rust/src/libcore/option.rs

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/*!
* Operations on the ubiquitous `option` type.
*
* Type `option` represents an optional value.
*
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* Every `Option<T>` value can either be `Some(T)` or `none`. Where in other
* languages you might use a nullable type, in Rust you would use an option
* type.
*/
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// NB: transitionary, de-mode-ing.
#[warn(deprecated_mode)];
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#[forbid(deprecated_pattern)];
use cmp::Eq;
/// The option type
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enum Option<T> {
None,
Some(T),
}
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pure fn get<T: Copy>(opt: &Option<T>) -> T {
/*!
* Gets the value out of an option
*
* # Failure
*
* Fails if the value equals `none`
*/
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match *opt {
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Some(copy x) => return x,
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None => fail ~"option::get none"
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}
}
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pure fn get_ref<T>(opt: &r/Option<T>) -> &r/T {
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/*!
* Gets an immutable reference to the value inside an option.
*
* # Failure
*
* Fails if the value equals `none`
*/
match *opt {
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Some(ref x) => x,
None => fail ~"option::get_ref none"
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}
}
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pure fn expect<T: Copy>(opt: &Option<T>, +reason: ~str) -> T {
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/*!
* Gets the value out of an option, printing a specified message on
* failure
*
* # Failure
*
* Fails if the value equals `none`
*/
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match *opt { Some(copy x) => x, None => fail reason }
}
pure fn map<T, U>(opt: &Option<T>, f: fn(x: &T) -> U) -> Option<U> {
//! Maps a `some` value by reference from one type to another
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match *opt { Some(ref x) => Some(f(x)), None => None }
}
pure fn map_consume<T, U>(+opt: Option<T>, f: fn(+v: T) -> U) -> Option<U> {
/*!
* As `map`, but consumes the option and gives `f` ownership to avoid
* copying.
*/
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if opt.is_some() { Some(f(option::unwrap(move opt))) } else { None }
}
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pure fn chain<T, U>(+opt: Option<T>, f: fn(+t: T) -> Option<U>) -> Option<U> {
/*!
* Update an optional value by optionally running its content through a
* function that returns an option.
*/
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// XXX write with move match
if opt.is_some() {
f(unwrap(opt))
} else {
None
}
}
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pure fn chain_ref<T, U>(opt: &Option<T>,
f: fn(x: &T) -> Option<U>) -> Option<U> {
/*!
* Update an optional value by optionally running its content by reference
* through a function that returns an option.
*/
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match *opt { Some(ref x) => f(x), None => None }
}
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pure fn or<T>(+opta: Option<T>, +optb: Option<T>) -> Option<T> {
/*!
* Returns the leftmost some() value, or none if both are none.
*/
match opta {
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Some(_) => move opta,
_ => move optb
}
}
#[inline(always)]
pure fn while_some<T>(+x: Option<T>, blk: fn(+v: T) -> Option<T>) {
//! Applies a function zero or more times until the result is none.
let mut opt <- x;
while opt.is_some() {
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opt = blk(unwrap(move opt));
}
}
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pure fn is_none<T>(opt: &Option<T>) -> bool {
//! Returns true if the option equals `none`
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match *opt { None => true, Some(_) => false }
}
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pure fn is_some<T>(opt: &Option<T>) -> bool {
//! Returns true if the option contains some value
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!is_none(opt)
}
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pure fn get_default<T: Copy>(opt: &Option<T>, +def: T) -> T {
//! Returns the contained value or a default
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match *opt { Some(copy x) => x, None => def }
}
pure fn map_default<T, U>(opt: &Option<T>, +def: U,
f: fn(x: &T) -> U) -> U {
//! Applies a function to the contained value or returns a default
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match *opt { None => move def, Some(ref t) => f(t) }
}
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pure fn iter<T>(opt: &Option<T>, f: fn(x: &T)) {
//! Performs an operation on the contained value by reference
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match *opt { None => (), Some(ref t) => f(t) }
}
// tjc: shouldn't this be - instead of +?
// then could get rid of some superfluous moves
#[inline(always)]
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pure fn unwrap<T>(+opt: Option<T>) -> T {
/*!
* Moves a value out of an option type and returns it.
*
* Useful primarily for getting strings, vectors and unique pointers out
* of option types without copying them.
*/
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match move opt {
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Some(move x) => move x,
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None => fail ~"option::unwrap none"
}
}
/// The ubiquitous option dance.
