test/random_without_cast_overflow.h - eigen - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2020 C. Antonio Sanchez <cantonios@google.com>
 //
 // This Source Code Form is subject to the terms of the Mozilla
 // Public License v. 2.0. If a copy of the MPL was not distributed
 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

 // Utilities for generating random numbers without overflows, which might
 // otherwise result in undefined behavior.

 namespace Eigen {
 namespace internal {

 // Default implementation assuming SrcScalar fits into TgtScalar.
 template <typename SrcScalar, typename TgtScalar, typename EnableIf = void>
 struct random_without_cast_overflow {
   static SrcScalar value() { return internal::random<SrcScalar>(); }
 };

 // Signed to unsigned integer widening cast.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<NumTraits<SrcScalar>::IsInteger && NumTraits<TgtScalar>::IsInteger &&
                    !NumTraits<TgtScalar>::IsSigned &&
                    (std::numeric_limits<SrcScalar>::digits < std::numeric_limits<TgtScalar>::digits ||
                     (std::numeric_limits<SrcScalar>::digits == std::numeric_limits<TgtScalar>::digits &&
                      NumTraits<SrcScalar>::IsSigned))>> {
   static SrcScalar value() {
     SrcScalar a = internal::random<SrcScalar>();
     return a < SrcScalar(0) ? -(a + 1) : a;
   }
 };

 // Integer to unsigned narrowing cast.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<
         NumTraits<SrcScalar>::IsInteger && NumTraits<TgtScalar>::IsInteger && !NumTraits<SrcScalar>::IsSigned &&
         (std::numeric_limits<SrcScalar>::digits > std::numeric_limits<TgtScalar>::digits)>> {
   static SrcScalar value() {
     TgtScalar b = internal::random<TgtScalar>();
     return static_cast<SrcScalar>(b < TgtScalar(0) ? -(b + 1) : b);
   }
 };

 // Integer to signed narrowing cast.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<
         NumTraits<SrcScalar>::IsInteger && NumTraits<TgtScalar>::IsInteger && NumTraits<SrcScalar>::IsSigned &&
         (std::numeric_limits<SrcScalar>::digits > std::numeric_limits<TgtScalar>::digits)>> {
   static SrcScalar value() { return static_cast<SrcScalar>(internal::random<TgtScalar>()); }
 };

 // Unsigned to signed integer narrowing cast.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<NumTraits<SrcScalar>::IsInteger && NumTraits<TgtScalar>::IsInteger &&
                      !NumTraits<SrcScalar>::IsSigned && NumTraits<TgtScalar>::IsSigned &&
                      (std::numeric_limits<SrcScalar>::digits ==
                       std::numeric_limits<TgtScalar>::digits)>> {
   static SrcScalar value() { return internal::random<SrcScalar>() / 2; }
 };

 // Floating-point to integer, full precision.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<
         !NumTraits<SrcScalar>::IsInteger && !NumTraits<SrcScalar>::IsComplex && NumTraits<TgtScalar>::IsInteger &&
         (std::numeric_limits<TgtScalar>::digits <= std::numeric_limits<SrcScalar>::digits)>> {
   static SrcScalar value() { return static_cast<SrcScalar>(internal::random<TgtScalar>()); }
 };

 // Floating-point to integer, narrowing precision.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<
         !NumTraits<SrcScalar>::IsInteger && !NumTraits<SrcScalar>::IsComplex && NumTraits<TgtScalar>::IsInteger &&
         (std::numeric_limits<TgtScalar>::digits > std::numeric_limits<SrcScalar>::digits)>> {
   static SrcScalar value() {
     // NOTE: internal::random<T>() is limited by RAND_MAX, so random<int64_t> is always within that range.
     // This prevents us from simply shifting bits, which would result in only 0 or -1.
     // Instead, keep least-significant K bits and sign.
     static const TgtScalar KeepMask = (static_cast<TgtScalar>(1) << std::numeric_limits<SrcScalar>::digits) - 1;
     const TgtScalar a = internal::random<TgtScalar>();
     return static_cast<SrcScalar>(a > TgtScalar(0) ? (a & KeepMask) : -(a & KeepMask));
   }
 };

