// This file is part of ICU4X. For terms of use, please see the file // called LICENSE at the top level of the ICU4X source tree // (online at: https://github.com/unicode-org/icu4x/blob/main/LICENSE ). use crate::*; use core::fmt; macro_rules! impl_write_num { ($u:ty, $i:ty, $test:ident) => { impl $crate::Writeable for $u { fn write_to(&self, sink: &mut W) -> core::fmt::Result { const MAX_LEN: usize = <$u>::MAX.ilog10() as usize + 1; let mut buf = [b'0'; MAX_LEN]; let mut n = *self; let mut i = MAX_LEN; #[allow(clippy::indexing_slicing)] // n < 10^i while n != 0 { i -= 1; buf[i] = b'0' + (n % 10) as u8; n /= 10; } if i == MAX_LEN { debug_assert_eq!(*self, 0); i -= 1; } #[allow(clippy::indexing_slicing)] // buf is ASCII let s = unsafe { core::str::from_utf8_unchecked(&buf[i..]) }; sink.write_str(s) } fn writeable_length_hint(&self) -> $crate::LengthHint { LengthHint::exact(self.checked_ilog10().unwrap_or(0) as usize + 1) } } impl $crate::Writeable for $i { fn write_to(&self, sink: &mut W) -> core::fmt::Result { if self.is_negative() { sink.write_str("-")?; } self.unsigned_abs().write_to(sink) } fn writeable_length_hint(&self) -> $crate::LengthHint { $crate::LengthHint::exact(if self.is_negative() { 1 } else { 0 }) + self.unsigned_abs().writeable_length_hint() } } #[test] fn $test() { use $crate::assert_writeable_eq; assert_writeable_eq!(&(0 as $u), "0"); assert_writeable_eq!(&(0 as $i), "0"); assert_writeable_eq!(&(-0 as $i), "0"); assert_writeable_eq!(&(1 as $u), "1"); assert_writeable_eq!(&(1 as $i), "1"); assert_writeable_eq!(&(-1 as $i), "-1"); assert_writeable_eq!(&(9 as $u), "9"); assert_writeable_eq!(&(9 as $i), "9"); assert_writeable_eq!(&(-9 as $i), "-9"); assert_writeable_eq!(&(10 as $u), "10"); assert_writeable_eq!(&(10 as $i), "10"); assert_writeable_eq!(&(-10 as $i), "-10"); assert_writeable_eq!(&(99 as $u), "99"); assert_writeable_eq!(&(99 as $i), "99"); assert_writeable_eq!(&(-99 as $i), "-99"); assert_writeable_eq!(&(100 as $u), "100"); assert_writeable_eq!(&(-100 as $i), "-100"); assert_writeable_eq!(&<$u>::MAX, <$u>::MAX.to_string()); assert_writeable_eq!(&<$i>::MAX, <$i>::MAX.to_string()); assert_writeable_eq!(&<$i>::MIN, <$i>::MIN.to_string()); use rand::{rngs::SmallRng, Rng, SeedableRng}; let mut rng = SmallRng::seed_from_u64(4); // chosen by fair dice roll. // guaranteed to be random. for _ in 0..1000 { let rand = rng.gen::<$u>(); assert_writeable_eq!(rand, rand.to_string()); } } }; } impl_write_num!(u8, i8, test_u8); impl_write_num!(u16, i16, test_u16); impl_write_num!(u32, i32, test_u32); impl_write_num!(u64, i64, test_u64); impl_write_num!(u128, i128, test_u128); impl_write_num!(usize, isize, test_usize); impl Writeable for str { #[inline] fn write_to(&self, sink: &mut W) -> fmt::Result { sink.write_str(self) } #[inline] fn writeable_length_hint(&self) -> LengthHint { LengthHint::exact(self.len()) } /// Returns a borrowed `str`. /// /// # Examples /// /// ``` /// use std::borrow::Cow; /// use writeable::Writeable; /// /// let cow = "foo".write_to_string(); /// assert!(matches!