From 1b6a04ca5504955c571d1c97504fb45ea0befee4 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Mon, 8 Jan 2024 01:21:28 +0400 Subject: Initial vendor packages Signed-off-by: Valentin Popov --- vendor/bit_field/src/lib.rs | 374 ++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 374 insertions(+) create mode 100644 vendor/bit_field/src/lib.rs (limited to 'vendor/bit_field/src/lib.rs') diff --git a/vendor/bit_field/src/lib.rs b/vendor/bit_field/src/lib.rs new file mode 100644 index 0000000..21e682b --- /dev/null +++ b/vendor/bit_field/src/lib.rs @@ -0,0 +1,374 @@ +//! Provides the abstraction of a bit field, which allows for bit-level update and retrieval +//! operations. + +#![no_std] + +#[cfg(test)] +mod tests; + +use core::ops::{Bound, Range, RangeBounds}; + +/// A generic trait which provides methods for extracting and setting specific bits or ranges of +/// bits. +pub trait BitField { + /// The number of bits in this bit field. + /// + /// ```rust + /// use bit_field::BitField; + /// + /// assert_eq!(u32::BIT_LENGTH, 32); + /// assert_eq!(u64::BIT_LENGTH, 64); + /// ``` + const BIT_LENGTH: usize; + + /// Obtains the bit at the index `bit`; note that index 0 is the least significant bit, while + /// index `length() - 1` is the most significant bit. + /// + /// ```rust + /// use bit_field::BitField; + /// + /// let value: u32 = 0b110101; + /// + /// assert_eq!(value.get_bit(1), false); + /// assert_eq!(value.get_bit(2), true); + /// ``` + /// + /// ## Panics + /// + /// This method will panic if the bit index is out of bounds of the bit field. + fn get_bit(&self, bit: usize) -> bool; + + /// Obtains the range of bits specified by `range`; note that index 0 is the least significant + /// bit, while index `length() - 1` is the most significant bit. + /// + /// ```rust + /// use bit_field::BitField; + /// + /// let value: u32 = 0b110101; + /// + /// assert_eq!(value.get_bits(0..3), 0b101); + /// assert_eq!(value.get_bits(2..6), 0b1101); + /// assert_eq!(value.get_bits(..), 0b110101); + /// assert_eq!(value.get_bits(3..=3), value.get_bit(3) as u32); + /// ``` + /// + /// ## Panics + /// + /// This method will panic if the start or end indexes of the range are out of bounds of the + /// bit field. + fn get_bits>(&self, range: T) -> Self; + + /// Sets the bit at the index `bit` to the value `value` (where true means a value of '1' and + /// false means a value of '0'); note that index 0 is the least significant bit, while index + /// `length() - 1` is the most significant bit. + /// + /// ```rust + /// use bit_field::BitField; + /// + /// let mut value = 0u32; + /// + /// value.set_bit(1, true); + /// assert_eq!(value, 2u32); + /// + /// value.set_bit(3, true); + /// assert_eq!(value, 10u32); + /// + /// value.set_bit(1, false); + /// assert_eq!(value, 8u32); + /// ``` + /// + /// ## Panics + /// + /// This method will panic if the bit index is out of the bounds of the bit field. + fn set_bit(&mut self, bit: usize, value: bool) -> &mut Self; + + /// Sets the range of bits defined by the range `range` to the lower bits of `value`; to be + /// specific, if the range is N bits long, the N lower bits of `value` will be used; if any of + /// the other bits in `value` are set to 1, this function will panic. + /// + /// ```rust + /// use bit_field::BitField; + /// + /// let mut value = 0u32; + /// + /// value.set_bits(0..2, 0b11); + /// assert_eq!(value, 0b11); + /// + /// value.set_bits(2..=3, 0b11); + /// assert_eq!(value, 0b1111); + /// + /// value.set_bits(..4, 0b1010); + /// assert_eq!