// Copyright Mozilla Foundation. See the COPYRIGHT // file at the top-level directory of this distribution. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! This module provides structs that use lifetimes to couple bounds checking //! and space availability checking and detaching those from actual slice //! reading/writing. //! //! At present, the internals of the implementation are safe code, so the //! bound checks currently also happen on read/write. Once this code works, //! the plan is to replace the internals with unsafe code that omits the //! bound check at the read/write time. #[cfg(all( feature = "simd-accel", any( target_feature = "sse2", all(target_endian = "little", target_arch = "aarch64"), all(target_endian = "little", target_feature = "neon") ) ))] use crate::simd_funcs::*; #[cfg(all( feature = "simd-accel", any( target_feature = "sse2", all(target_endian = "little", target_arch = "aarch64"), all(target_endian = "little", target_feature = "neon") ) ))] use packed_simd::u16x8; use super::DecoderResult; use super::EncoderResult; use crate::ascii::*; use crate::utf_8::convert_utf8_to_utf16_up_to_invalid; use crate::utf_8::utf8_valid_up_to; pub enum Space { Available(T), Full(usize), } pub enum CopyAsciiResult { Stop(T), GoOn(U), } pub enum NonAscii { BmpExclAscii(u16), Astral(char), } pub enum Unicode { Ascii(u8), NonAscii(NonAscii), } // Start UTF-16LE/BE fast path pub trait Endian { const OPPOSITE_ENDIAN: bool; } pub struct BigEndian; impl Endian for BigEndian { #[cfg(target_endian = "little")] const OPPOSITE_ENDIAN: bool = true; #[cfg(target_endian = "big")] const OPPOSITE_ENDIAN: bool = false; } pub struct LittleEndian; impl Endian for LittleEndian { #[cfg(target_endian = "little")] const OPPOSITE_ENDIAN: bool = false; #[cfg(target_endian = "big")] const OPPOSITE_ENDIAN: bool = true; } #[derive(Debug, Copy, Clone)] struct UnalignedU16Slice { ptr: *const u8, len: usize, } impl UnalignedU16Slice { #[inline(always)] pub unsafe fn new(ptr: *const u8, len: usize) -> UnalignedU16Slice { UnalignedU16Slice { ptr, len } } #[inline(always)] pub fn trim_last(&mut self) { assert!(self.len > 0); self.len -= 1; } #[inline(always)] pub fn at(&self, i: usize) -> u16 { use core::mem::MaybeUninit; assert!(i < self.len); unsafe { let mut u: MaybeUninit = MaybeUninit::uninit(); ::core::ptr::copy_nonoverlapping(self.ptr.add(i * 2), u.as_mut_ptr() as *mut u8, 2); u.assume_init() } } #[cfg(feature = "simd-accel")] #[inline(always)] pub fn simd_at(&self, i: usize) -> u16x8 { assert!(i + SIMD_STRIDE_SIZE / 2 <= self.len); let byte_index = i * 2; unsafe { to_u16_lanes(load16_unaligned(self.ptr.add(byte_index))) } } #[inline(always)] pub fn len(&self) -> usize { self.len } #[inline(always)] pub fn tail(&self, from: usize) -> UnalignedU16Slice { // XXX the return value should be restricted not to // outlive self. assert!(from <= self.len); unsafe { UnalignedU16Slice::new(self.ptr.add(from * 2), self.len - from) } } #[cfg(feature = "simd-accel")] #[inline(always)] pub fn copy_bmp_to(&self, other: &mut [u16]) -> Option<(u16, usize)> { assert!(self.len <= other.len()); let mut offset = 0; if SIMD_STRIDE_SIZE / 2 <= self.len { let len_minus_stride = self.len - SIMD_STRIDE_SIZE / 2; loop { let mut simd = self.simd_at(offset); if E::OPPOSITE_ENDIAN { simd = simd_byte_swap(simd); } unsafe { store8_unaligned(other.as_mut_ptr().add(offset), simd); } if contains_surrogates(simd) { break; } offset += SIMD_STRIDE_SIZE / 2; if offset > len_minus_stride { break; } } } while offset < self.len { let unit = swap_if_opposite_endian::(self.at(offset)); other[offset] = unit; if super::in_range16(unit, 0xD800, 0xE000) { return Some((unit, offset)); } offset += 1; } None } #[cfg(not(feature = "simd-accel"))] #[inline(always)] fn copy_bmp_to(&self, other: &mut [u16]) -> Option<(u16, usize)> { assert!(self.len <= other.len()); for (i, target) in other.iter_mut().enumerate().take(self.len) { let unit = swap_if_opposite_endian::(self.at(i)); *target = unit; if super::in_range16(unit, 0xD800, 0xE000) { return Some((unit, i)); } } None } } #[inline(always)] fn copy_unaligned_basic_latin_to_ascii_alu( src: UnalignedU16Slice, dst: &mut [u8], offset: usize, ) -> CopyAsciiResult { let len = ::core::cmp::min(src.len(), dst.len()); let mut i = 0usize; loop { if i == len { return CopyAsciiResult::Stop(i + offset); } let unit = swap_if_opposite_endian::(src.at(i)); if unit > 0x7F { return CopyAsciiResult::GoOn((unit, i + offset)); } dst[i] = unit as u8; i += 1; } } #[inline(always)] fn swap_if_opposite_endian(unit: u16) -> u16 { if E::OPPOSITE_ENDIAN { unit.swap_bytes() } else { unit } } #[cfg(not(feature = "simd-accel"))] #[inline(always)] fn copy_unaligned_basic_latin_to_ascii( src: UnalignedU16Slice, dst: &mut [u8], ) -> CopyAsciiResult { copy_unaligned_basic_latin_to_ascii_alu::(src, dst, 0) } #[cfg(feature = "simd-accel")] #[inline(always)] fn copy_unaligned_basic_latin_to_ascii( src: UnalignedU16Slice, dst: &mut [u8], ) -> CopyAsciiResult { let len = ::core::cmp::min(src.len(), dst.len()); let mut offset = 0; if SIMD_STRIDE_SIZE <= len { let len_minus_stride = len - SIMD_STRIDE_SIZE; loop { let mut first = src.simd_at(offset); let mut second = src.simd_at(offset + (SIMD_STRIDE_SIZE / 2)); if E::OPPOSITE_ENDIAN { first = simd_byte_swap(first); second = simd_byte_swap(second); } if !simd_is_basic_latin(first | second) { break; } let packed = simd_pack(first, second); unsafe { store16_unaligned(dst.as_mut_ptr().add(offset), packed); } offset += SIMD_STRIDE_SIZE; if offset > len_minus_stride { break; } } } copy_unaligned_basic_latin_to_ascii_alu::(src.tail(offset), &mut dst[offset..], offset) } #[inline(always)] fn convert_unaligned_utf16_to_utf8( src: UnalignedU16Slice, dst: &mut [u8], ) -> (usize, usize, bool) { if dst.len() < 4 { return (0, 0, false); } let mut src_pos = 0usize; let mut dst_pos = 0usize; let src_len = src.len(); let