Files
itgmania212121/stepmania/src/Steps.cpp
T
Glenn Maynard 5c26ef5753 const fix
2003-12-29 22:50:54 +00:00

430 lines
10 KiB
C++

#include "global.h"
/*
-----------------------------------------------------------------------------
Class: Steps
Desc: See header.
Copyright (c) 2001-2002 by the person(s) listed below. All rights reserved.
Chris Danford
Glenn Maynard
David Wilson
-----------------------------------------------------------------------------
*/
#include "Steps.h"
#include "song.h"
#include "Steps.h"
#include "IniFile.h"
#include "math.h" // for fabs()
#include "RageUtil.h"
#include "RageLog.h"
#include "NoteData.h"
#include "GameInput.h"
#include "RageException.h"
#include "MsdFile.h"
#include "GameManager.h"
#include "NoteDataUtil.h"
#include "ProfileManager.h"
#include "PrefsManager.h"
Steps::Steps()
{
/* FIXME: should we init this to STEPS_TYPE_INVALID?
* I have a feeling that it's the right thing to do but that
* it'd trip obscure asserts all over the place, so I'll wait
* until after b6 to do this. -glenn */
m_StepsType = STEPS_TYPE_DANCE_SINGLE;
m_Difficulty = DIFFICULTY_INVALID;
m_iMeter = 0;
for(int i = 0; i < NUM_RADAR_CATEGORIES; ++i)
m_fRadarValues[i] = -1; /* unknown */
notes = NULL;
notes_comp = NULL;
parent = NULL;
}
Steps::~Steps()
{
delete notes;
delete notes_comp;
}
void Steps::SetNoteData( const NoteData* pNewNoteData )
{
ASSERT( pNewNoteData->GetNumTracks() == GameManager::NotesTypeToNumTracks(m_StepsType) );
DeAutogen();
delete notes_comp;
notes_comp = NULL;
delete notes;
notes = new NoteData(*pNewNoteData);
}
void Steps::GetNoteData( NoteData* pNoteDataOut ) const
{
ASSERT(this);
ASSERT(pNoteDataOut);
Decompress();
if( notes != NULL )
*pNoteDataOut = *notes;
else
{
pNoteDataOut->ClearAll();
pNoteDataOut->SetNumTracks( GameManager::NotesTypeToNumTracks(m_StepsType) );
}
}
void Steps::SetSMNoteData( const CString &notes_comp_, const CString &attacks_comp_ )
{
delete notes;
notes = NULL;
if(!notes_comp)
notes_comp = new CompressedNoteData;
notes_comp->notes = notes_comp_;
notes_comp->attacks = attacks_comp_;
}
void Steps::GetSMNoteData( CString &notes_comp_out, CString &attacks_comp_out ) const
{
if(!notes_comp)
{
if(!notes)
{
/* no data is no data */
notes_comp_out = attacks_comp_out = "";
return;
}
notes_comp = new CompressedNoteData;
NoteDataUtil::GetSMNoteDataString( *notes, notes_comp->notes, notes_comp->attacks );
}
notes_comp_out = notes_comp->notes;
attacks_comp_out = notes_comp->attacks;
}
float Steps::PredictMeter() const
{
float pMeter = 0.775f;
const float RadarCoeffs[NUM_RADAR_CATEGORIES] =
{
10.1f, 5.27f,-0.905f, -1.10f, 2.86f,
0,0,0,0,0
};
for( int r = 0; r < NUM_RADAR_CATEGORIES; ++r )
pMeter += this->GetRadarValues()[r] * RadarCoeffs[r];
const float DifficultyCoeffs[NUM_DIFFICULTIES] =
{
-0.877f, -0.877f, 0, 0.722f, 0.722f
};
pMeter += DifficultyCoeffs[this->GetDifficulty()];
// Init non-radar values
const float SV = this->GetRadarValues()[RADAR_STREAM] * this->GetRadarValues()[RADAR_VOLTAGE];
const float ChaosSquare = this->GetRadarValues()[RADAR_CHAOS] * this->GetRadarValues()[RADAR_CHAOS];
pMeter += -6.35f * SV;
pMeter += -2.58f * ChaosSquare;
if (pMeter < 1) pMeter = 1;
return pMeter;
}
void Steps::TidyUpData()
{
if( GetDifficulty() == DIFFICULTY_INVALID )
SetDifficulty( StringToDifficulty(GetDescription()) );
if( GetDifficulty() == DIFFICULTY_INVALID )
{
if( GetMeter() == 1 ) SetDifficulty( DIFFICULTY_BEGINNER );
else if( GetMeter() <= 3 ) SetDifficulty( DIFFICULTY_EASY );
