// 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. /*! * Defines a type OptVec that can be used in place of ~[T]. * OptVec avoids the need for allocation for empty vectors. * OptVec implements the iterable interface as well as * other useful things like `push()` and `len()`. */ use std::vec::{VecIterator}; #[deriving(Clone, Encodable, Decodable, IterBytes)] pub enum OptVec { Empty, Vec(~[T]) } pub fn with(t: T) -> OptVec { Vec(~[t]) } pub fn from(t: ~[T]) -> OptVec { if t.len() == 0 { Empty } else { Vec(t) } } impl OptVec { pub fn push(&mut self, t: T) { match *self { Vec(ref mut v) => { v.push(t); return; } Empty => {} } // FIXME(#5074): flow insensitive means we can't move // assignment inside `match` *self = Vec(~[t]); } pub fn map(&self, op: |&T| -> U) -> OptVec { match *self { Empty => Empty, Vec(ref v) => Vec(v.map(op)) } } pub fn map_move(self, op: |T| -> U) -> OptVec { match self { Empty => Empty, Vec(v) => Vec(v.move_iter().map(op).collect()) } } pub fn get<'a>(&'a self, i: uint) -> &'a T { match *self { Empty => fail!("Invalid index {}", i), Vec(ref v) => &v[i] } } pub fn is_empty(&self) -> bool { self.len() == 0 } pub fn len(&self) -> uint { match *self { Empty => 0, Vec(ref v) => v.len() } } #[inline] pub fn iter<'r>(&'r self) -> OptVecIterator<'r, T> { match *self { Empty => OptVecIterator{iter: None}, Vec(ref v) => OptVecIterator{iter: Some(v.iter())} } } #[inline] pub fn map_to_vec(&self, op: |&T| -> B) -> ~[B] { self.iter().map(op).collect() } pub fn mapi_to_vec(&self, op: |uint, &T| -> B) -> ~[B] { let mut index = 0; self.map_to_vec(|a| { let i = index; index += 1; op(i, a) }) } } pub fn take_vec(v: OptVec) -> ~[T] { match v { Empty => ~[], Vec(v) => v } } impl OptVec { pub fn prepend(&self, t: T) -> OptVec { let mut v0 = ~[t]; match *self { Empty => {} Vec(ref v1) => { v0.push_all(*v1); } } return Vec(v0); } } impl Eq for OptVec { fn eq(&self, other: &OptVec) -> bool { // Note: cannot use #[deriving(Eq)] here because // (Empty, Vec(~[])) ought to be equal. match (self, other) { (&Empty, &Empty) => true, (&Empty, &Vec(ref v)) => v.is_empty(), (&Vec(ref v), &Empty) => v.is_empty(), (&Vec(ref v1), &Vec(ref v2)) => *v1 == *v2 } } fn ne(&self, other: &OptVec) -> bool { !self.eq(other) } } impl Default for OptVec { fn default() -> OptVec { Empty } } pub struct OptVecIterator<'a, T> { priv iter: Option> } impl<'a, T> Iterator<&'a T> for OptVecIterator<'a, T> { #[inline] fn next(&mut self) -> Option<&'a T> { match self.iter { Some(ref mut x) => x.next(), None => None } } #[inline] fn size_hint(&self) -> (uint, Option) { match self.iter { Some(ref x) => x.size_hint(), None => (0, Some(0)) } } } impl FromIterator for OptVec { fn from_iterator>(iterator: &mut T) -> OptVec { let mut r = Empty; for x in *iterator { r.push(x); } r } }