rust/src/libstd/to_bytes.rs

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// Copyright 2012 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
/*!
The `ToBytes` and `IterBytes` traits
*/
use cast;
use io;
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use io::Writer;
use iterator::IteratorUtil;
use option::{None, Option, Some};
use str::StrSlice;
use vec::ImmutableVector;
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pub type Cb<'self> = &'self fn(buf: &[u8]) -> bool;
/**
* A trait to implement in order to make a type hashable;
* This works in combination with the trait `Hash::Hash`, and
* may in the future be merged with that trait or otherwise
* modified when default methods and trait inheritence are
* completed.
*/
pub trait IterBytes {
/**
* Call the provided callback `f` one or more times with
* byte-slices that should be used when computing a hash
* value or otherwise "flattening" the structure into
* a sequence of bytes. The `lsb0` parameter conveys
* whether the caller is asking for little-endian bytes
* (`true`) or big-endian (`false`); this should only be
* relevant in implementations that represent a single
* multi-byte datum such as a 32 bit integer or 64 bit
* floating-point value. It can be safely ignored for
* larger structured types as they are usually processed
* left-to-right in declaration order, regardless of
* underlying memory endianness.
*/
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool;
}
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impl IterBytes for bool {
#[inline]
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fn iter_bytes(&self, _lsb0: bool, f: Cb) -> bool {
f([
*self as u8
])
}
}
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impl IterBytes for u8 {
#[inline]
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fn iter_bytes(&self, _lsb0: bool, f: Cb) -> bool {
f([
*self
])
}
}
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impl IterBytes for u16 {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
if lsb0 {
f([
*self as u8,
(*self >> 8) as u8
])
} else {
f([
(*self >> 8) as u8,
*self as u8
])
}
}
}
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impl IterBytes for u32 {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
if lsb0 {
f([
*self as u8,
(*self >> 8) as u8,
(*self >> 16) as u8,
(*self >> 24) as u8,
])
} else {
f([
(*self >> 24) as u8,
(*self >> 16) as u8,
(*self >> 8) as u8,
*self as u8
])
}
}
}
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impl IterBytes for u64 {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
if lsb0 {
f([
*self as u8,
(*self >> 8) as u8,
(*self >> 16) as u8,
(*self >> 24) as u8,
(*self >> 32) as u8,
(*self >> 40) as u8,
(*self >> 48) as u8,
(*self >> 56) as u8
])
} else {
f([
(*self >> 56) as u8,
(*self >> 48) as u8,
(*self >> 40) as u8,
(*self >> 32) as u8,
(*self >> 24) as u8,
(*self >> 16) as u8,
(*self >> 8) as u8,
*self as u8
])
}
}
}
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impl IterBytes for i8 {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as u8).iter_bytes(lsb0, f)
}
}
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impl IterBytes for i16 {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as u16).iter_bytes(lsb0, f)
}
}
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impl IterBytes for i32 {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as u32).iter_bytes(lsb0, f)
}
}
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impl IterBytes for i64 {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as u64).iter_bytes(lsb0, f)
}
}
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impl IterBytes for char {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as u32).iter_bytes(lsb0, f)
}
}
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#[cfg(target_word_size = "32")]
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impl IterBytes for uint {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as u32).iter_bytes(lsb0, f)
}
}
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#[cfg(target_word_size = "64")]
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impl IterBytes for uint {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as u64).iter_bytes(lsb0, f)
}
}
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impl IterBytes for int {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as uint).iter_bytes(lsb0, f)
}
}
impl IterBytes for float {
#[inline]
fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as f64).iter_bytes(lsb0, f)
}
}
impl IterBytes for f32 {
#[inline]
fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
let i: u32 = unsafe {
// 0.0 == -0.0 so they should also have the same hashcode
cast::transmute(if *self == -0.0 { 0.0 } else { *self })
};
i.iter_bytes(lsb0, f)
}
}
impl IterBytes for f64 {
#[inline]
fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
let i: u64 = unsafe {
// 0.0 == -0.0 so they should also have the same hashcode
cast::transmute(if *self == -0.0 { 0.0 } else { *self })
};
i.iter_bytes(lsb0, f)
}
}
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impl<'self,A:IterBytes> IterBytes for &'self [A] {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
self.iter().advance(|elt| elt.iter_bytes(lsb0, |b| f(b)))
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}
}
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impl<A:IterBytes,B:IterBytes> IterBytes for (A,B) {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
match *self {
(ref a, ref b) => { a.iter_bytes(lsb0, |b| f(b)) &&
b.iter_bytes(lsb0, |b| f(b)) }
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}
}
}
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impl<A:IterBytes,B:IterBytes,C:IterBytes> IterBytes for (A,B,C) {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
match *self {
(ref a, ref b, ref c) => {
a.iter_bytes(lsb0, |b| f(b)) &&
b.iter_bytes(lsb0, |b| f(b)) &&
c.iter_bytes(lsb0, |b| f(b))
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}
}
}
}
// Move this to vec, probably.
fn borrow<'x,A>(a: &'x [A]) -> &'x [A] {
a
}
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impl<A:IterBytes> IterBytes for ~[A] {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
borrow(*self).iter_bytes(lsb0, f)
}
}
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impl<A:IterBytes> IterBytes for @[A] {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
borrow(*self).iter_bytes(lsb0, f)
}
}
impl<'self> IterBytes for &'self str {
#[inline]
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fn iter_bytes(&self, _lsb0: bool, f: Cb) -> bool {
f(self.as_bytes())
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}
}
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impl IterBytes for ~str {
#[inline]
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fn iter_bytes(&self, _lsb0: bool, f: Cb) -> bool {
// this should possibly include the null terminator, but that
// breaks .find_equiv on hashmaps.
f(self.as_bytes())
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}
}
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impl IterBytes for @str {
#[inline]
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fn iter_bytes(&self, _lsb0: bool, f: Cb) -> bool {
// this should possibly include the null terminator, but that
// breaks .find_equiv on hashmaps.
f(self.as_bytes())
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}
}
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impl<A:IterBytes> IterBytes for Option<A> {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
match *self {
Some(ref a) => 0u8.iter_bytes(lsb0, |b| f(b)) && a.iter_bytes(lsb0, |b| f(b)),
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None => 1u8.iter_bytes(lsb0, f)
}
}
}
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impl<'self,A:IterBytes> IterBytes for &'self A {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(**self).iter_bytes(lsb0, f)
}
}
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impl<A:IterBytes> IterBytes for @A {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(**self).iter_bytes(lsb0, f)
}
}
impl<A:IterBytes> IterBytes for @mut A {
#[inline]
fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
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(**self).iter_bytes(lsb0, f)
}
}
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impl<A:IterBytes> IterBytes for ~A {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(**self).iter_bytes(lsb0, f)
}
}
// NB: raw-pointer IterBytes does _not_ dereference
// to the target; it just gives you the pointer-bytes.
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impl<A> IterBytes for *const A {
#[inline]
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fn iter_bytes(&self, lsb0: bool, f: Cb) -> bool {
(*self as uint).iter_bytes(lsb0, f)
}
}
/// A trait for converting a value to a list of bytes.
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pub trait ToBytes {
/// Converts the current value to a list of bytes. This is equivalent to
/// invoking iter_bytes on a type and collecting all yielded values in an
/// array
fn to_bytes(&self, lsb0: bool) -> ~[u8];
}
impl<A:IterBytes> ToBytes for A {
fn to_bytes(&self, lsb0: bool) -> ~[u8] {
do io::with_bytes_writer |wr| {
for self.iter_bytes(lsb0) |bytes| {
wr.write(bytes)
}
}
}
}