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Diffstat (limited to 'xpcom/rust/nsstring/src/conversions.rs')
| -rw-r--r-- | xpcom/rust/nsstring/src/conversions.rs | 751 |
1 files changed, 751 insertions, 0 deletions
diff --git a/xpcom/rust/nsstring/src/conversions.rs b/xpcom/rust/nsstring/src/conversions.rs new file mode 100644 index 0000000000..c72c195c08 --- /dev/null +++ b/xpcom/rust/nsstring/src/conversions.rs @@ -0,0 +1,751 @@ +/* This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at https://mozilla.org/MPL/2.0/. */ + +use crate::{ + nsACString, nsAString, nsCStringLike, BulkWriteOk, Gecko_FallibleAssignCString, + Latin1StringLike, +}; +use encoding_rs::mem::*; +use encoding_rs::Encoding; +use std::slice; + +/// Required math stated in the docs of +/// `convert_utf16_to_utf8()`. +#[inline(always)] +fn times_three(a: usize) -> Option<usize> { + a.checked_mul(3) +} + +#[inline(always)] +fn identity(a: usize) -> Option<usize> { + Some(a) +} + +#[inline(always)] +fn plus_one(a: usize) -> Option<usize> { + a.checked_add(1) +} + +/// Typical cache line size per +/// https://stackoverflow.com/questions/14707803/line-size-of-l1-and-l2-caches +/// +/// For consistent behavior, not trying to use 128 on aarch64 +/// or other fanciness like that. +const CACHE_LINE: usize = 64; + +const CACHE_LINE_MASK: usize = CACHE_LINE - 1; + +/// Returns true if the string is both longer than a cache line +/// and the first cache line is ASCII. +#[inline(always)] +fn long_string_starts_with_ascii(buffer: &[u8]) -> bool { + // We examine data only up to the end of the cache line + // to make this check minimally disruptive. + if buffer.len() <= CACHE_LINE { + return false; + } + let bound = CACHE_LINE - ((buffer.as_ptr() as usize) & CACHE_LINE_MASK); + is_ascii(&buffer[..bound]) +} + +/// Returns true if the string is both longer than two cache lines +/// and the first two cache lines are Basic Latin. +#[inline(always)] +fn long_string_stars_with_basic_latin(buffer: &[u16]) -> bool { + // We look at two cache lines with code unit size of two. There is need + // to look at more than one cache line in the UTF-16 case, because looking + // at just one cache line wouldn't catch non-ASCII Latin with high enough + // probability with Latin-script languages that have relatively infrequent + // non-ASCII characters. + if buffer.len() <= CACHE_LINE { + return false; + } + let bound = (CACHE_LINE * 2 - ((buffer.as_ptr() as usize) & CACHE_LINE_MASK)) / 2; + is_basic_latin(&buffer[..bound]) +} + +// Ignoring the copy avoidance complications of conversions between Latin1 and +// UTF-8, a conversion function has the outward form of +// `fn F(&mut self, other: &[T], old_len: usize) -> Result<BulkWriteOk, ()>`, +// where `T` is either `u8` or `u16`. `other` is the slice whose converted +// content are to be appended to `self` and `old_len` indicates how many +// code unit of `self` are to be preserved (0 for the assignment case and +// `self.len()` for the appending case). +// +// As implementation parameters a conversion function needs to know the +// math for computing the worst case conversion length in code units given +// the input length in code units. For a _constant conversion_ the number +// of code units the conversion produces equals the number of code units +// in the input. For a _shinking conversion_ the maximum number of code +// units the conversion can produce equals the number of code units in +// the input, but the conversion can produce fewer code units. Still, due +// to implementation details, the function might want _one_ unit more of +// output space. For an _expanding conversion_ (no need for macro), the +// minimum number of code units produced by the conversion is the number +// of code units in the input, but the conversion can produce more. +// +// Copy avoidance conversions avoid copying a refcounted buffer when it's +// ASCII-only. +// +// Internally, a conversion function needs to know the underlying +// encoding_rs