rust/src/libstd/deque.rs

//! A deque. Untested as of yet. Likely buggy

import option::{Some, None};
import dvec::DVec;

trait Deque<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;
}

// FIXME (#2343) eventually, a proper datatype plus an exported impl would
// be preferrable.
fn create<T: copy>() -> Deque<T> {
    type Cell<T> = Option<T>;

    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: ~[mut Cell<T>]) ->
       ~[mut Cell<T>] {
        assert (nelts == vec::len(elts));
        let mut rv = ~[mut];

        let mut i = 0u;
        let nalloc = uint::next_power_of_two(nelts + 1u);
        while i < nalloc {
            if i < nelts {
                vec::push(rv, elts[(lo + i) % nelts]);
            } else { vec::push(rv, None); }
            i += 1u;
        }

        return rv;
    }
    fn get<T: copy>(elts: DVec<Cell<T>>, i: uint) -> T {
        match elts.get_elt(i) { Some(t) => t, _ => fail }
    }

    type Repr<T> = {mut nelts: uint,
                    mut lo: uint,
                    mut hi: uint,
                    elts: DVec<Cell<T>>};

    impl <T: copy> Repr<T>: Deque<T> {
        fn size() -> uint { return self.nelts; }
        fn add_front(t: T) {
            let oldlo: uint = self.lo;
            if self.lo == 0u {
                self.lo = self.elts.len() - 1u;
            } else { self.lo -= 1u; }
            if self.lo == self.hi {
                self.elts.swap(|v| grow(self.nelts, oldlo, v));
                self.lo = self.elts.len() - 1u;
                self.hi = self.nelts;
            }
            self.elts.set_elt(self.lo, Some(t));
            self.nelts += 1u;
        }
        fn add_back(t: T) {
            if self.lo == self.hi && self.nelts != 0u {
                self.elts.swap(|v| grow(self.nelts, self.lo, v));
                self.lo = 0u;
                self.hi = self.nelts;
            }
            self.elts.set_elt(self.hi, Some(t));
            self.hi = (self.hi + 1u) % self.elts.len();
            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 {
            let t: T = get(self.elts, self.lo);
            self.elts.set_elt(self.lo, None);
            self.lo = (self.lo + 1u) % self.elts.len();
            self.nelts -= 1u;
            return t;
        }
        fn pop_back() -> T {
            if self.hi == 0u {
                self.hi = self.elts.len() - 1u;
            } else { self.hi -= 1u; }
            let t: T = get(self.elts, self.hi);
            self.elts.set_elt(self.hi, None);
            self.nelts -= 1u;
            return t;
        }
        fn peek_front() -> T { return get(self.elts, self.lo); }
        fn peek_back() -> T { return get(self.elts, self.hi - 1u); }
        fn get(i: int) -> T {
            let idx = (self.lo + (i as uint)) % self.elts.len();
            return get(self.elts, idx);
        }
    }

    let repr: Repr<T> = {
        mut nelts: 0u,
        mut lo: 0u,
        mut hi: 0u,
        elts:
            dvec::from_vec(
                vec::to_mut(
                    vec::from_elem(initial_capacity, None)))
    };
    repr as Deque::<T>
}

#[cfg(test)]
mod tests {
    #[test]
    fn test_simple() {
        let d: deque::Deque<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();
        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::Deque<@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 owned>(
        e: EqFn<T>, a: T, b: T, c: T, d: T) {

        let deq: deque::Deque<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));
    }

    enum Taggy { One(int), Two(int, int), Three(int, int, int), }

    enum Taggypar<T> {
        Onepar(int), Twopar(int, int), Threepar(int, int, int),
    }

    type RecCy = {x: int, y: int, t: Taggy};

