absl/random/random.h - third_party/github/abseil/abseil-cpp - Git at Google

 // Copyright 2017 The Abseil Authors.
 //
 // 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
 //
 //      https://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.
 //
 // -----------------------------------------------------------------------------
 // File: random.h
 // -----------------------------------------------------------------------------
 //
 // This header defines the recommended Uniform Random Bit Generator (URBG)
 // types for use within the Abseil Random library. These types are not
 // suitable for security-related use-cases, but should suffice for most other
 // uses of generating random values.
 //
 // The Abseil random library provides the following URBG types:
 //
 //   * BitGen, a good general-purpose bit generator, optimized for generating
 //     random (but not cryptographically secure) values
 //   * InsecureBitGen, a slightly faster, though less random, bit generator, for
 //     cases where the existing BitGen is a drag on performance.

 #ifndef ABSL_RANDOM_RANDOM_H_
 #define ABSL_RANDOM_RANDOM_H_

 #include <random>

 #include "absl/random/distributions.h"  // IWYU pragma: export
 #include "absl/random/internal/nonsecure_base.h"  // IWYU pragma: export
 #include "absl/random/internal/pcg_engine.h"  // IWYU pragma: export
 #include "absl/random/internal/pool_urbg.h"
 #include "absl/random/internal/randen_engine.h"
 #include "absl/random/seed_sequences.h"  // IWYU pragma: export

 namespace absl {
 ABSL_NAMESPACE_BEGIN

 // -----------------------------------------------------------------------------
 // absl::BitGen
 // -----------------------------------------------------------------------------
 //
 // `absl::BitGen` is a general-purpose random bit generator for generating
 // random values for use within the Abseil random library. Typically, you use a
 // bit generator in combination with a distribution to provide random values.
 //
 // Example:
 //
 //   // Create an absl::BitGen. There is no need to seed this bit generator.
 //   absl::BitGen gen;
 //
 //   // Generate an integer value in the closed interval [1,6]
 //   int die_roll = absl::uniform_int_distribution<int>(1, 6)(gen);
 //
 // `absl::BitGen` is seeded by default with non-deterministic data to produce
 // different sequences of random values across different instances, including
 // different binary invocations. This behavior is different than the standard
 // library bit generators, which use golden values as their seeds. Default
 // construction intentionally provides no stability guarantees, to avoid
 // accidental dependence on such a property.
 //
 // `absl::BitGen` may be constructed with an optional seed sequence type,
 // conforming to [rand.req.seed_seq], which will be mixed with additional
 // non-deterministic data as detailed below.
 //
 // Example:
 //
 //  // Create an absl::BitGen using an std::seed_seq seed sequence
 //  std::seed_seq seq{1,2,3};
 //  absl::BitGen gen_with_seed(seq);
 //
 //  // Generate an integer value in the closed interval [1,6]
 //  int die_roll2 = absl::uniform_int_distribution<int>(1, 6)(gen_with_seed);
 //
 // Constructing two `absl::BitGen`s with the same seed sequence in the same
 // process will produce the same sequence of variates, but need not do so across
 // multiple processes even if they're executing the same binary.
 //
 // `absl::BitGen` meets the requirements of the Uniform Random Bit Generator
 // (URBG) concept as per the C++17 standard [rand.req.urng] though differs
 // slightly with [rand.req.eng]. Like its standard library equivalents (e.g.
 // `std::mersenne_twister_engine`) `absl::BitGen` is not cryptographically
 // secure.
 //
 // This type has been optimized to perform better than Mersenne Twister
 // (https://en.wikipedia.org/wiki/Mersenne_Twister) and many other complex URBG
 // types on modern x86, ARM, and PPC architectures.
 //
 // This type is thread-compatible, but not thread-safe.

 // ---------------------------------------------------------------------------
 // absl::BitGen member functions
 // ---------------------------------------------------------------------------

 // absl::BitGen::operator()()
 //
 // Calls the BitGen, returning a generated value.

 // absl::BitGen::min()
 //
 // Returns the smallest possible value from this bit generator.

 // absl::BitGen::max()
 //
 // Returns the largest possible value from this bit generator.

