From dbf39d5bfc56c24a67d481187c619dc84828221f Mon Sep 17 00:00:00 2001 From: k-m_schindler Date: Tue, 23 Sep 2008 21:17:22 +0000 Subject: gpl header added and property svn:header set to "HeadURL Id" git-svn-id: svn://svn.code.sf.net/p/ultrastardx/svn/trunk@1403 b956fd51-792f-4845-bead-9b4dfca2ff2c --- src/menu/UMenuEqualizer.pas | 593 +++++++++++++++++++++++--------------------- 1 file changed, 309 insertions(+), 284 deletions(-) (limited to 'src/menu/UMenuEqualizer.pas') diff --git a/src/menu/UMenuEqualizer.pas b/src/menu/UMenuEqualizer.pas index 8cff606d..438c1c03 100644 --- a/src/menu/UMenuEqualizer.pas +++ b/src/menu/UMenuEqualizer.pas @@ -1,285 +1,310 @@ -unit UMenuEqualizer; - -interface - -{$IFDEF FPC} - {$MODE Delphi} -{$ENDIF} - -{$I switches.inc} - -uses UMusic, UThemes; - -type - //---------------- - //Tms_Equalizer - //Class displaying an equalizer (Songscreen) - //---------------- - Tms_Equalizer = class(TObject) - private - FFTData: TFFTData; // moved here to avoid stack overflows - BandData: array of Byte; - RefreshTime: Cardinal; - - Source: IAudioPlayback; - - Procedure Analyse; - public - X: Integer; - Y: Integer; - Z: Real; - - W: Integer; - H: Integer; - Space: Integer; - - Visible: Boolean; - Alpha: real; - Color: TRGB; - - Direction: Boolean; - - BandLength: Integer; - - Reflection: boolean; - Reflectionspacing: Real; - - - constructor Create(Source: IAudioPlayback; mySkin: TThemeEqualizer); - - procedure Draw; - - Procedure SetBands(Value: Byte); - Function GetBands: Byte; - Property Bands: Byte read GetBands write SetBands; - procedure SetSource(newSource: IAudioPlayback); - end; - -implementation -uses math, SDL, gl, glext; - - -constructor Tms_Equalizer.Create(Source: IAudioPlayback; mySkin: TThemeEqualizer); -var I: Integer; -begin - If (Source <> nil) then - begin - X := mySkin.X; - Y := mySkin.Y; - W := mySkin.W; - H := mySkin.H; - Z := mySkin.Z; - - Space := mySkin.Space; - - Visible := mySkin.Visible; - Alpha := mySkin.Alpha; - Color.R := mySkin.ColR; - Color.G := mySkin.ColG; - Color.B := mySkin.ColB; - - Direction := mySkin.Direction; - Bands := mySkin.Bands; - BandLength := mySkin.Length; - - Reflection := mySkin.Reflection; - Reflectionspacing := mySkin.Reflectionspacing; - - Self.Source := Source; - - - //Check if Visible - If (Bands <= 0) OR - (BandLength <= 0) OR - (W <= 0) OR - (H <= 0) OR - (Alpha <= 0) then - Visible := False; - - //ClearArray - For I := low(BandData) to high(BandData) do - BandData[I] := 3; - end - else - Visible := False; -end; - -//-------- -// evaluate FFT-Data -//-------- -Procedure Tms_Equalizer.Analyse; - var - I: Integer; - ChansPerBand: byte; // channels per band - MaxChannel: Integer; - Pos: Real; - CurBand: Integer; -begin - Source.GetFFTData(FFTData); - - Pos := 0; - // use only the first approx. 