/* -*- c++ -*- */ /* * Copyright 2003,2005 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. */ #ifndef INCLUDED_GR_OSCOPE_GUTS_H #define INCLUDED_GR_OSCOPE_GUTS_H #include #include #include /*! * \brief guts of oscilloscope trigger and buffer module * * This module processes sets of samples provided the \p process_sample * method. When appropriate given the updateRate, sampleRate and * trigger conditions, process_sample will periodically write output * records of captured data to output_fd. For each trigger event, * nchannels records will be written. Each record consists of * get_samples_per_output_record binary floats. The trigger instant * occurs at the 1/2 way point in the buffer. Thus, output records * consist of 50% pre-trigger data and 50% post-trigger data. */ class GR_CORE_API gr_oscope_guts { public: static const int MAX_CHANNELS = 8; private: enum scope_state { HOLD_OFF, LOOK_FOR_TRIGGER, POST_TRIGGER }; int d_nchannels; // how many channels gr_msg_queue_sptr d_msgq; // message queue we stuff output records into gr_trigger_mode d_trigger_mode; gr_trigger_slope d_trigger_slope; int d_trigger_channel; // which channel to watch for trigger condition double d_sample_rate; // input sample rate in Hz double d_update_rate; // approx freq to produce an output record (Hz) double d_trigger_level; int d_obi; // output buffer index float *d_buffer[MAX_CHANNELS]; scope_state d_state; int d_decimator_count; int d_decimator_count_init; int d_hold_off_count; int d_hold_off_count_init; int d_pre_trigger_count; int d_post_trigger_count; int d_post_trigger_count_init; float d_trigger_off; //%sample trigger is off // NOT IMPLEMENTED gr_oscope_guts (const gr_oscope_guts &rhs); // no copy constructor gr_oscope_guts &operator= (const gr_oscope_guts &rhs); // no assignment operator void trigger_changed (); void update_rate_or_decimation_changed (); bool found_trigger (); // returns true if found void write_output_records (); void enter_hold_off (); // called on state entry void enter_look_for_trigger (); void enter_post_trigger (); public: // CREATORS gr_oscope_guts (double sample_rate, gr_msg_queue_sptr msgq); ~gr_oscope_guts (); // MANIPULATORS /*! * \p channel_data points to nchannels float values. These are the values * for each channel at this sample time. */ void process_sample (const float *channel_data); bool set_update_rate (double update_rate); bool set_decimation_count (int decimation_count); bool set_trigger_channel (int channel); bool set_trigger_mode (gr_trigger_mode mode); bool set_trigger_slope (gr_trigger_slope slope); bool set_trigger_level (double trigger_level); bool set_trigger_level_auto (); // set to 50% level bool set_sample_rate(double sample_rate); bool set_num_channels(int nchannels); // ACCESSORS int num_channels () const; double sample_rate () const; double update_rate () const; int get_decimation_count () const; int get_trigger_channel () const; gr_trigger_mode get_trigger_mode () const; gr_trigger_slope get_trigger_slope () const; double get_trigger_level () const; // # of samples written to each output record. int get_samples_per_output_record () const; }; #endif /* INCLUDED_GR_OSCOPE_GUTS_H */