// 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 structure for holding a set of enum variants. //! //! This module defines a container which uses an efficient bit mask //! representation to hold C-like enum variants. use core::prelude::*; use core::fmt; use core::num::Int; // FIXME(contentions): implement union family of methods? (general design may be wrong here) #[deriving(Clone, PartialEq, Eq, PartialOrd, Ord, Hash)] /// A specialized `Set` implementation to use enum types. pub struct EnumSet { // We must maintain the invariant that no bits are set // for which no variant exists bits: uint } impl fmt::Show for EnumSet { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { try!(write!(fmt, "{{")); let mut first = true; for e in self.iter() { if !first { try!(write!(fmt, ", ")); } try!(write!(fmt, "{}", e)); first = false; } write!(fmt, "}}") } } /** An interface for casting C-like enum to uint and back. A typically implementation is as below. ```{rust,ignore} #[repr(uint)] enum Foo { A, B, C } impl CLike for Foo { fn to_uint(&self) -> uint { *self as uint } fn from_uint(v: uint) -> Foo { unsafe { mem::transmute(v) } } } ``` */ pub trait CLike { /// Converts a C-like enum to a `uint`. fn to_uint(&self) -> uint; /// Converts a `uint` to a C-like enum. fn from_uint(uint) -> Self; } fn bit(e: &E) -> uint { use core::uint; let value = e.to_uint(); assert!(value < uint::BITS, "EnumSet only supports up to {} variants.", uint::BITS - 1); 1 << value } impl EnumSet { /// Deprecated: Renamed to `new`. #[deprecated = "Renamed to `new`"] pub fn empty() -> EnumSet { EnumSet::new() } /// Returns an empty `EnumSet`. #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn new() -> EnumSet { EnumSet {bits: 0} } /// Returns the number of elements in the given `EnumSet`. #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn len(&self) -> uint { self.bits.count_ones() } /// Returns true if the `EnumSet` is empty. #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn is_empty(&self) -> bool { self.bits == 0 } pub fn clear(&mut self) { self.bits = 0; } /// Returns `true` if the `EnumSet` contains any enum of the given `EnumSet`. /// Deprecated: Use `is_disjoint`. #[deprecated = "Use `is_disjoint`"] pub fn intersects(&self, e: EnumSet) -> bool { !self.is_disjoint(&e) } /// Returns `false` if the `EnumSet` contains any enum of the given `EnumSet`. #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn is_disjoint(&self, other: &EnumSet) -> bool { (self.bits & other.bits) == 0 } /// Returns `true` if a given `EnumSet` is included in this `EnumSet`. #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn is_superset(&self, other: &EnumSet) -> bool { (self.bits & other.bits) == other.bits } /// Returns `true` if this `EnumSet` is included in the given `EnumSet`. #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn is_subset(&self, other: &EnumSet) -> bool { other.is_superset(self) } /// Returns the union of both `EnumSets`. pub fn union(&self, e: EnumSet) -> EnumSet { EnumSet {bits: self.bits | e.bits} } /// Returns the intersection of both `EnumSets`. pub fn intersection(&self, e: EnumSet) -> EnumSet { EnumSet {bits: self.bits & e.bits} } /// Deprecated: Use `insert`. #[deprecated = "Use `insert`"] pub fn add(&mut self, e: E) { self.insert(e); } /// Adds an enum to the `EnumSet`, and returns `true` if it wasn't there before #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn insert(&mut self, e: E) -> bool { let result = !self.contains(&e); self.bits |= bit(&e); result } /// Removes an enum from the EnumSet #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn remove(&mut self, e: &E) -> bool { let result = self.contains(e); self.bits &= !bit(e); result } /// Deprecated: use `contains`. #[deprecated = "use `contains"] pub fn contains_elem(&self, e: E) -> bool { self.contains(&e) } /// Returns `true` if an `EnumSet` contains a given enum. #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn contains(&self, e: &E) -> bool { (self.bits & bit(e)) != 0 } /// Returns an iterator over an `EnumSet`. #[unstable = "matches collection reform specification, waiting for dust to settle"] pub fn iter(&self) -> Items { Items::new(self.bits) } } impl Sub, EnumSet> for EnumSet { fn sub(&self, e: &EnumSet) -> EnumSet { EnumSet {bits: self.bits & !e.bits} } } impl BitOr, EnumSet> for EnumSet { fn bitor(&self, e: &EnumSet) -> EnumSet { EnumSet {bits: self.bits | e.bits} } } impl BitAnd, EnumSet> for EnumSet { fn bitand(&self, e: &EnumSet) -> EnumSet { EnumSet {bits: self.bits & e.bits} } } impl BitXor, EnumSet> for EnumSet { fn bitxor(&self, e: &EnumSet) -> EnumSet { EnumSet {bits: self.bits ^ e.bits} } } /// An iterator over an EnumSet pub struct Items { index: uint, bits: uint, } impl Items { fn new(bits: uint) -> Items { Items { index: 0, bits: bits } } } impl Iterator for Items { fn next(&mut self) -> Option { if self.bits == 0 { return None; } while (self.bits & 1) == 0 { self.index += 1; self.bits >>= 1; } let elem = CLike::from_uint(self.index); self.index += 1; self.bits >>= 1; Some(elem) } fn size_hint(&self) -> (uint, Option) { let exact = self.bits.count_ones(); (exact, Some(exact)) } } impl FromIterator for EnumSet { fn from_iter>(iterator: I) -> EnumSet { let mut ret = EnumSet::new(); ret.extend(iterator); ret } } impl Extend for EnumSet { fn extend>(&mut self, mut iterator: I) { for element in iterator { self.insert(element); } } } #[cfg(test)] mod test { use std::prelude::*; use self::Foo::*; use std::mem; use super::{EnumSet, CLike}; #[deriving(PartialEq, Show)] #[repr(uint)] enum Foo { A, B, C } impl CLike for Foo { fn to_uint(&self) -> uint { *self as uint } fn from_uint(v: uint) -> Foo { unsafe { mem::transmute(v) } } } #[test] fn test_new() { let e: EnumSet = EnumSet::new(); assert!