#[inline(always)]
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fn swap_unwrap<T>(opt: &mut Option<T>) -> T {
if opt.is_none() { fail ~"option::swap_unwrap none" }
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unwrap(util::replace(opt, None))
}
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pure fn unwrap_expect<T>(+opt: Option<T>, reason: &str) -> T {
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//! As unwrap, but with a specified failure message.
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if opt.is_none() { fail reason.to_unique(); }
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unwrap(move opt)
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}
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// Some of these should change to be &Option<T>, some should not. See below.
impl<T> Option<T> {
/// Returns true if the option equals `none`
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pure fn is_none() -> bool { is_none(&self) }
/// Returns true if the option contains some value
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pure fn is_some() -> bool { is_some(&self) }
}
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impl<T> &Option<T> {
/**
* Update an optional value by optionally running its content by reference
* through a function that returns an option.
*/
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pure fn chain_ref<U>(f: fn(x: &T) -> Option<U>) -> Option<U> {
chain_ref(self, f)
}
/// Applies a function to the contained value or returns a default
pure fn map_default<U>(+def: U, f: fn(x: &T) -> U) -> U
{ map_default(self, move def, f) }
/// Performs an operation on the contained value by reference
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pure fn iter(f: fn(x: &T)) { iter(self, f) }
/// Maps a `some` value from one type to another by reference
pure fn map<U>(f: fn(x: &T) -> U) -> Option<U> { map(self, f) }
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/// Gets an immutable reference to the value inside a `some`.
pure fn get_ref() -> &self/T { get_ref(self) }
}
impl<T: Copy> Option<T> {
/**
* Gets the value out of an option
*
* # Failure
*
* Fails if the value equals `none`
*/
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pure fn get() -> T { get(&self) }
pure fn get_default(+def: T) -> T { get_default(&self, def) }
/**
* Gets the value out of an option, printing a specified message on
* failure
*
* # Failure
*
* Fails if the value equals `none`
*/
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pure fn expect(+reason: ~str) -> T { expect(&self, reason) }
/// Applies a function zero or more times until the result is none.
pure fn while_some(blk: fn(+v: T) -> Option<T>) { while_some(self, blk) }
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}
impl<T: Eq> Option<T> : Eq {
pure fn eq(other: &Option<T>) -> bool {
match self {
None => {
match (*other) {
None => true,
Some(_) => false
}
}
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Some(ref self_contents) => {
match (*other) {
None => false,
Some(ref other_contents) =>
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(*self_contents).eq(other_contents)
}
}
}
}
pure fn ne(other: &Option<T>) -> bool { !self.eq(other) }
}
#[test]
fn test_unwrap_ptr() {
let x = ~0;
let addr_x = ptr::addr_of(*x);
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let opt = Some(x);
let y = unwrap(opt);
let addr_y = ptr::addr_of(*y);
assert addr_x == addr_y;
}
#[test]
fn test_unwrap_str() {
let x = ~"test";
let addr_x = str::as_buf(x, |buf, _len| ptr::addr_of(buf));
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let opt = Some(x);
let y = unwrap(opt);
let addr_y = str::as_buf(y, |buf, _len| ptr::addr_of(buf));
assert addr_x == addr_y;
}
#[test]
fn test_unwrap_resource() {
struct R {
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i: @mut int,
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drop { *(self.i) += 1; }
}
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fn R(i: @mut int) -> R {
R {
i: i
}
}
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let i = @mut 0;
{
let x = R(i);
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let opt = Some(x);
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let _y = unwrap(opt);
}
assert *i == 1;
}
#[test]
fn test_option_dance() {
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let x = Some(());
let mut y = Some(5);
let mut y2 = 0;
do x.iter |_x| {
y2 = swap_unwrap(&mut y);
}
assert y2 == 5;
assert y.is_none();
}
#[test] #[should_fail] #[ignore(cfg(windows))]
fn test_option_too_much_dance() {
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let mut y = Some(util::NonCopyable());
let _y2 = swap_unwrap(&mut y);
let _y3 = swap_unwrap(&mut y);
}
#[test]
fn test_option_while_some() {
let mut i = 0;
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do Some(10).while_some |j| {
i += 1;
if (j > 0) {
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Some(j-1)
} else {
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None
}
}
assert i == 11;
}
// Local Variables:
// mode: rust;
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End: