C++20

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Short description: 2020 edition of the C++ programming language standard


C++20 is a version of the ISO/IEC 14882 standard for the C++ programming language. C++20 replaced the prior version of the C++ standard, called C++17, and was later replaced by C++23.[1] The standard was technically finalized[2] by WG21 at the meeting in Prague in February 2020,[3] had its final draft version announced in March 2020,[4] was approved on 4 September 2020,[5][6] and published in December 2020.[7]

Features

C++20 adds more new major features than C++14 or C++17.[8] Changes that have been accepted into C++20 include:[9]

Language

  • concepts,[10] with terse syntax[11]
  • modules[12]
  • designated initializers[13] (based on the C99 feature, and common g++ extension)
  • [=, this] as a lambda capture[14]
  • template parameter lists on lambdas[15]
  • three-way comparison using the "spaceship operator", operator <=>
  • initialization of an additional variable within a range-based for statement[16]
  • lambdas in unevaluated contexts[17][18]
  • default constructible and assignable stateless lambdas[17][19]
  • allow pack expansions in lambda init-capture[17][20]
  • class types in non-type template parameters, also allowing string literals as template parameters[21]
  • removing the need for typename in certain circumstances[22]
  • new standard attributes no unique address,[23] likely and unlikely[24]
  • conditional explicit, allowing the explicit modifier to be contingent on a boolean expression[25]
  • expanded constexpr: virtual functions,[26] union,[27] try and catch,[28] dynamic_cast and typeid,[29] std::pointer_traits[30]
  • immediate functions using the new consteval keyword[31]
  • signed integers are now defined to be represented using two's complement (signed integer overflow remains undefined behavior)[32]
  • a revised memory model[33]
  • various improvements to structured bindings (interaction with lambda captures, static and thread_local storage duration)[34][35]
  • coroutines[36]
  • using on scoped enums[37]
  • constinit keyword[38]

Library

  • ranges (The One Ranges Proposal)[39]
  • std::make_shared and std::allocate_shared for arrays[40]
  • atomic smart pointers (such as std::atomic<shared_ptr<T>> and std::atomic<weak_ptr<T>>)[41]
  • std::to_address to convert a pointer to a raw pointer[42]
  • calendar and time-zone additions to <chrono>[43]
  • std::span, providing a view to a contiguous array (analogous to std::string_view but span can mutate the referenced sequence)[44]
  • std::erase and std::erase_if, simplifying element erasure for most standard containers[45]
  • <version> header[46]
  • std::bit_cast<> for type casting of object representations, with less verbosity than memcpy() and more ability to exploit compiler internals[47]
  • feature test macros[48]
  • various constexpr library bits[49]
  • smart pointer creation with default initialization[50]
  • contains-method for associative containers[51]
  • bit operations, such as leading/trailing zero/one count,[52] and log2 operations[53][54][55]
  • std::bind_front[56]

New and changed keywords

Many new keywords added (and the new "spaceship operator", operator <=>), such as concept, constinit,[38] consteval, co_await, co_return, co_yield, requires (plus changed meaning for export), and char8_t (for UTF-8 support).[57] And explicit can take an expression since C++20.[58] Most of the uses of the volatile keyword have been deprecated.[59]

In addition to keywords, there are identifiers with special meaning, including new import and module.

New attributes in C++20: likely, unlikely, and no unique address[60]

Removed and deprecated

Removed features:[61]

  • The C-derived headers <ccomplex>, <ciso646>, <cstdalign>, <cstdbool> and <ctgmath> were removed, as they serve no purpose in C++. (The corresponding <*.h> headers remain, for compatibility with C.)
  • The use of throw() as an exception specification was removed.
  • Some previously deprecated library features were removed, including std::uncaught_exception, std::raw_storage_iterator, std::is_literal_type, std::is_literal_type_v, std::result_of and std::result_of_t.

