radiance · Radiance self-hosting compiler

compiler/ lib/ examples/ std/ arch/ collections/ lang/ sys/ arch.rad 65 B collections.rad 36 B fmt.rad 3.8 KiB intrinsics.rad 399 B io.rad 1.2 KiB lang.rad 222 B mem.rad 2.1 KiB sys.rad 167 B testing.rad 2.3 KiB tests.rad 11.6 KiB vec.rad 3.1 KiB std.rad 231 B scripts/ seed/ test/ vim/ .gitignore 353 B .gitsigners 112 B LICENSE 1.1 KiB Makefile 3.0 KiB README 2.5 KiB std.lib 1.0 KiB std.lib.test 252 B

lib/std/tests.rad 11.6 KiB raw

//! Tests for formatting functions.

use std::fmt;
use std::mem;
use std::vec;
use std::testing;

// Data types //////////////////////////////////////////////////////////////////

record Point {
    x: i32,
    y: i32,
}

// fmt /////////////////////////////////////////////////////////////////////////

@test fn testFormatU32Zero() throws (testing::TestError) {
    let mut buffer: [u8; 11] = [0; 11];
    let result: *[u8] = fmt::formatU32(0, &mut buffer[..]);
    try testing::expect(result.len == 1);
    try testing::expectBytesEq(result, "0");
}

@test fn testFormatU32Basic() throws (testing::TestError) {
    let mut buffer: [u8; 11] = [0; 11];
    let result: *[u8] = fmt::formatU32(123, &mut buffer[..]);
    try testing::expect(result.len == 3);
    try testing::expectBytesEq(result, "123");
}

@test fn testFormatU32Large() throws (testing::TestError) {
    let mut buffer: [u8; 11] = [0; 11];
    let result: *[u8] = fmt::formatU32(90000, &mut buffer[..]);
    try testing::expect(result.len == 5);
    try testing::expectBytesEq(result, "90000");
}

@test fn testFormatU32Max() throws (testing::TestError) {
    let mut buffer: [u8; 11] = [0; 11];
    let result: *[u8] = fmt::formatU32(4294967295, &mut buffer[..]);
    try testing::expect(result.len == 10);
    try testing::expectBytesEq(result, "4294967295");
}

@test fn testFormatI32Positive() throws (testing::TestError) {
    let mut buffer: [u8; 11] = [0; 11];
    let result: *[u8] = fmt::formatI32(456, &mut buffer[..]);
    try testing::expect(result.len == 3);
    try testing::expectBytesEq(result, "456");
}

@test fn testFormatI32Negative() throws (testing::TestError) {
    let mut buffer: [u8; 11] = [0; 11];
    let result: *[u8] = fmt::formatI32(-789, &mut buffer[..]);
    try testing::expect(result.len == 4);
    try testing::expectBytesEq(result, "-789");
}

@test fn testFormatI32Zero() throws (testing::TestError) {
    let mut buffer: [u8; 11] = [0; 11];
    let result: *[u8] = fmt::formatI32(0, &mut buffer[..]);
    try testing::expect(result.len == 1);
    try testing::expectBytesEq(result, "0");
}

@test fn testFormatI32Max() throws (testing::TestError) {
    let mut buffer: [u8; 11] = [0; 11];
    let result: *[u8] = fmt::formatI32(2147483647, &mut buffer[..]);
    try testing::expect(result.len == 10);
    try testing::expectBytesEq(result, "2147483647");
}

@test fn testFormatI32Min() throws (testing::TestError) {
    let mut buffer: [u8; 11] = [0; 11];
    let result: *[u8] = fmt::formatI32(-2147483648, &mut buffer[..]);
    try testing::expect(result.len == 11);
    try testing::expectBytesEq(result, "-2147483648");
}

@test fn testFormatU64Zero() throws (testing::TestError) {
    let mut buffer: [u8; 20] = [0; 20];
    let result: *[u8] = fmt::formatU64(0, &mut buffer[..]);
    try testing::expect(result.len == 1);
    try testing::expectBytesEq(result, "0");
}

@test fn testFormatU64Max() throws (testing::TestError) {
    let mut buffer: [u8; 20] = [0; 20];
    let result: *[u8] = fmt::formatU64(18446744073709551615, &mut buffer[..]);
    try testing::expect(result.len == 20);
    try testing::expectBytesEq(result, "18446744073709551615");
}

@test fn testFormatI64Negative() throws (testing::TestError) {
    let mut buffer: [u8; 20] = [0; 20];
    let result: *[u8] = fmt::formatI64(-9876543210, &mut buffer[..]);
    try testing::expect(result.len == 11);
    try testing::expectBytesEq(result, "-9876543210");
}

