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itgmania212121/src/TimingData.cpp
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#include "global.h"
#include "TimingData.h"
#include "PrefsManager.h"
#include "RageUtil.h"
#include "RageLog.h"
#include "NoteTypes.h"
#include "Foreach.h"
#include <float.h>
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TimingData::TimingData() :
m_fBeat0OffsetInSeconds(0),
m_bHasNegativeBpms(false)
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{
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}
TimingData::TimingData(float fOffset) :
m_fBeat0OffsetInSeconds(fOffset),
m_bHasNegativeBpms(false)
{
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}
void TimingData::GetActualBPM( float &fMinBPMOut, float &fMaxBPMOut ) const
{
fMinBPMOut = FLT_MAX;
fMaxBPMOut = 0;
FOREACH_CONST( BPMSegment, m_BPMSegments, seg )
{
const float fBPM = seg->GetBPM();
fMaxBPMOut = max( fBPM, fMaxBPMOut );
fMinBPMOut = min( fBPM, fMinBPMOut );
}
}
void TimingData::AddBPMSegment( const BPMSegment &seg )
{
m_BPMSegments.insert( upper_bound(m_BPMSegments.begin(), m_BPMSegments.end(), seg), seg );
}
void TimingData::AddStopSegment( const StopSegment &seg )
{
m_StopSegments.insert( upper_bound(m_StopSegments.begin(), m_StopSegments.end(), seg), seg );
}
void TimingData::AddTimeSignatureSegment( const TimeSignatureSegment &seg )
{
m_vTimeSignatureSegments.insert( upper_bound(m_vTimeSignatureSegments.begin(), m_vTimeSignatureSegments.end(), seg), seg );
}
void TimingData::AddWarpSegment( const WarpSegment &seg )
{
m_WarpSegments.insert( upper_bound(m_WarpSegments.begin(), m_WarpSegments.end(), seg), seg );
}
void TimingData::AddTickcountSegment( const TickcountSegment &seg )
{
m_TickcountSegments.insert( upper_bound(m_TickcountSegments.begin(), m_TickcountSegments.end(), seg), seg );
}
void TimingData::AddComboSegment( const ComboSegment &seg )
{
m_ComboSegments.insert( upper_bound(m_ComboSegments.begin(), m_ComboSegments.end(), seg), seg );
}
void TimingData::AddLabelSegment( const LabelSegment &seg )
{
m_LabelSegments.insert( upper_bound(m_LabelSegments.begin(), m_LabelSegments.end(), seg), seg );
}
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void TimingData::AddSpeedSegment( const SpeedSegment &seg )
{
m_SpeedSegments.insert( upper_bound(m_SpeedSegments.begin(), m_SpeedSegments.end(), seg), seg );
}
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void TimingData::AddScrollSegment( const ScrollSegment &seg )
{
m_ScrollSegments.insert( upper_bound(m_ScrollSegments.begin(), m_ScrollSegments.end(), seg), seg );
}
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void TimingData::AddFakeSegment( const FakeSegment &seg )
{
m_FakeSegments.insert( upper_bound(m_FakeSegments.begin(), m_FakeSegments.end(), seg), seg );
}
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/* Change an existing BPM segment, merge identical segments together or insert a new one. */
void TimingData::SetBPMAtRow( int iNoteRow, float fBPM )
{
float fBPS = fBPM / 60.0f;
unsigned i;
for( i=0; i<m_BPMSegments.size(); i++ )
if( m_BPMSegments[i].m_iStartRow >= iNoteRow )
break;
if( i == m_BPMSegments.size() || m_BPMSegments[i].m_iStartRow != iNoteRow )
{
// There is no BPMSegment at the specified beat. If the BPM being set differs
// from the last BPMSegment's BPM, create a new BPMSegment.
if( i == 0 || fabsf(m_BPMSegments[i-1].m_fBPS - fBPS) > 1e-5f )
AddBPMSegment( BPMSegment(iNoteRow, fBPM) );
}
else // BPMSegment being modified is m_BPMSegments[i]
{
if( i > 0 && fabsf(m_BPMSegments[i-1].m_fBPS - fBPS) < 1e-5f )
m_BPMSegments.erase( m_BPMSegments.begin()+i, m_BPMSegments.begin()+i+1 );
else
m_BPMSegments[i].m_fBPS = fBPS;
}
}
void TimingData::SetStopAtRow( int iRow, float fSeconds, bool bDelay )
{
unsigned i;
for( i=0; i<m_StopSegments.size(); i++ )
if( m_StopSegments[i].m_iStartRow == iRow && m_StopSegments[i].m_bDelay == bDelay )
break;
if( i == m_StopSegments.size() ) // there is no Stop/Delay Segment at the current beat
{
// create a new StopSegment
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if( fSeconds > 0 )
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{
AddStopSegment( StopSegment(iRow, fSeconds, bDelay) );
}
}
else // StopSegment being modified is m_StopSegments[i]
{
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if( fSeconds > 0 )
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{
m_StopSegments[i].m_fStopSeconds = fSeconds;
}
else
m_StopSegments.erase( m_StopSegments.begin()+i, m_StopSegments.begin()+i+1 );
}
}
void TimingData::SetTimeSignatureAtRow( int iRow, int iNumerator, int iDenominator )
{
unsigned i;
for( i = 0; i < m_vTimeSignatureSegments.size(); i++ )
{
if( m_vTimeSignatureSegments[i].m_iStartRow >= iRow)
break; // We found our segment.
}
if ( i == m_vTimeSignatureSegments.size() || m_vTimeSignatureSegments[i].m_iStartRow != iRow )
{
// No specific segmeent here: place one if it differs.
if( i == 0 ||
( m_vTimeSignatureSegments[i-1].m_iNumerator != iNumerator
|| m_vTimeSignatureSegments[i-1].m_iDenominator != iDenominator ) )
AddTimeSignatureSegment( TimeSignatureSegment(iRow, iNumerator, iDenominator) );
}
else // TimeSignatureSegment being modified is m_vTimeSignatureSegments[i]
{
if( i > 0 && m_vTimeSignatureSegments[i-1].m_iNumerator == iNumerator
&& m_vTimeSignatureSegments[i-1].m_iDenominator == iDenominator )
m_vTimeSignatureSegments.erase( m_vTimeSignatureSegments.begin()+i,
m_vTimeSignatureSegments.begin()+i+1 );
else
{
m_vTimeSignatureSegments[i].m_iNumerator = iNumerator;
m_vTimeSignatureSegments[i].m_iDenominator = iDenominator;
}
}
}
void TimingData::SetTimeSignatureNumeratorAtRow( int iRow, int iNumerator )
{
SetTimeSignatureAtRow( iRow, iNumerator, GetTimeSignatureSegmentAtBeat( NoteRowToBeat( iRow ) ).m_iDenominator );
}
void TimingData::SetTimeSignatureDenominatorAtRow( int iRow, int iDenominator )
{
SetTimeSignatureAtRow( iRow, GetTimeSignatureSegmentAtBeat( NoteRowToBeat( iRow ) ).m_iNumerator, iDenominator );
}
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void TimingData::SetWarpAtRow( int iRow, float fNew )
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{
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unsigned i;
for( i=0; i<m_WarpSegments.size(); i++ )
if( m_WarpSegments[i].m_iStartRow == iRow )
break;
bool valid = iRow > 0 && fNew > 0;
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if( i == m_WarpSegments.size() )
{
if( valid )
{
AddWarpSegment( WarpSegment(iRow, fNew) );
}
}
else
{
if( valid )
{
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m_WarpSegments[i].m_fLengthBeats = fNew;
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}
else
m_WarpSegments.erase( m_WarpSegments.begin()+i, m_WarpSegments.begin()+i+1 );
}
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}
/* Change an existing Tickcount segment, merge identical segments together or insert a new one. */
void TimingData::SetTickcountAtRow( int iRow, int iTicks )
{
unsigned i;
for( i=0; i<m_TickcountSegments.size(); i++ )
if( m_TickcountSegments[i].m_iStartRow >= iRow )
break;
if( i == m_TickcountSegments.size() || m_TickcountSegments[i].m_iStartRow != iRow )
{
// No TickcountSegment here. Make a new segment if required.
