arm/usr/lib/rustlib/src/rust/library/stdarch/crates/std_detect/src/detect/mod.rs - manifest_repos/toolchain - Git at Google

 //! This module implements run-time feature detection.
 //!
 //! The `is_{arch}_feature_detected!("feature-name")` macros take the name of a
 //! feature as a string-literal, and return a boolean indicating whether the
 //! feature is enabled at run-time or not.
 //!
 //! These macros do two things:
 //! * map the string-literal into an integer stored as a `Feature` enum,
 //! * call a `os::check_for(x: Feature)` function that returns `true` if the
 //! feature is enabled.
 //!
 //! The `Feature` enums are also implemented in the `arch/{target_arch}.rs`
 //! modules.
 //!
 //! The `check_for` functions are, in general, Operating System dependent. Most
 //! architectures do not allow user-space programs to query the feature bits
 //! due to security concerns (x86 is the big exception). These functions are
 //! implemented in the `os/{target_os}.rs` modules.

 use cfg_if::cfg_if;

 #[macro_use]
 mod macros;

 mod arch;

 // This module needs to be public because the `is_{arch}_feature_detected!`
 // macros expand calls to items within it in user crates.
 #[doc(hidden)]
 pub use self::arch::__is_feature_detected;

 pub(crate) use self::arch::Feature;

 mod bit;
 mod cache;

 cfg_if! {
     if #[cfg(miri)] {
         // When running under miri all target-features that are not enabled at
         // compile-time are reported as disabled at run-time.
         //
         // For features for which `cfg(target_feature)` returns true,
         // this run-time detection logic is never called.
         #[path = "os/other.rs"]
         mod os;
     } else if #[cfg(any(target_arch = "x86", target_arch = "x86_64"))] {
         // On x86/x86_64 no OS specific functionality is required.
         #[path = "os/x86.rs"]
         mod os;
     } else if #[cfg(all(target_os = "linux", feature = "libc"))] {
         #[path = "os/linux/mod.rs"]
         mod os;
     } else if #[cfg(all(target_os = "freebsd", feature = "libc"))] {
         #[cfg(target_arch = "aarch64")]
         #[path = "os/aarch64.rs"]
         mod aarch64;
         #[path = "os/freebsd/mod.rs"]
         mod os;
     } else if #[cfg(all(target_os = "windows", target_arch = "aarch64"))] {
         #[path = "os/windows/aarch64.rs"]
         mod os;
     } else {
         #[path = "os/other.rs"]
         mod os;
     }
 }

 /// Performs run-time feature detection.
 #[inline]
 #[allow(dead_code)]
 fn check_for(x: Feature) -> bool {
     cache::test(x as u32)
 }

 /// Returns an `Iterator<Item=(&'static str, bool)>` where
 /// `Item.0` is the feature name, and `Item.1` is a `bool` which
 /// is `true` if the feature is supported by the host and `false` otherwise.
 #[unstable(feature = "stdsimd", issue = "27731")]
 pub fn features() -> impl Iterator<Item = (&'static str, bool)> {
     cfg_if! {
         if #[cfg(any(
             target_arch = "x86",
             target_arch = "x86_64",
             target_arch = "arm",
             target_arch = "aarch64",
             target_arch = "riscv32",
             target_arch = "riscv64",
             target_arch = "powerpc",
             target_arch = "powerpc64",
             target_arch = "mips",
             target_arch = "mips64",
         ))] {
             (0_u8..Feature::_last as u8).map(|discriminant: u8| {
                 #[allow(bindings_with_variant_name)] // RISC-V has Feature::f
                 let f: Feature = unsafe { core::mem::transmute(discriminant) };
                 let name: &'static str = f.to_str();
                 let enabled: bool = check_for(f);
                 (name, enabled)
             })
         } else {
             None.into_iter()
         }
     }
 }
	//! This module implements run-time feature detection.
	//!
	//! The `is_{arch}_feature_detected!("feature-name")` macros take the name of a
	//! feature as a string-literal, and return a boolean indicating whether the
	//! feature is enabled at run-time or not.
	//!
	//! These macros do two things:
	//! * map the string-literal into an integer stored as a `Feature` enum,
	//! * call a `os::check_for(x: Feature)` function that returns `true` if the
	//! feature is enabled.
	//!
	//! The `Feature` enums are also implemented in the `arch/{target_arch}.rs`
	//! modules.
	//!
	//! The `check_for` functions are, in general, Operating System dependent. Most
	//! architectures do not allow user-space programs to query the feature bits
	//! due to security concerns (x86 is the big exception). These functions are
	//! implemented in the `os/{target_os}.rs` modules.

	use cfg_if::cfg_if;

	#[macro_use]
	mod macros;

	mod arch;

	// This module needs to be public because the `is_{arch}_feature_detected!`
	// macros expand calls to items within it in user crates.
	#[doc(hidden)]
	pub use self::arch::__is_feature_detected;

	pub(crate) use self::arch::Feature;

	mod bit;
	mod cache;

	cfg_if! {
	if #[cfg(miri)] {
	// When running under miri all target-features that are not enabled at
	// compile-time are reported as disabled at run-time.
	//
	// For features for which `cfg(target_feature)` returns true,
	// this run-time detection logic is never called.
	#[path = "os/other.rs"]
	mod os;
	} else if #[cfg(any(target_arch = "x86", target_arch = "x86_64"))] {
	// On x86/x86_64 no OS specific functionality is required.
	#[path = "os/x86.rs"]
	mod os;
	} else if #[cfg(all(target_os = "linux", feature = "libc"))] {
	#[path = "os/linux/mod.rs"]
	mod os;
	} else if #[cfg(all(target_os = "freebsd", feature = "libc"))] {
	#[cfg(target_arch = "aarch64")]
	#[path = "os/aarch64.rs"]
	mod aarch64;
	#[path = "os/freebsd/mod.rs"]
	mod os;
	} else if #[cfg(all(target_os = "windows", target_arch = "aarch64"))] {
	#[path = "os/windows/aarch64.rs"]
	mod os;
	} else {
	#[path = "os/other.rs"]
	mod os;
	}
	}

	/// Performs run-time feature detection.
	#[inline]
	#[allow(dead_code)]
	fn check_for(x: Feature) -> bool {
	cache::test(x as u32)
	}

	/// Returns an `Iterator<Item=(&'static str, bool)>` where
	/// `Item.0` is the feature name, and `Item.1` is a `bool` which
	/// is `true` if the feature is supported by the host and `false` otherwise.
	#[unstable(feature = "stdsimd", issue = "27731")]
	pub fn features() -> impl Iterator<Item = (&'static str, bool)> {
	cfg_if! {
	if #[cfg(any(
	target_arch = "x86",
	target_arch = "x86_64",
	target_arch = "arm",
	target_arch = "aarch64",
	target_arch = "riscv32",
	target_arch = "riscv64",
	target_arch = "powerpc",
	target_arch = "powerpc64",
	target_arch = "mips",
	target_arch = "mips64",
	))] {
	(0_u8..Feature::_last as u8).map(\|discriminant: u8\| {
	#[allow(bindings_with_variant_name)] // RISC-V has Feature::f
	let f: Feature = unsafe { core::mem::transmute(discriminant) };
	let name: &'static str = f.to_str();
	let enabled: bool = check_for(f);
	(name, enabled)
	})
	} else {
	None.into_iter()
	}
	}
	}