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

 // Copyright 2019 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: options.h
 // -----------------------------------------------------------------------------
 //
 // This file contains Abseil configuration options for setting specific
 // implementations instead of letting Abseil determine which implementation to
 // use at compile-time. Setting these options may be useful for package or build
 // managers who wish to guarantee ABI stability within binary builds (which are
 // otherwise difficult to enforce).
 //
 // *** IMPORTANT NOTICE FOR PACKAGE MANAGERS:  It is important that
 // maintainers of package managers who wish to package Abseil read and
 // understand this file! ***
 //
 // Abseil contains a number of possible configuration endpoints, based on
 // parameters such as the detected platform, language version, or command-line
 // flags used to invoke the underlying binary. As is the case with all
 // libraries, binaries which contain Abseil code must ensure that separate
 // packages use the same compiled copy of Abseil to avoid a diamond dependency
 // problem, which can occur if two packages built with different Abseil
 // configuration settings are linked together. Diamond dependency problems in
 // C++ may manifest as violations to the One Definition Rule (ODR) (resulting in
 // linker errors), or undefined behavior (resulting in crashes).
 //
 // Diamond dependency problems can be avoided if all packages utilize the same
 // exact version of Abseil. Building from source code with the same compilation
 // parameters is the easiest way to avoid such dependency problems. However, for
 // package managers who cannot control such compilation parameters, we are
 // providing the file to allow you to inject ABI (Application Binary Interface)
 // stability across builds. Settings options in this file will neither change
 // API nor ABI, providing a stable copy of Abseil between packages.
 //
 // Care must be taken to keep options within these configurations isolated
 // from any other dynamic settings, such as command-line flags which could alter
 // these options. This file is provided specifically to help build and package
 // managers provide a stable copy of Abseil within their libraries and binaries;
 // other developers should not have need to alter the contents of this file.
 //
 // -----------------------------------------------------------------------------
 // Usage
 // -----------------------------------------------------------------------------
 //
 // For any particular package release, set the appropriate definitions within
 // this file to whatever value makes the most sense for your package(s). Note
 // that, by default, most of these options, at the moment, affect the
 // implementation of types; future options may affect other implementation
 // details.
 //
 // NOTE: the defaults within this file all assume that Abseil can select the
 // proper Abseil implementation at compile-time, which will not be sufficient
 // to guarantee ABI stability to package managers.

 #ifndef ABSL_BASE_OPTIONS_H_
 #define ABSL_BASE_OPTIONS_H_

 // -----------------------------------------------------------------------------
 // Type Compatibility Options
 // -----------------------------------------------------------------------------
 //
 // ABSL_OPTION_USE_STD_ANY
 //
 // This option controls whether absl::any is implemented as an alias to
 // std::any, or as an independent implementation.
 //
 // A value of 0 means to use Abseil's implementation.  This requires only C++11
 // support, and is expected to work on every toolchain we support.
 //
 // A value of 1 means to use an alias to std::any.  This requires that all code
 // using Abseil is built in C++17 mode or later.
 //
 // A value of 2 means to detect the C++ version being used to compile Abseil,
 // and use an alias only if a working std::any is available.  This option is
 // useful when you are building your entire program, including all of its
 // dependencies, from source.  It should not be used otherwise -- for example,
 // if you are distributing Abseil in a binary package manager -- since in
 // mode 2, absl::any will name a different type, with a different mangled name
 // and binary layout, depending on the compiler flags passed by the end user.
 // For more info, see https://abseil.io/about/design/dropin-types.
 //
 // User code should not inspect this macro.  To check in the preprocessor if
 // absl::any is a typedef of std::any, use the feature macro ABSL_USES_STD_ANY.

 #define ABSL_OPTION_USE_STD_ANY 2


 // ABSL_OPTION_USE_STD_OPTIONAL
 //
 // This option controls whether absl::optional is implemented as an alias to
 // std::optional, or as an independent implementation.
 //
 // A value of 0 means to use Abseil's implementation.  This requires only C++11
 // support, and is expected to work on every toolchain we support.
 //
 // A value of 1 means to use an alias to std::optional.  This requires that all
 // code using Abseil is built in C++17 mode or later.
 //
 // A value of 2 means to detect the C++ version being used to compile Abseil,
 // and use an alias only if a working std::optional is available.  This option
 // is useful when you are building your program from source.  It should not be
 // used otherwise -- for example, if you are distributing Abseil in a binary
 // package manager -- since in mode 2, absl::optional will name a different
 // type, with a different mangled name and binary layout, depending on the
 // compiler flags passed by the end user.  For more info, see
 // https://abseil.io/about/design/dropin-types.