conversion function, the math for computing the required +// output buffer size and, depending on the case, the underlying +// encoding_rs ASCII prefix handling function. + +/// A conversion where the number of code units in the output is potentially +/// smaller than the number of code units in the input. +/// +/// Takes the name of the method to be generated, the name of the conversion +/// function and the type of the input slice. +/// +/// `$name` is the name of the function to generate +/// `$convert` is the underlying `encoding_rs::mem` function to use +/// `$other_ty` is the type of the input slice +/// `$math` is the worst-case length math that `$convert` expects +macro_rules! shrinking_conversion { + (name = $name:ident, + convert = $convert:ident, + other_ty = $other_ty:ty, + math = $math:ident) => { + fn $name(&mut self, other: $other_ty, old_len: usize) -> Result<BulkWriteOk, ()> { + let needed = $math(other.len()).ok_or(())?; + let mut handle = + unsafe { self.bulk_write(old_len.checked_add(needed).ok_or(())?, old_len, false)? }; + let written = $convert(other, &mut handle.as_mut_slice()[old_len..]); + let new_len = old_len + written; + Ok(handle.finish(new_len, new_len > CACHE_LINE)) + } + }; +} + +/// A conversion where the number of code units in the output is always equal +/// to the number of code units in the input. +/// +/// Takes the name of the method to be generated, the name of the conversion +/// function and the type of the input slice. +/// +/// `$name` is the name of the function to generate +/// `$convert` is the underlying `encoding_rs::mem` function to use +/// `$other_ty` is the type of the input slice +macro_rules! constant_conversion { + (name = $name:ident, + convert = $convert:ident, + other_ty = $other_ty:ty) => { + fn $name( + &mut self, + other: $other_ty, + old_len: usize, + allow_shrinking: bool, + ) -> Result<BulkWriteOk, ()> { + let new_len = old_len.checked_add(other.len()).ok_or(())?; + let mut handle = unsafe { self.bulk_write(new_len, old_len, allow_shrinking)? }; + $convert(other, &mut handle.as_mut_slice()[old_len..]); + Ok(handle.finish(new_len, false)) + } + }; +} + +/// An intermediate check for avoiding a copy and having an `nsStringBuffer` +/// refcount increment instead when both `self` and `other` are `nsACString`s, +/// `other` is entirely ASCII and all old data in `self` is discarded. +/// +/// `$name` is the name of the function to generate +/// `$impl` is the underlying conversion that takes a slice and that is used +/// when we can't just adopt the incoming buffer as-is +/// `$string_like` is the kind of input taken +macro_rules! ascii_copy_avoidance { + (name = $name:ident, + implementation = $implementation:ident, + string_like = $string_like:ident) => { + fn $name<T: $string_like + ?Sized>( + &mut self, + other: &T, + old_len: usize, + ) -> Result<BulkWriteOk, ()> { + let adapter = other.adapt(); + let other_slice = adapter.as_ref(); + let num_ascii = if adapter.is_abstract() && old_len == 0 { + let up_to = Encoding::ascii_valid_up_to(other_slice); + if up_to == other_slice.len() { + // Calling something whose argument can be obtained from + // the adapter rather than an nsStringLike avoids a huge + // lifetime mess by keeping nsStringLike and + // Latin1StringLike free of lifetime interdependencies. + if unsafe { Gecko_FallibleAssignCString(self, other.adapt().as_ptr()) } { + return Ok(BulkWriteOk {}); + } else { + return Err(()); + } + } + Some(up_to) + } else { + None + }; + self.$implementation(other_slice, old_len, num_ascii) + } + }; +} + +impl nsAString { + // Valid UTF-8 to UTF-16 + + // Documentation says the destination buffer needs to have + // as many code units as the input. + shrinking_conversion!