This document is part of the more general Chromium C++ style guide. It summarizes the supported state of new and updated language and library features in recent C++ standards and the Abseil library. This guide applies to both Chromium and its subprojects, though subprojects can choose to be more restrictive if necessary for toolchain support.
The C++ language has in recent years received an updated standard every three years (C++11, C++14, etc.). For various reasons, Chromium does not immediately allow new features on the publication of such a standard. Instead, once Chromium supports the toolchain to a certain extent (e.g., build support is ready), a standard is declared “initially supported”, with new language/library features banned pending discussion but not yet allowed.
You can propose changing the status of a feature by sending an email to cxx@chromium.org. Include a short blurb on what the feature is and why you think it should or should not be allowed, along with links to any relevant previous discussion. If the list arrives at some consensus, send a codereview to change this file accordingly, linking to your discussion thread.
If an item remains on the TBD list two years after initial support is added, style arbiters should explicitly move it to an appropriate allowlist or blocklist, allowing it if there are no obvious reasons to ban.
The current status of existing standards and Abseil features is:
Third-party libraries may generally use banned features internally, although features with poor compiler support or poor security properties may make the library unsuitable to use with Chromium.
Chromium code that calls functions exported from a third-party library may use banned library types that are required by the interface, as long as:
The following C++11 language features are not allowed in the Chromium codebase.
inline namespace foo { ... }
Description: Allows better versioning of namespaces.
Documentation: Inline namespaces
Notes:
long long var = value;
Description: An integer of at least 64 bits.
Documentation: Fundamental types
Notes:
Use a <stdint.h> type if you need a 64-bit number.
DistanceType var = 12_km;
Description: Allows user-defined literal expressions.
Documentation: User-defined literals
Notes:
The following C++11 library features are not allowed in the Chromium codebase.
#include <cctype> #include <cwctype> #include <ctype.h> #include <wctype.h>
Description: Provides utilities for ASCII characters.
Documentation: Standard library header <cctype>, Standard library header <cwctype>
Notes:
unsigned char/wchar_t. Use similarly-named replacements in third_party/abseil-cpp/absl/strings/ascii.h instead.#include <cfenv> #include <fenv.h>
Description: Provides floating point status flags and control modes for C-compatible code.
Documentation: Standard library header <cfenv>
Notes:
#include <chrono>
Description: A standard date and time library.
Documentation: Date and time utilities
Notes:
base/time.#include <exception>
Description: Exception throwing and handling.
Documentation: Standard library header <exception>
Notes:
Exceptions are banned by the Google Style Guide and disabled in Chromium compiles. However, the noexcept specifier is explicitly allowed.
std::mt19937 generator;
Description: Methods of generating random numbers.
Documentation: Pseudo-random number generation
Notes:
Do not use any random number engines or generators from <random>. Instead, use base::RandomBitGenerator. (You may use the distributions from <random>.)
#include <ratio>
Description: Provides compile-time rational numbers.
Documentation: std::ratio
Notes:
#include <regex>
Description: A standard regular expressions library.
Documentation: Regular expressions library
Notes:
third_party/re2.auto x = std::bind(function, args, ...);
Description: Declares a function object bound to certain arguments.
Documentation: std::bind
Notes:
Use base::Bind instead. Compared to std::bind, base::Bind helps prevent lifetime issues by preventing binding of capturing lambdas and by forcing callers to declare raw pointers as Unretained.
std::function x = [] { return 10; }; std::function y = std::bind(foo, args);
Description: Wraps a standard polymorphic function.
Documentation: std::function
Notes:
Use base::{Once,Repeating}Callback or base::FunctionRef instead. Compared to std::function, base::{Once,Repeating}Callback directly supports Chromium's refcounting classes and weak pointers and deals with additional thread safety concerns.
std::shared_ptr<int> x = std::make_shared<int>(10);
Description: Allows shared ownership of a pointer through reference counts.
Documentation: std::shared_ptr
Notes:
Unlike base::RefCounted, uses extrinsic rather than intrinsic reference counting. Could plausibly be used in Chromium, but would require significant migration.
int x = std::stoi("10");
Description: Converts strings to/from numbers.
