// // Copyright 2017 Ettus Research LLC // // SPDX-License-Identifier: GPL-3.0 // #include "convert_pack_sc12.hpp" using namespace uhd::convert; template struct convert_star_1_to_sc12_item32_1 : public converter { convert_star_1_to_sc12_item32_1(void):_scalar(0.0) { //NOP } void set_scalar(const double scalar) { _scalar = scalar; } void operator()(const input_type &inputs, const output_type &outputs, const size_t nsamps) { const std::complex *input = reinterpret_cast *>(inputs[0]); /* * Effectively outputs will point to a managed_buffer instance. These buffers are 32 bit aligned. * For a detailed description see comments in 'convert_unpack_sc12.cpp'. */ const size_t head_samps = size_t(outputs[0]) & 0x3; int enable; size_t rewind = 0; switch(head_samps) { case 0: break; case 1: rewind = 9; break; case 2: rewind = 6; break; case 3: rewind = 3; break; } item32_sc12_3x *output = reinterpret_cast(size_t(outputs[0]) - rewind); //helper variables size_t i = 0, o = 0; //handle the head case switch (head_samps) { case 0: break; //no head case 1: enable = CONVERT12_LINE2; convert_star_4_to_sc12_item32_3(0, 0, 0, input[0], enable, output[o++], _scalar); break; case 2: enable = CONVERT12_LINE2 | CONVERT12_LINE1; convert_star_4_to_sc12_item32_3(0, 0, input[0], input[1], enable, output[o++], _scalar); break; case 3: enable = CONVERT12_LINE2 | CONVERT12_LINE1 | CONVERT12_LINE0; convert_star_4_to_sc12_item32_3(0, input[0], input[1], input[2], enable, output[o++], _scalar); break; } i += head_samps; //convert the body while (i+3 < nsamps) { convert_star_4_to_sc12_item32_3(input[i+0], input[i+1], input[i+2], input[i+3], CONVERT12_LINE_ALL, output[o], _scalar); o++; i += 4; } //handle the tail case const size_t tail_samps = nsamps - i; switch (tail_samps) { case 0: break; //no tail case 1: enable = CONVERT12_LINE0; convert_star_4_to_sc12_item32_3(input[i+0], 0, 0, 0, enable, output[o], _scalar); break; case 2: enable = CONVERT12_LINE0 | CONVERT12_LINE1; convert_star_4_to_sc12_item32_3(input[i+0], input[i+1], 0, 0, enable, output[o], _scalar); break; case 3: enable = CONVERT12_LINE0 | CONVERT12_LINE1 | CONVERT12_LINE2; convert_star_4_to_sc12_item32_3(input[i+0], input[i+1], input[i+2], 0, enable, output[o], _scalar); break; } } double _scalar; }; static converter::sptr make_convert_fc32_1_to_sc12_item32_le_1(void) { return converter::sptr(new convert_star_1_to_sc12_item32_1()); } static converter::sptr make_convert_fc32_1_to_sc12_item32_be_1(void) { return converter::sptr(new convert_star_1_to_sc12_item32_1()); } static converter::sptr make_convert_sc16_1_to_sc12_item32_le_1(void) { return converter::sptr(new convert_star_1_to_sc12_item32_1()); } static converter::sptr make_convert_sc16_1_to_sc12_item32_be_1(void) { return converter::sptr(new convert_star_1_to_sc12_item32_1()); } UHD_STATIC_BLOCK(register_convert_pack_sc12) { //uhd::convert::register_bytes_per_item("sc12", 3/*bytes*/); //registered in unpack uhd::convert::id_type id; id.num_inputs = 1; id.num_outputs = 1; id.input_format = "fc32"; id.output_format = "sc12_item32_le"; uhd::convert::register_converter(id, &make_convert_fc32_1_to_sc12_item32_le_1, PRIORITY_GENERAL); id.output_format = "sc12_item32_be"; uhd::convert::register_converter(id, &make_convert_fc32_1_to_sc12_item32_be_1, PRIORITY_GENERAL); id.input_format = "sc16"; id.output_format = "sc12_item32_le"; uhd::convert::register_converter(id, &make_convert_sc16_1_to_sc12_item32_le_1, PRIORITY_GENERAL); id.output_format = "sc12_item32_be"; uhd::convert::register_converter(id, &make_convert_sc16_1_to_sc12_item32_be_1, PRIORITY_GENERAL); }