#include #include #include #include // Copyright (c) 2004 Jonathan Brandmeyer // Use, modification and distribution are 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) using namespace boost::python; #if BOOST_WORKAROUND(__SUNPRO_CC, BOOST_TESTED_AT(0x580)) # define make_tuple boost::python::make_tuple #endif // These checks are only valid under Python 2.3 // (rich slicing wasn't supported for builtins under Python 2.2) bool check_string_rich_slice() { object s("hello, world"); // default slice if (s[slice()] != "hello, world") return false; // simple reverse if (s[slice(_,_,-1)] != "dlrow ,olleh") return false; // reverse with mixed-sign offsets if (s[slice(-6,1,-1)] != " ,oll") return false; // all of the object.cpp check_string_slice() checks should work // with the form that omits the step argument. if (s[slice(_,-3)] != "hello, wo") return false; if (s[slice(-3,_)] != "rld") return false; if (", " != s[slice(5,7)]) return false; return s[slice(2,-1)][slice(1,-1)] == "lo, wor"; } // Tried to get more info into the error message (actual array // contents) but Numeric complains that treating an array as a boolean // value doesn't make any sense. #define ASSERT_EQUAL( e1, e2 ) \ if (!all((e1) == (e2))) \ return "assertion failed: " #e1 " == " #e2 "\nLHS:\n%s\nRHS:\n%s" % make_tuple(e1,e2); \ else // These tests work with Python 2.2, but you must have Numeric installed. object check_numeric_array_rich_slice( char const* module_name, char const* array_type_name, object all) { using numeric::array; array::set_module_and_type(module_name, array_type_name); array original = array( make_tuple( make_tuple( 11, 12, 13, 14), make_tuple( 21, 22, 23, 24), make_tuple( 31, 32, 33, 34), make_tuple( 41, 42, 43, 44))); array upper_left_quadrant = array( make_tuple( make_tuple( 11, 12), make_tuple( 21, 22))); array odd_cells = array( make_tuple( make_tuple( 11, 13), make_tuple( 31, 33))); array even_cells = array( make_tuple( make_tuple( 22, 24), make_tuple( 42, 44))); array lower_right_quadrant_reversed = array( make_tuple( make_tuple(44, 43), make_tuple(34, 33))); // The following comments represent equivalent Python expressions used // to validate the array behavior. // original[::] == original ASSERT_EQUAL(original[slice()],original); // original[:2,:2] == array( [[11, 12], [21, 22]]) ASSERT_EQUAL(original[make_tuple(slice(_,2), slice(_,2))],upper_left_quadrant); // original[::2,::2] == array( [[11, 13], [31, 33]]) ASSERT_EQUAL(original[make_tuple( slice(_,_,2), slice(_,_,2))],odd_cells); // original[1::2, 1::2] == array( [[22, 24], [42, 44]]) ASSERT_EQUAL(original[make_tuple( slice(1,_,2), slice(1,_,2))],even_cells); // original[:-3:-1, :-3,-1] == array( [[44, 43], [34, 33]]) ASSERT_EQUAL(original[make_tuple( slice(_,-3,-1), slice(_,-3,-1))],lower_right_quadrant_reversed); return object(1); } // Verify functions accepting a slice argument can be called bool accept_slice( slice) { return true; } #if BOOST_WORKAROUND( BOOST_MSVC, BOOST_TESTED_AT(1400)) \ || BOOST_WORKAROUND( BOOST_INTEL_WIN, == 710) int check_slice_get_indicies(slice index); #endif int check_slice_get_indicies(const slice index) { // A vector of integers from [-5, 5]. std::vector coll(11); typedef std::vector::iterator coll_iterator; for (coll_iterator i = coll.begin(); i != coll.end(); ++i) { *i = i - coll.begin() - 5; } slice::range::iterator> bounds; try { bounds = index.get_indicies(coll.begin(), coll.end()); } catch (std::invalid_argument) { return 0; } int sum = 0; while (bounds.start != bounds.stop) { sum += *bounds.start; std::advance( bounds.start, bounds.step); } sum += *bounds.start; return sum; } BOOST_PYTHON_MODULE(slice_ext) { def( "accept_slice", accept_slice); def( "check_numeric_array_rich_slice", check_numeric_array_rich_slice); def( "check_string_rich_slice", check_string_rich_slice); def( "check_slice_get_indicies", check_slice_get_indicies); }