diff options
Diffstat (limited to 'gcc/testsuite/g++.old-deja/g++.pt/expr4.C')
| -rw-r--r-- | gcc/testsuite/g++.old-deja/g++.pt/expr4.C | 373 |
1 files changed, 0 insertions, 373 deletions
diff --git a/gcc/testsuite/g++.old-deja/g++.pt/expr4.C b/gcc/testsuite/g++.old-deja/g++.pt/expr4.C deleted file mode 100644 index 13298febe4d..00000000000 --- a/gcc/testsuite/g++.old-deja/g++.pt/expr4.C +++ /dev/null @@ -1,373 +0,0 @@ -template<class View, class W> -class TinyContainer { -public: - - typedef W T_Wrapped; - - TinyContainer() { } - TinyContainer(View data) : m_data(data) { } - - T_Wrapped &unwrap() - { - return *static_cast<T_Wrapped *>(this); - } - const T_Wrapped &unwrap() const - { - return *static_cast<const T_Wrapped *>(this); - } - -protected: - - mutable View m_data; -}; - -template<class Op, class Left, class Right> -class TinyBinaryExpr : - public TinyContainer< Op, TinyBinaryExpr<Op, Left, Right> > { -public: - - typedef typename Left::T_Return T_Return; - typedef TinyBinaryExpr<Op, Left, Right> T_Expr; - - T_Expr makeExpr() const { return *this; } - - TinyBinaryExpr(const Op &op, const Left &left, const Right &right) - : TinyContainer< Op, TinyBinaryExpr<Op, Left, Right> >(op), - m_left(left), m_right(right) - { } - - TinyBinaryExpr(const Left &left, const Right &right) - : m_left(left), m_right(right) - { } - - Op op() const { return m_data; } - Left left() const { return m_left; } - Right right() const { return m_right; } - -private: - - Left m_left; - Right m_right; -}; - -struct OpAdd { - - template<class T1, class T2> - static T1 apply(const T1 &l, const T2 &r) - { - return l + r; - } - -}; - -template<class V1, class T1, class V2, class T2> -inline TinyBinaryExpr<OpAdd, typename T1::T_Expr, typename T2::T_Expr> -operator+(const TinyContainer<V1,T1>& l, const TinyContainer<V2,T2>& r) -{ - typedef TinyBinaryExpr<OpAdd, typename T1::T_Expr, typename T2::T_Expr> ret; - return ret(l.unwrap().makeExpr(), r.unwrap().makeExpr()); -} - - -template<class Op, class T1, class T2, class Functor> -inline -typename T1::T_Return -for_each(const TinyBinaryExpr<Op,T1,T2>& node, Functor f) -{ - return Op::apply(for_each(node.left(),f), for_each(node.right(),f)); -} - -template<class T, unsigned Nrows, unsigned Ncols, unsigned S1, unsigned S2> -class DenseDataView - : public TinyContainer< T*, DenseDataView<T, Nrows, Ncols, S1, S2> > { -public: - - typedef T T_Return; - typedef DenseDataView<T, Nrows, Ncols, S1, S2> T_Expr; - - T_Expr makeExpr() const { return *this; } - - T *beginLoc(unsigned i, unsigned j) const - { return m_data + S1 * i + S2 * j; } - - DenseDataView(T *pData) - : TinyContainer< T*, DenseDataView<T, Nrows, Ncols, S1, S2> >(pData) { } - - T &offset(unsigned i, unsigned j) - { - return m_data[S1 * i + S2 * j]; - } - - T offset(unsigned i, unsigned j) const - { - return m_data[S1 * i + S2 * j]; - } - - template<unsigned I, unsigned J> - struct Offset { - - static T &apply(DenseDataView<T, Nrows, Ncols, S1, S2> &d) - { - return d.m_data[S1 * I + S2 * J]; - } - - static T constApply(const DenseDataView<T, Nrows, Ncols, S1, S2> &d) - { - return d.m_data[S1 * I + S2 * J]; - } - - }; - -}; - -template<unsigned I, unsigned J> -struct Eval2 { }; - -template<class T, unsigned Nrows, unsigned Ncols, unsigned S1, unsigned S2, - unsigned I, unsigned J> -inline T -for_each(const DenseDataView<T, Nrows, Ncols, S1, S2> &d, - const Eval2<I,J> &e) -{ - return d.offset(I, J); -} - -template<class T, unsigned Nrows, unsigned Ncols> -class DenseData - : public TinyContainer< T[Nrows * Ncols], DenseData<T, Nrows, Ncols> > { -public: - - typedef T T_Return; - typedef DenseDataView<T, Nrows, Ncols, 1, Nrows> T_Expr; - - T_Expr makeExpr() const { return T_Expr(m_data); } - - T *beginLoc(unsigned i, unsigned j) const - { return &m_data[i + Nrows * j]; } - - T &operator[](unsigned i) - { - return m_data[i]; - } - - T operator[](unsigned i) const - { - return m_data[i]; - } - - T &offset(unsigned i, unsigned j) - { - return m_data[i + Nrows * j]; - } - - T offset(unsigned i, unsigned j) const - { - return m_data[i + Nrows * j]; - } - - template<unsigned I, unsigned J> - struct Offset { - - static T &apply(DenseData<T, Nrows, Ncols> &d) - { - return d.m_data[I + Nrows * J]; - } - - static T constApply(const DenseData<T, Nrows, Ncols> &d) - { - return d.m_data[I + Nrows * J]; - } - - }; - -}; - -template<class