( + name = fallible_append_str_impl, + convert = convert_str_to_utf16, + other_ty = &str, + math = identity + ); + + /// Convert a valid UTF-8 string into valid UTF-16 and replace the content + /// of this string with the conversion result. + pub fn assign_str(&mut self, other: &str) { + self.fallible_append_str_impl(other, 0) + .expect("Out of memory"); + } + + /// Convert a valid UTF-8 string into valid UTF-16 and fallibly replace the + /// content of this string with the conversion result. + pub fn fallible_assign_str(&mut self, other: &str) -> Result<(), ()> { + self.fallible_append_str_impl(other, 0).map(|_| ()) + } + + /// Convert a valid UTF-8 string into valid UTF-16 and append the conversion + /// to this string. + pub fn append_str(&mut self, other: &str) { + let len = self.len(); + self.fallible_append_str_impl(other, len) + .expect("Out of memory"); + } + + /// Convert a valid UTF-8 string into valid UTF-16 and fallibly append the + /// conversion to this string. + pub fn fallible_append_str(&mut self, other: &str) -> Result<(), ()> { + let len = self.len(); + self.fallible_append_str_impl(other, len).map(|_| ()) + } + + // Potentially-invalid UTF-8 to UTF-16 + + // Documentation says the destination buffer needs to have + // one more code unit than the input. + shrinking_conversion!( + name = fallible_append_utf8_impl, + convert = convert_utf8_to_utf16, + other_ty = &[u8], + math = plus_one + ); + + /// Convert a potentially-invalid UTF-8 string into valid UTF-16 + /// (replacing invalid sequences with the REPLACEMENT CHARACTER) and + /// replace the content of this string with the conversion result. + pub fn assign_utf8(&mut self, other: &[u8]) { + self.fallible_append_utf8_impl(other, 0) + .expect("Out of memory"); + } + + /// Convert a potentially-invalid UTF-8 string into valid UTF-16 + /// (replacing invalid sequences with the REPLACEMENT CHARACTER) and + /// fallibly replace the content of this string with the conversion result. + pub fn fallible_assign_utf8(&mut self, other: &[u8]) -> Result<(), ()> { + self.fallible_append_utf8_impl(other, 0).map(|_| ()) + } + + /// Convert a potentially-invalid UTF-8 string into valid UTF-16 + /// (replacing invalid sequences with the REPLACEMENT CHARACTER) and + /// append the conversion result to this string. + pub fn append_utf8(&mut self, other: &[u8]) { + let len = self.len(); + self.fallible_append_utf8_impl(other, len) + .expect("Out of memory"); + } + + /// Convert a potentially-invalid UTF-8 string into valid UTF-16 + /// (replacing invalid sequences with the REPLACEMENT CHARACTER) and + /// fallibly append the conversion result to this string. + pub fn fallible_append_utf8(&mut self, other: &[u8]) -> Result<(), ()> { + let len = self.len(); + self.fallible_append_utf8_impl(other, len).map(|_| ()) + } + + // Latin1 to UTF-16 + + constant_conversion!( + name = fallible_append_latin1_impl, + convert = convert_latin1_to_utf16, + other_ty = &[u8] + ); + + /// Convert a Latin1 (i.e. byte value equals scalar value; not windows-1252!) + /// into UTF-16 and replace the content of this string with the conversion result. + pub fn assign_latin1(&mut self, other: &[u8]) { + self.fallible_append_latin1_impl(other, 0, true) + .expect("Out of memory"); + } + + /// Convert a Latin1 (i.e. byte value equals scalar value; not windows-1252!) + /// into UTF-16 and fallibly replace the content of this string with the + /// conversion result. + pub fn fallible_assign_latin1(&mut self, other: &[u8]) -> Result<(), ()> { + self.fallible_append_latin1_impl(other, 0, true).map(|_| ()) + } + + /// Convert a Latin1 (i.e. byte value equals scalar value; not windows-1252!) + /// into UTF-16 and append the conversion result to this string. + pub fn append_latin1(&mut self, other: &[u8]) { + let len = self.len(); + self.fallible_append_latin1_impl(other, len, false) + .expect("Out of memory"); + } + + /// Convert a Latin1 (i.e. byte value equals scalar value; not windows-1252!) + /// into UTF-16 and fallibly append the conversion result to this string. + pub fn fallible_append_latin1(&mut self, other: &[u8]) -> Result<(), ()> { + let len = self.len(); + self.fallible_append_latin1_impl(other, len, false) + .map(|_| ()) + } +} + +impl