4*q1*q2^2-2*q^4*q2^3-q^2*q1^2*q2-3*q^2*q1*q2^2-2*q^2*q2^3)/(q^8*q1^3+q^6*q1^2*q2-q^2*q1*q2^2-q2^3))*B[(1, 1)] + ((-q^5*q1^2-q^5*q1*q2+q^3*q1*q2+q^3*q2^2+q*q1*q2+q*q2^2)/(-q^6*q1^2+q2^2))*B[(1, 2)] + ((-q^6*q1^2-q^6*q1*q2+q^4*q1*q2+q^4*q2^2+q^2*q1*q2+q^2*q2^2)/(-q^6*q1^2+q2^2))*B[(2, 0)] + ((q^3*q1*q2+q^3*q2^2)/(-q^6*q1^2+q2^2))*B[(2, -1)] + ((-q^5*q1^2-q^5*q1*q2+q^3*q1*q2+q^3*q2^2+q*q1*q2+q*q2^2)/(-q^6*q1^2+q2^2))*B[(2, 1)] + B[(2, 2)] + ((-q^7*q1^2*q2-2*q^7*q1*q2^2-q^7*q2^3-q^5*q1^2*q2-2*q^5*q1*q2^2-q^5*q2^3)/(q^8*q1^3+q^6*q1^2*q2-q^2*q1*q2^2-q2^3))*B[(0, -1)] + ((q^7*q1^3+q^7*q1^2*q2-q^7*q1*q2^2-q^7*q2^3-2*q^5*q1^2*q2-4*q^5*q1*q2^2-2*q^5*q2^3-2*q^3*q1^2*q2-4*q^3*q1*q2^2-2*q^3*q2^3)/(q^8*q1^3+q^6*q1^2*q2-q^2*q1*q2^2-q2^3))*B[(0, 1)] + ((-q^6*q1^2-q^6*q1*q2+q^4*q1*q2+q^4*q2^2+q^2*q1*q2+q^2*q2^2)/(-q^6*q1^2+q2^2))*B[(0, 2)] -+ ((-q^12*q1^6-q^12*q1^5*q2+2*q^10*q1^5*q2+5*q^10*q1^4*q2^2+3*q^10*q1^3*q2^3+2*q^8*q1^5*q2+4*q^8*q1^4*q2^2+q^8*q1^3*q2^3-q^8*q1^2*q2^4+q^8*q1*q2^5+q^8*q2^6-q^6*q1^3*q2^3+q^6*q1^2*q2^4+4*q^6*q1*q2^5+2*q^6*q2^6+q^4*q1^3*q2^3+3*q^4*q1^2*q2^4+4*q^4*q1*q2^5+2*q^4*q2^6)/(-q^12*q1^6-q^10*q1^5*q2-q^8*q1^3*q2^3+q^6*q1^4*q2^2-q^6*q1^2*q2^4+q^4*q1^3*q2^3+q^2*q1*q2^5+q2^6))*B[(0, 0)] + ((q^7*q1^2*q2+2*q^7*q1*q2^2+q^7*q2^3+q^5*q1^2*q2+2*q^5*q1*q2^2+q^5*q2^3)/(-q^8*q1^3-q^6*q1^2*q2+q^2*q1*q2^2+q2^3))*B[(-1, 0)] + ((-q^6*q1*q2-q^6*q2^2)/(q^6*q1^2-q2^2))*B[(-1, -1)] + ((q^6*q1^2*q2+2*q^6*q1*q2^2+q^6*q2^3+q^4*q1^2*q2+2*q^4*q1*q2^2+q^4*q2^3)/(-q^8*q1^3-q^6*q1^2*q2+q^2*q1*q2^2+q2^3))*B[(-1, 1)] + ((-q^3*q1*q2-q^3*q2^2)/(q^6*q1^2-q2^2))*B[(-1, 2)] + ((q^7*q1^3+q^7*q1^2*q2-q^7*q1*q2^2-q^7*q2^3-2*q^5*q1^2*q2-4*q^5*q1*q2^2-2*q^5*q2^3-2*q^3*q1^2*q2-4*q^3*q1*q2^2-2*q^3*q2^3)/(q^8*q1^3+q^6*q1^2*q2-q^2*q1*q2^2-q2^3))*B[(1, 0)] + ((q^6*q1^2*q2+2*q^6*q1*q2^2+q^6*q2^3+q^4*q1^2*q2+2*q^4*q1*q2^2+q^4*q2^3)/(-q^8*q1^3-q^6*q1^2*q2+q^2*q1*q2^2+q2^3))*B[(1, -1)] + ((q^8*q1^3+q^8*q1^2*q2+q^6*q1^3+q^6*q1^2*q2-q^6*q1*q2^2-q^6*q2^3-2*q^4*q1^2*q2-4*q^4*q1*q2^2-2*q^4*q2^3-q^2*q1^2*q2-3*q^2*q1*q2^2-2*q^2*q2^3)/(q^8*q1^3+q^6*q1^2*q2-q^2*q1*q2^2-q2^3))*B[(1, 1)] + ((q^5*q1^2+q^5*q1*q2-q^3*q1*q2-q^3*q2^2-q*q1*q2-q*q2^2)/(q^6*q1^2-q2^2))*B[(1, 2)] + ((-q^6*q1^2-q^6*q1*q2+q^4*q1*q2+q^4*q2^2+q^2*q1*q2+q^2*q2^2)/(-q^6*q1^2+q2^2))*B[(2, 0)] + ((-q^3*q1*q2-q^3*q2^2)/(q^6*q1^2-q2^2))*B[(2, -1)] + ((-q^5*q1^2-q^5*q1*q2+q^3*q1*q2+q^3*q2^2+q*q1*q2+q*q2^2)/(-q^6*q1^2+q2^2))*B[(2, 1)] + B[(2, 2)] + ((q^7*q1^2*q2+2*q^7*q1*q2^2+q^7*q2^3+q^5*q1^2*q2+2*q^5*q1*q2^2+q^5*q2^3)/(-q^8*q1^3-q^6*q1^2*q2+q^2*q1*q2^2+q2^3))*B[(0, -1)] + ((q^7*q1^3+q^7*q1^2*q2-q^7*q1*q2^2-q^7*q2^3-2*q^5*q1^2*q2-4*q^5*q1*q2^2-2*q^5*q2^3-2*q^3*q1^2*q2-4*q^3*q1*q2^2-2*q^3*q2^3)/(q^8*q1^3+q^6*q1^2*q2-q^2*q1*q2^2-q2^3))*B[(0, 1)] + ((q^6*q1^2+q^6*q1*q2-q^4*q1*q2-q^4*q2^2-q^2*q1*q2-q^2*q2^2)/(q^6*q1^2-q2^2))*B[(0, 2)] - sage: E.recursion(2*omega[2]) - [0, 1, 0, 2, 1, 0, 2, 1, 0] - -@@ -997,7 +989,7 @@ class NonSymmetricMacdonaldPolynomials(CherednikOperatorsEigenvectors): - sage: L0 = E.keys() - sage: omega = L0.fundamental_weights() - sage: E[2*omega[2]] -- ((q*q1+q*q2)/(q*q1+q2))*B[(1, 2, 1)] + ((q*q1+q*q2)/(q*q1+q2))*B[(2, 1, 1)] + B[(2, 2, 0)] -+ ((-q*q1-q*q2)/(-q*q1-q2))*B[(1, 2, 1)] + ((-q*q1-q*q2)/(-q*q1-q2))*B[(2, 1, 1)] + B[(2, 2, 0)] - sage: for d in range(4): # long time (9s) - ....: for weight in IntegerVectors(d,3).map(list).map(L0): - ....: eigenvalues = E.eigenvalues(E[L0(weight)]) -diff --git a/src/sage/combinat/sf/macdonald.py b/src/sage/combinat/sf/macdonald.py -index 49a42e2786..53750a6341 100644 ---- a/src/sage/combinat/sf/macdonald.py -+++ b/src/sage/combinat/sf/macdonald.py -@@ -482,7 +482,7 @@ class Macdonald(UniqueRepresentation): - sage: Ht = Sym.macdonald().Ht() - sage: s = Sym.schur() - sage: Ht(s([2,1])) -- ((-q)/(-q*t^2+t^3+q^2-q*t))*McdHt[1, 1, 1] + ((q^2+q*t+t^2)/(-q^2*t^2+q^3+t^3-q*t))*McdHt[2, 1] + (t/(-q^3+q^2*t+q*t-t^2))*McdHt[3] -+ (q/(q*t^2-t^3-q^2+q*t))*McdHt[1, 1, 1] + ((-q^2-q*t-t^2)/(q^2*t^2-q^3-t^3+q*t))*McdHt[2, 1] + (t/(-q^3+q^2*t+q*t-t^2))*McdHt[3] - sage: Ht(s([2])) - ((-q)/(-q+t))*McdHt[1, 1] + (t/(-q+t))*McdHt[2] - """ -@@ -900,7 +900,7 @@ class MacdonaldPolynomials_generic(sfa.SymmetricFunctionAlgebra_generic): - sage: Q.product(Q[1],Q[2]) - McdQ[2, 1] + ((q^2*t-q^2+q*t-q+t-1)/(q^2*t-1))*McdQ[3] - sage: Ht.product(Ht[1],Ht[2]) -- ((-q^2+1)/(-q^2+t))*McdHt[2, 1] + ((-t+1)/(q^2-t))*McdHt[3] -+ ((q^2-1)/(q^2-t))*McdHt[2, 1] + ((t-1)/(-q^2+t))*McdHt[3] - """ - return self(self._s(left) * self._s(right)) - -diff --git a/src/sage/interfaces/singular.py b/src/sage/interfaces/singular.py -index 88ea467d9e..7a9f224e9c 100644 ---- a/src/sage/interfaces/singular.py -+++ b/src/sage/interfaces/singular.py -@@ -191,13 +191,21 @@ The 1x1 and 2x2 minors:: - 6*y+2*x^3-6*x^2*y, - 6*x^2*y-6*x*y^2, - 6*x^2*y-6*x*y^2, -- 6*x+6*x*y^2-2*y^3 -+ 6*x+6*x*y^2-2*y^3, -+ 0, -+ 0, -+ 0, -+ 0 - sage: H.minor(2) - 12*y+4*x^3-12*x^2*y, - 12*x^2*y-12*x*y^2, - 12*x^2*y-12*x*y^2, - 12*x+12*x*y^2-4*y^3, -- -36*x*y-12*x^4+36*x^3*y-36*x*y^3+12*y^4+24*x^4*y^2-32*x^3*y^3+24*x^2*y^4 -+ -36*x*y-12*x^4+36*x^3*y-36*x*y^3+12*y^4+24*x^4*y^2-32*x^3*y^3+24*x^2*y^4, -+ 0, -+ 0, -+ 0, -+ 0 - - :: - -@@ -240,7 +248,7 @@ Groebner basis for some ideal, using Singular through Sage. - - :: - -- sage: singular.lib('poly.lib') -+ sage: singular.lib('polylib.lib') - sage: singular.ring(32003, '(a,b,c,d,e,f)', 'lp') - polynomial ring, over a field, global ordering - // coefficients: ZZ/32003 -@@ -260,7 +268,7 @@ We restart everything and try again, but correctly. - :: - - sage: singular.quit() -- sage: singular.lib('poly.lib'); R = singular.ring(32003, '(a,b,c,d,e,f)', 'lp') -+ sage: singular.lib('polylib.lib'); R = singular.ring(32003, '(a,b,c,d,e,f)', 'lp') - sage: I = singular.ideal('cyclic(6)') - sage: I.groebner() - f^48-2554*f^42-15674*f^36+12326*f^30-12326*f^18+15674*f^12+2554*f^6-1, -diff --git a/src/sage/libs/singular/function.pyx b/src/sage/libs/singular/function.pyx -index bf03efe222..8a9b771f26 100644 ---- a/src/sage/libs/singular/function.pyx -+++ b/src/sage/libs/singular/function.pyx -@@ -938,7 +938,7 @@ cdef class Converter(SageObject): - sage: C = Curve((x-y)*(y-z)*(z-x)) - sage: I = C.defining_ideal() - sage: import sage.libs.singular.function_factory -- sage: freerank = sage.libs.singular.function_factory.ff.poly__lib.freerank -+ sage: freerank = sage.libs.singular.function_factory.ff.polylib__lib.freerank - sage: freerank(I, true) - [-1, [x^2*y - x*y^2 - x^2*z + y^2*z + x*z^2 - y*z^2]] - -@@ -1257,7 +1257,7 @@ cdef class SingularFunction(SageObject): - Traceback (most recent call last): - ... - RuntimeError: error in Singular function call 'size': -- Wrong number of arguments (got 2 arguments, arity code is 300) -+ Wrong number of arguments (got 2 arguments, arity code is 302) - sage: size('foobar', ring=P) - 6 - -@@ -1308,7 +1308,7 @@ cdef class SingularFunction(SageObject): - ... - RuntimeError: error in Singular function call 'triangL': - The input is no groebner basis. -- leaving triang.lib::triangL -+ leaving triang.lib::triangL (0) - - Flush any stray output -- see :trac:`28622`:: - -@@ -1671,17 +1671,17 @@ def singular_function(name): - Traceback (most recent call last): - ... - RuntimeError: error in Singular function call 'factorize': -- Wrong number of arguments (got 0 arguments, arity code is 303) -+ Wrong number of arguments (got 0 arguments, arity code is 305) - sage: factorize(f, 1, 2) - Traceback (most recent call last): - ... - RuntimeError: error in Singular function call 'factorize': -- Wrong number of arguments (got 3 arguments, arity code is 303) -+ Wrong number of arguments (got 3 arguments, arity code is 305) - sage: factorize(f, 1, 2, 3) - Traceback (most recent call last): - ... - RuntimeError: error in Singular function call 'factorize': -- Wrong number of arguments (got 4 arguments, arity code is 303) -+ Wrong number of arguments (got 4 arguments, arity code is 305) - - The Singular function ``list`` can be called with any number of - arguments:: -diff --git a/src/sage/rings/asymptotic/asymptotics_multivariate_generating_functions.py b/src/sage/rings/asymptotic/asymptotics_multivariate_generating_functions.py -index 4a2a6de5f6..1975374e2a 100644 ---- a/src/sage/rings/asymptotic/asymptotics_multivariate_generating_functions.py -+++ b/src/sage/rings/asymptotic/asymptotics_multivariate_generating_functions.py -@@ -1578,7 +1578,7 @@ class FractionWithFactoredDenominator(RingElement): - (1, [(x*y + x + y - 1, 