AtomicGameEngine/Source/ThirdParty/embree/common/math/constants.h

// ======================================================================== //
// Copyright 2009-2017 Intel Corporation                                    //
//                                                                          //
// Licensed under the Apache License, Version 2.0 (the "License");          //
// you may not use this file except in compliance with the License.         //
// You may obtain a copy of the License at                                  //
//                                                                          //
//     http://www.apache.org/licenses/LICENSE-2.0                           //
//                                                                          //
// Unless required by applicable law or agreed to in writing, software      //
// distributed under the License is distributed on an "AS IS" BASIS,        //
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. //
// See the License for the specific language governing permissions and      //
// limitations under the License.                                           //
// ======================================================================== //

#pragma once

#include "../sys/platform.h"

#include <limits>

#define _USE_MATH_DEFINES
#include <math.h> // using cmath causes issues under Windows
#include <cfloat>

namespace embree
{
  static const float one_over_255 = 1.0f/255.0f;
  static const float min_rcp_input = 1E-18f;  // for abs(x) >= min_rcp_input the newton raphson rcp calculation does not fail

  /* we consider floating point numbers in that range as valid input numbers */
  static float FLT_LARGE = 1.844E18f;

  static struct TrueTy {
    __forceinline operator bool( ) const { return true; }
  } True MAYBE_UNUSED;

  static struct FalseTy {
    __forceinline operator bool( ) const { return false; }
  } False MAYBE_UNUSED;
  
  static struct ZeroTy
  {
    __forceinline operator          double   ( ) const { return 0; }
    __forceinline operator          float    ( ) const { return 0; }
    __forceinline operator          long long( ) const { return 0; }
    __forceinline operator unsigned long long( ) const { return 0; }
    __forceinline operator          long     ( ) const { return 0; }
    __forceinline operator unsigned long     ( ) const { return 0; }
    __forceinline operator          int      ( ) const { return 0; }
    __forceinline operator unsigned int      ( ) const { return 0; }
    __forceinline operator          short    ( ) const { return 0; }
    __forceinline operator unsigned short    ( ) const { return 0; }
    __forceinline operator          char     ( ) const { return 0; }
    __forceinline operator unsigned char     ( ) const { return 0; }
  } zero MAYBE_UNUSED;

  static struct OneTy
  {
    __forceinline operator          double   ( ) const { return 1; }
    __forceinline operator          float    ( ) const { return 1; }
    __forceinline operator          long long( ) const { return 1; }
    __forceinline operator unsigned long long( ) const { return 1; }
    __forceinline operator          long     ( ) const { return 1; }
    __forceinline operator unsigned long     ( ) const { return 1; }
    __forceinline operator          int      ( ) const { return 1; }
    __forceinline operator unsigned int      ( ) const { return 1; }
    __forceinline operator          short    ( ) const { return 1; }
    __forceinline operator unsigned short    ( ) const { return 1; }
    __forceinline operator          char     ( ) const { return 1; }
    __forceinline operator unsigned char     ( ) const { return 1; }
  } one MAYBE_UNUSED;

  static struct NegInfTy
  {
    __forceinline operator          double   ( ) const { return -std::numeric_limits<double>::infinity(); }
    __forceinline operator          float    ( ) const { return -std::numeric_limits<float>::infinity(); }
    __forceinline operator          long long( ) const { return std::numeric_limits<long long>::min(); }
    __forceinline operator unsigned long long( ) const { return std::numeric_limits<unsigned long long>::min(); }
    __forceinline operator          long     ( ) const { return std::numeric_limits<long>::min(); }
    __forceinline operator unsigned long     ( ) const { return std::numeric_limits<unsigned long>::min(); }
    __forceinline operator          int      ( ) const { return std::numeric_limits<int>::min(); }
    __forceinline operator unsigned int      ( ) const { return std::numeric_limits<unsigned int>::min(); }
    __forceinline operator          short    ( ) const { return std::numeric_limits<short>::min(); }
    __forceinline operator unsigned short    ( ) const { return std::numeric_limits<unsigned short>::min(); }
    __forceinline operator          char     ( ) const { return std::numeric_limits<char>::min(); }
    __forceinline operator unsigned char     ( ) const { return std::numeric_limits<unsigned char>::min(); }