nsACString { + // UTF-16 to UTF-8 + + fn fallible_append_utf16_to_utf8_impl( + &mut self, + other: &[u16], + old_len: usize, + ) -> Result<BulkWriteOk, ()> { + // We first size the buffer for ASCII if the first two cache lines are ASCII. If that turns out + // not to be enough, we size for the worst case given the length of the remaining input at that + // point. BUT if the worst case fits inside the inline capacity of an autostring, we skip + // the ASCII stuff. + let worst_case_needed = if let Some(inline_capacity) = self.inline_capacity() { + let worst_case = times_three(other.len()).ok_or(())?; + if worst_case <= inline_capacity { + Some(worst_case) + } else { + None + } + } else { + None + }; + let (filled, read, mut handle) = + if worst_case_needed.is_none() && long_string_stars_with_basic_latin(other) { + let new_len_with_ascii = old_len.checked_add(other.len()).ok_or(())?; + let mut handle = unsafe { self.bulk_write(new_len_with_ascii, old_len, false)? }; + let (read, written) = + convert_utf16_to_utf8_partial(other, &mut handle.as_mut_slice()[old_len..]); + let left = other.len() - read; + if left == 0 { + return Ok(handle.finish(old_len + written, true)); + } + let filled = old_len + written; + let needed = times_three(left).ok_or(())?; + let new_len = filled.checked_add(needed).ok_or(())?; + unsafe { + handle.restart_bulk_write(new_len, filled, false)?; + } + (filled, read, handle) + } else { + // Started with non-ASCII. Compute worst case + let needed = if let Some(n) = worst_case_needed { + n + } else { + times_three(other.len()).ok_or(())? + }; + let new_len = old_len.checked_add(needed).ok_or(())?; + let handle = unsafe { self.bulk_write(new_len, old_len, false)? }; + (old_len, 0, handle) + }; + let written = convert_utf16_to_utf8(&other[read..], &mut handle.as_mut_slice()[filled..]); + Ok(handle.finish(filled + written, true)) + } + + /// Convert a potentially-invalid UTF-16 string into valid UTF-8 + /// (replacing invalid sequences with the REPLACEMENT CHARACTER) and + /// replace the content of this string with the conversion result. + pub fn assign_utf16_to_utf8(&mut self, other: &[u16]) { + self.fallible_append_utf16_to_utf8_impl(other, 0) + .expect("Out of memory"); + } + + /// Convert a potentially-invalid UTF-16 string into valid UTF-8 + /// (replacing invalid sequences with the REPLACEMENT CHARACTER) and + /// fallibly replace the content of this string with the conversion result. + pub fn fallible_assign_utf16_to_utf8(&mut self, other: &[u16]) -> Result<(), ()> { + self.fallible_append_utf16_to_utf8_impl(other, 0) + .map(|_| ()) + } + + /// Convert a potentially-invalid UTF-16 string into valid UTF-8 + /// (replacing invalid sequences with the REPLACEMENT CHARACTER) and + /// append the conversion result to this string. + pub fn append_utf16_to_utf8(&mut self, other: &[u16]) { + let len = self.len(); + self.fallible_append_utf16_to_utf8_impl(other, len) + .expect("Out of memory"); + } + + /// Convert a potentially-invalid UTF-16 string into valid UTF-8 + /// (replacing invalid sequences with the REPLACEMENT CHARACTER) and + /// fallibly append the conversion result to this string. + pub fn fallible_append_utf16_to_utf8(&mut self, other: &[u16]) -> Result<(), ()> { + let len = self.len(); + self.fallible_append_utf16_to_utf8_impl(other, len) + .map(|_| ()) + } + + // UTF-16 to Latin1 + + constant_conversion!