dst_len_minus_three = dst.len() - 3; 'outer: loop { let mut non_ascii = match copy_unaligned_basic_latin_to_ascii::( src.tail(src_pos), &mut dst[dst_pos..], ) { CopyAsciiResult::GoOn((unit, read_written)) => { src_pos += read_written; dst_pos += read_written; unit } CopyAsciiResult::Stop(read_written) => { return (src_pos + read_written, dst_pos + read_written, false); } }; if dst_pos >= dst_len_minus_three { break 'outer; } // We have enough destination space to commit to // having read `non_ascii`. src_pos += 1; 'inner: loop { let non_ascii_minus_surrogate_start = non_ascii.wrapping_sub(0xD800); if non_ascii_minus_surrogate_start > (0xDFFF - 0xD800) { if non_ascii < 0x800 { dst[dst_pos] = ((non_ascii >> 6) | 0xC0) as u8; dst_pos += 1; dst[dst_pos] = ((non_ascii & 0x3F) | 0x80) as u8; dst_pos += 1; } else { dst[dst_pos] = ((non_ascii >> 12) | 0xE0) as u8; dst_pos += 1; dst[dst_pos] = (((non_ascii & 0xFC0) >> 6) | 0x80) as u8; dst_pos += 1; dst[dst_pos] = ((non_ascii & 0x3F) | 0x80) as u8; dst_pos += 1; } } else if non_ascii_minus_surrogate_start <= (0xDBFF - 0xD800) { // high surrogate if src_pos < src_len { let second = swap_if_opposite_endian::(src.at(src_pos)); let second_minus_low_surrogate_start = second.wrapping_sub(0xDC00); if second_minus_low_surrogate_start <= (0xDFFF - 0xDC00) { // The next code unit is a low surrogate. Advance position. src_pos += 1; let point = (u32::from(non_ascii) << 10) + u32::from(second) - (((0xD800u32 << 10) - 0x10000u32) + 0xDC00u32); dst[dst_pos] = ((point >> 18) | 0xF0u32) as u8; dst_pos += 1; dst[dst_pos] = (((point & 0x3F000u32) >> 12) | 0x80u32) as u8; dst_pos += 1; dst[dst_pos] = (((point & 0xFC0u32) >> 6) | 0x80u32) as u8; dst_pos += 1; dst[dst_pos] = ((point & 0x3Fu32) | 0x80u32) as u8; dst_pos += 1; } else { // The next code unit is not a low surrogate. Don't advance // position and treat the high surrogate as unpaired. return (src_pos, dst_pos, true); } } else { // Unpaired surrogate at the end of buffer return (src_pos, dst_pos, true); } } else { // Unpaired low surrogate return (src_pos, dst_pos, true); } if dst_pos >= dst_len_minus_three || src_pos == src_len { break 'outer; } let unit = swap_if_opposite_endian::(src.at(src_pos)); src_pos += 1; if unit > 0x7F { non_ascii = unit; continue 'inner; } dst[dst_pos] = unit as u8; dst_pos += 1; continue 'outer; } } (src_pos, dst_pos, false) } // Byte source pub struct ByteSource<'a> { slice: &'a [u8], pos: usize, } impl<'a> ByteSource<'a> { #[inline(always)] pub fn new(src: &[u8]) -> ByteSource { ByteSource { slice: src, pos: 0 } } #[inline(always)] pub fn check_available<'b>(&'b mut self) -> Space> { if self.pos < self.slice.len() { Space::Available(ByteReadHandle::new(self)) } else { Space::Full(self.consumed()) } } #[inline(always)] fn read(&mut self) -> u8 { let ret = self.slice[self.pos]; self.pos += 1; ret } #[inline(always)] fn unread(&mut self) -> usize { self.pos -= 1; self.pos } #[inline(always)] pub fn consumed(&self) -> usize { self.pos } } pub struct ByteReadHandle<'a, 'b> where 'b: 'a, { source: &'a mut ByteSource<'b>, } impl<'a, 'b> ByteReadHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(src: &'a mut ByteSource<'b>) -> ByteReadHandle<'a, 'b> { ByteReadHandle { source: src } } #[inline(always)] pub fn read(self) -> (u8, ByteUnreadHandle<'a, 'b>) { let byte = self.source.read(); let handle = ByteUnreadHandle::new(self.source); (byte, handle) } #[inline(always)] pub fn consumed(&self) -> usize { self.source.consumed() } } pub struct ByteUnreadHandle<'a, 'b> where 'b: 'a, { source: &'a mut ByteSource<'b>, } impl<'a, 'b> ByteUnreadHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(src: &'a mut ByteSource<'b>) -> ByteUnreadHandle<'a, 'b> { ByteUnreadHandle { source: src } } #[inline(always)] pub fn unread(self) -> usize { self.source.unread() } #[inline(always)] pub fn consumed(&self) -> usize { self.source.consumed() } #[inline(always)] pub fn commit(self) -> &'a mut ByteSource<'b> { self.source } } // UTF-16 destination pub struct Utf16BmpHandle<'a, 'b> where 'b: 'a, { dest: &'a mut Utf16Destination<'b>, } impl<'a, 'b> Utf16BmpHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(dst: &'a mut Utf16Destination<'b>) -> Utf16BmpHandle<'a, 'b> { Utf16BmpHandle { dest: dst } } #[inline(always)] pub fn written(&self) -> usize { self.dest.written() } #[inline(always)] pub fn write_ascii(self, ascii: u8) -> &'a mut Utf16Destination<'b> { self.dest.write_ascii(ascii); self.dest } #[inline(always)] pub fn write_bmp(self, bmp: u16) -> &'a mut Utf16Destination<'b> { self.dest.write_bmp(bmp); self.dest } #[inline(always)] pub fn write_bmp_excl_ascii(self, bmp: u16) -> &'a mut Utf16Destination<'b> { self.dest.write_bmp_excl_ascii(bmp); self.dest } #[inline(always)] pub fn write_mid_bmp(self, bmp: u16) -> &'a mut Utf16Destination<'b> { self.dest.write_mid_bmp(bmp); self.dest } #[inline(always)] pub fn write_upper_bmp(self, bmp: u16) -> &'a mut Utf16Destination<'b> { self.dest.write_upper_bmp(bmp); self.dest } #[inline(always)] pub fn commit(self) -> &'a mut Utf16Destination<'b> { self.dest } } pub struct Utf16AstralHandle<'a, 'b> where 'b: 'a, { dest: &'a mut Utf16Destination<'b>, } impl<'a, 'b> Utf16AstralHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(dst: &'a mut Utf16Destination<'b>) -> Utf16AstralHandle<'a, 'b> { Utf16AstralHandle { dest: dst } } #[inline(always)] pub fn written(&self) -> usize { self.dest.written() } #[inline(always)] pub fn write_ascii(self, ascii: u8) -> &'a mut Utf16Destination<'b> { self.dest.write_ascii(ascii); self.dest } #[inline(always)] pub fn write_bmp(self, bmp: u16) -> &'a mut Utf16Destination<'b> { self.dest.write_bmp(bmp); self.dest } #[inline(always)] pub fn write_bmp_excl_ascii(self, bmp: u16) -> &'a mut Utf16Destination<'b> { self.dest.write_bmp_excl_ascii(bmp); self.dest } #[inline(always)] pub fn write_upper_bmp(self, bmp: u16) -> &'a mut