Deprecated features:

  • Use of comma operator in subscript expressions has been deprecated[62]
  • (most of) volatile has been deprecated[59]

Published as Technical Specifications

  • Parallelism TS v2[63] (including task blocks[64])
  • Reflection TS v1[65]
  • Networking TS v1[66]

Deferred to a later standard

  • Contracts – a new study group (SG21) has been formed to work on a new proposal[67]
  • Reflection[68][69]
  • Metaclasses[70]
  • Executors[71]
  • Networking extensions,[72][73] including async, basic I/O services, timers, buffers and buffer-oriented streams, sockets, and Internet protocols (blocked by executors)
  • Properties[74]
  • Extended futures[75]

Compiler support

Full support[76]

  • Visual Studio 2019 supports all C++20 features through its /std:c++latest option, as of version 16.10.0.[77] An option /std:c++20 to enable C++20 mode is added in version 16.11.0.[78][79]

Microsoft's compiler does not just support Windows, also Linux (and e.g. Android and iOS), while it then requires the "Visual C++ for Linux Development extension".[80]

Partial

  • Clang has partial C++20 support that can be enabled with the option -std=c++20 (version 10 and later) or -std=c++2a (version 9 and earlier).[81]
  • EDG started implementing C++20 features in version 5.0 and as of version 6.1 supports most C++20 core language features.[82]
  • GCC added partial, experimental C++20 support in 2017[83] in version 8 through the option -std=c++2a. Like Clang, GCC replaced this option with -std=c++20 in version 10. It also has an option to enable GNU extensions in addition to the experimental C++20 support, -std=gnu++20.[84]

History

Changes applied to the C++20 working draft in July 2017 (Toronto) include:[85]

  • concepts (what made it into the standard is a cut-down version; also described as "Concepts Lite"[86])
  • designated initializers
  • [=, this] as a lambda capture
  • template parameter lists on lambdas
  • std::make_shared and std::allocate_shared for arrays

Changes applied to the C++20 working draft in the fall meeting in November 2017 (Albuquerque) include:[87][88]

  • three-way comparison using the "spaceship operator", operator <=>
  • initialization of an additional variable within a range-based for statement
  • lambdas in unevaluated contexts
  • default constructible and assignable stateless lambdas
  • allow pack expansions in lambda init-capture
  • string literals as template parameters
  • atomic smart pointers (such as std::atomic<shared_ptr<T>> and std::atomic<weak_ptr<T>>)
  • std::to_address to convert a pointer to a raw pointer

Changes applied to the C++20 working draft in March 2018 (Jacksonville) include:[89]

  • removing the need for typename in certain circumstances
  • new standard attributes no unique address, likely and unlikely
  • calendar and time-zone additions to <chrono>
  • std::span, providing a view to a contiguous array (analogous to std::string_view but span can mutate the referenced sequence)
  • <version> header

Changes applied to the C++20 working draft in the summer meeting in June 2018 (Rapperswil) include:[90]

  • contracts (later deferred to a later standard)[91]
  • feature test macros
  • bit-casting of object representations, with less verbosity than memcpy() and more ability to exploit compiler internals
  • conditional explicit, allowing the explicit modifier to be contingent on a boolean expression
  • constexpr virtual functions

Changes applied to the C++20 working draft in the fall meeting in November 2018 (San Diego) include:[92]

  • ranges (The One Ranges Proposal)
  • concept terse syntax
  • constexpr union, try and catch, dynamic_cast, typeid and std::pointer_traits.
  • various constexpr library bits
  • immediate functions using the new consteval keyword
  • signed integers are now defined to be represented using two's complement (signed integer overflow remains undefined behavior)
  • refinements of the contracts facility (access control in contract conditions)[93] (see list of features deferred to a later standard)
  • a revised memory model
  • smart pointer creation with default initialization

Changes applied to the C++20 working draft in the winter meeting in February 2019 (Kona) include:[94][95][96]

  • coroutines
  • modules
  • various improvements to structured bindings (interaction with lambda captures, static and thread_local storage duration)