( + name = fallible_append_utf16_to_latin1_lossy_impl, + convert = convert_utf16_to_latin1_lossy, + other_ty = &[u16] + ); + + /// Convert a UTF-16 string whose all code points are below U+0100 into + /// a Latin1 (scalar value is byte value; not windows-1252!) string and + /// replace the content of this string with the conversion result. + /// + /// # Panics + /// + /// If the input contains code points above U+00FF or is not valid UTF-16, + /// panics in debug mode and produces garbage in a memory-safe way in + /// release builds. The nature of the garbage may differ based on CPU + /// architecture and must not be relied upon. + pub fn assign_utf16_to_latin1_lossy(&mut self, other: &[u16]) { + self.fallible_append_utf16_to_latin1_lossy_impl(other, 0, true) + .expect("Out of memory"); + } + + /// Convert a UTF-16 string whose all code points are below U+0100 into + /// a Latin1 (scalar value is byte value; not windows-1252!) string and + /// fallibly replace the content of this string with the conversion result. + /// + /// # Panics + /// + /// If the input contains code points above U+00FF or is not valid UTF-16, + /// panics in debug mode and produces garbage in a memory-safe way in + /// release builds. The nature of the garbage may differ based on CPU + /// architecture and must not be relied upon. + pub fn fallible_assign_utf16_to_latin1_lossy(&mut self, other: &[u16]) -> Result<(), ()> { + self.fallible_append_utf16_to_latin1_lossy_impl(other, 0, true) + .map(|_| ()) + } + + /// Convert a UTF-16 string whose all code points are below U+0100 into + /// a Latin1 (scalar value is byte value; not windows-1252!) string and + /// append the conversion result to this string. + /// + /// # Panics + /// + /// If the input contains code points above U+00FF or is not valid UTF-16, + /// panics in debug mode and produces garbage in a memory-safe way in + /// release builds. The nature of the garbage may differ based on CPU + /// architecture and must not be relied upon. + pub fn append_utf16_to_latin1_lossy(&mut self, other: &[u16]) { + let len = self.len(); + self.fallible_append_utf16_to_latin1_lossy_impl(other, len, false) + .expect("Out of memory"); + } + + /// Convert a UTF-16 string whose all code points are below U+0100 into + /// a Latin1 (scalar value is byte value; not windows-1252!) string and + /// fallibly append the conversion result to this string. + /// + /// # Panics + /// + /// If the input contains code points above U+00FF or is not valid UTF-16, + /// panics in debug mode and produces garbage in a memory-safe way in + /// release builds. The nature of the garbage may differ based on CPU + /// architecture and must not be relied upon. + pub fn fallible_append_utf16_to_latin1_lossy(&mut self, other: &[u16]) -> Result<(), ()> { + let len = self.len(); + self.fallible_append_utf16_to_latin1_lossy_impl(other, len, false) + .map(|_| ()) + } + + // UTF-8 to Latin1 + + ascii_copy_avoidance!( + name = fallible_append_utf8_to_latin1_lossy_check, + implementation = fallible_append_utf8_to_latin1_lossy_impl, + string_like = nsCStringLike + ); + + fn fallible_append_utf8_to_latin1_lossy_impl( + &mut self, + other: &[u8], + old_len: usize, + maybe_num_ascii: Option<usize>, + ) -> Result<BulkWriteOk, ()> { + let new_len = old_len.checked_add(other.len()).ok_or(())?; + let num_ascii = maybe_num_ascii.unwrap_or(0); + // Already checked for overflow above, so this can't overflow. + let old_len_plus_num_ascii = old_len + num_ascii; + let mut handle = unsafe { self.bulk_write(new_len, old_len, false)? }; + let written = { + let buffer = handle.as_mut_slice(); + if num_ascii != 0 { + (&mut buffer[old_len..old_len_plus_num_ascii]).copy_from_slice(&other[..num_ascii]); + } + convert_utf8_to_latin1_lossy(&other[num_ascii..], &mut buffer[old_len_plus_num_ascii..]) + }; + Ok(handle.finish(old_len_plus_num_ascii + written, true)) + } + + /// Convert a UTF-8 string whose all code points are below U+0100 into + /// a Latin1 (scalar value is byte value; not windows-1252!) string and + /// replace the content of this string with the conversion result. + /// + /// # Panics + /// + /// If the input contains code points above U+00FF or is not valid UTF-8, + /// panics in debug mode and produces garbage in a memory-safe way in + /// release builds. The nature of the garbage may differ based on CPU + /// architecture and must not be relied upon. + pub fn assign_utf8_to_latin1_lossy<T: nsCStringLike + ?Sized>(&mut self, other: &T) { + self.fallible_append_utf8_to_latin1_lossy_check(other, 0) + .expect("Out of