(value, 0b1010); + /// ``` + /// + /// ## Panics + /// + /// This method will panic if the range is out of bounds of the bit field, or if there are `1`s + /// not in the lower N bits of `value`. + fn set_bits>(&mut self, range: T, value: Self) -> &mut Self; +} + +pub trait BitArray { + /// Returns the length, eg number of bits, in this bit array. + /// + /// ```rust + /// use bit_field::BitArray; + /// + /// assert_eq!([0u8, 4u8, 8u8].bit_length(), 24); + /// assert_eq!([0u32, 5u32].bit_length(), 64); + /// ``` + fn bit_length(&self) -> usize; + + /// Obtains the bit at the index `bit`; note that index 0 is the least significant bit, while + /// index `length() - 1` is the most significant bit. + /// + /// ```rust + /// use bit_field::BitArray; + /// + /// let value: [u32; 1] = [0b110101]; + /// + /// assert_eq!(value.get_bit(1), false); + /// assert_eq!(value.get_bit(2), true); + /// ``` + /// + /// ## Panics + /// + /// This method will panic if the bit index is out of bounds of the bit array. + fn get_bit(&self, bit: usize) -> bool; + + /// Obtains the range of bits specified by `range`; note that index 0 is the least significant + /// bit, while index `length() - 1` is the most significant bit. + /// + /// ```rust + /// use bit_field::BitArray; + /// + /// let value: [u32; 2] = [0b110101, 0b11]; + /// + /// assert_eq!(value.get_bits(0..3), 0b101); + /// assert_eq!(value.get_bits(..6), 0b110101); + /// assert_eq!(value.get_bits(31..33), 0b10); + /// assert_eq!(value.get_bits(5..=32), 0b1_0000_0000_0000_0000_0000_0000_001); + /// assert_eq!(value.get_bits(34..), 0); + /// ``` + /// + /// ## Panics + /// + /// This method will panic if the start or end indexes of the range are out of bounds of the + /// bit array, or if the range can't be contained by the bit field T. + fn get_bits>(&self, range: U) -> T; + + /// Sets the bit at the index `bit` to the value `value` (where true means a value of '1' and + /// false means a value of '0'); note that index 0 is the least significant bit, while index + /// `length() - 1` is the most significant bit. + /// + /// ```rust + /// use bit_field::BitArray; + /// + /// let mut value = [0u32]; + /// + /// value.set_bit(1, true); + /// assert_eq!(value, [2u32]); + /// + /// value.set_bit(3, true); + /// assert_eq!(value, [10u32]); + /// + /// value.set_bit(1, false); + /// assert_eq!(value, [8u32]); + /// ``` + /// + /// ## Panics + /// + /// This method will panic if the bit index is out of the bounds of the bit array. + fn set_bit(&mut self, bit: usize, value: bool); + + /// Sets the range of bits defined by the range `range` to the lower bits of `value`; to be + /// specific, if the range is N bits long, the N lower bits of `value` will be used; if any of + /// the other bits in `value` are set to 1, this function will panic. + /// + /// ```rust + /// use bit_field::BitArray; + /// + /// let mut value = [0u32, 0u32]; + /// + /// value.set_bits(0..2, 0b11); + /// assert_eq!(value, [0b11, 0u32]); + /// + /// value.set_bits(31..35, 0b1010); + /// assert_eq!(value, [0x0003, 0b101]); + /// ``` + /// + /// ## Panics + /// + /// This method will panic if the range is out of bounds of the bit array, + /// if the range can't be contained by the bit field T, or if there are `1`s + /// not in the lower N bits of `value`. + fn set_bits>(&mut self, range: U, value: T); +} + +/// An internal macro used for implementing BitField on the standard integral types. +macro_rules! bitfield_numeric_impl { + ($($t:ty)*) => ($( + impl BitField for $t { + const BIT_LENGTH: usize = ::core::mem::size_of::() as usize * 8; + + #[track_caller] + #[inline] + fn get_bit(&self, bit: usize) -> bool { + assert!(bit < Self::BIT_LENGTH); + + (*self & (1 << bit)) != 0 + } + + #[track_caller] + #[inline] + fn get_bits>(&self, range: T) -> Self { + let range = to_regular_range(&range, Self::BIT_LENGTH); + + assert!(range.start < Self::BIT_LENGTH); + assert!