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-rw-r--r--src/base/UNote.pas1286
1 files changed, 643 insertions, 643 deletions
diff --git a/src/base/UNote.pas b/src/base/UNote.pas
index 57534030..c82cc2e3 100644
--- a/src/base/UNote.pas
+++ b/src/base/UNote.pas
@@ -1,643 +1,643 @@
-{* UltraStar Deluxe - Karaoke Game
- *
- * UltraStar Deluxe is the legal property of its developers, whose names
- * are too numerous to list here. Please refer to the COPYRIGHT
- * file distributed with this source distribution.
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License
- * as published by the Free Software Foundation; either version 2
- * of the License, or (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; see the file COPYING. If not, write to
- * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
- * Boston, MA 02110-1301, USA.
- *
- * $URL$
- * $Id$
- *}
-
-unit UNote;
-
-interface
-
-{$IFDEF FPC}
- {$MODE Delphi}
-{$ENDIF}
-
-{$I switches.inc}
-
-uses
- SysUtils,
- Classes,
- SDL,
- gl,
- UDisplay,
- UIni,
- ULog,
- ULyrics,
- URecord,
- UScreenSing,
- USong,
- UTime;
-
-type
- PPLayerNote = ^TPlayerNote;
- TPlayerNote = record
- Start: integer;
- Length: integer;
- Detect: real; // accurate place, detected in the note
- Tone: real;
- Perfect: boolean; // true if the note matches the original one, light the star
- Hit: boolean; // true if the note hits the line
- end;
-
- PPLayer = ^TPlayer;
- TPlayer = record
- Name: UTF8String;
-
- // Index in Teaminfo record
- TeamID: byte;
- PlayerID: byte;
-
- // Scores
- Score: real;
- ScoreLine: real;
- ScoreGolden: real;
-
- ScoreInt: integer;
- ScoreLineInt: integer;
- ScoreGoldenInt: integer;
- ScoreTotalInt: integer;
-
- // LineBonus
- ScoreLast: real; // Last Line Score
-
- // PerfectLineTwinkle (effect)
- LastSentencePerfect: boolean;
-
- HighNote: integer; // index of last note (= High(Note)?)
- LengthNote: integer; // number of notes (= Length(Note)?).
- Note: array of TPlayerNote;
- end;
-
- TStats = record
- Player: array of TPlayer;
- SongArtist: string;
- SongTitle: string;
- end;
-
- TMedleyPlaylist = record
- Song: array of integer;
- NumMedleySongs: integer;
- CurrentMedleySong: integer;
- ApplausePlayed: boolean;
- Stats: array of TStats;
- NumPlayer: integer;
- end;
-
-{* Player and music info *}
-var
- {**
- * Player info and state for each player.
- * The amount of players is given by PlayersPlay.
- *}
- Player: array of TPlayer;
-
- {**
- * Number of players or teams playing.
- * Possible values: 1 - 6
- *}
- PlayersPlay: integer;
-
- {**
- * Selected song for singing.
- *}
- CurrentSong: TSong;
-
- PlaylistMedley: TMedleyPlaylist; // playlist medley
-
-const
- MAX_SONG_SCORE = 10000; // max. achievable points per song
- MAX_SONG_LINE_BONUS = 1000; // max. achievable line bonus per song
-
-procedure Sing(Screen: TScreenSing);
-procedure NewSentence(Screen: TScreenSing);
-procedure NewBeatClick(Screen: TScreenSing); // executed when on then new beat for click
-procedure NewBeatDetect(Screen: TScreenSing); // executed when on then new beat for detection
-procedure NewNote(Screen: TScreenSing); // detect note
-function GetMidBeat(Time: real): real;
-function GetTimeFromBeat(Beat: integer; SelfSong: TSong = nil): real;
-
-implementation
-
-uses
- Math,
- StrUtils,
- UCatCovers,
- UCommandLine,
- UCommon,
- UConfig,
- UCovers,
- UDataBase,
- UGraphic,
- UGraphicClasses,
- UJoystick,
- ULanguage,
- UMusic,
- UParty,
- UPathUtils,
- UPlatform,
- UPlaylist,
- USkins,
- USongs,
- UThemes;
-
-function GetTimeForBeats(BPM, Beats: real): real;
-begin
- Result := 60 / BPM * Beats;
-end;
-
-function GetBeats(BPM, msTime: real): real;
-begin
- Result := BPM * msTime / 60;
-end;
-
-procedure GetMidBeatSub(BPMNum: integer; var Time: real; var CurBeat: real);
-var
- NewTime: real;
-begin
- if High(CurrentSong.BPM) = BPMNum then
- begin
- // last BPM
- CurBeat := CurrentSong.BPM[BPMNum].StartBeat + GetBeats(CurrentSong.BPM[BPMNum].BPM, Time);
- Time := 0;
- end
- else
- begin
- // not last BPM
- // count how much time is it for start of the new BPM and store it in NewTime
- NewTime := GetTimeForBeats(CurrentSong.BPM[BPMNum].BPM, CurrentSong.BPM[BPMNum+1].StartBeat - CurrentSong.BPM[BPMNum].StartBeat);
-
- // compare it to remaining time
- if (Time - NewTime) > 0 then
- begin
- // there is still remaining time
- CurBeat := CurrentSong.BPM[BPMNum].StartBeat;
- Time := Time - NewTime;
- end
- else
- begin
- // there is no remaining time
