// SPDX-License-Identifier: CC0-1.0 //! Non-public macros macro_rules! arr_newtype_fmt_impl { ($ty:ident, $bytes:expr $(, $gen:ident: $gent:ident)*) => { impl<$($gen: $gent),*> $crate::_export::_core::fmt::LowerHex for $ty<$($gen),*> { #[inline] fn fmt(&self, f: &mut $crate::_export::_core::fmt::Formatter) -> $crate::_export::_core::fmt::Result { #[allow(unused)] use crate::Hash as _; let case = $crate::hex::Case::Lower; if <$ty<$($gen),*>>::DISPLAY_BACKWARD { $crate::hex::fmt_hex_exact!(f, $bytes, self.0.iter().rev(), case) } else { $crate::hex::fmt_hex_exact!(f, $bytes, self.0.iter(), case) } } } impl<$($gen: $gent),*> $crate::_export::_core::fmt::UpperHex for $ty<$($gen),*> { #[inline] fn fmt(&self, f: &mut $crate::_export::_core::fmt::Formatter) -> $crate::_export::_core::fmt::Result { #[allow(unused)] use crate::Hash as _; let case = $crate::hex::Case::Upper; if <$ty<$($gen),*>>::DISPLAY_BACKWARD { $crate::hex::fmt_hex_exact!(f, $bytes, self.0.iter().rev(), case) } else { $crate::hex::fmt_hex_exact!(f, $bytes, self.0.iter(), case) } } } impl<$($gen: $gent),*> $crate::_export::_core::fmt::Display for $ty<$($gen),*> { #[inline] fn fmt(&self, f: &mut $crate::_export::_core::fmt::Formatter) -> $crate::_export::_core::fmt::Result { $crate::_export::_core::fmt::LowerHex::fmt(self, f) } } impl<$($gen: $gent),*> $crate::_export::_core::fmt::Debug for $ty<$($gen),*> { #[inline] fn fmt(&self, f: &mut $crate::_export::_core::fmt::Formatter) -> $crate::_export::_core::fmt::Result { write!(f, "{:#}", self) } } } } pub(crate) use arr_newtype_fmt_impl; /// Adds trait impls to the type called `Hash` in the current scope. /// /// Implpements various conversion traits as well as the [`crate::Hash`] trait. /// Arguments: /// /// * `$bits` - number of bits this hash type has /// * `$reverse` - `bool` - `true` if the hash type should be displayed backwards, `false` /// otherwise. /// * `$gen: $gent` - generic type(s) and trait bound(s) /// /// Restrictions on usage: /// /// * There must be a free-standing `fn from_engine(HashEngine) -> Hash` in the scope /// * `fn internal_new([u8; $bits / 8]) -> Self` must exist on `Hash` /// * `fn internal_engine() -> HashEngine` must exist on `Hash` /// /// `from_engine` obviously implements the finalization algorithm. /// `internal_new` is required so that types with more than one field are constructible. /// `internal_engine` is required to initialize the engine for given hash type. macro_rules! hash_trait_impls { ($bits:expr, $reverse:expr $(, $gen:ident: $gent:ident)*) => { impl<$($gen: $gent),*> Hash<$($gen),*> { /// Displays hex forwards, regardless of how this type would display it naturally. /// /// This is mainly intended as an internal method and you shouldn't need it unless /// you're doing something special. pub fn forward_hex(&self) -> impl '_ + core::fmt::LowerHex + core::fmt::UpperHex { $crate::hex::DisplayHex::as_hex(&self.0) } /// Displays hex backwards, regardless of how this type would display it naturally. /// /// This is mainly intended as an internal method and you shouldn't need it unless /// you're doing something special. pub fn backward_hex(&self) -> impl '_ + core::fmt::LowerHex + core::fmt::UpperHex { $crate::hex::display::DisplayArray::<_, [u8; $bits / 8 * 2]>::new(self.0.iter().rev()) } /// Zero cost conversion between a fixed length byte array shared reference and /// a shared reference to this Hash type. pub fn from_bytes_ref(bytes: &[u8; $bits / 8]) -> &Self { // Safety: Sound because Self is #[repr(transparent)] containing [u8; $bits / 8] unsafe { &*(bytes as *const _ as *const Self) } } /// Zero cost conversion between a fixed length byte array exclusive reference and /// an exclusive reference to this Hash type. pub fn from_bytes_mut(bytes: &mut [u8; $bits / 8]) -> &mut Self { // Safety: Sound because Self is #[repr(transparent)] containing [u8; $bits / 8] unsafe { &mut *(bytes as *mut _ as *mut Self) } } } impl<$($gen: $gent),*> str::FromStr for Hash<$($gen),*> { type Err = $crate::hex::HexToArrayError; fn from_str(s: &str) -> Result { use $crate::hex::{FromHex, HexToBytesIter}; use $crate::Hash; let inner: [u8; $bits / 8] = if $reverse { FromHex::from_byte_iter(HexToBytesIter::new(s)?.rev())? } else { FromHex::from_byte_iter(HexToBytesIter::new(s)?)? }; Ok(Self::from_byte_array(inner)) } } $crate::internal_macros::arr_newtype_fmt_impl!(Hash, $bits / 8 $(, $gen: $gent)*); serde_impl!(Hash, $bits / 8 $(, $gen: $gent)*); borrow_slice_impl!(Hash $(, $gen: $gent)*); impl<$($gen: $gent),*> $crate::_export::_core::convert::AsRef<[u8; $bits / 8]> for Hash<$($gen),*> { fn as_ref(&self) -> &[u8; $bits / 8] { &self.0 } } impl $(, $gen: $gent)*> Index for Hash<$($gen),*> { type Output = I::Output; #[inline] fn index(&self, index: I) -> &Self::Output { &self.0[index] } } impl<$($gen: $gent),*> crate::Hash for Hash<$($gen),*> { type Engine = HashEngine; type Bytes = [u8; $bits / 8]; const LEN: usize = $bits / 8; const DISPLAY_BACKWARD: bool = $reverse; fn engine() -> Self::Engine { Self::internal_engine() } fn from_engine(e: HashEngine) -> Hash<$($gen),*> { from_engine(e) } fn from_slice(sl: &[u8]) -> Result, FromSliceError> { if sl.len() != $bits / 8 { Err(FromSliceError{expected: Self::LEN, got: sl.len()}) } else { let mut ret = [0; $bits / 8]; ret.copy_from_slice(sl); Ok(Self::internal_new(ret)) } } fn to_byte_array(self) -> Self::Bytes { self.0 } fn as_byte_array(&self) -> &Self::Bytes { &self.0 } fn from_byte_array(bytes: Self::Bytes) -> Self { Self::internal_new(bytes) } fn all_zeros() -> Self { Hash::internal_new([0x00; $bits / 8]) } } } } pub(crate) use hash_trait_impls; /// Creates a type called `Hash` and implements standard interface for it. /// /// The created type will have all standard derives, `Hash` impl and implementation of /// `internal_engine` returning default. The created type has a single field. /// /// Arguments: /// /// * `$bits` - the number of bits of the hash type /// * `$reverse` - `true` if the hash should be displayed backwards, `false` otherwise /// * `$doc` - doc string to put on the type /// * `$schemars` - a literal that goes into `schema_with`. /// /// The `from_engine` free-standing function is still required with this macro. See the doc of /// [`hash_trait_impls`]. macro_rules! hash_type { ($bits:expr, $reverse:expr, $doc:literal) => { #[doc = $doc] #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)] #[repr(transparent)] pub struct Hash([u8; $bits / 8]); impl Hash { fn internal_new(arr: [u8; $bits / 8]) -> Self { Hash(arr) } fn internal_engine() -> HashEngine { Default::default() } } #[cfg(feature = "schemars")] impl schemars::JsonSchema for Hash { fn schema_name() -> String { "Hash".to_owned() } fn json_schema(gen: &mut schemars::gen::SchemaGenerator) -> schemars::schema::Schema { let len = $bits / 8; let mut schema: schemars::schema::SchemaObject = ::json_schema(gen).into(); schema.string = Some(Box::new(schemars::schema::StringValidation { max_length: Some(len * 2), min_length: Some(len * 2), pattern: Some("[0-9a-fA-F]+".to_owned()), })); schema.into() } } crate::internal_macros::hash_trait_impls!($bits, $reverse); }; } pub(crate) use hash_type;