    #[test]
    fn test() {
        fn inteq(&&a: int, &&b: int) -> bool { return a == b; }
        fn intboxeq(&&a: @int, &&b: @int) -> bool { return a == b; }
        fn taggyeq(a: Taggy, b: Taggy) -> bool {
            match a {
              One(a1) => match b {
                One(b1) => return a1 == b1,
                _ => return false
              },
              Two(a1, a2) => match b {
                Two(b1, b2) => return a1 == b1 && a2 == b2,
                _ => return false
              },
              Three(a1, a2, a3) => match b {
                Three(b1, b2, b3) => return a1 == b1 && a2 == b2 && a3 == b3,
                _ => return false
              }
            }
        }
        fn taggypareq<T>(a: Taggypar<T>, b: Taggypar<T>) -> bool {
            match a {
              Onepar::<T>(a1) => match b {
                Onepar::<T>(b1) => return a1 == b1,
                _ => return false
              },
              Twopar::<T>(a1, a2) => match b {
                Twopar::<T>(b1, b2) => return a1 == b1 && a2 == b2,
                _ => return false
              },
              Threepar::<T>(a1, a2, a3) => match b {
                Threepar::<T>(b1, b2, b3) => {
                    return a1 == b1 && a2 == b2 && a3 == b3
                }
                _ => return false
              }
            }
        }
        fn reccyeq(a: RecCy, b: RecCy) -> bool {
            return 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>> = |x,y| taggypareq::<int>(x, y);
        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");
    }
}
convert doc-attributes to doc-comments using ./src/etc/sugarise-doc-comments.py (and manually tweaking) - for issue #2498 2012-07-04 16:53:12 -05:00			`//! A deque. Untested as of yet. Likely buggy`
Add a (coarse, first-pass) deque implementation to stdlib. 2010-07-20 20:03:09 -05:00
Camel case the option type 2012-08-20 14:23:37 -05:00			`import option::{Some, None};`
Camel case various core constructors 2012-08-27 16:22:25 -05:00			`import dvec::DVec;`
Add a (coarse, first-pass) deque implementation to stdlib. 2010-07-20 20:03:09 -05:00
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`trait Deque<T> {`
Begin documenting std and add doc generation using naturaldocs Naturaldocs isn't really that great but it seems easier to get something working than with doxygen, for which we would need to convert rust code to something C++ish. We probably want to just write a rustdoc utility at some point. 2011-10-24 17:25:41 -05:00			`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;`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`}`
Add a (coarse, first-pass) deque implementation to stdlib. 2010-07-20 20:03:09 -05:00
Tag all remaining FIXMEs with bugs. Install rule in tidy script to enforce this. 2012-06-21 18:44:10 -05:00			`// FIXME (#2343) eventually, a proper datatype plus an exported impl would`
			`// be preferrable.`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`fn create<T: copy>() -> Deque<T> {`
			`type Cell<T> = Option<T>;`
Add a (coarse, first-pass) deque implementation to stdlib. 2010-07-20 20:03:09 -05:00
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let initial_capacity: uint = 32u; // 2^5`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00			`/**`
			`* Grow is only called on full elts, so nelts is also len(elts), unlike`
			`* elsewhere.`
			`*/`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`fn grow<T: copy>(nelts: uint, lo: uint, -elts: ~[mut Cell<T>]) ->`