Documentation: std::stoi, std::stol, std::stoll, std::stoul, std::stoull, std::stof, std::stod, std::stold, std::to_string
Notes:
base/strings/string_number_conversions.h instead.std::weak_ptr<int> x = my_shared_x;
Description: Allows a weak reference to a std::shared_ptr.
Documentation: std::weak_ptr
Notes:
std::shared_ptr is banned. Use base::WeakPtr instead.#include <barrier> // C++20 #include <condition_variable> #include <future> #include <latch> // C++20 #include <mutex> #include <semaphore> // C++20 #include <stop_token> // C++20 #include <thread>
Description: Provides a standard multithreading library using std::thread and associates
Documentation: Thread support library
Notes:
base/synchronization. base::Thread is tightly coupled to base::MessageLoop which would make it hard to replace. We should investigate using standard mutexes, or std::unique_lock, etc. to replace our locking/synchronization classes.The following C++17 language features are not allowed in the Chromium codebase.
char x = u8'x'; // C++17 char8_t x = u8'x'; // C++20
Description: A character literal that begins with u8 is a character literal of type char (C++17) or char8_t (C++20). The value of a UTF-8 character literal is equal to its ISO 10646 code point value.
Documentation: Character literal
Notes:
char8_t is banned. Use an unprefixed character or string literal; it should be encoded in the binary as UTF-8 on all supported platforms.The following C++17 library features are not allowed in the Chromium codebase.
std::assoc_laguerre() std::assoc_legendre() std::beta() std::comp_ellint_1() std::comp_ellint_2() std::comp_ellint_3() std::cyl_bessel_i() std::cyl_bessel_j() std::cyl_bessel_k() std::cyl_neumann() std::ellint_1() std::ellint_2() std::ellint_3() std::expint() std::hermite() std::legendre() std::laguerre() std::riemann_zeta() std::sph_bessel() std::sph_legendre() std::sph_neumann()
Description: A variety of mathematical functions.
Documentation: Mathematical special functions
Notes:
auto it = std::find(std::execution::par, std::begin(vec), std::end(vec), 2);
Description: Many of the STL algorithms, such as the copy, find and sort methods, now support the parallel execution policies: seq, par, and par_unseq which translate to “sequentially”, “parallel” and “parallel unsequenced”.
Notes:
int* p2 = static_cast<int*>(std::aligned_alloc(1024, 1024));
Description: Allocates uninitialized storage with the specified alignment.
Documentation: std::aligned_alloc
Notes:
base::AlignedAlloc.std::any x = 5;
Description: A type-safe container for single values of any type.
Documentation: std::any
Notes:
Banned since workaround for lack of RTTI isn't compatible with the component build. See also absl::any.
std::byte b = 0xFF; int i = std::to_integer<int>(b); // 0xFF
Description: The contents of a single memory unit. std::byte has the same size and aliasing rules as unsigned char, but does not semantically represent a character or arithmetic value, and does not expose operators other than bitwise ops.
Documentation: std::byte
Notes:
Banned due to low marginal utility in practice, high conversion costs, and programmer confusion about “byte” vs. “octet”. Use uint8_t for the common case of “8-bit unsigned value”, and char for the atypical case of code that works with memory without regard to its contents' values or semantics (e.g allocator implementations).
#include <filesystem>
Description: A standard way to manipulate files, directories, and paths in a filesystem.
Documentation: Filesystem library
Notes:
std::from_chars(str.data(), str.data() + str.size(), result); std::to_chars(str.data(), str.data() + str.size(), 42);
Description: Locale-independent, non-allocating, non-throwing functions to convert values from/to character strings, designed for use in high-throughput contexts.
Documentation: std::from_chars std::to_chars,
Notes:
base/strings/string_number_conversions.h, which are easier to use correctly.struct SharedData { ReadOnlyFrequentlyUsed data; alignas(std::hardware_destructive_interference_size) std::atomic<size_t> counter; };
Description: The std::hardware_destructive_interference_size constant is useful to avoid false sharing (destructive interference) between variables that would otherwise occupy the same cacheline. In contrast, std::hardware_constructive_interference_size is helpful to promote true sharing (constructive interference), e.g. to support better locality for non-contended data.
