{ Apophysis Copyright (C) 2001-2004 Mark Townsend Apophysis Copyright (C) 2005-2006 Ronald Hordijk, Piotr Borys, Peter Sdobnov Apophysis Copyright (C) 2007-2008 Piotr Borys, Peter Sdobnov Apophysis "3D hack" Copyright (C) 2007-2008 Peter Sdobnov Apophysis "7X" Copyright (C) 2009-2010 Georg Kiehne Apophysis AV "Phoenix Edition" Copyright (C) 2021 Alice V. Koryagina 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; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. } unit varFlux; interface uses BaseVariation, XFormMan; type TVariationFlux = class(TBaseVariation) private spread, spr: double; public constructor Create; class function GetName: string; override; class function GetInstance: TBaseVariation; override; function GetNrVariables: integer; override; function GetVariableNameAt(const Index: integer): string; override; function SetVariable(const Name: string; var value: double): boolean; override; function GetVariable(const Name: string; var value: double): boolean; override; procedure Prepare; override; procedure CalcFunction; override; end; implementation uses Math; /////////////////////////////////////////////////////////////////////////////// procedure TVariationFlux.Prepare; begin spr := 2 + spread; end; /////////////////////////////////////// procedure TVariationFlux.CalcFunction; var avgr, avga, xmv, xpv, frc, x, y, y2, s, c: double; begin // Avoid reduant calculations by precalculating everything what is used at least twice x := FTx^; xpv := x + VVAR; xmv := x - VVAR; y := FTy^; y2 := sqr(y); // We have a division by zero problem in the original flux // (What if y + (x-vvar) == 0 ????) frc := sqrt(y2 + sqr(xmv)); if (frc = 0) then frc := 1.0; avgr := VVAR * (spr * sqrt(sqrt(y2 + sqr(xpv) ) / frc)); avga := (arctan2(y, xmv) - arctan2(y, xpv)) / 2.0; SinCos(avga, s, c); FPx^ := FPx^ + avgr * c; FPy^ := FPy^ + avgr * s; FPz^ := FPz^ + vvar * FTz^; end; /////////////////////////////////////////////////////////////////////////////// constructor TVariationFlux.Create; begin spread := 0; end; /////////////////////////////////////////////////////////////////////////////// class function TVariationFlux.GetInstance: TBaseVariation; begin Result := TVariationFlux.Create; end; /////////////////////////////////////////////////////////////////////////////// class function TVariationFlux.GetName: string; begin Result := 'flux'; end; /////////////////////////////////////////////////////////////////////////////// function TVariationFlux.GetVariableNameAt(const Index: integer): string; begin case Index Of 0: Result := 'flux_spread'; else Result := ''; end end; /////////////////////////////////////////////////////////////////////////////// function TVariationFlux.SetVariable(const Name: string; var value: double): boolean; begin Result := False; if Name = 'flux_spread' then begin spread := Value; Result := True; end; end; /////////////////////////////////////////////////////////////////////////////// function TVariationFlux.GetNrVariables: integer; begin Result := 1 end; /////////////////////////////////////////////////////////////////////////////// function TVariationFlux.GetVariable(const Name: string; var value: double): boolean; begin Result := False; if Name = 'flux_spread' then begin Value := spread; Result := True; end; end; /////////////////////////////////////////////////////////////////////////////// initialization RegisterVariation(TVariationClassLoader.Create(TVariationFlux), true, false); end.