165 lines
4.4 KiB
Rust
165 lines
4.4 KiB
Rust
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//! Caches run-time feature detection so that it only needs to be computed
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//! once.
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#![allow(dead_code)] // not used on all platforms
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use crate::sync::atomic::Ordering;
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#[cfg(target_pointer_width = "64")]
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use crate::sync::atomic::AtomicU64;
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#[cfg(target_pointer_width = "32")]
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use crate::sync::atomic::AtomicU32;
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/// Sets the `bit` of `x`.
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#[inline]
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const fn set_bit(x: u64, bit: u32) -> u64 {
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x | 1 << bit
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}
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/// Tests the `bit` of `x`.
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#[inline]
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const fn test_bit(x: u64, bit: u32) -> bool {
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x & (1 << bit) != 0
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}
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/// Maximum number of features that can be cached.
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const CACHE_CAPACITY: u32 = 63;
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/// This type is used to initialize the cache
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#[derive(Copy, Clone)]
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pub(crate) struct Initializer(u64);
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#[allow(clippy::use_self)]
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impl Default for Initializer {
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fn default() -> Self {
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Initializer(0)
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}
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}
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impl Initializer {
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/// Tests the `bit` of the cache.
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#[allow(dead_code)]
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#[inline]
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pub(crate) fn test(self, bit: u32) -> bool {
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// FIXME: this way of making sure that the cache is large enough is
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// brittle.
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debug_assert!(
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bit < CACHE_CAPACITY,
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"too many features, time to increase the cache size!"
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);
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test_bit(self.0, bit)
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}
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/// Sets the `bit` of the cache.
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#[inline]
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pub(crate) fn set(&mut self, bit: u32) {
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// FIXME: this way of making sure that the cache is large enough is
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// brittle.
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debug_assert!(
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bit < CACHE_CAPACITY,
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"too many features, time to increase the cache size!"
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);
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let v = self.0;
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self.0 = set_bit(v, bit);
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}
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}
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/// This global variable is a cache of the features supported by the CPU.
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static CACHE: Cache = Cache::uninitialized();
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/// Feature cache with capacity for `CACHE_CAPACITY` features.
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///
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/// Note: the last feature bit is used to represent an
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/// uninitialized cache.
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#[cfg(target_pointer_width = "64")]
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struct Cache(AtomicU64);
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#[cfg(target_pointer_width = "64")]
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#[allow(clippy::use_self)]
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impl Cache {
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/// Creates an uninitialized cache.
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#[allow(clippy::declare_interior_mutable_const)]
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const fn uninitialized() -> Self {
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Cache(AtomicU64::new(u64::max_value()))
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}
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/// Is the cache uninitialized?
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#[inline]
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pub(crate) fn is_uninitialized(&self) -> bool {
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self.0.load(Ordering::Relaxed) == u64::max_value()
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}
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/// Is the `bit` in the cache set?
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#[inline]
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pub(crate) fn test(&self, bit: u32) -> bool {
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test_bit(CACHE.0.load(Ordering::Relaxed), bit)
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}
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/// Initializes the cache.
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#[inline]
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pub(crate) fn initialize(&self, value: Initializer) {
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self.0.store(value.0, Ordering::Relaxed);
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}
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}
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/// Feature cache with capacity for `CACHE_CAPACITY` features.
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///
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/// Note: the last feature bit is used to represent an
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/// uninitialized cache.
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#[cfg(target_pointer_width = "32")]
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struct Cache(AtomicU32, AtomicU32);
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#[cfg(target_pointer_width = "32")]
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impl Cache {
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/// Creates an uninitialized cache.
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const fn uninitialized() -> Self {
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Cache(
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AtomicU32::new(u32::max_value()),
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AtomicU32::new(u32::max_value()),
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)
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}
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/// Is the cache uninitialized?
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#[inline]
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pub(crate) fn is_uninitialized(&self) -> bool {
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self.1.load(Ordering::Relaxed) == u32::max_value()
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}
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/// Is the `bit` in the cache set?
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#[inline]
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pub(crate) fn test(&self, bit: u32) -> bool {
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if bit < 32 {
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test_bit(CACHE.0.load(Ordering::Relaxed) as u64, bit)
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} else {
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test_bit(CACHE.1.load(Ordering::Relaxed) as u64, bit - 32)
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}
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}
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/// Initializes the cache.
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#[inline]
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pub(crate) fn initialize(&self, value: Initializer) {
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let lo: u32 = value.0 as u32;
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let hi: u32 = (value.0 >> 32) as u32;
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self.0.store(lo, Ordering::Relaxed);
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self.1.store(hi, Ordering::Relaxed);
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}
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}
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/// Tests the `bit` of the storage. If the storage has not been initialized,
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/// initializes it with the result of `f()`.
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///
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/// On its first invocation, it detects the CPU features and caches them in the
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/// `CACHE` global variable as an `AtomicU64`.
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///
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/// It uses the `Feature` variant to index into this variable as a bitset. If
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/// the bit is set, the feature is enabled, and otherwise it is disabled.
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#[inline]
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pub(crate) fn test<F>(bit: u32, f: F) -> bool
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where
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F: FnOnce() -> Initializer,
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{
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if CACHE.is_uninitialized() {
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CACHE.initialize(f());
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}
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CACHE.test(bit)
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}
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