Linux kernel which language

Programming Language¶

The kernel is written in the C programming language [c-language] . More precisely, the kernel is typically compiled with gcc [gcc] under -std=gnu11 [gcc-c-dialect-options] : the GNU dialect of ISO C11. clang [clang] is also supported, see docs on Building Linux with Clang/LLVM .

This dialect contains many extensions to the language [gnu-extensions] , and many of them are used within the kernel as a matter of course.

Attributes¶

One of the common extensions used throughout the kernel are attributes [gcc-attribute-syntax] . Attributes allow to introduce implementation-defined semantics to language entities (like variables, functions or types) without having to make significant syntactic changes to the language (e.g. adding a new keyword) [n2049] .

In some cases, attributes are optional (i.e. a compiler not supporting them should still produce proper code, even if it is slower or does not perform as many compile-time checks/diagnostics).

The kernel defines pseudo-keywords (e.g. __pure ) instead of using directly the GNU attribute syntax (e.g. __attribute__((__pure__)) ) in order to feature detect which ones can be used and/or to shorten the code.

Please refer to include/linux/compiler_attributes.h for more information.

Rust¶

The kernel has experimental support for the Rust programming language [rust-language] under CONFIG_RUST . It is compiled with rustc [rustc] under —edition=2021 [rust-editions] . Editions are a way to introduce small changes to the language that are not backwards compatible.

On top of that, some unstable features [rust-unstable-features] are used in the kernel. Unstable features may change in the future, thus it is an important goal to reach a point where only stable features are used.

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Please refer to Rust for more information.

Источник

Programming Language¶

The kernel is written in the C programming language [c-language] . More precisely, the kernel is typically compiled with gcc [gcc] under -std=gnu11 [gcc-c-dialect-options] : the GNU dialect of ISO C11. clang [clang] is also supported, see docs on Building Linux with Clang/LLVM .

This dialect contains many extensions to the language [gnu-extensions] , and many of them are used within the kernel as a matter of course.

Attributes¶

One of the common extensions used throughout the kernel are attributes [gcc-attribute-syntax] . Attributes allow to introduce implementation-defined semantics to language entities (like variables, functions or types) without having to make significant syntactic changes to the language (e.g. adding a new keyword) [n2049] .

In some cases, attributes are optional (i.e. a compiler not supporting them should still produce proper code, even if it is slower or does not perform as many compile-time checks/diagnostics).

The kernel defines pseudo-keywords (e.g. __pure ) instead of using directly the GNU attribute syntax (e.g. __attribute__((__pure__)) ) in order to feature detect which ones can be used and/or to shorten the code.

Please refer to include/linux/compiler_attributes.h for more information.

Rust¶

The kernel has experimental support for the Rust programming language [rust-language] under CONFIG_RUST . It is compiled with rustc [rustc] under —edition=2021 [rust-editions] . Editions are a way to introduce small changes to the language that are not backwards compatible.

On top of that, some unstable features [rust-unstable-features] are used in the kernel. Unstable features may change in the future, thus it is an important goal to reach a point where only stable features are used.

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Please refer to Rust for more information.

Источник

Programming Language¶

The kernel is written in the C programming language [c-language] . More precisely, the kernel is typically compiled with gcc [gcc] under -std=gnu11 [gcc-c-dialect-options] : the GNU dialect of ISO C11. clang [clang] is also supported, see docs on Building Linux with Clang/LLVM .

This dialect contains many extensions to the language [gnu-extensions] , and many of them are used within the kernel as a matter of course.

Attributes¶

One of the common extensions used throughout the kernel are attributes [gcc-attribute-syntax] . Attributes allow to introduce implementation-defined semantics to language entities (like variables, functions or types) without having to make significant syntactic changes to the language (e.g. adding a new keyword) [n2049] .

In some cases, attributes are optional (i.e. a compiler not supporting them should still produce proper code, even if it is slower or does not perform as many compile-time checks/diagnostics).

The kernel defines pseudo-keywords (e.g. __pure ) instead of using directly the GNU attribute syntax (e.g. __attribute__((__pure__)) ) in order to feature detect which ones can be used and/or to shorten the code.

Please refer to include/linux/compiler_attributes.h for more information.

Rust¶

The kernel has experimental support for the Rust programming language [rust-language] under CONFIG_RUST . It is compiled with rustc [rustc] under —edition=2021 [rust-editions] . Editions are a way to introduce small changes to the language that are not backwards compatible.

On top of that, some unstable features [rust-unstable-features] are used in the kernel. Unstable features may change in the future, thus it is an important goal to reach a point where only stable features are used.

Please refer to Rust for more information.

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Источник

Programming Language¶

The kernel is written in the C programming language [c-language] . More precisely, the kernel is typically compiled with gcc [gcc] under -std=gnu11 [gcc-c-dialect-options] : the GNU dialect of ISO C11. clang [clang] is also supported, see docs on Building Linux with Clang/LLVM .

This dialect contains many extensions to the language [gnu-extensions] , and many of them are used within the kernel as a matter of course.

Attributes¶

One of the common extensions used throughout the kernel are attributes [gcc-attribute-syntax] . Attributes allow to introduce implementation-defined semantics to language entities (like variables, functions or types) without having to make significant syntactic changes to the language (e.g. adding a new keyword) [n2049] .

In some cases, attributes are optional (i.e. a compiler not supporting them should still produce proper code, even if it is slower or does not perform as many compile-time checks/diagnostics).

The kernel defines pseudo-keywords (e.g. __pure ) instead of using directly the GNU attribute syntax (e.g. __attribute__((__pure__)) ) in order to feature detect which ones can be used and/or to shorten the code.

Please refer to include/linux/compiler_attributes.h for more information.

Rust¶

The kernel has experimental support for the Rust programming language [rust-language] under CONFIG_RUST . It is compiled with rustc [rustc] under —edition=2021 [rust-editions] . Editions are a way to introduce small changes to the language that are not backwards compatible.

On top of that, some unstable features [rust-unstable-features] are used in the kernel. Unstable features may change in the future, thus it is an important goal to reach a point where only stable features are used.

Please refer to Rust for more information.

Источник

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