// // buffer.cpp // ~~~~~~~~~~ // // Copyright (c) 2003-2015 Christopher M. Kohlhoff (chris at kohlhoff dot com) // // Distributed under 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) // // Disable autolinking for unit tests. #if !defined(BOOST_ALL_NO_LIB) #define BOOST_ALL_NO_LIB 1 #endif // !defined(BOOST_ALL_NO_LIB) // Test that header file is self-contained. #include "asio/buffer.hpp" #include "unit_test.hpp" #if defined(ASIO_HAS_BOOST_ARRAY) # include #endif // defined(ASIO_HAS_BOOST_ARRAY) #if defined(ASIO_HAS_STD_ARRAY) # include #endif // defined(ASIO_HAS_STD_ARRAY) //------------------------------------------------------------------------------ // buffer_compile test // ~~~~~~~~~~~~~~~~~~~ // The following test checks that all overloads of the buffer function compile // and link correctly. Runtime failures are ignored. namespace buffer_compile { using namespace asio; void test() { try { char raw_data[1024]; const char const_raw_data[1024] = ""; void* void_ptr_data = raw_data; const void* const_void_ptr_data = const_raw_data; #if defined(ASIO_HAS_BOOST_ARRAY) boost::array array_data; const boost::array& const_array_data_1 = array_data; boost::array const_array_data_2 = { { 0 } }; #endif // defined(ASIO_HAS_BOOST_ARRAY) #if defined(ASIO_HAS_STD_ARRAY) std::array std_array_data; const std::array& const_std_array_data_1 = std_array_data; std::array const_std_array_data_2 = { { 0 } }; #endif // defined(ASIO_HAS_STD_ARRAY) std::vector vector_data(1024); const std::vector& const_vector_data = vector_data; std::string string_data(1024, ' '); const std::string const_string_data(1024, ' '); std::vector mutable_buffer_sequence; std::vector const_buffer_sequence; // mutable_buffer constructors. mutable_buffer mb1; mutable_buffer mb2(void_ptr_data, 1024); mutable_buffer mb3(mb1); // mutable_buffer functions. void* ptr1 = mb1.data(); (void)ptr1; std::size_t n1 = mb1.size(); (void)n1; // mutable_buffer operators. mb1 = mb2 + 128; mb1 = 128 + mb2; // mutable_buffers_1 constructors. mutable_buffers_1 mbc1(mb1); mutable_buffers_1 mbc2(mbc1); // mutable_buffers_1 functions. mutable_buffers_1::const_iterator iter1 = mbc1.begin(); (void)iter1; mutable_buffers_1::const_iterator iter2 = mbc1.end(); (void)iter2; // const_buffer constructors. const_buffer cb1; const_buffer cb2(const_void_ptr_data, 1024); const_buffer cb3(cb1); const_buffer cb4(mb1); // const_buffer functions. const void* ptr2 = cb1.data(); (void)ptr2; std::size_t n2 = cb1.size(); (void)n2; // const_buffer operators. cb1 = cb2 + 128; cb1 = 128 + cb2; // const_buffers_1 constructors. const_buffers_1 cbc1(cb1); const_buffers_1 cbc2(cbc1); // const_buffers_1 functions. const_buffers_1::const_iterator iter3 = cbc1.begin(); (void)iter3; const_buffers_1::const_iterator iter4 = cbc1.end(); (void)iter4; // buffer_size function overloads. std::size_t size1 = buffer_size(mb1); (void)size1; std::size_t size2 = buffer_size(cb1); (void)size2; std::size_t size3 = buffer_size(mbc1); (void)size3; std::size_t size4 = buffer_size(cbc1); (void)size4; std::size_t size5 = buffer_size(mutable_buffer_sequence); (void)size5; std::size_t size6 = buffer_size(const_buffer_sequence); (void)size6; // buffer_cast function overloads. #if !defined(ASIO_NO_DEPRECATED) void* ptr3 = buffer_cast(mb1); (void)ptr3; const void* ptr4 = buffer_cast(cb1); (void)ptr4; #endif // !defined(ASIO_NO_DEPRECATED) // buffer function overloads. mb1 = buffer(mb2); mb1 = buffer(mb2, 128); cb1 = buffer(cb2); cb1 = buffer(cb2, 128); mb1 = buffer(void_ptr_data, 1024); cb1 = buffer(const_void_ptr_data, 1024); mb1 = buffer(raw_data); mb1 = buffer(raw_data, 1024); cb1 = buffer(const_raw_data); cb1 = buffer(const_raw_data, 1024); #if defined(ASIO_HAS_BOOST_ARRAY) mb1 = buffer(array_data); mb1 = buffer(array_data, 1024); cb1 = buffer(const_array_data_1); cb1 = buffer(const_array_data_1, 1024); cb1 = buffer(const_array_data_2); cb1 = buffer(const_array_data_2, 1024); #endif // defined(ASIO_HAS_BOOST_ARRAY) #if defined(ASIO_HAS_STD_ARRAY) mb1 = buffer(std_array_data); mb1 = buffer(std_array_data, 1024); cb1 = buffer(const_std_array_data_1); cb1 = buffer(const_std_array_data_1, 1024); cb1 = buffer(const_std_array_data_2); cb1 = buffer(const_std_array_data_2, 1024); #endif // defined(ASIO_HAS_STD_ARRAY) mb1 = buffer(vector_data); mb1 = buffer(vector_data, 1024); cb1 = buffer(const_vector_data); cb1 = buffer(const_vector_data, 1024); mb1 = buffer(string_data); mb1 = buffer(string_data, 1024); cb1 = buffer(const_string_data); cb1 = buffer(const_string_data, 1024); // buffer_copy function overloads. std::size_t size7 = buffer_copy(mb1, cb2); (void)size7; std::size_t size8 = buffer_copy(mb1, cbc2); (void)size8; std::size_t size9 = buffer_copy(mb1, mb2); (void)size9; std::size_t size10 = buffer_copy(mb1, mbc2); (void)size10; std::size_t size11 = buffer_copy(mb1, const_buffer_sequence); (void)size11; std::size_t size12 = buffer_copy(mbc1, cb2); (void)size12; std::size_t size13 = buffer_copy(mbc1, cbc2); (void)size13; std::size_t size14 = buffer_copy(mbc1, mb2); (void)size14; std::size_t size15 = buffer_copy(mbc1, mbc2); (void)size15; std::size_t size16 = buffer_copy(mbc1, const_buffer_sequence); (void)size16; std::size_t size17 = buffer_copy(mutable_buffer_sequence, cb2); (void)size17; std::size_t size18 = buffer_copy(mutable_buffer_sequence, cbc2); (void)size18; std::size_t size19 = buffer_copy(mutable_buffer_sequence, mb2); (void)size19; std::size_t size20 = buffer_copy(mutable_buffer_sequence, mbc2); (void)size20; std::size_t size21 = buffer_copy( mutable_buffer_sequence, const_buffer_sequence); (void)size21; std::size_t size22 = buffer_copy(mb1, cb2, 128); (void)size22; std::size_t size23 = buffer_copy(mb1, cbc2, 128); (void)size23; std::size_t size24 = buffer_copy(mb1, mb2, 128); (void)size24; std::size_t size25 = buffer_copy(mb1, mbc2, 128); (void)size25; std::size_t size26 = buffer_copy(mb1, const_buffer_sequence, 128); (void)size26; std::size_t size27 = buffer_copy(mbc1, cb2, 128); (void)size27; std::size_t size28 = buffer_copy(mbc1, cbc2, 128); (void)size28; std::size_t size29 = buffer_copy(mbc1, mb2, 128); (void)size29; std::size_t size30 = buffer_copy(mbc1, mbc2, 128); (void)size30; std::size_t size31 = buffer_copy(mbc1, const_buffer_sequence, 128); (void)size31; std::size_t size32 = buffer_copy(mutable_buffer_sequence, cb2, 128); (void)size32; std::size_t size33 = buffer_copy(mutable_buffer_sequence, cbc2, 128); (void)size33; std::size_t size34 = buffer_copy(mutable_buffer_sequence, mb2, 128); (void)size34; std::size_t size35 = buffer_copy(mutable_buffer_sequence, mbc2, 128); (void)size35; std::size_t size36 = buffer_copy( mutable_buffer_sequence, const_buffer_sequence, 128); (void)size36; // dynamic_buffer function overloads. dynamic_string_buffer db1 = dynamic_buffer(string_data); (void)db1; dynamic_string_buffer db2 = dynamic_buffer(string_data, 1024); (void)db2; dynamic_vector_buffer > db3 = dynamic_buffer(vector_data); (void)db3; dynamic_vector_buffer > db4 = dynamic_buffer(vector_data, 1024); (void)db4; } catch (std::exception&) { } } } // namespace buffer_compile //------------------------------------------------------------------------------ ASIO_TEST_SUITE ( "buffer", ASIO_COMPILE_TEST_CASE(buffer_compile::test) )