 // User code should not inspect this macro.  To check in the preprocessor if
 // absl::optional is a typedef of std::optional, use the feature macro
 // ABSL_USES_STD_OPTIONAL.

 #define ABSL_OPTION_USE_STD_OPTIONAL 2


 // ABSL_OPTION_USE_STD_STRING_VIEW
 //
 // This option controls whether absl::string_view is implemented as an alias to
 // std::string_view, or as an independent implementation.
 //
 // A value of 0 means to use Abseil's implementation.  This requires only C++11
 // support, and is expected to work on every toolchain we support.
 //
 // A value of 1 means to use an alias to std::string_view.  This requires that
 // all code using Abseil is built in C++17 mode or later.
 //
 // A value of 2 means to detect the C++ version being used to compile Abseil,
 // and use an alias only if a working std::string_view is available.  This
 // option is useful when you are building your program from source.  It should
 // not be used otherwise -- for example, if you are distributing Abseil in a
 // binary package manager -- since in mode 2, absl::string_view will name a
 // different type, with a different mangled name and binary layout, depending on
 // the compiler flags passed by the end user.  For more info, see
 // https://abseil.io/about/design/dropin-types.
 //
 // User code should not inspect this macro.  To check in the preprocessor if
 // absl::string_view is a typedef of std::string_view, use the feature macro
 // ABSL_USES_STD_STRING_VIEW.

 #define ABSL_OPTION_USE_STD_STRING_VIEW 2

 // ABSL_OPTION_USE_STD_VARIANT
 //
 // This option controls whether absl::variant is implemented as an alias to
 // std::variant, or as an independent implementation.
 //
 // A value of 0 means to use Abseil's implementation.  This requires only C++11
 // support, and is expected to work on every toolchain we support.
 //
 // A value of 1 means to use an alias to std::variant.  This requires that all
 // code using Abseil is built in C++17 mode or later.
 //
 // A value of 2 means to detect the C++ version being used to compile Abseil,
 // and use an alias only if a working std::variant is available.  This option
 // is useful when you are building your program from source.  It should not be
 // used otherwise -- for example, if you are distributing Abseil in a binary
 // package manager -- since in mode 2, absl::variant will name a different
 // type, with a different mangled name and binary layout, depending on the
 // compiler flags passed by the end user.  For more info, see
 // https://abseil.io/about/design/dropin-types.
 //
 // User code should not inspect this macro.  To check in the preprocessor if
 // absl::variant is a typedef of std::variant, use the feature macro
 // ABSL_USES_STD_VARIANT.

 #define ABSL_OPTION_USE_STD_VARIANT 2

 // ABSL_OPTION_USE_STD_ORDERING
 //
 // This option controls whether absl::{partial,weak,strong}_ordering are
 // implemented as aliases to the std:: ordering types, or as an independent
 // implementation.
 //
 // A value of 0 means to use Abseil's implementation.  This requires only C++11
 // support, and is expected to work on every toolchain we support.
 //
 // A value of 1 means to use aliases.  This requires that all code using Abseil
 // is built in C++20 mode or later.
 //
 // A value of 2 means to detect the C++ version being used to compile Abseil,
 // and use an alias only if working std:: ordering types are available.  This
 // option is useful when you are building your program from source.  It should
 // not be used otherwise -- for example, if you are distributing Abseil in a
 // binary package manager -- since in mode 2, they will name different types,
 // with different mangled names and binary layout, depending on the compiler
 // flags passed by the end user.  For more info, see
 // https://abseil.io/about/design/dropin-types.
 //
 // User code should not inspect this macro.  To check in the preprocessor if
 // the ordering types are aliases of std:: ordering types, use the feature macro
 // ABSL_USES_STD_ORDERING.