2)]) - sage: alpha = [4, 3] - sage: decomp = F.asymptotic_decomposition(alpha); decomp -- (0, []) + (-3/2*r*(1/y + 1) - 1/2/y - 1/2, [(x*y + x + y - 1, 1)]) -+ (0, []) + (-2*r*(1/x + 1) - 1/2/x - 1/2, [(x*y + x + y - 1, 1)]) - sage: F1 = decomp[1] - sage: p = {y: 1/3, x: 1/2} - sage: asy = F1.asymptotics(p, alpha, 2, verbose=True) -@@ -1612,7 +1612,7 @@ class FractionWithFactoredDenominator(RingElement): - sage: alpha = [3, 3, 2] - sage: decomp = F.asymptotic_decomposition(alpha); decomp - (0, []) + -- (-16*r*(3/y - 4/z) - 16/y + 32/z, -+ (16*r*(3/x - 2/z) + 16/x - 16/z, - [(x + 2*y + z - 4, 1), (2*x + y + z - 4, 1)]) - sage: F1 = decomp[1] - sage: p = {x: 1, y: 1, z: 1} -diff --git a/src/sage/rings/ideal.py b/src/sage/rings/ideal.py -index 72548769de..53076ac62e 100644 ---- a/src/sage/rings/ideal.py -+++ b/src/sage/rings/ideal.py -@@ -1709,7 +1709,7 @@ def Cyclic(R, n=None, homog=False, singular=None): - from sage.interfaces.singular import singular as singular_default - singular = singular_default - -- singular.lib("poly") -+ singular.lib("polylib") - R2 = R.change_ring(RationalField()) - R2._singular_().set_ring() - -@@ -1760,7 +1760,7 @@ def Katsura(R, n=None, homog=False, singular=None): - if singular is None: - from sage.interfaces.singular import singular as singular_default - singular = singular_default -- singular.lib("poly") -+ singular.lib("polylib") - R2 = R.change_ring(RationalField()) - R2._singular_().set_ring() - -diff --git a/src/sage/rings/polynomial/laurent_polynomial_ideal.py b/src/sage/rings/polynomial/laurent_polynomial_ideal.py -index 886458ff1e..ec8e83ea80 100644 ---- a/src/sage/rings/polynomial/laurent_polynomial_ideal.py -+++ b/src/sage/rings/polynomial/laurent_polynomial_ideal.py -@@ -470,8 +470,8 @@ class LaurentPolynomialIdeal( Ideal_generic ): - sage: p = z^2 + 1; q = z^3 + 2 - sage: I = P.ideal((p*q^2, y-z^2)) - sage: I.associated_primes() -- (Ideal (y + 1, z^2 + 1) of Multivariate Laurent Polynomial Ring in x, y, z over Rational Field, -- Ideal (z^2 - y, y*z + 2, y^2 + 2*z) of Multivariate Laurent Polynomial Ring in x, y, z over Rational Field) -+ (Ideal (z^2 - y, y*z + 2, y^2 + 2*z) of Multivariate Laurent Polynomial Ring in x, y, z over Rational Field, -+ Ideal (y + 1, z^2 + 1) of Multivariate Laurent Polynomial Ring in x, y, z over Rational Field) - """ - l = self.polynomial_ideal(saturate=False).associated_primes() - l2 = [self.ring().ideal(I.gens(), hint=I) for I in l] -@@ -490,8 +490,8 @@ class LaurentPolynomialIdeal( Ideal_generic ): - sage: p = z^2 + 1; q = z^3 + 2 - sage: I = P.ideal((p*q^2, y-z^2)) - sage: I.minimal_associated_primes() -- (Ideal (z^2 + 1, -z^2 + y) of Multivariate Laurent Polynomial Ring in x, y, z over Rational Field, -- Ideal (z^3 + 2, -z^2 + y) of Multivariate Laurent Polynomial Ring in x, y, z