📄 smpte.cpp
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/* ***** BEGIN LICENSE BLOCK *****
* Version: RCSL 1.0/RPSL 1.0
*
* Portions Copyright (c) 1995-2002 RealNetworks, Inc. All Rights Reserved.
*
* The contents of this file, and the files included with this file, are
* subject to the current version of the RealNetworks Public Source License
* Version 1.0 (the "RPSL") available at
* http://www.helixcommunity.org/content/rpsl unless you have licensed
* the file under the RealNetworks Community Source License Version 1.0
* (the "RCSL") available at http://www.helixcommunity.org/content/rcsl,
* in which case the RCSL will apply. You may also obtain the license terms
* directly from RealNetworks. You may not use this file except in
* compliance with the RPSL or, if you have a valid RCSL with RealNetworks
* applicable to this file, the RCSL. Please see the applicable RPSL or
* RCSL for the rights, obligations and limitations governing use of the
* contents of the file.
*
* This file is part of the Helix DNA Technology. RealNetworks is the
* developer of the Original Code and owns the copyrights in the portions
* it created.
*
* This file, and the files included with this file, is distributed and made
* available on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
* EXPRESS OR IMPLIED, AND REALNETWORKS HEREBY DISCLAIMS ALL SUCH WARRANTIES,
* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
*
* Technology Compatibility Kit Test Suite(s) Location:
* http://www.helixcommunity.org/content/tck
*
* Contributor(s):
*
* ***** END LICENSE BLOCK ***** */
#include "hxtypes.h"
//#include "hlxclib/stdio.h"
#include "safestring.h"
#include "hlxclib/stdlib.h"
#include "hxstring.h"
#include "smpte.h"
#include "hxheap.h"
#ifdef _DEBUG
#undef HX_THIS_FILE
static const char HX_THIS_FILE[] = __FILE__;
#endif
const UINT32 MSEC_PER_HOUR = (UINT32)60 * 60 * 1000;
const UINT32 MSEC_PER_MIN = (UINT32)60 * 1000;
const UINT32 MSEC_PER_SEC = 1000;
SMPTETimeCode::SMPTETimeCode():
m_hour(0),
m_minute(0),
m_second(0),
m_frame(0),
m_mSecs(0),
m_dropFrame(DROP_FRAME),
m_framesPerSec(FPS_30)
{
}
SMPTETimeCode::SMPTETimeCode(UINT32 mSec):
m_mSecs(mSec),
m_dropFrame(DROP_FRAME),
m_framesPerSec(FPS_30)
{
fromMSec();
}
SMPTETimeCode::SMPTETimeCode(int hour, int minute, int second, int frame):
m_hour(hour),
m_minute(minute),
m_second(second),
m_frame(frame),
m_dropFrame(DROP_FRAME),
m_framesPerSec(FPS_30)
{
toMSec();
}
SMPTETimeCode::SMPTETimeCode(const char* pTimeCodeStr):
m_dropFrame(DROP_FRAME),
m_framesPerSec(FPS_30)
{
fromString(pTimeCodeStr);
}
SMPTETimeCode::SMPTETimeCode(const SMPTETimeCode& lhs)
{
m_hour = lhs.m_hour;
m_minute = lhs.m_minute;
m_second = lhs.m_second;
m_frame = lhs.m_frame;
m_dropFrame = lhs.m_dropFrame;
m_framesPerSec = lhs.m_framesPerSec;
m_mSecs = lhs.m_mSecs;
}
SMPTETimeCode&
SMPTETimeCode::operator=(const SMPTETimeCode& lhs)
{
m_hour = lhs.m_hour;
m_minute = lhs.m_minute;
m_second = lhs.m_second;
m_frame = lhs.m_frame;