  } neg_inf MAYBE_UNUSED;

  static struct PosInfTy
  {
    __forceinline operator          double   ( ) const { return std::numeric_limits<double>::infinity(); }
    __forceinline operator          float    ( ) const { return std::numeric_limits<float>::infinity(); }
    __forceinline operator          long long( ) const { return std::numeric_limits<long long>::max(); }
    __forceinline operator unsigned long long( ) const { return std::numeric_limits<unsigned long long>::max(); }
    __forceinline operator          long     ( ) const { return std::numeric_limits<long>::max(); }
    __forceinline operator unsigned long     ( ) const { return std::numeric_limits<unsigned long>::max(); }
    __forceinline operator          int      ( ) const { return std::numeric_limits<int>::max(); }
    __forceinline operator unsigned int      ( ) const { return std::numeric_limits<unsigned int>::max(); }
    __forceinline operator          short    ( ) const { return std::numeric_limits<short>::max(); }
    __forceinline operator unsigned short    ( ) const { return std::numeric_limits<unsigned short>::max(); }
    __forceinline operator          char     ( ) const { return std::numeric_limits<char>::max(); }
    __forceinline operator unsigned char     ( ) const { return std::numeric_limits<unsigned char>::max(); }
  } inf MAYBE_UNUSED, pos_inf MAYBE_UNUSED;

  static struct NaNTy
  {
    __forceinline operator double( ) const { return std::numeric_limits<double>::quiet_NaN(); }
    __forceinline operator float ( ) const { return std::numeric_limits<float>::quiet_NaN(); }
  } nan MAYBE_UNUSED;

  static struct UlpTy
  {
    __forceinline operator double( ) const { return std::numeric_limits<double>::epsilon(); }
    __forceinline operator float ( ) const { return std::numeric_limits<float>::epsilon(); }
  } ulp MAYBE_UNUSED;

  static struct PiTy
  {
    __forceinline operator double( ) const { return double(M_PI); }
    __forceinline operator float ( ) const { return float(M_PI); }
  } pi MAYBE_UNUSED;

  static struct OneOverPiTy
  {
    __forceinline operator double( ) const { return double(M_1_PI); }
    __forceinline operator float ( ) const { return float(M_1_PI); }
  } one_over_pi MAYBE_UNUSED;

  static struct TwoPiTy
  {
    __forceinline operator double( ) const { return double(2.0*M_PI); }
    __forceinline operator float ( ) const { return float(2.0*M_PI); }
  } two_pi MAYBE_UNUSED;

  static struct OneOverTwoPiTy
  {
    __forceinline operator double( ) const { return double(0.5*M_1_PI); }
    __forceinline operator float ( ) const { return float(0.5*M_1_PI); }
  } one_over_two_pi MAYBE_UNUSED;

  static struct FourPiTy
  {
    __forceinline operator double( ) const { return double(4.0*M_PI); } 
    __forceinline operator float ( ) const { return float(4.0*M_PI); }
  } four_pi MAYBE_UNUSED;

  static struct OneOverFourPiTy
  {
    __forceinline operator double( ) const { return double(0.25*M_1_PI); }
    __forceinline operator float ( ) const { return float(0.25*M_1_PI); }
  } one_over_four_pi MAYBE_UNUSED;

  static struct StepTy {
  } step MAYBE_UNUSED;

  static struct ReverseStepTy {
  } reverse_step MAYBE_UNUSED;

  static struct EmptyTy {
  } empty MAYBE_UNUSED;

  static struct FullTy {
  } full MAYBE_UNUSED;
}