mirror of
https://github.com/rust-lang/rust.git
synced 2026-05-07 17:18:32 +03:00
Niko Matsakis
501 lines
11 KiB
Rust
501 lines
11 KiB
Rust
import core::*;
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import vec;
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import vec::*;
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import option;
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import option::none;
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import option::some;
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import task;
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fn square(n: uint) -> uint { ret n * n; }
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fn square_ref(&&n: uint) -> uint { ret n * n; }
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pure fn is_three(&&n: uint) -> bool { ret n == 3u; }
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pure fn is_odd(&&n: uint) -> bool { ret n % 2u == 1u; }
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fn square_if_odd(&&n: uint) -> option::t<uint> {
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ret if n % 2u == 1u { some(n * n) } else { none };
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}
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fn add(&&x: uint, &&y: uint) -> uint { ret x + y; }
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#[test]
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fn test_unsafe_ptrs() unsafe {
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// Test on-stack copy-from-buf.
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let a = [1, 2, 3];
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let ptr = vec::to_ptr(a);
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let b = vec::unsafe::from_buf(ptr, 3u);
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assert (vec::len(b) == 3u);
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assert (b[0] == 1);
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assert (b[1] == 2);
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assert (b[2] == 3);
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// Test on-heap copy-from-buf.
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let c = [1, 2, 3, 4, 5];
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ptr = vec::to_ptr(c);
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let d = vec::unsafe::from_buf(ptr, 5u);
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assert (vec::len(d) == 5u);
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assert (d[0] == 1);
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assert (d[1] == 2);
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assert (d[2] == 3);
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assert (d[3] == 4);
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assert (d[4] == 5);
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}
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#[test]
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fn test_init_fn() {
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// Test on-stack init_fn.
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let v = vec::init_fn(square, 3u);
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assert (vec::len(v) == 3u);
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assert (v[0] == 0u);
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assert (v[1] == 1u);
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assert (v[2] == 4u);
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// Test on-heap init_fn.
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v = vec::init_fn(square, 5u);
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assert (vec::len(v) == 5u);
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assert (v[0] == 0u);
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assert (v[1] == 1u);
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assert (v[2] == 4u);
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assert (v[3] == 9u);
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assert (v[4] == 16u);
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}
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#[test]
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fn test_init_elt() {
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// Test on-stack init_elt.
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let v = vec::init_elt(10u, 2u);
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assert (vec::len(v) == 2u);
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assert (v[0] == 10u);
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assert (v[1] == 10u);
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// Test on-heap init_elt.
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v = vec::init_elt(20u, 6u);
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assert (v[0] == 20u);
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assert (v[1] == 20u);
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assert (v[2] == 20u);
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assert (v[3] == 20u);
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assert (v[4] == 20u);
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assert (v[5] == 20u);
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}
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#[test]
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fn test_is_empty() {
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assert (vec::is_empty::<int>([]));
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assert (!vec::is_empty([0]));
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}
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#[test]
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fn test_is_not_empty() {
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assert (vec::is_not_empty([0]));
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assert (!vec::is_not_empty::<int>([]));
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}
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#[test]
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fn test_head() {
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let a = [11, 12];
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check (vec::is_not_empty(a));
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assert (vec::head(a) == 11);
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}
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#[test]
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fn test_tail() {
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let a = [11];
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check (vec::is_not_empty(a));
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assert (vec::tail(a) == []);
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a = [11, 12];
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check (vec::is_not_empty(a));
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assert (vec::tail(a) == [12]);
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}
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#[test]
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fn test_last() {
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let n = vec::last([]);
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assert (n == none);
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n = vec::last([1, 2, 3]);
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assert (n == some(3));
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n = vec::last([1, 2, 3, 4, 5]);
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assert (n == some(5));
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}
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#[test]
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fn test_slice() {
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// Test on-stack -> on-stack slice.
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let v = vec::slice([1, 2, 3], 1u, 3u);
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assert (vec::len(v) == 2u);
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assert (v[0] == 2);
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assert (v[1] == 3);
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// Test on-heap -> on-stack slice.
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v = vec::slice([1, 2, 3, 4, 5], 0u, 3u);
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assert (vec::len(v) == 3u);
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assert (v[0] == 1);
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assert (v[1] == 2);
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assert (v[2] == 3);
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// Test on-heap -> on-heap slice.
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v = vec::slice([1, 2, 3, 4, 5, 6], 1u, 6u);
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assert (vec::len(v) == 5u);
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assert (v[0] == 2);
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assert (v[1] == 3);
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assert (v[2] == 4);
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assert (v[3] == 5);
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assert (v[4] == 6);
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}
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#[test]
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fn test_pop() {
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// Test on-stack pop.
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let v = [1, 2, 3];
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let e = vec::pop(v);
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assert (vec::len(v) == 2u);
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assert (v[0] == 1);
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assert (v[1] == 2);
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assert (e == 3);
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// Test on-heap pop.
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v = [1, 2, 3, 4, 5];
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e = vec::pop(v);
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assert (vec::len(v) == 4u);
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assert (v[0] == 1);
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assert (v[1] == 2);
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assert (v[2] == 3);
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assert (v[3] == 4);
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assert (e == 5);
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}
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#[test]
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fn test_grow() {
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// Test on-stack grow().