 #define ABSL_OPTION_USE_STD_ORDERING 2

 // ABSL_OPTION_USE_INLINE_NAMESPACE
 // ABSL_OPTION_INLINE_NAMESPACE_NAME
 //
 // These options controls whether all entities in the absl namespace are
 // contained within an inner inline namespace.  This does not affect the
 // user-visible API of Abseil, but it changes the mangled names of all symbols.
 //
 // This can be useful as a version tag if you are distributing Abseil in
 // precompiled form.  This will prevent a binary library build of Abseil with
 // one inline namespace being used with headers configured with a different
 // inline namespace name.  Binary packagers are reminded that Abseil does not
 // guarantee any ABI stability in Abseil, so any update of Abseil or
 // configuration change in such a binary package should be combined with a
 // new, unique value for the inline namespace name.
 //
 // A value of 0 means not to use inline namespaces.
 //
 // A value of 1 means to use an inline namespace with the given name inside
 // namespace absl.  If this is set, ABSL_OPTION_INLINE_NAMESPACE_NAME must also
 // be changed to a new, unique identifier name.  In particular "head" is not
 // allowed.

 #define ABSL_OPTION_USE_INLINE_NAMESPACE 0
 #define ABSL_OPTION_INLINE_NAMESPACE_NAME head

 // ABSL_OPTION_HARDENED
 //
 // This option enables a "hardened" build in release mode (in this context,
 // release mode is defined as a build where the `NDEBUG` macro is defined).
 //
 // A value of 0 means that "hardened" mode is not enabled.
 //
 // A value of 1 means that "hardened" mode is enabled.
 //
 // Hardened builds have additional security checks enabled when `NDEBUG` is
 // defined. Defining `NDEBUG` is normally used to turn `assert()` macro into a
 // no-op, as well as disabling other bespoke program consistency checks. By
 // defining ABSL_OPTION_HARDENED to 1, a select set of checks remain enabled in
 // release mode. These checks guard against programming errors that may lead to
 // security vulnerabilities. In release mode, when one of these programming
 // errors is encountered, the program will immediately abort, possibly without
 // any attempt at logging.
 //
 // The checks enabled by this option are not free; they do incur runtime cost.
 //
 // The checks enabled by this option are always active when `NDEBUG` is not
 // defined, even in the case when ABSL_OPTION_HARDENED is defined to 0. The
 // checks enabled by this option may abort the program in a different way and
 // log additional information when `NDEBUG` is not defined.

 #define ABSL_OPTION_HARDENED 0

 #endif  // ABSL_BASE_OPTIONS_H_
	// Copyright 2019 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: options.h
	// -----------------------------------------------------------------------------
	//
	// This file contains Abseil configuration options for setting specific
	// implementations instead of letting Abseil determine which implementation to
	// use at compile-time. Setting these options may be useful for package or build
	// managers who wish to guarantee ABI stability within binary builds (which are
	// otherwise difficult to enforce).
	//
	// *** IMPORTANT NOTICE FOR PACKAGE MANAGERS: It is important that
	// maintainers of package managers who wish to package Abseil read and
	// understand this file! ***
	//
	// Abseil contains a number of possible configuration endpoints, based on
	// parameters such as the detected platform, language version, or command-line
	// flags used to invoke the underlying binary. As is the case with all
	// libraries, binaries which contain Abseil code must ensure that separate
	// packages use the same compiled copy of Abseil to avoid a diamond dependency
	// problem, which can occur if two packages built with different Abseil
	// configuration settings are linked together. Diamond dependency problems in
	// C++ may manifest as violations to the One Definition Rule (ODR) (resulting in
	// linker errors), or undefined behavior (resulting in crashes).
	//
	// Diamond dependency problems can be avoided if all packages utilize the same
	// exact version of Abseil. Building from source code with the same compilation
	// parameters is the easiest way to avoid such dependency problems. However, for
	// package managers who cannot control such compilation parameters, we are
	// providing the file to allow you to inject ABI (Application Binary Interface)
	// stability across builds. Settings options in this file will neither change
	// API nor ABI, providing a stable copy of Abseil between packages.
	//
	// Care must be taken to keep options within these configurations isolated
	// from any other dynamic settings, such as command-line flags which could alter
	// these options. This file is provided specifically to help build and package
	// managers provide a stable copy of Abseil within their libraries and binaries;
	// other developers should not have need to alter the contents of this file.
	//
	// -----------------------------------------------------------------------------
	// Usage
	// -----------------------------------------------------------------------------
	//
	// For any particular package release, set the appropriate definitions within
	// this file to whatever value makes the most sense for your package(s). Note
	// that, by default, most of these options, at the moment, affect the
	// implementation of types; future options may affect other implementation
	// details.
	//
	// NOTE: the defaults within this file all assume that Abseil can select the
	// proper Abseil implementation at compile-time, which will not be sufficient
	// to guarantee ABI stability to package managers.

