/*
Copyright (C) 2006-2010 Paul Davis
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+
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2 of the License, or (at your
option) any later version.
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+
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 Lesser General Public
License for more details.
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+
You should have received a copy of the GNU Lesser General Public License
along with this program; if not, write to the Free Software Foundation,
Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
timecode.negative = false;
return SECONDS;
}
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+
timecode.negative = false;
wrap = decrement (timecode, subframes_per_frame);
if (!Timecode_IS_ZERO (timecode)) {
}
break;
}
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+
if (wrap == SECONDS) {
if (timecode.seconds == 59) {
timecode.seconds = 0;
} else {
timecode.frames++;
}
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+
return wrap;
}
decrement (Time& timecode, uint32_t subframes_per_frame)
{
Wrap wrap = NONE;
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+
if (timecode.negative || Timecode_IS_ZERO (timecode)) {
timecode.negative = false;
wrap = increment (timecode, subframes_per_frame);
timecode.negative = true;
return SECONDS;
}
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+
switch ((int)ceil (timecode.rate)) {
case 24:
if (timecode.frames == 0) {
timecode.frames = 29;
wrap = SECONDS;
}
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+
} else {
if (timecode.frames == 0) {
timecode.frames = 29;
}
break;
}
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+
if (wrap == SECONDS) {
if (timecode.seconds == 0) {
timecode.seconds = 59;
} else {
timecode.frames--;
}
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+
if (Timecode_IS_ZERO (timecode)) {
timecode.negative = false;
}
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+
return wrap;
}
increment_subframes (Time& timecode, uint32_t subframes_per_frame)
{
Wrap wrap = NONE;
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if (timecode.negative) {
timecode.negative = false;
wrap = decrement_subframes (timecode, subframes_per_frame);
}
return wrap;
}
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+
timecode.subframes++;
if (timecode.subframes >= subframes_per_frame) {
timecode.subframes = 0;
decrement_subframes (Time& timecode, uint32_t subframes_per_frame)
{
Wrap wrap = NONE;
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+
if (timecode.negative) {
timecode.negative = false;
wrap = increment_subframes (timecode, subframes_per_frame);
timecode.negative = true;
return wrap;
}
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+
if (timecode.subframes <= 0) {
timecode.subframes = 0;
if (Timecode_IS_ZERO (timecode)) {
increment_seconds (Time& timecode, uint32_t subframes_per_frame)
{
Wrap wrap = NONE;
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+
// Clear subframes
frames_floor (timecode);
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+
if (timecode.negative) {
// Wrap second if on second boundary
wrap = increment (timecode, subframes_per_frame);
timecode.frames = 59;
break;
}
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+
// Increment by one frame
wrap = increment (timecode, subframes_per_frame);
}
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return wrap;
}
{
// Clear subframes
frames_floor (timecode);
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+
// Go to lowest possible frame in this second
switch ((int)ceil (timecode.rate)) {
case 24:
}
break;
}
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+
if (Timecode_IS_ZERO (timecode)) {
timecode.negative = false;
}
increment_minutes (Time& timecode, uint32_t subframes_per_frame)
{
Wrap wrap = NONE;
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+
// Clear subframes
frames_floor (timecode);
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+
if (timecode.negative) {
// Wrap if on minute boundary
wrap = increment_seconds (timecode, subframes_per_frame);
// Wrap minute by incrementing second
wrap = increment_seconds (timecode, subframes_per_frame);
}
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+
return wrap;
}
increment_hours (Time& timecode, uint32_t subframes_per_frame)
{
Wrap wrap = NONE;
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+
// Clear subframes
frames_floor (timecode);
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+
if (timecode.negative) {
// Wrap if on hour boundary
wrap = increment_minutes (timecode, subframes_per_frame);
timecode.minutes = 59;
wrap = increment_minutes (timecode, subframes_per_frame);
}
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+
return wrap;
}
timecode.seconds = 0;
timecode.frames = 0;
timecode.subframes = 0;
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+
if (Timecode_IS_ZERO (timecode)) {
timecode.negative = false;
}
frame_rate() in the non-integer Timecode rate case.
*/
- sample = (int64_t)lrint((((timecode.hours * 60 * 60) + (timecode.minutes * 60) + timecode.seconds) * (lrint(timecode.rate) * frames_per_timecode_frame)) + (timecode.frames * frames_per_timecode_frame));
+ sample = (int64_t) rint(
+ (
+ ((timecode.hours * 60 * 60) + (timecode.minutes * 60) + timecode.seconds)
+ *
+ (rint(timecode.rate) * frames_per_timecode_frame)
+ )
+ + (timecode.frames * frames_per_timecode_frame)
+ );
}
if (use_subframes) {
- sample += (int64_t) lrint(((double)timecode.subframes * frames_per_timecode_frame) / (double)subframes_per_frame);
+ sample += (int64_t) rint(((double)timecode.subframes * frames_per_timecode_frame) / (double)subframes_per_frame);
}
if (use_offset) {
if (!use_offset) {
timecode.negative = (sample < 0);
- offset_sample = llabs(sample);
+ offset_sample = ::llabs(sample);
} else {
if (offset_is_negative) {
offset_sample = sample + offset_samples;
const int64_t D = frameNumber / 17982;
const int64_t M = frameNumber % 17982;
- timecode.subframes = lrint(subframes_per_frame
+ timecode.subframes = rint(subframes_per_frame
* ((double)offset_sample * timecode_frames_per_second / sample_frame_rate - (double)frameNumber));
if (timecode.subframes == subframes_per_frame) {
double timecode_frames_fraction;
int64_t timecode_frames_left;
const double frames_per_timecode_frame = sample_frame_rate / timecode_frames_per_second;
- const int64_t frames_per_hour = (int64_t)(3600 * lrint(timecode_frames_per_second) * frames_per_timecode_frame);
+ const int64_t frames_per_hour = (int64_t)(3600. * rint(timecode_frames_per_second) * frames_per_timecode_frame);
timecode.hours = offset_sample / frames_per_hour;
timecode_frames_left_exact = (double)(offset_sample % frames_per_hour) / frames_per_timecode_frame;
timecode_frames_fraction = timecode_frames_left_exact - floor( timecode_frames_left_exact );
- timecode.subframes = (int32_t) lrint(timecode_frames_fraction * subframes_per_frame);
+ timecode.subframes = (int32_t) rint(timecode_frames_fraction * subframes_per_frame);
timecode_frames_left = (int64_t) floor (timecode_frames_left_exact);
if (use_subframes && timecode.subframes == subframes_per_frame) {
} // namespace Timecode
-std::ostream&
-operator<<(std::ostream& ostr, const Timecode::Time& t)
+std::ostream&
+operator<<(std::ostream& ostr, const Timecode::Time& t)
{
return t.print (ostr);
}