- CurBeat := CurrentSong.BPM[BPMNum].StartBeat + GetBeats(CurrentSong.BPM[BPMNum].BPM, Time);
- Time := 0;
- end; // if
- end; // if
-end;
-
-function GetMidBeat(Time: real): real;
-var
- CurBeat: real;
- CurBPM: integer;
-begin
- // static BPM
- if Length(CurrentSong.BPM) = 1 then
- begin
- Result := Time * CurrentSong.BPM[0].BPM / 60;
- end
- // variable BPM
- else if Length(CurrentSong.BPM) > 1 then
- begin
- CurBeat := 0;
- CurBPM := 0;
- while (Time > 0) do
- begin
- GetMidBeatSub(CurBPM, Time, CurBeat);
- Inc(CurBPM);
- end;
-
- Result := CurBeat;
- end
- // invalid BPM
- else
- begin
- Result := 0;
- end;
-end;
-
-function GetTimeFromBeat(Beat: integer; SelfSong: TSong = nil): real;
-var
- CurBPM: integer;
- Song: TSong;
-begin
- if (SelfSong <> nil) then
- Song := SelfSong
- else
- Song := CurrentSong;
-
- // static BPM
- if Length(Song.BPM) = 1 then
- begin
- Result := Song.GAP / 1000 + Beat * 60 / Song.BPM[0].BPM;
- end
- // variable BPM
- else if Length(Song.BPM) > 1 then
- begin
- Result := Song.GAP / 1000;
- CurBPM := 0;
- while (CurBPM <= High(Song.BPM)) and
- (Beat > Song.BPM[CurBPM].StartBeat) do
- begin
- if (CurBPM < High(Song.BPM)) and
- (Beat >= Song.BPM[CurBPM+1].StartBeat) then
- begin
- // full range
- Result := Result + (60 / Song.BPM[CurBPM].BPM) *
- (Song.BPM[CurBPM+1].StartBeat - Song.BPM[CurBPM].StartBeat);
- end;
-
- if (CurBPM = High(Song.BPM)) or
- (Beat < Song.BPM[CurBPM+1].StartBeat) then
- begin
- // in the middle
- Result := Result + (60 / Song.BPM[CurBPM].BPM) *
- (Beat - Song.BPM[CurBPM].StartBeat);
- end;
- Inc(CurBPM);
- end;
-
- {
- while (Time > 0) do
- begin
- GetMidBeatSub(CurBPM, Time, CurBeat);
- Inc(CurBPM);
- end;
- }
- end
- // invalid BPM
- else
- begin
- Result := 0;
- end;
-end;
-
-procedure Sing(Screen: TScreenSing);
-var
- Count: integer;
- CountGr: integer;
- CP: integer;
-begin
- LyricsState.UpdateBeats();
-
- // sentences routines
- for CountGr := 0 to 0 do //High(Lines)
- begin;
- CP := CountGr;
- // old parts
- LyricsState.OldLine := Lines[CP].Current;
-
- // choose current parts
- for Count := 0 to Lines[CP].High do
- begin
- if LyricsState.CurrentBeat >= Lines[CP].Line[Count].Start then
- Lines[CP].Current := Count;
- end;
-
- // clean player note if there is a new line
- // (optimization on halfbeat time)
- if Lines[CP].Current <> LyricsState.OldLine then
- NewSentence(Screen);
-
- end; // for CountGr
-
- // make some operations on clicks
- if {(LyricsState.CurrentBeatC >= 0) and }(LyricsState.OldBeatC <> LyricsState.CurrentBeatC) then
- NewBeatClick(Screen);
-
- // make some operations when detecting new voice pitch
- if (LyricsState.CurrentBeatD >= 0) and (LyricsState.OldBeatD <> LyricsState.CurrentBeatD) then
- NewBeatDetect(Screen);
-end;
-
-procedure NewSentence(Screen: TScreenSing);
-var
- i: integer;
-begin
- // clean note of player
- for i := 0 to High(Player) do
- begin
- Player[i].LengthNote := 0;
- Player[i].HighNote := -1;
- SetLength(Player[i].Note, 0);
- end;
-
- // on sentence change...
- Screen.onSentenceChange(Lines[0].Current);
-end;
-
-procedure NewBeatClick;
-var
- Count: integer;
-begin
- // beat click
- if ((Ini.BeatClick = 1) and
- ((LyricsState.CurrentBeatC + Lines[0].Resolution + Lines[0].NotesGAP) mod Lines[0].Resolution = 0)) then
- begin
- AudioPlayback.PlaySound(SoundLib.Click);
- end;
-
- for Count := 0 to Lines[0].Line[Lines[0].Current].HighNote do
- begin
- if (Lines[0].Line[Lines[0].Current].Note[Count].Start = LyricsState.CurrentBeatC) then
- begin
- // click assist
- if Ini.ClickAssist = 1 then
- AudioPlayback.PlaySound(SoundLib.Click);
-
- // drum machine
- (*
- TempBeat := LyricsState.CurrentBeat; // + 2;
- if (TempBeat mod 8 = 0) then Music.PlayDrum;
- if (TempBeat mod 8 = 4) then Music.PlayClap;
- //if (TempBeat mod 4 = 2) then Music.PlayHihat;
- if (TempBeat mod 4 <> 0) then Music.PlayHihat;
- *)
- end;
- end;
-end;
-
-procedure NewBeatDetect(Screen: TScreenSing);
- var
- SentenceEnd: integer;
- I: cardinal;
-begin
- NewNote(Screen);
-
- // check for sentence end
- // we check all lines here because a new sentence may
- // have been started even before the old one finishes
- // due to corrupt lien breaks
- // checking only current line works to, but may lead to
- // weird ratings for the song files w/ the mentioned
- // errors
- // To-Do Philipp : check current and last line should
- // do it for most corrupt txt and for lines in
- // non-corrupt txts that start immediatly after the prev.
