Redesign `hex::BufEncoder` to accept owned arrays
Not being able to create an owned `BufEncoder` prevented returning it from functions which need to allocate the buffer on stack. Such is the case in WIP serde via consensus serialzation. This change refactors `OutBytes` to be unsized, adds an `AsOutBytes` trait and uses that one instead of `Into` to perform the conversion.
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720af690fc
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1bf885550e
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@ -8,10 +8,32 @@ pub use out_bytes::OutBytes;
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use super::Case;
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use super::Case;
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/// Trait for types that can be soundly converted to `OutBytes`.
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///
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/// To protect the API from future breakage this sealed trait guards which types can be used with
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/// the `Encoder`. Currently it is implemented for byte arrays of various interesting lengths.
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///
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/// ## Safety
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///
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/// This is not `unsafe` yet but the `as_out_bytes` should always return the same reference if the
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/// same reference is supplied. IOW the returned memory address and length should be the same if
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/// the input memory address and length are the same.
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///
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/// If the trait ever becomes `unsafe` this will be required for soundness.
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pub trait AsOutBytes: out_bytes::Sealed {
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/// Performs the conversion.
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fn as_out_bytes(&self) -> &OutBytes;
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/// Performs the conversion.
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fn as_mut_out_bytes(&mut self) -> &mut OutBytes;
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}
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/// Implements `OutBytes`
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/// Implements `OutBytes`
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///
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///
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/// This prevents the rest of the crate from accessing the field of `OutBytes`.
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/// This prevents the rest of the crate from accessing the field of `OutBytes`.
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mod out_bytes {
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mod out_bytes {
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use super::AsOutBytes;
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/// A byte buffer that can only be written-into.
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/// A byte buffer that can only be written-into.
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///
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///
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/// You shouldn't concern yourself with this, just call `BufEncoder::new` with your array.
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/// You shouldn't concern yourself with this, just call `BufEncoder::new` with your array.
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@ -20,11 +42,12 @@ mod out_bytes {
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/// `unsafe` until it's proven to be needed but if it does we have an easy, compatible upgrade
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/// `unsafe` until it's proven to be needed but if it does we have an easy, compatible upgrade
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/// option.
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/// option.
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///
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///
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/// We also don't bother with unsized type because the immutable version is useless and this avoids
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/// Warning: `repr(transparent)` is an internal implementation detail and **must not** be
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/// `unsafe` while we don't want/need it.
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/// relied on!
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pub struct OutBytes<'a>(&'a mut [u8]);
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#[repr(transparent)]
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pub struct OutBytes([u8]);
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impl<'a> OutBytes<'a> {
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impl OutBytes {
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/// Returns the first `len` bytes as initialized.
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/// Returns the first `len` bytes as initialized.
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///
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///
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/// Not `unsafe` because we don't use `unsafe` (yet).
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/// Not `unsafe` because we don't use `unsafe` (yet).
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@ -51,23 +74,83 @@ mod out_bytes {
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pub(crate) fn len(&self) -> usize {
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pub(crate) fn len(&self) -> usize {
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self.0.len()
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self.0.len()
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}
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}
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fn from_bytes(slice: &[u8]) -> &Self {
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// SAFETY: copied from std
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// conversion of reference to pointer of the same referred type is always sound,
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// including in unsized types.
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// Thanks to repr(transparent) the types have the same layout making the other
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// conversion sound.
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// The pointer was just created from a reference that's still alive so dereferencing is
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// sound.
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unsafe {
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&*(slice as *const [u8] as *const Self)
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}
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}
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fn from_mut_bytes(slice: &mut [u8]) -> &mut Self {
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// SAFETY: copied from std
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// conversion of reference to pointer of the same referred type is always sound,
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// including in unsized types.
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// Thanks to repr(transparent) the types have the same layout making the other
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// conversion sound.
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// The pointer was just created from a reference that's still alive so dereferencing is
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// sound.