if( i == 0 || m_TickcountSegments[i-1].m_iTicks != iTicks )
AddTickcountSegment( TickcountSegment(iRow, iTicks ) );
}
else // TickcountSegment being modified is m_TickcountSegments[i]
{
if( i > 0 && m_TickcountSegments[i-1].m_iTicks == iTicks )
m_TickcountSegments.erase( m_TickcountSegments.begin()+i, m_TickcountSegments.begin()+i+1 );
else
m_TickcountSegments[i].m_iTicks = iTicks;
}
}
void TimingData::SetComboAtRow( int iRow, int iCombo )
{
unsigned i;
for( i=0; i<m_ComboSegments.size(); i++ )
if( m_ComboSegments[i].m_iStartRow >= iRow )
break;
if( i == m_ComboSegments.size() || m_ComboSegments[i].m_iStartRow != iRow )
{
if( i == 0 || m_ComboSegments[i-1].m_iCombo != iCombo )
AddComboSegment( ComboSegment(iRow, iCombo ) );
}
else
{
if( i > 0 && m_ComboSegments[i-1].m_iCombo == iCombo )
m_ComboSegments.erase( m_ComboSegments.begin()+i, m_ComboSegments.begin()+i+1 );
else
m_ComboSegments[i].m_iCombo = iCombo;
}
}
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void TimingData::SetLabelAtRow( int iRow, const RString sLabel )
{
unsigned i;
for( i=0; i<m_LabelSegments.size(); i++ )
if( m_LabelSegments[i].m_iStartRow >= iRow )
break;
if( i == m_LabelSegments.size() || m_LabelSegments[i].m_iStartRow != iRow )
{
if( i == 0 || m_LabelSegments[i-1].m_sLabel != sLabel )
AddLabelSegment( LabelSegment(iRow, sLabel ) );
}
else
{
if( i > 0 && ( m_LabelSegments[i-1].m_sLabel == sLabel || sLabel == "" ) )
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m_LabelSegments.erase( m_LabelSegments.begin()+i, m_LabelSegments.begin()+i+1 );
else
m_LabelSegments[i].m_sLabel = sLabel;
}
}
void TimingData::SetSpeedAtRow( int iRow, float fPercent, float fWait, unsigned short usMode )
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{
unsigned i;
for( i = 0; i < m_SpeedSegments.size(); i++ )
{
if( m_SpeedSegments[i].m_iStartRow >= iRow)
break;
}
if ( i == m_SpeedSegments.size() || m_SpeedSegments[i].m_iStartRow != iRow )
{
// the core mod itself matters the most for comparisons.
if( i == 0 || m_SpeedSegments[i-1].m_fPercent != fPercent )
AddSpeedSegment( SpeedSegment(iRow, fPercent, fWait, usMode) );
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}
else
{
// The others aren't compared: only the mod itself matters.
if( i > 0 && m_SpeedSegments[i-1].m_fPercent == fPercent )
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m_SpeedSegments.erase( m_SpeedSegments.begin()+i,
m_SpeedSegments.begin()+i+1 );
else
{
m_SpeedSegments[i].m_fPercent = fPercent;
m_SpeedSegments[i].m_fWait = fWait;
m_SpeedSegments[i].m_usMode = usMode;
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}
}
}
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void TimingData::SetScrollAtRow( int iRow, float fPercent )
{
unsigned i;
for( i = 0; i < m_ScrollSegments.size(); i++ )
{
if( m_ScrollSegments[i].m_iStartRow >= iRow)
break;
}
if ( i == m_ScrollSegments.size() || m_ScrollSegments[i].m_iStartRow != iRow )
{
// the core mod itself matters the most for comparisons.
if( i == 0 || m_ScrollSegments[i-1].m_fPercent != fPercent )
AddScrollSegment( ScrollSegment(iRow, fPercent) );
}
else
{
// The others aren't compared: only the mod itself matters.
if( i > 0 && m_ScrollSegments[i-1].m_fPercent == fPercent )
m_ScrollSegments.erase( m_ScrollSegments.begin()+i,
m_ScrollSegments.begin()+i+1 );
else
{
m_ScrollSegments[i].m_fPercent = fPercent;
}
}
}
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void TimingData::SetFakeAtRow( int iRow, float fNew )
{
unsigned i;
for( i=0; i<m_FakeSegments.size(); i++ )
if( m_FakeSegments[i].m_iStartRow == iRow )
break;
bool valid = iRow > 0 && fNew > 0;
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if( i == m_FakeSegments.size() )
{
if( valid )
{
AddFakeSegment( FakeSegment(iRow, fNew) );
}
}
else
{
if( valid )
{
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m_FakeSegments[i].m_fLengthBeats = fNew;
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}
else
m_FakeSegments.erase( m_FakeSegments.begin()+i, m_FakeSegments.begin()+i+1 );
}
}
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void TimingData::SetSpeedPercentAtRow( int iRow, float fPercent )
{
SetSpeedAtRow( iRow,
fPercent,
GetSpeedSegmentAtBeat( NoteRowToBeat( iRow ) ).m_fWait,
GetSpeedSegmentAtBeat( NoteRowToBeat( iRow ) ).m_usMode);
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}
void TimingData::SetSpeedWaitAtRow( int iRow, float fWait )
{
SetSpeedAtRow( iRow,
GetSpeedSegmentAtBeat( NoteRowToBeat( iRow ) ).m_fPercent,
fWait,
GetSpeedSegmentAtBeat( NoteRowToBeat( iRow ) ).m_usMode);
}
void TimingData::SetSpeedModeAtRow( int iRow, unsigned short usMode )
{
SetSpeedAtRow( iRow,
GetSpeedSegmentAtBeat( NoteRowToBeat( iRow ) ).m_fPercent,
GetSpeedSegmentAtBeat( NoteRowToBeat( iRow ) ).m_fWait,
usMode );
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}
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float TimingData::GetStopAtRow( int iNoteRow, bool bDelay ) const
{
for( unsigned i=0; i<m_StopSegments.size(); i++ )
{
if( m_StopSegments[i].m_bDelay == bDelay && m_StopSegments[i].m_iStartRow == iNoteRow )
{
return m_StopSegments[i].m_fStopSeconds;
}
}
return 0;
}
float TimingData::GetStopAtRow( int iRow ) const
{
return GetStopAtRow( iRow, false );
}
float TimingData::GetDelayAtRow( int iRow ) const
{
return GetStopAtRow( iRow, true );
}
int TimingData::GetComboAtRow( int iNoteRow ) const
{
return m_ComboSegments[GetComboSegmentIndexAtRow( iNoteRow )].m_iCombo;
}
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RString TimingData::GetLabelAtRow( int iRow ) const
{
return m_LabelSegments[GetLabelSegmentIndexAtRow( iRow )].m_sLabel;
}
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float TimingData::GetWarpAtRow( int iWarpRow ) const
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{
for( unsigned i=0; i<m_WarpSegments.size(); i++ )
{
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if( m_WarpSegments[i].m_iStartRow == iWarpRow )
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{
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return m_WarpSegments[i].m_fLengthBeats;
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}
}
return 0;
}
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float TimingData::GetSpeedPercentAtRow( int iRow )
{
return GetSpeedSegmentAtRow( iRow ).m_fPercent;
}
float TimingData::GetSpeedWaitAtRow( int iRow )
{
return GetSpeedSegmentAtRow( iRow ).m_fWait;
}
unsigned short TimingData::GetSpeedModeAtRow( int iRow )
{
return GetSpeedSegmentAtRow( iRow ).m_usMode;
}
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float TimingData::GetScrollAtRow( int iRow )
{
return GetScrollSegmentAtRow( iRow ).m_fPercent;
}
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float TimingData::GetFakeAtRow( int iFakeRow ) const
{
for( unsigned i=0; i<m_FakeSegments.size(); i++ )
{
if( m_FakeSegments[i].m_iStartRow == iFakeRow )
{
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return m_FakeSegments[i].m_fLengthBeats;
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}
}
return 0;
}
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// Multiply the BPM in the range [fStartBeat,fEndBeat) by fFactor.