- // line ends
- if (assigned(Screen)) then
- begin
- for I := 0 to Lines[0].High do
- begin
- with Lines[0].Line[I] do
- begin
- if (HighNote >= 0) then
- begin
- SentenceEnd := Note[HighNote].Start + Note[HighNote].Length;
-
- if (LyricsState.OldBeatD < SentenceEnd) and (LyricsState.CurrentBeatD >= SentenceEnd) then
- Screen.OnSentenceEnd(I);
- end;
- end;
- end;
- end;
-end;
-
-procedure NewNote(Screen: TScreenSing);
-var
- LineFragmentIndex: integer;
- CurrentLineFragment: PLineFragment;
- PlayerIndex: integer;
- CurrentSound: TCaptureBuffer;
- CurrentPlayer: PPlayer;
- LastPlayerNote: PPlayerNote;
- Line: PLine;
- SentenceIndex: integer;
- SentenceMin: integer;
- SentenceMax: integer;
- SentenceDetected: integer; // sentence of detected note
- ActualBeat: integer;
- ActualTone: integer;
- NoteAvailable: boolean;
- NewNote: boolean;
- Range: integer;
- NoteHit: boolean;
- MaxSongPoints: integer; // max. points for the song (without line bonus)
- CurNotePoints: real; // Points for the cur. Note (PointsperNote * ScoreFactor[CurNote])
-begin
- ActualTone := 0;
- NoteHit := false;
-
- // TODO: add duet mode support
- // use Lines[LineSetIndex] with LineSetIndex depending on the current player
-
- // count min and max sentence range for checking
- // (detection is delayed to the notes we see on the screen)
- SentenceMin := Lines[0].Current-1;
- if (SentenceMin < 0) then
- SentenceMin := 0;
- SentenceMax := Lines[0].Current;
-
- for ActualBeat := LyricsState.OldBeatD+1 to LyricsState.CurrentBeatD do
- begin
- // analyze player signals
- for PlayerIndex := 0 to PlayersPlay-1 do
- begin
- // check for an active note at the current time defined in the lyrics
- NoteAvailable := false;
- SentenceDetected := SentenceMin;
- for SentenceIndex := SentenceMin to SentenceMax do
- begin
- Line := @Lines[0].Line[SentenceIndex];
- for LineFragmentIndex := 0 to Line.HighNote do
- begin
- CurrentLineFragment := @Line.Note[LineFragmentIndex];
- // check if line is active
- if ((CurrentLineFragment.Start <= ActualBeat) and
- (CurrentLineFragment.Start + CurrentLineFragment.Length-1 >= ActualBeat)) and
- (CurrentLineFragment.NoteType <> ntFreestyle) and // but ignore FreeStyle notes
- (CurrentLineFragment.Length > 0) then // and make sure the note length is at least 1
- begin
- SentenceDetected := SentenceIndex;
- NoteAvailable := true;
- Break;
- end;
- end;
- // TODO: break here, if NoteAvailable is true? We would then use the first instead
- // of the last note matching the current beat if notes overlap. But notes
- // should not overlap at all.
- // if (NoteAvailable) then
- // Break;
- end;
-
- CurrentPlayer := @Player[PlayerIndex];
- CurrentSound := AudioInputProcessor.Sound[PlayerIndex];
-
- // at the beginning of the song there is no previous note
- if (Length(CurrentPlayer.Note) > 0) then
- LastPlayerNote := @CurrentPlayer.Note[CurrentPlayer.HighNote]
- else
- LastPlayerNote := nil;
-
- // analyze buffer
- CurrentSound.AnalyzeBuffer;
-
- // add some noise
- // TODO: do we need this?
- //LyricsState.Tone := LyricsState.Tone + Round(Random(3)) - 1;
-
- // add note if possible
- if (CurrentSound.ToneValid and NoteAvailable) then
- begin
- Line := @Lines[0].Line[SentenceDetected];
- // process until last note
- for LineFragmentIndex := 0 to Line.HighNote do
- begin
- CurrentLineFragment := @Line.Note[LineFragmentIndex];
- if (CurrentLineFragment.Start <= ActualBeat) and
- (CurrentLineFragment.Start + CurrentLineFragment.Length > ActualBeat) then
- begin
- // compare notes (from song-file and from player)
-
- // move players tone to proper octave
- while (CurrentSound.Tone - CurrentLineFragment.Tone > 6) do
- CurrentSound.Tone := CurrentSound.Tone - 12;
-
- while (CurrentSound.Tone - CurrentLineFragment.Tone < -6) do
- CurrentSound.Tone := CurrentSound.Tone + 12;
-
- // half size notes patch
- NoteHit := false;
- ActualTone := CurrentSound.Tone;
- Range := 2 - Ini.Difficulty;
-
- // check if the player hit the correct tone within the tolerated range
- if (Abs(CurrentLineFragment.Tone - CurrentSound.Tone) <= Range) then
- begin
- // adjust the players tone to the correct one
- // TODO: do we need to do this?
