Paul Davis
c9c94ca1c2
git-svn-id: svn://localhost/ardour2/branches/3.0@13665 d708f5d6-7413-0410-9779-e7cbd77b26cf
328 lines
8.2 KiB
C
328 lines
8.2 KiB
C
/*
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libltc - en+decode linear timecode
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Copyright (C) 2006-2012 Robin Gareus <robin@gareus.org>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as
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published by the Free Software Foundation, either version 3 of the
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License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library.
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If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <math.h>
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#include "ltc/ltc.h"
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#include "ltc/decoder.h"
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#include "ltc/encoder.h"
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/* -+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
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* Decoder
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*/
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LTCDecoder* ltc_decoder_create(int apv, int queue_len) {
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LTCDecoder* d = (LTCDecoder*) calloc(1, sizeof(LTCDecoder));
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if (!d) return NULL;
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d->queue_len = queue_len;
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d->queue = (LTCFrameExt*) calloc(d->queue_len, sizeof(LTCFrameExt));
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if (!d->queue) {
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free(d);
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return NULL;
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}
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d->biphase_state = 1;
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d->snd_to_biphase_period = apv / 80;
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d->snd_to_biphase_lmt = (d->snd_to_biphase_period * 3) / 4;
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d->snd_to_biphase_min = SAMPLE_CENTER;
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d->snd_to_biphase_max = SAMPLE_CENTER;
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d->frame_start_prev = -1;
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d->biphase_tic = 0;
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return d;
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}
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int ltc_decoder_free(LTCDecoder *d) {
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if (!d) return 1;
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if (d->queue) free(d->queue);
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free(d);
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return 0;
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}
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void ltc_decoder_write(LTCDecoder *d, ltcsnd_sample_t *buf, size_t size, ltc_off_t posinfo) {
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decode_ltc(d, buf, size, posinfo);
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}
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#define LTCWRITE_TEMPLATE(FN, FORMAT, CONV) \
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void ltc_decoder_write_ ## FN (LTCDecoder *d, FORMAT *buf, size_t size, ltc_off_t posinfo) { \
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ltcsnd_sample_t tmp[1024]; \
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size_t remain = size; \
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while (remain > 0) { \
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int c = (remain > 1024) ? 1024 : remain; \
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int i; \
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for (i=0; i<c; i++) { \
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tmp[i] = CONV; \
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} \
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decode_ltc(d, tmp, c, posinfo + (ltc_off_t)c); \
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remain -= c; \
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} \
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}
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LTCWRITE_TEMPLATE(float, float, 128 + (buf[i] * 127.0))
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LTCWRITE_TEMPLATE(s16, short, 128 + (buf[i] >> 8))
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LTCWRITE_TEMPLATE(u16, short, (buf[i] >> 8))
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int ltc_decoder_read(LTCDecoder* d, LTCFrameExt* frame) {
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if (!frame) return -1;
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if (d->queue_read_off != d->queue_write_off) {
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memcpy(frame, &d->queue[d->queue_read_off], sizeof(LTCFrameExt));
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d->queue_read_off++;
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if (d->queue_read_off == d->queue_len)
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d->queue_read_off = 0;
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return 1;
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}
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return 0;
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}
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void ltc_decoder_queue_flush(LTCDecoder* d) {
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while (d->queue_read_off != d->queue_write_off) {
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d->queue_read_off++;
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if (d->queue_read_off == d->queue_len)
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d->queue_read_off = 0;
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}
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}
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int ltc_decoder_queue_length(LTCDecoder* d) {
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return (d->queue_write_off - d->queue_read_off + d->queue_len) % d->queue_len;
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}
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/* -+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
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* Encoder
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*/
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LTCEncoder* ltc_encoder_create(double sample_rate, double fps, enum LTC_TV_STANDARD standard, int flags) {
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if (sample_rate < 1)
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return NULL;
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LTCEncoder* e = (LTCEncoder*) calloc(1, sizeof(LTCEncoder));
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if (!e)
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return NULL;
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/*-3.0 dBFS default */
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e->enc_lo = 38;
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e->enc_hi = 218;
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e->bufsize = 1 + ceil(sample_rate / fps);
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e->buf = (ltcsnd_sample_t*) calloc(e->bufsize, sizeof(ltcsnd_sample_t));
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if (!e->buf) {
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free(e);
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return NULL;
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}
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ltc_frame_reset(&e->f);
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ltc_encoder_reinit(e, sample_rate, fps, standard, flags);
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return e;
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}
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void ltc_encoder_free(LTCEncoder *e) {
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if (!e) return;
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if (e->buf) free(e->buf);
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free(e);
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}
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int ltc_encoder_reinit(LTCEncoder *e, double sample_rate, double fps, enum LTC_TV_STANDARD standard, int flags) {
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if (sample_rate < 1)
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return -1;
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size_t bufsize = 1 + ceil(sample_rate / fps);
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if (bufsize > e->bufsize) {
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return -1;
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}
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e->state = 0;
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e->offset = 0;
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e->sample_rate = sample_rate;
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ltc_encoder_set_filter(e, 40.0);
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e->fps = fps;
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e->flags = flags;
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e->standard = standard;
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e->samples_per_clock = sample_rate / (fps * 80.0);
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e->samples_per_clock_2 = e->samples_per_clock / 2.0;
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e->sample_remainder = 0.5;
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if (flags & LTC_BGF_DONT_TOUCH) {
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e->f.col_frame = 0;
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if (flags<C_TC_CLOCK) {
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e->f.binary_group_flag_bit1 = 1;
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} else {
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e->f.binary_group_flag_bit1 = 0;
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}
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switch (standard) {
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case LTC_TV_625_50: /* 25 fps mode */
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e->f.biphase_mark_phase_correction = 0; // BGF0
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e->f.binary_group_flag_bit0 = (flags<C_USE_DATE)?1:0; // BGF2
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break;
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default:
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e->f.binary_group_flag_bit0 = 0;
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e->f.binary_group_flag_bit2 = (flags<C_USE_DATE)?1:0;
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break;
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}
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}
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if ((flags<C_NO_PARITY) == 0) {
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ltc_frame_set_parity(&e->f, standard);
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}
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if (rint(fps*100) == 2997)
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e->f.dfbit = 1;
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else
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e->f.dfbit = 0;
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return 0;
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}
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void ltc_encoder_reset(LTCEncoder *e) {
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e->state = 0;
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e->sample_remainder = 0.5;
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e->offset = 0;
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}
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int ltc_encoder_set_volume(LTCEncoder *e, double dBFS) {
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if (dBFS > 0)
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return -1;
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double pp = rint(127.0 * pow(10, dBFS/20.0));
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if (pp < 1 || pp > 127)
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return -1;
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ltcsnd_sample_t diff = ((ltcsnd_sample_t) pp)&0x7f;
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e->enc_lo = SAMPLE_CENTER - diff;
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e->enc_hi = SAMPLE_CENTER + diff;
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return 0;
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}
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void ltc_encoder_set_filter(LTCEncoder *e, double rise_time) {
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/* low-pass-filter
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* LTC signal should have a rise time of 40 us +/- 10 us.