Utf16Destination<'b> { self.dest.write_upper_bmp(bmp); self.dest } #[inline(always)] pub fn write_astral(self, astral: u32) -> &'a mut Utf16Destination<'b> { self.dest.write_astral(astral); self.dest } #[inline(always)] pub fn write_surrogate_pair(self, high: u16, low: u16) -> &'a mut Utf16Destination<'b> { self.dest.write_surrogate_pair(high, low); self.dest } #[inline(always)] pub fn write_big5_combination( self, combined: u16, combining: u16, ) -> &'a mut Utf16Destination<'b> { self.dest.write_big5_combination(combined, combining); self.dest } #[inline(always)] pub fn commit(self) -> &'a mut Utf16Destination<'b> { self.dest } } pub struct Utf16Destination<'a> { slice: &'a mut [u16], pos: usize, } impl<'a> Utf16Destination<'a> { #[inline(always)] pub fn new(dst: &mut [u16]) -> Utf16Destination { Utf16Destination { slice: dst, pos: 0 } } #[inline(always)] pub fn check_space_bmp<'b>(&'b mut self) -> Space> { if self.pos < self.slice.len() { Space::Available(Utf16BmpHandle::new(self)) } else { Space::Full(self.written()) } } #[inline(always)] pub fn check_space_astral<'b>(&'b mut self) -> Space> { if self.pos + 1 < self.slice.len() { Space::Available(Utf16AstralHandle::new(self)) } else { Space::Full(self.written()) } } #[inline(always)] pub fn written(&self) -> usize { self.pos } #[inline(always)] fn write_code_unit(&mut self, u: u16) { unsafe { // OK, because we checked before handing out a handle. *(self.slice.get_unchecked_mut(self.pos)) = u; } self.pos += 1; } #[inline(always)] fn write_ascii(&mut self, ascii: u8) { debug_assert!(ascii < 0x80); self.write_code_unit(u16::from(ascii)); } #[inline(always)] fn write_bmp(&mut self, bmp: u16) { self.write_code_unit(bmp); } #[inline(always)] fn write_bmp_excl_ascii(&mut self, bmp: u16) { debug_assert!(bmp >= 0x80); self.write_code_unit(bmp); } #[inline(always)] fn write_mid_bmp(&mut self, bmp: u16) { debug_assert!(bmp >= 0x80); // XXX self.write_code_unit(bmp); } #[inline(always)] fn write_upper_bmp(&mut self, bmp: u16) { debug_assert!(bmp >= 0x80); self.write_code_unit(bmp); } #[inline(always)] fn write_astral(&mut self, astral: u32) { debug_assert!(astral > 0xFFFF); debug_assert!(astral <= 0x10_FFFF); self.write_code_unit((0xD7C0 + (astral >> 10)) as u16); self.write_code_unit((0xDC00 + (astral & 0x3FF)) as u16); } #[inline(always)] pub fn write_surrogate_pair(&mut self, high: u16, low: u16) { self.write_code_unit(high); self.write_code_unit(low); } #[inline(always)] fn write_big5_combination(&mut self, combined: u16, combining: u16) { self.write_bmp_excl_ascii(combined); self.write_bmp_excl_ascii(combining); } #[inline(always)] pub fn copy_ascii_from_check_space_bmp<'b>( &'b mut self, source: &mut ByteSource, ) -> CopyAsciiResult<(DecoderResult, usize, usize), (u8, Utf16BmpHandle<'b, 'a>)> { let non_ascii_ret = { let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (DecoderResult::OutputFull, dst_remaining.len()) } else { (DecoderResult::InputEmpty, src_remaining.len()) }; match unsafe { ascii_to_basic_latin(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { source.pos += length; self.pos += length; return CopyAsciiResult::Stop((pending, source.pos, self.pos)); } Some((non_ascii, consumed)) => { source.pos += consumed; self.pos += consumed; source.pos += 1; // +1 for non_ascii non_ascii } } }; CopyAsciiResult::GoOn((non_ascii_ret, Utf16BmpHandle::new(self))) } #[inline(always)] pub fn copy_ascii_from_check_space_astral<'b>( &'b mut self, source: &mut ByteSource, ) -> CopyAsciiResult<(DecoderResult, usize, usize), (u8, Utf16AstralHandle<'b, 'a>)> { let non_ascii_ret = { let dst_len = self.slice.len(); let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (DecoderResult::OutputFull, dst_remaining.len()) } else { (DecoderResult::InputEmpty, src_remaining.len()) }; match unsafe { ascii_to_basic_latin(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { source.pos += length; self.pos += length; return CopyAsciiResult::Stop((pending, source.pos, self.pos)); } Some((non_ascii, consumed)) => { source.pos += consumed; self.pos += consumed; if self.pos + 1 < dst_len { source.pos += 1; // +1 for non_ascii non_ascii } else { return CopyAsciiResult::Stop(( DecoderResult::OutputFull, source.pos, self.pos, )); } } } }; CopyAsciiResult::GoOn((non_ascii_ret, Utf16AstralHandle::new(self))) } #[inline(always)] pub fn copy_utf8_up_to_invalid_from(&mut self, source: &mut ByteSource) { let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let (read, written) = convert_utf8_to_utf16_up_to_invalid(src_remaining, dst_remaining); source.pos += read; self.pos += written; } #[inline(always)] pub fn copy_utf16_from( &mut self, source: &mut ByteSource, ) -> Option<(usize, usize)> { let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let mut src_unaligned = unsafe { UnalignedU16Slice::new( src_remaining.as_ptr(), ::core::cmp::min(src_remaining.len() / 2, dst_remaining.len()), ) }; if src_unaligned.len() == 0 { return None; } let last_unit = swap_if_opposite_endian::(src_unaligned.at(src_unaligned.len() - 1)); if super::in_range16(last_unit, 0xD800, 0xDC00) { // Last code unit is a high surrogate. It might // legitimately form a pair later, so let's not // include it. src_unaligned.trim_last(); } let mut offset = 0usize; loop { if let Some((surrogate, bmp_len)) = { let src_left = src_unaligned.tail(offset); let dst_left = &mut dst_remaining[offset..src_unaligned.len()]; src_left.copy_bmp_to::(dst_left) } { offset += bmp_len; // surrogate has not been consumed yet let second_pos = offset + 1; if surrogate > 0xDBFF || second_pos == src_unaligned.len() { // Unpaired surrogate source.pos += second_pos * 2; self.pos += offset; return Some((source.pos, self.pos)); } let second = swap_if_opposite_endian::(src_unaligned.at(second_pos)); if !super::in_range16(second, 0xDC00, 0xE000) { // Unpaired surrogate source.pos += second_pos * 2; self.pos += offset; return