 // Integer to floating-point, re-use above logic.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<NumTraits<SrcScalar>::IsInteger && !NumTraits<TgtScalar>::IsInteger &&
                      !NumTraits<TgtScalar>::IsComplex>> {
   static SrcScalar value() {
     return static_cast<SrcScalar>(random_without_cast_overflow<TgtScalar, SrcScalar>::value());
   }
 };

 // Floating-point narrowing conversion.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<!NumTraits<SrcScalar>::IsInteger && !NumTraits<SrcScalar>::IsComplex &&
                      !NumTraits<TgtScalar>::IsInteger && !NumTraits<TgtScalar>::IsComplex &&
                      (std::numeric_limits<SrcScalar>::digits >
                       std::numeric_limits<TgtScalar>::digits)>> {
   static SrcScalar value() { return static_cast<SrcScalar>(internal::random<TgtScalar>()); }
 };

 // Complex to non-complex.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<NumTraits<SrcScalar>::IsComplex && !NumTraits<TgtScalar>::IsComplex>> {
   typedef typename NumTraits<SrcScalar>::Real SrcReal;
   static SrcScalar value() { return SrcScalar(random_without_cast_overflow<SrcReal, TgtScalar>::value(), 0); }
 };

 // Non-complex to complex.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<!NumTraits<SrcScalar>::IsComplex && NumTraits<TgtScalar>::IsComplex>> {
   typedef typename NumTraits<TgtScalar>::Real TgtReal;
   static SrcScalar value() { return random_without_cast_overflow<SrcScalar, TgtReal>::value(); }
 };

 // Complex to complex.
 template <typename SrcScalar, typename TgtScalar>
 struct random_without_cast_overflow<
     SrcScalar, TgtScalar,
     std::enable_if_t<NumTraits<SrcScalar>::IsComplex && NumTraits<TgtScalar>::IsComplex>> {
   typedef typename NumTraits<SrcScalar>::Real SrcReal;
   typedef typename NumTraits<TgtScalar>::Real TgtReal;
   static SrcScalar value() {
     return SrcScalar(random_without_cast_overflow<SrcReal, TgtReal>::value(),
                      random_without_cast_overflow<SrcReal, TgtReal>::value());
   }
 };

 }  // namespace internal
 }  // namespace Eigen
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2020 C. Antonio Sanchez <cantonios@google.com>
	//
	// This Source Code Form is subject to the terms of the Mozilla
	// Public License v. 2.0. If a copy of the MPL was not distributed
	// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

	// Utilities for generating random numbers without overflows, which might
	// otherwise result in undefined behavior.

	namespace Eigen {
	namespace internal {

	// Default implementation assuming SrcScalar fits into TgtScalar.
	template <typename SrcScalar, typename TgtScalar, typename EnableIf = void>
	struct random_without_cast_overflow {
	static SrcScalar value() { return internal::random<SrcScalar>(); }
	};

	// Signed to unsigned integer widening cast.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<NumTraits<SrcScalar>::IsInteger && NumTraits<TgtScalar>::IsInteger &&
	!NumTraits<TgtScalar>::IsSigned &&
	(std::numeric_limits<SrcScalar>::digits < std::numeric_limits<TgtScalar>::digits \|\|
	(std::numeric_limits<SrcScalar>::digits == std::numeric_limits<TgtScalar>::digits &&
	NumTraits<SrcScalar>::IsSigned))>> {
	static SrcScalar value() {
	SrcScalar a = internal::random<SrcScalar>();
	return a < SrcScalar(0) ? -(a + 1) : a;
	}
	};

	// Integer to unsigned narrowing cast.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<
	NumTraits<SrcScalar>::IsInteger && NumTraits<TgtScalar>::IsInteger && !NumTraits<SrcScalar>::IsSigned &&
	(std::numeric_limits<SrcScalar>::digits > std::numeric_limits<TgtScalar>::digits)>> {
	static SrcScalar value() {
	TgtScalar b = internal::random<TgtScalar>();
	return static_cast<SrcScalar>(b < TgtScalar(0) ? -(b + 1) : b);
	}
	};

	// Integer to signed narrowing cast.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<
	NumTraits<SrcScalar>::IsInteger && NumTraits<TgtScalar>::IsInteger && NumTraits<SrcScalar>::IsSigned &&
	(std::numeric_limits<SrcScalar>::digits > std::numeric_limits<TgtScalar>::digits)>> {
	static SrcScalar value() { return static_cast<SrcScalar>(internal::random<TgtScalar>()); }
	};