Documentation: std::hardware_destructive_interference_size, std::hardware_constructive_interference_size
Notes:
Banned for now since these are not supported yet. Allow once supported.
std::variant<int, float> v{std::in_place_type<int>, 1.4};
Description: std::in_place_type and std::in_place_index are disambiguation tags for std::variant and std::any to indicate that the object should be constructed in-place.
Documentation: std::in_place_type
Notes:
Banned for now because std::variant and std::any are banned. Because absl::variant is used instead, and it requires absl::in_place_type, use absl::in_place_type for non-Abseil Chromium code.
#include <memory_resource>
Description: Manages memory allocations using runtime polymorphism.
Documentation: std::pmr::memory_resource, std::pmr::polymorphic_allocator
Notes:
std::timespec ts; std::timespec_get(&ts, TIME_UTC);
Description: Gets the current calendar time in the given time base.
Documentation: std::timespec_get
Notes:
base::TimeDelta::ToTimeSpec(); this could be supported on other platforms if desirable.int count = std::uncaught_exceptions();
Description: Determines whether there are live exception objects.
Documentation: std::uncaught_exceptions
Notes:
std::variant<int, double> v = 12;
Description: The class template std::variant represents a type-safe union. An instance of std::variant at any given time holds a value of one of its alternative types (it's also possible for it to be valueless).
Documentation: std::variant
Notes:
absl::variant.std::map<std::weak_ptr<T>, U, std::owner_less<>>
Description: Function object providing mixed-type owner-based ordering of shared and weak pointers, regardless of the type of the pointee.
Documentation: std::owner_less
Notes:
std::shared_ptr and std::weak_ptr are banned.auto weak_ptr = weak_from_this();
Description: Returns a std::weak_ptr<T> that tracks ownership of *this by all existing std::shared_ptrs that refer to *this.
Documentation: std::enable_shared_from_this<T>::weak_from_this
Notes:
std::shared_ptr and std::weak_ptr are banned.The following C++20 language features are allowed in the Chromium codebase.
// template <typename T> // void f1(T x); void f1(auto x); // template <C T> // `C` is a concept // void f2(T x); void f2(C auto x); // template <typename T, C U> // `C` is a concept // void f3(T x, U y); template <typename T> void f3(T x, C auto y); // template<typename... Ts> // void f4(Ts... xs); void f4(auto... xs);
Description: Function params of type auto become syntactic sugar for declaring a template type for each such parameter.
Documentation: Abbreviated function template
Notes:
consteval int sqr(int n) { return n * n; } constexpr int kHundred = sqr(10); // OK constexpr int quad(int n) { return sqr(sqr(n)); } // ERROR, might be runtime
Description: Specified that a function may only be used in a compile-time context.
Documentation: consteval specifier
Notes:
// `Hashable` is a concept satisfied by any type `T` for which the expression // `std::hash<T>{}(a)` compiles and produces a value convertible to `size_t`. template<typename T> concept Hashable = requires(T a) { { std::hash<T>{}(a) } -> std::convertible_to<size_t>; }; template <Hashable T> // Only instantiable for `T`s that satisfy `Hashable`. void f(T) { ... }
Description: Allows bundling sets of requirements together as named concepts, then enforcing them on template arguments.
Documentation: Constraints and concepts
Notes:
class S : public T { // Non-member equality operator with access to private members. // Compares `T` bases, then `x`, then `y`, short-circuiting when // it finds inequality. friend bool operator==(const S&, const S&) = default; // Non-member ordering operator with access to private members. // Compares `T` bases, then `x`, then `y`, short-circuiting when // it finds an ordering difference. friend auto operator<=>(const S&, const S&) = default; int x; bool y; };
Description: Requests that the compiler generate the implementation of any comparison operator, including <=>. Prefer non-member comparison operators. When defaulting <=>, also explicitly default ==. Together these are sufficient to allow any comparison as long as callers do not need to take the address of any non-declared operator.
Documentation: Default comparisons
Notes:
Unlike constructors/destructors, our compiler extensions do not require these to be written out-of-line in the .cc file. Feel free to write = default directly in the header, as this is much simpler to write.
struct S { int x = 1; int y = 2; } S s{ .y = 3 }; // OK, s.x == 1, s.y == 3
Description: Allows explicit initialization of subsets of aggregate members at construction.
