Struct collections::BitvSetExperimental [-]  [+] [src]

pub struct BitvSet {
    // some fields omitted
}

An implementation of a set using a bit vector as an underlying representation for holding unsigned numerical elements.

It should also be noted that the amount of storage necessary for holding a set of objects is proportional to the maximum of the objects when viewed as a uint.

Examples

extern crate collections; fn main() { use std::collections::{BitvSet, Bitv}; // It's a regular set let mut s = BitvSet::new(); s.insert(0); s.insert(3); s.insert(7); s.remove(&7); if !s.contains(&7) { println!("There is no 7"); } // Can initialize from a `Bitv` let other = BitvSet::from_bitv(Bitv::from_bytes(&[0b11010000])); s.union_with(&other); // Print 0, 1, 3 in some order for x in s.iter() { println!("{}", x); } // Can convert back to a `Bitv` let bv: Bitv = s.into_bitv(); assert!(bv[3]); }
use std::collections::{BitvSet, Bitv};

// It's a regular set
let mut s = BitvSet::new();
s.insert(0);
s.insert(3);
s.insert(7);

s.remove(&7);

if !s.contains(&7) {
    println!("There is no 7");
}

// Can initialize from a `Bitv`
let other = BitvSet::from_bitv(Bitv::from_bytes(&[0b11010000]));

s.union_with(&other);

// Print 0, 1, 3 in some order
for x in s.iter() {
    println!("{}", x);
}

// Can convert back to a `Bitv`
let bv: Bitv = s.into_bitv();
assert!(bv[3]);

Methods

impl BitvSet

fn new() -> BitvSet

Creates a new empty BitvSet.

Examples

extern crate collections; fn main() { use std::collections::BitvSet; let mut s = BitvSet::new(); }
use std::collections::BitvSet;

let mut s = BitvSet::new();

fn with_capacity(nbits: uint) -> BitvSet

Creates a new BitvSet with initially no contents, able to hold nbits elements without resizing.

Examples

extern crate collections; fn main() { use std::collections::BitvSet; let mut s = BitvSet::with_capacity(100); assert!(s.capacity() >= 100); }
use std::collections::BitvSet;

let mut s = BitvSet::with_capacity(100);
assert!(s.capacity() >= 100);

fn from_bitv(bitv: Bitv) -> BitvSet

Creates a new BitvSet from the given bit vector.

Examples

extern crate collections; fn main() { use std::collections::{Bitv, BitvSet}; let bv = Bitv::from_bytes(&[0b01100000]); let s = BitvSet::from_bitv(bv); // Print 1, 2 in arbitrary order for x in s.iter() { println!("{}", x); } }
use std::collections::{Bitv, BitvSet};

let bv = Bitv::from_bytes(&[0b01100000]);
let s = BitvSet::from_bitv(bv);

// Print 1, 2 in arbitrary order
for x in s.iter() {
    println!("{}", x);
}

fn capacity(&self) -> uint

Returns the capacity in bits for this bit vector. Inserting any element less than this amount will not trigger a resizing.

Examples

extern crate collections; fn main() { use std::collections::BitvSet; let mut s = BitvSet::with_capacity(100); assert!(s.capacity() >= 100); }
use std::collections::BitvSet;

let mut s = BitvSet::with_capacity(100);
assert!(s.capacity() >= 100);

fn reserve_len(&mut self, len: uint)

Reserves capacity for the given BitvSet to contain len distinct elements. In the case of BitvSet this means reallocations will not occur as long as all inserted elements are less than len.

The collection may reserve more space to avoid frequent reallocations.

Examples

extern crate collections; fn main() { use std::collections::BitvSet; let mut s = BitvSet::new(); s.reserve_len(10); assert!(s.capacity() >= 10); }
use std::collections::BitvSet;

let mut s = BitvSet::new();
s.reserve_len(10);
assert!(s.capacity() >= 10);

fn reserve_len_exact(&mut self, len: uint)

Reserves the minimum capacity for the given BitvSet to contain len distinct elements. In the case of BitvSet this means reallocations will not occur as long as all inserted elements are less than len.

Note that the allocator may give the collection more space than it requests. Therefore capacity can not be relied upon to be precisely minimal. Prefer reserve_len if future insertions are expected.

Examples

extern crate collections; fn main() { use std::collections::BitvSet; let mut s = BitvSet::new(); s.reserve_len_exact(10); assert!(s.capacity() >= 10); }
use std::collections::BitvSet;

let mut s = BitvSet::new();
s.reserve_len_exact(10);
assert!(s.capacity() >= 10);

fn into_bitv(self) -> Bitv

Consumes this set to return the underlying bit vector.

