/*! * Operations on the ubiquitous `option` type. * * Type `option` represents an optional value. * * Every `option` 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. */ /// The option type enum option { none, some(T), } pure fn get(opt: option) -> T { /*! * Gets the value out of an option * * # Failure * * Fails if the value equals `none` */ alt opt { some(x) { ret x; } none { fail "option none"; } } } pure fn expect(opt: option, reason: str) -> T { #[doc = " Gets the value out of an option, printing a specified message on failure # Failure Fails if the value equals `none` "]; alt opt { some(x) { x } none { fail reason; } } } pure fn map(opt: option, f: fn(T) -> U) -> option { //! Maps a `some` value from one type to another alt opt { some(x) { some(f(x)) } none { none } } } pure fn chain(opt: option, f: fn(T) -> option) -> option { /*! * Update an optional value by optionally running its content through a * function that returns an option. */ alt opt { some(x) { f(x) } none { none } } } pure fn is_none(opt: option) -> bool { //! Returns true if the option equals `none` alt opt { none { true } some(_) { false } } } pure fn is_some(opt: option) -> bool { //! Returns true if the option contains some value !is_none(opt) } pure fn get_default(opt: option, def: T) -> T { //! Returns the contained value or a default alt opt { some(x) { x } none { def } } } pure fn map_default(opt: option, def: U, f: fn(T) -> U) -> U { //! Applies a function to the contained value or returns a default alt opt { none { def } some(t) { f(t) } } } pure fn iter(opt: option, f: fn(T)) { //! Performs an operation on the contained value or does nothing alt opt { none { } some(t) { f(t); } } } pure fn unwrap(-opt: option) -> 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. */ unsafe { let addr = alt opt { some(x) { ptr::addr_of(x) } none { fail "option none" } }; let liberated_value = unsafe::reinterpret_cast(*addr); unsafe::forget(opt); ret liberated_value; } } impl extensions for option { /** * Update an optional value by optionally running its content through a * function that returns an option. */ fn chain(f: fn(T) -> option) -> option { chain(self, f) } /// Applies a function to the contained value or returns a default fn map_default(def: U, f: fn(T) -> U) -> U { map_default(self, def, f) } /// Performs an operation on the contained value or does nothing fn iter(f: fn(T)) { iter(self, f) } /// Returns true if the option equals `none` fn is_none() -> bool { is_none(self) } /// Returns true if the option contains some value fn is_some() -> bool { is_some(self) } /// Maps a `some` value from one type to another fn map(f: fn(T) -> U) -> option { map(self, f) } } impl extensions for option { /** * Gets the value out of an option * * # Failure * * Fails if the value equals `none` */ fn get() -> T { get(self) } 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` */ pure fn expect(reason: str) -> T { expect(self, reason) } } #[test] fn test_unwrap_ptr() { let x = ~0; let addr_x = ptr::addr_of(*x); 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| ptr::addr_of(buf)); let opt = some(x); let y = unwrap(opt); let addr_y = str::as_buf(y, |buf| ptr::addr_of(buf)); assert addr_x == addr_y; } #[test] fn test_unwrap_resource() { class r { let i: @mut int; new(i: @mut int) { self.i = i; } drop { *(self.i) += 1; } } let i = @mut 0; { let x = r(i); let opt = some(x); let _y = unwrap(opt); } assert *i == 1; } // Local Variables: // mode: rust; // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: