#
# Copyright 2008 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.
#

from gnuradio import gr, window
from stream_to_vector_decimator import stream_to_vector_decimator
import math

class _logpwrfft_base(gr.hier_block2):
    """
    Create a log10(abs(fft)) stream chain, with real or complex input.
    """

    def __init__(self, sample_rate, fft_size, ref_scale, frame_rate, avg_alpha, average, win=None):
        """
        Create an log10(abs(fft)) stream chain.
        Provide access to the setting the filter and sample rate.
        @param sample_rate        Incoming stream sample rate
        @param fft_size                Number of FFT bins
        @param ref_scale        Sets 0 dB value input amplitude
        @param frame_rate        Output frame rate
        @param avg_alpha        FFT averaging (over time) constant [0.0-1.0]
        @param average                Whether to average [True, False]
        @param win              the window taps generation function
        """
        gr.hier_block2.__init__(self, self._name,
                                gr.io_signature(1, 1, self._item_size),          # Input signature
                                gr.io_signature(1, 1, gr.sizeof_float*fft_size)) # Output signature

        self._sd = stream_to_vector_decimator(item_size=self._item_size,
                                              sample_rate=sample_rate,
                                              vec_rate=frame_rate,
                                              vec_len=fft_size)

        if win is None: win = window.blackmanharris
        fft_window = win(fft_size)
        fft = self._fft_block[0](fft_size, True, fft_window)
        window_power = sum(map(lambda x: x*x, fft_window))

        c2magsq = gr.complex_to_mag_squared(fft_size)
        self._avg = gr.single_pole_iir_filter_ff(1.0, fft_size)
        self._log = gr.nlog10_ff(10, fft_size,
                                 -20*math.log10(fft_size)              # Adjust for number of bins
                                 -10*math.log10(window_power/fft_size) # Adjust for windowing loss
                                 -20*math.log10(ref_scale/2))      # Adjust for reference scale
        self.connect(self, self._sd, fft, c2magsq, self._avg, self._log, self)

        self._average = average
        self._avg_alpha = avg_alpha
        self.set_avg_alpha(avg_alpha)
        self.set_average(average)

    def set_decimation(self, decim):
        """
        Set the decimation on stream decimator.
        @param decim the new decimation
        """
        self._sd.set_decimation(decim)

    def set_vec_rate(self, vec_rate):
        """
        Set the vector rate on stream decimator.
        @param vec_rate the new vector rate
        """
        self._sd.set_vec_rate(vec_rate)

    def set_sample_rate(self, sample_rate):
        """
        Set the new sampling rate
        @param sample_rate the new rate
        """
        self._sd.set_sample_rate(sample_rate)

    def set_average(self, average):
        """
        Set the averaging filter on/off.
        @param average true to set averaging on
        """
        self._average = average
        if self._average:
            self._avg.set_taps(self._avg_alpha)
        else:
            self._avg.set_taps(1.0)

    def set_avg_alpha(self, avg_alpha):
        """
        Set the average alpha and set the taps if average was on.
        @param avg_alpha the new iir filter tap
        """
        self._avg_alpha = avg_alpha
        self.set_average(self._average)

    def sample_rate(self):
        """
        Return the current sample rate.
        """
        return self._sd.sample_rate()

    def decimation(self):
        """
        Return the current decimation.
        """
        return self._sd.decimation()

    def frame_rate(self):
        """
        Return the current frame rate.
        """
        return self._sd.frame_rate()

    def average(self):
        """
        Return whether or not averaging is being performed.
        """
        return self._average

    def avg_alpha(self):
        """
        Return averaging filter constant.
        """
        return self._avg_alpha

class logpwrfft_f(_logpwrfft_base):
        """
        Create an fft block chain, with real input.
        """
        _name = "logpwrfft_f"
        _item_size = gr.sizeof_float
        _fft_block = (gr.fft_vfc, )

class logpwrfft_c(_logpwrfft_base):
        """
        Create an fft block chain, with complex input.
        """
        _name = "logpwrfft_c"
        _item_size = gr.sizeof_gr_complex
        _fft_block = (gr.fft_vcc, )