/**************************************************************************** * hcmplx.h * * This module contains all defines, typedefs, and prototypes for HCMPLX.C. * * from Persistence of Vision(tm) Ray Tracer * Copyright 1996 Persistence of Vision Team *--------------------------------------------------------------------------- * NOTICE: This source code file is provided so that users may experiment * with enhancements to POV-Ray and to port the software to platforms other * than those supported by the POV-Ray Team. There are strict rules under * which you are permitted to use this file. The rules are in the file * named POVLEGAL.DOC which should be distributed with this file. If * POVLEGAL.DOC is not available or for more info please contact the POV-Ray * Team Coordinator by leaving a message in CompuServe's Graphics Developer's * Forum. The latest version of POV-Ray may be found there as well. * * This program is based on the popular DKB raytracer version 2.12. * DKBTrace was originally written by David K. Buck. * DKBTrace Ver 2.0-2.12 were written by David K. Buck & Aaron A. Collins. * *****************************************************************************/ #ifndef HCMPLX_H #define HCMPLX_H /***************************************************************************** * Global preprocessor defines ******************************************************************************/ /***************************************************************************** * Global typedefs ******************************************************************************/ /***************************************************************************** * Global variables ******************************************************************************/ /***************************************************************************** * Global functions ******************************************************************************/ int F_Bound_HCompl PARAMS((RAY *, FRACTAL *, DBL *, DBL *)); void Normal_Calc_HCompl PARAMS((VECTOR, int, FRACTAL *)); int Iteration_HCompl PARAMS((VECTOR, FRACTAL *)); int D_Iteration_HCompl PARAMS((VECTOR, FRACTAL *, DBL *)); int F_Bound_HCompl_z3 PARAMS((RAY *, FRACTAL *, DBL *, DBL *)); void Normal_Calc_HCompl_z3 PARAMS((VECTOR, int, FRACTAL *)); int Iteration_HCompl_z3 PARAMS((VECTOR, FRACTAL *)); int D_Iteration_HCompl_z3 PARAMS((VECTOR, FRACTAL *, DBL *)); int F_Bound_HCompl_Reciprocal PARAMS((RAY *, FRACTAL *, DBL *, DBL *)); void Normal_Calc_HCompl_Reciprocal PARAMS((VECTOR, int, FRACTAL *)); int Iteration_HCompl_Reciprocal PARAMS((VECTOR, FRACTAL *)); int D_Iteration_HCompl_Reciprocal PARAMS((VECTOR, FRACTAL *, DBL *)); int F_Bound_HCompl_Func PARAMS((RAY *, FRACTAL *, DBL *, DBL *)); void Normal_Calc_HCompl_Func PARAMS((VECTOR, int, FRACTAL *)); int Iteration_HCompl_Func PARAMS((VECTOR, FRACTAL *)); int D_Iteration_HCompl_Func PARAMS((VECTOR, FRACTAL *, DBL *)); void Complex_Exp PARAMS((CMPLX *target, CMPLX *source)); void Complex_Log PARAMS((CMPLX *target, CMPLX *source)); void Complex_Sin PARAMS((CMPLX *target, CMPLX *source)); void Complex_ASin PARAMS((CMPLX *target, CMPLX *source)); void Complex_Sinh PARAMS((CMPLX *target, CMPLX *source)); void Complex_ASinh PARAMS((CMPLX *target, CMPLX *source)); void Complex_Cos PARAMS((CMPLX *target, CMPLX *source)); void Complex_ACos PARAMS((CMPLX *target, CMPLX *source)); void Complex_Cosh PARAMS((CMPLX *target, CMPLX *source)); void Complex_ACosh PARAMS((CMPLX *target, CMPLX *source)); void Complex_Tan PARAMS((CMPLX *target, CMPLX *source)); void Complex_ATan PARAMS((CMPLX *target, CMPLX *source)); void Complex_Tanh PARAMS((CMPLX *target, CMPLX *source)); void Complex_ATanh PARAMS((CMPLX *target, CMPLX *source)); void Complex_Sqrt PARAMS((CMPLX *target, CMPLX *source)); void Complex_Pwr PARAMS((CMPLX *target, CMPLX *source)); void Complex_Mult PARAMS((CMPLX *target, CMPLX *source1, CMPLX *source2)); void Complex_Div PARAMS((CMPLX *target, CMPLX *source1, CMPLX *source2)); void Complex_Power PARAMS((CMPLX *target, CMPLX *source1, CMPLX *source2)); #endif