			`~[mut Cell<T>] {`
Rename std::ivec to std::vec 2011-08-15 18:38:23 -05:00			`assert (nelts == vec::len(elts));`
Switch the compiler over to using ~[] notation instead of []/~. Closes #2759. 2012-06-29 18:26:56 -05:00			`let mut rv = ~[mut];`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00
annotate libstd and start enforcing mutability 2012-03-14 13:03:56 -05:00			`let mut i = 0u;`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let nalloc = uint::next_power_of_two(nelts + 1u);`
			`while i < nalloc {`
			`if i < nelts {`
Move vector addition out of trans and into libcore. 2012-06-13 18:14:01 -05:00			`vec::push(rv, elts[(lo + i) % nelts]);`
Camel case the option type 2012-08-20 14:23:37 -05:00			`} else { vec::push(rv, None); }`
stdlib: Switch lib::deque over to interior vectors 2011-07-12 16:20:15 -05:00			`i += 1u;`
Reformat standard library; no code changes. 2010-09-22 17:44:13 -05:00			`}`
stdlib: Switch lib::deque over to interior vectors 2011-07-12 16:20:15 -05:00
Convert ret to return 2012-08-01 19:30:05 -05:00			`return rv;`
Add a (coarse, first-pass) deque implementation to stdlib. 2010-07-20 20:03:09 -05:00			`}`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`fn get<T: copy>(elts: DVec<Cell<T>>, i: uint) -> T {`
Camel case the option type 2012-08-20 14:23:37 -05:00			`match elts.get_elt(i) { Some(t) => t, _ => fail }`
Add a (coarse, first-pass) deque implementation to stdlib. 2010-07-20 20:03:09 -05:00			`}`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`type Repr<T> = {mut nelts: uint,`
Bulk-edit mutable -> mut. 2012-03-26 20:35:18 -05:00			`mut lo: uint,`
			`mut hi: uint,`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`elts: DVec<Cell<T>>};`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`impl <T: copy> Repr<T>: Deque<T> {`
Convert ret to return 2012-08-01 19:30:05 -05:00			`fn size() -> uint { return self.nelts; }`
Reformat for new mode syntax, step 1 Long lines were fixed in a very crude way, as I'll be following up with another reformat in a bit. 2011-09-12 04:27:30 -05:00			`fn add_front(t: T) {`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`let oldlo: uint = self.lo;`
			`if self.lo == 0u {`
Rewrite deque to use dvec 2012-06-03 09:36:01 -05:00			`self.lo = self.elts.len() - 1u;`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`} else { self.lo -= 1u; }`
			`if self.lo == self.hi {`
Convert to new closure syntax 2012-06-30 18:19:07 -05:00			`self.elts.swap(\|v\| grow(self.nelts, oldlo, v));`
Rewrite deque to use dvec 2012-06-03 09:36:01 -05:00			`self.lo = self.elts.len() - 1u;`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`self.hi = self.nelts;`
Reformat standard library; no code changes. 2010-09-22 17:44:13 -05:00			`}`
Camel case the option type 2012-08-20 14:23:37 -05:00			`self.elts.set_elt(self.lo, Some(t));`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`self.nelts += 1u;`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00			`}`
Reformat for new mode syntax, step 1 Long lines were fixed in a very crude way, as I'll be following up with another reformat in a bit. 2011-09-12 04:27:30 -05:00			`fn add_back(t: T) {`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`if self.lo == self.hi && self.nelts != 0u {`
Convert to new closure syntax 2012-06-30 18:19:07 -05:00			`self.elts.swap(\|v\| grow(self.nelts, self.lo, v));`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`self.lo = 0u;`
			`self.hi = self.nelts;`
Reformat standard library; no code changes. 2010-09-22 17:44:13 -05:00			`}`
