// // This file is part of Dire Wolf, an amateur radio packet TNC. // // Copyright (C) 2011, 2012, 2013, 2014, 2015 John Langner, WB2OSZ // // This program 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 2 of the License, or // (at your option) any later version. // // This program 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 this program. If not, see . // // #define DEBUG1 1 /* display debugging info */ // #define DEBUG3 1 /* print carrier detect changes. */ // #define DEBUG4 1 /* capture AFSK demodulator output to log files */ // #define DEBUG5 1 /* capture 9600 output to log files */ /*------------------------------------------------------------------ * * Module: demod.c * * Purpose: Common entry point for multiple types of demodulators. * * Input: Audio samples from either a file or the "sound card." * * Outputs: Calls hdlc_rec_bit() for each bit demodulated. * *---------------------------------------------------------------*/ #include #include #include #include #include #include #include #include #include "direwolf.h" #include "audio.h" #include "demod.h" #include "tune.h" #include "fsk_demod_state.h" #include "fsk_gen_filter.h" #include "fsk_fast_filter.h" #include "hdlc_rec.h" #include "textcolor.h" #include "demod_9600.h" #include "demod_afsk.h" // Properties of the radio channels. static struct audio_s *save_audio_config_p; // Current state of all the decoders. static struct demodulator_state_s demodulator_state[MAX_CHANS][MAX_SUBCHANS]; #define UPSAMPLE 2 static int sample_sum[MAX_CHANS][MAX_SUBCHANS]; static int sample_count[MAX_CHANS][MAX_SUBCHANS]; /*------------------------------------------------------------------ * * Name: demod_init * * Purpose: Initialize the demodulator(s) used for reception. * * Inputs: pa - Pointer to audio_s structure with * various parameters for the modem(s). * * Returns: 0 for success, -1 for failure. * * * Bugs: This doesn't do much error checking so don't give it * anything crazy. * *----------------------------------------------------------------*/ int demod_init (struct audio_s *pa) { //int j; int chan; /* Loop index over number of radio channels. */ char profile; /* * Save audio configuration for later use. */ save_audio_config_p = pa; for (chan = 0; chan < MAX_CHANS; chan++) { if (save_audio_config_p->achan[chan].valid) { char *p; char just_letters[16]; int num_letters; int have_plus; /* * These are derived from config file parameters. * * num_subchan is number of demodulators. * This can be increased by: * Multiple frequencies. * Multiple letters (not sure if I will continue this). * New interleaved decoders. * * num_slicers is set to max by the "+" option. */ save_audio_config_p->achan[chan].num_subchan = 1; save_audio_config_p->achan[chan].num_slicers = 1; switch (save_audio_config_p->achan[chan].modem_type) { case MODEM_OFF: break; case MODEM_AFSK: /* * Tear apart the profile and put it back together in a normalized form: * - At least one letter, supply suitable default if necessary. * - Upper case only. * - Any plus will be at the end. */ num_letters = 0; just_letters[num_letters] = '\0'; have_plus = 0; for (p = save_audio_config_p->achan[chan].profiles; *p != '\0'; p++) { if (islower(*p)) { just_letters[num_letters] = toupper(*p); num_letters++; just_letters[num_letters] = '\0'; } else if (isupper(*p)) { just_letters[num_letters] = *p; num_letters++; just_letters[num_letters] = '\0'; } else if (*p == '+') { have_plus = 1; if (p[1] != '\0') { text_color_set(DW_COLOR_ERROR); dw_printf ("Channel %d: + option must appear at end of demodulator types \"%s\" \n", chan, save_audio_config_p->achan[chan].profiles); } } else if (*p == '-') { have_plus = -1; if (p[1] != '\0') { text_color_set(DW_COLOR_ERROR); dw_printf ("Channel %d: - option must appear at end of demodulator types \"%s\" \n", chan, save_audio_config_p->achan[chan].profiles); } } else { text_color_set(DW_COLOR_ERROR); dw_printf ("Channel %d: Demodulator types \"%s\" can contain only letters and + - characters.\n", chan, save_audio_config_p->achan[chan].profiles); } } assert (num_letters == strlen(just_letters)); /* * Pick a good default demodulator if none specified. */ if (num_letters == 0) { if (save_audio_config_p->achan[chan].baud < 600) { /* This has been optimized for 300 baud. */ strlcpy (just_letters, "D", sizeof(just_letters)); } else { #if __arm__ /* We probably don't have a lot of CPU power available. */ /* Previously we would use F if possible otherwise fall back to A. */ /* In version 1.2, new default is E+ /3. */ strlcpy (just_letters, "E", sizeof(just_letters)); // version 1.2 now E. if (have_plus != -1) have_plus = 1; // Add as default for version 1.2 // If not explicitly turned off. if (save_audio_config_p->achan[chan].decimate == 0) { if (save_audio_config_p->adev[ACHAN2ADEV(chan)].samples_per_sec > 40000) { save_audio_config_p->achan[chan].decimate = 3; } } #else strlcpy (just_letters, "E", sizeof(just_letters)); // version 1.2 changed C to E. if (have_plus != -1) have_plus = 1; // Add as default for version 1.2 // If not explicitly turned off. #endif } num_letters = 1; } assert (num_letters == strlen(just_letters)); /* * Put it back together again. */ /* At this point, have_plus can have 3 values: */ /* 1 = turned on, either explicitly or by applied default */ /* -1 = explicitly turned off. change to 0 here so it is false. */ /* 0 = off by default. */ if (have_plus == -1) have_plus = 0; strlcpy (save_audio_config_p->achan[chan].profiles, just_letters, sizeof(save_audio_config_p->achan[chan].profiles)); assert (strlen(save_audio_config_p->achan[chan].profiles) >= 1); if (have_plus) { strlcat (save_audio_config_p->achan[chan].profiles, "+", sizeof(save_audio_config_p->achan[chan].profiles)); } /* These can be increased later for the multi-frequency case. */ save_audio_config_p->achan[chan].num_subchan = num_letters; save_audio_config_p->achan[chan].num_slicers = 1; /* * Some error checking - Can use only one of these: * * - Multiple letters. * - New + multi-slicer. * - Multiple frequencies. */ if (have_plus && save_audio_config_p->achan[chan].num_freq > 1) { text_color_set(DW_COLOR_ERROR); dw_printf ("Channel %d: Demodulator + option can't be combined with multiple frequencies.\n", chan); save_audio_config_p->achan[chan].num_subchan = 1; // Will be set higher later. save_audio_config_p->achan[chan].num_freq = 1; } if (num_letters > 1 && save_audio_config_p->achan[chan].num_freq > 1) { text_color_set(DW_COLOR_ERROR); dw_printf ("Channel %d: Multiple demodulator types can't be combined with multiple frequencies.\n", chan); save_audio_config_p->achan[chan].profiles[1] = '\0'; num_letters = 1; } if (save_audio_config_p->achan[chan].decimate == 0) { save_audio_config_p->achan[chan].decimate = 1; if (strchr (just_letters, 'D') != NULL && save_audio_config_p->adev[ACHAN2ADEV(chan)].samples_per_sec > 40000) { save_audio_config_p->achan[chan].decimate = 3; } } text_color_set(DW_COLOR_DEBUG); dw_printf ("Channel %d: %d baud, AFSK %d & %d Hz, %s, %d sample rate", chan, save_audio_config_p->achan[chan].baud, save_audio_config_p->achan[chan].mark_freq, save_audio_config_p->achan[chan].space_freq, save_audio_config_p->achan[chan].profiles, save_audio_config_p->adev[ACHAN2ADEV(chan)].samples_per_sec); if (save_audio_config_p->achan[chan].decimate != 1) dw_printf (" / %d", save_audio_config_p->achan[chan].decimate); if (save_audio_config_p->achan[chan].dtmf_decode != DTMF_DECODE_OFF) dw_printf (", DTMF decoder enabled"); dw_printf (".