Documentation: Designated initializers
Notes:
#if __has_cpp_attribute(assume) // Toolchain supports C++23 `[[assume]]`. ... #endif
Description: Checks whether the toolchain supports a particular standard attribute.
Documentation: Feature testing
Notes:
constinit int x = 3; void foo() { ++x; }
Description: Ensures that a variable can be compile-time initialized. This is like a milder form of constexpr that does not force variables to be const or have constant destruction.
Documentation: constinit specifier
Notes:
struct S { uint32_t x : 27 = 2; };
Description: Allows specifying the default initial value of a bit-field member, as can already be done for other member types.
Documentation: Bit-field
Notes:
template <typename... Args> void foo(Args... args) { const auto l = [...n = args] { (x(n), ...); }; }
Description: Allows initializing a capture with a pack expansion.
Documentation: Lambda capture
Notes:
#if !defined(__cpp_modules) || (__cpp_modules < 201907L) ... // Toolchain does not support modules #endif
Description: Provides a standardized way to test the toolchain's implementation of a particular language feature.
Documentation: Feature testing
Notes:
T foo(); ... for (auto& x : foo().items()) { ... } // UAF before C++23! for (T thing = foo(); auto& x : thing.items()) { ... } // OK
Description: Like C++17's selection statements with initializer. Particularly useful before C++23, since temporaries inside range-expressions are not lifetime-extended until the end of the loop before C++23.
Documentation: Range-based for loop
Notes:
// `ordering` is an instance of `std::strong_odering` or `std::partial_ordering` // that describes how `a` and `b` are related. const auto ordering = a <=> b; if (ordering < 0) { ... } // `a` < `b` else if (ordering > 0) { ... } // `a` > `b` else { ... } // `a` == `b`
Description: Compares two objects in a fashion similar to strcmp. Perhaps most useful when defined as an overload in a class, in which case it can replace definitions of other inequalities. See also “Default comparisons”.
Documentation: Three-way comparison
Notes:
The following C++20 library features are allowed in the Chromium codebase.
#include <bit>
Description: Provides various byte- and bit-twiddling functions, e.g. counting leading zeros.
Documentation: Standard library header <bit>
Notes:
#include <compare>
Description: Concepts and classes used to implement three-way comparison (“spaceship”, <=>) support.
Documentation: Standard library header <compare>
Notes:
#include <concepts>
Description: Various useful concepts, many of which replace pre-concept machinery in <type_traits>.
Documentation: Standard library header <concepts>
Notes:
#if !defined(__cpp_lib_atomic_value_initialization) || \ (__cpp_lib_atomic_value_initialization < 201911L) ... // `std::atomic` is not value-initialized by default. #endif
Description: Provides a standardized way to test the toolchain's implementation of a particular library feature.
Documentation: Feature testing
Notes:
#include <numbers>
Description: Provides compile-time constants for many common mathematical values, e.g. pi and e.
Documentation: Mathematical constants
Notes:
void f(int* p) { int* aligned = std::assume_aligned<256>(p); ...
Description: Informs the compiler that a pointer points to an address aligned to at least some particular power of 2.
Documentation: std::assume_aligned
Notes:
std::vector<int> numbers = ...; std::erase_if(numbers, [](int x) { return x % 2 == 0; });
Description: Erases from a container by value comparison or predicate, avoiding the need to use the erase(remove(... paradigm.
Documentation: std::erase, std::erase_if (std::vector)
Notes:
template <typename T> static constexpr bool kBoundedArray = std::is_bounded_array_v<T>;
Description: Checks if a type is an array type with a known or unknown bound.
Documentation: std::is_bounded_array, std::is_unbounded_array
Notes:
double val = std::lerp(start, end, t);
Description: Linearly interpolates (or extrapolates) between two values.
Documentation: std::lerp
Notes:
auto obj = std::make_obj_using_allocator<Obj>(alloc, ...);
Description: Constructs an object using uses-allocator construction.
Documentation: std::make_obj_using_allocator
Notes:
auto ptr = std::make_unique_for_overwrite<int>(); // `*ptr` is uninitialized
Description: Like calling std::unique_ptr<T>(new T) instead of the more typical std::unique_ptr<T>(new T(...)).
