rust/src/librustc/util/enum_set.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.
use core::prelude::*;
#[deriving(Eq, IterBytes)]
pub struct EnumSet<E> {
// We must maintain the invariant that no bits are set
// for which no variant exists
priv bits: uint
}
pub trait CLike {
pub fn to_uint(&self) -> uint;
pub fn from_uint(uint) -> Self;
}
fn bit<E:CLike>(e: E) -> uint {
1 << e.to_uint()
}
pub impl<E:CLike> EnumSet<E> {
fn empty() -> EnumSet<E> {
EnumSet {bits: 0}
}
fn is_empty(&self) -> bool {
self.bits == 0
}
fn intersects(&self, e: EnumSet<E>) -> bool {
(self.bits & e.bits) != 0
}
fn intersection(&self, e: EnumSet<E>) -> EnumSet<E> {
EnumSet {bits: self.bits & e.bits}
}
fn contains(&self, e: EnumSet<E>) -> bool {
(self.bits & e.bits) == e.bits
}
fn union(&self, e: EnumSet<E>) -> EnumSet<E> {
EnumSet {bits: self.bits | e.bits}
}
fn add(&mut self, e: E) {
self.bits |= bit(e);
}
fn contains_elem(&self, e: E) -> bool {
(self.bits & bit(e)) != 0
}
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fn each(&self, f: &fn(E) -> bool) -> bool {
let mut bits = self.bits;
let mut index = 0;
while bits != 0 {
if (bits & 1) != 0 {
let e = CLike::from_uint(index);
if !f(e) {
return false;
}
}
index += 1;
bits >>= 1;
}
return true;
}
}
impl<E:CLike> Sub<EnumSet<E>, EnumSet<E>> for EnumSet<E> {
fn sub(&self, e: &EnumSet<E>) -> EnumSet<E> {
EnumSet {bits: self.bits & !e.bits}
}
}
impl<E:CLike> BitOr<EnumSet<E>, EnumSet<E>> for EnumSet<E> {
fn bitor(&self, e: &EnumSet<E>) -> EnumSet<E> {
EnumSet {bits: self.bits | e.bits}
}
}
impl<E:CLike> BitAnd<EnumSet<E>, EnumSet<E>> for EnumSet<E> {
fn bitand(&self, e: &EnumSet<E>) -> EnumSet<E> {
EnumSet {bits: self.bits & e.bits}
}
}
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#[cfg(test)]
mod test {
use core::prelude::*;
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use core::iter;
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use util::enum_set::*;
#[deriving(Eq)]
enum Foo {
A, B, C
}
impl CLike for Foo {
pub fn to_uint(&self) -> uint {
*self as uint
}
pub fn from_uint(v: uint) -> Foo {
unsafe { cast::transmute(v) }
}
}
#[test]
fn test_empty() {
let e: EnumSet<Foo> = EnumSet::empty();
assert!(e.is_empty());
}
///////////////////////////////////////////////////////////////////////////
// intersect
#[test]
fn test_two_empties_do_not_intersect() {
let e1: EnumSet<Foo> = EnumSet::empty();
let e2: EnumSet<Foo> = EnumSet::empty();
assert!(!e1.intersects(e2));
}
#[test]
fn test_empty_does_not_intersect_with_full() {
let e1: EnumSet<Foo> = EnumSet::empty();
let mut e2: EnumSet<Foo> = EnumSet::empty();
e2.add(A);
e2.add(B);
e2.add(C);
assert!(!e1.intersects(e2));
}
#[test]
fn test_disjoint_intersects() {
let mut e1: EnumSet<Foo> = EnumSet::empty();
e1.add(A);
let mut e2: EnumSet<Foo> = EnumSet::empty();
e2.add(B);
assert!(!e1.intersects(e2));
}
#[test]
fn test_overlapping_intersects() {
let mut e1: EnumSet<Foo> = EnumSet::empty();
e1.add(A);
let mut e2: EnumSet<Foo> = EnumSet::empty();
e2.add(A);
e2.add(B);
assert!(e1.intersects(e2));
}
///////////////////////////////////////////////////////////////////////////
// contains and contains_elem
#[test]
fn test_contains() {
let mut e1: EnumSet<Foo> = EnumSet::empty();
e1.add(A);
let mut e2: EnumSet<Foo> = EnumSet::empty();
e2.add(A);
e2.add(B);
assert!(!e1.contains(e2));
assert!(e2.contains(e1));
}
#[test]
fn test_contains_elem() {
let mut e1: EnumSet<Foo> = EnumSet::empty();
e1.add(A);
assert!(e1.contains_elem(A));
assert!(!e1.contains_elem(B));
assert!(!e1.contains_elem(C));
e1.add(A);
e1.add(B);
assert!(e1.contains_elem(A));
assert!(e1.contains_elem(B));
assert!(!e1.contains_elem(C));
}
///////////////////////////////////////////////////////////////////////////
// each
#[test]
fn test_each() {
let mut e1: EnumSet<Foo> = EnumSet::empty();
assert_eq!(~[], iter::to_vec(|f| e1.each(f)))
e1.add(A);
assert_eq!(~[A], iter::to_vec(|f| e1.each(f)))
e1.add(C);
assert_eq!(~[A,C], iter::to_vec(|f| e1.each(f)))
e1.add(C);
assert_eq!(~[A,C], iter::to_vec(|f| e1.each(f)))
e1.add(B);
assert_eq!(~[A,B,C], iter::to_vec(|f| e1.each(f)))
}
///////////////////////////////////////////////////////////////////////////
// operators
#[test]
fn test_operators() {
let mut e1: EnumSet<Foo> = EnumSet::empty();
e1.add(A);
e1.add(C);
let mut e2: EnumSet<Foo> = EnumSet::empty();
e2.add(B);
e2.add(C);
let e_union = e1 | e2;
assert_eq!(~[A,B,C], iter::to_vec(|f| e_union.each(f)))
let e_intersection = e1 & e2;
assert_eq!(~[C], iter::to_vec(|f| e_intersection.each(f)))
let e_subtract = e1 - e2;
assert_eq!(~[A], iter::to_vec(|f| e_subtract.each(f)))
}
}