void TimingData::MultiplyBPMInBeatRange( int iStartIndex, int iEndIndex, float fFactor )
{
// Change all other BPM segments in this range.
for( unsigned i=0; i<m_BPMSegments.size(); i++ )
{
const int iStartIndexThisSegment = m_BPMSegments[i].m_iStartRow;
const bool bIsLastBPMSegment = i==m_BPMSegments.size()-1;
const int iStartIndexNextSegment = bIsLastBPMSegment ? INT_MAX : m_BPMSegments[i+1].m_iStartRow;
if( iStartIndexThisSegment <= iStartIndex && iStartIndexNextSegment <= iStartIndex )
continue;
/* If this BPM segment crosses the beginning of the range,
* split it into two. */
if( iStartIndexThisSegment < iStartIndex && iStartIndexNextSegment > iStartIndex )
{
BPMSegment b = m_BPMSegments[i];
b.m_iStartRow = iStartIndexNextSegment;
m_BPMSegments.insert( m_BPMSegments.begin()+i+1, b );
/* Don't apply the BPM change to the first half of the segment we
* just split, since it lies outside the range. */
continue;
}
// If this BPM segment crosses the end of the range, split it into two.
if( iStartIndexThisSegment < iEndIndex && iStartIndexNextSegment > iEndIndex )
{
BPMSegment b = m_BPMSegments[i];
b.m_iStartRow = iEndIndex;
m_BPMSegments.insert( m_BPMSegments.begin()+i+1, b );
}
else if( iStartIndexNextSegment > iEndIndex )
continue;
m_BPMSegments[i].m_fBPS = m_BPMSegments[i].m_fBPS * fFactor;
}
}
float TimingData::GetBPMAtRow( int iNoteRow ) const
{
unsigned i;
for( i=0; i<m_BPMSegments.size()-1; i++ )
if( m_BPMSegments[i+1].m_iStartRow > iNoteRow )
break;
return m_BPMSegments[i].GetBPM();
}
int TimingData::GetBPMSegmentIndexAtRow( int iNoteRow ) const
{
unsigned i;
for( i=0; i<m_BPMSegments.size()-1; i++ )
if( m_BPMSegments[i+1].m_iStartRow > iNoteRow )
break;
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return static_cast<int>(i);
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}
int TimingData::GetStopSegmentIndexAtRow( int iNoteRow, bool bDelay ) const
{
unsigned i;
for( i=0; i<m_StopSegments.size()-1; i++ )
{
const StopSegment& s = m_StopSegments[i+1];
if( s.m_iStartRow > iNoteRow && s.m_bDelay == bDelay )
break;
}
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return static_cast<int>(i);
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}
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int TimingData::GetWarpSegmentIndexAtRow( int iNoteRow ) const
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{
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unsigned i;
for( i=0; i<m_WarpSegments.size()-1; i++ )
{
const WarpSegment& s = m_WarpSegments[i+1];
if( s.m_iStartRow > iNoteRow )
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break;
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}
return static_cast<int>(i);
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}
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int TimingData::GetFakeSegmentIndexAtRow( int iNoteRow ) const
{
unsigned i;
for( i=0; i<m_FakeSegments.size()-1; i++ )
{
const FakeSegment& s = m_FakeSegments[i+1];
if( s.m_iStartRow > iNoteRow )
break;
}
return static_cast<int>(i);
}
bool TimingData::IsWarpAtRow( int iNoteRow ) const
{
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if( m_WarpSegments.empty() )
return false;
int i = GetWarpSegmentIndexAtRow( iNoteRow );
const WarpSegment& s = m_WarpSegments[i];
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if( s.m_iStartRow <= iNoteRow && iNoteRow < (s.m_iStartRow + BeatToNoteRow(s.m_fLengthBeats) ) )
{
// Allow stops inside warps to allow things like stop, warp, stop, warp, stop, and so on.
if( m_StopSegments.empty() )
{
return true;
}
if( GetStopAtRow(iNoteRow) != 0.0f || GetDelayAtRow(iNoteRow) != 0.0f )
{
return false;
}
return true;
}
return false;
}
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bool TimingData::IsFakeAtRow( int iNoteRow ) const
{
if( m_FakeSegments.empty() )
return false;
int i = GetFakeSegmentIndexAtRow( iNoteRow );
const FakeSegment& s = m_FakeSegments[i];
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if( s.m_iStartRow <= iNoteRow && iNoteRow < ( s.m_iStartRow + BeatToNoteRow(s.m_fLengthBeats) ) )
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{
return true;
}
return false;
}
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int TimingData::GetTimeSignatureSegmentIndexAtRow( int iRow ) const
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{
unsigned i;
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for (i=0; i < m_vTimeSignatureSegments.size() - 1; i++ )
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if( m_vTimeSignatureSegments[i+1].m_iStartRow > iRow )
break;
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return static_cast<int>(i);
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}
int TimingData::GetComboSegmentIndexAtRow( int iRow ) const
{
unsigned i;
for( i=0; i<m_ComboSegments.size()-1; i++ )
{
const ComboSegment& s = m_ComboSegments[i+1];
if( s.m_iStartRow > iRow )
break;
}
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return static_cast<int>(i);
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}
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int TimingData::GetLabelSegmentIndexAtRow( int iRow ) const
{
unsigned i;
for( i=0; i<m_LabelSegments.size()-1; i++ )
{
const LabelSegment& s = m_LabelSegments[i+1];
if( s.m_iStartRow > iRow )
break;
}
return static_cast<int>(i);
}
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int TimingData::GetSpeedSegmentIndexAtRow( int iRow ) const
{
unsigned i;
for (i=0; i < m_SpeedSegments.size() - 1; i++ )
if( m_SpeedSegments[i+1].m_iStartRow > iRow )
break;
return static_cast<int>(i);
}
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int TimingData::GetScrollSegmentIndexAtRow( int iRow ) const
{
unsigned i;
for (i=0; i < m_ScrollSegments.size() - 1; i++ )
if( m_ScrollSegments[i+1].m_iStartRow > iRow )
break;
return static_cast<int>(i);
}
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BPMSegment& TimingData::GetBPMSegmentAtRow( int iNoteRow )
{
static BPMSegment empty;
if( m_BPMSegments.empty() )
return empty;
int i = GetBPMSegmentIndexAtRow( iNoteRow );
return m_BPMSegments[i];
}
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TimeSignatureSegment& TimingData::GetTimeSignatureSegmentAtRow( int iRow )
{
unsigned i;