Examples

extern crate collections; fn main() { use std::collections::BitvSet; let mut s = BitvSet::new(); s.insert(0); s.insert(3); let bv = s.into_bitv(); assert!(bv[0]); assert!(bv[3]); }
use std::collections::BitvSet;

let mut s = BitvSet::new();
s.insert(0);
s.insert(3);

let bv = s.into_bitv();
assert!(bv[0]);
assert!(bv[3]);

fn get_ref<'a>(&'a self) -> &'a Bitv

Returns a reference to the underlying bit vector.

Examples

extern crate collections; fn main() { use std::collections::BitvSet; let mut s = BitvSet::new(); s.insert(0); let bv = s.get_ref(); assert_eq!(bv[0], true); }
use std::collections::BitvSet;

let mut s = BitvSet::new();
s.insert(0);

let bv = s.get_ref();
assert_eq!(bv[0], true);

fn shrink_to_fit(&mut self)

Truncates the underlying vector to the least length required.

Examples

extern crate collections; fn main() { use std::collections::BitvSet; let mut s = BitvSet::new(); s.insert(32183231); s.remove(&32183231); // Internal storage will probably be bigger than necessary println!("old capacity: {}", s.capacity()); // Now should be smaller s.shrink_to_fit(); println!("new capacity: {}", s.capacity()); }
use std::collections::BitvSet;

let mut s = BitvSet::new();
s.insert(32183231);
s.remove(&32183231);

// Internal storage will probably be bigger than necessary
println!("old capacity: {}", s.capacity());

// Now should be smaller
s.shrink_to_fit();
println!("new capacity: {}", s.capacity());

fn iter<'a>(&'a self) -> BitPositions<'a>

Iterator over each u32 stored in the BitvSet.

Examples

extern crate collections; fn main() { use std::collections::{Bitv, BitvSet}; let s = BitvSet::from_bitv(Bitv::from_bytes(&[0b01001010])); // Print 1, 4, 6 in arbitrary order for x in s.iter() { println!("{}", x); } }
use std::collections::{Bitv, BitvSet};

let s = BitvSet::from_bitv(Bitv::from_bytes(&[0b01001010]));

// Print 1, 4, 6 in arbitrary order
for x in s.iter() {
    println!("{}", x);
}

fn union<'a>(&'a self, other: &'a BitvSet) -> TwoBitPositions<'a>

Iterator over each u32 stored in self union other. See union_with for an efficient in-place version.

Examples

extern crate collections; fn main() { use std::collections::{Bitv, BitvSet}; let a = BitvSet::from_bitv(Bitv::from_bytes(&[0b01101000])); let b = BitvSet::from_bitv(Bitv::from_bytes(&[0b10100000])); // Print 0, 1, 2, 4 in arbitrary order for x in a.union(&b) { println!("{}", x); } }
use std::collections::{Bitv, BitvSet};

let a = BitvSet::from_bitv(Bitv::from_bytes(&[0b01101000]));
let b = BitvSet::from_bitv(Bitv::from_bytes(&[0b10100000]));

// Print 0, 1, 2, 4 in arbitrary order
for x in a.union(&b) {
    println!("{}", x);
}

fn intersection<'a>(&'a self, other: &'a BitvSet) -> Take<TwoBitPositions<'a>>

Iterator over each uint stored in self intersect other. See intersect_with for an efficient in-place version.

Examples

extern crate collections; fn main() { use std::collections::{Bitv, BitvSet}; let a = BitvSet::from_bitv(Bitv::from_bytes(&[0b01101000])); let b = BitvSet::from_bitv(Bitv::from_bytes(&[0b10100000])); // Print 2 for x in a.intersection(&b) { println!("{}", x); } }
use std::collections::{Bitv, BitvSet};

let a = BitvSet::from_bitv(Bitv::from_bytes(&[0b01101000]));
let b = BitvSet::from_bitv(Bitv::from_bytes(&[0b10100000]));

// Print 2
for x in a.intersection(&b) {
    println!("{}", x);
}

fn difference<'a>(&'a self, other: &'a BitvSet) -> TwoBitPositions<'a>

Iterator over each uint stored in the self setminus other. See difference_with for an efficient in-place version.

