rtc_base/numerics/safe_compare.h - src - Git at Google

 /*
  *  Copyright 2016 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 // This file defines six constexpr functions:
 //
 //   rtc::SafeEq  // ==
 //   rtc::SafeNe  // !=
 //   rtc::SafeLt  // <
 //   rtc::SafeLe  // <=
 //   rtc::SafeGt  // >
 //   rtc::SafeGe  // >=
 //
 // They each accept two arguments of arbitrary types, and in almost all cases,
 // they simply call the appropriate comparison operator. However, if both
 // arguments are integers, they don't compare them using C++'s quirky rules,
 // but instead adhere to the true mathematical definitions. It is as if the
 // arguments were first converted to infinite-range signed integers, and then
 // compared, although of course nothing expensive like that actually takes
 // place. In practice, for signed/signed and unsigned/unsigned comparisons and
 // some mixed-signed comparisons with a compile-time constant, the overhead is
 // zero; in the remaining cases, it is just a few machine instructions (no
 // branches).

 #ifndef RTC_BASE_NUMERICS_SAFE_COMPARE_H_
 #define RTC_BASE_NUMERICS_SAFE_COMPARE_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <type_traits>
 #include <utility>

 #include "rtc_base/type_traits.h"

 namespace rtc {

 namespace safe_cmp_impl {

 template <size_t N>
 struct LargerIntImpl : std::false_type {};
 template <>
 struct LargerIntImpl<sizeof(int8_t)> : std::true_type {
   using type = int16_t;
 };
 template <>
 struct LargerIntImpl<sizeof(int16_t)> : std::true_type {
   using type = int32_t;
 };
 template <>
 struct LargerIntImpl<sizeof(int32_t)> : std::true_type {
   using type = int64_t;
 };

 // LargerInt<T1, T2>::value is true iff there's a signed type that's larger
 // than T1 (and no larger than the larger of T2 and int*, for performance
 // reasons); and if there is such a type, LargerInt<T1, T2>::type is an alias
 // for it.
 template <typename T1, typename T2>
 struct LargerInt
     : LargerIntImpl<sizeof(T1) < sizeof(T2) || sizeof(T1) < sizeof(int*)
                         ? sizeof(T1)
                         : 0> {};

 template <typename T>
 constexpr typename std::make_unsigned<T>::type MakeUnsigned(T a) {
   return static_cast<typename std::make_unsigned<T>::type>(a);
 }

 // Overload for when both T1 and T2 have the same signedness.
 template <typename Op,
           typename T1,
           typename T2,
           typename std::enable_if<std::is_signed<T1>::value ==
                                   std::is_signed<T2>::value>::type* = nullptr>
 constexpr bool Cmp(T1 a, T2 b) {
   return Op::Op(a, b);
 }

 // Overload for signed - unsigned comparison that can be promoted to a bigger
 // signed type.
 template <typename Op,
           typename T1,
           typename T2,
           typename std::enable_if<std::is_signed<T1>::value &&
                                   std::is_unsigned<T2>::value &&
                                   LargerInt<T2, T1>::value>::type* = nullptr>
 constexpr bool Cmp(T1 a, T2 b) {
   return Op::Op(a, static_cast<typename LargerInt<T2, T1>::type>(b));
 }

 // Overload for unsigned - signed comparison that can be promoted to a bigger
 // signed type.
 template <typename Op,
           typename T1,
           typename T2,
           typename std::enable_if<std::is_unsigned<T1>::value &&
                                   std::is_signed<T2>::value &&
                                   LargerInt<T1, T2>::value>::type* = nullptr>
 constexpr bool Cmp(T1 a, T2 b) {
   return Op::Op(static_cast<typename LargerInt<T1, T2>::type>(a), b);
 }

 // Overload for signed - unsigned comparison that can't be promoted to a bigger
 // signed type.
 template <typename Op,
           typename T1,
           typename T2,
           typename std::enable_if<std::is_signed<T1>::value &&
                                   std::is_unsigned<T2>::value &&
                                   !LargerInt<T2, T1>::value>::type* = nullptr>
 constexpr bool Cmp(T1 a, T2 b) {
   return a < 0 ? Op::Op(-1, 0) : Op::Op(safe_cmp_impl::MakeUnsigned(a), b);
 }

 // Overload for unsigned - signed comparison that can't be promoted to a bigger
 // signed type.
 template <typename Op,
           typename T1,
           typename T2,
           typename std::enable_if<std::is_unsigned<T1>::value &&
                                   std::is_signed<T2>::value &&
                                   !LargerInt<T1, T2>::value>::type* = nullptr>
 constexpr bool Cmp(T1 a, T2 b) {
   return b < 0 ? Op::Op(0, -1) : Op::Op(a, safe_cmp_impl::MakeUnsigned(b));
 }

