// // Copyright 2011-2011 Ettus Research LLC // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // #include #include #include #include #include #include #include #include using namespace uhd; //typedefs for complex types typedef std::complex sc16_t; typedef std::complex fc32_t; typedef std::complex fc64_t; #define MY_CHECK_CLOSE(a, b, f) if ((std::abs(a) > (f))) \ BOOST_CHECK_CLOSE_FRACTION(a, b, f) /*********************************************************************** * Loopback runner: * convert input buffer into intermediate buffer * convert intermediate buffer into output buffer **********************************************************************/ template static void loopback( size_t nsamps, convert::id_type &in_id, convert::id_type &out_id, const Range &input, Range &output ){ //item32 is largest device type std::vector interm(nsamps); std::vector input0(1, &input[0]), input1(1, &interm[0]); std::vector output0(1, &interm[0]), output1(1, &output[0]); //convert to intermediate type convert::get_converter(in_id)(input0, output0, nsamps, 32767.); //convert back to host type convert::get_converter(out_id)(input1, output1, nsamps, 1/32767.); } /*********************************************************************** * Test short conversion **********************************************************************/ static void test_convert_types_sc16( size_t nsamps, convert::id_type &id ){ //fill the input samples std::vector input(nsamps), output(nsamps); BOOST_FOREACH(sc16_t &in, input) in = sc16_t( std::rand()-(RAND_MAX/2), std::rand()-(RAND_MAX/2) ); //run the loopback and test convert::id_type in_id = id; convert::id_type out_id = id; std::swap(out_id.input_format, out_id.output_format); std::swap(out_id.num_inputs, out_id.num_outputs); loopback(nsamps, in_id, out_id, input, output); BOOST_CHECK_EQUAL_COLLECTIONS(input.begin(), input.end(), output.begin(), output.end()); } BOOST_AUTO_TEST_CASE(test_convert_types_be_sc16){ convert::id_type id; id.input_format = "sc16"; id.num_inputs = 1; id.output_format = "sc16_item32_be"; id.num_outputs = 1; //try various lengths to test edge cases for (size_t nsamps = 1; nsamps < 16; nsamps++){ test_convert_types_sc16(nsamps, id); } } BOOST_AUTO_TEST_CASE(test_convert_types_le_sc16){ convert::id_type id; id.input_format = "sc16"; id.num_inputs = 1; id.output_format = "sc16_item32_le"; id.num_outputs = 1; //try various lengths to test edge cases for (size_t nsamps = 1; nsamps < 16; nsamps++){ test_convert_types_sc16(nsamps, id); } } /*********************************************************************** * Test float conversion **********************************************************************/ template static void test_convert_types_for_floats( size_t nsamps, convert::id_type &id ){ typedef typename data_type::value_type value_type; //fill the input samples std::vector input(nsamps), output(nsamps); BOOST_FOREACH(data_type &in, input) in = data_type( (std::rand()/value_type(RAND_MAX/2)) - 1, (std::rand()/value_type(RAND_MAX/2)) - 1 ); //run the loopback and test convert::id_type in_id = id; convert::id_type out_id = id; std::swap(out_id.input_format, out_id.output_format); std::swap(out_id.num_inputs, out_id.num_outputs); loopback(nsamps, in_id, out_id, input, output); for (size_t i = 0; i < nsamps; i++){ MY_CHECK_CLOSE(input[i].real(), output[i].real(), value_type(0.01)); MY_CHECK_CLOSE(input[i].imag(), output[i].imag(), value_type(0.01)); } } BOOST_AUTO_TEST_CASE(test_convert_types_be_fc32){ convert::id_type id; id.input_format = "fc32"; id.num_inputs = 1; id.output_format = "sc16_item32_be"; id.num_outputs = 1; //try