- // Philipp: I think we do, at least when we draw the notes.
- // Otherwise the notehit thing would be shifted to the
- // correct unhit note. I think this will look kind of strange.
- ActualTone := CurrentLineFragment.Tone;
-
- // half size notes patch
- NoteHit := true;
-
- if (Ini.LineBonus > 0) then
- MaxSongPoints := MAX_SONG_SCORE - MAX_SONG_LINE_BONUS
- else
- MaxSongPoints := MAX_SONG_SCORE;
-
- // Note: ScoreValue is the sum of all note values of the song
- // (MaxSongPoints / ScoreValue) is the points that a player
- // gets for a hit of one beat of a normal note
- // CurNotePoints is the amount of points that is meassured
- // for a hit of the note per full beat
- CurNotePoints := (MaxSongPoints / Lines[0].ScoreValue) * ScoreFactor[CurrentLineFragment.NoteType];
-
- case CurrentLineFragment.NoteType of
- ntNormal: CurrentPlayer.Score := CurrentPlayer.Score + CurNotePoints;
- ntGolden: CurrentPlayer.ScoreGolden := CurrentPlayer.ScoreGolden + CurNotePoints;
- end;
-
- // a problem if we use floor instead of round is that a score of
- // 10000 points is only possible if the last digit of the total points
- // for golden and normal notes is 0.
- // if we use round, the max score is 10000 for most songs
- // but a score of 10010 is possible if the last digit of the total
- // points for golden and normal notes is 5
- // the best solution is to use round for one of these scores
- // and round the other score in the opposite direction
- // so we assure that the highest possible score is 10000 in every case.
- CurrentPlayer.ScoreInt := round(CurrentPlayer.Score / 10) * 10;
-
- if (CurrentPlayer.ScoreInt < CurrentPlayer.Score) then
- //normal score is floored so we have to ceil golden notes score
- CurrentPlayer.ScoreGoldenInt := ceil(CurrentPlayer.ScoreGolden / 10) * 10
- else
- //normal score is ceiled so we have to floor golden notes score
- CurrentPlayer.ScoreGoldenInt := floor(CurrentPlayer.ScoreGolden / 10) * 10;
-
-
- CurrentPlayer.ScoreTotalInt := CurrentPlayer.ScoreInt +
- CurrentPlayer.ScoreGoldenInt +
- CurrentPlayer.ScoreLineInt;
- end;
-
- end; // operation
- end; // for
-
- // check if we have to add a new note or extend the note's length
- if (SentenceDetected = SentenceMax) then
- begin
- // we will add a new note
- NewNote := true;
-
- // if previous note (if any) was the same, extend previous note
- if ((CurrentPlayer.LengthNote > 0) and
- (LastPlayerNote <> nil) and
- (LastPlayerNote.Tone = ActualTone) and
- ((LastPlayerNote.Start + LastPlayerNote.Length) = ActualBeat)) then
- begin
- NewNote := false;
- end;
-
- // if is not as new note to control
- for LineFragmentIndex := 0 to Line.HighNote do
- begin
- if (Line.Note[LineFragmentIndex].Start = ActualBeat) then
- NewNote := true;
- end;
-
- // add new note
- if NewNote then
- begin
- // new note
- Inc(CurrentPlayer.LengthNote);
- Inc(CurrentPlayer.HighNote);
- SetLength(CurrentPlayer.Note, CurrentPlayer.LengthNote);
-
- // update player's last note
- LastPlayerNote := @CurrentPlayer.Note[CurrentPlayer.HighNote];
- with LastPlayerNote^ do
- begin
- Start := ActualBeat;
- Length := 1;
- Tone := ActualTone; // Tone || ToneAbs
- //Detect := LyricsState.MidBeat; // Not used!
- Hit := NoteHit; // half note patch
- end;
- end
- else
- begin
- // extend note length
- if (LastPlayerNote <> nil) then
- Inc(LastPlayerNote.Length);
- end;
-
- // check for perfect note and then light the star (on Draw)
- for LineFragmentIndex := 0 to Line.HighNote do
- begin
- CurrentLineFragment := @Line.Note[LineFragmentIndex];
- if (CurrentLineFragment.Start = LastPlayerNote.Start) and
- (CurrentLineFragment.Length = LastPlayerNote.Length) and
- (CurrentLineFragment.Tone = LastPlayerNote.Tone) then
- begin
- LastPlayerNote.Perfect := true;
- end;
- end;
- end; // if SentenceDetected = SentenceMax
-
- end; // if Detected
- end; // for PlayerIndex
- end; // for ActualBeat
- //Log.LogStatus('EndBeat', 'NewBeat');
-end;
-
-end.
+{* UltraStar Deluxe - Karaoke Game
+ *
+ * UltraStar Deluxe is the legal property of its developers, whose names
+ * are too numerous to list here. Please refer to the COPYRIGHT
+ * file distributed with this source distribution.
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License
+ * as published by the Free Software Foundation; either version 2
+ * of the License, or (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; see the file COPYING. If not, write to
+ * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
+ * Boston, MA 02110-1301, USA.
