forked from sdr/gr-osmosdr
286 lines
9.7 KiB
C++
286 lines
9.7 KiB
C++
/* -*- c++ -*- */
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/*
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* Copyright 2012 Dimitri Stolnikov <horiz0n@gmx.net>
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*
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* GNU Radio is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3, or (at your option)
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* any later version.
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*
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* GNU Radio is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with GNU Radio; see the file COPYING. If not, write to
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* the Free Software Foundation, Inc., 51 Franklin Street,
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* Boston, MA 02110-1301, USA.
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*/
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#ifndef OSMOSDR_SRC_IFACE_H
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#define OSMOSDR_SRC_IFACE_H
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#include <osmosdr/osmosdr_ranges.h>
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#include <gr_basic_block.h>
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class osmosdr_src_iface;
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typedef boost::shared_ptr<osmosdr_src_iface> osmosdr_src_iface_sptr;
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/*!
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* TODO: document
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*
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*/
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class osmosdr_src_iface
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{
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public:
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/*!
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* Get the number of channels the underlying radio hardware offers.
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* \return the number of available channels
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*/
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virtual size_t get_num_channels( void ) = 0;
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/*!
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* Get the possible sample rates for the underlying radio hardware.
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* \return a range of rates in Sps
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*/
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virtual osmosdr::meta_range_t get_sample_rates( void ) = 0;
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/*!
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* Set the sample rate for the underlying radio hardware.
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* This also will select the appropriate IF bandpass, if applicable.
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* \param rate a new rate in Sps
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*/
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virtual double set_sample_rate( double rate ) = 0;
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/*!
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* Get the sample rate for the underlying radio hardware.
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* This is the actual sample rate and may differ from the rate set.
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* \return the actual rate in Sps
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*/
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virtual double get_sample_rate( void ) = 0;
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/*!
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* Get the tunable frequency range for the underlying radio hardware.
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* \param chan the channel index 0 to N-1
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* \return the frequency range in Hz
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*/
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virtual osmosdr::freq_range_t get_freq_range( size_t chan = 0 ) = 0;
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/*!
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* Tune the underlying radio hardware to the desired center frequency.
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* This also will select the appropriate RF bandpass.
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* \param freq the desired frequency in Hz
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* \param chan the channel index 0 to N-1
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* \return the actual frequency in Hz
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*/
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virtual double set_center_freq( double freq, size_t chan = 0 ) = 0;
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/*!
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* Get the center frequency the underlying radio hardware is tuned to.
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* This is the actual frequency and may differ from the frequency set.
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* \param chan the channel index 0 to N-1
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* \return the frequency in Hz
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*/
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virtual double get_center_freq( size_t chan = 0 ) = 0;
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/*!
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* Set the frequency correction value in parts per million.
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* \param ppm the desired correction value in parts per million
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* \param chan the channel index 0 to N-1
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* \return correction value in parts per million
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*/
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virtual double set_freq_corr( double ppm, size_t chan = 0 ) = 0;
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/*!
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* Get the frequency correction value.
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* \param chan the channel index 0 to N-1
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* \return correction value in parts per million
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*/
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virtual double get_freq_corr( size_t chan = 0 ) = 0;
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/*!
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* Get the gain stage names of the underlying radio hardware.
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* \param chan the channel index 0 to N-1
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* \return a vector of strings containing the names of gain stages
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*/
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virtual std::vector<std::string> get_gain_names( size_t chan = 0 ) = 0;
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/*!
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* Get the settable overall gain range for the underlying radio hardware.
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* \param chan the channel index 0 to N-1
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* \return the gain range in dB
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*/
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virtual osmosdr::gain_range_t get_gain_range( size_t chan = 0 ) = 0;
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/*!
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* Get the settable gain range for a specific gain stage.
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* \param name the name of the gain stage
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* \param chan the channel index 0 to N-1
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* \return the gain range in dB
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*/
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virtual osmosdr::gain_range_t get_gain_range( const std::string & name,
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size_t chan = 0 ) = 0;
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/*!
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* Set the gain mode for the underlying radio hardware.
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* This might be supported only for certain hardware types.
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* \param automatic the gain mode (true means automatic gain mode)
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* \param chan the channel index 0 to N-1
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* \return the actual gain mode
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*/
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virtual bool set_gain_mode( bool automatic, size_t chan = 0 ) { return false; }
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/*!
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* Get the gain mode selected for the underlying radio hardware.
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* \param chan the channel index 0 to N-1
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* \return the actual gain mode (true means automatic gain mode)
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*/
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virtual bool get_gain_mode( size_t chan = 0 ) { return false; }
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/*!
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* Set the gain for the underlying radio hardware.
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* This function will automatically distribute the desired gain value over
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* available gain stages in an appropriate way and return the actual value.
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* \param gain the gain in dB
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* \param chan the channel index 0 to N-1
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* \return the actual gain in dB
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*/
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virtual double set_gain( double gain, size_t chan = 0 ) = 0;
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/*!