over Rational Field) -+ (Ideal (z^3 + 2, -z^2 + y) of Multivariate Laurent Polynomial Ring in x, y, z over Rational Field, -+ Ideal (z^2 + 1, -z^2 + y) of Multivariate Laurent Polynomial Ring in x, y, z over Rational Field) - """ - l = self.polynomial_ideal(saturate=saturate).minimal_associated_primes() - l2 = [self.ring().ideal(I.gens(), hint=I) for I in l] -diff --git a/src/sage/rings/polynomial/multi_polynomial_element.py b/src/sage/rings/polynomial/multi_polynomial_element.py -index 43e93b823f..1bd3696c73 100644 ---- a/src/sage/rings/polynomial/multi_polynomial_element.py -+++ b/src/sage/rings/polynomial/multi_polynomial_element.py -@@ -2230,7 +2230,7 @@ def degree_lowest_rational_function(r, x): - :: - - sage: r = f/g; r -- (-b*c^2 + 2)/(a*b^3*c^6 - 2*a*c) -+ (-2*b*c^2 - 1)/(2*a*b^3*c^6 + a*c) - sage: degree_lowest_rational_function(r,a) - -1 - sage: degree_lowest_rational_function(r,b) -diff --git a/src/sage/rings/polynomial/multi_polynomial_ideal.py b/src/sage/rings/polynomial/multi_polynomial_ideal.py -index 130d8317a7..8e76b06313 100644 ---- a/src/sage/rings/polynomial/multi_polynomial_ideal.py -+++ b/src/sage/rings/polynomial/multi_polynomial_ideal.py -@@ -154,7 +154,7 @@ when the system has no solutions over the rationals. - which is not 1. :: - - sage: I.groebner_basis() -- [x + 130433*y + 59079*z, y^2 + 3*y + 17220, y*z + 5*y + 14504, 2*y + 158864, z^2 + 17223, 2*z + 41856, 164878] -+ [x + y + 57119*z + 4, y^2 + 3*y + 17220, y*z + y + 26532, 2*y + 158864, z^2 + 17223, 2*z + 41856, 164878] - - Now for each prime `p` dividing this integer 164878, the Groebner - basis of I modulo `p` will be non-trivial and will thus give a -@@ -711,16 +711,16 @@ class MPolynomialIdeal_singular_repr( - sage: p = z^2 + 1; q = z^3 + 2 - sage: I = (p*q^2, y-z^2)*R - sage: pd = I.complete_primary_decomposition(); pd -- [(Ideal (z^2 + 1, y + 1) of Multivariate Polynomial Ring in x, y, z over Rational Field, -- Ideal (z^2 + 1, y + 1) of Multivariate Polynomial Ring in x, y, z over Rational Field), -- (Ideal (z^6 + 4*z^3 + 4, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field, -- Ideal (z^3 + 2, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field)] -- -- sage: I.primary_decomposition_complete(algorithm = 'gtz') - [(Ideal (z^6 + 4*z^3 + 4, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field, - Ideal (z^3 + 2, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field), -- (Ideal (z^2 + 1, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field, -- Ideal (z^2 + 1, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field)] -+ (Ideal (z^2 + 1, y + 1) of Multivariate Polynomial Ring in x, y, z over Rational Field, -+ Ideal (z^2 + 1, y + 1) of Multivariate Polynomial Ring in x, y, z over Rational Field)] -+ -+ sage: I.primary_decomposition_complete(algorithm = 'gtz') -+ [(Ideal (z^2 + 1, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field, -+ Ideal (z^2 + 1, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field), -+ (Ideal (z^6 + 4*z^3 + 4, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field, -+ Ideal (z^3 + 2, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field)] - - sage: from functools import reduce - sage: reduce(lambda Qi,Qj: Qi.intersection(Qj), [Qi for (Qi,radQi) in pd]) == I -@@ -823,8 +823,8 @@ class MPolynomialIdeal_singular_repr( - sage: p = z^2 + 1; q = z^3 + 2 - sage: I = (p*q^2, y-z^2)*R - sage: pd = I.primary_decomposition(); pd -- [Ideal (z^2 + 1, y + 1) of Multivariate Polynomial Ring in x, y, z over Rational Field, -- Ideal (z^6 + 4*z^3 + 4, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field] -+ [Ideal (z^6 + 4*z^3 + 4, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field, -+ Ideal (z^2 + 1, y + 1) of Multivariate Polynomial Ring in x, y, z over Rational Field] - - :: - -@@ -895,8 +895,8 @@ class MPolynomialIdeal_singular_repr( - sage: p = z^2 + 1; q = z^3 + 2 - sage: I = (p*q^2, y-z^2)*R - sage: pd = I.associated_primes(); pd -- [Ideal (z^2 + 1, y + 1) of Multivariate Polynomial Ring in x, y, z over Rational Field, -- Ideal (z^3 + 2, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field] -+ [Ideal (z^3 + 2, y - z^2) of Multivariate Polynomial Ring in x, y, z over Rational Field, -+ Ideal (z^2 + 1, y + 1) of Multivariate Polynomial Ring in x, y, z over Rational Field] - - ALGORITHM: - -@@ -1566,8 +1566,8 @@ class MPolynomialIdeal_singular_repr( - sage: I2 = y*R - sage: I3 = (x, y)*R - sage: I4 = (x^2 + x*y*z, y^2 - z^3*y, z^3 + y^5*x*z)*R -- sage: I1.intersection(I2, I3, I4) -- Ideal (x*y*z^20 - x*y*z^3, x*y^2 - x*y*z^3, x^2*y + x*y*z^4) of Multivariate Polynomial Ring in x, y, z over Rational Field -+ sage: I1.intersection(I2, I3, I4).groebner_basis() -+ [x^2*y + x*y*z^4, x*y^2 - x*y*z^3, x*y*z^20 - x*y*z^3] - - The ideals must share the same ring:: - -@@ -1617,10 +1617,8 @@ class MPolynomialIdeal_singular_repr( - sage: p = z^2 + 1; q = z^3 + 2 - sage: I = (p*q^2, y-z^2)*R - sage: I.minimal_associated_primes () -- [Ideal (z^2 + 1, -z^2 + y) of Multivariate Polynomial Ring -- in x, y, z over Rational Field, Ideal (z^3 + 2, -z^2 + y) -- of Multivariate Polynomial Ring in x, y, z over Rational -- Field] -+ [Ideal (z^3 + 2, -z^2 + y) of Multivariate Polynomial Ring in x, y, z over Rational Field, -+ Ideal (z^2 + 1, -z^2 + y) of Multivariate Polynomial Ring in x, y, z over Rational Field] - - ALGORITHM: - -@@ -2698,7 +2696,7 @@ class MPolynomialIdeal_singular_repr( - return out - elif algorithm == 'singular': - from sage.libs.singular.function_factory import ff -- hilbPoly = ff.poly__lib.hilbPoly -+ hilbPoly = ff.polylib__lib.hilbPoly - - hp = hilbPoly(self) - t = ZZ['t'].gen() -@@ -4010,7 +4008,7 @@ class MPolynomialIdeal( MPolynomialIdeal_singular_repr, \ - - sage: J.groebner_basis.set_cache(gb) - sage: ideal(J.transformed_basis()).change_ring(P).interreduced_basis() # testing trac 21884 -- [a - 60*c^3 + 158/7*c^2 + 8/7*c - 1, b + 30*c^3 - 79/7*c^2 + 3/7*c, c^4 - 10/21*c^3 + 1/84*c^2 + 1/84*c] -+ ...