// // Copyright 2017-2018 Ettus Research, a National Instruments Company // Copyright 2019 Ettus Research, a National Instruments Brand // // SPDX-License-Identifier: GPL-3.0-or-later // #ifndef INCLUDED_UHD_USRP_MULTI_USRP_PYTHON_HPP #define INCLUDED_UHD_USRP_MULTI_USRP_PYTHON_HPP #include #include void export_multi_usrp(py::module& m) { using multi_usrp = uhd::usrp::multi_usrp; const auto ALL_MBOARDS = multi_usrp::ALL_MBOARDS; const auto ALL_CHANS = multi_usrp::ALL_CHANS; const auto ALL_LOS = multi_usrp::ALL_LOS; py::class_(m, "multi_usrp") // Factory .def(py::init(&multi_usrp::make)) // General USRP methods .def("get_rx_freq" , &multi_usrp::get_rx_freq, py::arg("chan") = 0) .def("get_rx_num_channels" , &multi_usrp::get_rx_num_channels) .def("get_rx_rate" , &multi_usrp::get_rx_rate, py::arg("chan") = 0) .def("get_rx_stream" , &multi_usrp::get_rx_stream) .def("set_rx_freq" , &multi_usrp::set_rx_freq, py::arg("tune_request"), py::arg("chan") = 0) .def("set_rx_gain" , (void (multi_usrp::*)(double, const std::string&, size_t)) &multi_usrp::set_rx_gain, py::arg("gain"), py::arg("name"), py::arg("chan") = 0) .def("set_rx_gain" , (void (multi_usrp::*)(double, size_t)) &multi_usrp::set_rx_gain, py::arg("gain"), py::arg("chan") = 0) .def("set_rx_rate" , &multi_usrp::set_rx_rate, py::arg("rate"), py::arg("chan") = ALL_CHANS) .def("get_tx_freq" , &multi_usrp::get_tx_freq, py::arg("chan") = 0) .def("get_tx_num_channels" , &multi_usrp::get_tx_num_channels) .def("get_tx_rate" , &multi_usrp::get_tx_rate, py::arg("chan") = 0) .def("get_tx_stream" , &multi_usrp::get_tx_stream) .def("set_tx_freq" , &multi_usrp::set_tx_freq, py::arg("tune_request"), py::arg("chan") = 0) .def("set_tx_gain" , (void (multi_usrp::*)(double, const std::string&, size_t)) &multi_usrp::set_tx_gain, py::arg("gain"), py::arg("name"), py::arg("chan") = 0) .def("set_tx_gain" , (void (multi_usrp::*)(double, size_t)) &multi_usrp::set_tx_gain, py::arg("gain"), py::arg("chan") = 0) .def("set_tx_rate" , &multi_usrp::set_tx_rate, py::arg("rate"), py::arg("chan") = ALL_CHANS) .def("get_usrp_rx_info", [](multi_usrp& self, const size_t chan = 0) { return static_cast>( self.get_usrp_rx_info(chan)); }, py::arg("chan") = 0) .def("get_usrp_tx_info", [](multi_usrp& self, const size_t chan = 0) { return static_cast>( self.get_usrp_tx_info(chan)); }, py::arg("chan") = 0) .def("set_master_clock_rate" , &multi_usrp::set_master_clock_rate, py::arg("rate"), py::arg("mboard") = ALL_MBOARDS) .def("get_master_clock_rate" , &multi_usrp::get_master_clock_rate, py::arg("mboard") = 0) .def("get_master_clock_rate_range", &multi_usrp::get_master_clock_rate_range, py::arg("mboard") = ALL_MBOARDS) .def("get_pp_string" , &multi_usrp::get_pp_string) .def("get_mboard_name" , &multi_usrp::get_mboard_name, py::arg("mboard") = 0) .def("get_time_now" , &multi_usrp::get_time_now, py::arg("mboard") = 0) .def("get_time_last_pps" , &multi_usrp::get_time_last_pps, py::arg("mboard") = 0) .def("set_time_now" , &multi_usrp::set_time_now, py::arg("time_spec"), py::arg("mboard") = ALL_MBOARDS) .def("set_time_next_pps" , &multi_usrp::set_time_next_pps, py::arg("time_spec"), py::arg("mboard") = ALL_MBOARDS) .def("set_time_unknown_pps" , &multi_usrp::set_time_unknown_pps) .def("get_time_synchronized" , &multi_usrp::get_time_synchronized) .def("set_command_time" , &multi_usrp::set_command_time, py::arg("time_spec"), py::arg("mboard") = ALL_MBOARDS) .def("clear_command_time" , &multi_usrp::clear_command_time, py::arg("mboard") = ALL_MBOARDS) .def("issue_stream_cmd" , &multi_usrp::issue_stream_cmd, py::arg("rate"), py::arg("chan") = ALL_CHANS) .def("set_time_source" , &multi_usrp::set_time_source, py::arg("source"), py::arg("mboard") = ALL_MBOARDS) .def("get_time_source" , &multi_usrp::get_time_source) .def("get_time_sources" , &multi_usrp::get_time_sources) .def("set_clock_source" , &multi_usrp::set_clock_source, py::arg("source"), py::arg("mboard") = ALL_MBOARDS) .def("get_clock_source" , &multi_usrp::get_clock_source) .def("get_clock_sources" , &multi_usrp::get_clock_sources) .def("set_sync_source" , (void (multi_usrp::*)(const std::string&, const std::string&, size_t)) &multi_usrp::set_sync_source, py::arg("clock_source"), py::arg("time_source"), py::arg("mboard") = ALL_MBOARDS) .def("set_sync_source" , (void (multi_usrp::*)(const uhd::device_addr_t&, size_t)) &multi_usrp::set_sync_source, py::arg("sync_source"), py::arg("mboard") = ALL_MBOARDS) .def("get_sync_source" , &multi_usrp::get_sync_source) .def("get_sync_sources" , &multi_usrp::get_sync_sources) .def("set_clock_source_out" , &multi_usrp::set_clock_source_out, py::arg("enb"), py::arg("mboard") = ALL_MBOARDS) .def("set_time_source_out" , &multi_usrp::set_time_source_out, py::arg("enb"), py::arg("mboard") = ALL_MBOARDS) .def("get_num_mboards" , &multi_usrp::get_num_mboards) .def("get_mboard_sensor" , &multi_usrp::get_mboard_sensor, py::arg("name"), py::arg("mboard") = 0) .def("get_mboard_sensor_names" , &multi_usrp::get_mboard_sensor_names, py::arg("mboard") = 0) .def("set_user_register" , &multi_usrp::set_user_register, py::arg("addr"), py::arg("data"), py::arg("mboard") = ALL_MBOARDS) // RX methods .def("set_rx_subdev_spec" , &multi_usrp::set_rx_subdev_spec, py::arg("spec"), py::arg("mboard") = ALL_MBOARDS) .def("get_rx_subdev_spec" , &multi_usrp::get_rx_subdev_spec, py::arg("mboard") = 0) .def("get_rx_subdev_name" , &multi_usrp::get_rx_subdev_name, py::arg("chan") = 0) .def("get_rx_rates" , &multi_usrp::get_rx_rates, py::arg("chan") = 0) .def("get_rx_freq_range" , &multi_usrp::get_rx_freq_range, py::arg("chan") = 0) .def("get_fe_rx_freq_range" , &multi_usrp::get_fe_rx_freq_range, py::arg("chan") = 0) .def("get_rx_lo_names" , &multi_usrp::get_rx_lo_names, py::arg("chan") = 0) .def("set_rx_lo_source" , &multi_usrp::set_rx_lo_source, py::arg("src"), py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("get_rx_lo_source" , &multi_usrp::get_rx_lo_source, py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("get_rx_lo_sources" , &multi_usrp::get_rx_lo_sources, py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("set_rx_lo_export_enabled", &multi_usrp::set_rx_lo_export_enabled, py::arg("enb"), py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("get_rx_lo_export_enabled", &multi_usrp::get_rx_lo_export_enabled, py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("set_rx_lo_freq" , &multi_usrp::set_rx_lo_freq, py::arg("freq"), py::arg("name"), py::arg("chan") = 0) .def("get_rx_lo_freq" , &multi_usrp::get_rx_lo_freq, py::arg("name"), py::arg("chan") = 0) .def("get_rx_lo_freq_range" , &multi_usrp::get_rx_lo_freq_range, py::arg("name"), py::arg("chan") = 0) .def("set_normalized_rx_gain" , &multi_usrp::set_normalized_rx_gain, py::arg("gain"), py::arg("chan") = 0) .def("get_normalized_rx_gain" , &multi_usrp::get_normalized_rx_gain, py::arg("chan") = 0) .def("set_rx_agc" , &multi_usrp::set_rx_agc, py::arg("enable"), py::arg("chan") = 0) .def("get_rx_gain" , (double (multi_usrp::*)(const std::string&, size_t)) &multi_usrp::get_rx_gain, py::arg("name"), py::arg("chan") = 0) .def("get_rx_gain" , (double (multi_usrp::*)(size_t)) &multi_usrp::get_rx_gain, py::arg("chan") = 0) .def("get_rx_gain_range" , (uhd::gain_range_t (multi_usrp::*)(const std::string&, size_t)) &multi_usrp::get_rx_gain_range, py::arg("name"), py::arg("chan") = 0) .def("get_rx_gain_range" , (uhd::gain_range_t (multi_usrp::*)(size_t)) &multi_usrp::get_rx_gain_range, py::arg("chan") = 0) .def("get_rx_gain_names" , &multi_usrp::get_rx_gain_names, py::arg("chan") = 0) .def("set_rx_antenna" , &multi_usrp::set_rx_antenna, py::arg("ant"), py::arg("chan") = 0) .def("get_rx_antenna" , &multi_usrp::get_rx_antenna, py::arg("chan") = 0) .def("get_rx_antennas" , &multi_usrp::get_rx_antennas, py::arg("chan") = 0) .def("set_rx_bandwidth" , &multi_usrp::set_rx_bandwidth, py::arg("bandwidth"), py::arg("chan") = 0) .def("get_rx_bandwidth" , &multi_usrp::get_rx_bandwidth, py::arg("chan") = 0) .def("get_rx_bandwidth_range" , &multi_usrp::get_rx_bandwidth_range, py::arg("chan") = 0) .def("get_rx_dboard_iface" , &multi_usrp::get_rx_dboard_iface, py::arg("chan") = 0) .def("get_rx_sensor" , &multi_usrp::get_rx_sensor, py::arg("name"), py::arg("chan") = 0) .def("get_rx_sensor_names" , &multi_usrp::get_rx_sensor_names, py::arg("chan") = 0) .def("set_rx_dc_offset" , (void (multi_usrp::*)(const std::complex&, size_t)) &multi_usrp::set_rx_dc_offset, py::arg("offset"), py::arg("chan") = 0) .def("set_rx_dc_offset" , (void (multi_usrp::*)(bool, size_t)) &multi_usrp::set_rx_dc_offset, py::arg("enb"), py::arg("chan") = 0) .def("set_rx_iq_balance" , (void (multi_usrp::*)(const std::complex&, size_t)) &multi_usrp::set_rx_iq_balance, py::arg("correction"), py::arg("chan") = 0) .def("set_rx_iq_balance" , (void (multi_usrp::*)(bool, size_t)) &multi_usrp::set_rx_dc_offset, py::arg("enb"), py::arg("chan") = 0) .def("get_rx_gain_profile" , &multi_usrp::get_rx_gain_profile, py::arg("chan") = 0) .def("set_rx_gain_profile" , &multi_usrp::set_rx_gain_profile, py::arg("profile"), py::arg("chan") = 0) .def("get_rx_gain_profile_names", &multi_usrp::get_rx_gain_profile_names, py::arg("chan") = 0) // TX methods .def("set_tx_subdev_spec" , &multi_usrp::set_tx_subdev_spec, py::arg("spec"), py::arg("mboard") = ALL_MBOARDS) .def("get_tx_subdev_spec" , &multi_usrp::get_tx_subdev_spec, py::arg("mboard") = 0) .def("get_tx_subdev_name" , &multi_usrp::get_tx_subdev_name, py::arg("chan") = 0) .def("get_tx_rates" , &multi_usrp::get_tx_rates, py::arg("chan") = 0) .def("get_tx_freq_range" , &multi_usrp::get_tx_freq_range, py::arg("chan") = 0) .def("get_fe_tx_freq_range" , &multi_usrp::get_fe_tx_freq_range, py::arg("chan") = 0) .def("get_tx_lo_names" , &multi_usrp::get_tx_lo_names, py::arg("chan") = 0) .def("set_tx_lo_source" , &multi_usrp::set_tx_lo_source, py::arg("src"), py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("get_tx_lo_source" , &multi_usrp::get_tx_lo_source, py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("get_tx_lo_sources" , &multi_usrp::get_tx_lo_sources, py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("set_tx_lo_export_enabled", &multi_usrp::set_tx_lo_export_enabled, py::arg("enb"), py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("get_tx_lo_export_enabled", &multi_usrp::get_tx_lo_export_enabled, py::arg("name") = ALL_LOS, py::arg("chan") = 0) .def("set_tx_lo_freq" , &multi_usrp::set_tx_lo_freq, py::arg("freq"), py::arg("name"), py::arg("chan") = 