+ *
+ * $URL$
+ * $Id$
+ *}
+
+unit UNote;
+
+interface
+
+{$IFDEF FPC}
+ {$MODE Delphi}
+{$ENDIF}
+
+{$I switches.inc}
+
+uses
+ SysUtils,
+ Classes,
+ SDL,
+ gl,
+ UDisplay,
+ UIni,
+ ULog,
+ ULyrics,
+ URecord,
+ UScreenSing,
+ USong,
+ UTime;
+
+type
+ PPLayerNote = ^TPlayerNote;
+ TPlayerNote = record
+ Start: integer;
+ Length: integer;
+ Detect: real; // accurate place, detected in the note
+ Tone: real;
+ Perfect: boolean; // true if the note matches the original one, light the star
+ Hit: boolean; // true if the note hits the line
+ end;
+
+ PPLayer = ^TPlayer;
+ TPlayer = record
+ Name: UTF8String;
+
+ // Index in Teaminfo record
+ TeamID: byte;
+ PlayerID: byte;
+
+ // Scores
+ Score: real;
+ ScoreLine: real;
+ ScoreGolden: real;
+
+ ScoreInt: integer;
+ ScoreLineInt: integer;
+ ScoreGoldenInt: integer;
+ ScoreTotalInt: integer;
+
+ // LineBonus
+ ScoreLast: real; // Last Line Score
+
+ // PerfectLineTwinkle (effect)
+ LastSentencePerfect: boolean;
+
+ HighNote: integer; // index of last note (= High(Note)?)
+ LengthNote: integer; // number of notes (= Length(Note)?).
+ Note: array of TPlayerNote;
+ end;
+
+ TStats = record
+ Player: array of TPlayer;
+ SongArtist: string;
+ SongTitle: string;
+ end;
+
+ TMedleyPlaylist = record
+ Song: array of integer;
+ NumMedleySongs: integer;
+ CurrentMedleySong: integer;
+ ApplausePlayed: boolean;
+ Stats: array of TStats;
+ NumPlayer: integer;
+ end;
+
+{* Player and music info *}
+var
+ {**
+ * Player info and state for each player.
+ * The amount of players is given by PlayersPlay.
+ *}
+ Player: array of TPlayer;
+
+ {**
+ * Number of players or teams playing.
+ * Possible values: 1 - 6
+ *}
+ PlayersPlay: integer;
+
+ {**
+ * Selected song for singing.
+ *}
+ CurrentSong: TSong;
+
+ PlaylistMedley: TMedleyPlaylist; // playlist medley
+
+const
+ MAX_SONG_SCORE = 10000; // max. achievable points per song
+ MAX_SONG_LINE_BONUS = 1000; // max. achievable line bonus per song
+
+procedure Sing(Screen: TScreenSing);
+procedure NewSentence(Screen: TScreenSing);
+procedure NewBeatClick(Screen: TScreenSing); // executed when on then new beat for click
+procedure NewBeatDetect(Screen: TScreenSing); // executed when on then new beat for detection
+procedure NewNote(Screen: TScreenSing); // detect note
+function GetMidBeat(Time: real): real;
+function GetTimeFromBeat(Beat: integer; SelfSong: TSong = nil): real;
+
+implementation
+
+uses
+ Math,
+ StrUtils,
+ UCatCovers,
+ UCommandLine,
+ UCommon,
+ UConfig,
+ UCovers,
+ UDataBase,
+ UGraphic,
+ UGraphicClasses,
+ UJoystick,
+ ULanguage,
+ UMusic,
+ UParty,
+ UPathUtils,
+ UPlatform,
+ UPlaylist,
+ USkins,
+ USongs,
+ UThemes;
+
+function GetTimeForBeats(BPM, Beats: real): real;
+begin
+ Result := 60 / BPM * Beats;
+end;
+
+function GetBeats(BPM, msTime: real): real;
+begin
+ Result := BPM * msTime / 60;
+end;
+
+procedure GetMidBeatSub(BPMNum: integer; var Time: real; var CurBeat: real);
+var
+ NewTime: real;
+begin
+ if High(CurrentSong.BPM) = BPMNum then
+ begin
+ // last BPM
+ CurBeat := CurrentSong.BPM[BPMNum].StartBeat + GetBeats(CurrentSong.BPM[BPMNum].BPM, Time);
+ Time := 0;
+ end
+ else
+ begin
+ // not last BPM
+ // count how much time is it for start of the new BPM and store it in NewTime
+ NewTime := GetTimeForBeats(CurrentSong.BPM[BPMNum].BPM, CurrentSong.BPM[BPMNum+1].StartBeat - CurrentSong.BPM[BPMNum].StartBeat);
+
+ // compare it to remaining time
+ if (Time - NewTime) > 0 then
+ begin
+ // there is still remaining time
+ CurBeat := CurrentSong.BPM[BPMNum].StartBeat;
+ Time := Time - NewTime;
+ end
+ else
+ begin
+ // there is no remaining time
+ CurBeat := CurrentSong.BPM[BPMNum].StartBeat + GetBeats(CurrentSong.BPM[BPMNum].BPM, Time);
+ Time := 0;
+ end; // if
+ end; // if
+end;
+
+function GetMidBeat(Time: real): real;
+var
+ CurBeat: real;
+ CurBPM: integer;
+begin
+ // static BPM
+ if Length(CurrentSong.BPM) = 1 then
+ begin
+ Result := Time * CurrentSong.BPM[0].BPM / 60;
+ end
+ // variable BPM
+ else if Length(CurrentSong.BPM) > 1 then
+ begin
+ CurBeat := 0;