(range.end <= Self::BIT_LENGTH); + assert!(range.start < range.end); + + // shift away high bits + let bits = *self << (Self::BIT_LENGTH - range.end) >> (Self::BIT_LENGTH - range.end); + + // shift away low bits + bits >> range.start + } + + #[track_caller] + #[inline] + fn set_bit(&mut self, bit: usize, value: bool) -> &mut Self { + assert!(bit < Self::BIT_LENGTH); + + if value { + *self |= 1 << bit; + } else { + *self &= !(1 << bit); + } + + self + } + + #[track_caller] + #[inline] + fn set_bits>(&mut self, range: T, value: Self) -> &mut Self { + let range = to_regular_range(&range, Self::BIT_LENGTH); + + assert!(range.start < Self::BIT_LENGTH); + assert!(range.end <= Self::BIT_LENGTH); + assert!(range.start < range.end); + assert!(value << (Self::BIT_LENGTH - (range.end - range.start)) >> + (Self::BIT_LENGTH - (range.end - range.start)) == value, + "value does not fit into bit range"); + + let bitmask: Self = !(!0 << (Self::BIT_LENGTH - range.end) >> + (Self::BIT_LENGTH - range.end) >> + range.start << range.start); + + // set bits + *self = (*self & bitmask) | (value << range.start); + + self + } + } + )*) +} + +bitfield_numeric_impl! { u8 u16 u32 u64 u128 usize i8 i16 i32 i64 i128 isize } + +impl BitArray for [T] { + #[inline] + fn bit_length(&self) -> usize { + self.len() * T::BIT_LENGTH + } + + #[track_caller] + #[inline] + fn get_bit(&self, bit: usize) -> bool { + let slice_index = bit / T::BIT_LENGTH; + let bit_index = bit % T::BIT_LENGTH; + self[slice_index].get_bit(bit_index) + } + + #[track_caller] + #[inline] + fn get_bits>(&self, range: U) -> T { + let range = to_regular_range(&range, self.bit_length()); + + assert!(range.len() <= T::BIT_LENGTH); + + let slice_start = range.start / T::BIT_LENGTH; + let slice_end = range.end / T::BIT_LENGTH; + let bit_start = range.start % T::BIT_LENGTH; + let bit_end = range.end % T::BIT_LENGTH; + let len = range.len(); + + assert!(slice_end - slice_start <= 1); + + if slice_start == slice_end { + self[slice_start].get_bits(bit_start..bit_end) + } else if bit_end == 0 { + self[slice_start].get_bits(bit_start..T::BIT_LENGTH) + } else { + let mut ret = self[slice_start].get_bits(bit_start..T::BIT_LENGTH); + ret.set_bits( + (T::BIT_LENGTH - bit_start)..len, + self[slice_end].get_bits(0..bit_end), + ); + ret + } + } + + #[track_caller] + #[inline] + fn set_bit(&mut self, bit: usize, value: bool) { + let slice_index = bit / T::BIT_LENGTH; + let bit_index = bit % T::BIT_LENGTH; + self[slice_index].set_bit(bit_index, value); + } + + #[track_caller] + #[inline] + fn set_bits>(&mut self, range: U, value: T) { + let range = to_regular_range(&range, self.bit_length()); + + assert!(range.len() <= T::BIT_LENGTH); + + let slice_start = range.start / T::BIT_LENGTH; + let slice_end = range.end / T::BIT_LENGTH; + let bit_start = range.start % T::BIT_LENGTH; + let bit_end = range.end % T::BIT_LENGTH; + + assert!(slice_end - slice_start <= 1); + + if slice_start == slice_end { + self[slice_start].set_bits(bit_start..bit_end, value); + } else if bit_end == 0 { + self[slice_start].set_bits(bit_start..T::BIT_LENGTH, value); + } else { + self[slice_start].set_bits( + bit_start..T::BIT_LENGTH, + value.get_bits(0..T::BIT_LENGTH - bit_start), + ); + self[slice_end].set_bits( + 0..bit_end, + value.get_bits(T::BIT_LENGTH - bit_start..T::BIT_LENGTH), + ); + } + } +} + +fn to_regular_range>(generic_rage: &T, bit_length: usize) -> Range { + let start = match generic_rage.start_bound() { + Bound::Excluded(&value) => value + 1, + Bound::Included(&value) => value, + Bound::Unbounded => 0, + }; + let end = match generic_rage.end_bound() { + Bound::Excluded(&value) => value, + Bound::Included(&value) => value + 1, + Bound::Unbounded => bit_length, + }; + + start..end +} -- cgit v1.2.3