	// Unsigned to signed integer narrowing cast.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<NumTraits<SrcScalar>::IsInteger && NumTraits<TgtScalar>::IsInteger &&
	!NumTraits<SrcScalar>::IsSigned && NumTraits<TgtScalar>::IsSigned &&
	(std::numeric_limits<SrcScalar>::digits ==
	std::numeric_limits<TgtScalar>::digits)>> {
	static SrcScalar value() { return internal::random<SrcScalar>() / 2; }
	};

	// Floating-point to integer, full precision.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<
	!NumTraits<SrcScalar>::IsInteger && !NumTraits<SrcScalar>::IsComplex && NumTraits<TgtScalar>::IsInteger &&
	(std::numeric_limits<TgtScalar>::digits <= std::numeric_limits<SrcScalar>::digits)>> {
	static SrcScalar value() { return static_cast<SrcScalar>(internal::random<TgtScalar>()); }
	};

	// Floating-point to integer, narrowing precision.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<
	!NumTraits<SrcScalar>::IsInteger && !NumTraits<SrcScalar>::IsComplex && NumTraits<TgtScalar>::IsInteger &&
	(std::numeric_limits<TgtScalar>::digits > std::numeric_limits<SrcScalar>::digits)>> {
	static SrcScalar value() {
	// NOTE: internal::random<T>() is limited by RAND_MAX, so random<int64_t> is always within that range.
	// This prevents us from simply shifting bits, which would result in only 0 or -1.
	// Instead, keep least-significant K bits and sign.
	static const TgtScalar KeepMask = (static_cast<TgtScalar>(1) << std::numeric_limits<SrcScalar>::digits) - 1;
	const TgtScalar a = internal::random<TgtScalar>();
	return static_cast<SrcScalar>(a > TgtScalar(0) ? (a & KeepMask) : -(a & KeepMask));
	}
	};

	// Integer to floating-point, re-use above logic.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<NumTraits<SrcScalar>::IsInteger && !NumTraits<TgtScalar>::IsInteger &&
	!NumTraits<TgtScalar>::IsComplex>> {
	static SrcScalar value() {
	return static_cast<SrcScalar>(random_without_cast_overflow<TgtScalar, SrcScalar>::value());
	}
	};

	// Floating-point narrowing conversion.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<!NumTraits<SrcScalar>::IsInteger && !NumTraits<SrcScalar>::IsComplex &&
	!NumTraits<TgtScalar>::IsInteger && !NumTraits<TgtScalar>::IsComplex &&
	(std::numeric_limits<SrcScalar>::digits >
	std::numeric_limits<TgtScalar>::digits)>> {
	static SrcScalar value() { return static_cast<SrcScalar>(internal::random<TgtScalar>()); }
	};

	// Complex to non-complex.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<NumTraits<SrcScalar>::IsComplex && !NumTraits<TgtScalar>::IsComplex>> {
	typedef typename NumTraits<SrcScalar>::Real SrcReal;
	static SrcScalar value() { return SrcScalar(random_without_cast_overflow<SrcReal, TgtScalar>::value(), 0); }
	};

	// Non-complex to complex.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<!NumTraits<SrcScalar>::IsComplex && NumTraits<TgtScalar>::IsComplex>> {
	typedef typename NumTraits<TgtScalar>::Real TgtReal;
	static SrcScalar value() { return random_without_cast_overflow<SrcScalar, TgtReal>::value(); }
	};

	// Complex to complex.
	template <typename SrcScalar, typename TgtScalar>
	struct random_without_cast_overflow<
	SrcScalar, TgtScalar,
	std::enable_if_t<NumTraits<SrcScalar>::IsComplex && NumTraits<TgtScalar>::IsComplex>> {
	typedef typename NumTraits<SrcScalar>::Real SrcReal;
	typedef typename NumTraits<TgtScalar>::Real TgtReal;
	static SrcScalar value() {
	return SrcScalar(random_without_cast_overflow<SrcReal, TgtReal>::value(),
	random_without_cast_overflow<SrcReal, TgtReal>::value());
	}
	};

	} // namespace internal
	} // namespace Eigen