for( i=0; i<m_vTimeSignatureSegments.size()-1; i++ )
if( m_vTimeSignatureSegments[i+1].m_iStartRow > iRow )
break;
return m_vTimeSignatureSegments[i];
}
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SpeedSegment& TimingData::GetSpeedSegmentAtRow( int iRow )
{
unsigned i;
for( i=0; i<m_SpeedSegments.size()-1; i++ )
if( m_SpeedSegments[i+1].m_iStartRow > iRow )
break;
return m_SpeedSegments[i];
}
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ScrollSegment& TimingData::GetScrollSegmentAtRow( int iRow )
{
unsigned i;
for( i=0; i<m_ScrollSegments.size()-1; i++ )
if( m_ScrollSegments[i+1].m_iStartRow > iRow )
break;
return m_ScrollSegments[i];
}
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int TimingData::GetTimeSignatureNumeratorAtRow( int iRow )
{
return GetTimeSignatureSegmentAtRow( iRow ).m_iNumerator;
}
int TimingData::GetTimeSignatureDenominatorAtRow( int iRow )
{
return GetTimeSignatureSegmentAtRow( iRow ).m_iDenominator;
}
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ComboSegment& TimingData::GetComboSegmentAtRow( int iRow )
{
unsigned i;
for( i=0; i<m_ComboSegments.size()-1; i++ )
if( m_ComboSegments[i+1].m_iStartRow > iRow )
break;
return m_ComboSegments[i];
}
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LabelSegment& TimingData::GetLabelSegmentAtRow( int iRow )
{
unsigned i;
for( i=0; i<m_LabelSegments.size()-1; i++ )
if( m_LabelSegments[i+1].m_iStartRow > iRow )
break;
return m_LabelSegments[i];
}
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StopSegment& TimingData::GetStopSegmentAtRow( int iNoteRow, bool bDelay )
{
static StopSegment empty;
if( m_StopSegments.empty() )
return empty;
int i = GetStopSegmentIndexAtRow( iNoteRow, bDelay );
return m_StopSegments[i];
}
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WarpSegment& TimingData::GetWarpSegmentAtRow( int iRow )
{
static WarpSegment empty;
if( m_WarpSegments.empty() )
return empty;
int i = GetWarpSegmentIndexAtRow( iRow );
return m_WarpSegments[i];
}
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FakeSegment& TimingData::GetFakeSegmentAtRow( int iRow )
{
static FakeSegment empty;
if( m_FakeSegments.empty() )
return empty;
int i = GetFakeSegmentIndexAtRow( iRow );
return m_FakeSegments[i];
}
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int TimingData::GetTickcountSegmentIndexAtRow( int iRow ) const
{
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unsigned i;
for (i=0; i < m_TickcountSegments.size() - 1; i++ )
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if( m_TickcountSegments[i+1].m_iStartRow > iRow )
break;
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return static_cast<int>(i);
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}
TickcountSegment& TimingData::GetTickcountSegmentAtRow( int iRow )
{
static TickcountSegment empty;
if( m_TickcountSegments.empty() )
return empty;
int i = GetTickcountSegmentIndexAtBeat( iRow );
return m_TickcountSegments[i];
}
int TimingData::GetTickcountAtRow( int iRow ) const
{
return m_TickcountSegments[GetTickcountSegmentIndexAtRow( iRow )].m_iTicks;
}
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float TimingData::GetPreviousLabelSegmentBeatAtRow( int iRow ) const
{
float backup = -1;
for (unsigned i = 0; i < m_LabelSegments.size(); i++ )
{
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if( m_LabelSegments[i].m_iStartRow >= iRow )
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{
break;
}
backup = NoteRowToBeat(m_LabelSegments[i].m_iStartRow);
}
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return (backup > -1) ? backup : NoteRowToBeat(iRow);
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}
float TimingData::GetNextLabelSegmentBeatAtRow( int iRow ) const
{
for (unsigned i = 0; i < m_LabelSegments.size(); i++ )
{
if( m_LabelSegments[i].m_iStartRow <= iRow )
{
continue;
}
return NoteRowToBeat(m_LabelSegments[i].m_iStartRow);
}
return NoteRowToBeat(iRow);
}
bool TimingData::DoesLabelExist( RString sLabel ) const
{
FOREACH_CONST( LabelSegment, m_LabelSegments, seg )
{
if( seg->m_sLabel == sLabel )
return true;
}
return false;
}
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void TimingData::GetBeatAndBPSFromElapsedTime( float fElapsedTime, float &fBeatOut, float &fBPSOut, bool &bFreezeOut, bool &bDelayOut, int &iWarpBeginOut, float &fWarpLengthOut ) const
{
fElapsedTime += PREFSMAN->m_fGlobalOffsetSeconds;
GetBeatAndBPSFromElapsedTimeNoOffset( fElapsedTime, fBeatOut, fBPSOut, bFreezeOut, bDelayOut, iWarpBeginOut, fWarpLengthOut );
}
enum
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{
FOUND_WARP,
FOUND_WARP_DESTINATION,
FOUND_BPM_CHANGE,
FOUND_STOP,
FOUND_MARKER,
NOT_FOUND
};
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void TimingData::GetBeatAndBPSFromElapsedTimeNoOffset( float fElapsedTime, float &fBeatOut, float &fBPSOut, bool &bFreezeOut, bool &bDelayOut, int &iWarpBeginOut, float &fWarpDestinationOut ) const
{
vector<BPMSegment>::const_iterator itBPMS = m_BPMSegments.begin();
vector<WarpSegment>::const_iterator itWS = m_WarpSegments.begin();
vector<StopSegment>::const_iterator itSS = m_StopSegments.begin();
bFreezeOut = false;
bDelayOut = false;
iWarpBeginOut = -1;
int iLastRow = 0;
float fLastTime = -m_fBeat0OffsetInSeconds;
float fBPS = GetBPMAtRow(0) / 60.0;
float bIsWarping = false;
float fWarpDestination = 0.0;
for( ;; )
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{
int iEventRow = INT_MAX;
int iEventType = NOT_FOUND;
if( bIsWarping && BeatToNoteRow(fWarpDestination) < iEventRow )
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{
iEventRow = BeatToNoteRow(fWarpDestination);
iEventType = FOUND_WARP_DESTINATION;
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}
if( itBPMS != m_BPMSegments.end() && itBPMS->m_iStartRow < iEventRow )
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{
iEventRow = itBPMS->m_iStartRow;
iEventType = FOUND_BPM_CHANGE;
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}
if( itSS != m_StopSegments.end() && itSS->m_iStartRow < iEventRow )
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{
iEventRow = itSS->m_iStartRow;
iEventType = FOUND_STOP;
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}
if( itWS != m_WarpSegments.end() && itWS->m_iStartRow < iEventRow )
{
iEventRow = itWS->m_iStartRow;
