// 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 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! A type representing either success or failure #[allow(missing_doc)]; use clone::Clone; use cmp::Eq; use either; use either::Either; use iterator::IteratorUtil; use option::{None, Option, Some}; use vec; use vec::{OwnedVector, ImmutableVector}; use container::Container; /// The result type #[deriving(Clone, Eq)] pub enum Result { /// Contains the successful result value Ok(T), /// Contains the error value Err(U) } /** * Get the value out of a successful result * * # Failure * * If the result is an error */ #[inline] pub fn get(res: &Result) -> T { match *res { Ok(ref t) => (*t).clone(), Err(ref the_err) => fail!("get called on error result: %?", *the_err) } } /** * Get a reference to the value out of a successful result * * # Failure * * If the result is an error */ #[inline] pub fn get_ref<'a, T, U>(res: &'a Result) -> &'a T { match *res { Ok(ref t) => t, Err(ref the_err) => fail!("get_ref called on error result: %?", *the_err) } } /** * Get the value out of an error result * * # Failure * * If the result is not an error */ #[inline] pub fn get_err(res: &Result) -> U { match *res { Err(ref u) => (*u).clone(), Ok(_) => fail!("get_err called on ok result") } } /// Returns true if the result is `ok` #[inline] pub fn is_ok(res: &Result) -> bool { match *res { Ok(_) => true, Err(_) => false } } /// Returns true if the result is `err` #[inline] pub fn is_err(res: &Result) -> bool { !is_ok(res) } /** * Convert to the `either` type * * `ok` result variants are converted to `either::right` variants, `err` * result variants are converted to `either::left`. */ #[inline] pub fn to_either(res: &Result) -> Either { match *res { Ok(ref res) => either::Right((*res).clone()), Err(ref fail_) => either::Left((*fail_).clone()) } } /** * Call a function based on a previous result * * If `res` is `ok` then the value is extracted and passed to `op` whereupon * `op`s result is returned. if `res` is `err` then it is immediately * returned. This function can be used to compose the results of two * functions. * * Example: * * let res = chain(read_file(file)) { |buf| * ok(parse_bytes(buf)) * } */ #[inline] pub fn chain(res: Result, op: &fn(T) -> Result) -> Result { match res { Ok(t) => op(t), Err(e) => Err(e) } } /** * Call a function based on a previous result * * If `res` is `err` then the value is extracted and passed to `op` * whereupon `op`s result is returned. if `res` is `ok` then it is * immediately returned. This function can be used to pass through a * successful result while handling an error. */ #[inline] pub fn chain_err( res: Result, op: &fn(t: V) -> Result) -> Result { match res { Ok(t) => Ok(t), Err(v) => op(v) } } /** * Call a function based on a previous result * * If `res` is `ok` then the value is extracted and passed to `op` whereupon * `op`s result is returned. if `res` is `err` then it is immediately * returned. This function can be used to compose the results of two * functions. * * Example: * * iter(read_file(file)) { |buf| * print_buf(buf) * } */ #[inline] pub fn iter(res: &Result, f: &fn(&T)) { match *res { Ok(ref t) => f(t), Err(_) => () } } /** * Call a function based on a previous result * * If `res` is `err` then the value is extracted and passed to `op` whereupon * `op`s result is returned. if `res` is `ok` then it is immediately returned. * This function can be used to pass through a successful result while * handling an error. */ #[inline] pub fn iter_err(res: &Result, f: &fn(&E)) { match *res { Ok(_) => (), Err(ref e) => f(e) } } /** * Call a function based on a previous result * * If `res` is `ok` then the value is extracted and passed to `op` whereupon * `op`s result is wrapped in `ok` and returned. if `res` is `err` then it is * immediately returned. This function can be used to compose the results of * two functions. * * Example: * * let res = map(read_file(file)) { |buf| * parse_bytes(buf) * } */ #[inline] pub fn map(res: &Result, op: &fn(&T) -> U) -> Result { match *res { Ok(ref t) => Ok(op(t)), Err(ref e) => Err((*e).clone()) } } /** * Call a function based on a previous result * * If `res` is `err` then the value is extracted and passed to `op` whereupon * `op`s result is wrapped in an `err` and returned. if `res` is `ok` then it * is immediately returned. This function can be used to pass through a * successful result while handling an error. */ #[inline] pub fn map_err(res: &Result, op: &fn(&E) -> F) -> Result { match *res { Ok(ref t) => Ok((*t).clone()), Err(ref e) => Err(op(e)) } } impl Result { #[inline] pub fn get_ref<'a>(&'a