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Gentoo's Bugzilla – Attachment 230393 Details for
Bug 318045
sci-mathematics/freemat fails to build with gcc 4.5
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[patch]
fixing build with gcc 4.5
freemat-4.0-gcc45.patch (text/plain), 8.26 KB, created by
Kacper Kowalik (Xarthisius) (RETIRED)
on 2010-05-05 08:27:03 UTC
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Description:
fixing build with gcc 4.5
Filename:
MIME Type:
Creator:
Kacper Kowalik (Xarthisius) (RETIRED)
Created:
2010-05-05 08:27:03 UTC
Size:
8.26 KB
patch
obsolete
>Fix building with gcc-4.5 > >http://bugs.gentoo.org/show_bug.cgi?id=318045 > >--- libs/libFreeMat/Array.cpp >+++ libs/libFreeMat/Array.cpp >@@ -465,7 +465,7 @@ > > void Array::set(const QString& field, ArrayVector& data) { > if (isEmpty() && m_type.Class != Struct) >- *this = Array::Array(Struct); >+ *this = Array(Struct); > if (m_type.Class != Struct) throw Exception("Unsupported type for A.field=B"); > StructArray &rp(structPtr()); > if (isEmpty()) >--- libs/libFreeMat/Math.cpp >+++ libs/libFreeMat/Math.cpp >@@ -1590,9 +1590,9 @@ > > Array Not(const Array& A) { > if (A.isScalar()) >- return Array::Array(!A.toClass(Bool).constRealScalar<bool>()); >+ return Array(!A.toClass(Bool).constRealScalar<bool>()); > const Array &Abool(A.toClass(Bool)); >- return Array::Array(Apply(Abool.constReal<bool>(),notfunc)); >+ return Array(Apply(Abool.constReal<bool>(),notfunc)); > } > > Array Plus(const Array& A) { >--- libs/libFreeMat/Operators.hpp >+++ libs/libFreeMat/Operators.hpp >@@ -142,11 +142,11 @@ > if (!Bcast.isScalar()) Bcast = Bcast.asDenseArray(); > if (Acast.isScalar() && Bcast.isScalar()) { > if (Acast.allReal() && Bcast.allReal()) { >- F = Array::Array(Op::func(Acast.constRealScalar<T>(), >+ F = Array(Op::func(Acast.constRealScalar<T>(), > Bcast.constRealScalar<T>())); > } else { > Acast.forceComplex(); Bcast.forceComplex(); >- F = Array::Array(T(0),T(0)); >+ F = Array(T(0),T(0)); > Op::func(Acast.constRealScalar<T>(), > Acast.constImagScalar<T>(), > Bcast.constRealScalar<T>(), >@@ -155,7 +155,7 @@ > } > } else if (Acast.isScalar()) { > if (Acast.allReal() && Bcast.allReal()) { >- F = Array::Array(Tclass,Bcast.dimensions()); >+ F = Array(Tclass,Bcast.dimensions()); > T* ret = F.real<T>().data(); > const T& Ap = Acast.constRealScalar<T>(); > const T* Bp = Bcast.constReal<T>().constData(); >@@ -163,7 +163,7 @@ > for (uint64 i=0;i<q;i++) ret[i] = Op::func(Ap,Bp[i]); > } else { > Acast.forceComplex(); Bcast.forceComplex(); >- F = Array::Array(Tclass,Bcast.dimensions()); >+ F = Array(Tclass,Bcast.dimensions()); > T* Cr = F.real<T>().data(); > T* Ci = F.imag<T>().data(); > const T& Ar = Acast.constRealScalar<T>(); >@@ -175,7 +175,7 @@ > } > } else if (Bcast.isScalar()) { > if (Bcast.allReal() && Acast.allReal()) { >- F = Array::Array(Tclass,Acast.dimensions()); >+ F = Array(Tclass,Acast.dimensions()); > T* ret = F.real<T>().data(); > const T* Ap = Acast.constReal<T>().constData(); > const T& Bp = Bcast.constRealScalar<T>(); >@@ -183,7 +183,7 @@ > for (uint64 i=0;i<q;i++) ret[i] = Op::func(Ap[i],Bp); > } else { > Acast.forceComplex(); Bcast.forceComplex(); >- F = Array::Array(Tclass,Acast.dimensions()); >+ F = Array(Tclass,Acast.dimensions()); > T* Cr = F.real<T>().data(); > T* Ci = F.imag<T>().data(); > const T* Ar = Acast.constReal<T>().constData(); >@@ -197,7 +197,7 @@ > if (Acast.dimensions() != Bcast.dimensions()) > throw Exception("size mismatch in arguments to binary operator"); > if (Bcast.allReal() && Acast.allReal()) { >- F = Array::Array(Tclass,Acast.dimensions()); >+ F = Array(Tclass,Acast.dimensions()); > T* ret = F.real<T>().data(); > const T* Ap = Acast.constReal<T>().constData(); > const T* Bp = Bcast.constReal<T>().constData(); >@@ -205,7 +205,7 @@ > for (uint64 i=0;i<q;i++) ret[i] = Op::func(Ap[i],Bp[i]); > } else { > Acast.forceComplex(); Bcast.forceComplex(); >- F = Array::Array(Tclass,Acast.dimensions()); >+ F = Array(Tclass,Acast.dimensions()); > T* Cr = F.real<T>().data(); > T* Ci = F.imag<T>().data(); > const T* Ar = Acast.constReal<T>().constData(); >@@ -328,17 +328,17 @@ > if (!Acast.isScalar()) Acast = Acast.asDenseArray(); > if (!Bcast.isScalar()) Bcast = Bcast.asDenseArray(); > if (Acast.isScalar() && Bcast.isScalar()) { >- F = Array::Array(Op::func(Acast.constRealScalar<T>(), >+ F = Array(Op::func(Acast.constRealScalar<T>(), > Bcast.constRealScalar<T>())); > } else if (Acast.isScalar()) { >- F = Array::Array(Bool,Bcast.dimensions()); >+ F = Array(Bool,Bcast.dimensions()); > bool* ret = F.real<bool>().data(); > const T& Ap = Acast.constRealScalar<T>(); > const T* Bp = Bcast.constReal<T>().constData(); > uint64 q = uint64(Bcast.length()); > for (uint64 i=0;i<q;i++) ret[i] = Op::func(Ap,Bp[i]); > } else if (Bcast.isScalar()) { >- F = Array::Array(Bool,Acast.dimensions()); >+ F = Array(Bool,Acast.dimensions()); > bool* ret = F.real<bool>().data(); > const T* Ap = Acast.constReal<T>().constData(); > const T& Bp = Bcast.constRealScalar<T>(); >@@ -347,7 +347,7 @@ > } else { > if (Acast.dimensions() != Bcast.dimensions()) > throw Exception("size mismatch in arguments to binary operator"); >- F = Array::Array(Bool,Acast.dimensions()); >+ F = Array(Bool,Acast.dimensions()); > bool* ret = F.real<bool>().data(); > const T* Ap = Acast.constReal<T>().constData(); > const T* Bp = Bcast.constReal<T>().constData(); >@@ -395,18 +395,18 @@ > if (!Bcast.isScalar()) Bcast = Bcast.asDenseArray(); > if (Acast.isScalar() && Bcast.isScalar()) { > if (Acast.allReal() && Bcast.allReal()) { >- F = Array::Array(Op::func(Acast.constRealScalar<T>(), >+ F = Array(Op::func(Acast.constRealScalar<T>(), > Bcast.constRealScalar<T>())); > } else { > Acast.forceComplex(); Bcast.forceComplex(); >- F = Array::Array(Op::func(Acast.constRealScalar<T>(), >+ F = Array(Op::func(Acast.constRealScalar<T>(), > Acast.constImagScalar<T>(), > Bcast.constRealScalar<T>(), > Bcast.constImagScalar<T>())); > } > } else if (Acast.isScalar()) { > if (Acast.allReal() && Bcast.allReal()) { >- F = Array::Array(Bool,Bcast.dimensions()); >+ F = Array(Bool,Bcast.dimensions()); > bool* ret = F.real<bool>().data(); > const T& Ap = Acast.constRealScalar<T>(); > const T* Bp = Bcast.constReal<T>().constData(); >@@ -414,7 +414,7 @@ > for (uint64 i=0;i<q;i++) ret[i] = Op::func(Ap,Bp[i]); > } else { > Acast.forceComplex(); Bcast.forceComplex(); >- F = Array::Array(Bool,Bcast.dimensions()); >+ F = Array(Bool,Bcast.dimensions()); > bool* ret = F.real<bool>().data(); > const T& Ar = Acast.constRealScalar<T>(); > const T& Ai = Acast.constImagScalar<T>(); >@@ -425,7 +425,7 @@ > } > } else if (Bcast.isScalar()) { > if (Bcast.allReal() && Acast.allReal()) { >- F = Array::Array(Bool,Acast.dimensions()); >+ F = Array(Bool,Acast.dimensions()); > bool* ret = F.real<bool>().data(); > const T* Ap = Acast.constReal<T>().constData(); > const T& Bp = Bcast.constRealScalar<T>(); >@@ -433,7 +433,7 @@ > for (uint64 i=0;i<q;i++) ret[i] = Op::func(Ap[i],Bp); > } else { > Acast.forceComplex(); Bcast.forceComplex(); >- F = Array::Array(Bool,Acast.dimensions()); >+ F = Array(Bool,Acast.dimensions()); > bool* ret = F.real<bool>().data(); > const T* Ar = Acast.constReal<T>().constData(); > const T* Ai = Acast.constImag<T>().constData(); >@@ -446,7 +446,7 @@ > if (Acast.dimensions() != Bcast.dimensions()) > throw Exception("size mismatch in arguments to binary operator"); > if (Bcast.allReal() && Acast.allReal()) { >- F = Array::Array(Bool,Acast.dimensions()); >+ F = Array(Bool,Acast.dimensions()); > bool* ret = F.real<bool>().data(); > const T* Ap = Acast.constReal<T>().constData(); > const T* Bp = Bcast.constReal<T>().constData(); >@@ -454,7 +454,7 @@ > for (uint64 i=0;i<q;i++) ret[i] = Op::func(Ap[i],Bp[i]); > } else { > Acast.forceComplex(); Bcast.forceComplex(); >- F = Array::Array(Bool,Acast.dimensions()); >+ F = Array(Bool,Acast.dimensions()); > bool* ret = F.real<bool>().data(); > const T* Ar = Acast.constReal<T>().constData(); > const T* Ai = Acast.constImag<T>().constData(); >@@ -533,9 +533,9 @@ > if (!Acast.isScalar()) Acast = Acast.asDenseArray(); > if (Acast.isScalar()) { > if (Acast.allReal()) { >- F = Array::Array(Op::func(Acast.constRealScalar<T>())); >+ F = Array(Op::func(Acast.constRealScalar<T>())); > } else { >- F = Array::Array(T(0),T(0)); >+ F = Array(T(0),T(0)); > Op::func(Acast.constRealScalar<T>(), > Acast.constImagScalar<T>(), > F.realScalar<T>(),F.imagScalar<T>());
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Attachments on
bug 318045
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230391
| 230393