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let v = [];
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vec::grow(v, 2u, 1);
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assert (vec::len(v) == 2u);
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assert (v[0] == 1);
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assert (v[1] == 1);
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// Test on-heap grow().
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vec::grow(v, 3u, 2);
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assert (vec::len(v) == 5u);
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assert (v[0] == 1);
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assert (v[1] == 1);
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assert (v[2] == 2);
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assert (v[3] == 2);
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assert (v[4] == 2);
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}
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#[test]
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fn test_grow_fn() {
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let v = [];
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vec::grow_fn(v, 3u, square);
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assert (vec::len(v) == 3u);
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assert (v[0] == 0u);
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assert (v[1] == 1u);
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assert (v[2] == 4u);
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}
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#[test]
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fn test_grow_set() {
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let v = [mutable 1, 2, 3];
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vec::grow_set(v, 4u, 4, 5);
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assert (vec::len(v) == 5u);
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assert (v[0] == 1);
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assert (v[1] == 2);
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assert (v[2] == 3);
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assert (v[3] == 4);
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assert (v[4] == 5);
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}
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#[test]
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fn test_map() {
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// Test on-stack map.
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let v = [1u, 2u, 3u];
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let w = vec::map(v, square_ref);
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assert (vec::len(w) == 3u);
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assert (w[0] == 1u);
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assert (w[1] == 4u);
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assert (w[2] == 9u);
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// Test on-heap map.
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v = [1u, 2u, 3u, 4u, 5u];
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w = vec::map(v, square_ref);
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assert (vec::len(w) == 5u);
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assert (w[0] == 1u);
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assert (w[1] == 4u);
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assert (w[2] == 9u);
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assert (w[3] == 16u);
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assert (w[4] == 25u);
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}
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#[test]
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fn test_map2() {
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fn times(&&x: int, &&y: int) -> int { ret x * y; }
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let f = times;
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let v0 = [1, 2, 3, 4, 5];
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let v1 = [5, 4, 3, 2, 1];
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let u = vec::map2::<int, int, int>(v0, v1, f);
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let i = 0;
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while i < 5 { assert (v0[i] * v1[i] == u[i]); i += 1; }
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}
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#[test]
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fn test_filter_map() {
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// Test on-stack filter-map.
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let v = [1u, 2u, 3u];
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let w = vec::filter_map(v, square_if_odd);
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assert (vec::len(w) == 2u);
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assert (w[0] == 1u);
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assert (w[1] == 9u);
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// Test on-heap filter-map.
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v = [1u, 2u, 3u, 4u, 5u];
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w = vec::filter_map(v, square_if_odd);
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assert (vec::len(w) == 3u);
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assert (w[0] == 1u);
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assert (w[1] == 9u);
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assert (w[2] == 25u);
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fn halve(&&i: int) -> option::t<int> {
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if i % 2 == 0 {
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ret option::some::<int>(i / 2);
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} else { ret option::none::<int>; }
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}
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fn halve_for_sure(&&i: int) -> int { ret i / 2; }
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let all_even: [int] = [0, 2, 8, 6];
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let all_odd1: [int] = [1, 7, 3];
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let all_odd2: [int] = [];
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let mix: [int] = [9, 2, 6, 7, 1, 0, 0, 3];
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let mix_dest: [int] = [1, 3, 0, 0];
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assert (filter_map(all_even, halve) == map(all_even, halve_for_sure));
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assert (filter_map(all_odd1, halve) == []);
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assert (filter_map(all_odd2, halve) == []);
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assert (filter_map(mix, halve) == mix_dest);
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}
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#[test]
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fn test_filter() {
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assert filter([1u, 2u, 3u], is_odd) == [1u, 3u];
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assert filter([1u, 2u, 4u, 8u, 16u], is_three) == [];
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}
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#[test]
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fn test_foldl() {
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// Test on-stack fold.
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let v = [1u, 2u, 3u];
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let sum = vec::foldl(0u, v, add);
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assert (sum == 6u);
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// Test on-heap fold.