iEventType = FOUND_WARP;
}
if( iEventType == NOT_FOUND )
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{
break;
}
float fTimeToNextEvent = bIsWarping ? 0 : NoteRowToBeat( iEventRow - iLastRow ) / fBPS;
float fNextEventTime = fLastTime + fTimeToNextEvent;
if ( fElapsedTime < fNextEventTime )
{
break;
}
fLastTime = fNextEventTime;
switch( iEventType )
{
case FOUND_WARP_DESTINATION:
bIsWarping = false;
break;
case FOUND_BPM_CHANGE:
fBPS = itBPMS->m_fBPS;
itBPMS ++;
break;
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case FOUND_STOP:
{
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fTimeToNextEvent = itSS->m_fStopSeconds;
fNextEventTime = fLastTime + fTimeToNextEvent;
const bool bIsDelay = itSS->m_bDelay;
if ( fElapsedTime < fNextEventTime )
{
bFreezeOut = !bIsDelay;
bDelayOut = bIsDelay;
fBeatOut = NoteRowToBeat( itSS->m_iStartRow );
fBPSOut = fBPS;
return;
}
fLastTime = fNextEventTime;
itSS ++;
}
break;
case FOUND_WARP:
{
bIsWarping = true;
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float fWarpSum = itWS->m_fLengthBeats + NoteRowToBeat( itWS->m_iStartRow );
if( fWarpSum > fWarpDestination )
{
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fWarpDestination = fWarpSum;
}
iWarpBeginOut = iEventRow;
fWarpDestinationOut = fWarpDestination;
itWS ++;
break;
}
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}
iLastRow = iEventRow;
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}
fBeatOut = NoteRowToBeat( iLastRow ) + (fElapsedTime - fLastTime) * fBPS;
fBPSOut = fBPS;
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}
float TimingData::GetElapsedTimeFromBeat( float fBeat ) const
{
return TimingData::GetElapsedTimeFromBeatNoOffset( fBeat ) - PREFSMAN->m_fGlobalOffsetSeconds;
}
float TimingData::GetElapsedTimeFromBeatNoOffset( float fBeat ) const
{
vector<BPMSegment>::const_iterator itBPMS = m_BPMSegments.begin();
vector<WarpSegment>::const_iterator itWS = m_WarpSegments.begin();
vector<StopSegment>::const_iterator itSS = m_StopSegments.begin();
int iLastRow = 0;
float fLastTime = -m_fBeat0OffsetInSeconds;
float fBPS = GetBPMAtRow(0) / 60.0;
float bIsWarping = false;
float fWarpDestination = 0.0;
for( ;; )
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{
int iEventRow = INT_MAX;
int iEventType = NOT_FOUND;
if( bIsWarping && BeatToNoteRow(fWarpDestination) < iEventRow )
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{
iEventRow = BeatToNoteRow(fWarpDestination);
iEventType = FOUND_WARP_DESTINATION;
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}
if( itBPMS != m_BPMSegments.end() && itBPMS->m_iStartRow < iEventRow )
{
iEventRow = itBPMS->m_iStartRow;
iEventType = FOUND_BPM_CHANGE;
}
if( itSS != m_StopSegments.end() && itSS->m_bDelay && itSS->m_iStartRow < iEventRow ) // delays (come before marker)
{
iEventRow = itSS->m_iStartRow;
iEventType = FOUND_STOP;
}
if( BeatToNoteRow(fBeat) < iEventRow )
{
iEventRow = BeatToNoteRow(fBeat);
iEventType = FOUND_MARKER;
}
if( itSS != m_StopSegments.end() && !itSS->m_bDelay && itSS->m_iStartRow < iEventRow ) // stops (come after marker)
{
iEventRow = itSS->m_iStartRow;
iEventType = FOUND_STOP;
}
if( itWS != m_WarpSegments.end() && itWS->m_iStartRow < iEventRow )
{
iEventRow = itWS->m_iStartRow;
iEventType = FOUND_WARP;
}
float fTimeToNextEvent = bIsWarping ? 0 : NoteRowToBeat( iEventRow - iLastRow ) / fBPS;
float fNextEventTime = fLastTime + fTimeToNextEvent;
fLastTime = fNextEventTime;
switch( iEventType )
{
case FOUND_WARP_DESTINATION:
bIsWarping = false;
break;
case FOUND_BPM_CHANGE:
fBPS = itBPMS->m_fBPS;
itBPMS ++;
break;
case FOUND_STOP:
fTimeToNextEvent = itSS->m_fStopSeconds;
fNextEventTime = fLastTime + fTimeToNextEvent;
fLastTime = fNextEventTime;
itSS ++;
break;
case FOUND_MARKER:
return fLastTime;
case FOUND_WARP:
{
bIsWarping = true;
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float fWarpSum = itWS->m_fLengthBeats + NoteRowToBeat( itWS->m_iStartRow );
if( fWarpSum > fWarpDestination )
{
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fWarpDestination = fWarpSum;
}
itWS ++;
break;
}
}
iLastRow = iEventRow;
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}
// won't reach here, unless BeatToNoteRow(fBeat == INT_MAX) (impossible)
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}
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float TimingData::GetDisplayedBeat( float fBeat ) const
{
unsigned index = GetScrollSegmentIndexAtBeat(fBeat);
float fOutBeat = ( fBeat - NoteRowToBeat(m_ScrollSegments[index].m_iStartRow) ) * m_ScrollSegments[index].m_fPercent;
for( unsigned i = 0; i < index; i ++ )
{
fOutBeat += ( NoteRowToBeat(m_ScrollSegments[i + 1].m_iStartRow) - NoteRowToBeat(m_ScrollSegments[i].m_iStartRow) ) * m_ScrollSegments[i].m_fPercent;
}
return fOutBeat;
}
void TimingData::ScaleRegion( float fScale, int iStartIndex, int iEndIndex, bool bAdjustBPM )
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{
ASSERT( fScale > 0 );
ASSERT( iStartIndex >= 0 );
ASSERT( iStartIndex < iEndIndex );
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for ( unsigned i = 0; i < m_BPMSegments.size(); i++ )
{
const int iSegStart = m_BPMSegments[i].m_iStartRow;
if( iSegStart < iStartIndex )
continue;
else if( iSegStart > iEndIndex )
m_BPMSegments[i].m_iStartRow += lrintf( (iEndIndex - iStartIndex) * (fScale - 1) );
else
m_BPMSegments[i].m_iStartRow = lrintf( (iSegStart - iStartIndex) * fScale ) + iStartIndex;
}
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for( unsigned i = 0; i < m_StopSegments.size(); i++ )
{
const int iSegStartRow = m_StopSegments[i].m_iStartRow;
if( iSegStartRow < iStartIndex )
continue;
else if( iSegStartRow > iEndIndex )
m_StopSegments[i].m_iStartRow += lrintf((iEndIndex - iStartIndex) * (fScale - 1));
else
m_StopSegments[i].m_iStartRow = lrintf((iSegStartRow - iStartIndex) * fScale) + iStartIndex;
}
for( unsigned i = 0; i < m_WarpSegments.size(); i++ )
{
const int iSegStartRow = m_WarpSegments[i].m_iStartRow;
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const int iSegEndRow = iSegStartRow + BeatToNoteRow( m_WarpSegments[i].m_fLengthBeats );
if( iSegEndRow >= iStartIndex )
{
if( iSegEndRow > iEndIndex )
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m_WarpSegments[i].m_fLengthBeats += NoteRowToBeat(lrintf((iEndIndex - iStartIndex) * (fScale - 1)));