\n"); /* * Initialize the demodulator(s). * * We have 3 cases to consider. */ // TODO1.3: revisit this logic now that it is less restrictive. if (num_letters > 1) { int d; /* * Multiple letters, usually for 1200 baud. * Each one corresponds to a demodulator and subchannel. * * An interesting experiment but probably not too useful. * Can't have multiple frequency pairs. * In version 1.3 this can be combined with the + option. */ save_audio_config_p->achan[chan].num_subchan = num_letters; /* * Quick hack with special case for another experiment. * Do this in a more general way if it turns out to be useful. */ save_audio_config_p->achan[chan].interleave = 1; if (strcasecmp(save_audio_config_p->achan[chan].profiles, "EE") == 0) { save_audio_config_p->achan[chan].interleave = 2; save_audio_config_p->achan[chan].decimate = 1; } else if (strcasecmp(save_audio_config_p->achan[chan].profiles, "EEE") == 0) { save_audio_config_p->achan[chan].interleave = 3; save_audio_config_p->achan[chan].decimate = 1; } else if (strcasecmp(save_audio_config_p->achan[chan].profiles, "EEEE") == 0) { save_audio_config_p->achan[chan].interleave = 4; save_audio_config_p->achan[chan].decimate = 1; } else if (strcasecmp(save_audio_config_p->achan[chan].profiles, "EEEEE") == 0) { save_audio_config_p->achan[chan].interleave = 5; save_audio_config_p->achan[chan].decimate = 1; } else if (strcasecmp(save_audio_config_p->achan[chan].profiles, "GG") == 0) { save_audio_config_p->achan[chan].interleave = 2; save_audio_config_p->achan[chan].decimate = 1; } else if (strcasecmp(save_audio_config_p->achan[chan].profiles, "GGG") == 0) { save_audio_config_p->achan[chan].interleave = 3; save_audio_config_p->achan[chan].decimate = 1; } else if (strcasecmp(save_audio_config_p->achan[chan].profiles, "GGG+") == 0) { save_audio_config_p->achan[chan].interleave = 3; save_audio_config_p->achan[chan].decimate = 1; } else if (strcasecmp(save_audio_config_p->achan[chan].profiles, "GGGG") == 0) { save_audio_config_p->achan[chan].interleave = 4; save_audio_config_p->achan[chan].decimate = 1; } else if (strcasecmp(save_audio_config_p->achan[chan].profiles, "GGGGG") == 0) { save_audio_config_p->achan[chan].interleave = 5; save_audio_config_p->achan[chan].decimate = 1; } if (save_audio_config_p->achan[chan].num_subchan != num_letters) { text_color_set(DW_COLOR_ERROR); dw_printf ("INTERNAL ERROR, %s:%d, chan=%d, num_subchan(%d) != strlen(\"%s\")\n", __FILE__, __LINE__, chan, save_audio_config_p->achan[chan].num_subchan, save_audio_config_p->achan[chan].profiles); } if (save_audio_config_p->achan[chan].num_freq != 1) { text_color_set(DW_COLOR_ERROR); dw_printf ("INTERNAL ERROR, %s:%d, chan=%d, num_freq(%d) != 1\n", __FILE__, __LINE__, chan, save_audio_config_p->achan[chan].num_freq); } for (d = 0; d < save_audio_config_p->achan[chan].num_subchan; d++) { int mark, space; assert (d >= 0 && d < MAX_SUBCHANS); struct demodulator_state_s *D; D = &demodulator_state[chan][d]; profile = save_audio_config_p->achan[chan].profiles[d]; mark = save_audio_config_p->achan[chan].mark_freq; space = save_audio_config_p->achan[chan].space_freq; if (save_audio_config_p->achan[chan].num_subchan != 1) { text_color_set(DW_COLOR_DEBUG); dw_printf (" %d.%d: %c %d & %d\n", chan, d, profile, mark, space); } demod_afsk_init (save_audio_config_p->adev[ACHAN2ADEV(chan)].samples_per_sec / (save_audio_config_p->achan[chan].decimate * save_audio_config_p->achan[chan].interleave), save_audio_config_p->achan[chan].baud, mark, space, profile, D); if (have_plus) { /* I'm not happy about putting this hack here. */ /* should pass in as a parameter rather than adding on later. */ save_audio_config_p->achan[chan].num_slicers = MAX_SLICERS; D->num_slicers = MAX_SLICERS; } /* For siginal level reporting, we want a longer term view. */ // TODO: Should probably move this into the init functions. D->quick_attack = D->agc_fast_attack * 0.2; D->sluggish_decay = D->agc_slow_decay * 0.2; } } else if (have_plus) { /* * PLUS - which (formerly) implies we have only one letter and one frequency pair. * * One demodulator feeds multiple slicers, each a