(cow, Cow::Borrowed(_))); /// ``` #[inline] fn write_to_string(&self) -> Cow { Cow::Borrowed(self) } #[inline] fn writeable_cmp_bytes(&self, other: &[u8]) -> core::cmp::Ordering { self.as_bytes().cmp(other) } } impl Writeable for String { #[inline] fn write_to(&self, sink: &mut W) -> fmt::Result { sink.write_str(self) } #[inline] fn writeable_length_hint(&self) -> LengthHint { LengthHint::exact(self.len()) } #[inline] fn write_to_string(&self) -> Cow { Cow::Borrowed(self) } #[inline] fn writeable_cmp_bytes(&self, other: &[u8]) -> core::cmp::Ordering { self.as_bytes().cmp(other) } } impl Writeable for char { #[inline] fn write_to(&self, sink: &mut W) -> fmt::Result { sink.write_char(*self) } #[inline] fn writeable_length_hint(&self) -> LengthHint { LengthHint::exact(self.len_utf8()) } #[inline] fn write_to_string(&self) -> Cow { let mut s = String::with_capacity(self.len_utf8()); s.push(*self); Cow::Owned(s) } #[inline] fn writeable_cmp_bytes(&self, other: &[u8]) -> core::cmp::Ordering { self.encode_utf8(&mut [0u8; 4]).as_bytes().cmp(other) } } impl Writeable for &T { #[inline] fn write_to(&self, sink: &mut W) -> fmt::Result { (*self).write_to(sink) } #[inline] fn write_to_parts(&self, sink: &mut W) -> fmt::Result { (*self).write_to_parts(sink) } #[inline] fn writeable_length_hint(&self) -> LengthHint { (*self).writeable_length_hint() } #[inline] fn write_to_string(&self) -> Cow { (*self).write_to_string() } #[inline] fn writeable_cmp_bytes(&self, other: &[u8]) -> core::cmp::Ordering { (*self).writeable_cmp_bytes(other) } } macro_rules! impl_write_smart_pointer { ($ty:path, T: $extra_bound:path) => { impl<'a, T: ?Sized + Writeable + $extra_bound> Writeable for $ty { #[inline] fn write_to(&self, sink: &mut W) -> fmt::Result { core::borrow::Borrow::::borrow(self).write_to(sink) } #[inline] fn write_to_parts(&self, sink: &mut W) -> fmt::Result { core::borrow::Borrow::::borrow(self).write_to_parts(sink) } #[inline] fn writeable_length_hint(&self) -> LengthHint { core::borrow::Borrow::::borrow(self).writeable_length_hint() } #[inline] fn write_to_string(&self) -> Cow { core::borrow::Borrow::::borrow(self).write_to_string() } #[inline] fn writeable_cmp_bytes(&self, other: &[u8]) -> core::cmp::Ordering { core::borrow::Borrow::::borrow(self).writeable_cmp_bytes(other) } } }; ($ty:path) => { // Add a harmless duplicate Writeable bound impl_write_smart_pointer!($ty, T: Writeable); }; } impl_write_smart_pointer!(Cow<'a, T>, T: alloc::borrow::ToOwned); impl_write_smart_pointer!(alloc::boxed::Box); impl_write_smart_pointer!(alloc::rc::Rc); impl_write_smart_pointer!(alloc::sync::Arc); #[test] fn test_string_impls() { fn check_writeable_slice(writeables: &[W]) { assert_writeable_eq!(&writeables[0], ""); assert_writeable_eq!(&writeables[1], "abc"); assert!(matches!(writeables[0].write_to_string(), Cow::Borrowed(_))); assert!(matches!(writeables[1].write_to_string(), Cow::Borrowed(_))); } // test str impl let arr: &[&str] = &["", "abc"]; check_writeable_slice(arr); // test String impl let arr: &[String] = &[String::new(), "abc".to_owned()]; check_writeable_slice(arr); // test char impl let chars = ['a', 'β', '你', '😀']; for i in 0..chars.len() { let s = String::from(chars[i]); assert_writeable_eq!(&chars[i], s); for j in 0..chars.len() { assert_eq!( chars[j].writeable_cmp_bytes(s.as_bytes()), chars[j].cmp(&chars[i]), "{:?} vs {:?}", chars[j], chars[i] ); } } // test Cow impl let arr: &[Cow] = &[Cow::Borrowed(""), Cow::Owned("abc".to_string())]; check_writeable_slice(arr); // test Box impl let arr: &[Box] = &["".into(), "abc".into()]; check_writeable_slice(arr); // test Rc impl let arr: &[alloc::rc::Rc] = &["".into(), "abc".into()]; check_writeable_slice(arr); // test Arc impl let arr: &[alloc::sync::Arc] = &["".into(), "abc".into()]; check_writeable_slice(arr); // test &T impl let arr: &[&String] = &[&String::new(), &"abc".to_owned()]; check_writeable_slice(arr); }