opencv/3rdparty/openexr/Half/halfFunction.h

///////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2002, Industrial Light & Magic, a division of Lucas
// Digital Ltd. LLC
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
// *       Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// *       Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// *       Neither the name of Industrial Light & Magic nor the names of
// its contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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///////////////////////////////////////////////////////////////////////////

// Primary authors:
//     Florian Kainz <kainz@ilm.com>
//     Rod Bogart <rgb@ilm.com>


//---------------------------------------------------------------------------
//
//	halfFunction<T> -- a class for fast evaluation
//			   of half --> T functions
//
//	The constructor for a halfFunction object,
//
//	    halfFunction (function,
//			  domainMin, domainMax,
//			  defaultValue,
//			  posInfValue, negInfValue,
//			  nanValue);
//
//	evaluates the function for all finite half values in the interval
//	[domainMin, domainMax], and stores the results in a lookup table.
//	For finite half values that are not in [domainMin, domainMax], the
//	constructor stores defaultValue in the table.  For positive infinity,
//	negative infinity and NANs, posInfValue, negInfValue and nanValue
//	are stored in the table.
//
//	The tabulated function can then be evaluated quickly for arbitrary
//	half values by calling the the halfFunction object's operator()
//	method.
//
//	Example:
//
//	    #include <math.h>
//	    #include <halfFunction.h>
//
//	    halfFunction<half> hsin (sin);
//
//	    halfFunction<half> hsqrt (sqrt,		// function
//				      0, HALF_MAX,	// domain
//				      half::qNan(),	// sqrt(x) for x < 0
//				      half::posInf(),	// sqrt(+inf)
//				      half::qNan(),	// sqrt(-inf)
//				      half::qNan());	// sqrt(nan)
//
//	    half x = hsin (1);
//	    half y = hsqrt (3.5);
//
//---------------------------------------------------------------------------

#ifndef _HALF_FUNCTION_H_
#define _HALF_FUNCTION_H_

#include "half.h"

#include <IlmBaseConfig.h>
#ifndef ILMBASE_HAVE_LARGE_STACK
#include <string.h>     // need this for memset
#else
#endif

#include <float.h>


template <class T>
class halfFunction
{
  public:

    //------------
    // Constructor
    //------------

    template <class Function>
    halfFunction (Function f,
          half domainMin = -HALF_MAX,
          half domainMax =  HALF_MAX,
          T defaultValue = 0,
          T posInfValue  = 0,
          T negInfValue  = 0,
          T nanValue     = 0);

#ifndef ILMBASE_HAVE_LARGE_STACK
    ~halfFunction () { delete [] _lut; }
#endif

    //-----------
    // Evaluation
    //-----------

    T		operator () (half x) const;

  private:
#ifdef ILMBASE_HAVE_LARGE_STACK
    T		_lut[1 << 16];
#else
    T *         _lut;
#endif
};


//---------------
// Implementation
//---------------

template <class T>
template <class Function>
halfFunction<T>::halfFunction (Function f,
                   half domainMin,
                   half domainMax,
                   T defaultValue,
                   T posInfValue,
                   T negInfValue,
                   T nanValue)
{
#ifndef ILMBASE_HAVE_LARGE_STACK
    _lut = new T[1<<16];
    memset (_lut, 0 , (1<<16) * sizeof(T));
#endif

    for (int i = 0; i < (1 << 16); i++)
    {
    half x;
    x.setBits (i);

    if (x.isNan())
        _lut[i] = nanValue;
    else if (x.isInfinity())
        _lut[i] = x.isNegative()? negInfValue: posInfValue;
    else if (x < domainMin || x > domainMax)
        _lut[i] = defaultValue;
    else
        _lut[i] = f (x);
    }
}


template <class T>
inline T
halfFunction<T>::operator () (half x) const
{
    return _lut[x.bits()];
}


#endif