 #define RTC_SAFECMP_MAKE_OP(name, op)      \
   struct name {                            \
     template <typename T1, typename T2>    \
     static constexpr bool Op(T1 a, T2 b) { \
       return a op b;                       \
     }                                      \
   };
 RTC_SAFECMP_MAKE_OP(EqOp, ==)
 RTC_SAFECMP_MAKE_OP(NeOp, !=)
 RTC_SAFECMP_MAKE_OP(LtOp, <)
 RTC_SAFECMP_MAKE_OP(LeOp, <=)
 RTC_SAFECMP_MAKE_OP(GtOp, >)
 RTC_SAFECMP_MAKE_OP(GeOp, >=)
 #undef RTC_SAFECMP_MAKE_OP

 }  // namespace safe_cmp_impl

 #define RTC_SAFECMP_MAKE_FUN(name)                                            \
   template <typename T1, typename T2>                                         \
   constexpr                                                                   \
       typename std::enable_if<IsIntlike<T1>::value && IsIntlike<T2>::value,   \
                               bool>::type Safe##name(T1 a, T2 b) {            \
     /* Unary plus here turns enums into real integral types. */               \
     return safe_cmp_impl::Cmp<safe_cmp_impl::name##Op>(+a, +b);               \
   }                                                                           \
   template <typename T1, typename T2>                                         \
   constexpr                                                                   \
       typename std::enable_if<!IsIntlike<T1>::value || !IsIntlike<T2>::value, \
                               bool>::type Safe##name(const T1& a,             \
                                                      const T2& b) {           \
     return safe_cmp_impl::name##Op::Op(a, b);                                 \
   }
 RTC_SAFECMP_MAKE_FUN(Eq)
 RTC_SAFECMP_MAKE_FUN(Ne)
 RTC_SAFECMP_MAKE_FUN(Lt)
 RTC_SAFECMP_MAKE_FUN(Le)
 RTC_SAFECMP_MAKE_FUN(Gt)
 RTC_SAFECMP_MAKE_FUN(Ge)
 #undef RTC_SAFECMP_MAKE_FUN

 }  // namespace rtc

 #endif  // RTC_BASE_NUMERICS_SAFE_COMPARE_H_
	/*
	* Copyright 2016 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	// This file defines six constexpr functions:
	//
	// rtc::SafeEq // ==
	// rtc::SafeNe // !=
	// rtc::SafeLt // <
	// rtc::SafeLe // <=
	// rtc::SafeGt // >
	// rtc::SafeGe // >=
	//
	// They each accept two arguments of arbitrary types, and in almost all cases,
	// they simply call the appropriate comparison operator. However, if both
	// arguments are integers, they don't compare them using C++'s quirky rules,
	// but instead adhere to the true mathematical definitions. It is as if the
	// arguments were first converted to infinite-range signed integers, and then
	// compared, although of course nothing expensive like that actually takes
	// place. In practice, for signed/signed and unsigned/unsigned comparisons and
	// some mixed-signed comparisons with a compile-time constant, the overhead is
	// zero; in the remaining cases, it is just a few machine instructions (no
	// branches).

	#ifndef RTC_BASE_NUMERICS_SAFE_COMPARE_H_
	#define RTC_BASE_NUMERICS_SAFE_COMPARE_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <type_traits>
	#include <utility>

	#include "rtc_base/type_traits.h"

	namespace rtc {

	namespace safe_cmp_impl {

	template <size_t N>
	struct LargerIntImpl : std::false_type {};
	template <>
	struct LargerIntImpl<sizeof(int8_t)> : std::true_type {
	using type = int16_t;
	};
	template <>
	struct LargerIntImpl<sizeof(int16_t)> : std::true_type {
	using type = int32_t;
	};
	template <>
	struct LargerIntImpl<sizeof(int32_t)> : std::true_type {
	using type = int64_t;
	};

	// LargerInt<T1, T2>::value is true iff there's a signed type that's larger
	// than T1 (and no larger than the larger of T2 and int*, for performance
	// reasons); and if there is such a type, LargerInt<T1, T2>::type is an alias
	// for it.
	template <typename T1, typename T2>
	struct LargerInt
	: LargerIntImpl<sizeof(T1) < sizeof(T2) \|\| sizeof(T1) < sizeof(int*)
	? sizeof(T1)
	: 0> {};

	template <typename T>
	constexpr typename std::make_unsigned<T>::type MakeUnsigned(T a) {
	return static_cast<typename std::make_unsigned<T>::type>(a);
	}