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unsafe {
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&mut *(slice as *mut [u8] as *mut Self)
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}
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}
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}
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}
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macro_rules! impl_from_array {
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macro_rules! impl_from_array {
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($($len:expr),* $(,)?) => {
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($($len:expr),* $(,)?) => {
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$(
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$(
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impl<'a> From<&'a mut [u8; $len]> for OutBytes<'a> {
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impl AsOutBytes for [u8; $len] {
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fn from(value: &'a mut [u8; $len]) -> Self {
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fn as_out_bytes(&self) -> &OutBytes {
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OutBytes(value)
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OutBytes::from_bytes(self)
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}
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fn as_mut_out_bytes(&mut self) -> &mut OutBytes {
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OutBytes::from_mut_bytes(self)
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}
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}
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}
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}
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impl Sealed for [u8; $len] {}
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)*
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)*
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}
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}
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}
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}
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impl<T: AsOutBytes + ?Sized> AsOutBytes for &'_ mut T {
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fn as_out_bytes(&self) -> &OutBytes {
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(**self).as_out_bytes()
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}
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fn as_mut_out_bytes(&mut self) -> &mut OutBytes {
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(**self).as_mut_out_bytes()
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}
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}
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impl<T: AsOutBytes + ?Sized> Sealed for &'_ mut T {}
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impl AsOutBytes for OutBytes {
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fn as_out_bytes(&self) -> &OutBytes {
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self
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}
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fn as_mut_out_bytes(&mut self) -> &mut OutBytes {
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self
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}
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}
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impl Sealed for OutBytes {}
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// As a sanity check we only provide conversions for even, non-empty arrays.
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// As a sanity check we only provide conversions for even, non-empty arrays.
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// Weird lengths 66 and 130 are provided for serialized public keys.
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// Weird lengths 66 and 130 are provided for serialized public keys.
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impl_from_array!(2, 4, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 64, 66, 128, 130, 256, 512, 1024, 2048, 4096, 8192);
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impl_from_array!(2, 4, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 64, 66, 128, 130, 256, 512, 1024, 2048, 4096, 8192);
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/// Prevents outside crates from implementing the trait
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pub trait Sealed {}
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}
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}
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/// Hex-encodes bytes into the provided buffer.
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/// Hex-encodes bytes into the provided buffer.
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@ -75,19 +158,18 @@ mod out_bytes {
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/// This is an important building block for fast hex-encoding. Because string writing tools
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/// This is an important building block for fast hex-encoding. Because string writing tools
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/// provided by `core::fmt` involve dynamic dispatch and don't allow reserving capacity in strings
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/// provided by `core::fmt` involve dynamic dispatch and don't allow reserving capacity in strings
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/// buffering the hex and then formatting it is significantly faster.
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/// buffering the hex and then formatting it is significantly faster.
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pub struct BufEncoder<'a> {
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pub struct BufEncoder<T: AsOutBytes> {
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buf: OutBytes<'a>,
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buf: T,
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pos: usize,
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pos: usize,
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}
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}
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impl<'a> BufEncoder<'a> {
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impl<T: AsOutBytes> BufEncoder<T> {
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/// Creates an empty `BufEncoder`.
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/// Creates an empty `BufEncoder`.
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///
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///
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/// This is usually used with uninitialized (zeroed) byte array allocated on stack.
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/// This is usually used with uninitialized (zeroed) byte array allocated on stack.
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/// This can only be constructed with an even-length, non-empty array.
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/// This can only be constructed with an even-length, non-empty array.
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#[inline]
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#[inline]
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pub fn new<T: Into<OutBytes<'a>>>(buf: T) -> Self {
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pub fn new(buf: T) -> Self {
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let buf = buf.into();
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BufEncoder {
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BufEncoder {
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buf,
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buf,
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pos: 0,
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pos: 0,
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@ -102,7 +184,7 @@ impl<'a> BufEncoder<'a> {
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#[inline]
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#[inline]
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#[cfg_attr(rust_v_1_46, track_caller)]
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#[cfg_attr(rust_v_1_46, track_caller)]
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pub fn put_byte(&mut self, byte: u8, case: Case) {
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pub fn put_byte(&mut self, byte: u8, case: Case) {
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self.buf.write(self.pos, &super::byte_to_hex(byte, case.table()));
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self.buf.as_mut_out_bytes().write(self.pos, &super::byte_to_hex(byte, case.table()));
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self.pos += 2;
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self.pos += 2;
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}
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}
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@ -117,7 +199,7 @@ impl<'a> BufEncoder<'a> {
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// Panic if the result wouldn't fit address space to not waste time and give the optimizer
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// Panic if the result wouldn't fit address space to not waste time and give the optimizer
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// more opportunities.