92 of 256 FFT-channels (approx. up to 8kHz - ChansPerBand := ceil(92 / Bands); // How much channels are used for one Band - MaxChannel := ChansPerBand * Bands - 1; - - // Change Lengths - for i := 0 to MaxChannel do - begin - // Gain higher freq. data so that the bars are visible - if i > 35 then - FFTData[i] := FFTData[i] * 8 - else if i > 11 then - FFTData[i] := FFTData[i] * 4.5 - else - FFTData[i] := FFTData[i] * 1.1; - - // clamp data - if (FFTData[i] > 1) then - FFTData[i] := 1; - - // Get max. pos - if (FFTData[i] * BandLength > Pos) then - Pos := FFTData[i] * BandLength; - - // Check if this is the last channel in the band - if ((i+1) mod ChansPerBand = 0) then - begin - CurBand := i div ChansPerBand; - - // Smooth delay if new equalizer is lower than the old one - if ((BandData[CurBand] > Pos) and (BandData[CurBand] > 1)) then - BandData[CurBand] := BandData[CurBand] - 1 - else - BandData[CurBand] := Round(Pos); - - Pos := 0; - end; - end; -end; - -//-------- -// Draw SpectrumAnalyser, Call Analyse -//-------- -procedure Tms_Equalizer.Draw; - var - CurTime: Cardinal; - PosX, PosY: Real; - I, J: Integer; - Diff: Real; - - Function GetAlpha(H: Single): Single; - begin - Result := (Alpha * 0.3) *(1 - H/(Bands * (W + Space))); - end; -begin - If (Visible) AND not (AudioPlayback.Finished) then - begin - //Call Analyse if necessary - CurTime := SDL_GetTicks(); - If (CurTime > RefreshTime) then - begin - Analyse; - - RefreshTime := CurTime + 44; - end; - - //Draw Equalizer Bands - // Setup OpenGL - glColorRGB(Color, Alpha); - glDisable(GL_TEXTURE_2D); - glEnable(GL_BLEND); - - // Set position of the first equalizer bar - PosY := Y; - PosX := X; - - // Draw bars for each band - for I := 0 to High(BandData) do - begin - // Reset to lower or left position depending on the drawing-direction - if Direction then // Vertical bars - // FIXME: Is Y the upper or lower coordinate? - PosY := Y //+ (H + Space) * BandLength - else // Horizontal bars - PosX := X; - - // Draw the bar as a stack of blocks - for J := 1 to BandData[I] do - begin - // Draw block - glBegin(GL_QUADS); - glVertex3f(PosX, PosY, Z); - glVertex3f(PosX, PosY+H, Z); - glVertex3f(PosX+W, PosY+H, Z); - glVertex3f(PosX+W, PosY, Z); - glEnd; - - If (Reflection) AND (J < BandLength div 2) then - begin - Diff := (Y-PosY) + H; - - //Draw Reflection - If Direction then - begin - glBegin(GL_QUADS); - glColorRGB(Color, GetAlpha(Diff)); - glVertex3f(PosX, Diff + Y + ReflectionSpacing, Z); - glVertex3f(PosX, Diff + Y+H + ReflectionSpacing, Z); - glVertex3f(PosX+W, Diff + Y+H + ReflectionSpacing, Z); - glVertex3f(PosX+W, Diff + Y + ReflectionSpacing, Z); - glColorRGB(Color, GetAlpha(Diff + H)); - glEnd; - end - else - begin - glBegin(GL_QUADS); - glColorRGB(Color, GetAlpha(Diff)); - glVertex3f(PosX, Diff + Y + (H + Space)*Bands + ReflectionSpacing, Z); - glVertex3f(PosX, Diff + Y+H + (H + Space)*Bands + ReflectionSpacing, Z); - glVertex3f(PosX+W, Diff + Y+H + (H + Space)*Bands + ReflectionSpacing, Z); - glVertex3f(PosX+W, Diff + Y + (H + Space)*Bands + ReflectionSpacing, Z); - glColorRGB(Color, GetAlpha(Diff + H)); - glEnd; - end; - - glColorRGB(Color, Alpha); - end; - - - // Calc position of the bar's next block - if Direction then // Vertical bars - PosY := PosY - H - Space - else // Horizontal bars - PosX := PosX + W + Space; - end; - - // Calc position of the next bar - if Direction then // Vertical bars - PosX := PosX + W + Space - else // Horizontal bars - PosY := PosY + H + Space; - end; - - - end; -end; - -Procedure