Documentation: std::make_unique, std::make_unique_for_overwrite
Notes:
int center = std::midpoint(top, bottom);
Description: Finds the midpoint between its two arguments, avoiding any possible overflow. For integral inputs, rounds towards the first argument.
Documentation: std::midpoint
Notes:
template <typename T, typename = std::enable_if_t<std::is_same_v<std::remove_cvref_t<T>, int>>> void foo(T t);
Description: Provides a way to remove const, volatile, and reference qualifiers from a type.
Documentation: std::remove_cvref
Notes:
str.replace(it, it + std::ssize(substr), 1, 'x');
Description: Returns the size of an object as a signed type.
Documentation: std::size, std::ssize
Notes:
const std::string str = "Foo bar"; const bool is_true = str.ends_with("bar");
Description: Tests whether a string starts or ends with a particular character or string.
Documentation: std::basic_string<CharT,Traits,Allocator>::starts_with, std::basic_string<CharT,Traits,Allocator>::ends_with
Notes:
The following C++20 language features are not allowed in the Chromium codebase.
char8_t c = u8'x';
Description: A single UTF-8 code unit. Similar to unsigned char, but considered a distinct type.
Documentation: Fundamental types
Notes:
char and unprefixed character literals. Non-UTF-8 encodings are rare enough in Chromium that the value of distinguishing them at the type level is low, and char8_t* is not interconvertible with char* (what ~all Chromium, STL, and platform-specific APIs use), so using u8 prefixes would obligate us to insert casts everywhere. If you want to declare at a type level that a block of data is string-like and not an arbitrary binary blob, prefer std::string[_view] over char*.export module helloworld; // module declaration import <iostream>; // import declaration export void hello() { // export declaration std::cout << "Hello world!\n"; }
Description: Modules provide an alternative to many uses of headers which allows for faster compilation, better tooling support, and reduction of problems like “include what you use”.
Documentation: Modules
Notes:
struct Empty {}; struct X { int i; [[no_unique_address]] Empty e; };
Description: Allows a data member to be overlapped with other members.
Documentation: C++ attribute: no_unique_address
Notes:
NO_UNIQUE_ADDRESS from base/compiler_specific.h instead. Do not use (either form) on members of unions due to potential memory safety problems.The following C++20 library features are not allowed in the Chromium codebase.
struct S { int a; int b; }; S not_atomic; std::atomic_ref<S> is_atomic(not_atomic);
Description: Allows atomic access to objects that might not themselves be atomic types. While any atomic_ref to an object exists, the object must be accessed exclusively through atomic_ref instances.
Documentation: std::atomic_ref
Notes:
Banned due to being unimplemented in libc++.
Migration bug (once this is allowed)
int minus(int a, int b); auto fifty_minus_x = std::bind_front(minus, 50); int forty = fifty_minus_x(10);
Description: An updated version of std::bind with fewer gotchas, similar to absl::bind_front.
Documentation: std::bind_front, std::bind_back
Notes:
base::Bind.float quake_rsqrt(float number) { long i = std::bit_cast<long>(number); i = 0x5f3759df - (i >> 1); // wtf? float y = std::bit_cast<float>(i); return y * (1.5f - (0.5f * number * y * y)); }
Description: Returns an value constructed with the same bits as an value of a different type.
Documentation: std::bit_cast
Notes:
std:: version of bit_cast allows casting of pointer and reference types, which is both useless in that it doesn't avoid UB, and dangerous in that it allows arbitrary casting away of modifiers like const. Instead of using bit_cast on pointers, use standard C++ casts. For use on values, use base::bit_cast which does not allow this unwanted usage.std::u8string_view strv = u8"zß水🍌"; std::mbstate_t state; char out[MB_LEN_MAX] = {0}; for (char8_t c : strv) { size_t rc = std::c8rtomb(out, c, &state); ...
Description: Converts a code point between UTF-8 and a multibyte character encoded using the current C locale.
Documentation: std::c8rtomb, std::mbrtoc8
Notes:
std::vector<int> numbers; int* i = std::to_address(numbers.begin());
Description: Converts a pointer-like object to a pointer, even if the pointer does not refer to a constructed object (in which case an expression like &*p is UB).