else
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m_WarpSegments[i].m_fLengthBeats = NoteRowToBeat(lrintf((iSegEndRow - iStartIndex) * fScale));
}
if( iSegStartRow < iStartIndex )
continue;
else if( iSegStartRow > iEndIndex )
m_WarpSegments[i].m_iStartRow += lrintf((iEndIndex - iStartIndex) * (fScale - 1));
else
m_WarpSegments[i].m_iStartRow = lrintf((iSegStartRow - iStartIndex) * fScale) + iStartIndex;
}
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for ( unsigned i = 0; i < m_TickcountSegments.size(); i++ )
{
const int iSegStart = m_TickcountSegments[i].m_iStartRow;
if( iSegStart < iStartIndex )
continue;
else if( iSegStart > iEndIndex )
m_TickcountSegments[i].m_iStartRow += lrintf( (iEndIndex - iStartIndex) * (fScale - 1) );
else
m_TickcountSegments[i].m_iStartRow = lrintf( (iSegStart - iStartIndex) * fScale ) + iStartIndex;
}
for ( unsigned i = 0; i < m_ComboSegments.size(); i++ )
{
const int iSegStart = m_ComboSegments[i].m_iStartRow;
if( iSegStart < iStartIndex )
continue;
else if( iSegStart > iEndIndex )
m_ComboSegments[i].m_iStartRow += lrintf( (iEndIndex - iStartIndex) * (fScale - 1) );
else
m_ComboSegments[i].m_iStartRow = lrintf( (iSegStart - iStartIndex) * fScale ) + iStartIndex;
}
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for ( unsigned i = 0; i < m_LabelSegments.size(); i++ )
{
const int iSegStart = m_LabelSegments[i].m_iStartRow;
if( iSegStart < iStartIndex )
continue;
else if( iSegStart > iEndIndex )
m_LabelSegments[i].m_iStartRow += lrintf( (iEndIndex - iStartIndex) * (fScale - 1) );
else
m_LabelSegments[i].m_iStartRow = lrintf( (iSegStart - iStartIndex) * fScale ) + iStartIndex;
}
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for ( unsigned i = 0; i < m_SpeedSegments.size(); i++ )
{
const int iSegStart = m_SpeedSegments[i].m_iStartRow;
if( iSegStart < iStartIndex )
continue;
else if( iSegStart > iEndIndex )
m_SpeedSegments[i].m_iStartRow += lrintf( (iEndIndex - iStartIndex) * (fScale - 1) );
else
m_SpeedSegments[i].m_iStartRow = lrintf( (iSegStart - iStartIndex) * fScale ) + iStartIndex;
}
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for( unsigned i = 0; i < m_FakeSegments.size(); i++ )
{
const int iSegStartRow = m_FakeSegments[i].m_iStartRow;
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const int iSegEndRow = iSegStartRow + BeatToNoteRow( m_FakeSegments[i].m_fLengthBeats );
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if( iSegEndRow >= iStartIndex )
{
if( iSegEndRow > iEndIndex )
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m_FakeSegments[i].m_fLengthBeats += NoteRowToBeat(lrintf((iEndIndex - iStartIndex) * (fScale - 1)));
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else
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m_FakeSegments[i].m_fLengthBeats = NoteRowToBeat(lrintf((iSegEndRow - iStartIndex) * fScale));
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}
if( iSegStartRow < iStartIndex )
continue;
else if( iSegStartRow > iEndIndex )
m_FakeSegments[i].m_iStartRow += lrintf((iEndIndex - iStartIndex) * (fScale - 1));
else
m_FakeSegments[i].m_iStartRow = lrintf((iSegStartRow - iStartIndex) * fScale) + iStartIndex;
}
// adjust BPM changes to preserve timing
if( bAdjustBPM )
{
int iNewEndIndex = lrintf( (iEndIndex - iStartIndex) * fScale ) + iStartIndex;
float fEndBPMBeforeScaling = GetBPMAtRow(iNewEndIndex);
// adjust BPM changes "between" iStartIndex and iNewEndIndex
for ( unsigned i = 0; i < m_BPMSegments.size(); i++ )
{
const int iSegStart = m_BPMSegments[i].m_iStartRow;
if( iSegStart <= iStartIndex )
continue;
else if( iSegStart >= iNewEndIndex )
continue;
else
m_BPMSegments[i].m_fBPS *= fScale;
}
// set BPM at iStartIndex and iNewEndIndex.
SetBPMAtRow( iStartIndex, GetBPMAtRow(iStartIndex) * fScale );
SetBPMAtRow( iNewEndIndex, fEndBPMBeforeScaling );
}
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}
void TimingData::InsertRows( int iStartRow, int iRowsToAdd )
{
for( unsigned i = 0; i < m_BPMSegments.size(); i++ )
{
BPMSegment &bpm = m_BPMSegments[i];
if( bpm.m_iStartRow < iStartRow )
continue;
bpm.m_iStartRow += iRowsToAdd;
}
for( unsigned i = 0; i < m_StopSegments.size(); i++ )
{
StopSegment &stop = m_StopSegments[i];
if( stop.m_iStartRow < iStartRow )
continue;
stop.m_iStartRow += iRowsToAdd;
}
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for( unsigned i = 0; i < m_WarpSegments.size(); i++ )
{
WarpSegment &warp = m_WarpSegments[i];
if( warp.m_iStartRow < iStartRow )
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continue;
warp.m_iStartRow += iRowsToAdd;
}
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for( unsigned i = 0; i < m_vTimeSignatureSegments.size(); i++ )
{
TimeSignatureSegment &time = m_vTimeSignatureSegments[i];
if( time.m_iStartRow < iStartRow )
continue;
time.m_iStartRow += iRowsToAdd;
}
for( unsigned i = 0; i < m_TickcountSegments.size(); i++ )
{
TickcountSegment &tick = m_TickcountSegments[i];
if( tick.m_iStartRow < iStartRow )
continue;
tick.m_iStartRow += iRowsToAdd;
}
for( unsigned i = 0; i < m_ComboSegments.size(); i++ )
{
ComboSegment &comb = m_ComboSegments[i];
if( comb.m_iStartRow < iStartRow )
continue;
comb.m_iStartRow += iRowsToAdd;
}
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for( unsigned i = 0; i < m_LabelSegments.size(); i++ )
{
LabelSegment &labl = m_LabelSegments[i];
if( labl.m_iStartRow < iStartRow )
continue;
labl.m_iStartRow += iRowsToAdd;
}
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for( unsigned i = 0; i < m_SpeedSegments.size(); i++ )
{
SpeedSegment &sped = m_SpeedSegments[i];
if( sped.m_iStartRow < iStartRow )
continue;
sped.m_iStartRow += iRowsToAdd;
}
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for( unsigned i = 0; i < m_FakeSegments.size(); i++ )
{
FakeSegment &fake = m_FakeSegments[i];
if( fake.m_iStartRow < iStartRow )
continue;
fake.m_iStartRow += iRowsToAdd;
}
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if( iStartRow == 0 )
{
/* If we're shifting up at the beginning, we just shifted up the first
* BPMSegment. That segment must always begin at 0. */
ASSERT( m_BPMSegments.size() > 0 );
m_BPMSegments[0].m_iStartRow = 0;
}
}
// Delete BPMChanges and StopSegments in [iStartRow,iRowsToDelete), and shift down.
