Files
itgmania212121/src/NotesWriterDWI.cpp
T
Jason Felds df6a00b53e Stops (and Delays) now templated.
This is all of them at this present time.

At some point in the future, we should make
DelaySegments separate from StopSegments.
2011-06-01 09:50:34 -04:00

453 lines
13 KiB
C++

#include "global.h"
#include "NotesWriterDWI.h"
#include "NoteTypes.h"
#include "NoteData.h"
#include "RageUtil.h"
#include "RageLog.h"
#include "RageFileManager.h"
#include "RageFile.h"
#include "NoteDataUtil.h"
#include "RageFile.h"
#include "Song.h"
#include "Steps.h"
/**
* @brief Optimize an individual pair of characters whenever possible.
* @param c1 the first character.
* @param c2 the second character.
* @return the one singular character. */
static char OptimizeDWIPair( char c1, char c2 )
{
typedef pair<char,char> cpair;
static map< cpair, char > joins;
static bool Initialized = false;
if(!Initialized)
{
Initialized = true;
/* The first character in the pair is always the lowest. */
joins[ cpair('2', '4') ] = '1';
joins[ cpair('2', '6') ] = '3';
joins[ cpair('4', '8') ] = '7';
joins[ cpair('6', '8') ] = '9';
joins[ cpair('2', '8') ] = 'A';
joins[ cpair('4', '6') ] = 'B';
joins[ cpair('C', 'D') ] = 'M';
joins[ cpair('4', 'C') ] = 'E';
joins[ cpair('2', 'C') ] = 'F';
joins[ cpair('8', 'C') ] = 'G';
joins[ cpair('6', 'C') ] = 'H';
joins[ cpair('4', 'D') ] = 'I';
joins[ cpair('2', 'D') ] = 'J';
joins[ cpair('8', 'D') ] = 'K';
joins[ cpair('6', 'D') ] = 'L';
}
if( c1 > c2 )
swap( c1, c2 );
map< cpair, char >::const_iterator it = joins.find( cpair(c1, c2) );
ASSERT( it != joins.end() );
return it->second;
}
/**
* @brief Shrink the file contents as best as possible.
* @param holds the holds in the file.
* @param taps the taps in the file.
* @return the optimized string. */
RString OptimizeDWIString( RString holds, RString taps )
{
/* First, sort the holds and taps in ASCII order. This puts 2468 first.
* This way 1379 combinations will always be found first, so we'll always
* do eg. 1D, not 2I. */
sort( holds.begin(), holds.end() );
sort( taps.begin(), taps.end() );
/* Combine characters as much as possible. */
RString comb_taps, comb_holds;
/* 24 -> 1 */
while( taps.size() > 1 )
{
comb_taps += OptimizeDWIPair( taps[0], taps[1] );
taps.erase(0, 2);
}
/* 2!24!4 -> 1!1 */
while( holds.size() > 1 )
{
const char to = OptimizeDWIPair( holds[0], holds[1] );
holds.erase(0, 2);
comb_holds += ssprintf( "%c!%c", to, to );
}
ASSERT( taps.size() <= 1 );
ASSERT( holds.size() <= 1 );
/* 24!4 -> 1!4 */
while( holds.size() == 1 && taps.size() == 1 )
{
const char to = OptimizeDWIPair( taps[0], holds[0] );
comb_holds += ssprintf( "%c!%c", to, holds[0] );
taps.erase(0, 1);
holds.erase(0, 1);
}
/* Now we have at most one single tap and one hold remaining, and any
* number of taps and holds in comb_taps and comb_holds. */
RString ret;
ret += taps;
ret += comb_taps;
if( holds.size() == 1 )
ret += ssprintf( "%c!%c", holds[0], holds[0] );
ret += comb_holds;
if( ret.size() == 1 || (ret.size() == 3 && ret[1] == '!') )
return ret;
else
return ssprintf( "<%s>", ret.c_str() );
}
/**
* @brief Turn the Notes into a DWI string without angle brackets whenever possible.
* @param tnCols the columns of TapNotes in question.