Camel case the option type 2012-08-20 14:23:37 -05:00			`self.elts.set_elt(self.hi, Some(t));`
Rewrite deque to use dvec 2012-06-03 09:36:01 -05:00			`self.hi = (self.hi + 1u) % self.elts.len();`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`self.nelts += 1u;`
Reformat standard library; no code changes. 2010-09-22 17:44:13 -05:00			`}`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00			`/**`
			`* 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 {`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`let t: T = get(self.elts, self.lo);`
Camel case the option type 2012-08-20 14:23:37 -05:00			`self.elts.set_elt(self.lo, None);`
Rewrite deque to use dvec 2012-06-03 09:36:01 -05:00			`self.lo = (self.lo + 1u) % self.elts.len();`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`self.nelts -= 1u;`
Convert ret to return 2012-08-01 19:30:05 -05:00			`return t;`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00			`}`
			`fn pop_back() -> T {`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`if self.hi == 0u {`
Rewrite deque to use dvec 2012-06-03 09:36:01 -05:00			`self.hi = self.elts.len() - 1u;`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`} else { self.hi -= 1u; }`
			`let t: T = get(self.elts, self.hi);`
Camel case the option type 2012-08-20 14:23:37 -05:00			`self.elts.set_elt(self.hi, None);`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`self.nelts -= 1u;`
Convert ret to return 2012-08-01 19:30:05 -05:00			`return t;`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00			`}`
Convert ret to return 2012-08-01 19:30:05 -05:00			`fn peek_front() -> T { return get(self.elts, self.lo); }`
			`fn peek_back() -> T { return get(self.elts, self.hi - 1u); }`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn get(i: int) -> T {`
Rewrite deque to use dvec 2012-06-03 09:36:01 -05:00			`let idx = (self.lo + (i as uint)) % self.elts.len();`
Convert ret to return 2012-08-01 19:30:05 -05:00			`return get(self.elts, idx);`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00			`}`
			`}`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`let repr: Repr<T> = {`
Bulk-edit mutable -> mut. 2012-03-26 20:35:18 -05:00			`mut nelts: 0u,`
			`mut lo: 0u,`
			`mut hi: 0u,`
Rewrite deque to use dvec 2012-06-03 09:36:01 -05:00			`elts:`
			`dvec::from_vec(`
			`vec::to_mut(`
Camel case the option type 2012-08-20 14:23:37 -05:00			`vec::from_elem(initial_capacity, None)))`
Convert std::deque over to an iface 2012-01-11 05:49:33 -06:00			`};`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`repr as Deque::<T>`
Add a (coarse, first-pass) deque implementation to stdlib. 2010-07-20 20:03:09 -05:00			`}`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00
			`#[cfg(test)]`
			`mod tests {`
			`#[test]`
			`fn test_simple() {`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`let d: deque::Deque<int> = deque::create::<int>();`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`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);`
make --enforce-mut-vars always on, add mut annotations to remaining files 2012-03-22 10:39:41 -05:00			`let mut i: int = d.pop_front();`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`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) {`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`let deq: deque::Deque<@int> = deque::create::<@int>();`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`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);`
			`}`

CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`type EqFn<T> = fn@(T, T) -> bool;`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00
prevent regions from escaping in ifaces; remove &r.T syntax 2012-07-18 13:01:54 -05:00			`fn test_parameterized<T: copy owned>(`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`e: EqFn<T>, a: T, b: T, c: T, d: T) {`
prevent regions from escaping in ifaces; remove &r.T syntax 2012-07-18 13:01:54 -05:00
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`let deq: deque::Deque<T> = deque::create::<T>();`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`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));`
			`}`

CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`enum Taggy { One(int), Two(int, int), Three(int, int, int), }`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`enum Taggypar<T> {`
			`Onepar(int), Twopar(int, int), Threepar(int, int, int),`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`}`

CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`type RecCy = {x: int, y: int, t: Taggy};`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00
			`#[test]`
			`fn test() {`
Convert ret to return 2012-08-01 19:30:05 -05:00			`fn inteq(&&a: int, &&b: int) -> bool { return a == b; }`
			`fn intboxeq(&&a: @int, &&b: @int) -> bool { return a == b; }`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`fn taggyeq(a: Taggy, b: Taggy) -> bool {`
Convert alt to match. Stop parsing alt 2012-08-06 14:34:08 -05:00			`match a {`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`One(a1) => match b {`
			`One(b1) => return a1 == b1,`
Switch alts to use arrows 2012-08-03 21:59:04 -05:00			`_ => return false`
syntax: Make match arm parsing more restrictive again Require comma separators for all expression types except the plain block 2012-08-06 19:14:32 -05:00			`},`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`Two(a1, a2) => match b {`
			`Two(b1, b2) => return a1 == b1 && a2 == b2,`
Switch alts to use arrows 2012-08-03 21:59:04 -05:00			`_ => return false`
syntax: Make match arm parsing more restrictive again Require comma separators for all expression types except the plain block 2012-08-06 19:14:32 -05:00			`},`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`Three(a1, a2, a3) => match b {`
			`Three(b1, b2, b3) => return a1 == b1 && a2 == b2 && a3 == b3,`
Switch alts to use arrows 2012-08-03 21:59:04 -05:00			`_ => return false`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`}`
			`}`
			`}`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`fn taggypareq<T>(a: Taggypar<T>, b: Taggypar<T>) -> bool {`
Convert alt to match. Stop parsing alt 2012-08-06 14:34:08 -05:00			`match a {`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`Onepar::<T>(a1) => match b {`
			`Onepar::<T>(b1) => return a1 == b1,`
Switch alts to use arrows 2012-08-03 21:59:04 -05:00			`_ => return false`
syntax: Make match arm parsing more restrictive again Require comma separators for all expression types except the plain block 2012-08-06 19:14:32 -05:00			`},`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`Twopar::<T>(a1, a2) => match b {`
			`Twopar::<T>(b1, b2) => return a1 == b1 && a2 == b2,`
Switch alts to use arrows 2012-08-03 21:59:04 -05:00			`_ => return false`
syntax: Make match arm parsing more restrictive again Require comma separators for all expression types except the plain block 2012-08-06 19:14:32 -05:00			`},`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`Threepar::<T>(a1, a2, a3) => match b {`
			`Threepar::<T>(b1, b2, b3) => {`
Switch alts to use arrows 2012-08-03 21:59:04 -05:00			`return a1 == b1 && a2 == b2 && a3 == b3`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`}`
Switch alts to use arrows 2012-08-03 21:59:04 -05:00			`_ => return false`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`}`
			`}`
			`}`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`fn reccyeq(a: RecCy, b: RecCy) -> bool {`
Convert ret to return 2012-08-01 19:30:05 -05:00			`return a.x == b.x && a.y == b.y && taggyeq(a.t, b.t);`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`}`
`m1!{...}` -> `m1!(...)` 2012-08-22 19:24:52 -05:00			`debug!("*** test boxes");`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`test_boxes(@5, @72, @64, @175);`
`m1!{...}` -> `m1!(...)` 2012-08-22 19:24:52 -05:00			`debug!("*** end test boxes");`
			`debug!("test parameterized: int");`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`let eq1: EqFn<int> = inteq;`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`test_parameterized::<int>(eq1, 5, 72, 64, 175);`
`m1!{...}` -> `m1!(...)` 2012-08-22 19:24:52 -05:00			`debug!("*** test parameterized: @int");`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`let eq2: EqFn<@int> = intboxeq;`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`test_parameterized::<@int>(eq2, @5, @72, @64, @175);`
`m1!{...}` -> `m1!(...)` 2012-08-22 19:24:52 -05:00			`debug!("*** end test parameterized @int");`
			`debug!("test parameterized: taggy");`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`let eq3: EqFn<Taggy> = taggyeq;`
			`test_parameterized::<Taggy>(eq3, One(1), Two(1, 2), Three(1, 2, 3),`
			`Two(17, 42));`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00
`m1!{...}` -> `m1!(...)` 2012-08-22 19:24:52 -05:00			`debug!("*** test parameterized: taggypar<int>");`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`let eq4: EqFn<Taggypar<int>> = \|x,y\| taggypareq::<int>(x, y);`
			`test_parameterized::<Taggypar<int>>(eq4, Onepar::<int>(1),`
			`Twopar::<int>(1, 2),`
			`Threepar::<int>(1, 2, 3),`
			`Twopar::<int>(17, 42));`
`m1!{...}` -> `m1!(...)` 2012-08-22 19:24:52 -05:00			`debug!("*** end test parameterized: taggypar::<int>");`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00
`m1!{...}` -> `m1!(...)` 2012-08-22 19:24:52 -05:00			`debug!("*** test parameterized: reccy");`
CamelCasify lots of std 2012-08-11 09:08:42 -05:00			`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);`
`m1!{...}` -> `m1!(...)` 2012-08-22 19:24:52 -05:00			`debug!("*** end test parameterized: reccy");`
			`debug!("*** done");`
libstd: Move std tests into libstd 2012-01-17 21:05:07 -06:00			`}`
Remove some bogus exports. 2012-07-03 12:52:32 -05:00			`}`