self) -> &'a T { get_ref(self) } #[inline] pub fn is_ok(&self) -> bool { is_ok(self) } #[inline] pub fn is_err(&self) -> bool { is_err(self) } #[inline] pub fn iter(&self, f: &fn(&T)) { iter(self, f) } #[inline] pub fn iter_err(&self, f: &fn(&E)) { iter_err(self, f) } #[inline] pub fn unwrap(self) -> T { unwrap(self) } #[inline] pub fn unwrap_err(self) -> E { unwrap_err(self) } #[inline] pub fn chain(self, op: &fn(T) -> Result) -> Result { chain(self, op) } #[inline] pub fn chain_err(self, op: &fn(E) -> Result) -> Result { chain_err(self, op) } } impl Result { #[inline] pub fn get(&self) -> T { get(self) } #[inline] pub fn map_err(&self, op: &fn(&E) -> F) -> Result { map_err(self, op) } } impl Result { #[inline] pub fn get_err(&self) -> E { get_err(self) } #[inline] pub fn map(&self, op: &fn(&T) -> U) -> Result { map(self, op) } } /** * Maps each element in the vector `ts` using the operation `op`. Should an * error occur, no further mappings are performed and the error is returned. * Should no error occur, a vector containing the result of each map is * returned. * * Here is an example which increments every integer in a vector, * checking for overflow: * * fn inc_conditionally(x: uint) -> result { * if x == uint::max_value { return err("overflow"); } * else { return ok(x+1u); } * } * map(~[1u, 2u, 3u], inc_conditionally).chain {|incd| * assert!(incd == ~[2u, 3u, 4u]); * } */ #[inline] pub fn map_vec(ts: &[T], op: &fn(&T) -> Result) -> Result<~[V],U> { let mut vs: ~[V] = vec::with_capacity(ts.len()); for ts.iter().advance |t| { match op(t) { Ok(v) => vs.push(v), Err(u) => return Err(u) } } return Ok(vs); } #[inline] #[allow(missing_doc)] pub fn map_opt( o_t: &Option, op: &fn(&T) -> Result) -> Result,U> { match *o_t { None => Ok(None), Some(ref t) => match op(t) { Ok(v) => Ok(Some(v)), Err(e) => Err(e) } } } /** * Same as map, but it operates over two parallel vectors. * * A precondition is used here to ensure that the vectors are the same * length. While we do not often use preconditions in the standard * library, a precondition is used here because result::t is generally * used in 'careful' code contexts where it is both appropriate and easy * to accommodate an error like the vectors being of different lengths. */ #[inline] pub fn map_vec2(ss: &[S], ts: &[T], op: &fn(&S,&T) -> Result) -> Result<~[V],U> { assert!(vec::same_length(ss, ts)); let n = ts.len(); let mut vs = vec::with_capacity(n); let mut i = 0u; while i < n { match op(&ss[i],&ts[i]) { Ok(v) => vs.push(v), Err(u) => return Err(u) } i += 1u; } return Ok(vs); } /** * Applies op to the pairwise elements from `ss` and `ts`, aborting on * error. This could be implemented using `map_zip()` but it is more efficient * on its own as no result vector is built. */ #[inline] pub fn iter_vec2(ss: &[S], ts: &[T], op: &fn(&S,&T) -> Result<(),U>) -> Result<(),U> { assert!(vec::same_length(ss, ts)); let n = ts.len(); let mut i = 0u; while i < n { match op(&ss[i],&ts[i]) { Ok(()) => (), Err(u) => return Err(u) } i += 1u; } return Ok(()); } /// Unwraps a result, assuming it is an `ok(T)` #[inline] pub fn unwrap(res: Result) -> T { match res { Ok(t) => t, Err(_) => fail!("unwrap called on an err result") } } /// Unwraps a result, assuming it is an `err(U)` #[inline] pub fn unwrap_err(res: Result) -> U { match res { Err(u) => u, Ok(_) => fail!("unwrap called on an ok result") } } #[cfg(test)] mod tests { use result::{Err, Ok, Result, chain, get, get_err}; use result; pub fn op1() -> result::Result { result::Ok(666) } pub fn op2(i: int) -> result::Result { result::Ok(i as uint + 1u) } pub fn op3() -> result::Result { result::Err(~"sadface") } #[test] pub fn chain_success() { assert_eq!(get(&chain(op1(), op2)), 667u); } #[test] pub fn chain_failure() { assert_eq!(get_err(&chain(op3(), op2)), ~"sadface"); } #[test] pub fn test_impl_iter() { let mut valid = false; Ok::<~str, ~str>(~"a").iter(|_x| valid = true); assert!(valid); Err::<~str, ~str>(~"b").iter(|_x| valid = false); assert!(valid); } #[test] pub fn test_impl_iter_err() { let mut valid = true; Ok::<~str, ~str>(~"a").iter_err(|_x| valid = false); assert!(valid); valid = false; Err::<~str, ~str>(~"b").iter_err(|_x| valid = true); assert!(valid); } #[test] pub fn test_impl_map() { assert_eq!(Ok::<~str, ~str>(~"a").map(|_x| ~"b"), Ok(~"b")); assert_eq!(Err::<~str, ~str>(~"a").map(|_x| ~"b"), Err(~"a")); } #[test] pub fn test_impl_map_err() { assert_eq!(Ok::<~str, ~str>(~"a").map_err(|_x| ~"b"), Ok(~"a")); assert_eq!(Err::<~str, ~str>(~"a").map_err(|_x| ~"b"), Err(~"b")); } #[test] pub fn test_get_ref_method() { let foo: Result = Ok(100); assert_eq!(*foo.get_ref(), 100); } }