m_dropFrame = lhs.m_dropFrame;
m_framesPerSec = lhs.m_framesPerSec;
m_mSecs = lhs.m_mSecs;
return *this;
}
int
SMPTETimeCode::compare(const SMPTETimeCode& lhs) const
{
return HX_SAFEINT(m_mSecs - lhs.m_mSecs);
}
void
SMPTETimeCode::toMSec()
{
m_mSecs = m_hour * MSEC_PER_HOUR
+ m_minute * MSEC_PER_MIN
+ m_second * MSEC_PER_SEC;
if(m_framesPerSec == FPS_30)
{
if(m_frame > 29)
{
m_frame = 0;
}
else
{
if(m_dropFrame == DROP_FRAME)
{
// each frame is 33.367 ms (29.97 Hz)
m_mSecs += (int)(((double)m_frame * 33.367) + 0.5);
}
else
{
// each frame is 33.333 ms
m_mSecs += (int)(((double)m_frame * 33.333) + 0.5);
}
}
}
else if(m_framesPerSec == FPS_25)
{
// each frame is 40ms
if(m_frame > 24)
{
m_frame = 0;
}
else
{
m_mSecs += m_frame * 40;
}
}
}
void
SMPTETimeCode::fromMSec()
{
int fps = (m_framesPerSec == FPS_30) ? 30: 25;
UINT32 ttlFrames = (m_mSecs * fps) / 1000;
m_hour = HX_SAFEINT(ttlFrames / (fps * 60 * 60));
UINT32 hourRem = ttlFrames - (m_hour * fps * 60 * 60);
m_minute = HX_SAFEINT(hourRem / (fps * 60));
UINT32 minRem = hourRem - (m_minute * fps * 60);
m_second = HX_SAFEINT(minRem / fps);
UINT32 secRem = minRem - (m_second * fps);
m_frame = HX_SAFEINT(ttlFrames % fps);
}
const char*
SMPTETimeCode::toString()
{
char strBuf[12]; /* Flawfinder: ignore */
SafeSprintf(strBuf, sizeof(strBuf), "%02d:%02d:%02d",
m_hour, m_minute, m_second);
if(m_frame > 0)
SafeSprintf(&strBuf[8], sizeof(strBuf)-8, ".%02d", m_frame);
m_asString = strBuf;
return m_asString;
}
void
SMPTETimeCode::fromString(const char* pTimeCodeString)
{
// format is [H]H:[M]M:[S]S[.FF]
m_hour = m_minute = m_second = m_frame = 0;
char* token = 0;
if(pTimeCodeString && strlen(pTimeCodeString) > 0)
{
char *tmpStr = new char[strlen(pTimeCodeString)+1];
strcpy(tmpStr, pTimeCodeString); /* Flawfinder: ignore */
token = strtok(tmpStr, ":");
if(token)
{
m_hour = HX_SAFEINT(strtol(token, 0, 10));
token = strtok(NULL, ":");
if(token)
{
m_minute = HX_SAFEINT(strtol(token, 0, 10));
token = strtok(NULL, ".");
if(token)
{
m_second = HX_SAFEINT(strtol(token, 0, 10));
token = strtok(NULL, " ");
if(token)
{
m_frame = HX_SAFEINT(strtol(token, 0, 10));
}
}
}
}
}
toMSec();
fromMSec(); // normalize just in case of a badly formatted string
}
SMPTETimeCode::operator UINT32()
{
return m_mSecs;
}
SMPTETimeCode::operator const char*()
{
toString();
return m_asString;
}
SMPTETimeCode&
SMPTETimeCode::operator+=(const SMPTETimeCode& lhs)
{
// no checking for overflow
m_mSecs += lhs.m_mSecs;
fromMSec();
return *this;
}
SMPTETimeCode&
SMPTETimeCode::operator-=(const SMPTETimeCode& lhs)
{
// don't go negative on me...
if(m_mSecs > lhs.m_mSecs)
{
m_mSecs -= lhs.m_mSecs;
}
else
{
m_mSecs = 0;
}
fromMSec();
return *this;
}
SMPTETimeCode
SMPTETimeCode::operator+(const SMPTETimeCode& lhs)
{
SMPTETimeCode tCode = *this;
tCode += lhs;
return tCode;
}
SMPTETimeCode
SMPTETimeCode::operator-(const SMPTETimeCode& lhs)
{
SMPTETimeCode tCode = *this;
tCode -= lhs;
return tCode;
}
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