void TimingData::DeleteRows( int iStartRow, int iRowsToDelete )
{
/* Remember the BPM at the end of the region being deleted. */
float fNewBPM = this->GetBPMAtBeat( NoteRowToBeat(iStartRow+iRowsToDelete) );
/* We're moving rows up. Delete any BPM changes and stops in the region
* being deleted. */
for( unsigned i = 0; i < m_BPMSegments.size(); i++ )
{
BPMSegment &bpm = m_BPMSegments[i];
// Before deleted region:
if( bpm.m_iStartRow < iStartRow )
continue;
// Inside deleted region:
if( bpm.m_iStartRow < iStartRow+iRowsToDelete )
{
m_BPMSegments.erase( m_BPMSegments.begin()+i, m_BPMSegments.begin()+i+1 );
--i;
continue;
}
// After deleted region:
bpm.m_iStartRow -= iRowsToDelete;
}
for( unsigned i = 0; i < m_StopSegments.size(); i++ )
{
StopSegment &stop = m_StopSegments[i];
// Before deleted region:
if( stop.m_iStartRow < iStartRow )
continue;
// Inside deleted region:
if( stop.m_iStartRow < iStartRow+iRowsToDelete )
{
m_StopSegments.erase( m_StopSegments.begin()+i, m_StopSegments.begin()+i+1 );
--i;
continue;
}
// After deleted region:
stop.m_iStartRow -= iRowsToDelete;
}
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for( unsigned i = 0; i < m_WarpSegments.size(); i++ )
{
WarpSegment &warp = m_WarpSegments[i];
if( warp.m_iStartRow < iStartRow )
continue;
if( warp.m_iStartRow < iStartRow+iRowsToDelete )
{
m_WarpSegments.erase( m_WarpSegments.begin()+i, m_WarpSegments.begin()+i+1 );
--i;
continue;
}
warp.m_iStartRow -= iRowsToDelete;
}
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for( unsigned i = 0; i < m_vTimeSignatureSegments.size(); i++ )
{
TimeSignatureSegment &time = m_vTimeSignatureSegments[i];
// Before deleted region:
if( time.m_iStartRow < iStartRow )
continue;
// Inside deleted region:
if( time.m_iStartRow < iStartRow+iRowsToDelete )
{
m_vTimeSignatureSegments.erase(
m_vTimeSignatureSegments.begin()+i,
m_vTimeSignatureSegments.begin()+i+1 );
--i;
continue;
}
// After deleted region:
time.m_iStartRow -= iRowsToDelete;
}
for( unsigned i = 0; i < m_TickcountSegments.size(); i++ )
{
TickcountSegment &tick = m_TickcountSegments[i];
// Before deleted region:
if( tick.m_iStartRow < iStartRow )
continue;
// Inside deleted region:
if( tick.m_iStartRow < iStartRow+iRowsToDelete )
{
m_TickcountSegments.erase( m_TickcountSegments.begin()+i, m_TickcountSegments.begin()+i+1 );
--i;
continue;
}
// After deleted region:
tick.m_iStartRow -= iRowsToDelete;
}
for( unsigned i = 0; i < m_ComboSegments.size(); i++ )
{
ComboSegment &comb = m_ComboSegments[i];
// Before deleted region:
if( comb.m_iStartRow < iStartRow )
continue;
// Inside deleted region:
if( comb.m_iStartRow < iStartRow+iRowsToDelete )
{
m_ComboSegments.erase( m_ComboSegments.begin()+i, m_ComboSegments.begin()+i+1 );
--i;
continue;
}
// After deleted region:
comb.m_iStartRow -= iRowsToDelete;
}
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for( unsigned i = 0; i < m_LabelSegments.size(); i++ )
{
LabelSegment &labl = m_LabelSegments[i];
if( labl.m_iStartRow < iStartRow )
continue;
if( labl.m_iStartRow < iStartRow+iRowsToDelete )
{
m_LabelSegments.erase( m_LabelSegments.begin()+i, m_LabelSegments.begin()+i+1 );
--i;
continue;
}
labl.m_iStartRow -= iRowsToDelete;
}
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for( unsigned i = 0; i < m_SpeedSegments.size(); i++ )
{
SpeedSegment &sped = m_SpeedSegments[i];
if( sped.m_iStartRow < iStartRow )
continue;
if( sped.m_iStartRow < iStartRow+iRowsToDelete )
{
m_SpeedSegments.erase( m_SpeedSegments.begin()+i, m_SpeedSegments.begin()+i+1 );
--i;
continue;
}
sped.m_iStartRow -= iRowsToDelete;
}
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for( unsigned i = 0; i < m_FakeSegments.size(); i++ )
{
FakeSegment &fake = m_FakeSegments[i];
if( fake.m_iStartRow < iStartRow )
continue;
if( fake.m_iStartRow < iStartRow+iRowsToDelete )
{
m_FakeSegments.erase( m_FakeSegments.begin()+i, m_FakeSegments.begin()+i+1 );
--i;
continue;
}
fake.m_iStartRow -= iRowsToDelete;
}
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this->SetBPMAtRow( iStartRow, fNewBPM );
}
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float TimingData::GetDisplayedSpeedPercent( float fSongBeat, float fMusicSeconds ) const
{
if( m_SpeedSegments.size() == 0 )
return 1.0;
const int index = GetSpeedSegmentIndexAtBeat( fSongBeat );
const SpeedSegment &seg = m_SpeedSegments[index];
float fStartBeat = NoteRowToBeat(seg.m_iStartRow);
float fStartTime = GetElapsedTimeFromBeat( fStartBeat ) - GetDelayAtBeat( fStartBeat );
float fEndTime;
float fCurTime = fMusicSeconds;
if( seg.m_usMode == 1 ) // seconds
{
fEndTime = fStartTime + seg.m_fWait;
}
else
{
fEndTime = GetElapsedTimeFromBeat( fStartBeat + seg.m_fWait ) - GetDelayAtBeat( fStartBeat + seg.m_fWait );
}
if( ( index == 0 && m_SpeedSegments[0].m_fWait > 0.0 ) && fCurTime < fStartTime )
{
return 1.0;
}
else if( fEndTime >= fCurTime && ( index > 0 || m_SpeedSegments[0].m_fWait > 0.0 ) )
{
const float fPriorSpeed = ( index == 0 ? 1 : m_SpeedSegments[index - 1].m_fPercent );
float fTimeUsed = fCurTime - fStartTime;
float fDuration = fEndTime - fStartTime;
float fRatioUsed = fDuration == 0.0 ? 1 : fTimeUsed / fDuration;
float fDistance = fPriorSpeed - seg.m_fPercent;
float fRatioNeed = fRatioUsed * -fDistance;
return (fPriorSpeed + fRatioNeed);
}
else
{
return seg.m_fPercent;
}
}
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void TimingData::TidyUpData()
{
// If there are no BPM segments, provide a default.
if( m_BPMSegments.empty() )
{
LOG->UserLog( "Song file", m_sFile, "has no BPM segments, default provided." );
AddBPMSegment( BPMSegment(0, 60) );
}
// Make sure the first BPM segment starts at beat 0.
if( m_BPMSegments[0].m_iStartRow != 0 )
m_BPMSegments[0].m_iStartRow = 0;
// If no time signature specified, assume 4/4 time for the whole song.
if( m_vTimeSignatureSegments.empty() )
{
TimeSignatureSegment seg(0, 4, 4);
m_vTimeSignatureSegments.push_back( seg );
}
// Likewise, if no tickcount signature is specified, assume 2 ticks
//per beat for the entire song. The default of 2 is chosen more
//for compatibility with the Pump Pro series than anything else.
if( m_TickcountSegments.empty() )
{
TickcountSegment seg(0, 2);
m_TickcountSegments.push_back( seg );
}
// Have a default combo segment of one just in case.
if( m_ComboSegments.empty() )
{
ComboSegment seg(0, 1);
m_ComboSegments.push_back( seg );
}
// Have a default label segment just in case.
if( m_LabelSegments.empty() )
{
LabelSegment seg(0, "Song Start");
m_LabelSegments.push_back( seg );
}
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// Always be sure there is a starting speed.
if( m_SpeedSegments.empty() )
{
SpeedSegment seg(0, 1, 0);
m_SpeedSegments.push_back( seg );
}
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// Always be sure there is a starting scrolling factor.
