2002-06-23 02:50:33 +00:00
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#include "stdafx.h"
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/*
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-----------------------------------------------------------------------------
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Class: NoteDataWithScoring
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Desc: See header.
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Copyright (c) 2001-2002 by the person(s) listed below. All rights reserved.
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Chris Danford
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-----------------------------------------------------------------------------
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*/
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#include "NoteDataWithScoring.h"
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NoteDataWithScoring::NoteDataWithScoring()
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{
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Init();
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}
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void NoteDataWithScoring::Init()
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{
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// init step elements
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for( int t=0; t<MAX_NOTE_TRACKS; t++ )
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for( int i=0; i<MAX_TAP_NOTE_ROWS; i++ )
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m_TapNoteScores[t][i] = TNS_NONE;
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for( int i=0; i<MAX_HOLD_NOTE_ELEMENTS; i++ )
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m_HoldNoteScores[i] = HNS_NONE;
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}
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int NoteDataWithScoring::GetNumSuccessfulTapNotes( const float fStartBeat, const float fEndBeat )
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{
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int iNumSuccessfulTapNotes = 0;
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int iStartIndex = BeatToNoteRow( fStartBeat );
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int iEndIndex = BeatToNoteRow( fEndBeat );
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for( int i=iStartIndex; i<min(iEndIndex, MAX_TAP_NOTE_ROWS); i++ )
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{
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for( int t=0; t<m_iNumTracks; t++ )
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{
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if( m_TapNotes[t][i] != '0' && m_TapNoteScores[t][i] >= TNS_GREAT )
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iNumSuccessfulTapNotes++;
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}
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}
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return iNumSuccessfulTapNotes;
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}
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int NoteDataWithScoring::GetNumSuccessfulDoubles( const float fStartBeat, const float fEndBeat )
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{
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int iNumSuccessfulDoubles = 0;
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int iStartIndex = BeatToNoteRow( fStartBeat );
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int iEndIndex = BeatToNoteRow( fEndBeat );
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for( int i=iStartIndex; i<min(iEndIndex, MAX_TAP_NOTE_ROWS); i++ )
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{
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int iNumNotesThisIndex = 0;
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TapNoteScore minTapNoteScore = TNS_PERFECT;
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for( int t=0; t<m_iNumTracks; t++ )
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{
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if( m_TapNotes[t][i] != '0' )
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{
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iNumNotesThisIndex++;
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minTapNoteScore = min( minTapNoteScore, m_TapNoteScores[t][i] );
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}
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}
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if( iNumNotesThisIndex >= 2 && minTapNoteScore >= TNS_GREAT )
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iNumSuccessfulDoubles++;
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}
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return iNumSuccessfulDoubles;
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}
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int NoteDataWithScoring::GetNumSuccessfulHoldNotes( const float fStartBeat, const float fEndBeat )
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{
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int iNumSuccessfulHolds = 0;
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int iStartIndex = BeatToNoteRow( fStartBeat );
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int iEndIndex = BeatToNoteRow( fEndBeat );
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for( int i=0; i<m_iNumHoldNotes; i++ )
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{
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HoldNote &hn = m_HoldNotes[i];
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if( iStartIndex <= hn.m_iStartIndex && hn.m_iEndIndex <= iEndIndex && m_HoldNoteScores[i] == HNS_OK )
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iNumSuccessfulHolds++;
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}
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return iNumSuccessfulHolds;
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}
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float NoteDataWithScoring::GetActualStreamRadarValue( float fSongSeconds )
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{
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// density of steps
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int iNumSuccessfulNotes = GetNumSuccessfulTapNotes() + GetNumSuccessfulHoldNotes();
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float fNotesPerSecond = iNumSuccessfulNotes/fSongSeconds;
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float fReturn = fNotesPerSecond / 5;
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return min( fReturn, 1.2f );
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}
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float NoteDataWithScoring::GetActualVoltageRadarValue( float fSongSeconds )
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{
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// peak density of steps
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float fMaxDensityPerSecSoFar = 0;
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for( int i=0; i<MAX_BEATS; i+=8 )
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{
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int iNumNotesThisMeasure = GetNumSuccessfulTapNotes((float)i,(float)i+8) + GetNumSuccessfulHoldNotes((float)i,(float)i+8);
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float fDensityThisMeasure = iNumNotesThisMeasure/2.0f;
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float fDensityPerSecThisMeasure = fDensityThisMeasure / fSongSeconds;
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if( fDensityPerSecThisMeasure > fMaxDensityPerSecSoFar )
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fMaxDensityPerSecSoFar = fDensityPerSecThisMeasure;
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}
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float fReturn = fMaxDensityPerSecSoFar*10;
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return min( fReturn, 1.2f );
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}
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float NoteDataWithScoring::GetActualAirRadarValue( float fSongSeconds )
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{
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// number of doubles
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int iNumDoubles = GetNumSuccessfulDoubles();
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float fReturn = iNumDoubles / fSongSeconds * 2;
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return min( fReturn, 1.2f );
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}
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float NoteDataWithScoring::GetActualChaosRadarValue( float fSongSeconds )
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{
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// irregularity of steps
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2002-06-27 17:49:10 +00:00
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float fReturn = GetChaosRadarValue(fSongSeconds) -
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(GetStreamRadarValue(fSongSeconds)-GetActualStreamRadarValue(fSongSeconds)) -
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(GetVoltageRadarValue(fSongSeconds)-GetActualVoltageRadarValue(fSongSeconds));
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2002-06-23 02:50:33 +00:00
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return min( fReturn, 1.2f );
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}
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float NoteDataWithScoring::GetActualFreezeRadarValue( float fSongSeconds )
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{
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// number of hold steps
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float fReturn = GetNumSuccessfulHoldNotes() / fSongSeconds * 3;
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return min( fReturn, 1.2f );
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}
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