Some((source.pos, self.pos)); } // `surrogate` was already speculatively written dst_remaining[second_pos] = second; offset += 2; continue; } else { source.pos += src_unaligned.len() * 2; self.pos += src_unaligned.len(); return None; } } } } // UTF-8 destination pub struct Utf8BmpHandle<'a, 'b> where 'b: 'a, { dest: &'a mut Utf8Destination<'b>, } impl<'a, 'b> Utf8BmpHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(dst: &'a mut Utf8Destination<'b>) -> Utf8BmpHandle<'a, 'b> { Utf8BmpHandle { dest: dst } } #[inline(always)] pub fn written(&self) -> usize { self.dest.written() } #[inline(always)] pub fn write_ascii(self, ascii: u8) -> &'a mut Utf8Destination<'b> { self.dest.write_ascii(ascii); self.dest } #[inline(always)] pub fn write_bmp(self, bmp: u16) -> &'a mut Utf8Destination<'b> { self.dest.write_bmp(bmp); self.dest } #[inline(always)] pub fn write_bmp_excl_ascii(self, bmp: u16) -> &'a mut Utf8Destination<'b> { self.dest.write_bmp_excl_ascii(bmp); self.dest } #[inline(always)] pub fn write_mid_bmp(self, bmp: u16) -> &'a mut Utf8Destination<'b> { self.dest.write_mid_bmp(bmp); self.dest } #[inline(always)] pub fn write_upper_bmp(self, bmp: u16) -> &'a mut Utf8Destination<'b> { self.dest.write_upper_bmp(bmp); self.dest } #[inline(always)] pub fn commit(self) -> &'a mut Utf8Destination<'b> { self.dest } } pub struct Utf8AstralHandle<'a, 'b> where 'b: 'a, { dest: &'a mut Utf8Destination<'b>, } impl<'a, 'b> Utf8AstralHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(dst: &'a mut Utf8Destination<'b>) -> Utf8AstralHandle<'a, 'b> { Utf8AstralHandle { dest: dst } } #[inline(always)] pub fn written(&self) -> usize { self.dest.written() } #[inline(always)] pub fn write_ascii(self, ascii: u8) -> &'a mut Utf8Destination<'b> { self.dest.write_ascii(ascii); self.dest } #[inline(always)] pub fn write_bmp(self, bmp: u16) -> &'a mut Utf8Destination<'b> { self.dest.write_bmp(bmp); self.dest } #[inline(always)] pub fn write_bmp_excl_ascii(self, bmp: u16) -> &'a mut Utf8Destination<'b> { self.dest.write_bmp_excl_ascii(bmp); self.dest } #[inline(always)] pub fn write_upper_bmp(self, bmp: u16) -> &'a mut Utf8Destination<'b> { self.dest.write_upper_bmp(bmp); self.dest } #[inline(always)] pub fn write_astral(self, astral: u32) -> &'a mut Utf8Destination<'b> { self.dest.write_astral(astral); self.dest } #[inline(always)] pub fn write_surrogate_pair(self, high: u16, low: u16) -> &'a mut Utf8Destination<'b> { self.dest.write_surrogate_pair(high, low); self.dest } #[inline(always)] pub fn write_big5_combination( self, combined: u16, combining: u16, ) -> &'a mut Utf8Destination<'b> { self.dest.write_big5_combination(combined, combining); self.dest } #[inline(always)] pub fn commit(self) -> &'a mut Utf8Destination<'b> { self.dest } } pub struct Utf8Destination<'a> { slice: &'a mut [u8], pos: usize, } impl<'a> Utf8Destination<'a> { #[inline(always)] pub fn new(dst: &mut [u8]) -> Utf8Destination { Utf8Destination { slice: dst, pos: 0 } } #[inline(always)] pub fn check_space_bmp<'b>(&'b mut self) -> Space> { if self.pos + 2 < self.slice.len() { Space::Available(Utf8BmpHandle::new(self)) } else { Space::Full(self.written()) } } #[inline(always)] pub fn check_space_astral<'b>(&'b mut self) -> Space> { if self.pos + 3 < self.slice.len() { Space::Available(Utf8AstralHandle::new(self)) } else { Space::Full(self.written()) } } #[inline(always)] pub fn written(&self) -> usize { self.pos } #[inline(always)] fn write_code_unit(&mut self, u: u8) { unsafe { // OK, because we checked before handing out a handle. *(self.slice.get_unchecked_mut(self.pos)) = u; } self.pos += 1; } #[inline(always)] fn write_ascii(&mut self, ascii: u8) { debug_assert!(ascii < 0x80); self.write_code_unit(ascii); } #[inline(always)] fn write_bmp(&mut self, bmp: u16) { if bmp < 0x80u16 { self.write_ascii(bmp as u8); } else if bmp < 0x800u16 { self.write_mid_bmp(bmp); } else { self.write_upper_bmp(bmp); } } #[inline(always)] fn write_mid_bmp(&mut self, mid_bmp: u16) { debug_assert!(mid_bmp >= 0x80); debug_assert!(mid_bmp < 0x800); self.write_code_unit(((mid_bmp >> 6) | 0xC0) as u8); self.write_code_unit(((mid_bmp & 0x3F) | 0x80) as u8); } #[inline(always)] fn write_upper_bmp(&mut self, upper_bmp: u16) { debug_assert!(upper_bmp >= 0x800); self.write_code_unit(((upper_bmp >> 12) | 0xE0) as u8); self.write_code_unit((((upper_bmp & 0xFC0) >> 6) | 0x80) as u8); self.write_code_unit(((upper_bmp & 0x3F) | 0x80) as u8); } #[inline(always)] fn write_bmp_excl_ascii(&mut self, bmp: u16) { if bmp < 0x800u16 { self.write_mid_bmp(bmp); } else { self.write_upper_bmp(bmp); } } #[inline(always)] fn write_astral(&mut self, astral: u32) { debug_assert!(astral > 0xFFFF); debug_assert!(astral <= 0x10_FFFF); self.write_code_unit(((astral >> 18) | 0xF0) as u8); self.write_code_unit((((astral & 0x3F000) >> 12) | 0x80) as u8); self.write_code_unit((((astral & 0xFC0) >> 6) | 0x80) as u8); self.write_code_unit(((astral & 0x3F) | 0x80) as u8); } #[inline(always)] pub fn write_surrogate_pair(&mut self, high: u16, low: u16) { self.write_astral( (u32::from(high) << 10) + u32::from(low) - (((0xD800u32 << 10) - 0x10000u32) + 0xDC00u32), ); } #[inline(always)] fn write_big5_combination(&mut self, combined: u16, combining: u16) { self.write_mid_bmp(combined); self.write_mid_bmp(combining); } #[inline(always)] pub fn copy_ascii_from_check_space_bmp<'b>( &'b mut self, source: &mut ByteSource, ) -> CopyAsciiResult<(DecoderResult, usize, usize), (u8, Utf8BmpHandle<'b, 'a>)> { let non_ascii_ret = { let dst_len = self.slice.len(); let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (DecoderResult::OutputFull, dst_remaining.len()) } else { (DecoderResult::InputEmpty, src_remaining.len()) }; match unsafe { ascii_to_ascii(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { source.pos += length; self.pos += length; return CopyAsciiResult::Stop((pending, source.pos, self.pos)); } Some((non_ascii, consumed)) => { source.pos += consumed; self.pos += consumed; if self.pos + 2 < dst_len { source.pos += 1; // +1 for non_ascii non_ascii } else { return CopyAsciiResult::Stop(( DecoderResult::OutputFull, source.pos, self.pos, )); } } } }; CopyAsciiResult::GoOn((non_ascii_ret, Utf8BmpHandle::new(self))) } #[inline(always)] pub fn copy_ascii_from_check_space_astral<'b>( &'b mut self, source: &mut ByteSource, ) -> CopyAsciiResult<(DecoderResult, usize, usize), (u8, Utf8AstralHandle<'b, 'a>)> { let non_ascii_ret = { let dst_len = self.slice.len(); let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (DecoderResult::OutputFull, dst_remaining.len()) } else { (DecoderResult::InputEmpty, src_remaining.len()) }; match unsafe { ascii_to_ascii(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { source.pos += length; self.pos += length; return CopyAsciiResult::Stop((pending, source.pos, self.pos)); } Some((non_ascii, consumed)) => { source.pos += consumed; self.pos += consumed; if self.pos + 3 < dst_len { source.pos += 1; // +1 for non_ascii non_ascii } else { return CopyAsciiResult::Stop(( DecoderResult::OutputFull, source.pos, self.pos, )); } } } }; CopyAsciiResult::GoOn((non_ascii_ret, Utf8AstralHandle::new(self))) } #[inline(always)] pub fn copy_utf8_up_to_invalid_from(&mut self, source: &mut ByteSource) { let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let min_len = ::core::cmp::min(src_remaining.len(), dst_remaining.len()); // Validate first, then memcpy to let memcpy do its thing even for // non-ASCII. (And potentially do something better than SSE2 for ASCII.) let valid_len = utf8_valid_up_to(&src_remaining[..min_len]); (&mut dst_remaining[..valid_len]).copy_from_slice(&src_remaining[..valid_len]); source.pos += valid_len; self.pos += valid_len; } #[inline(always)] pub fn copy_utf16_from( &mut self, source: &mut ByteSource, ) -> Option<(usize, usize)> { let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let mut src_unaligned = unsafe { UnalignedU16Slice::new(src_remaining.as_ptr(), src_remaining.len() / 2) }; if src_unaligned.len() == 0 { return None; } let mut last_unit = src_unaligned.at(src_unaligned.len() - 1); if E::OPPOSITE_ENDIAN { last_unit = last_unit.swap_bytes(); } if super::in_range16(last_unit, 0xD800, 0xDC00) { // Last code unit is a high surrogate. It might // legitimately form a pair later, so let's not // include it. src_unaligned.trim_last(); } let (read, written, had_error) = convert_unaligned_utf16_to_utf8::(src_unaligned, dst_remaining); source.pos += read * 2; self.pos += written; if had_error { Some((source.pos, self.pos)) } else { None } } } // UTF-16 source pub struct Utf16Source<'a> { slice: &'a [u16], pos: usize, old_pos: usize, } impl<'a> Utf16Source<'a> { #[inline(always)] pub fn new(src: &[u16]) -> Utf16Source { Utf16Source { slice: src, pos: 0, old_pos: 0, } } #[inline(always)] pub fn check_available<'b>(&'b mut self) -> Space> { if self.pos < self.slice.len() { Space::Available(Utf16ReadHandle::new(self)) } else { Space::Full(self.consumed()) } } #[cfg_attr(feature = "cargo-clippy", allow(collapsible_if))] #[inline(always)] fn read(&mut self) -> char { self.old_pos = self.pos; let unit = self.slice[self.pos]; self.pos += 1; let unit_minus_surrogate_start = unit.wrapping_sub(0xD800); if unit_minus_surrogate_start > (0xDFFF - 0xD800) { return unsafe { ::core::char::from_u32_unchecked(u32::from(unit)) }; } if unit_minus_surrogate_start <= (0xDBFF - 0xD800) { // high surrogate if self.pos < self.slice.len() { let second = self.slice[self.pos]; let second_minus_low_surrogate_start = second.wrapping_sub(0xDC00); if second_minus_low_surrogate_start <= (0xDFFF - 0xDC00) { // The next code unit is a low surrogate. Advance position. self.pos += 1; return unsafe { ::core::char::from_u32_unchecked( (u32::from(unit) << 10) + u32::from(second) - (((0xD800u32 << 10) - 0x10000u32) + 0xDC00u32), ) }; } // The next code unit is not a low surrogate. Don't advance // position and treat the high surrogate as unpaired. // fall through } // Unpaired surrogate at the end of buffer, fall through } // Unpaired low surrogate '\u{FFFD}' } #[cfg_attr(feature = "cargo-clippy", allow(collapsible_if))] #[inline(always)] fn read_enum(&mut self) -> Unicode { self.old_pos = self.pos; let unit = self.slice[self.pos]; self.pos += 1; if unit < 0x80 { return Unicode::Ascii(unit as u8); } let unit_minus_surrogate_start = unit.wrapping_sub(0xD800); if unit_minus_surrogate_start > (0xDFFF - 0xD800) { return Unicode::NonAscii(NonAscii::BmpExclAscii(unit)); } if unit_minus_surrogate_start <= (0xDBFF - 0xD800) { // high surrogate if self.pos < self.slice.len() { let second = self.slice[self.pos]; let second_minus_low_surrogate_start = second.wrapping_sub(0xDC00); if second_minus_low_surrogate_start <= (0xDFFF - 0xDC00) { // The next code unit is a low surrogate. Advance position. self.pos += 1; return Unicode::NonAscii(NonAscii::Astral(unsafe { ::core::char::from_u32_unchecked( (u32::from(unit) << 10) + u32::from(second) - (((0xD800u32 << 10) - 0x10000u32) + 0xDC00u32), ) })); } // The next code unit is not a low surrogate. Don't advance // position and treat the high surrogate as unpaired. // fall through } // Unpaired surrogate at the end of buffer, fall through } // Unpaired low surrogate Unicode::NonAscii(NonAscii::BmpExclAscii(0xFFFDu16)) } #[inline(always)] fn unread(&mut self) -> usize { self.pos = self.old_pos; self.pos } #[inline(always)] pub fn consumed(&self) -> usize { self.pos } #[inline(always)] pub fn copy_ascii_to_check_space_two<'b>( &mut self, dest: &'b mut ByteDestination<'a>, ) -> CopyAsciiResult<(EncoderResult, usize, usize), (NonAscii, ByteTwoHandle<'b, 'a>)> { let non_ascii_ret = { let dst_len = dest.slice.len(); let src_remaining = &self.slice[self.pos..]; let dst_remaining = &mut dest.slice[dest.