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// more opportunities.
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let double_len = bytes.len().checked_mul(2).expect("overflow");
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let double_len = bytes.len().checked_mul(2).expect("overflow");
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assert!(double_len <= self.buf.len() - self.pos);
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assert!(double_len <= self.buf.as_out_bytes().len() - self.pos);
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for byte in bytes {
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for byte in bytes {
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self.put_byte(*byte, case);
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self.put_byte(*byte, case);
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}
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}
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/// Returns true if no more bytes can be written into the buffer.
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/// Returns true if no more bytes can be written into the buffer.
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#[inline]
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#[inline]
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pub fn is_full(&self) -> bool {
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pub fn is_full(&self) -> bool {
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self.pos == self.buf.len()
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self.pos == self.buf.as_out_bytes().len()
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}
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}
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/// Returns the written bytes as a hex `str`.
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/// Returns the written bytes as a hex `str`.
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#[inline]
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#[inline]
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pub fn as_str(&self) -> &str {
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pub fn as_str(&self) -> &str {
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core::str::from_utf8(self.buf.assume_init(self.pos)).expect("we only write ASCII")
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core::str::from_utf8(self.buf.as_out_bytes().assume_init(self.pos)).expect("we only write ASCII")
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}
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}
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/// Resets the buffer to become empty.
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/// Resets the buffer to become empty.
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@ -177,7 +177,8 @@ macro_rules! fmt_hex_exact {
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const _: () = [()][($len > usize::max_value() / 2) as usize];
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const _: () = [()][($len > usize::max_value() / 2) as usize];
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assert_eq!($bytes.len(), $len);
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assert_eq!($bytes.len(), $len);
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let mut buf = [0u8; $len * 2];
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let mut buf = [0u8; $len * 2];
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$crate::hex::display::fmt_hex_exact_fn($formatter, (&mut buf).into(), $bytes, $case)
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let buf = $crate::hex::buf_encoder::AsOutBytes::as_mut_out_bytes(&mut buf);
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$crate::hex::display::fmt_hex_exact_fn($formatter, buf, $bytes, $case)
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}
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}
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}
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}
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}
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}
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// Implementation detail of `write_hex_exact` macro to de-duplicate the code
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// Implementation detail of `write_hex_exact` macro to de-duplicate the code
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#[doc(hidden)]
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#[doc(hidden)]
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#[inline]
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#[inline]
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pub fn fmt_hex_exact_fn(f: &mut fmt::Formatter, buf: OutBytes<'_>, bytes: &[u8], case: Case) -> fmt::Result {
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pub fn fmt_hex_exact_fn(f: &mut fmt::Formatter, buf: &mut OutBytes, bytes: &[u8], case: Case) -> fmt::Result {
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let mut encoder = BufEncoder::new(buf);
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let mut encoder = BufEncoder::new(buf);
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encoder.put_bytes(bytes, case);
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encoder.put_bytes(bytes, case);
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f.pad_integral(true, "0x", encoder.as_str())
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f.pad_integral(true, "0x", encoder.as_str())
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@ -11,7 +11,6 @@
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// Experimental features we need.
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// Experimental features we need.
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#![cfg_attr(docsrs, feature(doc_cfg))]
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#![cfg_attr(docsrs, feature(doc_cfg))]
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// Coding conventions
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// Coding conventions
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#![forbid(unsafe_code)]
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#![deny(non_upper_case_globals)]
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#![deny(non_upper_case_globals)]
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#![deny(non_camel_case_types)]
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#![deny(non_camel_case_types)]
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#![deny(non_snake_case)]
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#![deny(non_snake_case)]
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