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//! Cached powers trait for extended-precision floats.
use super::cached_float80;
use super::float::ExtendedFloat;
// POWERS
/// Precalculated powers that uses two-separate arrays for memory-efficiency.
#[doc(hidden)]
pub(crate) struct ExtendedFloatArray {
// Pre-calculated mantissa for the powers.
pub mant: &'static [u64],
// Pre-calculated binary exponents for the powers.
pub exp: &'static [i32],
}
/// Allow indexing of values without bounds checking
impl ExtendedFloatArray {
#[inline]
pub fn get_extended_float(&self, index: usize) -> ExtendedFloat {
let mant = self.mant[index];
let exp = self.exp[index];
ExtendedFloat { mant, exp }
}
#[inline]
pub fn len(&self) -> usize {
self.mant.len()
}
}
// MODERATE PATH POWERS
/// Precalculated powers of base N for the moderate path.
#[doc(hidden)]
pub(crate) struct ModeratePathPowers {
// Pre-calculated small powers.
pub small: ExtendedFloatArray,
// Pre-calculated large powers.
pub large: ExtendedFloatArray,
/// Pre-calculated small powers as 64-bit integers
pub small_int: &'static [u64],
// Step between large powers and number of small powers.
pub step: i32,
// Exponent bias for the large powers.
pub bias: i32,
}
/// Allow indexing of values without bounds checking
impl ModeratePathPowers {
#[inline]
pub fn get_small(&self, index: usize) -> ExtendedFloat {
self.small.get_extended_float(index)
}
#[inline]
pub fn get_large(&self, index: usize) -> ExtendedFloat {
self.large.get_extended_float(index)
}
#[inline]
pub fn get_small_int(&self, index: usize) -> u64 {
self.small_int[index]
}
}
// CACHED EXTENDED POWERS
/// Cached powers as a trait for a floating-point type.
pub(crate) trait ModeratePathCache {
/// Get cached powers.
fn get_powers() -> &'static ModeratePathPowers;
}
impl ModeratePathCache for ExtendedFloat {
#[inline]
fn get_powers() -> &'static ModeratePathPowers {
cached_float80::get_powers()
}
}