Tms_Equalizer.SetBands(Value: Byte); -begin - SetLength(BandData, Value); -end; - -Function Tms_Equalizer.GetBands: Byte; -begin - Result := Length(BandData); -end; - -Procedure Tms_Equalizer.SetSource(newSource: IAudioPlayback); -begin - If (newSource <> nil) then - Source := newSource; -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 UMenuEqualizer; + +interface + +{$IFDEF FPC} + {$MODE Delphi} +{$ENDIF} + +{$I switches.inc} + +uses UMusic, UThemes; + +type + //---------------- + //Tms_Equalizer + //Class displaying an equalizer (Songscreen) + //---------------- + Tms_Equalizer = class(TObject) + private + FFTData: TFFTData; // moved here to avoid stack overflows + BandData: array of Byte; + RefreshTime: Cardinal; + + Source: IAudioPlayback; + + Procedure Analyse; + public + X: Integer; + Y: Integer; + Z: Real; + + W: Integer; + H: Integer; + Space: Integer; + + Visible: Boolean; + Alpha: real; + Color: TRGB; + + Direction: Boolean; + + BandLength: Integer; + + Reflection: boolean; + Reflectionspacing: Real; + + + constructor Create(Source: IAudioPlayback; mySkin: TThemeEqualizer); + + procedure Draw; + + Procedure SetBands(Value: Byte); + Function GetBands: Byte; + Property Bands: Byte read GetBands write SetBands; + procedure SetSource(newSource: IAudioPlayback); + end; + +implementation +uses math, SDL, gl, glext; + + +constructor Tms_Equalizer.Create(Source: IAudioPlayback; mySkin: TThemeEqualizer); +var I: Integer; +begin + If (Source <> nil) then + begin + X := mySkin.X; + Y := mySkin.Y; + W := mySkin.W; + H := mySkin.H; + Z := mySkin.Z; + + Space := mySkin.Space; + + Visible := mySkin.Visible; + Alpha := mySkin.Alpha; + Color.R := mySkin.ColR; + Color.G := mySkin.ColG; + Color.B := mySkin.ColB; + + Direction := mySkin.Direction; + Bands := mySkin.Bands; + BandLength := mySkin.Length; + + Reflection := mySkin.Reflection; + Reflectionspacing := mySkin.Reflectionspacing; + + Self.Source := Source; + + + //Check if Visible + If (Bands <= 0) OR + (BandLength <= 0) OR + (W <= 0) OR + (H <= 0) OR + (Alpha <= 0) then + Visible := False; + + //ClearArray + For I := low(BandData) to high(BandData) do + BandData[I] := 3; + end + else + Visible := False; +end; + +//-------- +// evaluate FFT-Data +//-------- +Procedure Tms_Equalizer.Analyse; + var + I: Integer; + ChansPerBand: byte; // channels per band + MaxChannel: Integer; + Pos: Real; + CurBand: Integer; +begin + Source.GetFFTData(FFTData); + + Pos := 0; + // use only the first approx. 92 of 256 FFT-channels (approx. up to 8kHz + ChansPerBand := ceil(92 / Bands); // How much channels are used for one Band + MaxChannel := ChansPerBand * Bands - 1; + + // Change Lengths + for i := 0 to MaxChannel do + begin + // Gain higher freq. data so that the bars are visible + if i > 35 then + FFTData[i] := FFTData[i] * 8 + else if i > 11 then + FFTData[i] := FFTData[i] * 4.5 + else + FFTData[i] := FFTData[i] * 1.1; + + // clamp data + if (FFTData[i] > 1) then + FFTData[i] := 1; + + // Get max. pos + if (FFTData[i] * BandLength > Pos) then + Pos := FFTData[i] * BandLength; + + // Check if this is the last channel in the band + if ((i+1) mod ChansPerBand = 0) then + begin + CurBand := i