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (EncoderResult::OutputFull, dst_remaining.len()) } else { (EncoderResult::InputEmpty, src_remaining.len()) }; match unsafe { basic_latin_to_ascii(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { self.pos += length; dest.pos += length; return CopyAsciiResult::Stop((pending, self.pos, dest.pos)); } Some((non_ascii, consumed)) => { self.pos += consumed; dest.pos += consumed; if dest.pos + 1 < dst_len { self.pos += 1; // commit to reading `non_ascii` let unit = non_ascii; let unit_minus_surrogate_start = unit.wrapping_sub(0xD800); if unit_minus_surrogate_start > (0xDFFF - 0xD800) { NonAscii::BmpExclAscii(unit) } else if unit_minus_surrogate_start <= (0xDBFF - 0xD800) { // high surrogate if self.pos < self.slice.len() { let second = self.slice[self.pos]; let second_minus_low_surrogate_start = second.wrapping_sub(0xDC00); if second_minus_low_surrogate_start <= (0xDFFF - 0xDC00) { // The next code unit is a low surrogate. Advance position. self.pos += 1; NonAscii::Astral(unsafe { ::core::char::from_u32_unchecked( (u32::from(unit) << 10) + u32::from(second) - (((0xD800u32 << 10) - 0x10000u32) + 0xDC00u32), ) }) } else { // The next code unit is not a low surrogate. Don't advance // position and treat the high surrogate as unpaired. NonAscii::BmpExclAscii(0xFFFDu16) } } else { // Unpaired surrogate at the end of the buffer. NonAscii::BmpExclAscii(0xFFFDu16) } } else { // Unpaired low surrogate NonAscii::BmpExclAscii(0xFFFDu16) } } else { return CopyAsciiResult::Stop(( EncoderResult::OutputFull, self.pos, dest.pos, )); } } } }; CopyAsciiResult::GoOn((non_ascii_ret, ByteTwoHandle::new(dest))) } #[inline(always)] pub fn copy_ascii_to_check_space_four<'b>( &mut self, dest: &'b mut ByteDestination<'a>, ) -> CopyAsciiResult<(EncoderResult, usize, usize), (NonAscii, ByteFourHandle<'b, 'a>)> { let non_ascii_ret = { let dst_len = dest.slice.len(); let src_remaining = &self.slice[self.pos..]; let dst_remaining = &mut dest.slice[dest.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (EncoderResult::OutputFull, dst_remaining.len()) } else { (EncoderResult::InputEmpty, src_remaining.len()) }; match unsafe { basic_latin_to_ascii(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { self.pos += length; dest.pos += length; return CopyAsciiResult::Stop((pending, self.pos, dest.pos)); } Some((non_ascii, consumed)) => { self.pos += consumed; dest.pos += consumed; if dest.pos + 3 < dst_len { self.pos += 1; // commit to reading `non_ascii` let unit = non_ascii; let unit_minus_surrogate_start = unit.wrapping_sub(0xD800); if unit_minus_surrogate_start > (0xDFFF - 0xD800) { NonAscii::BmpExclAscii(unit) } else if unit_minus_surrogate_start <= (0xDBFF - 0xD800) { // high surrogate if self.pos == self.slice.len() { // Unpaired surrogate at the end of the buffer. NonAscii::BmpExclAscii(0xFFFDu16) } else { let second = self.slice[self.pos]; let second_minus_low_surrogate_start = second.wrapping_sub(0xDC00); if second_minus_low_surrogate_start <= (0xDFFF - 0xDC00) { // The next code unit is a low surrogate. Advance position. self.pos += 1; NonAscii::Astral(unsafe { ::core::char::from_u32_unchecked( (u32::from(unit) << 10) + u32::from(second) - (((0xD800u32 << 10) - 0x1_0000u32) + 0xDC00u32), ) }) } else { // The next code unit is not a low surrogate. Don't advance // position and treat the high surrogate as unpaired. NonAscii::BmpExclAscii(0xFFFDu16) } } } else { // Unpaired low surrogate NonAscii::BmpExclAscii(0xFFFDu16) } } else { return CopyAsciiResult::Stop(( EncoderResult::OutputFull, self.pos, dest.pos, )); } } } }; CopyAsciiResult::GoOn((non_ascii_ret, ByteFourHandle::new(dest))) } } pub struct Utf16ReadHandle<'a, 'b> where 'b: 'a, { source: &'a mut Utf16Source<'b>, } impl<'a, 'b> Utf16ReadHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(src: &'a mut Utf16Source<'b>) -> Utf16ReadHandle<'a, 'b> { Utf16ReadHandle { source: src } } #[inline(always)] pub fn read(self) -> (char, Utf16UnreadHandle<'a, 'b>) { let character = self.source.read(); let handle = Utf16UnreadHandle::new(self.source); (character, handle) } #[inline(always)] pub fn read_enum(self) -> (Unicode, Utf16UnreadHandle<'a, 'b>) { let character = self.source.read_enum(); let handle = Utf16UnreadHandle::new(self.source); (character, handle) } #[inline(always)] pub fn consumed(&self) -> usize { self.source.consumed() } } pub struct Utf16UnreadHandle<'a, 'b> where 'b: 'a, { source: &'a mut Utf16Source<'b>, } impl<'a, 'b> Utf16UnreadHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(src: &'a mut Utf16Source<'b>) -> Utf16UnreadHandle<'a, 'b> { Utf16UnreadHandle { source: src } } #[inline(always)] pub fn unread(self) -> usize { self.source.unread() } #[inline(always)] pub fn consumed(&self) -> usize { self.source.consumed() } #[inline(always)] pub fn commit(self) -> &'a mut Utf16Source<'b> { self.source } } // UTF-8 source pub struct Utf8Source<'a> { slice: &'a [u8], pos: usize, old_pos: usize, } impl<'a> Utf8Source<'a> { #[inline(always)] pub fn new(src: &str) -> Utf8Source { Utf8Source { slice: src.as_bytes(), pos: 0, old_pos: 0, } } #[inline(always)] pub fn check_available<'b>(&'b mut self) -> Space> { if self.pos < self.slice.len() { Space::Available(Utf8ReadHandle::new(self)) } else { Space::Full(self.consumed()) } } #[inline(always)] fn read(&mut self) -> char { self.old_pos = self.pos; let unit = self.slice[self.pos]; if unit < 0x80 { self.pos += 1; return char::from(unit); } if unit < 0xE0 { let point = ((u32::from(unit) & 0x1F) << 6) | (u32::from(self.slice[self.pos + 1]) & 0x3F); self.pos += 2; return unsafe { ::core::char::from_u32_unchecked(point) }; } if unit < 0xF0 { let point = ((u32::from(unit) & 0xF) << 12) | ((u32::from(self.slice[self.pos + 1]) & 0x3F) << 6) | (u32::from(self.slice[self.pos + 2]) & 0x3F); self.pos += 3; return unsafe { ::core::char::from_u32_unchecked(point) }; } let point = ((u32::from(unit) & 0x7) << 18) | ((u32::from(self.slice[self.pos + 1]) & 0x3F) << 