various lengths to test edge cases for (size_t nsamps = 1; nsamps < 16; nsamps++){ test_convert_types_for_floats(nsamps, id); } } BOOST_AUTO_TEST_CASE(test_convert_types_le_fc32){ convert::id_type id; id.input_format = "fc32"; id.num_inputs = 1; id.output_format = "sc16_item32_le"; id.num_outputs = 1; //try various lengths to test edge cases for (size_t nsamps = 1; nsamps < 16; nsamps++){ test_convert_types_for_floats(nsamps, id); } } BOOST_AUTO_TEST_CASE(test_convert_types_be_fc64){ convert::id_type id; id.input_format = "fc64"; id.num_inputs = 1; id.output_format = "sc16_item32_be"; id.num_outputs = 1; //try various lengths to test edge cases for (size_t nsamps = 1; nsamps < 16; nsamps++){ test_convert_types_for_floats(nsamps, id); } } BOOST_AUTO_TEST_CASE(test_convert_types_le_fc64){ convert::id_type id; id.input_format = "fc64"; id.num_inputs = 1; id.output_format = "sc16_item32_le"; id.num_outputs = 1; //try various lengths to test edge cases for (size_t nsamps = 1; nsamps < 16; nsamps++){ test_convert_types_for_floats(nsamps, id); } } /*********************************************************************** * Test float to short conversion loopback **********************************************************************/ BOOST_AUTO_TEST_CASE(test_convert_types_fc32_to_sc16){ convert::id_type in_id; in_id.input_format = "fc32"; in_id.num_inputs = 1; in_id.output_format = "sc16_item32_le"; in_id.num_outputs = 1; convert::id_type out_id; out_id.input_format = "sc16_item32_le"; out_id.num_inputs = 1; out_id.output_format = "sc16"; out_id.num_outputs = 1; const size_t nsamps = 13; std::vector input(nsamps); BOOST_FOREACH(fc32_t &in, input) in = fc32_t( (std::rand()/float(RAND_MAX/2)) - 1, (std::rand()/float(RAND_MAX/2)) - 1 ); std::vector interm(nsamps); std::vector output(nsamps); std::vector input0(1, &input[0]), input1(1, &interm[0]); std::vector output0(1, &interm[0]), output1(1, &output[0]); //convert float to intermediate convert::get_converter(in_id)(input0, output0, nsamps, 32767.); //convert intermediate to short convert::get_converter(out_id)(input1, output1, nsamps, 1/32767.); //test that the inputs and outputs match for (size_t i = 0; i < nsamps; i++){ MY_CHECK_CLOSE(input[i].real(), output[i].real()/float(32767), float(0.01)); MY_CHECK_CLOSE(input[i].imag(), output[i].imag()/float(32767), float(0.01)); } } /*********************************************************************** * Test short to float conversion loopback **********************************************************************/ BOOST_AUTO_TEST_CASE(test_convert_types_sc16_to_fc32){ convert::id_type in_id; in_id.input_format = "sc16"; in_id.num_inputs = 1; in_id.output_format = "sc16_item32_le"; in_id.num_outputs = 1; convert::id_type out_id; out_id.input_format = "sc16_item32_le"; out_id.num_inputs = 1; out_id.output_format = "fc32"; out_id.num_outputs = 1; const size_t nsamps = 13; std::vector input(nsamps); BOOST_FOREACH(sc16_t &in, input) in = sc16_t( std::rand()-(RAND_MAX/2), std::rand()-(RAND_MAX/2) ); std::vector interm(nsamps); std::vector output(nsamps); std::vector input0(1, &input[0]), input1(1, &interm[0]); std::vector output0(1, &interm[0]), output1(1, &output[0]); //convert short to intermediate convert::get_converter(in_id)(input0, output0, nsamps, 32767.); //convert intermediate to float convert::get_converter(out_id)(input1, output1, nsamps, 1/32767.); //test that the inputs and outputs match for (size_t i = 0; i < nsamps; i++){ MY_CHECK_CLOSE(input[i].real()/float(32767), output[i].real(), float(0.01)); MY_CHECK_CLOSE(input[i].imag()/float(32767), output[i].imag(), float(0.01)); } }