div ChansPerBand; + + // Smooth delay if new equalizer is lower than the old one + if ((BandData[CurBand] > Pos) and (BandData[CurBand] > 1)) then + BandData[CurBand] := BandData[CurBand] - 1 + else + BandData[CurBand] := Round(Pos); + + Pos := 0; + end; + end; +end; + +//-------- +// Draw SpectrumAnalyser, Call Analyse +//-------- +procedure Tms_Equalizer.Draw; + var + CurTime: Cardinal; + PosX, PosY: Real; + I, J: Integer; + Diff: Real; + + Function GetAlpha(H: Single): Single; + begin + Result := (Alpha * 0.3) *(1 - H/(Bands * (W + Space))); + end; +begin + If (Visible) AND not (AudioPlayback.Finished) then + begin + //Call Analyse if necessary + CurTime := SDL_GetTicks(); + If (CurTime > RefreshTime) then + begin + Analyse; + + RefreshTime := CurTime + 44; + end; + + //Draw Equalizer Bands + // Setup OpenGL + glColorRGB(Color, Alpha); + glDisable(GL_TEXTURE_2D); + glEnable(GL_BLEND); + + // Set position of the first equalizer bar + PosY := Y; + PosX := X; + + // Draw bars for each band + for I := 0 to High(BandData) do + begin + // Reset to lower or left position depending on the drawing-direction + if Direction then // Vertical bars + // FIXME: Is Y the upper or lower coordinate? + PosY := Y //+ (H + Space) * BandLength + else // Horizontal bars + PosX := X; + + // Draw the bar as a stack of blocks + for J := 1 to BandData[I] do + begin + // Draw block + glBegin(GL_QUADS); + glVertex3f(PosX, PosY, Z); + glVertex3f(PosX, PosY+H, Z); + glVertex3f(PosX+W, PosY+H, Z); + glVertex3f(PosX+W, PosY, Z); + glEnd; + + If (Reflection) AND (J < BandLength div 2) then + begin + Diff := (Y-PosY) + H; + + //Draw Reflection + If Direction then + begin + glBegin(GL_QUADS); + glColorRGB(Color, GetAlpha(Diff)); + glVertex3f(PosX, Diff + Y + ReflectionSpacing, Z); + glVertex3f(PosX, Diff + Y+H + ReflectionSpacing, Z); + glVertex3f(PosX+W, Diff + Y+H + ReflectionSpacing, Z); + glVertex3f(PosX+W, Diff + Y + ReflectionSpacing, Z); + glColorRGB(Color, GetAlpha(Diff + H)); + glEnd; + end + else + begin + glBegin(GL_QUADS); + glColorRGB(Color, GetAlpha(Diff)); + glVertex3f(PosX, Diff + Y + (H + Space)*Bands + ReflectionSpacing, Z); + glVertex3f(PosX, Diff + Y+H + (H + Space)*Bands + ReflectionSpacing, Z); + glVertex3f(PosX+W, Diff + Y+H + (H + Space)*Bands + ReflectionSpacing, Z); + glVertex3f(PosX+W, Diff + Y + (H + Space)*Bands + ReflectionSpacing, Z); + glColorRGB(Color, GetAlpha(Diff + H)); + glEnd; + end; + + glColorRGB(Color, Alpha); + end; + + + // Calc position of the bar's next block + if Direction then // Vertical bars + PosY := PosY - H - Space + else // Horizontal bars + PosX := PosX + W + Space; + end; + + // Calc position of the next bar + if Direction then // Vertical bars + PosX := PosX + W + Space + else // Horizontal bars + PosY := PosY + H + Space; + end; + + + end; +end; + +Procedure Tms_Equalizer.SetBands(Value: Byte); +begin + SetLength(BandData, Value); +end; + +Function Tms_Equalizer.GetBands: Byte; +begin + Result := Length(BandData); +end; + +Procedure Tms_Equalizer.SetSource(newSource: IAudioPlayback); +begin + If (newSource <> nil) then + Source := newSource; +end; + + + end. \ No newline at end of file -- cgit v1.2.3