 // absl::BitGen::discard(num)
 //
 // Advances the internal state of this bit generator by `num` times, and
 // discards the intermediate results.
 // ---------------------------------------------------------------------------

 using BitGen = random_internal::NonsecureURBGBase<
     random_internal::randen_engine<uint64_t>>;

 // -----------------------------------------------------------------------------
 // absl::InsecureBitGen
 // -----------------------------------------------------------------------------
 //
 // `absl::InsecureBitGen` is an efficient random bit generator for generating
 // random values, recommended only for performance-sensitive use cases where
 // `absl::BitGen` is not satisfactory when compute-bounded by bit generation
 // costs.
 //
 // Example:
 //
 //   // Create an absl::InsecureBitGen
 //   absl::InsecureBitGen gen;
 //   for (size_t i = 0; i < 1000000; i++) {
 //
 //     // Generate a bunch of random values from some complex distribution
 //     auto my_rnd = some_distribution(gen, 1, 1000);
 //   }
 //
 // Like `absl::BitGen`, `absl::InsecureBitGen` is seeded by default with
 // non-deterministic data to produce different sequences of random values across
 // different instances, including different binary invocations. (This behavior
 // is different than the standard library bit generators, which use golden
 // values as their seeds.)
 //
 // `absl::InsecureBitGen` may be constructed with an optional seed sequence
 // type, conforming to [rand.req.seed_seq], which will be mixed with additional
 // non-deterministic data, as detailed in the `absl::BitGen` comment.
 //
 // `absl::InsecureBitGen` meets the requirements of the Uniform Random Bit
 // Generator (URBG) concept as per the C++17 standard [rand.req.urng] though
 // its implementation differs slightly with [rand.req.eng]. Like its standard
 // library equivalents (e.g. `std::mersenne_twister_engine`)
 // `absl::InsecureBitGen` is not cryptographically secure.
 //
 // Prefer `absl::BitGen` over `absl::InsecureBitGen` as the general type is
 // often fast enough for the vast majority of applications.

 using InsecureBitGen =
     random_internal::NonsecureURBGBase<random_internal::pcg64_2018_engine>;

 // ---------------------------------------------------------------------------
 // absl::InsecureBitGen member functions
 // ---------------------------------------------------------------------------

 // absl::InsecureBitGen::operator()()
 //
 // Calls the InsecureBitGen, returning a generated value.

 // absl::InsecureBitGen::min()
 //
 // Returns the smallest possible value from this bit generator.

 // absl::InsecureBitGen::max()
 //
 // Returns the largest possible value from this bit generator.

 // absl::InsecureBitGen::discard(num)
 //
 // Advances the internal state of this bit generator by `num` times, and
 // discards the intermediate results.
 // ---------------------------------------------------------------------------

 ABSL_NAMESPACE_END
 }  // namespace absl

 #endif  // ABSL_RANDOM_RANDOM_H_
	// Copyright 2017 The Abseil Authors.
	//
	// 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
	//
	// https://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.
	//
	// -----------------------------------------------------------------------------
	// File: random.h
	// -----------------------------------------------------------------------------
	//
	// This header defines the recommended Uniform Random Bit Generator (URBG)
	// types for use within the Abseil Random library. These types are not
	// suitable for security-related use-cases, but should suffice for most other
	// uses of generating random values.
	//
	// The Abseil random library provides the following URBG types:
	//
	// * BitGen, a good general-purpose bit generator, optimized for generating
	// random (but not cryptographically secure) values
	// * InsecureBitGen, a slightly faster, though less random, bit generator, for
	// cases where the existing BitGen is a drag on performance.

	#ifndef ABSL_RANDOM_RANDOM_H_
	#define ABSL_RANDOM_RANDOM_H_

	#include <random>

	#include "absl/random/distributions.h" // IWYU pragma: export
	#include "absl/random/internal/nonsecure_base.h" // IWYU pragma: export
	#include "absl/random/internal/pcg_engine.h" // IWYU pragma: export
	#include "absl/random/internal/pool_urbg.h"
	#include "absl/random/internal/randen_engine.h"
	#include "absl/random/seed_sequences.h" // IWYU pragma: export

