/* -*- c++ -*- */ /* * Copyright 2008,2009 Free Software Foundation, Inc. * * This file is part of GNU Radio * * GNU Radio 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, or (at your option) * any later version. * * GNU Radio 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 GNU Radio; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ %include "gnuradio.i" // the common stuff %import %{ #include "usrp2_source_16sc.h" #include "usrp2_source_32fc.h" #include "usrp2_sink_16sc.h" #include "usrp2_sink_32fc.h" %} %include %include %template(uint32_t_vector) std::vector; // ---------------------------------------------------------------- class usrp2_base : public gr_sync_block { protected: usrp2_base() throw (std::runtime_error); public: ~usrp2_base(); std::string mac_addr() const; std::string interface_name() const; %rename(_real_fpga_master_clock_freq) fpga_master_clock_freq; bool fpga_master_clock_freq(long *freq); bool config_mimo(int flags); bool sync_to_pps(); bool sync_every_pps(bool enable); std::vector peek32(uint32_t addr, uint32_t words); bool poke32(uint32_t addr, const std::vector &data); }; // ---------------------------------------------------------------- class usrp2_source_base : public usrp2_base { protected: usrp2_source_base() throw (std::runtime_error); public: ~usrp2_source_base(); bool set_antenna(int ant); bool set_gain(double gain); %rename(_real_set_center_freq) set_center_freq; bool set_lo_offset(double frequency); bool set_center_freq(double frequency, usrp2::tune_result *r); bool set_decim(int decimation_factor); bool set_scale_iq(int scale_i, int scale_q); int decim(); %rename(_real_adc_rate) adc_rate; bool adc_rate(long *rate); double gain_min(); double gain_max(); double gain_db_per_step(); double freq_min(); double freq_max(); %rename(_real_daughterboard_id) daughterboard_id; bool daughterboard_id(int *dbid); unsigned int overruns(); unsigned int missing(); bool set_gpio_ddr(uint16_t value, uint16_t mask); bool set_gpio_sels(std::string sels); bool write_gpio(uint16_t value, uint16_t mask); %rename(_real_read_gpio) read_gpio; bool read_gpio(uint16_t *value); bool enable_gpio_streaming(int enable); }; // ---------------------------------------------------------------- GR_SWIG_BLOCK_MAGIC(usrp2,source_32fc) usrp2_source_32fc_sptr usrp2_make_source_32fc(const std::string ifc="eth0", const std::string mac="") throw (std::runtime_error); class usrp2_source_32fc : public usrp2_source_base { protected: usrp2_source_32fc(const std::string &ifc, const std::string &mac); public: ~usrp2_source_32fc(); }; // ---------------------------------------------------------------- GR_SWIG_BLOCK_MAGIC(usrp2,source_16sc) usrp2_source_16sc_sptr usrp2_make_source_16sc(const std::string ifc="eth0", const std::string mac="") throw (std::runtime_error); class usrp2_source_16sc : public usrp2_source_base { protected: usrp2_source_16sc(const std::string &ifc, const std::string &mac); public: ~usrp2_source_16sc(); }; // ---------------------------------------------------------------- class usrp2_sink_base : public usrp2_base { protected: usrp2_sink_base() throw (std::runtime_error); public: ~usrp2_sink_base(); bool set_antenna(int ant); bool set_gain(double gain); %rename(_real_set_center_freq) set_center_freq; bool set_lo_offset(double frequency); bool set_center_freq(double frequency, usrp2::tune_result *r); bool set_interp(int interp_factor); bool set_scale_iq(int scale_i, int scale_q); int interp(); %rename(_real_default_tx_scale_iq) default_scale_iq; void default_scale_iq(int interp, int *scale_i, int *scale_q); %rename(_real_dac_rate) dac_rate; bool dac_rate(long *rate); double gain_min(); double gain_max(); double gain_db_per_step(); double freq_min(); double freq_max(); %rename(_real_daughterboard_id) daughterboard_id; bool daughterboard_id(int *dbid); bool set_gpio_ddr(uint16_t value, uint16_t mask); bool set_gpio_sels(std::string sels); bool write_gpio(uint16_t value, uint16_t mask); %rename(_real_read_gpio) read_gpio; bool read_gpio(uint16_t *value); }; // ---------------------------------------------------------------- GR_SWIG_BLOCK_MAGIC(usrp2,sink_32fc) usrp2_sink_32fc_sptr usrp2_make_sink_32fc(const std::string ifc="eth0", const std::string mac="") throw (std::runtime_error); class usrp2_sink_32fc : public usrp2_sink_base { protected: usrp2_sink_32fc(const std::string &ifc, const std::string &mac); public: ~usrp2_sink_32fc(); }; // ---------------------------------------------------------------- GR_SWIG_BLOCK_MAGIC(usrp2,sink_16sc) usrp2_sink_16sc_sptr usrp2_make_sink_16sc(const std::string ifc="eth0", const std::string mac="") throw (std::runtime_error); class usrp2_sink_16sc : public usrp2_sink_base { protected: usrp2_sink_16sc(const std::string &ifc, const std::string &mac); public: ~usrp2_sink_16sc(); }; // ---------------------------------------------------------------- // some utility functions to allow Python to deal with pointers %{ long *make_long_ptr() { return new long; } long deref_long_ptr(long *l) { return *l; } void free_long_ptr(long *l) { delete l; } int *make_int_ptr() { return new int; } int deref_int_ptr(int *l) { return *l; } void free_int_ptr(int *l) { delete l; } uint16_t *make_uint16_ptr() { return new uint16_t; } int deref_uint16_ptr(uint16_t *l) { return *l; } void free_uint16_ptr(uint16_t *l) { delete l; } %} long *make_long_ptr(); long deref_long_ptr(long *l); void free_long_ptr(long *l); int *make_int_ptr(); int deref_int_ptr(int *l); void free_int_ptr(int *l); uint16_t *make_uint16_ptr(); int deref_uint16_ptr(uint16_t *l); void free_uint16_ptr(uint16_t *l); // create a more pythonic interface %pythoncode %{ def __set_center_freq(self, freq): tr = tune_result() r = self._real_set_center_freq(freq, tr) if r: return tr else: return None def __fpga_master_clock_freq(self): f = make_long_ptr(); r = self._real_fpga_master_clock_freq(f) if r: result = deref_long_ptr(f) else: result = None free_long_ptr(f) return result def __adc_rate(self): rate = make_long_ptr(); r = self._real_adc_rate(rate) if r: result = deref_long_ptr(rate) else: result = None free_long_ptr(rate) return result def __dac_rate(self): rate = make_long_ptr(); r = self._real_dac_rate(rate) if r: result = deref_long_ptr(rate) else: result = None free_long_ptr(rate) return result def __gain_range(self): return [self.gain_min(), self.gain_max(), self.gain_db_per_step()] # NOTE: USRP1 uses a length three tuple here (3rd value is 'freq step'), # but it's not really useful. We let an index error happen here # to identify code using it. def __freq_range(self): return [self.freq_min(), self.freq_max()] def __daughterboard_id(self): dbid = make_int_ptr() r = self._real_daughterboard_id(dbid) if r: result = deref_int_ptr(dbid) else: result = None free_int_ptr(dbid) return result def __default_tx_scale_iq(self, interp): scale_i = make_int_ptr() scale_q = make_int_ptr() self._real_default_tx_scale_iq(interp, scale_i, scale_q) return (deref_int_ptr(scale_i), deref_int_ptr(scale_q)) def __read_gpio(self): value = make_uint16_ptr() r = self._real_read_gpio(value) if r: result = deref_uint16_ptr(value) else: result = None free_uint16_ptr(value) return result usrp2_source_32fc_sptr.set_center_freq = __set_center_freq usrp2_source_16sc_sptr.set_center_freq = __set_center_freq usrp2_sink_32fc_sptr.set_center_freq = __set_center_freq usrp2_sink_16sc_sptr.set_center_freq = __set_center_freq usrp2_source_32fc_sptr.fpga_master_clock_freq = __fpga_master_clock_freq usrp2_source_16sc_sptr.fpga_master_clock_freq = __fpga_master_clock_freq usrp2_sink_32fc_sptr.fpga_master_clock_freq = __fpga_master_clock_freq usrp2_sink_16sc_sptr.fpga_master_clock_freq = __fpga_master_clock_freq usrp2_source_32fc_sptr.adc_rate = __adc_rate usrp2_source_16sc_sptr.adc_rate = __adc_rate usrp2_sink_32fc_sptr.dac_rate = __dac_rate usrp2_sink_16sc_sptr.dac_rate = __dac_rate usrp2_source_32fc_sptr.gain_range = __gain_range usrp2_source_16sc_sptr.gain_range = __gain_range usrp2_sink_32fc_sptr.gain_range = __gain_range usrp2_sink_16sc_sptr.gain_range = __gain_range usrp2_source_32fc_sptr.freq_range = __freq_range usrp2_source_16sc_sptr.freq_range = __freq_range usrp2_sink_32fc_sptr.freq_range = __freq_range usrp2_sink_16sc_sptr.freq_range = __freq_range usrp2_source_32fc_sptr.daughterboard_id = __daughterboard_id usrp2_source_16sc_sptr.daughterboard_id = __daughterboard_id usrp2_sink_32fc_sptr.daughterboard_id = __daughterboard_id usrp2_sink_16sc_sptr.daughterboard_id = __daughterboard_id usrp2_sink_32fc_sptr.default_scale_iq = __default_tx_scale_iq usrp2_sink_16sc_sptr.default_scale_iq = __default_tx_scale_iq usrp2_source_32fc_sptr.read_gpio = __read_gpio usrp2_source_16sc_sptr.read_gpio = __read_gpio usrp2_sink_32fc_sptr.read_gpio = __read_gpio usrp2_sink_16sc_sptr.read_gpio = __read_gpio %}