Changes applied to the C++20 working draft in the summer meeting in July 2019 (Cologne) include:[97][98][99][100]

  • contracts were removed (see list of features deferred to a later standard)[101]
  • use of comma operator in subscript expressions has been deprecated[62]
  • constexpr additions (trivial default initialization,[102] unevaluated inline-assembly[103])
  • using scoped enums[37]
  • various changes to the spaceship operator[104][105]
  • DR: minor changes to modules[106]
  • constinit keyword
  • changes to concepts (removal of -> Type return-type-requirements[107])
  • (most of) volatile has been deprecated[59]
  • DR: nodiscard effects on constructors[108]
  • The new standard library concepts will not use PascalCase (rather standard_case, as the rest of the standard library)[109]
  • text formatting (std::format, [110][111] chrono integration,[112] corner case fixes[113])
  • bit operations[52]
  • constexpr INVOKE[114]
  • math constants[115]
  • consistency additions to atomics (std::atomic_ref<T>,[116] std::atomic<std::shared_ptr<T>>[117])
  • add the <=> operator to the standard library[118]
  • header units for the standard library[119]
  • synchronization facilities[120] (merged from: Efficient atomic waiting and semaphores,[121] latches and barriers,[122] Improving atomic_flag,[123] Don't Make C++ Unimplementable On Small CPUs[124])
  • std::source_location[125]
  • constexpr containers (std::string,[126] std::vector[127])
  • std::stop_token and joining thread (std::jthread)[128]

Changes applied during the NB comment resolution in the fall meeting in November 2019 (Belfast) include:[129][130][131][132]

  • Class Types in Non-Type Template Parameters (NTTP): The restriction of no user-defined operator== allowed has been removed as the meaning of template argument equality has been divorced from operator==.[133] This allows also for array members in class-type NTTP.
  • Floating-point types,[134] pointers and references and unions and union-like classes (class types containing anonymous unions) are now allowed as NTTP.
  • Function identity now also includes trailing requires-clauses (P1971)
  • Constrained non-template functions have been removed
  • <compare> is now available in freestanding implementations[135]
  • std::spans typedef was changed from index_type to size_type to be consistent with the rest of the standard library[136]
  • Concept traits have been renamed to follow the renaming of the concepts as a result from the Cologne meeting
  • Several fixes and additions to ranges (P1456R1: Move-only views,[137] P1391R4: Range constructor for std::string_view (constructor from iterator-pair of characters),[138] P1394R4: Range constructor for std::span<ref>,[139] P1870R1: forwarding-range<T> is too subtle[140])
  • Initialization for std::atomic<T> has been changed to make it work with default and list initialization,[141] std::latch and std::barrier can now report the maximum number of threads that the implementation supports through the new member function max()
  • std::weak_equality and std::strong_equality have been removed as they are not used anymore
  • Algorithms in <numeric> have been made constexpr
  • Missing feature-test macros for new or changed features of C++20 have been added[142]

