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//! Runtime support for precomputed constant hash tables.
//!
//! The shared module with the same name can generate constant hash tables using open addressing
//! and quadratic probing.
//!
//! The hash tables are arrays that are guaranteed to:
//!
//! - Have a power-of-two size.
//! - Contain at least one empty slot.
//!
//! This module provides runtime support for lookups in these tables.
// Re-export entities from constant_hash for simplicity of use.
pub use cranelift_codegen_shared::constant_hash::*;
/// Trait that must be implemented by the entries in a constant hash table.
pub trait Table<K: Copy + Eq> {
/// Get the number of entries in this table which must be a power of two.
fn len(&self) -> usize;
/// Get the key corresponding to the entry at `idx`, or `None` if the entry is empty.
/// The `idx` must be in range.
fn key(&self, idx: usize) -> Option<K>;
}
/// Look for `key` in `table`.
///
/// The provided `hash` value must have been computed from `key` using the same hash function that
/// was used to construct the table.
///
/// Returns `Ok(idx)` with the table index containing the found entry, or `Err(idx)` with the empty
/// sentinel entry if no entry could be found.
pub fn probe<K: Copy + Eq, T: Table<K> + ?Sized>(
table: &T,
key: K,
hash: usize,
) -> Result<usize, usize> {
debug_assert!(table.len().is_power_of_two());
let mask = table.len() - 1;
let mut idx = hash;
let mut step = 0;
loop {
idx &= mask;
match table.key(idx) {
None => return Err(idx),
Some(k) if k == key => return Ok(idx),
_ => {}
}
// Quadratic probing.
step += 1;
// When `table.len()` is a power of two, it can be proven that `idx` will visit all
// entries. This means that this loop will always terminate if the hash table has even
// one unused entry.
debug_assert!(step < table.len());
idx += step;
}
}