gstreamer/subprojects/gst-plugins-bad/ext/closedcaption/sampling_par.c

Ignoring revisions in .git-blame-ignore-revs. Click here to bypass and see the normal blame view.

554 lines
14 KiB
C
Raw Normal View History

/*
* libzvbi -- Raw VBI sampling parameters
*
* Copyright (C) 2000-2004 Michael H. Schimek
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301 USA.
*/
/* $Id: sampling_par.c,v 1.12 2013-08-28 14:45:00 mschimek Exp $ */
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include <errno.h>
#include "misc.h"
#include "raw_decoder.h"
#include "sampling_par.h"
#include "sliced.h"
# define vbi_pixfmt_bytes_per_pixel VBI_PIXFMT_BPP
# define sp_sample_format sampling_format
/**
* @addtogroup Sampling Raw VBI sampling
* @ingroup Raw
* @brief Raw VBI data sampling interface.
*/
/**
* @internal
* Compatibility.
*/
vbi_videostd_set
_vbi_videostd_set_from_scanning (int scanning)
{
switch (scanning) {
case 525:
return VBI_VIDEOSTD_SET_525_60;
case 625:
return VBI_VIDEOSTD_SET_625_50;
default:
break;
}
return 0;
}
_vbi_inline vbi_bool
range_check (unsigned int start,
unsigned int count, unsigned int min, unsigned int max)
{
/* Check bounds and overflow. */
return (start >= min && (start + count) <= max && (start + count) >= start);
}
/**
* @internal
* @param sp Sampling parameters to verify.
*
* @return
* TRUE if the sampling parameters are valid (as far as we can tell).
*/
vbi_bool
_vbi_sampling_par_valid_log (const vbi_sampling_par * sp, _vbi_log_hook * log)
{
vbi_videostd_set videostd_set;
unsigned int bpp;
assert (NULL != sp);
switch (sp->sp_sample_format) {
case VBI_PIXFMT_YUV420:
/* This conflicts with the ivtv driver, which returns an
odd number of bytes per line. The driver format is
_GREY but libzvbi 0.2 has no VBI_PIXFMT_Y8. */
break;
default:
bpp = vbi_pixfmt_bytes_per_pixel (sp->sp_sample_format);
if (0 != (sp->bytes_per_line % bpp))
goto bad_samples;
break;
}
if (0 == sp->bytes_per_line)
goto no_samples;
if (0 == sp->count[0]
&& 0 == sp->count[1])
goto bad_range;
videostd_set = _vbi_videostd_set_from_scanning (sp->scanning);
if (VBI_VIDEOSTD_SET_525_60 & videostd_set) {
if (VBI_VIDEOSTD_SET_625_50 & videostd_set)
goto ambiguous;
if (0 != sp->start[0]
&& !range_check (sp->start[0], sp->count[0], 1, 262))
goto bad_range;
if (0 != sp->start[1]
&& !range_check (sp->start[1], sp->count[1], 263, 525))
goto bad_range;
} else if (VBI_VIDEOSTD_SET_625_50 & videostd_set) {
if (0 != sp->start[0]
&& !range_check (sp->start[0], sp->count[0], 1, 311))
goto bad_range;
if (0 != sp->start[1]
&& !range_check (sp->start[1], sp->count[1], 312, 625))
goto bad_range;
} else {
ambiguous:
info (log, "Ambiguous videostd_set 0x%lx.", (unsigned long) videostd_set);
return FALSE;
}
if (sp->interlaced && (sp->count[0] != sp->count[1]
|| 0 == sp->count[0])) {
info (log,
"Line counts %u, %u must be equal and "
"non-zero when raw VBI data is interlaced.",
sp->count[0], sp->count[1]);
return FALSE;
}
return TRUE;
no_samples:
info (log, "samples_per_line is zero.");
return FALSE;
bad_samples:
info (log,
"bytes_per_line value %u is no multiple of "
"the sample size %u.",
sp->bytes_per_line, vbi_pixfmt_bytes_per_pixel (sp->sp_sample_format));
return FALSE;
bad_range:
info (log,
"Invalid VBI scan range %u-%u (%u lines), "
"%u-%u (%u lines).",
sp->start[0], sp->start[0] + sp->count[0] - 1,
sp->count[0],
sp->start[1], sp->start[1] + sp->count[1] - 1, sp->count[1]);
return FALSE;
}
static vbi_bool
_vbi_sampling_par_permit_service
(const vbi_sampling_par * sp,
const _vbi_service_par * par, unsigned int strict, _vbi_log_hook * log)
{
const unsigned int unknown = 0;
double signal;
unsigned int field;
unsigned int samples_per_line;
vbi_videostd_set videostd_set;
assert (NULL != sp);
assert (NULL != par);
videostd_set = _vbi_videostd_set_from_scanning (sp->scanning);
if (0 == (par->videostd_set & videostd_set)) {
info (log,
"Service 0x%08x (%s) requires "
"videostd_set 0x%lx, "
"have 0x%lx.",
par->id, par->label,
(unsigned long) par->videostd_set, (unsigned long) videostd_set);
return FALSE;
}
if (par->flags & _VBI_SP_LINE_NUM) {
if ((par->first[0] > 0 && unknown == (unsigned int) sp->start[0])