memory"); + } + + /// Convert a UTF-8 string whose all code points are below U+0100 into + /// a Latin1 (scalar value is byte value; not windows-1252!) string and + /// fallibly replace the content of this string with the conversion result. + /// + /// # Panics + /// + /// If the input contains code points above U+00FF or is not valid UTF-8, + /// panics in debug mode and produces garbage in a memory-safe way in + /// release builds. The nature of the garbage may differ based on CPU + /// architecture and must not be relied upon. + pub fn fallible_assign_utf8_to_latin1_lossy<T: nsCStringLike + ?Sized>( + &mut self, + other: &T, + ) -> Result<(), ()> { + self.fallible_append_utf8_to_latin1_lossy_check(other, 0) + .map(|_| ()) + } + + /// Convert a UTF-8 string whose all code points are below U+0100 into + /// a Latin1 (scalar value is byte value; not windows-1252!) string and + /// append the conversion result to this string. + /// + /// # Panics + /// + /// If the input contains code points above U+00FF or is not valid UTF-8, + /// panics in debug mode and produces garbage in a memory-safe way in + /// release builds. The nature of the garbage may differ based on CPU + /// architecture and must not be relied upon. + pub fn append_utf8_to_latin1_lossy<T: nsCStringLike + ?Sized>(&mut self, other: &T) { + let len = self.len(); + self.fallible_append_utf8_to_latin1_lossy_check(other, len) + .expect("Out of memory"); + } + + /// Convert a UTF-8 string whose all code points are below U+0100 into + /// a Latin1 (scalar value is byte value; not windows-1252!) string and + /// fallibly append the conversion result to this string. + /// + /// # Panics + /// + /// If the input contains code points above U+00FF or is not valid UTF-8, + /// panics in debug mode and produces garbage in a memory-safe way in + /// release builds. The nature of the garbage may differ based on CPU + /// architecture and must not be relied upon. + pub fn fallible_append_utf8_to_latin1_lossy<T: nsCStringLike + ?Sized>( + &mut self, + other: &T, + ) -> Result<(), ()> { + let len = self.len(); + self.fallible_append_utf8_to_latin1_lossy_check(other, len) + .map(|_| ()) + } + + // Latin1 to UTF-8 CString + + ascii_copy_avoidance!( + name = fallible_append_latin1_to_utf8_check, + implementation = fallible_append_latin1_to_utf8_impl, + string_like = Latin1StringLike + ); + + fn fallible_append_latin1_to_utf8_impl( + &mut self, + other: &[u8], + old_len: usize, + maybe_num_ascii: Option<usize>, + ) -> Result<BulkWriteOk, ()> { + let (filled, read, mut handle) = if let Some(num_ascii) = maybe_num_ascii { + // Wrapper checked for ASCII + let left = other.len() - num_ascii; + let filled = old_len + num_ascii; + let needed = left.checked_mul(2).ok_or(())?; + let new_len = filled.checked_add(needed).ok_or(())?; + let mut handle = unsafe { self.bulk_write(new_len, old_len, false)? }; + if num_ascii != 0 { + (&mut handle.as_mut_slice()[old_len..filled]).copy_from_slice(&other[..num_ascii]); + } + (filled, num_ascii, handle) + } else { + let worst_case_needed = if let Some(inline_capacity) = self.inline_capacity() { + let worst_case = other.len().checked_mul(2).ok_or(())?; + if worst_case <= inline_capacity { + Some(worst_case) + } else { + None + } + } else { + None + }; + if worst_case_needed.is_none() && long_string_starts_with_ascii(other) { + // Wrapper didn't check for ASCII, so let's see if `other` starts with ASCII + // `other` starts with ASCII, so let's first size the buffer + // with optimism that it's ASCII-only. + let new_len_with_ascii = old_len.checked_add(other.len()).ok_or(())?; + let mut handle = unsafe { self.bulk_write(new_len_with_ascii, old_len, false)? }; + let (read, written) = + convert_latin1_to_utf8_partial(other, &mut handle.as_mut_slice()[old_len..]); + let left = other.len() - read; + let filled = old_len + written; + if left == 0 { + // `other` fit in the initial allocation + return Ok(handle.finish(filled, true)); + } + let needed = left.checked_mul(2).ok_or(())?; + let new_len = filled.checked_add(needed).ok_or(())?; + unsafe { + handle.restart_bulk_write(new_len, filled, false)?; + } + (filled, read, handle) + } else { + // Started with non-ASCII. Assume worst case. + let needed = if let Some(n) = worst_case_needed { + n + } else { + other.len().checked_mul(2).ok_or(())? + }; + let new_len = old_len.checked_add(needed).ok_or(())?; + let handle = unsafe { self.bulk_write(new_len, old_len, false)? }; + (old_len, 0, handle) + } + }; + let written = convert_latin1_to_utf8(&other[read..], &mut handle.as_mut_slice()[filled..]); + Ok(handle.finish(filled + written, true)) + } + + /// Convert a Latin1 (i.e. byte value equals scalar value; not windows-1252!) + /// into UTF-8 and replace the content of this string with the conversion result. + pub fn assign_latin1_to_utf8<T: Latin1StringLike + ?Sized>(&mut self, other: &T) { + self.fallible_append_latin1_to_utf8_check(other, 0) + .expect("Out of memory"); + } + + /// Convert a Latin1 (i.e. byte value equals scalar value; not windows-1252!) + /// into UTF-8 and fallibly replace the content of this string with the + /// conversion result. + pub fn fallible_assign_latin1_to_utf8<T: Latin1StringLike + ?Sized>( + &mut self, + other: &T, + ) -> Result<(), ()> { + self.fallible_append_latin1_to_utf8_check(other, 0) + .map(|_| ()) + } + + /// Convert a Latin1 (i.e. byte value equals scalar value; not windows-1252!) + /// into UTF-8 and append the conversion result to this string. + pub fn append_latin1_to_utf8<T: Latin1StringLike + ?Sized>(&mut self, other: &T) { + let len = self.len(); + self.fallible_append_latin1_to_utf8_check(other, len) + .expect("Out of memory"); + } + + /// Convert a Latin1 (i.e. byte value equals scalar value; not windows-1252!) + /// into UTF-8 and fallibly append the conversion result to this string. + pub fn fallible_append_latin1_to_utf8<T: Latin1StringLike + ?Sized>( + &mut self, + other: &T, + ) -> Result<(), ()> { + let len = self.len(); + self.fallible_append_latin1_to_utf8_check(other, len) + .map(|_| ()) + } +} + +#[no_mangle] +pub unsafe extern "C" fn nsstring_fallible_append_utf8_impl( + this: *mut nsAString, + other: *const u8, + other_len: usize, + old_len: usize, +) -> bool { + let other_slice = slice::from_raw_parts(other, other_len); + (*this) + .fallible_append_utf8_impl(other_slice, old_len) + .is_ok() +} + +#[no_mangle] +pub unsafe extern "C" fn nsstring_fallible_append_latin1_impl( + this: *mut nsAString, + other: *const u8, + other_len: usize, + old_len: usize, + allow_shrinking: bool, +) -> bool { + let other_slice = slice::from_raw_parts(other, other_len); + (*this) + .fallible_append_latin1_impl(other_slice, old_len, allow_shrinking) + .is_ok() +} + +#[no_mangle] +pub unsafe extern "C" fn nscstring_fallible_append_utf16_to_utf8_impl( + this: *mut nsACString, + other: *const u16, + other_len: usize, + old_len: usize, +) -> bool { + let other_slice = slice::from_raw_parts(other, other_len); + (*this) + .fallible_append_utf16_to_utf8_impl(other_slice, old_len) + .is_ok() +} + +#[no_mangle] +pub unsafe extern "C" fn nscstring_fallible_append_utf16_to_latin1_lossy_impl( + this: *mut nsACString, + other: *const u16, + other_len: usize, + old_len: usize, + allow_shrinking: bool, +) -> bool { + let other_slice = slice::from_raw_parts(other, other_len); + (*this) + .fallible_append_utf16_to_latin1_lossy_impl(other_slice, old_len, allow_shrinking) + .is_ok() +} + +#[no_mangle] +pub unsafe extern "C" fn nscstring_fallible_append_utf8_to_latin1_lossy_check( + this: *mut nsACString, + other: *const nsACString, + old_len: usize, +) -> bool { + (*this) + .fallible_append_utf8_to_latin1_lossy_check(&*other, old_len) + .is_ok() +} + +#[no_mangle] +pub unsafe extern "C" fn nscstring_fallible_append_latin1_to_utf8_check( + this: *mut nsACString, + other: *const nsACString, + old_len: usize, +) -> bool { + (*this) + .fallible_append_latin1_to_utf8_check(&*other, old_len) + .is_ok() +} |