1 files changed, 207 insertions, 0 deletions

diff --git a/community/freemat/freemat-gcc-4.5.0.patch b/community/freemat/freemat-gcc-4.5.0.patch
new file mode 100644
index 000000000..08f644e50
--- /dev/null
+++ b/community/freemat/freemat-gcc-4.5.0.patch
@@ -0,0 +1,207 @@
+diff -wbBur FreeMat-4.0.1-Source/libs/libFreeMat/Array.cpp FreeMat-4.0.1-Source.my//libs/libFreeMat/Array.cpp
+--- FreeMat-4.0.1-Source/libs/libFreeMat/Array.cpp	2009-10-09 06:24:20.000000000 +0000
++++ FreeMat-4.0.1-Source.my//libs/libFreeMat/Array.cpp	2010-12-27 12:38:46.000000000 +0000
+@@ -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()) 
+diff -wbBur FreeMat-4.0.1-Source/libs/libFreeMat/Math.cpp FreeMat-4.0.1-Source.my//libs/libFreeMat/Math.cpp
+--- FreeMat-4.0.1-Source/libs/libFreeMat/Math.cpp	2009-10-09 06:24:22.000000000 +0000
++++ FreeMat-4.0.1-Source.my//libs/libFreeMat/Math.cpp	2010-12-27 12:42:34.000000000 +0000
+@@ -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) {
+diff -wbBur FreeMat-4.0.1-Source/libs/libFreeMat/Operators.hpp FreeMat-4.0.1-Source.my//libs/libFreeMat/Operators.hpp
+--- FreeMat-4.0.1-Source/libs/libFreeMat/Operators.hpp	2009-10-09 06:24:22.000000000 +0000
++++ FreeMat-4.0.1-Source.my//libs/libFreeMat/Operators.hpp	2010-12-27 14:04:11.000000000 +0000
+@@ -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>());