rust/src/libstd/deque.rs

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#[doc = "A deque. Untested as of yet. Likely buggy"];
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import option::{some, none};
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iface t<T> {
fn size() -> uint;
fn add_front(T);
fn add_back(T);
fn pop_front() -> T;
fn pop_back() -> T;
fn peek_front() -> T;
fn peek_back() -> T;
fn get(int) -> T;
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}
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// FIXME eventually, a proper datatype plus an exported impl would be
// preferrable
fn create<T: copy>() -> t<T> {
type cell<T> = option<T>;
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let initial_capacity: uint = 32u; // 2^5
/**
* Grow is only called on full elts, so nelts is also len(elts), unlike
* elsewhere.
*/
fn grow<T: copy>(nelts: uint, lo: uint, elts: [mutable cell<T>]) ->
[mutable cell<T>] {
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assert (nelts == vec::len(elts));
let mut rv = [mutable];
let mut i = 0u;
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let nalloc = uint::next_power_of_two(nelts + 1u);
while i < nalloc {
if i < nelts {
rv += [mutable elts[(lo + i) % nelts]];
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} else { rv += [mutable none]; }
i += 1u;
}
ret rv;
}
fn get<T: copy>(elts: [mutable cell<T>], i: uint) -> T {
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ret alt elts[i] { some(t) { t } _ { fail } };
}
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type repr<T> = {mutable nelts: uint,
mutable lo: uint,
mutable hi: uint,
mutable elts: [mutable cell<T>]};
impl <T: copy> of t<T> for repr<T> {
fn size() -> uint { ret self.nelts; }
fn add_front(t: T) {
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let oldlo: uint = self.lo;
if self.lo == 0u {
self.lo = vec::len(self.elts) - 1u;
} else { self.lo -= 1u; }
if self.lo == self.hi {
self.elts = grow(self.nelts, oldlo, self.elts);
self.lo = vec::len(self.elts) - 1u;
self.hi = self.nelts;
}
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self.elts[self.lo] = some(t);
self.nelts += 1u;
}
fn add_back(t: T) {
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if self.lo == self.hi && self.nelts != 0u {
self.elts = grow(self.nelts, self.lo, self.elts);
self.lo = 0u;
self.hi = self.nelts;
}
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self.elts[self.hi] = some(t);
self.hi = (self.hi + 1u) % vec::len(self.elts);
self.nelts += 1u;
}
/**
* We actually release (turn to none()) the T we're popping so
* that we don't keep anyone's refcount up unexpectedly.
*/
fn pop_front() -> T {
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let t: T = get(self.elts, self.lo);
self.elts[self.lo] = none;
self.lo = (self.lo + 1u) % vec::len(self.elts);
self.nelts -= 1u;
ret t;
}
fn pop_back() -> T {
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if self.hi == 0u {
self.hi = vec::len(self.elts) - 1u;
} else { self.hi -= 1u; }
let t: T = get(self.elts, self.hi);
self.elts[self.hi] = none;
self.nelts -= 1u;
ret t;
}
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fn peek_front() -> T { ret get(self.elts, self.lo); }
fn peek_back() -> T { ret get(self.elts, self.hi - 1u); }
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fn get(i: int) -> T {
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let idx = (self.lo + (i as uint)) % vec::len(self.elts);
ret get(self.elts, idx);
}
}
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let repr: repr<T> = {
mutable nelts: 0u,
mutable lo: 0u,
mutable hi: 0u,
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mutable elts: vec::to_mut(vec::from_elem(initial_capacity, none))
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};
repr as t::<T>
}
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#[cfg(test)]
mod tests {
#[test]
fn test_simple() {
let d: deque::t<int> = deque::create::<int>();
assert (d.size() == 0u);
d.add_front(17);
d.add_front(42);
d.add_back(137);
assert (d.size() == 3u);
d.add_back(137);
assert (d.size() == 4u);
log(debug, d.peek_front());
assert (d.peek_front() == 42);
log(debug, d.peek_back());
assert (d.peek_back() == 137);
let mut i: int = d.pop_front();
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log(debug, i);
assert (i == 42);
i = d.pop_back();
log(debug, i);
assert (i == 137);
i = d.pop_back();
log(debug, i);
assert (i == 137);
i = d.pop_back();
log(debug, i);
