[library Boost.Scope [quickbook 1.7] [authors [Semashev, Andrey]] [copyright 2022-2024 Andrey Semashev] [license Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at [@https://www.boost.org/LICENSE_1_0.txt]). ] [id scope] [source-mode c++] ] [c++] [/ Links to external resources /] [def __boost_config__ [@https://www.boost.org/doc/libs/release/libs/config/doc/html/index.html Boost.Config]] [def __boost_core__ [@https://www.boost.org/doc/libs/release/libs/core/doc/html/index.html Boost.Core]] [def __boost_core_functor__ [@https://www.boost.org/doc/libs/release/libs/core/doc/html/core/functor.html `functor`]] [def __boost_function__ [@https://www.boost.org/doc/libs/release/doc/html/function.html Boost.Function]] [def __boost_outcome__ [@https://www.boost.org/doc/libs/release/libs/outcome/doc/html/index.html Boost.Outcome]] [def __boost_scope_exit__ [@https://www.boost.org/doc/libs/release/libs/scope_exit/doc/html/index.html Boost.ScopeExit]] [def __boost_smart_ptr__ [@https://www.boost.org/doc/libs/release/libs/smart_ptr/doc/html/smart_ptr.html Boost.SmartPtr]] [def __boost_system__ [@https://www.boost.org/doc/libs/release/libs/system/doc/html/system.html Boost.System]] [template github_issue[key][@https://github.com/boostorg/scope/issues/[key] #[key]]] [template github_pr[key][@https://github.com/boostorg/scope/pull/[key] PR#[key]]] [/ Auto-generated macros that refer to Reference sections /] [import tmp/top_level_reference.qbk] [section:intro Introduction] The Boost.Scope library is a collection of utilities helping with code execution upon leaving a scope and automatic resource management. The library contains components that are similar to those specified in the [@https://cplusplus.github.io/fundamentals-ts/v3.html C++ Extensions for Library Fundamentals, Version 3] technical specification (or TS, for short), in the [@https://cplusplus.github.io/fundamentals-ts/v3.html#scope.syn ``] standard library header, originally defined in [@https://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p0052r10.pdf P0052R10]. The library also contains extensions to the TS that improve usability and efficiency of the components. The components provided by the library can be divided into two categories: * A set of scope guards that allow executing arbitrary code when the scope guard is destroyed, * A generic resource wrapper that automatically frees the owned resource upon destruction. The library defines its components in namespace `boost::scope`. For brevity, the namespace qualification may be omitted in this documentation; readers should assume that unqualified names like `scope_exit` or `unique_resource` are defined in `boost::scope`. Scope guards allow the user to execute a piece of code (an action) upon leaving the scope where the scope guard is declared. Depending on the scope guard, the action can be executed unconditionally, upon leaving the scope normally or due to an exception, or even according to a user-specified condition. This can be useful in a variety of use cases, some of which are illustrated below. [table Syntax overview of Boost.Scope scope guards [[C++11][C++17]] [[ ``` class adder { int x, y; public: // Computes a sum of integers int compute() { // Reset variables on return or exception auto cleanup = boost::scope::make_scope_exit([this] { x = 0; y = 0; }); long long int sum = static_cast< long long int >(x) + static_cast< long long int >(y); if (sum < std::numeric_limits< int >::min() || sum > std::numeric_limits< int >::max()) { throw std::overflow_error("Integer overflow"); } return static_cast< int >(sum); } }; ``` ] [ ``` class adder { int x, y; public: // Computes a sum of integers int compute() { // Reset variables on return or exception. // Anonymous scope guard. BOOST_SCOPE_DEFER [this] { x = 0; y = 0; }; long long int sum = static_cast< long long int >(x) + static_cast< long long int >(y); if (sum < std::numeric_limits< int >::min() || sum > std::numeric_limits< int >::max()) { throw std::overflow_error("Integer overflow"); } return static_cast< int >(sum); } }; ``` ]] [[ ``` template< typename Object > class collection { std::set< Object > objects; public: // Adds a new object to the collection Object& add_object() { auto it = objects.emplace(); // Revert object insertion on exception auto cleanup = boost::scope::make_scope_fail([this, it] { objects.erase(it); }); // Throws on error it->on_added(*this); return *it; } }; ``` ] [ ``` template< typename Object > class collection { std::set< Object > objects; public: // Adds a new