+ CurBPM := 0;
+ while (Time > 0) do
+ begin
+ GetMidBeatSub(CurBPM, Time, CurBeat);
+ Inc(CurBPM);
+ end;
+
+ Result := CurBeat;
+ end
+ // invalid BPM
+ else
+ begin
+ Result := 0;
+ end;
+end;
+
+function GetTimeFromBeat(Beat: integer; SelfSong: TSong = nil): real;
+var
+ CurBPM: integer;
+ Song: TSong;
+begin
+ if (SelfSong <> nil) then
+ Song := SelfSong
+ else
+ Song := CurrentSong;
+
+ // static BPM
+ if Length(Song.BPM) = 1 then
+ begin
+ Result := Song.GAP / 1000 + Beat * 60 / Song.BPM[0].BPM;
+ end
+ // variable BPM
+ else if Length(Song.BPM) > 1 then
+ begin
+ Result := Song.GAP / 1000;
+ CurBPM := 0;
+ while (CurBPM <= High(Song.BPM)) and
+ (Beat > Song.BPM[CurBPM].StartBeat) do
+ begin
+ if (CurBPM < High(Song.BPM)) and
+ (Beat >= Song.BPM[CurBPM+1].StartBeat) then
+ begin
+ // full range
+ Result := Result + (60 / Song.BPM[CurBPM].BPM) *
+ (Song.BPM[CurBPM+1].StartBeat - Song.BPM[CurBPM].StartBeat);
+ end;
+
+ if (CurBPM = High(Song.BPM)) or
+ (Beat < Song.BPM[CurBPM+1].StartBeat) then
+ begin
+ // in the middle
+ Result := Result + (60 / Song.BPM[CurBPM].BPM) *
+ (Beat - Song.BPM[CurBPM].StartBeat);
+ end;
+ Inc(CurBPM);
+ end;
+
+ {
+ while (Time > 0) do
+ begin
+ GetMidBeatSub(CurBPM, Time, CurBeat);
+ Inc(CurBPM);
+ end;
+ }
+ end
+ // invalid BPM
+ else
+ begin
+ Result := 0;
+ end;
+end;
+
+procedure Sing(Screen: TScreenSing);
+var
+ Count: integer;
+ CountGr: integer;
+ CP: integer;
+begin
+ LyricsState.UpdateBeats();
+
+ // sentences routines
+ for CountGr := 0 to 0 do //High(Lines)
+ begin;
+ CP := CountGr;
+ // old parts
+ LyricsState.OldLine := Lines[CP].Current;
+
+ // choose current parts
+ for Count := 0 to Lines[CP].High do
+ begin
+ if LyricsState.CurrentBeat >= Lines[CP].Line[Count].Start then
+ Lines[CP].Current := Count;
+ end;
+
+ // clean player note if there is a new line
+ // (optimization on halfbeat time)
+ if Lines[CP].Current <> LyricsState.OldLine then
+ NewSentence(Screen);
+
+ end; // for CountGr
+
+ // make some operations on clicks
+ if {(LyricsState.CurrentBeatC >= 0) and }(LyricsState.OldBeatC <> LyricsState.CurrentBeatC) then
+ NewBeatClick(Screen);
+
+ // make some operations when detecting new voice pitch
+ if (LyricsState.CurrentBeatD >= 0) and (LyricsState.OldBeatD <> LyricsState.CurrentBeatD) then
+ NewBeatDetect(Screen);
+end;
+
+procedure NewSentence(Screen: TScreenSing);
+var
+ i: integer;
+begin
+ // clean note of player
+ for i := 0 to High(Player) do
+ begin
+ Player[i].LengthNote := 0;
+ Player[i].HighNote := -1;
+ SetLength(Player[i].Note, 0);
+ end;
+
+ // on sentence change...
+ Screen.onSentenceChange(Lines[0].Current);
+end;
+
+procedure NewBeatClick;
+var
+ Count: integer;
+begin
+ // beat click
+ if ((Ini.BeatClick = 1) and
+ ((LyricsState.CurrentBeatC + Lines[0].Resolution + Lines[0].NotesGAP) mod Lines[0].Resolution = 0)) then
+ begin
+ AudioPlayback.PlaySound(SoundLib.Click);
+ end;
+
+ for Count := 0 to Lines[0].Line[Lines[0].Current].HighNote do
+ begin
+ if (Lines[0].Line[Lines[0].Current].Note[Count].Start = LyricsState.CurrentBeatC) then
+ begin
+ // click assist
+ if Ini.ClickAssist = 1 then
+ AudioPlayback.PlaySound(SoundLib.Click);
+
+ // drum machine
+ (*
+ TempBeat := LyricsState.CurrentBeat; // + 2;
+ if (TempBeat mod 8 = 0) then Music.PlayDrum;
+ if (TempBeat mod 8 = 4) then Music.PlayClap;
+ //if (TempBeat mod 4 = 2) then Music.PlayHihat;
+ if (TempBeat mod 4 <> 0) then Music.PlayHihat;
+ *)
+ end;
+ end;
+end;
+
+procedure NewBeatDetect(Screen: TScreenSing);
+ var
+ SentenceEnd: integer;
+ I: cardinal;
+begin
+ NewNote(Screen);
+
+ // check for sentence end
+ // we check all lines here because a new sentence may
+ // have been started even before the old one finishes
+ // due to corrupt lien breaks
+ // checking only current line works to, but may lead to
+ // weird ratings for the song files w/ the mentioned
+ // errors
+ // To-Do Philipp : check current and last line should
+ // do it for most corrupt txt and for lines in
+ // non-corrupt txts that start immediatly after the prev.