assert (i == 17);
assert (d.size() == 0u);
d.add_back(3);
assert (d.size() == 1u);
d.add_front(2);
assert (d.size() == 2u);
d.add_back(4);
assert (d.size() == 3u);
d.add_front(1);
assert (d.size() == 4u);
log(debug, d.get(0));
log(debug, d.get(1));
log(debug, d.get(2));
log(debug, d.get(3));
assert (d.get(0) == 1);
assert (d.get(1) == 2);
assert (d.get(2) == 3);
assert (d.get(3) == 4);
}
fn test_boxes(a: @int, b: @int, c: @int, d: @int) {
let deq: deque::t<@int> = deque::create::<@int>();
assert (deq.size() == 0u);
deq.add_front(a);
deq.add_front(b);
deq.add_back(c);
assert (deq.size() == 3u);
deq.add_back(d);
assert (deq.size() == 4u);
assert (deq.peek_front() == b);
assert (deq.peek_back() == d);
assert (deq.pop_front() == b);
assert (deq.pop_back() == d);
assert (deq.pop_back() == c);
assert (deq.pop_back() == a);
assert (deq.size() == 0u);
deq.add_back(c);
assert (deq.size() == 1u);
deq.add_front(b);
assert (deq.size() == 2u);
deq.add_back(d);
assert (deq.size() == 3u);
deq.add_front(a);
assert (deq.size() == 4u);
assert (deq.get(0) == a);
assert (deq.get(1) == b);
assert (deq.get(2) == c);
assert (deq.get(3) == d);
}
type eqfn<T> = fn@(T, T) -> bool;
fn test_parameterized<T: copy>(e: eqfn<T>, a: T, b: T, c: T, d: T) {
let deq: deque::t<T> = deque::create::<T>();
assert (deq.size() == 0u);
deq.add_front(a);
deq.add_front(b);
deq.add_back(c);
assert (deq.size() == 3u);
deq.add_back(d);
assert (deq.size() == 4u);
assert (e(deq.peek_front(), b));
assert (e(deq.peek_back(), d));
assert (e(deq.pop_front(), b));
assert (e(deq.pop_back(), d));
assert (e(deq.pop_back(), c));
assert (e(deq.pop_back(), a));
assert (deq.size() == 0u);
deq.add_back(c);
assert (deq.size() == 1u);
deq.add_front(b);
assert (deq.size() == 2u);
deq.add_back(d);
assert (deq.size() == 3u);
deq.add_front(a);
assert (deq.size() == 4u);
assert (e(deq.get(0), a));
assert (e(deq.get(1), b));
assert (e(deq.get(2), c));
assert (e(deq.get(3), d));
}
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enum taggy { one(int), two(int, int), three(int, int, int), }
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enum taggypar<T> {
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onepar(int), twopar(int, int), threepar(int, int, int),
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}
type reccy = {x: int, y: int, t: taggy};
#[test]
fn test() {
fn inteq(&&a: int, &&b: int) -> bool { ret a == b; }
fn intboxeq(&&a: @int, &&b: @int) -> bool { ret a == b; }
fn taggyeq(a: taggy, b: taggy) -> bool {
alt a {
one(a1) { alt b { one(b1) { ret a1 == b1; } _ { ret false; } } }
two(a1, a2) {
alt b {
two(b1, b2) { ret a1 == b1 && a2 == b2; }
_ { ret false; }
}
}
three(a1, a2, a3) {
alt b {
three(b1, b2, b3) { ret a1 == b1 && a2 == b2 && a3 == b3; }
_ { ret false; }
}
}
}
}
fn taggypareq<T>(a: taggypar<T>, b: taggypar<T>) -> bool {
alt a {
onepar::<T>(a1) {
alt b { onepar::<T>(b1) { ret a1 == b1; } _ { ret false; } }
}
twopar::<T>(a1, a2) {
alt b {
twopar::<T>(b1, b2) { ret a1 == b1 && a2 == b2; }
_ { ret false; }
}
}
threepar::<T>(a1, a2, a3) {
alt b {
threepar::<T>(b1, b2, b3) {
ret a1 == b1 && a2 == b2 && a3 == b3;
}
_ { ret false; }
}
}
}
}
fn reccyeq(a: reccy, b: reccy) -> bool {
ret a.x == b.x && a.y == b.y && taggyeq(a.t, b.t);
}
#debug("*** test boxes");
test_boxes(@5, @72, @64, @175);
#debug("*** end test boxes");
#debug("test parameterized: int");
let eq1: eqfn<int> = inteq;
test_parameterized::<int>(eq1, 5, 72, 64, 175);
#debug("*** test parameterized: @int");
let eq2: eqfn<@int> = intboxeq;
test_parameterized::<@int>(eq2, @5, @72, @64, @175);
#debug("*** end test parameterized @int");
#debug("test parameterized: taggy");
let eq3: eqfn<taggy> = taggyeq;
test_parameterized::<taggy>(eq3, one(1), two(1, 2), three(1, 2, 3),
two(17, 42));
#debug("*** test parameterized: taggypar<int>");
let eq4: eqfn<taggypar<int>> = bind taggypareq::<int>(_, _);
test_parameterized::<taggypar<int>>(eq4, onepar::<int>(1),
twopar::<int>(1, 2),
threepar::<int>(1, 2, 3),
twopar::<int>(17, 42));
#debug("*** end test parameterized: taggypar::<int>");
#debug("*** test parameterized: reccy");
let reccy1: reccy = {x: 1, y: 2, t: one(1)};
let reccy2: reccy = {x: 345, y: 2, t: two(1, 2)};
let reccy3: reccy = {x: 1, y: 777, t: three(1, 2, 3)};
let reccy4: reccy = {x: 19, y: 252, t: two(17, 42)};
let eq5: eqfn<reccy> = reccyeq;
test_parameterized::<reccy>(eq5, reccy1, reccy2, reccy3, reccy4);
#debug("*** end test parameterized: reccy");
#debug("*** done");
}
}