From a990de90fe41456a23e58bd087d2f107d321f3a1 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Fri, 19 Jul 2024 16:37:58 +0400 Subject: Deleted vendor folder --- vendor/lebe/src/lib.rs | 578 ------------------------------------------------- 1 file changed, 578 deletions(-) delete mode 100644 vendor/lebe/src/lib.rs (limited to 'vendor/lebe/src/lib.rs') diff --git a/vendor/lebe/src/lib.rs b/vendor/lebe/src/lib.rs deleted file mode 100644 index fbb4482..0000000 --- a/vendor/lebe/src/lib.rs +++ /dev/null @@ -1,578 +0,0 @@ -#![warn( - missing_docs, unused, - trivial_numeric_casts, - future_incompatible, - rust_2018_compatibility, - rust_2018_idioms, - clippy::all -)] - -#![doc(html_root_url = "https://docs.rs/lebe/0.5.0")] - -//! Dead simple endianness conversions. -//! The following operations are implemented on -//! `u8`, `i8`, `u16`, `i16`, `u32`, `i32`, `u64`, `i64`, `u128`, `i128`, `f32`, `f64`: -//! -//! -//! ### Read Numbers -//! ```rust -//! use lebe::prelude::*; -//! let mut reader: &[u8] = &[0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15]; -//! -//! let number : u64 = reader.read_from_little_endian()?; -//! let number = u64::read_from_big_endian(&mut reader)?; -//! # Ok::<(), std::io::Error>(()) -//! ``` -//! -//! ### Read Slices -//! ```rust -//! use std::io::Read; -//! use lebe::prelude::*; -//! let mut reader: &[u8] = &[0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15]; -//! -//! let mut numbers: &mut [u64] = &mut [0, 0]; -//! reader.read_from_little_endian_into(numbers)?; -//! # Ok::<(), std::io::Error>(()) -//! ``` -//! -//! ### Write Numbers -//! ```rust -//! use std::io::Read; -//! use lebe::prelude::*; -//! let mut writer: Vec = Vec::new(); -//! -//! let number: u64 = 1237691; -//! writer.write_as_big_endian(&number)?; -//! # Ok::<(), std::io::Error>(()) -//! ``` -//! -//! ### Write Slices -//! ```rust -//! use std::io::Write; -//! use lebe::prelude::*; -//! let mut writer: Vec = Vec::new(); -//! -//! let numbers: &[u64] = &[1_u64, 234545_u64]; -//! writer.write_as_little_endian(numbers)?; -//! # Ok::<(), std::io::Error>(()) -//! ``` -//! - - -/// Exports some of the most common types. -pub mod prelude { - pub use super::Endian; - pub use super::io::{ WriteEndian, ReadEndian, ReadPrimitive }; -} - -/// Represents values that can swap their bytes to reverse their endianness. -/// -/// Supports converting values in-place using [`swap_bytes`] or [`convert_current_to_little_endian`]: -/// Supports converting while transferring ownership using -/// [`from_little_endian_into_current`] or [`from_current_into_little_endian`]. -/// -/// -/// For the types `u8`, `i8`, `&[u8]` and `&[i8]`, this trait will never transform any data, -/// as they are just implemented for completeness. -pub trait Endian { - - /// Swaps all bytes in this value, inverting its endianness. - fn swap_bytes(&mut self); - - /// On a little endian machine, this does nothing. - /// On a big endian machine, the bytes of this value are reversed. - #[inline] fn convert_current_to_little_endian(&mut self) { - #[cfg(target_endian = "big")] { - self.swap_bytes(); - } - } - - /// On a big endian machine, this does nothing. - /// On a little endian machine, the bytes of this value are reversed. - #[inline] fn convert_current_to_big_endian(&mut self) { - #[cfg(target_endian = "little")] { - self.swap_bytes(); - } - } - - /// On a little endian machine, this does nothing. - /// On a big endian machine, the bytes of this value are reversed. - #[inline] fn convert_little_endian_to_current(&mut