[a - 60*c^3 + 158/7*c^2 + 8/7*c - 1, b + 30*c^3 - 79/7*c^2 + 3/7*c, c^4 - 10/21*c^3 + 1/84*c^2 + 1/84*c] - - Giac's gbasis over `\QQ` can benefit from a probabilistic lifting and - multi threaded operations:: -@@ -4113,9 +4111,9 @@ class MPolynomialIdeal( MPolynomialIdeal_singular_repr, \ - sage: P.<a,b,c> = PolynomialRing(ZZ,3) - sage: I = P * (a + 2*b + 2*c - 1, a^2 - a + 2*b^2 + 2*c^2, 2*a*b + 2*b*c - b) - sage: I.groebner_basis() -- [b^3 - 181*b*c^2 + 222*c^3 - 26*b*c - 146*c^2 + 19*b + 24*c, -- 2*b*c^2 - 48*c^3 + 3*b*c + 22*c^2 - 2*b - 2*c, -- 42*c^3 + 45*b^2 + 54*b*c + 22*c^2 - 13*b - 12*c, -+ [b^3 + b*c^2 + 12*c^3 + b^2 + b*c - 4*c^2, -+ 2*b*c^2 - 6*c^3 - b^2 - b*c + 2*c^2, -+ 42*c^3 + b^2 + 2*b*c - 14*c^2 + b, - 2*b^2 + 6*b*c + 6*c^2 - b - 2*c, - 10*b*c + 12*c^2 - b - 4*c, - a + 2*b + 2*c - 1] -diff --git a/src/sage/rings/polynomial/multi_polynomial_libsingular.pyx b/src/sage/rings/polynomial/multi_polynomial_libsingular.pyx -index b3bb733d7a..831113a5c9 100644 ---- a/src/sage/rings/polynomial/multi_polynomial_libsingular.pyx -+++ b/src/sage/rings/polynomial/multi_polynomial_libsingular.pyx -@@ -1337,7 +1337,7 @@ cdef class MPolynomialRing_libsingular(MPolynomialRing_base): - sage: R = IntegerModRing(15)['x,y'] - sage: singular(R) - polynomial ring, over a ring (with zero-divisors), global ordering -- // coefficients: ZZ/bigint(15) -+ // coefficients: ZZ/...(15) - // number of vars : 2 - // block 1 : ordering dp - // : names x y -diff --git a/src/sage/rings/polynomial/plural.pyx b/src/sage/rings/polynomial/plural.pyx -index 08b2ed7211..349871f508 100644 ---- a/src/sage/rings/polynomial/plural.pyx -+++ b/src/sage/rings/polynomial/plural.pyx -@@ -392,28 +392,30 @@ cdef class NCPolynomialRing_plural(Ring): - TESTS: - - This example caused a segmentation fault with a previous version -- of this method:: -+ of this method. This doctest still results in a segmentation fault -+ occasionally which is difficult to isolate, so this test is partially -+ disabled (:trac:`29528`):: - - sage: import gc - sage: from sage.rings.polynomial.plural import NCPolynomialRing_plural - sage: from sage.algebras.free_algebra import FreeAlgebra - sage: A1.<x,y,z> = FreeAlgebra(QQ, 3) - sage: R1 = A1.g_algebra({y*x:x*y-z, z*x:x*z+2*x, z*y:y*z-2*y}, order=TermOrder('degrevlex', 2)) -- sage: A2.<x,y,z> = FreeAlgebra(GF(5), 3) -- sage: R2 = A2.g_algebra({y*x:x*y-z, z*x:x*z+2*x, z*y:y*z-2*y}, order=TermOrder('degrevlex', 2)) -- sage: A3.