(e.is_empty()); } #[test] fn test_show() { let mut e = EnumSet::new(); assert_eq!("{}", e.to_string().as_slice()); e.insert(A); assert_eq!("{A}", e.to_string().as_slice()); e.insert(C); assert_eq!("{A, C}", e.to_string().as_slice()); } #[test] fn test_len() { let mut e = EnumSet::new(); assert_eq!(e.len(), 0); e.insert(A); e.insert(B); e.insert(C); assert_eq!(e.len(), 3); e.remove(&A); assert_eq!(e.len(), 2); e.clear(); assert_eq!(e.len(), 0); } /////////////////////////////////////////////////////////////////////////// // intersect #[test] fn test_two_empties_do_not_intersect() { let e1: EnumSet = EnumSet::new(); let e2: EnumSet = EnumSet::new(); assert!(e1.is_disjoint(&e2)); } #[test] fn test_empty_does_not_intersect_with_full() { let e1: EnumSet = EnumSet::new(); let mut e2: EnumSet = EnumSet::new(); e2.insert(A); e2.insert(B); e2.insert(C); assert!(e1.is_disjoint(&e2)); } #[test] fn test_disjoint_intersects() { let mut e1: EnumSet = EnumSet::new(); e1.insert(A); let mut e2: EnumSet = EnumSet::new(); e2.insert(B); assert!(e1.is_disjoint(&e2)); } #[test] fn test_overlapping_intersects() { let mut e1: EnumSet = EnumSet::new(); e1.insert(A); let mut e2: EnumSet = EnumSet::new(); e2.insert(A); e2.insert(B); assert!(!e1.is_disjoint(&e2)); } /////////////////////////////////////////////////////////////////////////// // contains and contains_elem #[test] fn test_superset() { let mut e1: EnumSet = EnumSet::new(); e1.insert(A); let mut e2: EnumSet = EnumSet::new(); e2.insert(A); e2.insert(B); let mut e3: EnumSet = EnumSet::new(); e3.insert(C); assert!(e1.is_subset(&e2)); assert!(e2.is_superset(&e1)); assert!(!e3.is_superset(&e2)) assert!(!e2.is_superset(&e3)) } #[test] fn test_contains() { let mut e1: EnumSet = EnumSet::new(); e1.insert(A); assert!(e1.contains(&A)); assert!(!e1.contains(&B)); assert!(!e1.contains(&C)); e1.insert(A); e1.insert(B); assert!(e1.contains(&A)); assert!(e1.contains(&B)); assert!(!e1.contains(&C)); } /////////////////////////////////////////////////////////////////////////// // iter #[test] fn test_iterator() { let mut e1: EnumSet = EnumSet::new(); let elems: Vec = e1.iter().collect(); assert!(elems.is_empty()) e1.insert(A); let elems = e1.iter().collect(); assert_eq!(vec![A], elems) e1.insert(C); let elems = e1.iter().collect(); assert_eq!(vec![A,C], elems) e1.insert(C); let elems = e1.iter().collect(); assert_eq!(vec![A,C], elems) e1.insert(B); let elems = e1.iter().collect(); assert_eq!(vec![A,B,C], elems) } /////////////////////////////////////////////////////////////////////////// // operators #[test] fn test_operators() { let mut e1: EnumSet = EnumSet::new(); e1.insert(A); e1.insert(C); let mut e2: EnumSet = EnumSet::new(); e2.insert(B); e2.insert(C); let e_union = e1 | e2; let elems = e_union.iter().collect(); assert_eq!(vec![A,B,C], elems) let e_intersection = e1 & e2; let elems = e_intersection.iter().collect(); assert_eq!(vec![C], elems) // Another way to express intersection let e_intersection = e1 - (e1 - e2); let elems = e_intersection.iter().collect(); assert_eq!(vec![C], elems) let e_subtract = e1 - e2; let elems = e_subtract.iter().collect(); assert_eq!(vec![A], elems) // Bitwise XOR of two sets, aka symmetric difference let e_symmetric_diff = e1 ^ e2; let elems = e_symmetric_diff.iter().collect(); assert_eq!(vec![A,B], elems) // Another way to express symmetric difference let e_symmetric_diff = (e1 - e2) | (e2 - e1); let elems = e_symmetric_diff.iter().collect(); assert_eq!(vec![A,B], elems) // Yet another way to express symmetric difference let e_symmetric_diff = (e1 | e2) - (e1 & e2); let elems = e_symmetric_diff.iter().collect(); assert_eq!(vec![A,B], elems) } #[test] #[should_fail] fn test_overflow() { #[allow(dead_code)] #[repr(uint)] enum Bar { V00, V01, V02, V03, V04, V05, V06, V07, V08, V09, V10, V11, V12, V13, V14, V15, V16, V17, V18, V19, V20, V21, V22, V23, V24, V25, V26, V27, V28, V29, V30, V31, V32, V33, V34, V35, V36, V37, V38, V39, V40, V41, V42, V43, V44, V45, V46, V47, V48, V49, V50, V51, V52, V53, V54, V55, V56, V57, V58, V59, V60, V61, V62, V63, V64, V65, V66, V67, V68, V69, } impl CLike for Bar { fn to_uint(&self) -> uint { *self as uint } fn from_uint(v: uint) -> Bar { unsafe { mem::transmute(v) } } } let mut set = EnumSet::new(); set.insert(Bar::V64); } }