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  98. "r/cpp - 2019-07 Cologne ISO C++ Committee Trip Report — 🚀 The C++20 Eagle has Landed 🚀 (C++20 Committee Draft shipped; Contracts Moved From C++20 to a Study Group; 'std::format' in C++20; C++20 Synchronization Library)" (in en). 20 July 2019. https://www.reddit.com/r/cpp/comments/cfk9de/201907_cologne_iso_c_committee_trip_report_the/. 
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  101. Josuttis, Nicolai. "P1823R0: Remove Contracts from C++20". https://open-std.org/JTC1/SC22/WG21/docs/papers/2019/p1823r0.pdf. 
  102. "Permitting trivial default initialization in constexpr contexts". https://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1331r1.pdf. 
  103. "P1668R1: Enabling Constexpr Intrinsics By Permitting Unevaluated inline-asm in Constexpr Functions". http://open-std.org/JTC1/SC22/WG21/docs/papers/2019/p1668r1.html. 
  104. "P1186R3: When do you actually use <=>?". 2019-07-20. http://open-std.org/JTC1/SC22/WG21/docs/papers/2019/p1186r3.html. 
  105. "P1630R1: Spaceship needs a tune-up". 2019-07-20. http://open-std.org/JTC1/SC22/WG21/docs/papers/2019/p1630r1.html. 
  106. "P1766R1: Mitigating minor modules maladies". 2019-07-20. http://open-std.org/JTC1/SC22/WG21/docs/papers/2019/p1766r1.html. 
  107. "P1452R2: On the non-uniform semantics of return-type-requirements". 2019-07-20. http://open-std.org/JTC1/SC22/WG21/docs/papers/2019/p1452r2.html. 
  108. "P1771R1: nodiscard for constructors". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1771r1.pdf. 
  109. "P1754R1: Rename concepts to standard_case for C++20, while we still can". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1754r1.pdf. 
  110. "P0645R10: Text Formatting". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p0645r10.html. 
  111. "std::format in C++20". 2019-07-23. http://www.zverovich.net/2019/07/23/std-format-cpp20.html. 
  112. "P1361R2: Integration of chrono with text formatting". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1361r2.pdf. 
  113. "P1652R1: Printf corner cases in std::format". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1652r1.html. 
  114. "P1965R2: constexpr INVOKE". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1065r2.html. 
  115. "P0631R8: Math Constants". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p0631r8.pdf. 
  116. "P1643R1: Add wait/notify to atomic_ref<T>". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1643r1.html. 
  117. "P1664R0: Add wait/notify to atomic<shared_ptr<T>>". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1644r0.html. 
  118. "P1614R2: The Mothership has Landed - Adding <=> to the Library". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1614r2.html. 
  119. "P1502R1: Standard library header units for C++20". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1502r1.html. 
  120. "P1135R6: The C++20 Synchronization Library". 2019-07-20. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1135r6.html. 
  121. "P0514R4: Efficient concurrent waiting for C++20". http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2018/p0514r4.pdf. 
  122. "P0666R2: Revised Latches and Barriers for C++20". http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2018/p0666r2.pdf. 
  123. "P0995R1: Improving atomic_flag". http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2018/p0995r1.html. 
  124. "P1285R0: Don't Make C++ Unimplementable On Small CPUs". http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2018/p1258r0.html. 
  125. "P1208R6: Adopt source_location from Library Fundamentals V3 for C++20". http://open-std.org/JTC1/SC22/WG21/docs/papers/2019/p1208r6.pdf. 
  126. "P0980R1: Making std::string constexpr". http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p0980r1.pdf. 
  127. "P1004R2: Making std::vector constexpr". http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1004r2.pdf. 
  128. "P0660R10: Stop Token and Joining Thread". http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p0660r10.pdf. 
  129. fall meeting in November 2019
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  133. "P1907R0: Inconsistencies with non-type template parameters". 2019-10-07. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1907r0.html. 
  134. "P1714: NTTP are incomplete without float, double, and long double! (Revision 1)". 2019-07-19. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1714r1.html. 
  135. "P1855R=: Make <compare> freestanding". 2019-10-05. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1855r0.html. 
  136. "P1872R0: span should have size_type not index_type". 2019-09-16. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1872r0.pdf. 
  137. "P1456: Move-only views". 2019-01-25. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1456r0.pdf. 
  138. "P1391: Range constructor for std::string_view". http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1391r4.pdf. 
  139. "P1394: Range constructor for std::span". 2019-08-02. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1394r3.pdf. 
  140. "P1870R1: forwarding-range<T> is too subtle". 6 October 2019. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1870r0.html. 
  141. "P0883: Fixing Atomic Initialization". 2018-06-05. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2018/p0883r1.pdf. 
  142. "Missing feature-test macros 2018-2019". 2019-10-06. http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1902r0.html. 

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