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itgmania212121/stepmania/src/NoteDataWithScoring.cpp
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#include "stdafx.h"
/*
-----------------------------------------------------------------------------
Class: NoteDataWithScoring
Desc: See header.
Copyright (c) 2001-2002 by the person(s) listed below. All rights reserved.
Chris Danford
-----------------------------------------------------------------------------
*/
#include "NoteDataWithScoring.h"
NoteDataWithScoring::NoteDataWithScoring()
{
Init();
}
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void NoteDataWithScoring::Init()
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{
NoteData::Init();
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for( int t=0; t<MAX_NOTE_TRACKS; t++ )
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m_TapNoteScores[t].clear();
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m_HoldNoteScores.clear();
m_fHoldNoteLife.clear();
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}
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int NoteDataWithScoring::GetNumTapNotesWithScore( TapNoteScore tns, const float fStartBeat, const float fEndBeat )
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{
int iNumSuccessfulTapNotes = 0;
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unsigned iStartIndex = BeatToNoteRow( fStartBeat );
unsigned iEndIndex = BeatToNoteRow( fEndBeat );
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for( unsigned i=iStartIndex; i<min(iEndIndex, m_TapNoteScores[0].size()); i++ )
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{
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for( int t=0; t<GetNumTracks(); t++ )
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{
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if( this->GetTapNote(t, i) != TAP_EMPTY && GetTapNoteScore(t, i) == tns )
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iNumSuccessfulTapNotes++;
}
}
return iNumSuccessfulTapNotes;
}
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int NoteDataWithScoring::GetNumDoublesWithScore( TapNoteScore tns, const float fStartBeat, const float fEndBeat )
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{
int iNumSuccessfulDoubles = 0;
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unsigned iStartIndex = BeatToNoteRow( fStartBeat );
unsigned iEndIndex = BeatToNoteRow( fEndBeat );
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for( unsigned i=iStartIndex; i<min(iEndIndex, m_TapNoteScores[0].size()); i++ )
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{
int iNumNotesThisIndex = 0;
TapNoteScore minTapNoteScore = TNS_MARVELOUS;
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for( int t=0; t<GetNumTracks(); t++ )
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{
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if( GetTapNote(t, i) != TAP_EMPTY )
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{
iNumNotesThisIndex++;
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minTapNoteScore = min( minTapNoteScore, GetTapNoteScore(t, i) );
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}
}
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if( iNumNotesThisIndex >= 2 && minTapNoteScore == tns )
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iNumSuccessfulDoubles++;
}
return iNumSuccessfulDoubles;
}
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int NoteDataWithScoring::GetNumHoldNotesWithScore( HoldNoteScore hns, const float fStartBeat, const float fEndBeat )
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{
int iNumSuccessfulHolds = 0;
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for( int i=0; i<GetNumHoldNotes(); i++ )
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{
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const HoldNote &hn = GetHoldNote(i);
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if( fStartBeat <= hn.m_fStartBeat && hn.m_fEndBeat <= fEndBeat && m_HoldNoteScores[i] == hns )
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iNumSuccessfulHolds++;
}
return iNumSuccessfulHolds;
}
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bool NoteDataWithScoring::IsRowComplete( int index )
{
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for( int t=0; t<GetNumTracks(); t++ )
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if( GetTapNote(t, index) != TAP_EMPTY && GetTapNoteScore(t, index) < TNS_GREAT )
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return false;
return true;
}
float NoteDataWithScoring::GetActualRadarValue( RadarCategory rv, float fSongSeconds )
{
switch( rv )
{
case RADAR_STREAM: return GetActualStreamRadarValue( fSongSeconds ); break;
case RADAR_VOLTAGE: return GetActualVoltageRadarValue( fSongSeconds ); break;
case RADAR_AIR: return GetActualAirRadarValue( fSongSeconds ); break;
case RADAR_FREEZE: return GetActualFreezeRadarValue( fSongSeconds ); break;