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*
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* rise-time means from <10% to >90% of the signal.
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* in each call to addvalues() we start at 50% (SAMPLE_CENTER), so
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* here we need half-of it.
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*/
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if (rise_time <= 0)
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e->filter_const = 0;
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else
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e->filter_const = 1.0 - exp( -1.0 / (e->sample_rate * rise_time / 2000000.0 / exp(1.0)) );
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}
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int ltc_encoder_set_bufsize(LTCEncoder *e, double sample_rate, double fps) {
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free (e->buf);
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e->offset = 0;
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e->bufsize = 1 + ceil(sample_rate / fps);
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e->buf = (ltcsnd_sample_t*) calloc(e->bufsize, sizeof(ltcsnd_sample_t));
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if (!e->buf) {
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return -1;
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}
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return 0;
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}
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int ltc_encoder_encode_byte(LTCEncoder *e, int byte, double speed) {
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return encode_byte(e, byte, speed);
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}
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void ltc_encoder_encode_frame(LTCEncoder *e) {
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int byte;
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for (byte = 0 ; byte < 10 ; byte++) {
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encode_byte(e, byte, 1.0);
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}
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}
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void ltc_encoder_get_timecode(LTCEncoder *e, SMPTETimecode *t) {
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ltc_frame_to_time(t, &e->f, e->flags);
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}
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void ltc_encoder_set_timecode(LTCEncoder *e, SMPTETimecode *t) {
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ltc_time_to_frame(&e->f, t, e->standard, e->flags);
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}
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void ltc_encoder_get_frame(LTCEncoder *e, LTCFrame *f) {
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memcpy(f, &e->f, sizeof(LTCFrame));
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}
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void ltc_encoder_set_frame(LTCEncoder *e, LTCFrame *f) {
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memcpy(&e->f, f, sizeof(LTCFrame));
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}
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int ltc_encoder_inc_timecode(LTCEncoder *e) {
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return ltc_frame_increment (&e->f, rint(e->fps), e->standard, e->flags);
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}
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int ltc_encoder_dec_timecode(LTCEncoder *e) {
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return ltc_frame_decrement (&e->f, rint(e->fps), e->standard, e->flags);
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}
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size_t ltc_encoder_get_buffersize(LTCEncoder *e) {
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return(e->bufsize);
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}
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void ltc_encoder_buffer_flush(LTCEncoder *e) {
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e->offset = 0;
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}
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ltcsnd_sample_t *ltc_encoder_get_bufptr(LTCEncoder *e, int *size, int flush) {
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if (size) *size = e->offset;
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if (flush) e->offset = 0;
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return e->buf;
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}
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int ltc_encoder_get_buffer(LTCEncoder *e, ltcsnd_sample_t *buf) {
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const int len = e->offset;
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memcpy(buf, e->buf, len * sizeof(ltcsnd_sample_t) );
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e->offset = 0;
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return(len);
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}
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void ltc_frame_set_parity(LTCFrame *frame, enum LTC_TV_STANDARD standard) {
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int i;
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unsigned char p = 0;
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if (standard != LTC_TV_625_50) { /* 30fps, 24fps */
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frame->biphase_mark_phase_correction = 0;
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} else { /* 25fps */
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frame->binary_group_flag_bit2 = 0;
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}
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for (i=0; i < LTC_FRAME_BIT_COUNT / 8; ++i){
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p = p ^ (((unsigned char*)frame)[i]);
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}
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#define PRY(BIT) ((p>>BIT)&1)
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if (standard != LTC_TV_625_50) { /* 30fps, 24fps */
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frame->biphase_mark_phase_correction =
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PRY(0)^PRY(1)^PRY(2)^PRY(3)^PRY(4)^PRY(5)^PRY(6)^PRY(7);
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} else { /* 25fps */
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frame->binary_group_flag_bit2 =
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PRY(0)^PRY(1)^PRY(2)^PRY(3)^PRY(4)^PRY(5)^PRY(6)^PRY(7);
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}
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}
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ltc_off_t ltc_frame_alignment(double samples_per_frame, enum LTC_TV_STANDARD standard) {
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switch (standard) {
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case LTC_TV_525_60:
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return rint(samples_per_frame * 4.0 / 525.0);
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case LTC_TV_625_50:
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return rint(samples_per_frame * 1.0 / 625.0);
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default:
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return 0;
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}
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}
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