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Diffstat (limited to 'sci-mathematics/gfan/files/gfan-0.5-fix-gcc9.patch')
-rw-r--r--sci-mathematics/gfan/files/gfan-0.5-fix-gcc9.patch68
1 files changed, 0 insertions, 68 deletions
diff --git a/sci-mathematics/gfan/files/gfan-0.5-fix-gcc9.patch b/sci-mathematics/gfan/files/gfan-0.5-fix-gcc9.patch
deleted file mode 100644
index 930baf9edcf..00000000000
--- a/sci-mathematics/gfan/files/gfan-0.5-fix-gcc9.patch
+++ /dev/null
@@ -1,68 +0,0 @@
-https://bugs.gentoo.org/686484
-
-polyhedralfan.h: At global scope:
-polyhedralfan.h:77:24: error: friend declaration of ‘PolyhedralFan refinement(const PolyhedralFan&, const PolyhedralFan&, int, bool)’ specifies default arguments and isn’t a definition [-fpermissive]
- 77 | friend PolyhedralFan refinement(const PolyhedralFan &a, const PolyhedralFan &b, int cutOffDimension=-1, bool allowASingleConeOfCutOffDimension=false);
- | ^~~~~~~~~~
-
---- a/gfanlib_polyhedralfan.h
-+++ b/gfanlib_polyhedralfan.h
-@@ -24,6 +24,8 @@
- typedef std::map<int,IntVectorList> IncidenceList;
-
-
-+class PolyhedralFan;
-+PolyhedralFan refinement(const PolyhedralFan &a, const PolyhedralFan &b, int cutOffDimension=-1, bool allowASingleConeOfCutOffDimension=false);
-
- /** A PolyhedralFan is simply a collection of canonicalized PolyhedralCones.
- * It contains no combinatorial information in the sense of a polyhedral complex.
-@@ -52,7 +54,7 @@
- int getAmbientDimension()const;
- int getMaxDimension()const;
- int getMinDimension()const;
-- friend PolyhedralFan refinement(const PolyhedralFan &a, const PolyhedralFan &b, int cutOffDimension=-1, bool allowASingleConeOfCutOffDimension=false);
-+ friend PolyhedralFan refinement(const PolyhedralFan &a, const PolyhedralFan &b, int cutOffDimension, bool allowASingleConeOfCutOffDimension);
- ZMatrix getRays(int dim=1);//This can be called for other dimensions than 1. The term "Rays" still makes sense modulo the common linearity space
- ZMatrix getRelativeInteriorPoints();
- void insert(ZCone const &c);
---- a/halfopencone.h
-+++ b/halfopencone.h
-@@ -6,6 +6,9 @@
-
- #include "polyhedralfan.h"
-
-+class HalfOpenCone;
-+HalfOpenCone intersection(const HalfOpenCone &a, const HalfOpenCone &b, bool findFacets=false);
-+
- class HalfOpenCone{
- static void appendList(IntegerVectorList &to, IntegerVectorList const &from, int appendValue);
- int liftedDimension;//ambient
-@@ -18,7 +21,7 @@
- HalfOpenCone(int dimension_, IntegerVectorList const &equations, IntegerVectorList const &nonstrict, IntegerVectorList const &strict, bool findFacets=false, bool canonicalize=false);
- HalfOpenCone(int ambientDimension);//full space
- bool isEmpty();
-- friend HalfOpenCone intersection(const HalfOpenCone &a, const HalfOpenCone &b, bool findFacets=false);
-+ friend HalfOpenCone intersection(const HalfOpenCone &a, const HalfOpenCone &b, bool findFacets);
- friend bool haveEmptyIntersection(const HalfOpenCone &a, const HalfOpenCone &b);
- PolyhedralCone closure();
- void splitIntoRelativelyOpenCones(list<HalfOpenCone> &l);
---- a/polyhedralfan.h
-+++ b/polyhedralfan.h
-@@ -30,6 +30,8 @@
- FPF_default=2+4+8
- };
-
-+class PolyhedralFan;
-+PolyhedralFan refinement(const PolyhedralFan &a, const PolyhedralFan &b, int cutOffDimension=-1, bool allowASingleConeOfCutOffDimension=false);
-
- /** A PolyhedralFan is simply a collection of canonicalized PolyhedralCones.
- * It contains no combinatorial information in the sense of a polyhedral complex.
-@@ -74,7 +76,7 @@
- int getAmbientDimension()const;
- int getMaxDimension()const;
- int getMinDimension()const;
-- friend PolyhedralFan refinement(const PolyhedralFan &a, const PolyhedralFan &b, int cutOffDimension=-1, bool allowASingleConeOfCutOffDimension=false);
-+ friend PolyhedralFan refinement(const PolyhedralFan &a, const PolyhedralFan &b, int cutOffDimension, bool allowASingleConeOfCutOffDimension);
- friend PolyhedralFan product(const PolyhedralFan &a, const PolyhedralFan &b);
- IntegerVectorList getRays(int dim=1);//This can be called for other dimensions than 1. The term "Rays" still makes sense modulo the common linearity space
- IntegerVectorList getRelativeInteriorPoints();