/* -*- c++ -*- */ /* * Copyright 2002 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 _ATSC_EQUALIZER_H_ #define _ATSC_EQUALIZER_H_ #include /*! * \brief abstract base class for ATSC equalizer */ class atsci_equalizer { private: /* * have we seen a field sync since the last reset or problem? */ bool d_locked_p; /* * sample offset from the beginning of the last field sync we saw * to the beginning of our current input stream. When we're locked * this will be in [0, 313*832] i.e., [0, 260416] */ int d_offset_from_last_field_sync; int d_current_field; // [0,1] public: // CREATORS atsci_equalizer (); virtual ~atsci_equalizer (); // MANIPULATORS /*! * \brief reset state (e.g., on channel change) * * Note, subclasses must invoke the superclass's method too! */ virtual void reset (); /*! * \brief produce \p nsamples of output from given inputs and tags * * This is the main entry point. It examines the input_tags * and local state and invokes the appropriate virtual function * to handle each sub-segment of the input data. * * \p input_samples must have (nsamples + ntaps() - 1) valid entries. * input_samples[0] .. input_samples[nsamples - 1 + ntaps() - 1] are * referenced to compute the output values. * * \p input_tags must have nsamples valid entries. * input_tags[0] .. input_tags[nsamples - 1] are referenced to * compute the output values. */ virtual void filter (const float *input_samples, const atsc::syminfo *input_tags, float *output_samples, int nsamples); // ACCESSORS /*! * \brief how much history the input data stream requires. * * This must return a value >= 1. Think of this as the number * of samples you need to look at to compute a single output sample. */ virtual int ntaps () const = 0; /*! * \brief how many taps are "in the future". * * This allows us to handle what the ATSC folks call "pre-ghosts". * What it really does is allow the caller to jack with the offset * between the tags and the data so that everything magically works out. * * npretaps () must return a value between 0 and ntaps() - 1. * * If npretaps () returns 0, this means that the equalizer will only handle * multipath "in the past." I suspect that a good value would be something * like 15% - 20% of ntaps (). */ virtual int npretaps () const = 0; protected: /*! * Input range is known NOT TO CONTAIN data segment syncs * or field syncs. This should be the fast path. In the * non decicion directed case, this just runs the input * through the filter without adapting it. * * \p input_samples has (nsamples + ntaps() - 1) valid entries. * input_samples[0] .. input_samples[nsamples - 1 + ntaps() - 1] may be * referenced to compute the output values. */ virtual void filter_normal (const float *input_samples, float *output_samples, int nsamples) = 0; /*! * Input range is known to consist of only a data segment sync or a * portion of a data segment sync. \p nsamples will be in [1,4]. * \p offset will be in [0,3]. \p offset is the offset of the input * from the beginning of the data segment sync pattern. * * \p input_samples has (nsamples + ntaps() - 1) valid entries. * input_samples[0] .. input_samples[nsamples - 1 + ntaps() - 1] may be * referenced to compute the output values. */ virtual void filter_data_seg_sync (const float *input_samples, float *output_samples, int nsamples, int offset) = 0; /*! * Input range is known to consist of only a field sync segment or a * portion of a field sync segment. \p nsamples will be in [1,832]. * \p offset will be in [0,831]. \p offset is the offset of the input * from the beginning of the data segment sync pattern. We consider the * 4 symbols of the immediately preceding data segment sync to be the * first symbols of the field sync segment. \p which_field is in [0,1] * and specifies which field (duh). * * \p input_samples has (nsamples + ntaps() - 1) valid entries. * input_samples[0] .. input_samples[nsamples - 1 + ntaps() - 1] may be * referenced to compute the output values. */ virtual void filter_field_sync (const float *input_samples, float *output_samples, int nsamples, int offset, int which_field) = 0; }; #endif /* _ATSC_EQUALIZER_H_ */