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* Set the named gain on the underlying radio hardware.
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* \param gain the gain in dB
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* \param name the name of the gain stage
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* \param chan the channel index 0 to N-1
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* \return the actual gain in dB
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*/
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virtual double set_gain( double gain,
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const std::string & name,
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size_t chan = 0 ) = 0;
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/*!
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* Get the actual gain setting of the underlying radio hardware.
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* \param chan the channel index 0 to N-1
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* \return the actual gain in dB
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*/
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virtual double get_gain( size_t chan = 0 ) = 0;
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/*!
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* Get the actual gain setting of a named stage.
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* \param name the name of the gain stage
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* \param chan the channel index 0 to N-1
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* \return the actual gain in dB
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*/
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virtual double get_gain( const std::string & name, size_t chan = 0 ) = 0;
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/*!
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* Set the IF gain for the underlying radio hardware.
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* This function will automatically distribute the desired gain value over
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* available IF gain stages in an appropriate way and return the actual value.
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* \param gain the gain in dB
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* \param chan the channel index 0 to N-1
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* \return the actual gain in dB
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*/
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virtual double set_if_gain( double gain, size_t chan = 0 ) { return 0; }
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/*!
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* Set the BB gain for the underlying radio hardware.
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* This function will automatically distribute the desired gain value over
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* available BB gain stages in an appropriate way and return the actual value.
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* \param gain the gain in dB
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* \param chan the channel index 0 to N-1
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* \return the actual gain in dB
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*/
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virtual double set_bb_gain( double gain, size_t chan = 0 ) { return 0; }
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/*!
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* Get the available antennas of the underlying radio hardware.
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* \param chan the channel index 0 to N-1
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* \return a vector of strings containing the names of available antennas
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*/
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virtual std::vector< std::string > get_antennas( size_t chan = 0 ) = 0;
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/*!
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* Select the active antenna of the underlying radio hardware.
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* \param chan the channel index 0 to N-1
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* \return the actual antenna's name
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*/
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virtual std::string set_antenna( const std::string & antenna,
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size_t chan = 0 ) = 0;
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/*!
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* Get the actual underlying radio hardware antenna setting.
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* \param chan the channel index 0 to N-1
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* \return the actual antenna's name
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*/
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virtual std::string get_antenna( size_t chan = 0 ) = 0;
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/*!
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* Set the RX frontend DC correction mode.
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* The automatic correction subtracts out the long-run average.
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*
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* When disabled, the averaging option operation is reset.
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* Once in Manual mode, the average value will be held constant until
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* the user re-enables the automatic correction or overrides the
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* value by manually setting the offset.
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*
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* \param mode dc offset correction mode: 0 = Off, 1 = Manual, 2 = Automatic
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* \param chan the channel index 0 to N-1
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*/
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virtual void set_dc_offset_mode( int mode, size_t chan = 0 ) { }
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/*!
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* Set a constant DC offset value.
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* The value is complex to control both I and Q.
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* Only set this when automatic correction is disabled.
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*
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* \param offset the dc offset (1.0 is full-scale)
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* \param chan the channel index 0 to N-1
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*/
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virtual void set_dc_offset( const std::complex<double> &offset, size_t chan = 0 ) { }
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/*!
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* Set the RX frontend IQ balance mode.
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*
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* \param mode iq balance correction mode: 0 = Off, 1 = Manual, 2 = Automatic
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* \param chan the channel index 0 to N-1
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*/
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virtual void set_iq_balance_mode( int mode, size_t chan = 0 ) { }
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/*!
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* Set the RX frontend IQ balance correction.
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* Use this to adjust the magnitude and phase of I and Q.
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*
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* \param balance the complex correction value
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* \param chan the channel index 0 to N-1
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*/
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virtual void set_iq_balance( const std::complex<double> &balance, size_t chan = 0 ) { }
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/*!
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* Set the bandpass filter on the radio frontend.
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* \param bandwidth the filter bandwidth in Hz, set to 0 for automatic selection
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* \param chan the channel index 0 to N-1
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* \return the actual filter bandwidth in Hz
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*/
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virtual double set_bandwidth( double bandwidth, size_t chan = 0 ) { return 0; }
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/*!
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* Get the actual bandpass filter setting on the radio frontend.
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* \param chan the channel index 0 to N-1
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* \return the actual filter bandwidth in Hz
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*/
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virtual double get_bandwidth( size_t chan = 0 ) { return 0; }
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/*!
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* Get the possible bandpass filter settings on the radio frontend.
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* \param chan the channel index 0 to N-1
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* \return a range of bandwidths in Hz
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*/
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virtual osmosdr::freq_range_t get_bandwidth_range( size_t chan = 0 )
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{ return osmosdr::freq_range_t(); }
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};
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#endif // OSMOSDR_SRC_IFACE_H
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