/* -*- c++ -*- */
/* Copyright 2012 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.
 */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <gr_expj.h>
#include <gr_io_signature.h>
#include "ofdm_frame_equalizer_vcvc_impl.h"

#define M_TWOPI (2*M_PI)

namespace gr {
  namespace digital {

    ofdm_frame_equalizer_vcvc::sptr
    ofdm_frame_equalizer_vcvc::make(
	digital_ofdm_equalizer_base_sptr equalizer,
	int cp_len,
	const std::string &len_tag_key,
	bool propagate_channel_state,
	int fixed_frame_len
    )
    {
      return gnuradio::get_initial_sptr (
	  new ofdm_frame_equalizer_vcvc_impl(
	    equalizer, cp_len, len_tag_key, propagate_channel_state, fixed_frame_len
	  )
      );
    }

    ofdm_frame_equalizer_vcvc_impl::ofdm_frame_equalizer_vcvc_impl(
	digital_ofdm_equalizer_base_sptr equalizer,
	int cp_len,
	const std::string &len_tag_key,
	bool propagate_channel_state,
	int fixed_frame_len
    ) : gr_tagged_stream_block("ofdm_frame_equalizer_vcvc",
	  gr_make_io_signature(1, 1, sizeof (gr_complex) * equalizer->fft_len()),
	  gr_make_io_signature(1, 1, sizeof (gr_complex) * equalizer->fft_len()),
	  len_tag_key),
      d_fft_len(equalizer->fft_len()),
      d_cp_len(cp_len),
      d_eq(equalizer),
      d_propagate_channel_state(propagate_channel_state),
      d_fixed_frame_len(fixed_frame_len),
      d_channel_state(equalizer->fft_len(), gr_complex(1, 0))
    {
      if (len_tag_key.empty() && fixed_frame_len == 0) {
	throw std::invalid_argument("Either specify a length tag or a frame length!");
      }
      if (d_fixed_frame_len < 0) {
	throw std::invalid_argument("Invalid frame length!");
      }
      if (d_fixed_frame_len) {
	set_output_multiple(d_fixed_frame_len);
      }
      set_relative_rate(1.0);
    }

    ofdm_frame_equalizer_vcvc_impl::~ofdm_frame_equalizer_vcvc_impl()
    {
    }

    void
    ofdm_frame_equalizer_vcvc_impl::parse_length_tags(
	const std::vector<std::vector<gr_tag_t> > &tags,
	gr_vector_int &n_input_items_reqd
    ){
      if (d_fixed_frame_len) {
	n_input_items_reqd[0] = d_fixed_frame_len;
      } else {
	for (unsigned k = 0; k < tags[0].size(); k++) {
	  if (tags[0][k].key == pmt::pmt_string_to_symbol(d_length_tag_key_str)) {
	    n_input_items_reqd[0] = pmt::pmt_to_long(tags[0][k].value);
	    remove_item_tag(0, tags[0][k]);
	  }
	}
      }
    }


#include <iostream>
    int
    ofdm_frame_equalizer_vcvc_impl::work(int noutput_items,
	  gr_vector_int &ninput_items, gr_vector_const_void_star &input_items, gr_vector_void_star &output_items)
    {
      const gr_complex *in = (const gr_complex *) input_items[0];
      gr_complex *out = (gr_complex *) output_items[0];
      int carrier_offset = 0;
      int frame_len = 0;
      if (d_fixed_frame_len) {
	frame_len = d_fixed_frame_len;
      } else {
	frame_len = ninput_items[0];
      }

      std::vector<gr_tag_t> tags;
      get_tags_in_range(tags, 0, nitems_read(0), nitems_read(0)+1);
      for (unsigned i = 0; i < tags.size(); i++) {
	if (pmt::pmt_symbol_to_string(tags[i].key) == "ofdm_sync_chan_taps") {
	  d_channel_state = pmt::pmt_c32vector_elements(tags[i].value);
	  remove_item_tag(0, tags[i]);
	}
	if (pmt::pmt_symbol_to_string(tags[i].key) == "ofdm_sync_carr_offset") {
	  carrier_offset = pmt::pmt_to_long(tags[i].value);
	}
      }

      // Copy the frame and the channel state vector such that the symbols are shifted to the correct position
      if (carrier_offset < 0) {
	memset((void *) out, 0x00, sizeof(gr_complex) * (-carrier_offset));
	memcpy(
	    (void *) &out[-carrier_offset], (void *) in,
	    sizeof(gr_complex) * (d_fft_len * frame_len + carrier_offset)
	);
      } else {
	memset((void *) (out + d_fft_len * frame_len - carrier_offset), 0x00, sizeof(gr_complex) * carrier_offset);
	memcpy(
	    (void *) out, (void *) (in+carrier_offset),
	    sizeof(gr_complex) * (d_fft_len * frame_len - carrier_offset)
	);
      }

      // Correct the frequency shift on the symbols
      gr_complex phase_correction;
      for (int i = 0; i < frame_len; i++) {
	phase_correction = gr_expj(-M_TWOPI * carrier_offset * d_cp_len / d_fft_len * (i+1));
	for (int k = 0; k < d_fft_len; k++) {
	  out[i*d_fft_len+k] *= phase_correction;
	}
      }

      // Do the equalizing
      d_eq->reset();
      d_eq->equalize(out, frame_len, d_channel_state);
      d_eq->get_channel_state(d_channel_state);

      // Update the channel state regarding the frequency offset
      phase_correction = gr_expj(M_TWOPI * carrier_offset * d_cp_len / d_fft_len * frame_len);
      for (int k = 0; k < d_fft_len; k++) {
	d_channel_state[k] *= phase_correction;
      }

      // Housekeeping
      if (d_propagate_channel_state) {
	add_item_tag(0, nitems_written(0),
	    pmt::pmt_string_to_symbol("ofdm_sync_chan_taps"),
	    pmt::pmt_init_c32vector(d_fft_len, d_channel_state));
      }
      if (d_fixed_frame_len && d_length_tag_key_str.empty()) {
	consume_each(frame_len);
      }
      return frame_len;
    }

  } /* namespace digital */
} /* namespace gr */