|| (par->first[1] > 0 && unknown == (unsigned int) sp->start[1])) {
info (log,
"Service 0x%08x (%s) requires known "
"line numbers.", par->id, par->label);
return FALSE;
}
}
{
unsigned int rate;
rate = MAX (par->cri_rate, par->bit_rate);
switch (par->id) {
case VBI_SLICED_WSS_625:
/* Effective bit rate is just 1/3 max_rate,
so 1 * max_rate should suffice. */
break;
default:
rate = (rate * 3) >> 1;
break;
}
if (rate > (unsigned int) sp->sampling_rate) {
info (log,
"Sampling rate %f MHz too low "
"for service 0x%08x (%s).",
sp->sampling_rate / 1e6, par->id, par->label);
return FALSE;
}
}
signal = par->cri_bits / (double) par->cri_rate
+ (par->frc_bits + par->payload) / (double) par->bit_rate;
samples_per_line = sp->bytes_per_line / VBI_PIXFMT_BPP (sp->sampling_format);
if (0 && sp->offset > 0 && strict > 0) {
double sampling_rate;
double offset;
double end;
sampling_rate = (double) sp->sampling_rate;
offset = sp->offset / sampling_rate;
end = (sp->offset + samples_per_line) / sampling_rate;
if (offset > (par->offset / 1e3 - 0.5e-6)) {
info (log,
"Sampling starts at 0H + %f us, too "
"late for service 0x%08x (%s) at "
"%f us.", offset * 1e6, par->id, par->label, par->offset / 1e3);
return FALSE;
}
if (end < (par->offset / 1e9 + signal + 0.5e-6)) {
info (log,
"Sampling ends too early at 0H + "
"%f us for service 0x%08x (%s) "
"which ends at %f us",
end * 1e6,
par->id, par->label, par->offset / 1e3 + signal * 1e6 + 0.5);
return FALSE;
}
} else {
double samples;
samples = samples_per_line / (double) sp->sampling_rate;
if (strict > 0)
samples -= 1e-6; /* headroom */
if (samples < signal) {
info (log,
"Service 0x%08x (%s) signal length "
"%f us exceeds %f us sampling length.",
par->id, par->label, signal * 1e6, samples * 1e6);
return FALSE;
}
}
if ((par->flags & _VBI_SP_FIELD_NUM)
&& !sp->synchronous) {
info (log,
"Service 0x%08x (%s) requires "
"synchronous field order.", par->id, par->label);
return FALSE;
}
for (field = 0; field < 2; ++field) {
unsigned int start;
unsigned int end;
start = sp->start[field];
end = start + sp->count[field] - 1;
if (0 == par->first[field]
|| 0 == par->last[field]) {
/* No data on this field. */
continue;
}
if (0 == sp->count[field]) {
info (log,
"Service 0x%08x (%s) requires "
"data from field %u", par->id, par->label, field + 1);
return FALSE;
}
/* (int) <= 0 for compatibility with libzvbi 0.2.x */
if ((int) strict <= 0 || 0 == sp->start[field])
continue;
if (1 == strict && par->first[field] > par->last[field]) {
/* May succeed if not all scanning lines
available for the service are actually used. */
continue;
}
if (start > par->first[field]
|| end < par->last[field]) {
info (log,
"Service 0x%08x (%s) requires "
"lines %u-%u, have %u-%u.",
par->id, par->label, par->first[field], par->last[field], start, end);
return FALSE;
}
}
return TRUE;
}
/**
* @internal
*/
vbi_service_set
_vbi_sampling_par_check_services_log
(const vbi_sampling_par * sp,
vbi_service_set services, unsigned int strict, _vbi_log_hook * log)
{
const _vbi_service_par *par;
vbi_service_set rservices;
assert (NULL != sp);
rservices = 0;
for (par = _vbi_service_table; par->id; ++par) {
if (0 == (par->id & services))
continue;
if (_vbi_sampling_par_permit_service (sp, par, strict, log))
rservices |= par->id;
}
return rservices;
}
/**
* @internal
*/
vbi_service_set
_vbi_sampling_par_from_services_log
(vbi_sampling_par * sp,
unsigned int *max_rate,
vbi_videostd_set videostd_set_req,
vbi_service_set services, _vbi_log_hook * log)
{
const _vbi_service_par *par;
vbi_service_set rservices;
vbi_videostd_set videostd_set;
unsigned int rate;
unsigned int samples_per_line;
assert (NULL != sp);
videostd_set = 0;
if (0 != videostd_set_req) {
if (0 == (VBI_VIDEOSTD_SET_ALL & videostd_set_req)
|| ((VBI_VIDEOSTD_SET_525_60 & videostd_set_req)
&& (VBI_VIDEOSTD_SET_625_50 & videostd_set_req))) {
warn (log,
"Ambiguous videostd_set 0x%lx.", (unsigned long) videostd_set_req);
CLEAR (*sp);
return 0;
}
videostd_set = videostd_set_req;
}
samples_per_line = 0;
sp->sampling_rate = 27000000; /* ITU-R BT.601 */
sp->offset = (int) (64e-6 * sp->sampling_rate);