	// Overload for when both T1 and T2 have the same signedness.
	template <typename Op,
	typename T1,
	typename T2,
	typename std::enable_if<std::is_signed<T1>::value ==
	std::is_signed<T2>::value>::type* = nullptr>
	constexpr bool Cmp(T1 a, T2 b) {
	return Op::Op(a, b);
	}

	// Overload for signed - unsigned comparison that can be promoted to a bigger
	// signed type.
	template <typename Op,
	typename T1,
	typename T2,
	typename std::enable_if<std::is_signed<T1>::value &&
	std::is_unsigned<T2>::value &&
	LargerInt<T2, T1>::value>::type* = nullptr>
	constexpr bool Cmp(T1 a, T2 b) {
	return Op::Op(a, static_cast<typename LargerInt<T2, T1>::type>(b));
	}

	// Overload for unsigned - signed comparison that can be promoted to a bigger
	// signed type.
	template <typename Op,
	typename T1,
	typename T2,
	typename std::enable_if<std::is_unsigned<T1>::value &&
	std::is_signed<T2>::value &&
	LargerInt<T1, T2>::value>::type* = nullptr>
	constexpr bool Cmp(T1 a, T2 b) {
	return Op::Op(static_cast<typename LargerInt<T1, T2>::type>(a), b);
	}

	// Overload for signed - unsigned comparison that can't be promoted to a bigger
	// signed type.
	template <typename Op,
	typename T1,
	typename T2,
	typename std::enable_if<std::is_signed<T1>::value &&
	std::is_unsigned<T2>::value &&
	!LargerInt<T2, T1>::value>::type* = nullptr>
	constexpr bool Cmp(T1 a, T2 b) {
	return a < 0 ? Op::Op(-1, 0) : Op::Op(safe_cmp_impl::MakeUnsigned(a), b);
	}

	// Overload for unsigned - signed comparison that can't be promoted to a bigger
	// signed type.
	template <typename Op,
	typename T1,
	typename T2,
	typename std::enable_if<std::is_unsigned<T1>::value &&
	std::is_signed<T2>::value &&
	!LargerInt<T1, T2>::value>::type* = nullptr>
	constexpr bool Cmp(T1 a, T2 b) {
	return b < 0 ? Op::Op(0, -1) : Op::Op(a, safe_cmp_impl::MakeUnsigned(b));
	}

	#define RTC_SAFECMP_MAKE_OP(name, op) \
	struct name { \
	template <typename T1, typename T2> \
	static constexpr bool Op(T1 a, T2 b) { \
	return a op b; \
	} \
	};
	RTC_SAFECMP_MAKE_OP(EqOp, ==)
	RTC_SAFECMP_MAKE_OP(NeOp, !=)
	RTC_SAFECMP_MAKE_OP(LtOp, <)
	RTC_SAFECMP_MAKE_OP(LeOp, <=)
	RTC_SAFECMP_MAKE_OP(GtOp, >)
	RTC_SAFECMP_MAKE_OP(GeOp, >=)
	#undef RTC_SAFECMP_MAKE_OP

	} // namespace safe_cmp_impl

	#define RTC_SAFECMP_MAKE_FUN(name) \
	template <typename T1, typename T2> \
	constexpr \
	typename std::enable_if<IsIntlike<T1>::value && IsIntlike<T2>::value, \
	bool>::type Safe##name(T1 a, T2 b) { \
	/* Unary plus here turns enums into real integral types. */ \
	return safe_cmp_impl::Cmp<safe_cmp_impl::name##Op>(+a, +b); \
	} \
	template <typename T1, typename T2> \
	constexpr \
	typename std::enable_if<!IsIntlike<T1>::value \|\| !IsIntlike<T2>::value, \
	bool>::type Safe##name(const T1& a, \
	const T2& b) { \
	return safe_cmp_impl::name##Op::Op(a, b); \
	}
	RTC_SAFECMP_MAKE_FUN(Eq)
	RTC_SAFECMP_MAKE_FUN(Ne)
	RTC_SAFECMP_MAKE_FUN(Lt)
	RTC_SAFECMP_MAKE_FUN(Le)
	RTC_SAFECMP_MAKE_FUN(Gt)
	RTC_SAFECMP_MAKE_FUN(Ge)
	#undef RTC_SAFECMP_MAKE_FUN

	} // namespace rtc

	#endif // RTC_BASE_NUMERICS_SAFE_COMPARE_H_