subchannel. */ if (num_letters != 1) { text_color_set(DW_COLOR_ERROR); dw_printf ("INTERNAL ERROR, %s:%d, chan=%d, strlen(\"%s\") != 1\n", __FILE__, __LINE__, chan, just_letters); } if (save_audio_config_p->achan[chan].num_freq != 1) { text_color_set(DW_COLOR_ERROR); dw_printf ("INTERNAL ERROR, %s:%d, chan=%d, num_freq(%d) != 1\n", __FILE__, __LINE__, chan, save_audio_config_p->achan[chan].num_freq); } if (save_audio_config_p->achan[chan].num_freq != save_audio_config_p->achan[chan].num_subchan) { text_color_set(DW_COLOR_ERROR); dw_printf ("INTERNAL ERROR, %s:%d, chan=%d, num_freq(%d) != num_subchan(%d)\n", __FILE__, __LINE__, chan, save_audio_config_p->achan[chan].num_freq, save_audio_config_p->achan[chan].num_subchan); } struct demodulator_state_s *D; D = &demodulator_state[chan][0]; /* I'm not happy about putting this hack here. */ /* This belongs in demod_afsk_init but it doesn't have access to the audio config. */ save_audio_config_p->achan[chan].num_slicers = MAX_SLICERS; demod_afsk_init (save_audio_config_p->adev[ACHAN2ADEV(chan)].samples_per_sec / save_audio_config_p->achan[chan].decimate, save_audio_config_p->achan[chan].baud, save_audio_config_p->achan[chan].mark_freq, save_audio_config_p->achan[chan].space_freq, save_audio_config_p->achan[chan].profiles[0], D); if (have_plus) { /* I'm not happy about putting this hack here. */ /* should pass in as a parameter rather than adding on later. */ save_audio_config_p->achan[chan].num_slicers = MAX_SLICERS; D->num_slicers = MAX_SLICERS; } /* For siginal level reporting, we want a longer term view. */ D->quick_attack = D->agc_fast_attack * 0.2; D->sluggish_decay = D->agc_slow_decay * 0.2; } else { int d; /* * One letter. * Can be combined with multiple frequencies. */ if (num_letters != 1) { text_color_set(DW_COLOR_ERROR); dw_printf ("INTERNAL ERROR, %s:%d, chan=%d, strlen(\"%s\") != 1\n", __FILE__, __LINE__, chan, save_audio_config_p->achan[chan].profiles); } save_audio_config_p->achan[chan].num_subchan = save_audio_config_p->achan[chan].num_freq; for (d = 0; d < save_audio_config_p->achan[chan].num_freq; d++) { int mark, space, k; assert (d >= 0 && d < MAX_SUBCHANS); struct demodulator_state_s *D; D = &demodulator_state[chan][d]; profile = save_audio_config_p->achan[chan].profiles[0]; k = d * save_audio_config_p->achan[chan].offset - ((save_audio_config_p->achan[chan].num_freq - 1) * save_audio_config_p->achan[chan].offset) / 2; mark = save_audio_config_p->achan[chan].mark_freq + k; space = save_audio_config_p->achan[chan].space_freq + k; if (save_audio_config_p->achan[chan].num_freq != 1) { text_color_set(DW_COLOR_DEBUG); dw_printf (" %d.%d: %c %d & %d\n", chan, d, profile, mark, space); } demod_afsk_init (save_audio_config_p->adev[ACHAN2ADEV(chan)].samples_per_sec / save_audio_config_p->achan[chan].decimate, save_audio_config_p->achan[chan].baud, mark, space, profile, D); if (have_plus) { /* I'm not happy about putting this hack here. */ /* should pass in as a parameter rather than adding on later. */ save_audio_config_p->achan[chan].num_slicers = MAX_SLICERS; D->num_slicers = MAX_SLICERS; } /* For siginal level reporting, we want a longer term view. */ D->quick_attack = D->agc_fast_attack * 0.2; D->sluggish_decay = D->agc_slow_decay * 0.2; } /* for each freq pair */ } break; //TODO: how about MODEM_OFF case? case MODEM_BASEBAND: case MODEM_SCRAMBLE: default: /* Not AFSK */ { if (strcmp(save_audio_config_p->achan[chan].profiles, "") == 0) { /* Apply default if not set earlier. */ /* Not sure if it should be on for ARM too. */ /* Need to take a look at CPU usage and performance difference. */ #ifndef __arm__ strlcpy (save_audio_config_p->achan[chan].profiles, "+", sizeof(save_audio_config_p->achan[chan].profiles)); #endif } text_color_set(DW_COLOR_DEBUG); dw_printf ("Channel %d: %d baud, K9NG/G3RUH, %s, %d sample rate x %d", chan, save_audio_config_p->achan[chan].baud, save_audio_config_p->achan[chan].profiles, save_audio_config_p->adev[ACHAN2ADEV(chan)].samples_per_sec, UPSAMPLE); if (save_audio_config_p->achan[chan].dtmf_decode != DTMF_DECODE_OFF) dw_printf (", DTMF decoder enabled"); dw_printf (".\n"); struct demodulator_state_s *D; D = &demodulator_state[chan][0]; // first subchannel save_audio_config_p->achan[chan].num_subchan = 1; save_audio_config_p->achan[chan].num_slicers = 1; if (strchr(save_audio_config_p->achan[chan].profiles, '+') != NULL) { /* I'm not happy about putting this hack here. */ /* This belongs in demod_9600_init but it doesn't have access to the audio config. */ save_audio_config_p->achan[chan].num_slicers = MAX_SLICERS; } demod_9600_init (UPSAMPLE * save_audio_config_p->adev[ACHAN2ADEV(chan)].samples_per_sec, save_audio_config_p->achan[chan].baud, D); if (strchr(save_audio_config_p->achan[chan].profiles, '+') != NULL) { /* I'm not happy about putting this hack here. */ /* should pass in as a parameter rather than adding on later. */ save_audio_config_p->achan[chan].num_slicers = MAX_SLICERS; D->num_slicers = MAX_SLICERS; } /* For siginal level reporting, we want a longer term view. */ D->quick_attack = D->agc_fast_attack * 0.2; D->sluggish_decay = D->agc_slow_decay * 0.2; } break; } /* switch on modulation type. */ } /* if channel number is valid */ } /* for chan ... */ return (0); } /* end demod_init */ /*------------------------------------------------------------------ * * Name: demod_get_sample * * Purpose: Get one audio sample fromt the specified sound input source. * * Inputs: a - Index for audio device. 0 = first. * * Returns: -32768 .. 32767 for a valid audio sample. * 256*256 for end of file or other error. * * Global In: save_audio_config_p->adev[ACHAN2ADEV(chan)].bits_per_sample - So we know whether to * read 1 or 2 bytes from audio stream. * * Description: Grab 1 or two btyes depending on data source. * * When processing stereo, the caller will call this * at twice the normal rate to obtain alternating left * and right samples. * *----------------------------------------------------------------*/ #define FSK_READ_ERR (256*256) __attribute__((hot)) int demod_get_sample (int a) { int x1, x2; signed short sam; /* short to force sign extention. */ assert (save_audio_config_p->adev[a].bits_per_sample == 8 || save_audio_config_p->adev[a].bits_per_sample == 16); if (save_audio_config_p->adev[a].bits_per_sample == 8) { x1 = audio_get(a); if (x1 < 0) return(FSK_READ_ERR); assert (x1 >= 0 && x1 <= 255); /* Scale 0..255 into -32k..+32k */ sam = (x1 - 128) * 256; } else { x1 = audio_get(a); /* lower byte first */ if (x1 < 0) return(FSK_READ_ERR); x2 = audio_get(a); if (x2 < 0) return(FSK_READ_ERR); assert (x1 >= 0 && x1 <= 255); assert (x2 >= 0 && x2 <= 255); sam = ( x2 << 8 ) | x1; } return (sam); } /*------------------------------------------------------------------- * * Name: demod_process_sample * * Purpose: (1) Demodulate the AFSK signal. * (2) Recover clock and data. * * Inputs: chan - Audio channel. 0 for left, 1 for right. * subchan - modem of the channel. * sam - One sample of audio. * Should be in range of -32768 .. 32767. * * Returns: None * * Descripion: We start off with two bandpass filters tuned to * the given frequencies. In the case of VHF packet * radio, this would be 1200 and 2200 Hz. * * The bandpass filter amplitudes are compared to * obtain the demodulated signal. * * We also have a digital phase locked loop (PLL) * to recover the clock and pick out data bits at * the proper rate. * * For each recovered data bit, we call: * * hdlc_rec (channel, demodulated_bit); * * to decode HDLC frames from the stream of bits. * * Future: This could be generalized by passing in the name * of the function to be called for each bit recovered * from the demodulator. For now, it's simply