0) .def("get_tx_lo_freq" , &multi_usrp::get_tx_lo_freq, py::arg("name"), py::arg("chan") = 0) .def("get_tx_lo_freq_range" , &multi_usrp::get_tx_lo_freq_range, py::arg("name"), py::arg("chan") = 0) .def("set_normalized_tx_gain" , &multi_usrp::set_normalized_tx_gain, py::arg("gain"), py::arg("chan") = 0) .def("get_normalized_tx_gain" , &multi_usrp::get_normalized_tx_gain, py::arg("chan") = 0) .def("get_tx_gain" , (double (multi_usrp::*)(const std::string&, size_t)) &multi_usrp::get_tx_gain, py::arg("name"), py::arg("chan") = 0) .def("get_tx_gain" , (double (multi_usrp::*)(size_t)) &multi_usrp::get_tx_gain, py::arg("chan") = 0) .def("get_tx_gain_range" , (uhd::gain_range_t (multi_usrp::*)(const std::string&, size_t)) &multi_usrp::get_tx_gain_range, py::arg("name"), py::arg("chan") = 0) .def("get_tx_gain_range" , (uhd::gain_range_t (multi_usrp::*)(size_t)) &multi_usrp::get_tx_gain_range, py::arg("chan") = 0) .def("get_tx_gain_names" , &multi_usrp::get_tx_gain_names, py::arg("chan") = 0) .def("set_tx_antenna" , &multi_usrp::set_tx_antenna, py::arg("ant"), py::arg("chan") = 0) .def("get_tx_antenna" , &multi_usrp::get_tx_antenna, py::arg("chan") = 0) .def("get_tx_antennas" , &multi_usrp::get_tx_antennas, py::arg("chan") = 0) .def("set_tx_bandwidth" , &multi_usrp::set_tx_bandwidth, py::arg("bandwidth"), py::arg("chan") = 0) .def("get_tx_bandwidth" , &multi_usrp::get_tx_bandwidth, py::arg("chan") = 0) .def("get_tx_bandwidth_range" , &multi_usrp::get_tx_bandwidth_range, py::arg("chan") = 0) .def("get_tx_dboard_iface" , &multi_usrp::get_tx_dboard_iface, py::arg("chan") = 0) .def("get_tx_sensor" , &multi_usrp::get_tx_sensor, py::arg("name"), py::arg("chan") = 0) .def("get_tx_sensor_names" , &multi_usrp::get_tx_sensor_names, py::arg("chan") = 0) .def("set_tx_dc_offset" , (void (multi_usrp::*)(const std::complex&, size_t)) &multi_usrp::set_tx_dc_offset, py::arg("offset"), py::arg("chan") = 0) .def("set_tx_iq_balance" , (void (multi_usrp::*)(const std::complex&, size_t)) &multi_usrp::set_tx_iq_balance, py::arg("correction"), py::arg("chan") = 0) .def("get_tx_gain_profile" , &multi_usrp::get_tx_gain_profile, py::arg("chan") = 0) .def("set_tx_gain_profile" , &multi_usrp::set_tx_gain_profile, py::arg("profile"), py::arg("chan") = 0) .def("get_tx_gain_profile_names", &multi_usrp::get_tx_gain_profile_names, py::arg("chan") = 0) // GPIO methods .def("get_gpio_banks" , &multi_usrp::get_gpio_banks) .def("set_gpio_attr" , (void (multi_usrp::*)(const std::string&, const std::string&, const uint32_t, const uint32_t, const size_t)) &multi_usrp::set_gpio_attr, py::arg("bank"), py::arg("attr"), py::arg("value"), py::arg("mask") = 0xffffffff, py::arg("mboard") = 0) .def("get_gpio_attr" , &multi_usrp::get_gpio_attr, py::arg("bank"), py::arg("attr"), py::arg("mboard") = 0) .def("get_gpio_srcs" , &multi_usrp::get_gpio_srcs, py::arg("bank"), py::arg("mboard") = 0) .def("get_gpio_src" , &multi_usrp::get_gpio_src, py::arg("bank"), py::arg("mboard") = 0) .def("set_gpio_src" , &multi_usrp::set_gpio_src, py::arg("bank"), py::arg("src"), py::arg("mboard") = 0) // Filter API methods .def("get_rx_filter_names" , &multi_usrp::get_rx_filter_names) .def("get_rx_filter" , &multi_usrp::get_rx_filter) .def("set_rx_filter" , &multi_usrp::set_rx_filter) .def("get_tx_filter_names" , &multi_usrp::get_tx_filter_names) .def("get_tx_filter" , &multi_usrp::get_tx_filter) .def("set_tx_filter" , &multi_usrp::set_tx_filter) ; } #endif /* INCLUDED_UHD_USRP_MULTI_USRP_PYTHON_HPP */