T, unsigned Nrc> -class DiagonalData { -public: - - T &offset(unsigned i, unsigned j) - { - assert(i == j); - return m_data[i]; - } - - T offset(unsigned i, unsigned j) const - { - return (i == j) ? m_data[i] : T(0); - } - - template<unsigned I, unsigned J> - struct Offset { - - static T &apply(DiagonalData<T,Nrc> &d) - { - assert(I == J); - return d.m_data[I]; - } - - static T constApply(const DiagonalData<T,Nrc> &d) - { - return (I == J) ? d.m_data[I] : T(0); - } - - }; - -private: - - T m_data[Nrc]; -}; - -template<unsigned I, unsigned J, unsigned C1> -struct InnerLoop { - - template<class LHS, class RHS> - static inline void eval(LHS &l, const RHS &r) - { - l.offset(I,J) = for_each(r, Eval2<I,J>()); - InnerLoop<I + 1, J, C1 - 1>::eval(l, r); - } - -}; - -template<unsigned I, unsigned J> -struct InnerLoop<I, J, 0> { - - template<class LHS, class RHS> - static inline void eval(LHS &, const RHS &) { } - -}; - -template<unsigned I, unsigned J, unsigned C1, unsigned C2> -struct Loop2 { - - template<class LHS, class RHS> - static inline void eval(LHS &l, const RHS &r) - { - InnerLoop<I, J, C1>::eval(l, r); - Loop2<I, J + 1, C1, C2 - 1>::eval(l, r); - } -}; - -template<unsigned I, unsigned J, unsigned C1> -struct Loop2<I, J, C1, 0> { - - template<class LHS, class RHS> - static inline void eval(LHS &l, const RHS &r) { } - -}; - - -template<unsigned Begin, unsigned End, unsigned Stride = 1> -class TinyRange { -public: - - static const unsigned b = Begin; - static const unsigned e = End; - static const unsigned s = Stride; - static const unsigned n = (End - Begin) / Stride + 1; - - static unsigned index(unsigned i) - { - return b + s * i; - } -}; - -template<class Range1, class Range2, class Data> -struct Merge { }; - -template<class Range1, class Range2, class T, unsigned Nrows, unsigned Ncols> -struct Merge<Range1, Range2, DenseData<T, Nrows, Ncols> > -{ - static const unsigned s2 = Nrows * Range2::s; - typedef - DenseDataView<T, Range1::n, Range2::n, Range1::s, s2> type; -}; - -template<class Range1, class Range2, class T, unsigned Nrows, unsigned Ncols, - unsigned S1, unsigned S2> -struct Merge<Range1, Range2, DenseDataView<T, Nrows, Ncols, S1, S2> > -{ - static const unsigned s1 = S1 * Range1::s; - static const unsigned s2 = S2 * Range2::s; - - typedef - DenseDataView<T, Range1::n, Range2::n, s1, s2> type; -}; - -template<class T, unsigned Nrows, unsigned Ncols, - class Data = DenseData<T, Nrows, Ncols> > -class TinyMatrix : - public TinyContainer< Data, TinyMatrix<T, Nrows, Ncols, Data> > { -public: - - typedef T T_Return; - typedef typename Data::T_Expr T_Expr; - typedef TinyContainer< Data, TinyMatrix<T, Nrows, Ncols, Data> > T_Base; - - T_Expr makeExpr() const { return m_data.makeExpr(); } - - TinyMatrix() { } - - TinyMatrix(const T &a0, const T &a1, const T &a2, - const T &a3, const T &a4, const T &a5) - { - m_data[0] = a0; m_data[1] = a1; m_data[2] = a2; - m_data[3] = a3; m_data[4] = a4; m_data[5] = a5; - } - - TinyMatrix(const T &a0, const T &a1) - { - m_data[0] = a0; m_data[1] = a1; - } - - TinyMatrix(const Data &d) : T_Base(d) { } - - T operator()(unsigned i, unsigned j) const - { - return m_data.offset(i, j); - } - - template<unsigned B1, unsigned E1, unsigned S1, - unsigned B2, unsigned E2, unsigned S2> - TinyMatrix<T, TinyRange<B1, E1, S1>::n, - TinyRange<B2, E2, S2>::n, - typename - Merge< TinyRange<B1, E1, S1>, TinyRange<B2, E2, S2>, Data>::type> - operator()(const TinyRange<B1, E1, S1> &r1, const TinyRange<B2, E2, S2> &r2) - { - typedef typename - Merge< TinyRange<B1, E1, S1>, TinyRange<B2, E2, S2>, Data>::type - T_DataType; - typedef TinyMatrix<T, TinyRange<B1, E1, S1>::n, - TinyRange<B2, E2, S2>::n, T_DataType> T_RetType; - - return T_RetType(T_DataType(m_data.beginLoc(B1, B2))); - } - - template<class V1, class T1> - void operator=(const TinyContainer<V1, T1> &rhs) - { - Loop2<0, 0, Nrows, Ncols>::eval(m_data, rhs.unwrap().makeExpr()); - } - -}; - - -int main() -{ - TinyMatrix<double, 2, 3> a, b(1.0, 2.0, 3.0, 4.0, 5.0, 6.0), - c(0.1, 0.2, 0.3, 0.4, 0.5, 0.6), d(0.01, 0.02, 0.03, 0.04, 0.05, 0.06); - TinyMatrix<double, 1, 2> e, f(17.0, 48.3); - - a = b + c + d; - - a(TinyRange<0,1>(), TinyRange<0,2,2>()); - - a(TinyRange<0,1>(), TinyRange<0,2,2>()) - (TinyRange<0,0>(), TinyRange<0,1>()); - - e = f + a(TinyRange<0,1>(), TinyRange<0,2,2>()) - (TinyRange<0,0>(), TinyRange<0,1>()); -} - |