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v = [1u, 2u, 3u, 4u, 5u];
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sum = vec::foldl(0u, v, add);
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assert (sum == 15u);
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}
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#[test]
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fn test_foldl2() {
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fn sub(&&a: int, &&b: int) -> int {
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a - b
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}
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let v = [1, 2, 3, 4];
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let sum = vec::foldl(0, v, sub);
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assert sum == -10;
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}
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#[test]
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fn test_foldr() {
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fn sub(&&a: int, &&b: int) -> int {
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a - b
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}
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let v = [1, 2, 3, 4];
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let sum = vec::foldr(v, 0, sub);
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assert sum == -2;
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}
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#[test]
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fn iter_empty() {
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let i = 0;
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vec::iter::<int>([], { |_v| i += 1 });
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assert i == 0;
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}
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#[test]
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fn iter_nonempty() {
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let i = 0;
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vec::iter([1, 2, 3], { |v| i += v });
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assert i == 6;
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}
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#[test]
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fn iteri() {
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let i = 0;
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vec::iteri([1, 2, 3], { |j, v|
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if i == 0 { assert v == 1; }
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assert j + 1u == v as uint;
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i += v;
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});
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assert i == 6;
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}
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#[test]
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fn riter_empty() {
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let i = 0;
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vec::riter::<int>([], { |_v| i += 1 });
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assert i == 0;
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}
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#[test]
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fn riter_nonempty() {
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let i = 0;
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vec::riter([1, 2, 3], { |v|
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if i == 0 { assert v == 3; }
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i += v
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});
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assert i == 6;
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}
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#[test]
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fn riteri() {
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let i = 0;
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vec::riteri([0, 1, 2], { |j, v|
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if i == 0 { assert v == 2; }
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assert j == v as uint;
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i += v;
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});
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assert i == 3;
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}
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#[test]
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fn test_permute() {
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let results: [[int]];
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results = [];
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permute([]) {|v| results += [v]; }
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assert results == [[]];
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results = [];
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permute([7]) {|v| results += [v]; }
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assert results == [[7]];
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results = [];
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permute([1,1]) {|v| results += [v]; }
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assert results == [[1,1],[1,1]];
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results = [];
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permute([5,2,0]) {|v| results += [v]; }
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assert results == [[5,2,0],[5,0,2],[2,5,0],[2,0,5],[0,5,2],[0,2,5]];
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}
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#[test]
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fn test_any_and_all() {
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assert (vec::any([1u, 2u, 3u], is_three));
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assert (!vec::any([0u, 1u, 2u], is_three));
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assert (vec::any([1u, 2u, 3u, 4u, 5u], is_three));
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assert (!vec::any([1u, 2u, 4u, 5u, 6u], is_three));
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assert (vec::all([3u, 3u, 3u], is_three));
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assert (!vec::all([3u, 3u, 2u], is_three));
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assert (vec::all([3u, 3u, 3u, 3u, 3u], is_three));
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assert (!vec::all([3u, 3u, 0u, 1u, 2u], is_three));
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}
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#[test]
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fn test_zip_unzip() {
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let v1 = [1, 2, 3];
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let v2 = [4, 5, 6];
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check (same_length(v1, v2)); // Silly, but what else can we do?
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let z1 = vec::zip(v1, v2);
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assert ((1, 4) == z1[0]);
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assert ((2, 5) == z1[1]);
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assert ((3, 6) == z1[2]);
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let (left, right) = vec::unzip(z1);
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assert ((1, 4) == (left[0], right[0]));
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assert ((2, 5) == (left[1], right[1]));
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assert ((3, 6) == (left[2], right[2]));
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}
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#[test]
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fn test_position() {
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let v1: [int] = [1, 2, 3, 3, 2, 5];
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assert (position(1, v1) == option::some::<uint>(0u));
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assert (position(2, v1) == option::some::<uint>(1u));
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assert (position(5, v1) == option::some::<uint>(5u));
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assert (position(4, v1) == option::none::<uint>);
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}
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#[test]
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fn test_position_pred() {
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fn less_than_three(&&i: int) -> bool { ret i < 3; }
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fn is_eighteen(&&i: int) -> bool { ret i == 18; }
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let v1: [int] = [5, 4, 3, 2, 1];
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assert (position_pred(v1, less_than_three) == option::some::<uint>(3u));
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assert (position_pred(v1, is_eighteen) == option::none::<uint>);
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}
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#[test]
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fn reverse_and_reversed() {
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let v: [mutable int] = [mutable 10, 20];
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assert (v[0] == 10);
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assert (v[1] == 20);
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vec::reverse(v);
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assert (v[0] == 20);
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assert (v[1] == 10);
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let v2 = vec::reversed::<int>([10, 20]);
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assert (v2[0] == 20);
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assert (v2[1] == 10);
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v[0] = 30;
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assert (v2[0] == 20);
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// Make sure they work with 0-length vectors too.
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let v4 = vec::reversed::<int>([]);
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assert (v4 == []);
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let v3: [mutable int] = [mutable];
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vec::reverse::<int>(v3);
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}
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#[test]
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fn reversed_mut() {
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let v2 = vec::reversed::<int>([mutable 10, 20]);
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assert (v2[0] == 20);
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assert (v2[1] == 10);
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}
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#[test]
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fn init() {
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let v = vec::init([1, 2, 3]);
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assert v == [1, 2];
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}
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#[test]
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// FIXME: Windows can't undwind
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#[ignore(cfg(target_os = "win32"))]
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fn init_empty() {
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let r = task::join(
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task::spawn_joinable((), fn (&&_i: ()) {
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task::unsupervise();
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vec::init::<int>([]);
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}));
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assert r == task::tr_failure
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}
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#[test]
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fn concat() {
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assert vec::concat([[1], [2,3]]) == [1, 2, 3];
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}
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// Local Variables:
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// mode: rust;
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// fill-column: 78;
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// indent-tabs-mode: nil
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// c-basic-offset: 4
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// buffer-file-coding-system: utf-8-unix
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// End:
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