libs/multi_array/test/slice.cpp
// Copyright 2002 The Trustees of Indiana University. // Use, modification and distribution is subject to the Boost Software // License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // Boost.MultiArray Library // Authors: Ronald Garcia // Jeremy Siek // Andrew Lumsdaine // See http://www.boost.org/libs/multi_array for documentation. // // slice.cpp - testing out slicing on a matrices // #include "generative_tests.hpp" #include "boost/array.hpp" #include "boost/mpl/if.hpp" #include "boost/type_traits/is_same.hpp" template <typename Array> struct view_traits_mutable { public: #if 0 // RG - MSVC can't handle templates nested in templates. Use traits typedef typename Array::template array_view<3>::type array_view3; typedef typename Array::template array_view<2>::type array_view2; #endif typedef typename boost::array_view_gen<Array,3>::type array_view3; typedef typename boost::array_view_gen<Array,2>::type array_view2; }; template <typename Array> struct view_traits_const { #if 0 // RG - MSVC can't handle templates nested in templates. Use traits typedef typename Array::template const_array_view<3>::type array_view3; typedef typename Array::template const_array_view<2>::type array_view2; #endif typedef typename boost::const_array_view_gen<Array,3>::type array_view3; typedef typename boost::const_array_view_gen<Array,2>::type array_view2; }; // Meta-program selects the proper view_traits implementation. template <typename Array, typename ConstTag> struct view_traits_generator : boost::mpl::if_< boost::is_same<ConstTag,const_array_tag>, view_traits_const<Array>, view_traits_mutable<Array> > {}; template <typename Array, typename ViewTraits> void test_views(Array& A, const ViewTraits&) { typedef typename Array::index index; typedef typename Array::index_range range; typename Array::index_gen indices; const index idx0 = A.index_bases()[0]; const index idx1 = A.index_bases()[1]; const index idx2 = A.index_bases()[2]; // Standard View { typename ViewTraits::array_view3 B = A[ indices[range(idx0+0,idx0+2)] [range(idx1+1,idx1+3)] [range(idx2+0,idx2+4,2)] ]; for (index i = 0; i != 2; ++i) for (index j = 0; j != 2; ++j) for (index k = 0; k != 2; ++k) { BOOST_CHECK(B[i][j][k] == A[idx0+i][idx1+j+1][idx2+k*2]); boost::array<index,3> elmts; elmts[0]=i; elmts[1]=j; elmts[2]=k; BOOST_CHECK(B(elmts) == A[idx0+i][idx1+j+1][idx2+k*2]); } } // Degenerate dimensions { typename ViewTraits::array_view2 B = A[indices[range(idx0+0,idx0+2)][idx1+1][range(idx2+0,idx2+4,2)]]; for (index i = 0; i != 2; ++i) for (index j = 0; j != 2; ++j) { BOOST_CHECK(B[i][j] == A[idx0+i][idx1+1][idx2+j*2]); boost::array<index,2> elmts; elmts[0]=i; elmts[1]=j; BOOST_CHECK(B(elmts) == A[idx0+i][idx1+1][idx2+j*2]); } } // Flip the third dimension { typename ViewTraits::array_view3 B = A[ indices[range(idx0+0,idx0+2)] [range(idx1+0,idx1+2)] [range(idx2+2,idx2+0,-1)] ]; // typename ViewTraits::array_view3 B = // A[indices[range(idx0+0,idx0+2)][idx1+1][range(idx2+0,idx2+4,2)]]; for (index i = 0; i != 2; ++i) for (index j = 0; j != 2; ++j) for (index k = 0; k != 2; ++k) { BOOST_CHECK(B[i][j][k] == A[idx0+i][idx1+j][idx2+2-k]); boost::array<index,3> elmts; elmts[0]=i; elmts[1]=j; elmts[2]=k; BOOST_CHECK(B(elmts) == A[idx0+i][idx1+j][idx2+2-k]); } } ++tests_run; } template <typename Array> void access(Array& A, const mutable_array_tag&) { assign(A); typedef typename view_traits_generator<Array,mutable_array_tag>::type m_view_traits; typedef typename view_traits_generator<Array,const_array_tag>::type c_view_traits; test_views(A,m_view_traits()); test_views(A,c_view_traits()); const Array& CA = A; test_views(CA,c_view_traits()); } template <typename Array> void access(Array& A, const const_array_tag&) { typedef typename view_traits_generator<Array,const_array_tag>::type c_view_traits; test_views(A,c_view_traits()); } int test_main(int,char*[]) { return run_generative_tests(); }