* @return the DWI'ed string. */
static RString NotesToDWIString( const TapNote tnCols[6] )
{
const char dirs[] = { '4', 'C', '2', '8', 'D', '6' };
RString taps, holds, ret;
for( int col = 0; col < 6; ++col )
{
switch( tnCols[col].type )
{
case TapNote::empty:
case TapNote::mine:
continue;
}
if( tnCols[col].type == TapNote::hold_head )
holds += dirs[col];
else
taps += dirs[col];
}
if( holds.size() + taps.size() == 0 )
return "0";
/* More than one. */
return OptimizeDWIString( holds, taps );
}
/**
* @brief Turn the Notes into a DWI string without angle brackets whenever possible.
* @param tnCol1 the first column.
* @param tnCol2 the second column.
* @param tnCol3 the third column.
* @param tnCol4 the fourth column.
* @param tnCol5 the fifth column.
* @param tnCol6 the sisth column.
* @return the DWI'ed string. */
static RString NotesToDWIString( TapNote tnCol1, TapNote tnCol2, TapNote tnCol3,
TapNote tnCol4, TapNote tnCol5, TapNote tnCol6 )
{
TapNote tnCols[6];
tnCols[0] = tnCol1;
tnCols[1] = tnCol2;
tnCols[2] = tnCol3;
tnCols[3] = tnCol4;
tnCols[4] = tnCol5;
tnCols[5] = tnCol6;
return NotesToDWIString( tnCols );
}
/**
* @brief Turn the Notes into a DWI string without angle brackets whenever possible.
* @param tnCol1 the first column.
* @param tnCol2 the second column.
* @param tnCol3 the third column.
* @param tnCol4 the fourth column.
* @return the DWI'ed string. */
static RString NotesToDWIString( TapNote tnCol1, TapNote tnCol2, TapNote tnCol3, TapNote tnCol4 )
{
return NotesToDWIString( tnCol1, TAP_EMPTY, tnCol2, tnCol3, TAP_EMPTY, tnCol4 );
}
/** @brief The number of beats per measure for a DWI file. */
static const int BEATS_PER_MEASURE = 4;
/**
* @brief Write out the notes for a DWI file.
* @param f the file to write out to.
* @param out the Steps in question.
* @param start the starting position. */
static void WriteDWINotesField( RageFile &f, const Steps &out, int start )
{
NoteData notedata;
out.GetNoteData( notedata );
NoteDataUtil::InsertHoldTails( notedata );
const int iLastMeasure = int( notedata.GetLastBeat()/BEATS_PER_MEASURE );
for( int m=0; m<=iLastMeasure; m++ ) // foreach measure
{
NoteType nt = NoteDataUtil::GetSmallestNoteTypeForMeasure( notedata, m );
double fCurrentIncrementer = 0;
switch( nt )
{
case NOTE_TYPE_4TH:
case NOTE_TYPE_8TH:
fCurrentIncrementer = 1.0/8 * BEATS_PER_MEASURE;
break;
case NOTE_TYPE_12TH:
case NOTE_TYPE_24TH:
f.Write( "[" );
fCurrentIncrementer = 1.0/24 * BEATS_PER_MEASURE;
break;
case NOTE_TYPE_16TH:
f.Write( "(" );
fCurrentIncrementer = 1.0/16 * BEATS_PER_MEASURE;
break;
case NOTE_TYPE_32ND:
case NOTE_TYPE_64TH:
f.Write( "{" );
fCurrentIncrementer = 1.0/64 * BEATS_PER_MEASURE;
break;
case NOTE_TYPE_48TH:
case NOTE_TYPE_192ND:
case NoteType_Invalid:
// since, for whatever reason, the only way to do
// 48ths is through a block of 192nds...