case RADAR_CHAOS: return GetActualChaosRadarValue( fSongSeconds ); break;
default: ASSERT(0); return 0;
}
}
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float NoteDataWithScoring::GetActualStreamRadarValue( float fSongSeconds )
{
// density of steps
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int iNumSuccessfulNotes =
GetNumTapNotesWithScore(TNS_MARVELOUS) +
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GetNumTapNotesWithScore(TNS_PERFECT) +
GetNumTapNotesWithScore(TNS_GREAT)/2 +
GetNumHoldNotesWithScore(HNS_OK);
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float fNotesPerSecond = iNumSuccessfulNotes/fSongSeconds;
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float fReturn = fNotesPerSecond / 7;
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return min( fReturn, 1.0f );
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}
float NoteDataWithScoring::GetActualVoltageRadarValue( float fSongSeconds )
{
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float fAvgBPS = GetLastBeat() / fSongSeconds;
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// peak density of steps
float fMaxDensitySoFar = 0;
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const int BEAT_WINDOW = 8;
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for( int i=0; i<MAX_BEATS; i+=BEAT_WINDOW )
{
int iNumNotesThisWindow = 0;
iNumNotesThisWindow += GetNumTapNotesWithScore(TNS_MARVELOUS,(float)i,(float)i+BEAT_WINDOW);
iNumNotesThisWindow += GetNumTapNotesWithScore(TNS_PERFECT,(float)i,(float)i+BEAT_WINDOW);
iNumNotesThisWindow += GetNumHoldNotesWithScore(HNS_OK,(float)i,(float)i+BEAT_WINDOW);
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float fDensityThisWindow = iNumNotesThisWindow/(float)BEAT_WINDOW;
fMaxDensitySoFar = max( fMaxDensitySoFar, fDensityThisWindow );
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}
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float fReturn = fMaxDensitySoFar*fAvgBPS/10;
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return min( fReturn, 1.0f );
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}
float NoteDataWithScoring::GetActualAirRadarValue( float fSongSeconds )
{
// number of doubles
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int iNumDoubles =
GetNumDoublesWithScore(TNS_MARVELOUS) +
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GetNumDoublesWithScore(TNS_PERFECT) +
GetNumDoublesWithScore(TNS_GREAT)/2;
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float fReturn = iNumDoubles / fSongSeconds;
return min( fReturn, 1.0f );
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}
float NoteDataWithScoring::GetActualChaosRadarValue( float fSongSeconds )
{
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// count number of triplets
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int iNumChaosNotesCompleted = 0;
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for( unsigned r=0; r<m_TapNoteScores[0].size(); r++ )
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{
if( !IsRowEmpty(r) && IsRowComplete(r) && GetNoteType(r) >= NOTE_TYPE_12TH )
iNumChaosNotesCompleted++;
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}
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float fReturn = iNumChaosNotesCompleted / fSongSeconds * 0.5f;
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return min( fReturn, 1.0f );
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}
float NoteDataWithScoring::GetActualFreezeRadarValue( float fSongSeconds )
{
// number of hold steps
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float fReturn = GetNumHoldNotesWithScore(HNS_OK) / fSongSeconds;
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return min( fReturn, 1.0f );
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}
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template<class T>
void extend(vector<T> &v, T val, unsigned pos)
{
int needed = pos - v.size() + 1;
if(needed > 0)
{
needed += 100; /* optimization: give it a little more than it needs */
v.insert(v.end(), needed, val);
}
}
TapNoteScore NoteDataWithScoring::GetTapNoteScore(unsigned track, unsigned row) const
{
if(row >= m_TapNoteScores[track].size())
return TNS_NONE;
return m_TapNoteScores[track][row];
}
void NoteDataWithScoring::SetTapNoteScore(unsigned track, unsigned row, TapNoteScore tns)
{
extend(m_TapNoteScores[track], TNS_NONE, row);
m_TapNoteScores[track][row] = tns;
}
HoldNoteScore NoteDataWithScoring::GetHoldNoteScore(unsigned h) const
{
if(h >= m_HoldNoteScores.size())
return HNS_NONE;
return m_HoldNoteScores[h];
}
void NoteDataWithScoring::SetHoldNoteScore(unsigned h, HoldNoteScore hns)
{
extend(m_HoldNoteScores, HNS_NONE, h);
m_HoldNoteScores[h] = hns;
}
void NoteDataWithScoring::SetHoldNoteLife(unsigned h, float f)
{
extend(m_fHoldNoteLife, 1.0f, h);
m_fHoldNoteLife[h] = f;
}
float NoteDataWithScoring::GetHoldNoteLife(unsigned h) const
{
// start with full life
if(h >= m_fHoldNoteLife.size())
return 1.0f;
return m_fHoldNoteLife[h];
}