else if( GetMeter() <= 6 ) SetDifficulty( DIFFICULTY_MEDIUM );
else SetDifficulty( DIFFICULTY_HARD );
}
if( GetMeter() < 1) // meter is invalid
{
// Why not just use PredictMeter()
SetMeter( int(PredictMeter()) );
/*
// guess meter from difficulty class
switch( GetDifficulty() )
{
case DIFFICULTY_BEGINNER: SetMeter(1); break;
case DIFFICULTY_EASY: SetMeter(3); break;
case DIFFICULTY_MEDIUM: SetMeter(5); break;
case DIFFICULTY_HARD: SetMeter(8); break;
case DIFFICULTY_CHALLENGE: SetMeter(8); break;
case DIFFICULTY_INVALID: SetMeter(5); break;
default: ASSERT(0);
}*/
}
if( m_sDescription.empty() )
m_sDescription = Capitalize( DifficultyToString(m_Difficulty) );
}
void Steps::Decompress() const
{
if(notes)
{
return; // already decompressed
}
else if(parent)
{
// get autogen notes
NoteData pdata;
parent->GetNoteData(&pdata);
notes = new NoteData;
int iNewTracks = GameManager::NotesTypeToNumTracks(m_StepsType);
notes->LoadTransformedSlidingWindow( &pdata, iNewTracks );
NoteDataUtil::FixImpossibleRows( *notes, m_StepsType );
}
else if(!notes_comp)
{
/* there is no data, do nothing */
}
else
{
// load from compressed
notes = new NoteData;
notes->SetNumTracks( GameManager::NotesTypeToNumTracks(m_StepsType) );
NoteDataUtil::LoadFromSMNoteDataString(*notes, notes_comp->notes, notes_comp->attacks );
}
}
void Steps::Compress() const
{
if(!notes_comp)
{
if(!notes) return; /* no data is no data */
notes_comp = new CompressedNoteData;
NoteDataUtil::GetSMNoteDataString( *notes, notes_comp->notes, notes_comp->attacks );
}
delete notes;
notes = NULL;
}
/* Copy our parent's data. This is done when we're being changed from autogen
* to normal. (needed?) */
void Steps::DeAutogen()
{
if(!parent)
return; /* OK */
Decompress(); // fills in notes with sliding window transform
m_iMeter = Real()->m_iMeter;
m_sDescription = Real()->m_sDescription;
m_Difficulty = Real()->m_Difficulty;
for(int i = 0; i < NUM_RADAR_CATEGORIES; ++i)
m_fRadarValues[i] = Real()->m_fRadarValues[i];
parent = NULL;
Compress();
}
void Steps::AutogenFrom( const Steps *parent_, StepsType ntTo )
{
parent = parent_;
m_StepsType = ntTo;
}
void Steps::CopyFrom( Steps* pSource, StepsType ntTo ) // pSource does not have to be of the same StepsType!
{
m_StepsType = ntTo;
NoteData noteData;
pSource->GetNoteData( &noteData );
noteData.SetNumTracks( GameManager::NotesTypeToNumTracks(ntTo) );
this->SetNoteData( &noteData );
this->SetDescription( "Copied from "+pSource->GetDescription() );
this->SetDifficulty( pSource->GetDifficulty() );
this->SetMeter( pSource->GetMeter() );
const float* radarValues = pSource->GetRadarValues();
for( int r=0; r<NUM_RADAR_CATEGORIES; r++ )
this->SetRadarValue( (RadarCategory)r, radarValues[r] );
}
void Steps::CreateBlank( StepsType ntTo )
{
m_StepsType = ntTo;
NoteData noteData;
noteData.SetNumTracks( GameManager::NotesTypeToNumTracks(ntTo) );
this->SetNoteData( &noteData );
}
const Steps *Steps::Real() const
{
if(parent) return parent;
return this;
}
bool Steps::IsAutogen() const
{
return parent != NULL;
}
void Steps::SetDescription(CString desc)
{
DeAutogen();
m_sDescription = desc;
}
void Steps::SetDifficulty(Difficulty d)
{
DeAutogen();
m_Difficulty = d;
}
void Steps::SetMeter(int meter)
{
DeAutogen();
m_iMeter = meter;
}
void Steps::SetRadarValue(int r, float val)
{
DeAutogen();
ASSERT(r < NUM_RADAR_CATEGORIES);
m_fRadarValues[r] = val;
}
//
// Sorting stuff
//
map<const Steps*, CString> steps_sort_val;