f.Write( "`" );
fCurrentIncrementer = 1.0/192 * BEATS_PER_MEASURE;
break;
default:
ASSERT_M(0, ssprintf("nt = %d",nt) );
break;
}
double fFirstBeatInMeasure = m * BEATS_PER_MEASURE;
double fLastBeatInMeasure = (m+1) * BEATS_PER_MEASURE;
for( double b=fFirstBeatInMeasure; b<=fLastBeatInMeasure-1/64.0f; b+=fCurrentIncrementer ) // need the -0.0001 to account for rounding errors
{
int row = BeatToNoteRow( (float)b );
RString str;
switch( out.m_StepsType )
{
case StepsType_dance_single:
case StepsType_dance_couple:
case StepsType_dance_double:
str = NotesToDWIString(
notedata.GetTapNote(start+0, row),
notedata.GetTapNote(start+1, row),
notedata.GetTapNote(start+2, row),
notedata.GetTapNote(start+3, row) );
// Blank out the notes so we don't write them again if the incrementer is small
notedata.SetTapNote(start+0, row, TAP_EMPTY);
notedata.SetTapNote(start+1, row, TAP_EMPTY);
notedata.SetTapNote(start+2, row, TAP_EMPTY);
notedata.SetTapNote(start+3, row, TAP_EMPTY);
break;
case StepsType_dance_solo:
str = NotesToDWIString(
notedata.GetTapNote(0, row),
notedata.GetTapNote(1, row),
notedata.GetTapNote(2, row),
notedata.GetTapNote(3, row),
notedata.GetTapNote(4, row),
notedata.GetTapNote(5, row) );
// Blank out the notes so we don't write them again if the incrementer is small
notedata.SetTapNote(start+0, row, TAP_EMPTY);
notedata.SetTapNote(start+1, row, TAP_EMPTY);
notedata.SetTapNote(start+2, row, TAP_EMPTY);
notedata.SetTapNote(start+3, row, TAP_EMPTY);
notedata.SetTapNote(start+4, row, TAP_EMPTY);
notedata.SetTapNote(start+5, row, TAP_EMPTY);
break;
default:
ASSERT(0); // not a type supported by DWI. We shouldn't have called in here if that's the case
}
f.Write( str );
}
switch( nt )
{
case NOTE_TYPE_4TH:
case NOTE_TYPE_8TH:
break;
case NOTE_TYPE_12TH:
case NOTE_TYPE_24TH:
f.Write( "]" );
break;
case NOTE_TYPE_16TH:
f.Write( ")" );
break;
case NOTE_TYPE_32ND:
case NOTE_TYPE_64TH:
f.Write( "}" );
break;
case NOTE_TYPE_48TH:
case NOTE_TYPE_192ND:
case NoteType_Invalid:
f.Write( "'" );
break;
default:
ASSERT(0);
// fall though
}
f.PutLine( "" );
}
}
/**
* @brief Attempt to write a DWI's #NOTES tag.
* @param f the file to write out to.
* @param out the Steps in question.
* @return its success or failure. */
static bool WriteDWINotesTag( RageFile &f, const Steps &out )
{
if( out.GetDifficulty() == Difficulty_Edit )
return false; // not supported by DWI
LOG->Trace( "Steps::WriteDWINotesTag" );
switch( out.m_StepsType )
{
case StepsType_dance_single: f.Write( "#SINGLE:" ); break;
case StepsType_dance_couple: f.Write( "#COUPLE:" ); break;
case StepsType_dance_double: f.Write( "#DOUBLE:" ); break;
case StepsType_dance_solo: f.Write( "#SOLO:" ); break;
default: return false; // not a type supported by DWI
}
switch( out.GetDifficulty() )
{
case Difficulty_Beginner: f.Write( "BEGINNER:" ); break;
case Difficulty_Easy: f.Write( "BASIC:" ); break;
case Difficulty_Medium: f.Write( "ANOTHER:" ); break;