object to the collection Object& add_object() { auto it = objects.emplace(); // Revert object insertion on exception boost::scope::scope_fail cleanup{[this, it] { objects.erase(it); }}; // Throws on error it->on_added(*this); return *it; } }; ``` ]] [[ ``` // Writes a list of strings to the file, in CSV format bool save_as_csv(std::vector< std::string > const& strings, std::string const& filename) { std::ofstream file(filename.c_str(), std::ios_base::out | std::ios_base::trunc); if (!file.is_open()) return false; // Set a scope guard to remove the partially written file // in case of error - exception or not auto remove_guard = boost::scope::make_scope_exit([&file, &filename] { file.close(); // close the file to allow remove() to succeed on Windows std::remove(filename.c_str()); }); bool first = true; for (auto const& str : strings) { if (!first) file << ','; else first = false; file << '"' << str << '"'; if (file.fail()) return false; } file << std::endl; if (file.fail()) return false; // Commit the operation remove_guard.set_active(false); return true; } ``` ] [ ``` // Writes a list of strings to the file, in CSV format bool save_as_csv(std::vector< std::string > const& strings, std::string const& filename) { std::ofstream file(filename.c_str(), std::ios_base::out | std::ios_base::trunc); if (!file.is_open()) return false; // Set a scope guard to remove the partially written file // in case of error - exception or not boost::scope::scope_exit remove_guard{[&file, &filename] { file.close(); // close the file to allow remove() to succeed on Windows std::remove(filename.c_str()); }}; bool first = true; for (auto const& str : strings) { if (!first) file << ','; else first = false; file << '"' << str << '"'; if (file.fail()) return false; } file << std::endl; if (file.fail()) return false; // Commit the operation remove_guard.set_active(false); return true; } ``` ]] ] There is some overlap between scope guards provided by this library and __boost_scope_exit__. Compared to __boost_scope_exit__, Boost.Scope offers simpler syntax (especially with C++17 capable compilers) and new features for specific use cases. Detailed comparison between scope guards provided by Boost.Scope and __boost_scope_exit__ is given in a [link scope.scope_guards.comparison_with_boost_scope_exit separate section]. Unique resource wrapper provided by Boost.Scope is a generalization of smart pointers like `std::unique_ptr` and `boost::scoped_ptr` from __boost_smart_ptr__. While smart pointers are suitable for managing resources represented by pointers (e.g. objects in dynamically allocated memory), unique resource wrapper can be used with many more kinds of resource types, such as integers (e.g. POSIX file descriptors) and user-defined types. // Fills the buffer with random bytes from system RNG. Returns 0 on success, otherwise an error code. int get_random_bytes(unsigned char* bytes, std::size_t size) { // Open RNG device and wrap the returned POSIX file descriptor in unique_resource. // This wrapper will automatically close the file descriptor upon destruction by invoking fd_deleter on it. boost::scope::unique_resource< int, boost::scope::fd_deleter, boost::scope::fd_resource_traits > fd(open("/dev/urandom", O_RDONLY)); // fd_resource_traits allows the unique_resource to recognize when open() returns a valid file descriptor // and when it fails and returns -1. In the latter case, the constructed unique_resource is unallocated, // which we test below. if (!fd) return errno; // Read random bytes until the buffer is filled or an error occurs std::size_t read_size = 0u; while (read_size < size) { ssize_t res = read(fd.get(), bytes + read_size, size - read_size); if (res < 0) { int err = errno; if (err == EINTR) continue; return err; } if (res == 0) return ENODATA; read_size += res; } return 0; } [endsect] [section:install_compat Installation and compatibility] This library is header-only, it does not require separate compilation. You can add the path to Boost headers to your project, include the required Boost.Scope header and then use the component provided by that header in your code. The library requires a C++11 compiler at the minimum. For certain fetures, C++17 support is required. The following compilers were tested with the library: * gcc 4.8 and newer * clang 3.5 and newer * MSVC 14.0 and newer The library components are agnostic to the operating system. [endsect] [include scope_guards.qbk] [include unique_resource.qbk] [xinclude tmp/top_level_reference.xml] [include changelog.qbk]