Documentation: std::to_address
Notes:
#include <syncstream>
Description: Facilities for multithreaded access to streams.
Documentation: Standard library header <syncstream>
Notes:
The following C++20 language features are not allowed in the Chromium codebase. See the top of this page on how to propose moving a feature from this list into the allowed or banned sections.
struct B { int a; int&& r; } b2(1, 1); // Warning: dangling reference
Description: Allows initialization of aggregates using parentheses, not just braces.
Documentation: Aggregate initialization, Direct initialization
Notes:
co_return 1;
Description: Allows writing functions that logically block while physically returning control to a caller. This enables writing some kinds of async code in simple, straight-line ways without storing state in members or binding callbacks.
Documentation: Coroutines
Notes:
Requires significant support code and planning around API and migration.
if (n > 0) [[likely]] { return 1; }
Description: Tells the optimizer that a particular codepath is more or less likely than an alternative.
Documentation: C++ attribute: likely, unlikely
Notes:
[UN]LIKELY.The following C++20 library features are not allowed in the Chromium codebase. See the top of this page on how to propose moving a feature from this list into the allowed or banned sections.
#include <coroutine>
Description: Header which defines various core coroutine types.
Documentation: Coroutine support
Notes:
std::cout << std::format("Hello {}!\n", "world");
Description: Utilities for producing formatted strings.
Documentation: Formatting library
Notes:
absl::StrFormat (which we don't yet use). Migration would be nontrivial.constexpr int arr[] = {6, 2, 8, 4, 4, 2}; constexpr auto plus_one = std::views::transform([](int n){ return n + 1; }); static_assert(std::ranges::equal(arr | plus_one, {7, 3, 9, 5, 5, 3}));
Description: Generalizes algorithms using range views, which are lightweight objects that represent iterable sequences. Provides facilities for eager and lazy operations on ranges, along with composition into pipelines.
Documentation: Ranges library
Notes:
base/ranges/algorithm.h) and engage with the internal library team.#include <source_location>
Description: Provides a class that can hold source code details such as filenames, function names, and line numbers.
Documentation: Standard library header <source_location>
Notes:
base::Location.#include <span>
Description: Utilities for non-owning views over a sequence of objects.
Notes:
Use base::span for now.
std::u8string str = u8"Foo";
Description: A string whose character type is char8_t, intended to hold UTF-8-encoded text.
Documentation: std::basic_string
Notes:
char8_t above.The following Abseil library features are not allowed in the Chromium codebase.
absl::any a = int{5}; EXPECT_THAT(absl::any_cast<int>(&a), Pointee(5)); EXPECT_EQ(absl::any_cast<size_t>(&a), nullptr);
Description: Early adaptation of C++17 std::any.
Documentation: std::any
Notes:
std::any.absl::bind_front
Description: Binds the first N arguments of an invocable object and stores them by value.
Documentation:
Notes:
base::Bind.ABSL_FLAG(bool, logs, false, "print logs to stderr"); app --logs=true;
Description: Allows programmatic access to flag values passed on the command-line to binaries.
Documentation: Flags Library
Notes:
base::CommandLine instead.auto it = absl::c_find(container, value);
Description: Container-based versions of algorithmic functions within C++ standard library.
Documentation: container.h
Notes:
base/ranges/algorithm.h.absl::FixedArray<MyObj> objs_;
Description: A fixed size array like std::array, but with size determined at runtime instead of compile time.
Documentation: fixed_array.h
Notes:
base/types/fixed_array.h, which is a light-weight wrapper that deletes the problematic constructor.absl::FunctionRef
Description: Type for holding a non-owning reference to an object of any invocable type.