hard-coded. * *--------------------------------------------------------------------*/ __attribute__((hot)) void demod_process_sample (int chan, int subchan, int sam) { float fsam; //float abs_fsam; int k; #if DEBUG4 static FILE *demod_log_fp = NULL; static int seq = 0; /* for log file name */ #endif //int j; //int demod_data; struct demodulator_state_s *D; assert (chan >= 0 && chan < MAX_CHANS); assert (subchan >= 0 && subchan < MAX_SUBCHANS); D = &demodulator_state[chan][subchan]; /* Scale to nice number, actually -2.0 to +2.0 for extra headroom */ fsam = sam / 16384.0f; /* * Accumulate measure of the input signal level. */ /* * Version 1.2: Try new approach to capturing the amplitude. * This is same as the later AGC without the normalization step. * We want decay to be substantially slower to get a longer * range idea of the received audio. */ if (fsam >= D->alevel_rec_peak) { D->alevel_rec_peak = fsam * D->quick_attack + D->alevel_rec_peak * (1.0f - D->quick_attack); } else { D->alevel_rec_peak = fsam * D->sluggish_decay + D->alevel_rec_peak * (1.0f - D->sluggish_decay); } if (fsam <= D->alevel_rec_valley) { D->alevel_rec_valley = fsam * D->quick_attack + D->alevel_rec_valley * (1.0f - D->quick_attack); } else { D->alevel_rec_valley = fsam * D->sluggish_decay + D->alevel_rec_valley * (1.0f - D->sluggish_decay); } /* * Select decoder based on modulation type. */ switch (save_audio_config_p->achan[chan].modem_type) { case MODEM_OFF: // Might have channel only listening to DTMF for APRStt gateway. // Don't waste CPU time running a demodulator here. break; case MODEM_AFSK: if (save_audio_config_p->achan[chan].decimate > 1) { sample_sum[chan][subchan] += sam; sample_count[chan][subchan]++; if (sample_count[chan][subchan] >= save_audio_config_p->achan[chan].decimate) { demod_afsk_process_sample (chan, subchan, sample_sum[chan][subchan] / save_audio_config_p->achan[chan].decimate, D); sample_sum[chan][subchan] = 0; sample_count[chan][subchan] = 0; } } else { demod_afsk_process_sample (chan, subchan, sam, D); } break; case MODEM_BASEBAND: case MODEM_SCRAMBLE: default: #define ZEROSTUFF 1 #if ZEROSTUFF /* Literature says this is better if followed */ /* by appropriate low pass filter. */ /* So far, both are same in tests with different */ /* optimal low pass filter parameters. */ for (k=1; k= 0 && chan < MAX_CHANS); assert (subchan >= 0 && subchan < MAX_SUBCHANS); /* We have to consider two different cases here. */ /* N demodulators, each with own slicer and HDLC decoder. */ /* Single demodulator, multiple slicers each with own HDLC decoder. */ if (demodulator_state[chan][0].num_slicers > 1) { subchan = 0; } D = &demodulator_state[chan][subchan]; // Take half of peak-to-peak for received audio level. alevel.rec = (int) (( D->alevel_rec_peak - D->alevel_rec_valley ) * 50.0f + 0.5f); if (save_audio_config_p->achan[chan].modem_type == MODEM_AFSK) { /* For AFSK, we have mark and space amplitudes. */ alevel.mark = (int) ((D->alevel_mark_peak ) * 100.0f + 0.5f); alevel.space = (int) ((D->alevel_space_peak ) * 100.0f + 0.5f); //alevel.ms_ratio = D->alevel_mark_peak / D->alevel_space_peak; // TODO: remove after temp test } else { #if 1 /* Display the + and - peaks. */ /* Normally we'd expect them to be about the same. */ /* However, with SDR, or other DC coupling, we could have an offset. */ alevel.mark = (int) ((D->alevel_mark_peak) * 200.0f + 0.5f); alevel.space = (int) ((D->alevel_space_peak) * 200.0f - 0.5f); #else /* Here we have + and - peaks after filtering. */ /* Take half of the peak to peak. */ /* The "5/6" factor worked out right for the current low pass filter. */ /* Will it need to be different if the filter is tweaked? */ alevel.mark = (int) ((D->alevel_mark_peak - D->alevel_space_peak) * 100.0f * 5.0f/6.0f + 0.5f); alevel.space = -1; /* to print one number inside of ( ) */ #endif } return (alevel); } /* end demod.c */