Examples

extern crate collections; fn main() { use std::collections::{BitvSet, Bitv}; let a = BitvSet::from_bitv(Bitv::from_bytes(&[0b01101000])); let b = BitvSet::from_bitv(Bitv::from_bytes(&[0b10100000])); // Print 1, 4 in arbitrary order for x in a.difference(&b) { println!("{}", x); } // Note that difference is not symmetric, // and `b - a` means something else. // This prints 0 for x in b.difference(&a) { println!("{}", x); } }
use std::collections::{BitvSet, Bitv};

let a = BitvSet::from_bitv(Bitv::from_bytes(&[0b01101000]));
let b = BitvSet::from_bitv(Bitv::from_bytes(&[0b10100000]));

// Print 1, 4 in arbitrary order
for x in a.difference(&b) {
    println!("{}", x);
}

// Note that difference is not symmetric,
// and `b - a` means something else.
// This prints 0
for x in b.difference(&a) {
    println!("{}", x);
}

fn symmetric_difference<'a>(&'a self, other: &'a BitvSet) -> TwoBitPositions<'a>

Iterator over each u32 stored in the symmetric difference of self and other. See symmetric_difference_with for an efficient in-place version.

Examples

extern crate collections; fn main() { use std::collections::{BitvSet, Bitv}; let a = BitvSet::from_bitv(Bitv::from_bytes(&[0b01101000])); let b = BitvSet::from_bitv(Bitv::from_bytes(&[0b10100000])); // Print 0, 1, 4 in arbitrary order for x in a.symmetric_difference(&b) { println!("{}", x); } }
use std::collections::{BitvSet, Bitv};

let a = BitvSet::from_bitv(Bitv::from_bytes(&[0b01101000]));
let b = BitvSet::from_bitv(Bitv::from_bytes(&[0b10100000]));

// Print 0, 1, 4 in arbitrary order
for x in a.symmetric_difference(&b) {
    println!("{}", x);
}

fn union_with(&mut self, other: &BitvSet)

Unions in-place with the specified other bit vector.

Examples

extern crate collections; fn main() { use std::collections::{BitvSet, Bitv}; let a = 0b01101000; let b = 0b10100000; let res = 0b11101000; let mut a = BitvSet::from_bitv(Bitv::from_bytes(&[a])); let b = BitvSet::from_bitv(Bitv::from_bytes(&[b])); let res = BitvSet::from_bitv(Bitv::from_bytes(&[res])); a.union_with(&b); assert_eq!(a, res); }
use std::collections::{BitvSet, Bitv};

let a   = 0b01101000;
let b   = 0b10100000;
let res = 0b11101000;

let mut a = BitvSet::from_bitv(Bitv::from_bytes(&[a]));
let b = BitvSet::from_bitv(Bitv::from_bytes(&[b]));
let res = BitvSet::from_bitv(Bitv::from_bytes(&[res]));

a.union_with(&b);
assert_eq!(a, res);

fn intersect_with(&mut self, other: &BitvSet)

Intersects in-place with the specified other bit vector.

Examples

extern crate collections; fn main() { use std::collections::{BitvSet, Bitv}; let a = 0b01101000; let b = 0b10100000; let res = 0b00100000; let mut a = BitvSet::from_bitv(Bitv::from_bytes(&[a])); let b = BitvSet::from_bitv(Bitv::from_bytes(&[b])); let res = BitvSet::from_bitv(Bitv::from_bytes(&[res])); a.intersect_with(&b); assert_eq!(a, res); }
use std::collections::{BitvSet, Bitv};

let a   = 0b01101000;
let b   = 0b10100000;
let res = 0b00100000;

let mut a = BitvSet::from_bitv(Bitv::from_bytes(&[a]));
let b = BitvSet::from_bitv(Bitv::from_bytes(&[b]));
let res = BitvSet::from_bitv(Bitv::from_bytes(&[res]));

a.intersect_with(&b);
assert_eq!(a, res);

fn difference_with(&mut self, other: &BitvSet)

Makes this bit vector the difference with the specified other bit vector in-place.