self) { - #[cfg(target_endian = "big")] { - self.swap_bytes(); - } - } - - /// On a big endian machine, this does nothing. - /// On a little endian machine, the bytes of this value are reversed. - #[inline] fn convert_big_endian_to_current(&mut self) { - #[cfg(target_endian = "little")] { - self.swap_bytes(); - } - } - - /// On a little endian machine, this does nothing. - /// On a big endian machine, the bytes of this value are reversed. - #[inline] fn from_current_into_little_endian(mut self) -> Self where Self: Sized { - self.convert_current_to_little_endian(); - self - } - - /// On a big endian machine, this does nothing. - /// On a little endian machine, the bytes of this value are reversed. - #[inline] fn from_current_into_big_endian(mut self) -> Self where Self: Sized { - self.convert_current_to_big_endian(); - self - } - - /// On a little endian machine, this does nothing. - /// On a big endian machine, the bytes of this value are reversed. - #[inline] fn from_little_endian_into_current(mut self) -> Self where Self: Sized { - self.convert_little_endian_to_current(); - self - } - - /// On a big endian machine, this does nothing. - /// On a little endian machine, the bytes of this value are reversed. - #[inline] fn from_big_endian_into_current(mut self) -> Self where Self: Sized { - self.convert_big_endian_to_current(); - self - } -} - - -// call a macro for each argument -macro_rules! call_single_arg_macro_for_each { - ($macro: ident, $( $arguments: ident ),* ) => { - $( $macro! { $arguments } )* - }; -} - -// implement this interface for primitive signed and unsigned integers -macro_rules! implement_simple_primitive_endian { - ($type: ident) => { - impl Endian for $type { - fn swap_bytes(&mut self) { - *self = $type::swap_bytes(*self); - } - } - }; -} - - -call_single_arg_macro_for_each! { - implement_simple_primitive_endian, - u16, u32, u64, u128, i16, i32, i64, i128 -} - -// no-op implementations -impl Endian for u8 { fn swap_bytes(&mut self) {} } -impl Endian for i8 { fn swap_bytes(&mut self) {} } -impl Endian for [u8] { fn swap_bytes(&mut self) {} } -impl Endian for [i8] { fn swap_bytes(&mut self) {} } - -// implement this interface for primitive floats, because they do not have a `swap_bytes()` in `std` -macro_rules! implement_float_primitive_by_bits { - ($type: ident) => { - impl Endian for $type { - fn swap_bytes(&mut self) { - *self = Self::from_bits(self.to_bits().swap_bytes()); - } - } - }; -} - - -implement_float_primitive_by_bits!(f32); -implement_float_primitive_by_bits!(f64); - -macro_rules! implement_slice_by_element { - ($type: ident) => { - impl Endian for [$type] { - fn swap_bytes(&mut self) { - for number in self.iter_mut() { // TODO SIMD? - number.swap_bytes(); - } - } - } - }; -} - -call_single_arg_macro_for_each! { - implement_slice_by_element, - u16, u32, u64, u128, - i16, i32, i64, i128, - f64, f32 -} - -/// Easily write primitives and slices of primitives to -/// binary `std::io::Write` streams and easily read from binary `std::io::Read` streams. -/// -/// Also contains the unsafe `bytes` module for reinterpreting values as byte slices and vice versa. -pub mod io { - use super::Endian; - use std::io::{Read, Write, Result}; - - /// Reinterpret values as byte slices and byte slices as values unsafely. - pub mod bytes { - use std::io::{Read, Write, Result}; - - /// View this slice of values as a slice of bytes. - #[inline] - pub unsafe fn slice_as_bytes(value: &[T]) -> &[u8] { - std::slice::from_raw_parts( - value.as_ptr() as *const u8, - value.len() * std::mem::size_of::() - ) - } - - /// View