+ // line ends
+ if (assigned(Screen)) then
+ begin
+ for I := 0 to Lines[0].High do
+ begin
+ with Lines[0].Line[I] do
+ begin
+ if (HighNote >= 0) then
+ begin
+ SentenceEnd := Note[HighNote].Start + Note[HighNote].Length;
+
+ if (LyricsState.OldBeatD < SentenceEnd) and (LyricsState.CurrentBeatD >= SentenceEnd) then
+ Screen.OnSentenceEnd(I);
+ end;
+ end;
+ end;
+ end;
+end;
+
+procedure NewNote(Screen: TScreenSing);
+var
+ LineFragmentIndex: integer;
+ CurrentLineFragment: PLineFragment;
+ PlayerIndex: integer;
+ CurrentSound: TCaptureBuffer;
+ CurrentPlayer: PPlayer;
+ LastPlayerNote: PPlayerNote;
+ Line: PLine;
+ SentenceIndex: integer;
+ SentenceMin: integer;
+ SentenceMax: integer;
+ SentenceDetected: integer; // sentence of detected note
+ ActualBeat: integer;
+ ActualTone: integer;
+ NoteAvailable: boolean;
+ NewNote: boolean;
+ Range: integer;
+ NoteHit: boolean;
+ MaxSongPoints: integer; // max. points for the song (without line bonus)
+ CurNotePoints: real; // Points for the cur. Note (PointsperNote * ScoreFactor[CurNote])
+begin
+ ActualTone := 0;
+ NoteHit := false;
+
+ // TODO: add duet mode support
+ // use Lines[LineSetIndex] with LineSetIndex depending on the current player
+
+ // count min and max sentence range for checking
+ // (detection is delayed to the notes we see on the screen)
+ SentenceMin := Lines[0].Current-1;
+ if (SentenceMin < 0) then
+ SentenceMin := 0;
+ SentenceMax := Lines[0].Current;
+
+ for ActualBeat := LyricsState.OldBeatD+1 to LyricsState.CurrentBeatD do
+ begin
+ // analyze player signals
+ for PlayerIndex := 0 to PlayersPlay-1 do
+ begin
+ // check for an active note at the current time defined in the lyrics
+ NoteAvailable := false;
+ SentenceDetected := SentenceMin;
+ for SentenceIndex := SentenceMin to SentenceMax do
+ begin
+ Line := @Lines[0].Line[SentenceIndex];
+ for LineFragmentIndex := 0 to Line.HighNote do
+ begin
+ CurrentLineFragment := @Line.Note[LineFragmentIndex];
+ // check if line is active
+ if ((CurrentLineFragment.Start <= ActualBeat) and
+ (CurrentLineFragment.Start + CurrentLineFragment.Length-1 >= ActualBeat)) and
+ (CurrentLineFragment.NoteType <> ntFreestyle) and // but ignore FreeStyle notes
+ (CurrentLineFragment.Length > 0) then // and make sure the note length is at least 1
+ begin
+ SentenceDetected := SentenceIndex;
+ NoteAvailable := true;
+ Break;
+ end;
+ end;
+ // TODO: break here, if NoteAvailable is true? We would then use the first instead
+ // of the last note matching the current beat if notes overlap. But notes
+ // should not overlap at all.
+ // if (NoteAvailable) then
+ // Break;
+ end;
+
+ CurrentPlayer := @Player[PlayerIndex];
+ CurrentSound := AudioInputProcessor.Sound[PlayerIndex];
+
+ // at the beginning of the song there is no previous note
+ if (Length(CurrentPlayer.Note) > 0) then
+ LastPlayerNote := @CurrentPlayer.Note[CurrentPlayer.HighNote]
+ else
+ LastPlayerNote := nil;
+
+ // analyze buffer
+ CurrentSound.AnalyzeBuffer;
+
+ // add some noise
+ // TODO: do we need this?
+ //LyricsState.Tone := LyricsState.Tone + Round(Random(3)) - 1;
+
+ // add note if possible
+ if (CurrentSound.ToneValid and NoteAvailable) then
+ begin
+ Line := @Lines[0].Line[SentenceDetected];
+ // process until last note
+ for LineFragmentIndex := 0 to Line.HighNote do
+ begin
+ CurrentLineFragment := @Line.Note[LineFragmentIndex];
+ if (CurrentLineFragment.Start <= ActualBeat) and
+ (CurrentLineFragment.Start + CurrentLineFragment.Length > ActualBeat) then
+ begin
+ // compare notes (from song-file and from player)
+
+ // move players tone to proper octave
+ while (CurrentSound.Tone - CurrentLineFragment.Tone > 6) do
+ CurrentSound.Tone := CurrentSound.Tone - 12;
+
+ while (CurrentSound.Tone - CurrentLineFragment.Tone < -6) do
+ CurrentSound.Tone := CurrentSound.Tone + 12;
+
+ // half size notes patch
+ NoteHit := false;
+ ActualTone := CurrentSound.Tone;
+ Range := 2 - Ini.Difficulty;
+
+ // check if the player hit the correct tone within the tolerated range
+ if (Abs(CurrentLineFragment.Tone - CurrentSound.Tone) <= Range) then
+ begin
+ // adjust the players tone to the correct one
+ // TODO: do we need to do this?