if( m_ScrollSegments.empty() )
{
ScrollSegment seg(0, 1);
m_ScrollSegments.push_back( seg );
}
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}
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bool TimingData::HasBpmChanges() const
{
return m_BPMSegments.size()>1;
}
bool TimingData::HasStops() const
{
return m_StopSegments.size()>0;
}
bool TimingData::HasWarps() const
{
return m_WarpSegments.size()>0;
}
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bool TimingData::HasFakes() const
{
return m_FakeSegments.size()>0;
}
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bool TimingData::HasSpeedChanges() const
{
return m_SpeedSegments.size()>1;
}
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bool TimingData::HasScrollChanges() const
{
return m_ScrollSegments.size()>1;
}
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void TimingData::NoteRowToMeasureAndBeat( int iNoteRow, int &iMeasureIndexOut, int &iBeatIndexOut, int &iRowsRemainder ) const
{
iMeasureIndexOut = 0;
FOREACH_CONST( TimeSignatureSegment, m_vTimeSignatureSegments, iter )
{
vector<TimeSignatureSegment>::const_iterator next = iter;
next++;
int iSegmentEndRow = (next == m_vTimeSignatureSegments.end()) ? INT_MAX : next->m_iStartRow;
int iRowsPerMeasureThisSegment = iter->GetNoteRowsPerMeasure();
if( iNoteRow >= iter->m_iStartRow )
{
// iNoteRow lands in this segment
int iNumRowsThisSegment = iNoteRow - iter->m_iStartRow;
int iNumMeasuresThisSegment = (iNumRowsThisSegment) / iRowsPerMeasureThisSegment; // don't round up
iMeasureIndexOut += iNumMeasuresThisSegment;
iBeatIndexOut = iNumRowsThisSegment / iRowsPerMeasureThisSegment;
iRowsRemainder = iNumRowsThisSegment % iRowsPerMeasureThisSegment;
return;
}
else
{
// iNoteRow lands after this segment
int iNumRowsThisSegment = iSegmentEndRow - iter->m_iStartRow;
int iNumMeasuresThisSegment = (iNumRowsThisSegment + iRowsPerMeasureThisSegment - 1) / iRowsPerMeasureThisSegment; // round up
iMeasureIndexOut += iNumMeasuresThisSegment;
}
}
ASSERT(0);
return;
}
// lua start
#include "LuaBinding.h"
/** @brief Allow Lua to have access to the TimingData. */
class LunaTimingData: public Luna<TimingData>
{
public:
static int HasStops( T* p, lua_State *L ) { lua_pushboolean(L, p->HasStops()); return 1; }
static int HasBPMChanges( T* p, lua_State *L ) { lua_pushboolean(L, p->HasBpmChanges()); return 1; }
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static int HasWarps( T* p, lua_State *L ) { lua_pushboolean(L, p->HasWarps()); return 1; }
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static int HasFakes( T* p, lua_State *L ) { lua_pushboolean(L, p->HasFakes()); return 1; }
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static int HasSpeedChanges( T* p, lua_State *L ) { lua_pushboolean(L, p->HasSpeedChanges()); return 1; }
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static int GetStops( T* p, lua_State *L )
{
vector<RString> vStops;
FOREACH_CONST( StopSegment, p->m_StopSegments, seg )
{
const float fStartRow = NoteRowToBeat(seg->m_iStartRow);
const float fStopLength = seg->m_fStopSeconds;
if(!seg->m_bDelay)
vStops.push_back( ssprintf("%f=%f", fStartRow, fStopLength) );
}
LuaHelpers::CreateTableFromArray(vStops, L);
return 1;
}
static int GetDelays( T* p, lua_State *L )
{
vector<RString> vDelays;
FOREACH_CONST( StopSegment, p->m_StopSegments, seg )
{
const float fStartRow = NoteRowToBeat(seg->m_iStartRow);
const float fStopLength = seg->m_fStopSeconds;
if(seg->m_bDelay)
vDelays.push_back( ssprintf("%f=%f", fStartRow, fStopLength) );
}
LuaHelpers::CreateTableFromArray(vDelays, L);
return 1;
}
static int GetBPMs( T* p, lua_State *L )
{
vector<float> vBPMs;
FOREACH_CONST( BPMSegment, p->m_BPMSegments, seg )
{
const float fBPM = seg->GetBPM();
vBPMs.push_back( fBPM );
}
LuaHelpers::CreateTableFromArray(vBPMs, L);
return 1;
}
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static int GetLabels( T* p, lua_State *L )
{
vector<RString> vLabels;
FOREACH_CONST( LabelSegment, p->m_LabelSegments, seg )
{
const float fStartRow = NoteRowToBeat(seg->m_iStartRow);
const RString sLabel = seg->m_sLabel;
vLabels.push_back( ssprintf("%f=%s", fStartRow, sLabel.c_str()) );
}
LuaHelpers::CreateTableFromArray(vLabels, L);
return 1;
}
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static int GetBPMsAndTimes( T* p, lua_State *L )
{
vector<RString> vBPMs;
FOREACH_CONST( BPMSegment, p->m_BPMSegments, seg )
{
const float fStartRow = NoteRowToBeat(seg->m_iStartRow);
const float fBPM = seg->GetBPM();
vBPMs.push_back( ssprintf("%f=%f", fStartRow, fBPM) );
}
LuaHelpers::CreateTableFromArray(vBPMs, L);
return 1;
}
static int GetActualBPM( T* p, lua_State *L )
{
// certainly there's a better way to do it than this? -aj
float fMinBPM, fMaxBPM;
p->GetActualBPM( fMinBPM, fMaxBPM );
vector<float> fBPMs;
fBPMs.push_back( fMinBPM );
fBPMs.push_back( fMaxBPM );
LuaHelpers::CreateTableFromArray(fBPMs, L);
return 1;
}
static int HasNegativeBPMs( T* p, lua_State *L ) { lua_pushboolean(L, p->m_bHasNegativeBpms); return 1; }
// formerly in Song.cpp in sm-ssc private beta 1.x:
static int GetBPMAtBeat( T* p, lua_State *L ) { lua_pushnumber(L, p->GetBPMAtBeat(FArg(1))); return 1; }
static int GetBeatFromElapsedTime( T* p, lua_State *L ) { lua_pushnumber(L, p->GetBeatFromElapsedTime(FArg(1))); return 1; }
static int GetElapsedTimeFromBeat( T* p, lua_State *L ) { lua_pushnumber(L, p->GetElapsedTimeFromBeat(FArg(1))); return 1; }
LunaTimingData()
{
ADD_METHOD( HasStops );
ADD_METHOD( HasBPMChanges );
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ADD_METHOD( HasWarps );
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ADD_METHOD( HasFakes );
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ADD_METHOD( HasSpeedChanges );
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ADD_METHOD( GetStops );
ADD_METHOD( GetDelays );
ADD_METHOD( GetBPMs );
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ADD_METHOD( GetLabels );
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ADD_METHOD( GetBPMsAndTimes );
ADD_METHOD( GetActualBPM );
ADD_METHOD( HasNegativeBPMs );
// formerly in Song.cpp in sm-ssc private beta 1.x:
ADD_METHOD( GetBPMAtBeat );
ADD_METHOD( GetBeatFromElapsedTime );
ADD_METHOD( GetElapsedTimeFromBeat );
}
};
LUA_REGISTER_CLASS( TimingData )
// lua end
/*
* (c) 2001-2004 Chris Danford, Glenn Maynard
* All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, and/or sell copies of the Software, and to permit persons to
* whom the Software is furnished to do so, provided that the above
* copyright notice(s) and this permission notice appear in all copies of
* the Software and that both the above copyright notice(s) and this
* permission notice appear in supporting documentation.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OF
* THIRD PARTY RIGHTS. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR HOLDERS
* INCLUDED IN THIS NOTICE BE LIABLE FOR ANY CLAIM, OR ANY SPECIAL INDIRECT
* OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
* OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/