this slice of values as a mutable slice of bytes. - #[inline] - pub unsafe fn slice_as_bytes_mut(value: &mut [T]) -> &mut [u8] { - std::slice::from_raw_parts_mut( - value.as_mut_ptr() as *mut u8, - value.len() * std::mem::size_of::() - ) - } - - /// View this reference as a slice of bytes. - #[inline] - pub unsafe fn value_as_bytes(value: &T) -> &[u8] { - std::slice::from_raw_parts( - value as *const T as *const u8, - std::mem::size_of::() - ) - } - - /// View this reference as a mutable slice of bytes. - #[inline] - pub unsafe fn value_as_bytes_mut(value: &mut T) ->&mut [u8] { - std::slice::from_raw_parts_mut( - value as *mut T as *mut u8, - std::mem::size_of::() - ) - } - - /// View this slice as a mutable slice of bytes and write it. - #[inline] - pub unsafe fn write_slice(write: &mut impl Write, value: &[T]) -> Result<()> { - write.write_all(slice_as_bytes(value)) - } - - /// Read a slice of bytes into the specified slice. - #[inline] - pub unsafe fn read_slice(read: &mut impl Read, value: &mut [T]) -> Result<()> { - read.read_exact(slice_as_bytes_mut(value)) - } - - /// View this reference as a mutable slice of bytes and write it. - #[inline] - pub unsafe fn write_value(write: &mut impl Write, value: &T) -> Result<()> { - write.write_all(value_as_bytes(value)) - } - - /// Read a slice of bytes into the specified reference. - #[inline] - pub unsafe fn read_value(read: &mut impl Read, value: &mut T) -> Result<()> { - read.read_exact(value_as_bytes_mut(value)) - } - } - - /// A `std::io::Write` output stream which supports writing any primitive values as bytes. - /// Will encode the values to be either little endian or big endian, as desired. - /// - /// This extension trait is implemented for all `Write` types. - /// Add `use lebe::io::WriteEndian;` to your code - /// to automatically unlock this functionality for all types that implement `Write`. - pub trait WriteEndian { - - /// Write the byte value of the specified reference, converting it to little endianness - fn write_as_little_endian(&mut self, value: &T) -> Result<()>; - - /// Write the byte value of the specified reference, converting it to big endianness - fn write_as_big_endian(&mut self, value: &T) -> Result<()>; - - /// Write the byte value of the specified reference, not converting it - fn write_as_native_endian(&mut self, value: &T) -> Result<()> { - #[cfg(target_endian = "little")] { self.write_as_little_endian(value) } - #[cfg(target_endian = "big")] { self.write_as_big_endian(value) } - } - } - - /// A `std::io::Read` input stream which supports reading any primitive values from bytes. - /// Will decode the values from either little endian or big endian, as desired. - /// - /// This extension trait is implemented for all `Read` types. - /// Add `use lebe::io::ReadEndian;` to your code - /// to automatically unlock this functionality for all types that implement `Read`. - pub trait ReadEndian { - - /// Read into the supplied reference. Acts the same as `std::io::Read::read_exact`. - fn read_from_little_endian_into(&mut self, value: &mut T) -> Result<()>; - - /// Read into the supplied reference. Acts the same as `std::io::Read::read_exact`. - fn read_from_big_endian_into(&mut self, value: &mut T) -> Result<()>; - - /// Read into the supplied reference. Acts the same as `std::io::Read::read_exact`. - fn read_from_native_endian_into(&mut self, value: &mut T) -> Result<()> { - #[cfg(target_endian = "little")] { self.read_from_little_endian_into(value) } - #[cfg(target_endian = "big")] { self.read_from_big_endian_into(value) } - } - - /// Read the byte value of the inferred type - #[inline] - fn read_from_little_endian(&mut self) -> Result where T: Sized + Default { - let mut value = T::default(); - self.read_from_little_endian_into(&mut value)?; - Ok(value) - } - - /// Read the byte value of the inferred type - #[inline] - fn read_from_big_endian(&mut self) -> Result where T: Sized + Default { - let mut value = T::default(); - self.read_from_big_endian_into(&mut value)?; - Ok(value) - } - - /// Read the byte value of the inferred type - #[inline] - fn read_from_native_endian(&mut self) -> Result where T: Sized + Default { - #[cfg(target_endian = "little")] { self.read_from_little_endian() } - #[cfg(target_endian = "big")] { self.read_from_big_endian() } - } - } - - // implement primitive for all types that are implemented by `Read` - impl, P: Default> ReadPrimitive for P {} - - - /// Offers a prettier versions of reading a primitive number. - /// - /// The default way of reading a value is: - /// ```rust - /// # use std::io::Read; - /// # use lebe::prelude::*; - /// # let mut reader : &[u8] = &[2, 1]; - /// - /// let number: u16 = reader.read_from_little_endian()?; - /// println!("{}", number); - /// # Ok::<(), std::io::Error>(()) - /// - /// ``` - /// - /// This trait enables you to use expressions: - /// ```rust - /// # use std::io::Read; - /// # use lebe::prelude::*; - /// # let mut reader : &[u8] = &[2, 1]; - /// - /// println!("{}", u16::read_from_little_endian(&mut reader)?); - /// # Ok::<(), std::io::Error>(()) - /// ``` - /// . - /// - pub trait ReadPrimitive> : Sized + Default { - /// Read this value from the supplied reader. Same as `ReadEndian::read_from_little_endian()`. - fn read_from_little_endian(read: &mut R) -> Result { - read.read_from_little_endian() - } - - /// Read this value from the supplied reader. Same as `ReadEndian::read_from_big_endian()`. - fn read_from_big_endian(read: &mut R) -> Result { - read.read_from_big_endian() - } - - /// Read this value from the supplied reader. Same as `ReadEndian::read_from_native_endian()`. - fn read_from_native_endian(read: &mut R) -> Result { - read.read_from_native_endian() - } - } - - macro_rules! implement_simple_primitive_write { - ($type: ident) => { - impl WriteEndian<$type> for W { - fn write_as_little_endian(&mut self, value: &$type) -> Result<()> { - unsafe { bytes::write_value(self, &value.from_current_into_little_endian()) } - } - - fn write_as_big_endian(&mut self, value: &$type) -> Result<()> { - unsafe { bytes::write_value(self, &value.from_current_into_big_endian()) } - } - } - - impl ReadEndian<$type> for R { - #[inline] - fn read_from_little_endian_into(&mut self, value: &mut $type) -> Result<()> { - unsafe { bytes::read_value(self, value)?; } - value.convert_little_endian_to_current(); - Ok(()) - } - - #[inline] - fn read_from_big_endian_into(&mut self, value: &mut $type) -> Result<()> { - unsafe { bytes::read_value(self, value)?; } - value.convert_big_endian_to_current(); - Ok(()) - } - } - }; - } - - call_single_arg_macro_for_each! { - implement_simple_primitive_write, - u8, u16, u32, u64, u128, - i8, i16, i32, i64, i128, - f32, f64 - } - - - macro_rules! implement_slice_io { - ($type: ident) => { - impl WriteEndian<[$type]> for W { - fn write_as_little_endian(&mut self, value: &[$type]) -> Result<()> { - #[cfg(target_endian = "big")] { - for number in value { // TODO SIMD! - self.write_as_little_endian(number)?; - } - } - - // else write whole slice - #[cfg(target_endian = "little")] - unsafe { bytes::write_slice(self, value)?; } - - Ok(()) - } - - fn write_as_big_endian(&mut self, value: &[$type]) -> Result<()> { - #[cfg(target_endian = "little")] { - for number in value { // TODO SIMD! - self.write_as_big_endian(number)?; - } - } - - // else write whole slice - #[cfg(target_endian = "big")] - unsafe { bytes::write_slice(self, value)?; } - - Ok(()) - } - } - - impl ReadEndian<[$type]> for R { - fn read_from_little_endian_into(&mut self, value: &mut [$type]) -> Result<()> { - unsafe { bytes::read_slice(self, value)? }; - value.convert_little_endian_to_current(); - Ok(()) - } - - fn read_from_big_endian_into(&mut self, value: &mut [$type]) -> Result<()> { - unsafe { bytes::read_slice(self, value)? }; - value.convert_big_endian_to_current(); - Ok(()) - } - } - }; - } - - call_single_arg_macro_for_each! { - implement_slice_io, - u8, u16, u32, u64, u128, - i8, i16, i32, i64, i128, - f64, f32 - } - - - - // TODO: SIMD - /*impl ReadEndian<[f32]> for R { - fn read_from_little_endian_into(&mut self, value: &mut [f32]) -> Result<()> { - unsafe { bytes::read_slice(self, value)? }; - value.convert_little_endian_to_current(); - Ok(()) - } - - fn read_from_big_endian_into(&mut self, value: &mut [f32]) -> Result<()> { - unsafe { bytes::read_slice(self, value)? }; - value.convert_big_endian_to_current(); - Ok(()) - } - } - - impl WriteEndian<[f32]> for W { - fn write_as_big_endian(&mut self, value: &[f32]) -> Result<()> { - if cfg!(target_endian = "little") { - - // FIX ME this SIMD optimization makes no difference ... why? like, ZERO difference, not even worse -// #[cfg(feature = "simd")] - #[cfg(any(target_arch = "x86", target_arch = "x86_64"))] - unsafe { - if is_x86_feature_detected!("avx2") { - write_bytes_avx(self, value); - return Ok(()); - } - } - - // otherwise (no avx2 available) -// for number in value { -// self.write_as_little_endian(number); -// } -// -// return Ok(()); - unimplemented!(); - - #[target_feature(enable = "avx2")] - #[cfg(any(target_arch = "x86", target_arch = "x86_64"))] - unsafe fn write_bytes_avx(write: &mut impl Write, slice: &[f32]) -> Result<()> { - #[cfg(target_arch = "x86")] use std::arch::x86 as mm; - #[cfg(target_arch = "x86_64")] use std::arch::x86_64 as mm; - - let bytes: &[u8] = crate::io::bytes::slice_as_bytes(slice); - let mut chunks = bytes.chunks_exact(32); - - let indices = mm::_mm256_set_epi8( - 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15, - 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 -// 3,2,1,0, 7,6,5,4, 11,10,9,8, 15,14,13,12, -// 3,2,1,0, 7,6,5,4, 11,10,9,8, 15,14,13,12 - ); - - for chunk in &mut chunks { - let data = mm::_mm256_loadu_si256(chunk.as_ptr() as _); - let result = mm::_mm256_shuffle_epi8(data, indices); - let mut out = [0_u8; 32]; - mm::_mm256_storeu_si256(out.as_mut_ptr() as _, result); - write.write_all(&out)?; - } - - let remainder = chunks.remainder(); - - { // copy remainder into larger slice, with zeroes at the end - let mut last_chunk = [0_u8; 32]; - last_chunk[0..remainder.len()].copy_from_slice(remainder); - let data = mm::_mm256_loadu_si256(last_chunk.as_ptr() as _); - let result = mm::_mm256_shuffle_epi8(data, indices); - mm::_mm256_storeu_si256(last_chunk.as_mut_ptr() as _, result); - write.write_all(&last_chunk[0..remainder.len()])?; - } - - Ok(()) - } - } - - else { - unsafe { bytes::write_slice(self, value)?; } - Ok(()) - } - } - - fn write_as_little_endian(&mut self, value: &[f32]) -> Result<()> { - for number in value { - self.write_as_little_endian(number)?; - } - - Ok(()) - } - }*/ -} - -- cgit v1.2.3