+ // Philipp: I think we do, at least when we draw the notes.
+ // Otherwise the notehit thing would be shifted to the
+ // correct unhit note. I think this will look kind of strange.
+ ActualTone := CurrentLineFragment.Tone;
+
+ // half size notes patch
+ NoteHit := true;
+
+ if (Ini.LineBonus > 0) then
+ MaxSongPoints := MAX_SONG_SCORE - MAX_SONG_LINE_BONUS
+ else
+ MaxSongPoints := MAX_SONG_SCORE;
+
+ // Note: ScoreValue is the sum of all note values of the song
+ // (MaxSongPoints / ScoreValue) is the points that a player
+ // gets for a hit of one beat of a normal note
+ // CurNotePoints is the amount of points that is meassured
+ // for a hit of the note per full beat
+ CurNotePoints := (MaxSongPoints / Lines[0].ScoreValue) * ScoreFactor[CurrentLineFragment.NoteType];
+
+ case CurrentLineFragment.NoteType of
+ ntNormal: CurrentPlayer.Score := CurrentPlayer.Score + CurNotePoints;
+ ntGolden: CurrentPlayer.ScoreGolden := CurrentPlayer.ScoreGolden + CurNotePoints;
+ end;
+
+ // a problem if we use floor instead of round is that a score of
+ // 10000 points is only possible if the last digit of the total points
+ // for golden and normal notes is 0.
+ // if we use round, the max score is 10000 for most songs
+ // but a score of 10010 is possible if the last digit of the total
+ // points for golden and normal notes is 5
+ // the best solution is to use round for one of these scores
+ // and round the other score in the opposite direction
+ // so we assure that the highest possible score is 10000 in every case.
+ CurrentPlayer.ScoreInt := round(CurrentPlayer.Score / 10) * 10;
+
+ if (CurrentPlayer.ScoreInt < CurrentPlayer.Score) then
+ //normal score is floored so we have to ceil golden notes score
+ CurrentPlayer.ScoreGoldenInt := ceil(CurrentPlayer.ScoreGolden / 10) * 10
+ else
+ //normal score is ceiled so we have to floor golden notes score
+ CurrentPlayer.ScoreGoldenInt := floor(CurrentPlayer.ScoreGolden / 10) * 10;
+
+
+ CurrentPlayer.ScoreTotalInt := CurrentPlayer.ScoreInt +
+ CurrentPlayer.ScoreGoldenInt +
+ CurrentPlayer.ScoreLineInt;
+ end;
+
+ end; // operation
+ end; // for
+
+ // check if we have to add a new note or extend the note's length
+ if (SentenceDetected = SentenceMax) then
+ begin
+ // we will add a new note
+ NewNote := true;
+
+ // if previous note (if any) was the same, extend previous note
+ if ((CurrentPlayer.LengthNote > 0) and
+ (LastPlayerNote <> nil) and
+ (LastPlayerNote.Tone = ActualTone) and
+ ((LastPlayerNote.Start + LastPlayerNote.Length) = ActualBeat)) then
+ begin
+ NewNote := false;
+ end;
+
+ // if is not as new note to control
+ for LineFragmentIndex := 0 to Line.HighNote do
+ begin
+ if (Line.Note[LineFragmentIndex].Start = ActualBeat) then
+ NewNote := true;
+ end;
+
+ // add new note
+ if NewNote then
+ begin
+ // new note
+ Inc(CurrentPlayer.LengthNote);
+ Inc(CurrentPlayer.HighNote);
+ SetLength(CurrentPlayer.Note, CurrentPlayer.LengthNote);
+
+ // update player's last note
+ LastPlayerNote := @CurrentPlayer.Note[CurrentPlayer.HighNote];
+ with LastPlayerNote^ do
+ begin
+ Start := ActualBeat;
+ Length := 1;
+ Tone := ActualTone; // Tone || ToneAbs
+ //Detect := LyricsState.MidBeat; // Not used!
+ Hit := NoteHit; // half note patch
+ end;
+ end
+ else
+ begin
+ // extend note length
+ if (LastPlayerNote <> nil) then
+ Inc(LastPlayerNote.Length);
+ end;
+
+ // check for perfect note and then light the star (on Draw)
+ for LineFragmentIndex := 0 to Line.HighNote do
+ begin
+ CurrentLineFragment := @Line.Note[LineFragmentIndex];
+ if (CurrentLineFragment.Start = LastPlayerNote.Start) and
+ (CurrentLineFragment.Length = LastPlayerNote.Length) and
+ (CurrentLineFragment.Tone = LastPlayerNote.Tone) then
+ begin
+ LastPlayerNote.Perfect := true;
+ end;
+ end;
+ end; // if SentenceDetected = SentenceMax
+
+ end; // if Detected
+ end; // for PlayerIndex
+ end; // for ActualBeat
+ //Log.LogStatus('EndBeat', 'NewBeat');
+end;
+
+end.