sp->start[0] = 30000;
sp->count[0] = 0;
sp->start[1] = 30000;
sp->count[1] = 0;
sp->interlaced = FALSE;
sp->synchronous = TRUE;
rservices = 0;
rate = 0;
for (par = _vbi_service_table; par->id; ++par) {
#if 0 /* Set but unused */
double margin;
#endif
double signal;
int offset;
unsigned int samples;
unsigned int i;
if (0 == (par->id & services))
continue;
if (0 == videostd_set_req) {
vbi_videostd_set set;
set = par->videostd_set | videostd_set;
if (0 == (set & ~VBI_VIDEOSTD_SET_525_60)
|| 0 == (set & ~VBI_VIDEOSTD_SET_625_50))
videostd_set |= par->videostd_set;
}
#if 0 /* Set but unused */
if (VBI_VIDEOSTD_SET_525_60 & videostd_set)
margin = 1.0e-6;
else
margin = 2.0e-6;
#endif
if (0 == (par->videostd_set & videostd_set)) {
info (log,
"Service 0x%08x (%s) requires "
"videostd_set 0x%lx, "
"have 0x%lx.",
par->id, par->label,
(unsigned long) par->videostd_set, (unsigned long) videostd_set);
continue;
}
rate = MAX (rate, par->cri_rate);
rate = MAX (rate, par->bit_rate);
signal = par->cri_bits / (double) par->cri_rate
+ ((par->frc_bits + par->payload) / (double) par->bit_rate);
offset = (int) ((par->offset / 1e9) * sp->sampling_rate);
samples = (int) ((signal + 1.0e-6) * sp->sampling_rate);
sp->offset = MIN (sp->offset, offset);
samples_per_line = MAX (samples_per_line + sp->offset,
samples + offset) - sp->offset;
for (i = 0; i < 2; ++i)
if (par->first[i] > 0 && par->last[i] > 0) {
sp->start[i] = MIN
((unsigned int) sp->start[i], (unsigned int) par->first[i]);
sp->count[i] = MAX ((unsigned int) sp->start[i]
+ sp->count[i], (unsigned int) par->last[i] + 1)
- sp->start[i];
}
rservices |= par->id;
}
if (0 == rservices) {
CLEAR (*sp);
return 0;
}
if (0 == sp->count[1]) {
sp->start[1] = 0;
if (0 == sp->count[0]) {
sp->start[0] = 0;
sp->offset = 0;
}
} else if (0 == sp->count[0]) {
sp->start[0] = 0;
}
sp->scanning = (videostd_set & VBI_VIDEOSTD_SET_525_60)
? 525 : 625;
sp->sp_sample_format = VBI_PIXFMT_YUV420;
/* Note bpp is 1. */
sp->bytes_per_line = MAX (1440U, samples_per_line);
if (max_rate)
*max_rate = rate;
return rservices;
}
/**
* @param sp Sampling parameters to check against.
* @param services Set of data services.
* @param strict See description of vbi_raw_decoder_add_services().
*
* Check which of the given services can be decoded with the given
* sampling parameters at the given strictness level.
*
* @return
* Subset of @a services decodable with the given sampling parameters.
*/
vbi_service_set
vbi_sampling_par_check_services
(const vbi_sampling_par * sp, vbi_service_set services, unsigned int strict)
{
return _vbi_sampling_par_check_services_log (sp, services, strict,
/* log_hook */ NULL);
}
/**
* @param sp Sampling parameters calculated by this function
* will be stored here.
* @param max_rate If not NULL, the highest data bit rate in Hz of
* all services requested will be stored here. The sampling rate
* should be at least twice as high; @sp sampling_rate will
* be set to a more reasonable value of 27 MHz, which is twice
* the video sampling rate defined by ITU-R Rec. BT.601.
* @param videostd_set Create sampling parameters matching these
* video standards. When 0 determine video standard from requested
* services.
* @param services Set of VBI_SLICED_ symbols. Here (and only here) you
* can add @c VBI_SLICED_VBI_625 or @c VBI_SLICED_VBI_525 to include all
* vbi scan lines in the calculated sampling parameters.
*
* Calculate the sampling parameters required to receive and decode the
* requested data @a services. The @a sp sampling_format will be
* @c VBI_PIXFMT_Y8, offset and bytes_per_line will be set to
* reasonable minimums. This function can be used to initialize hardware
* prior to creating a vbi_raw_decoder object.
*
* @return
* Subset of @a services covered by the calculated sampling parameters.
*/
vbi_service_set
vbi_sampling_par_from_services (vbi_sampling_par * sp,
unsigned int *max_rate,
vbi_videostd_set videostd_set, vbi_service_set services)
{
return _vbi_sampling_par_from_services_log (sp, max_rate,
videostd_set, services,
/* log_hook */ NULL);
}
/*
Local variables:
c-set-style: K&R
c-basic-offset: 8
End:
*/