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162 lines
5.8 KiB
C++
162 lines
5.8 KiB
C++
// Copyright (C) 2013 Davis E. King (davis@dlib.net)
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// License: Boost Software License See LICENSE.txt for the full license.
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#ifndef DLIB_FLOAT_DEtAILS_Hh_
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#define DLIB_FLOAT_DEtAILS_Hh_
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#include <cmath>
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#include "algs.h"
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#include <limits>
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namespace dlib
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{
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struct float_details
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{
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/*!
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WHAT THIS OBJECT REPRESENTS
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This object is a tool for converting floating point numbers into an
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explicit integer representation and then also converting back. In
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particular, a float_details object represents a floating point number with
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a 64 bit mantissa and 16 bit exponent. These are stored in the public
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fields of the same names.
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The main use of this object is to convert floating point values into a
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known uniform representation so they can be serialized to an output stream.
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This allows dlib serialization code to work on any system, regardless of
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the floating point representation used by the hardware. It also means
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that, for example, a double can be serialized and then deserialized into a
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float and it will perform the appropriate conversion.
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In more detail, this object represents a floating point value equal to
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mantissa*pow(2,exponent), except when exponent takes on any of the
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following special values:
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- is_inf
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- is_ninf
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- is_nan
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These values are used to indicate that the floating point value should be
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either infinity, negative infinity, or not-a-number respectively.
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!*/
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float_details(
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int64 man,
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int16 exp
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) : mantissa(man), exponent(exp) {}
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/*!
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ensures
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- #mantissa == man
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- #exponent == exp
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!*/
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float_details() :
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mantissa(0), exponent(0)
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{}
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/*!
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ensures
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- this object represents a floating point value of 0
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!*/
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float_details ( const double& val) { *this = val; }
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float_details ( const float& val) { *this = val; }
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float_details ( const long double& val) { *this = val; }
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/*!
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ensures
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- converts the given value into a float_details representation. This
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means that converting #*this back into a floating point number should
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recover the input val.
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!*/
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float_details& operator= ( const double& val) { convert_from_T(val); return *this; }
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float_details& operator= ( const float& val) { convert_from_T(val); return *this; }
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float_details& operator= ( const long double& val) { convert_from_T(val); return *this; }
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/*!
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ensures
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- converts the given value into a float_details representation. This
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means that converting #*this back into a floating point number should
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recover the input val.
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!*/
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operator double () const { return convert_to_T<double>(); }
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operator float () const { return convert_to_T<float>(); }
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operator long double () const { return convert_to_T<long double>(); }
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/*!
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ensures
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- converts the contents of this float_details object into a floating point number.
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!*/
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const static int16 is_inf = 32000;
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const static int16 is_ninf = 32001;
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const static int16 is_nan = 32002;
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int64 mantissa;
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int16 exponent;
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private:
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// ----------------------------------------------------------------------------------------
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// ----------------------------------------------------------------------------------------
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// IMPLEMENTATION DETAILS
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// ----------------------------------------------------------------------------------------
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// ----------------------------------------------------------------------------------------
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template <typename T>
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void convert_from_T (
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const T& val
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)
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{
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mantissa = 0;
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const int digits = dlib::tmin<std::numeric_limits<T>::digits, 63>::value;
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if (val == std::numeric_limits<T>::infinity())
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{
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exponent = is_inf;
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}
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else if (val == -std::numeric_limits<T>::infinity())
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{
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exponent = is_ninf;
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}
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else if (val < std::numeric_limits<T>::infinity())
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{
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int exp;
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mantissa = static_cast<int64>(std::frexp(val, &exp)*(((uint64)1)<<digits));
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exponent = exp - digits;
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// Compact the representation a bit by shifting off any low order bytes
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// which are zero in the mantissa. This makes the numbers in mantissa and
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// exponent generally smaller which can make serialization and other things
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// more efficient in some cases.
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for (int i = 0; i < 8 && ((mantissa&0xFF)==0); ++i)
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{
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mantissa >>= 8;
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exponent += 8;
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}
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}
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else
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{
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exponent = is_nan;
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}
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}
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template <typename T>
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T convert_to_T (
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) const
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{
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if (exponent < is_inf)
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return std::ldexp((T)mantissa, exponent);
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else if (exponent == is_inf)
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return std::numeric_limits<T>::infinity();
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else if (exponent == is_ninf)
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return -std::numeric_limits<T>::infinity();
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else
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return std::numeric_limits<T>::quiet_NaN();
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}
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};
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}
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#endif // DLIB_FLOAT_DEtAILS_Hh_
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