Examples

extern crate collections; fn main() { use std::collections::{BitvSet, Bitv}; let a = 0b01101000; let b = 0b10100000; let a_b = 0b01001000; // a - b let b_a = 0b10000000; // b - a let mut bva = BitvSet::from_bitv(Bitv::from_bytes(&[a])); let bvb = BitvSet::from_bitv(Bitv::from_bytes(&[b])); let bva_b = BitvSet::from_bitv(Bitv::from_bytes(&[a_b])); let bvb_a = BitvSet::from_bitv(Bitv::from_bytes(&[b_a])); bva.difference_with(&bvb); assert_eq!(bva, bva_b); let bva = BitvSet::from_bitv(Bitv::from_bytes(&[a])); let mut bvb = BitvSet::from_bitv(Bitv::from_bytes(&[b])); bvb.difference_with(&bva); assert_eq!(bvb, bvb_a); }
use std::collections::{BitvSet, Bitv};

let a   = 0b01101000;
let b   = 0b10100000;
let a_b = 0b01001000; // a - b
let b_a = 0b10000000; // b - a

let mut bva = BitvSet::from_bitv(Bitv::from_bytes(&[a]));
let bvb = BitvSet::from_bitv(Bitv::from_bytes(&[b]));
let bva_b = BitvSet::from_bitv(Bitv::from_bytes(&[a_b]));
let bvb_a = BitvSet::from_bitv(Bitv::from_bytes(&[b_a]));

bva.difference_with(&bvb);
assert_eq!(bva, bva_b);

let bva = BitvSet::from_bitv(Bitv::from_bytes(&[a]));
let mut bvb = BitvSet::from_bitv(Bitv::from_bytes(&[b]));

bvb.difference_with(&bva);
assert_eq!(bvb, bvb_a);

fn symmetric_difference_with(&mut self, other: &BitvSet)

Makes this bit vector the symmetric difference with the specified other bit vector in-place.

Examples

extern crate collections; fn main() { use std::collections::{BitvSet, Bitv}; let a = 0b01101000; let b = 0b10100000; let res = 0b11001000; let mut a = BitvSet::from_bitv(Bitv::from_bytes(&[a])); let b = BitvSet::from_bitv(Bitv::from_bytes(&[b])); let res = BitvSet::from_bitv(Bitv::from_bytes(&[res])); a.symmetric_difference_with(&b); assert_eq!(a, res); }
use std::collections::{BitvSet, Bitv};

let a   = 0b01101000;
let b   = 0b10100000;
let res = 0b11001000;

let mut a = BitvSet::from_bitv(Bitv::from_bytes(&[a]));
let b = BitvSet::from_bitv(Bitv::from_bytes(&[b]));
let res = BitvSet::from_bitv(Bitv::from_bytes(&[res]));

a.symmetric_difference_with(&b);
assert_eq!(a, res);

fn len(&self) -> uint

Return the number of set bits in this set.

fn is_empty(&self) -> bool

Returns whether there are no bits set in this set

fn clear(&mut self)

Clears all bits in this set

fn contains(&self, value: &uint) -> bool

Returns true if this set contains the specified integer.

fn is_disjoint(&self, other: &BitvSet) -> bool

Returns true if the set has no elements in common with other. This is equivalent to checking for an empty intersection.

fn is_subset(&self, other: &BitvSet) -> bool

Returns true if the set is a subset of another.

fn is_superset(&self, other: &BitvSet) -> bool

Returns true if the set is a superset of another.

fn insert(&mut self, value: uint) -> bool

Adds a value to the set. Returns true if the value was not already present in the set.

fn remove(&mut self, value: &uint) -> bool

Removes a value from the set. Returns true if the value was present in the set.

Trait Implementations

impl Default for BitvSet

fn default() -> BitvSet

impl FromIterator<uint> for BitvSet

fn from_iter<I: Iterator<uint>>(iterator: I) -> BitvSet

impl Extend<uint> for BitvSet

fn extend<I: Iterator<uint>>(&mut self, iterator: I)

impl PartialOrd for BitvSet

fn partial_cmp(&self, other: &BitvSet) -> Option<Ordering>

fn lt(&self, other: &Rhs) -> bool

fn le(&self, other: &Rhs) -> bool

fn gt(&self, other: &Rhs) -> bool

fn ge(&self, other: &Rhs) -> bool

impl Ord for BitvSet

fn cmp(&self, other: &BitvSet) -> Ordering

impl PartialEq for BitvSet

fn eq(&self, other: &BitvSet) -> bool

fn ne(&self, other: &Rhs) -> bool

impl Eq for BitvSet

impl Show for BitvSet

fn fmt(&self, fmt: &mut Formatter) -> Result

impl<S: Writer> Hash<S> for BitvSet

fn hash(&self, state: &mut S)

Derived Implementations

impl Clone for BitvSet

fn clone(&self) -> BitvSet

fn clone_from(&mut self, source: &Self)