12) | ((u32::from(self.slice[self.pos + 2]) & 0x3F) << 6) | (u32::from(self.slice[self.pos + 3]) & 0x3F); self.pos += 4; unsafe { ::core::char::from_u32_unchecked(point) } } #[inline(always)] fn read_enum(&mut self) -> Unicode { self.old_pos = self.pos; let unit = self.slice[self.pos]; if unit < 0x80 { self.pos += 1; return Unicode::Ascii(unit); } if unit < 0xE0 { let point = ((u16::from(unit) & 0x1F) << 6) | (u16::from(self.slice[self.pos + 1]) & 0x3F); self.pos += 2; return Unicode::NonAscii(NonAscii::BmpExclAscii(point)); } if unit < 0xF0 { let point = ((u16::from(unit) & 0xF) << 12) | ((u16::from(self.slice[self.pos + 1]) & 0x3F) << 6) | (u16::from(self.slice[self.pos + 2]) & 0x3F); self.pos += 3; return Unicode::NonAscii(NonAscii::BmpExclAscii(point)); } let point = ((u32::from(unit) & 0x7) << 18) | ((u32::from(self.slice[self.pos + 1]) & 0x3F) << 12) | ((u32::from(self.slice[self.pos + 2]) & 0x3F) << 6) | (u32::from(self.slice[self.pos + 3]) & 0x3F); self.pos += 4; Unicode::NonAscii(NonAscii::Astral(unsafe { ::core::char::from_u32_unchecked(point) })) } #[inline(always)] fn unread(&mut self) -> usize { self.pos = self.old_pos; self.pos } #[inline(always)] pub fn consumed(&self) -> usize { self.pos } #[inline(always)] pub fn copy_ascii_to_check_space_one<'b>( &mut self, dest: &'b mut ByteDestination<'a>, ) -> CopyAsciiResult<(EncoderResult, usize, usize), (NonAscii, ByteOneHandle<'b, 'a>)> { let non_ascii_ret = { let src_remaining = &self.slice[self.pos..]; let dst_remaining = &mut dest.slice[dest.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (EncoderResult::OutputFull, dst_remaining.len()) } else { (EncoderResult::InputEmpty, src_remaining.len()) }; match unsafe { ascii_to_ascii(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { self.pos += length; dest.pos += length; return CopyAsciiResult::Stop((pending, self.pos, dest.pos)); } Some((non_ascii, consumed)) => { self.pos += consumed; dest.pos += consumed; // We don't need to check space in destination, because // `ascii_to_ascii()` already did. if non_ascii < 0xE0 { let point = ((u16::from(non_ascii) & 0x1F) << 6) | (u16::from(self.slice[self.pos + 1]) & 0x3F); self.pos += 2; NonAscii::BmpExclAscii(point) } else if non_ascii < 0xF0 { let point = ((u16::from(non_ascii) & 0xF) << 12) | ((u16::from(self.slice[self.pos + 1]) & 0x3F) << 6) | (u16::from(self.slice[self.pos + 2]) & 0x3F); self.pos += 3; NonAscii::BmpExclAscii(point) } else { let point = ((u32::from(non_ascii) & 0x7) << 18) | ((u32::from(self.slice[self.pos + 1]) & 0x3F) << 12) | ((u32::from(self.slice[self.pos + 2]) & 0x3F) << 6) | (u32::from(self.slice[self.pos + 3]) & 0x3F); self.pos += 4; NonAscii::Astral(unsafe { ::core::char::from_u32_unchecked(point) }) } } } }; CopyAsciiResult::GoOn((non_ascii_ret, ByteOneHandle::new(dest))) } #[inline(always)] pub fn copy_ascii_to_check_space_two<'b>( &mut self, dest: &'b mut ByteDestination<'a>, ) -> CopyAsciiResult<(EncoderResult, usize, usize), (NonAscii, ByteTwoHandle<'b, 'a>)> { let non_ascii_ret = { let dst_len = dest.slice.len(); let src_remaining = &self.slice[self.pos..]; let dst_remaining = &mut dest.slice[dest.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (EncoderResult::OutputFull, dst_remaining.len()) } else { (EncoderResult::InputEmpty, src_remaining.len()) }; match unsafe { ascii_to_ascii(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { self.pos += length; dest.pos += length; return CopyAsciiResult::Stop((pending, self.pos, dest.pos)); } Some((non_ascii, consumed)) => { self.pos += consumed; dest.pos += consumed; if dest.pos + 1 < dst_len { if non_ascii < 0xE0 { let point = ((u16::from(non_ascii) & 0x1F) << 6) | (u16::from(self.slice[self.pos + 1]) & 0x3F); self.pos += 2; NonAscii::BmpExclAscii(point) } else if non_ascii < 0xF0 { let point = ((u16::from(non_ascii) & 0xF) << 12) | ((u16::from(self.slice[self.pos + 1]) & 0x3F) << 6) | (u16::from(self.slice[self.pos + 2]) & 0x3F); self.pos += 3; NonAscii::BmpExclAscii(point) } else { let point = ((u32::from(non_ascii) & 0x7) << 18) | ((u32::from(self.slice[self.pos + 1]) & 0x3F) << 12) | ((u32::from(self.slice[self.pos + 2]) & 0x3F) << 6) | (u32::from(self.slice[self.pos + 3]) & 0x3F); self.pos += 4; NonAscii::Astral(unsafe { ::core::char::from_u32_unchecked(point) }) } } else { return CopyAsciiResult::Stop(( EncoderResult::OutputFull, self.pos, dest.pos, )); } } } }; CopyAsciiResult::GoOn((non_ascii_ret, ByteTwoHandle::new(dest))) } #[inline(always)] pub fn copy_ascii_to_check_space_four<'b>( &mut self, dest: &'b mut ByteDestination<'a>, ) -> CopyAsciiResult<(EncoderResult, usize, usize), (NonAscii, ByteFourHandle<'b, 'a>)> { let non_ascii_ret = { let dst_len = dest.slice.len(); let src_remaining = &self.slice[self.pos..]; let dst_remaining = &mut dest.slice[dest.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (EncoderResult::OutputFull, dst_remaining.len()) } else { (EncoderResult::InputEmpty, src_remaining.len()) }; match unsafe { ascii_to_ascii(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { self.pos += length; dest.pos += length; return CopyAsciiResult::Stop((pending, self.pos, dest.pos)); } Some((non_ascii, consumed)) => { self.pos += consumed; dest.pos += consumed; if dest.pos + 3 < dst_len { if non_ascii < 0xE0 { let point = ((u16::from(non_ascii) & 0x1F) << 6) | (u16::from(self.slice[self.pos + 1]) & 0x3F); self.pos += 2; NonAscii::BmpExclAscii(point) } else if non_ascii < 0xF0 { let point = ((u16::from(non_ascii) & 0xF) << 12) | ((u16::from(self.slice[self.pos + 1]) & 0x3F) << 6) | (u16::from(self.slice[self.pos + 2]) & 0x3F); self.pos += 3; NonAscii::BmpExclAscii(point) } else { let point = ((u32::from(non_ascii) & 0x7) << 18) | ((u32::from(self.slice[self.pos + 1]) & 0x3F) << 12) | ((u32::from(self.slice[self.pos + 2]) & 0x3F) << 6) | (u32::from(self.slice[self.pos + 3]) & 0x3F); self.pos += 4; NonAscii::Astral(unsafe { ::core::char::from_u32_unchecked(point) }) } } else { return CopyAsciiResult::Stop(( EncoderResult::OutputFull, self.pos, dest.pos, )); } } } }; CopyAsciiResult::GoOn((non_ascii_ret, ByteFourHandle::new(dest))) } } pub struct Utf8ReadHandle<'a, 'b> where 'b: 'a, { source: &'a mut Utf8Source<'b>, } impl<'a, 'b> Utf8ReadHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(src: &'a mut Utf8Source<'b>) -> Utf8ReadHandle<'a, 'b> { Utf8ReadHandle { source: src } } #[inline(always)] pub fn read(self) -> (char, Utf8UnreadHandle<'a, 'b>) { let character = self.source.read(); let handle = Utf8UnreadHandle::new(self.source); (character, handle) } #[inline(always)] pub fn read_enum(self) -> (Unicode, Utf8UnreadHandle<'a, 'b>) { let character = self.source.read_enum(); let handle = Utf8UnreadHandle::new(self.source); (character, handle) } #[inline(always)] pub fn consumed(&self) -> usize { self.source.consumed() } } pub struct Utf8UnreadHandle<'a, 'b> where 'b: 'a, { source: &'a mut Utf8Source<'b>, } impl<'a, 'b> Utf8UnreadHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(src: &'a mut Utf8Source<'b>) -> Utf8UnreadHandle<'a, 'b> { Utf8UnreadHandle { source: src } } #[inline(always)] pub fn unread(self) -> usize { self.source.unread() } #[inline(always)] pub fn consumed(&self) -> usize { self.source.consumed() } #[inline(always)] pub fn commit(self) -> &'a mut Utf8Source<'b> { self.source } } // Byte destination pub struct ByteOneHandle<'a, 'b> where 'b: 'a, { dest: &'a mut ByteDestination<'b>, } impl<'a, 'b> ByteOneHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(dst: &'a mut ByteDestination<'b>) -> ByteOneHandle<'a, 'b> { ByteOneHandle { dest: dst } } #[inline(always)] pub fn written(&self) -> usize { self.dest.written() } #[inline(always)] pub fn write_one(self, first: u8) -> &'a mut ByteDestination<'b> { self.dest.write_one(first); self.dest } } pub struct ByteTwoHandle<'a, 'b> where 'b: 'a, { dest: &'a mut ByteDestination<'b>, } impl<'a, 'b> ByteTwoHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(dst: &'a mut ByteDestination<'b>) -> ByteTwoHandle<'a, 'b> { ByteTwoHandle { dest: dst } } #[inline(always)] pub fn written(&self) -> usize { self.dest.written() } #[inline(always)] pub fn write_one(self, first: u8) -> &'a mut ByteDestination<'b> { self.dest.write_one(first); self.dest } #[inline(always)] pub fn write_two(self, first: u8, second: u8) -> &'a mut ByteDestination<'b> { self.dest.write_two(first, second); self.dest } } pub struct ByteThreeHandle<'a, 'b> where 'b: 'a, { dest: &'a mut ByteDestination<'b>, } impl<'a, 'b> ByteThreeHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(dst: &'a mut ByteDestination<'b>) -> ByteThreeHandle<'a, 'b> { ByteThreeHandle { dest: dst } } #[inline(always)] pub fn written(&self) -> usize { self.dest.written() } #[inline(always)] pub fn write_one(self, first: u8) -> &'a mut ByteDestination<'b> { self.dest.write_one(first); self.dest } #[inline(always)] pub fn write_two(self, first: u8, second: u8) -> &'a mut ByteDestination<'b> { self.dest.write_two(first, second); self.dest } #[inline(always)] pub fn write_three(self, first: u8, second: u8, third: u8) -> &'a mut ByteDestination<'b> { self.dest.write_three(first, second, third); self.dest } #[inline(always)] pub fn write_three_return_written(self, first: u8, second: u8, third: u8) -> usize { self.dest.write_three(first, second, third); self.dest.written() } } pub struct ByteFourHandle<'a, 'b> where 'b: 'a, { dest: &'a mut ByteDestination<'b>, } impl<'a, 'b> ByteFourHandle<'a, 'b> where 'b: 'a, { #[inline(always)] fn new(dst: &'a mut ByteDestination<'b>) -> ByteFourHandle<'a, 'b> { ByteFourHandle { dest: dst } } #[inline(always)] pub fn written(&self) -> usize { self.dest.written() } #[inline(always)] pub fn write_one(self, first: u8) -> &'a mut ByteDestination<'b> { self.dest.write_one(first); self.dest } #[inline(always)] pub fn write_two(self, first: u8, second: u8) -> &'a mut ByteDestination<'b> { self.dest.write_two(first, second); self.dest } #[inline(always)] pub fn write_four( self, first: u8, second: u8, third: u8, fourth: u8, ) -> &'a mut ByteDestination<'b> { self.dest.write_four(first, second, third, fourth); self.dest } } pub struct ByteDestination<'a> { slice: &'a mut [u8], pos: usize, } impl<'a> ByteDestination<'a> { #[inline(always)] pub fn new(dst: &mut [u8]) -> ByteDestination { ByteDestination { slice: dst, pos: 0 } } #[inline(always)] pub fn check_space_one<'b>(&'b mut self) -> Space> { if self.pos < self.slice.len() { Space::Available(ByteOneHandle::new(self)) } else { Space::Full(self.written()) } } #[inline(always)] pub fn check_space_two<'b>(&'b mut self) -> Space> { if self.pos + 1 < self.slice.len() { Space::Available(ByteTwoHandle::new(self)) } else { Space::Full(self.written()) } } #[inline(always)] pub fn check_space_three<'b>(&'b mut self) -> Space> { if self.pos + 2 < self.slice.len() { Space::Available(ByteThreeHandle::new(self)) } else { Space::Full(self.written()) } } #[inline(always)] pub fn check_space_four<'b>(&'b mut self) -> Space> { if self.pos + 3 < self.slice.len() { Space::Available(ByteFourHandle::new(self)) } else { Space::Full(self.written()) } } #[inline(always)] pub fn written(&self) -> usize { self.pos } #[inline(always)] fn write_one(&mut self, first: u8) { self.slice[self.pos] = first; self.pos += 1; } #[inline(always)] fn write_two(&mut self, first: u8, second: u8) { self.slice[self.pos] = first; self.slice[self.pos + 1] = second; self.pos += 2; } #[inline(always)] fn write_three(&mut self, first: u8, second: u8, third: u8) { self.slice[self.pos] = first; self.slice[self.pos + 1] = second; self.slice[self.pos + 2] = third; self.pos += 3; } #[inline(always)] fn write_four(&mut self, first: u8, second: u8, third: u8, fourth: u8) { self.slice[self.pos] = first; self.slice[self.pos + 1] = second; self.slice[self.pos + 2] = third; self.slice[self.pos + 3] = fourth; self.pos += 4; } }