<x,y,z> = FreeAlgebra(GF(11), 3) -- sage: R3 = A3.g_algebra({y*x:x*y-z, z*x:x*z+2*x, z*y:y*z-2*y}, order=TermOrder('degrevlex', 2)) -- sage: A4.<x,y,z> = FreeAlgebra(GF(13), 3) -- sage: R4 = A4.g_algebra({y*x:x*y-z, z*x:x*z+2*x, z*y:y*z-2*y}, order=TermOrder('degrevlex', 2)) -+ sage: A2.<x,y,z> = FreeAlgebra(GF(5), 3) # not tested -+ sage: R2 = A2.g_algebra({y*x:x*y-z, z*x:x*z+2*x, z*y:y*z-2*y}, order=TermOrder('degrevlex', 2)) # not tested -+ sage: A3.<x,y,z> = FreeAlgebra(GF(11), 3) # not tested -+ sage: R3 = A3.g_algebra({y*x:x*y-z, z*x:x*z+2*x, z*y:y*z-2*y}, order=TermOrder('degrevlex', 2)) # not tested -+ sage: A4.<x,y,z> = FreeAlgebra(GF(13), 3) # not tested -+ sage: R4 = A4.g_algebra({y*x:x*y-z, z*x:x*z+2*x, z*y:y*z-2*y}, order=TermOrder('degrevlex', 2)) # not tested - sage: _ = gc.collect() - sage: foo = R1.gen(0) - sage: del foo - sage: del R1 - sage: _ = gc.collect() -- sage: del R2 -- sage: _ = gc.collect() -- sage: del R3 -- sage: _ = gc.collect() -+ sage: del R2 # not tested -+ sage: _ = gc.collect() # not tested -+ sage: del R3 # not tested -+ sage: _ = gc.collect() # not tested - """ - singular_ring_delete(self._ring) - -@@ -2888,7 +2890,8 @@ cpdef MPolynomialRing_libsingular new_CRing(RingWrap rw, base_ring): - self.__ngens = rw.ngens() - self.__term_order = TermOrder(rw.ordering_string(), force=True) - -- ParentWithGens.__init__(self, base_ring, rw.var_names()) -+ ParentWithGens.__init__(self, base_ring, tuple(rw.var_names()), -+ normalize=False) - # self._populate_coercion_lists_() # ??? - - #MPolynomialRing_generic.__init__(self, base_ring, n, names, order) -diff --git a/src/sage/rings/polynomial/polynomial_singular_interface.py b/src/sage/rings/polynomial/polynomial_singular_interface.py -index 37f131b585..d9c33d9c2b 100644 ---- a/src/sage/rings/polynomial/polynomial_singular_interface.py -+++ b/src/sage/rings/polynomial/polynomial_singular_interface.py -@@ -165,7 +165,7 @@ class PolynomialRing_singular_repr: - sage: R = IntegerModRing(15)['x,y'] - sage: singular(R) - polynomial ring, over a ring (with zero-divisors), global ordering -- // coefficients: ZZ/bigint(15) -+ // coefficients: ZZ/...(15) - // number of vars : 2 - // block 1 : ordering dp - // : names x y -diff --git a/src/sage/schemes/curves/projective_curve.py b/src/sage/schemes/curves/projective_curve.py -index 2a9772da51..4c84a932bc 100644 ---- a/src/sage/schemes/curves/projective_curve.py -+++ b/src/sage/schemes/curves/projective_curve.py -@@ -2000,7 +2000,7 @@ class ProjectivePlaneCurve_finite_field(ProjectivePlaneCurve_field): - sage: C = Curve(f); pts = C.rational_points() - sage: D = C.divisor([ (3, pts[0]), (-1,pts[1]), (10, pts[5]) ]) - sage: C.riemann_roch_basis(D) -- [(-x - 2*y)/(-2*x - 2*y), (-x + z)/(x + y)] -+ [(-2*x + y)/(x + y), (-x + z)/(x + y)] - - .. NOTE:: - |