	namespace absl {
	ABSL_NAMESPACE_BEGIN

	// -----------------------------------------------------------------------------
	// absl::BitGen
	// -----------------------------------------------------------------------------
	//
	// `absl::BitGen` is a general-purpose random bit generator for generating
	// random values for use within the Abseil random library. Typically, you use a
	// bit generator in combination with a distribution to provide random values.
	//
	// Example:
	//
	// // Create an absl::BitGen. There is no need to seed this bit generator.
	// absl::BitGen gen;
	//
	// // Generate an integer value in the closed interval [1,6]
	// int die_roll = absl::uniform_int_distribution<int>(1, 6)(gen);
	//
	// `absl::BitGen` is seeded by default with non-deterministic data to produce
	// different sequences of random values across different instances, including
	// different binary invocations. This behavior is different than the standard
	// library bit generators, which use golden values as their seeds. Default
	// construction intentionally provides no stability guarantees, to avoid
	// accidental dependence on such a property.
	//
	// `absl::BitGen` may be constructed with an optional seed sequence type,
	// conforming to [rand.req.seed_seq], which will be mixed with additional
	// non-deterministic data as detailed below.
	//
	// Example:
	//
	// // Create an absl::BitGen using an std::seed_seq seed sequence
	// std::seed_seq seq{1,2,3};
	// absl::BitGen gen_with_seed(seq);
	//
	// // Generate an integer value in the closed interval [1,6]
	// int die_roll2 = absl::uniform_int_distribution<int>(1, 6)(gen_with_seed);
	//
	// Constructing two `absl::BitGen`s with the same seed sequence in the same
	// process will produce the same sequence of variates, but need not do so across
	// multiple processes even if they're executing the same binary.
	//
	// `absl::BitGen` meets the requirements of the Uniform Random Bit Generator
	// (URBG) concept as per the C++17 standard [rand.req.urng] though differs
	// slightly with [rand.req.eng]. Like its standard library equivalents (e.g.
	// `std::mersenne_twister_engine`) `absl::BitGen` is not cryptographically
	// secure.
	//
	// This type has been optimized to perform better than Mersenne Twister
	// (https://en.wikipedia.org/wiki/Mersenne_Twister) and many other complex URBG
	// types on modern x86, ARM, and PPC architectures.
	//
	// This type is thread-compatible, but not thread-safe.

	// ---------------------------------------------------------------------------
	// absl::BitGen member functions
	// ---------------------------------------------------------------------------

	// absl::BitGen::operator()()
	//
	// Calls the BitGen, returning a generated value.

	// absl::BitGen::min()
	//
	// Returns the smallest possible value from this bit generator.

	// absl::BitGen::max()
	//
	// Returns the largest possible value from this bit generator.

	// absl::BitGen::discard(num)
	//
	// Advances the internal state of this bit generator by `num` times, and
	// discards the intermediate results.
	// ---------------------------------------------------------------------------

	using BitGen = random_internal::NonsecureURBGBase<
	random_internal::randen_engine<uint64_t>>;

	// -----------------------------------------------------------------------------
	// absl::InsecureBitGen
	// -----------------------------------------------------------------------------
	//
	// `absl::InsecureBitGen` is an efficient random bit generator for generating
	// random values, recommended only for performance-sensitive use cases where
	// `absl::BitGen` is not satisfactory when compute-bounded by bit generation
	// costs.
	//
	// Example:
	//
	// // Create an absl::InsecureBitGen
	// absl::InsecureBitGen gen;
	// for (size_t i = 0; i < 1000000; i++) {
	//
	// // Generate a bunch of random values from some complex distribution
	// auto my_rnd = some_distribution(gen, 1, 1000);
	// }
	//
	// Like `absl::BitGen`, `absl::InsecureBitGen` is seeded by default with
	// non-deterministic data to produce different sequences of random values across
	// different instances, including different binary invocations. (This behavior
	// is different than the standard library bit generators, which use golden
	// values as their seeds.)
	//
	// `absl::InsecureBitGen` may be constructed with an optional seed sequence
	// type, conforming to [rand.req.seed_seq], which will be mixed with additional
	// non-deterministic data, as detailed in the `absl::BitGen` comment.
	//
	// `absl::InsecureBitGen` meets the requirements of the Uniform Random Bit
	// Generator (URBG) concept as per the C++17 standard [rand.req.urng] though
	// its implementation differs slightly with [rand.req.eng]. Like its standard
	// library equivalents (e.g. `std::mersenne_twister_engine`)
	// `absl::InsecureBitGen` is not cryptographically secure.
	//
	// Prefer `absl::BitGen` over `absl::InsecureBitGen` as the general type is
	// often fast enough for the vast majority of applications.

	using InsecureBitGen =
	random_internal::NonsecureURBGBase<random_internal::pcg64_2018_engine>;

	// ---------------------------------------------------------------------------
	// absl::InsecureBitGen member functions
	// ---------------------------------------------------------------------------

	// absl::InsecureBitGen::operator()()
	//
	// Calls the InsecureBitGen, returning a generated value.

	// absl::InsecureBitGen::min()
	//
	// Returns the smallest possible value from this bit generator.

	// absl::InsecureBitGen::max()
	//
	// Returns the largest possible value from this bit generator.

	// absl::InsecureBitGen::discard(num)
	//
	// Advances the internal state of this bit generator by `num` times, and
	// discards the intermediate results.
	// ---------------------------------------------------------------------------

	ABSL_NAMESPACE_END
	} // namespace absl

	#endif // ABSL_RANDOM_RANDOM_H_