Documentation: function_ref.h
Notes:
absl::FunctionRef is banned due to allowing implicit conversions between function signatures in potentially surprising ways. For example, a callable with the signature int() will bind to absl::FunctionRef<void()>: the return value from the callable will be silently discarded.base::FunctionRef instead.base::OnceCallback and base::RepeatingCallback, base::FunctionRef supports capturing lambdas.ForEachFrame(base::FunctionRef<void(Frame&)>). This can often result in clearer code than code that is templated to accept lambdas, e.g. with template <typename Invocable> void ForEachFrame(Invocable invocable), it is much less obvious what arguments will be passed to invocable.base::OnceCallback and base::RepeatingCallback intentionally disallow conversions to base::FunctionRef, under the theory that the callback should be a capturing lambda instead. Attempting to use this conversion will trigger a static_assert requesting additional feedback for use cases where this conversion would be valuable.base::FunctionRef must not outlive the function call. Like base::StringPiece, base::FunctionRef is a non-owning reference. Using a base::FunctionRef as a return value or class field is dangerous and likely to result in lifetime bugs.absl::BitGen bitgen; size_t index = absl::Uniform(bitgen, 0u, elems.size());
Description: Functions and utilities for generating pseudorandom data.
Documentation: Random library
Notes:
base/rand_util.h instead.absl::Span
Description: Early adaptation of C++20 std::span.
Documentation: Using absl::Span
Notes:
base::span. Keep using base::span.absl::StatusOr<T>
Description: An object that is either a usable value, or an error Status explaining why such a value is not present.
Documentation: statusor.h
Notes:
base::expected.absl::StrFormat
Description: A typesafe replacement for the family of printf() string formatting routines.
Documentation: String Formatting
Notes:
base::StringPrintf(). See migration bug.absl::string_view
Description: Early adaptation of C++17 std::string_view.
Documentation: absl::string_view
Notes:
std::string_view. Please use std::string_view instead.absl::StrSplit absl::StrJoin absl::StrCat absl::StrAppend absl::Substitute absl::StrContains
Description: Classes and utility functions for manipulating and comparing strings.
Documentation: String Utilities
Notes:
base/strings. We should re-evalute when we've migrated from base::StringPiece to std::string_view.absl::Mutex
Description: Primitives for managing tasks across different threads.
Documentation: Synchronization
Notes:
base/synchronization/. We would love more testing on whether there are compelling reasons to prefer base, absl, or std synchronization primitives; for now, use base/synchronization/.absl::Duration absl::Time absl::TimeZone absl::CivilDay
Description: Abstractions for holding time values, both in terms of absolute time and civil time.
Documentation: Time
Notes:
base/time/.The following Abseil library features are not allowed in the Chromium codebase. See the top of this page on how to propose moving a feature from this list into the allowed or banned sections.
absl::AnyInvocable
Description: An equivalent of the C++23 std::move_only_function.
Documentation:
Notes:
base::RepeatingCallback, base::OnceCallback.absl::flat_hash_map absl::flat_hash_set absl::node_hash_map absl::node_hash_set absl::btree_map absl::btree_set absl::btree_multimap absl::btree_multiset
Description: Alternatives to STL containers designed to be more efficient in the general case.
Documentation:
Notes:
Supplements base/containers/.
absl::InlinedVector is explicitly allowed, see the discussion thread.
Description: API for computing CRC32C values as checksums for arbitrary sequences of bytes provided as a string buffer.
Documentation: crc32.h
Notes:
third_party/crc32c.LOG(INFO) << message; CHECK(condition); absl::AddLogSink(&custom_sink_to_capture_absl_logs);
Description: Macros and related classes to perform debug loggings
Notes:
base/logging.h.// Global or namespace scope. ABSL_CONST_INIT absl::NoDestructor<MyRegistry> reg{"foo", "bar", 8008}; // Function scope. const std::string& MyString() { static const absl::NoDestructor<std::string> x("foo"); return *x; }
Description: absl::NoDestructor<T> is a wrapper around an object of type T that behaves as an object of type T but never calls T's destructor.
Documentation: no_destructor.h
Notes:
base::NoDestructor.void PaySalary(absl::NotNull<Employee *> employee) { pay(*employee); // OK to dereference }
Description: Annotations to more clearly specify contracts
Documentation: nullability.h
Notes:
std::variant<int, std::string, double> v(int{1}); assert(std::visit(absl::Overload( [](int) -> absl::string_view { return "int"; }, [](const std::string&) -> absl::string_view { return "string"; }, [](double) -> absl::string_view { return "double"; }), v) == "int");
Description: Returns a functor that provides overloads based on the functors passed to it
Documentation: overload.h
Notes:
base::Overloaded.