bool CompareStepsPointersBySortValueAscending(const Steps *pSteps1, const Steps *pSteps2)
{
return steps_sort_val[pSteps1] < steps_sort_val[pSteps2];
}
bool CompareStepsPointersBySortValueDescending(const Steps *pSteps1, const Steps *pSteps2)
{
return steps_sort_val[pSteps1] > steps_sort_val[pSteps2];
}
void SortStepsPointerArrayByMostPlayed( vector<Steps*> &vStepsPointers, MemoryCard card )
{
for(unsigned i = 0; i < vStepsPointers.size(); ++i)
steps_sort_val[vStepsPointers[i]] = ssprintf("%9i", vStepsPointers[i]->GetNumTimesPlayed(card));
stable_sort( vStepsPointers.begin(), vStepsPointers.end(), CompareStepsPointersBySortValueDescending );
steps_sort_val.clear();
}
bool CompareNotesPointersByRadarValues(const Steps* pNotes1, const Steps* pNotes2)
{
float fScore1 = 0;
float fScore2 = 0;
for( int r=0; r<NUM_RADAR_CATEGORIES; r++ )
{
fScore1 += pNotes1->GetRadarValues()[r];
fScore2 += pNotes2->GetRadarValues()[r];
}
return fScore1 < fScore2;
}
bool CompareNotesPointersByMeter(const Steps *pNotes1, const Steps* pNotes2)
{
return pNotes1->GetMeter() < pNotes2->GetMeter();
}
bool CompareNotesPointersByDifficulty(const Steps *pNotes1, const Steps *pNotes2)
{
return pNotes1->GetDifficulty() < pNotes2->GetDifficulty();
}
void SortNotesArrayByDifficulty( vector<Steps*> &arraySteps )
{
/* Sort in reverse order of priority. */
stable_sort( arraySteps.begin(), arraySteps.end(), CompareNotesPointersByRadarValues );
stable_sort( arraySteps.begin(), arraySteps.end(), CompareNotesPointersByMeter );
stable_sort( arraySteps.begin(), arraySteps.end(), CompareNotesPointersByDifficulty );
}
bool CompareStepsPointersByTypeAndDifficulty(const Steps *pStep1, const Steps *pStep2)
{
if( pStep1->m_StepsType < pStep2->m_StepsType )
return true;
if( pStep1->m_StepsType > pStep2->m_StepsType )
return false;
return pStep1->GetDifficulty() < pStep2->GetDifficulty();
}
void SortStepsByTypeAndDifficulty( vector<Steps*> &arraySongPointers )
{
sort( arraySongPointers.begin(), arraySongPointers.end(), CompareStepsPointersByTypeAndDifficulty );
}
bool Steps::MemCardData::HighScore::operator>=( const Steps::MemCardData::HighScore& other ) const
{
if( PREFSMAN->m_bPercentageScoring )
return fPercentDP >= other.fPercentDP;
else
return iScore >= other.iScore;
/* Make sure we treat AAAA as higher than AAA, even though the score
* is the same.
*
* XXX: Isn't it possible to beat the grade but not beat the score, since
* grading and scores are on completely different systems? Should we be
* checking for these completely separately? */
// if( vsScore > this->fScore )
// return true;
// if( vsScore < this->fScore )
// return false;
// return vsGrade > this->grade;
}
void Steps::MemCardData::AddHighScore( Steps::MemCardData::HighScore hs, int &iIndexOut )
{
int i;
for( i=0; i<(int)vHighScores.size(); i++ )
{
if( hs >= vHighScores[i] ) // tie goes to new score
break;
}
if( i < NUM_RANKING_LINES )
{
vHighScores.insert( vHighScores.begin()+i, hs );
iIndexOut = i;
if( (int)vHighScores.size() > NUM_RANKING_LINES )
vHighScores.erase( vHighScores.begin()+NUM_RANKING_LINES, vHighScores.end() );
}
}
void Steps::AddHighScore( PlayerNumber pn, MemCardData::HighScore hs, int &iPersonalIndexOut, int &iMachineIndexOut )
{
hs.sName = RANKING_TO_FILL_IN_MARKER[pn];
if( PROFILEMAN->IsUsingProfile(pn) )
m_MemCardDatas[pn].AddHighScore( hs, iPersonalIndexOut );
else
iPersonalIndexOut = -1;
m_MemCardDatas[MEMORY_CARD_MACHINE].AddHighScore( hs, iMachineIndexOut );
}