case Difficulty_Hard: f.Write( "MANIAC:" ); break;
case Difficulty_Challenge: f.Write( "SMANIAC:" ); break;
default: ASSERT(0); return false;
}
f.PutLine( ssprintf("%d:", out.GetMeter()) );
return true;
}
bool NotesWriterDWI::Write( RString sPath, const Song &out )
{
RageFile f;
if( !f.Open( sPath, RageFile::WRITE ) )
{
LOG->UserLog( "Song file", sPath, "couldn't be opened for writing: %s", f.GetError().c_str() );
return false;
}
/* Write transliterations, if we have them, since DWI doesn't support UTF-8. */
f.PutLine( ssprintf("#TITLE:%s;", DwiEscape(out.GetTranslitFullTitle()).c_str()) );
f.PutLine( ssprintf("#ARTIST:%s;", DwiEscape(out.GetTranslitArtist()).c_str()) );
ASSERT( out.m_SongTiming.m_BPMSegments[0].GetRow() == 0 );
f.PutLine( ssprintf("#FILE:%s;", DwiEscape(out.m_sMusicFile).c_str()) );
f.PutLine( ssprintf("#BPM:%.3f;", out.m_SongTiming.m_BPMSegments[0].GetBPM()) );
f.PutLine( ssprintf("#GAP:%ld;", -lrintf( out.m_SongTiming.m_fBeat0OffsetInSeconds*1000 )) );
f.PutLine( ssprintf("#SAMPLESTART:%.3f;", out.m_fMusicSampleStartSeconds) );
f.PutLine( ssprintf("#SAMPLELENGTH:%.3f;", out.m_fMusicSampleLengthSeconds) );
if( out.m_sCDTitleFile.size() )
f.PutLine( ssprintf("#CDTITLE:%s;", DwiEscape(out.m_sCDTitleFile).c_str()) );
switch( out.m_DisplayBPMType )
{
case DISPLAY_BPM_ACTUAL:
// write nothing
break;
case DISPLAY_BPM_SPECIFIED:
if( out.m_fSpecifiedBPMMin == out.m_fSpecifiedBPMMax )
f.PutLine( ssprintf("#DISPLAYBPM:%i;\n", (int) out.m_fSpecifiedBPMMin) );
else
f.PutLine( ssprintf("#DISPLAYBPM:%i..%i;\n", (int) out.m_fSpecifiedBPMMin, (int) out.m_fSpecifiedBPMMax) );
break;
case DISPLAY_BPM_RANDOM:
f.PutLine( "#DISPLAYBPM:*" );
break;
}
if( !out.m_SongTiming.m_StopSegments.empty() )
{
f.Write( "#FREEZE:" );
for( unsigned i=0; i<out.m_SongTiming.m_StopSegments.size(); i++ )
{
const StopSegment &fs = out.m_SongTiming.m_StopSegments[i];
f.Write( ssprintf("%.3f=%.3f", fs.GetRow() * 4.0f / ROWS_PER_BEAT,
roundf(fs.GetPause()*1000)) );
if( i != out.m_SongTiming.m_StopSegments.size()-1 )
f.Write( "," );
}
f.PutLine( ";" );
}
if( out.m_SongTiming.m_BPMSegments.size() > 1)
{
f.Write( "#CHANGEBPM:" );
for( unsigned i=1; i<out.m_SongTiming.m_BPMSegments.size(); i++ )
{
const BPMSegment &bs = out.m_SongTiming.m_BPMSegments[i];
f.Write( ssprintf("%.3f=%.3f", bs.GetRow() * 4.0f / ROWS_PER_BEAT, bs.GetBPM() ) );
if( i != out.m_SongTiming.m_BPMSegments.size()-1 )
f.Write( "," );
}
f.PutLine( ";" );
}
const vector<Steps*>& vpSteps = out.GetAllSteps();
for( unsigned i=0; i<vpSteps.size(); i++ )
{
const Steps* pSteps = vpSteps[i];
if( pSteps->IsAutogen() )
continue; // don't save autogen notes
if( !WriteDWINotesTag( f, *pSteps ))
continue;
WriteDWINotesField( f, *pSteps, 0 );
if( pSteps->m_StepsType==StepsType_dance_double ||
pSteps->m_StepsType==StepsType_dance_couple )
{
f.PutLine( ":" );
WriteDWINotesField( f, *pSteps, 4 );
}
f.PutLine( ";" );
}
return true;
}
/*
* (c) 2001-2006 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.
*/