	#ifndef ABSL_BASE_OPTIONS_H_
	#define ABSL_BASE_OPTIONS_H_

	// -----------------------------------------------------------------------------
	// Type Compatibility Options
	// -----------------------------------------------------------------------------
	//
	// ABSL_OPTION_USE_STD_ANY
	//
	// This option controls whether absl::any is implemented as an alias to
	// std::any, or as an independent implementation.
	//
	// A value of 0 means to use Abseil's implementation. This requires only C++11
	// support, and is expected to work on every toolchain we support.
	//
	// A value of 1 means to use an alias to std::any. This requires that all code
	// using Abseil is built in C++17 mode or later.
	//
	// A value of 2 means to detect the C++ version being used to compile Abseil,
	// and use an alias only if a working std::any is available. This option is
	// useful when you are building your entire program, including all of its
	// dependencies, from source. It should not be used otherwise -- for example,
	// if you are distributing Abseil in a binary package manager -- since in
	// mode 2, absl::any will name a different type, with a different mangled name
	// and binary layout, depending on the compiler flags passed by the end user.
	// For more info, see https://abseil.io/about/design/dropin-types.
	//
	// User code should not inspect this macro. To check in the preprocessor if
	// absl::any is a typedef of std::any, use the feature macro ABSL_USES_STD_ANY.

	#define ABSL_OPTION_USE_STD_ANY 2


	// ABSL_OPTION_USE_STD_OPTIONAL
	//
	// This option controls whether absl::optional is implemented as an alias to
	// std::optional, or as an independent implementation.
	//
	// A value of 0 means to use Abseil's implementation. This requires only C++11
	// support, and is expected to work on every toolchain we support.
	//
	// A value of 1 means to use an alias to std::optional. This requires that all
	// code using Abseil is built in C++17 mode or later.
	//
	// A value of 2 means to detect the C++ version being used to compile Abseil,
	// and use an alias only if a working std::optional is available. This option
	// is useful when you are building your program from source. It should not be
	// used otherwise -- for example, if you are distributing Abseil in a binary
	// package manager -- since in mode 2, absl::optional will name a different
	// type, with a different mangled name and binary layout, depending on the
	// compiler flags passed by the end user. For more info, see
	// https://abseil.io/about/design/dropin-types.

	// User code should not inspect this macro. To check in the preprocessor if
	// absl::optional is a typedef of std::optional, use the feature macro
	// ABSL_USES_STD_OPTIONAL.

	#define ABSL_OPTION_USE_STD_OPTIONAL 2


	// ABSL_OPTION_USE_STD_STRING_VIEW
	//
	// This option controls whether absl::string_view is implemented as an alias to
	// std::string_view, or as an independent implementation.
	//
	// A value of 0 means to use Abseil's implementation. This requires only C++11
	// support, and is expected to work on every toolchain we support.
	//
	// A value of 1 means to use an alias to std::string_view. This requires that
	// all code using Abseil is built in C++17 mode or later.
	//
	// A value of 2 means to detect the C++ version being used to compile Abseil,
	// and use an alias only if a working std::string_view is available. This
	// option is useful when you are building your program from source. It should
	// not be used otherwise -- for example, if you are distributing Abseil in a
	// binary package manager -- since in mode 2, absl::string_view will name a
	// different type, with a different mangled name and binary layout, depending on
	// the compiler flags passed by the end user. For more info, see
	// https://abseil.io/about/design/dropin-types.
	//
	// User code should not inspect this macro. To check in the preprocessor if
	// absl::string_view is a typedef of std::string_view, use the feature macro
	// ABSL_USES_STD_STRING_VIEW.

	#define ABSL_OPTION_USE_STD_STRING_VIEW 2

	// ABSL_OPTION_USE_STD_VARIANT
	//
	// This option controls whether absl::variant is implemented as an alias to
	// std::variant, or as an independent implementation.
	//
	// A value of 0 means to use Abseil's implementation. This requires only C++11
	// support, and is expected to work on every toolchain we support.
	//
	// A value of 1 means to use an alias to std::variant. This requires that all
	// code using Abseil is built in C++17 mode or later.
	//
	// A value of 2 means to detect the C++ version being used to compile Abseil,
	// and use an alias only if a working std::variant is available. This option
	// is useful when you are building your program from source. It should not be
	// used otherwise -- for example, if you are distributing Abseil in a binary
	// package manager -- since in mode 2, absl::variant will name a different
	// type, with a different mangled name and binary layout, depending on the
	// compiler flags passed by the end user. For more info, see
	// https://abseil.io/about/design/dropin-types.
	//
	// User code should not inspect this macro. To check in the preprocessor if
	// absl::variant is a typedef of std::variant, use the feature macro
	// ABSL_USES_STD_VARIANT.

	#define ABSL_OPTION_USE_STD_VARIANT 2

	// ABSL_OPTION_USE_STD_ORDERING
	//
	// This option controls whether absl::{partial,weak,strong}_ordering are
	// implemented as aliases to the std:: ordering types, or as an independent
	// implementation.
	//
	// A value of 0 means to use Abseil's implementation. This requires only C++11
	// support, and is expected to work on every toolchain we support.
	//
	// A value of 1 means to use aliases. This requires that all code using Abseil
	// is built in C++20 mode or later.
	//
	// A value of 2 means to detect the C++ version being used to compile Abseil,
	// and use an alias only if working std:: ordering types are available. This
	// option is useful when you are building your program from source. It should
	// not be used otherwise -- for example, if you are distributing Abseil in a
	// binary package manager -- since in mode 2, they will name different types,
	// with different mangled names and binary layout, depending on the compiler
	// flags passed by the end user. For more info, see
	// https://abseil.io/about/design/dropin-types.
	//
	// User code should not inspect this macro. To check in the preprocessor if
	// the ordering types are aliases of std:: ordering types, use the feature macro
	// ABSL_USES_STD_ORDERING.

	#define ABSL_OPTION_USE_STD_ORDERING 2

	// ABSL_OPTION_USE_INLINE_NAMESPACE
	// ABSL_OPTION_INLINE_NAMESPACE_NAME
	//
	// These options controls whether all entities in the absl namespace are
	// contained within an inner inline namespace. This does not affect the
	// user-visible API of Abseil, but it changes the mangled names of all symbols.
	//
	// This can be useful as a version tag if you are distributing Abseil in
	// precompiled form. This will prevent a binary library build of Abseil with
	// one inline namespace being used with headers configured with a different
	// inline namespace name. Binary packagers are reminded that Abseil does not
	// guarantee any ABI stability in Abseil, so any update of Abseil or
	// configuration change in such a binary package should be combined with a
	// new, unique value for the inline namespace name.
	//
	// A value of 0 means not to use inline namespaces.
	//
	// A value of 1 means to use an inline namespace with the given name inside
	// namespace absl. If this is set, ABSL_OPTION_INLINE_NAMESPACE_NAME must also
	// be changed to a new, unique identifier name. In particular "head" is not
	// allowed.

	#define ABSL_OPTION_USE_INLINE_NAMESPACE 0
	#define ABSL_OPTION_INLINE_NAMESPACE_NAME head

	// ABSL_OPTION_HARDENED
	//
	// This option enables a "hardened" build in release mode (in this context,
	// release mode is defined as a build where the `NDEBUG` macro is defined).
	//
	// A value of 0 means that "hardened" mode is not enabled.
	//
	// A value of 1 means that "hardened" mode is enabled.
	//
	// Hardened builds have additional security checks enabled when `NDEBUG` is
	// defined. Defining `NDEBUG` is normally used to turn `assert()` macro into a
	// no-op, as well as disabling other bespoke program consistency checks. By
	// defining ABSL_OPTION_HARDENED to 1, a select set of checks remain enabled in
	// release mode. These checks guard against programming errors that may lead to
	// security vulnerabilities. In release mode, when one of these programming
	// errors is encountered, the program will immediately abort, possibly without
	// any attempt at logging.
	//
	// The checks enabled by this option are not free; they do incur runtime cost.
	//
	// The checks enabled by this option are always active when `NDEBUG` is not
	// defined, even in the case when ABSL_OPTION_HARDENED is defined to 0. The
	// checks enabled by this option may abort the program in a different way and
	// log additional information when `NDEBUG` is not defined.

	#define ABSL_OPTION_HARDENED 0

	#endif // ABSL_BASE_OPTIONS_H_