@test fn testFormatI64Min() throws (testing::TestError) {
    let mut buffer: [u8; 20] = [0; 20];
    let result: *[u8] = fmt::formatI64(-9223372036854775808, &mut buffer[..]);
    try testing::expect(result.len == 20);
    try testing::expectBytesEq(result, "-9223372036854775808");
}

// mem /////////////////////////////////////////////////////////////////////////

@test fn testCopyFullSlice() throws (testing::TestError) {
    let mut xs: [u8; 3] = [1, 2, 3];
    let mut ys: [u8; 3] = [4, 5, 6];

    try! mem::copy(&mut xs[..], &ys[..]);
    try testing::expectBytesEq(&xs[..], &ys[..]);
    try testing::expectBytesEq(&xs[..], &[4, 5, 6]);
}

@test fn testCopyPartialSlice() throws (testing::TestError) {
    let mut xs: [u8; 3] = [1, 2, 3];

    try! mem::copy(&mut xs[..2], &[8, 9]);
    try testing::expectBytesEq(&xs[..], &[8, 9, 3]);
}

@test fn testCopySingleElement() throws (testing::TestError) {
    let mut xs: [u8; 3] = [1, 2, 3];

    try! mem::copy(&mut xs[..], &[7]);
    try testing::expectBytesEq(&xs[..], &[7, 2, 3]);
}

@test fn testCopyBufferTooSmallError() throws (testing::TestError) {
    let mut xs: [u8; 2] = [1, 2];
    let ys: [u8; 3] = [4, 5, 6];

    let mut threw = false;
    try mem::copy(&mut xs[..], &ys[..]) catch {
        threw = true;
    };
    try testing::expect(threw);
}

@test fn testStripPrefixMatch() throws (testing::TestError) {
    let input: *[u8] = "hello world";
    let prefix: *[u8] = "hello";

    let result = mem::stripPrefix(prefix, input) else {
        throw testing::TestError::Failed;
    };
    try testing::expectBytesEq(result, " world");
}

@test fn testStripPrefixNoMatch() throws (testing::TestError) {
    let input: *[u8] = "hello world";
    let prefix: *[u8] = "goodbye";

    let result = mem::stripPrefix(prefix, input);
    try testing::expect(result == nil);
}

@test fn testStripPrefixEmpty() throws (testing::TestError) {
    let input: *[u8] = "hello";
    let prefix: *[u8] = "";

    let result = mem::stripPrefix(prefix, input) else {
        throw testing::TestError::Failed;
    };
    try testing::expectBytesEq(result, input);
}

@test fn testStripPrefixTooLong() throws (testing::TestError) {
    let input: *[u8] = "hi";
    let prefix: *[u8] = "hello";

    let result = mem::stripPrefix(prefix, input);
    try testing::expect(result == nil);
}

@test fn testEqMatchingSlices() throws (testing::TestError) {
    let a: *[u8] = "abc";
    let b: *[u8] = "abc";

    try testing::expect(mem::eq(a, b));
}

@test fn testEqDifferentContents() throws (testing::TestError) {
    let a: *[u8] = "abc";
    let b: *[u8] = "abd";

    try testing::expectNot(mem::eq(a, b));
}

@test fn testEqDifferentLengths() throws (testing::TestError) {
    let a: *[u8] = "abc";
    let b: *[u8] = "abcd";

    try testing::expectNot(mem::eq(a, b));
}

@test fn testEqEmptySlices() throws (testing::TestError) {
    let a: *[u8] = "";
    let b: *[u8] = "";

    try testing::expect(mem::eq(a, b));
}

@test fn testCmpEqualSlices() throws (testing::TestError) {
    try testing::expect(mem::cmp("abc", "abc") == 0);
}

@test fn testCmpLessThanByContent() throws (testing::TestError) {
    try testing::expect(mem::cmp("abc", "abd") < 0);
}

@test fn testCmpGreaterThanByContent() throws (testing::TestError) {
    try testing::expect(mem::cmp("abd", "abc") > 0);
}

@test fn testCmpPrefixOrdering() throws (testing::TestError) {
    try testing::expect(mem::cmp("abc", "abcd") < 0);
    try testing::expect(mem::cmp("abcd", "abc") > 0);
}

// vec /////////////////////////////////////////////////////////////////////////

@test fn testVecInitialState() throws (testing::TestError) {
    let mut arena: [u8; 16] align(4) = undefined;
    let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));

    try testing::expect(vec::len(&v) == 0);
    try testing::expect(vec::capacity(&v) == 4);
}

@test fn testVecPushAndGet() throws (testing::TestError) {
    let mut arena: [u8; 16] align(4) = undefined;
    let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));

    let val1: i32 = 42;
    try testing::expect(vec::push(&mut v, &val1));
    try testing::expect(vec::len(&v) == 1);

    let ptr = vec::get(&v, 0) else {
        throw testing::TestError::Failed;
    };
    let i32ptr: *i32 = ptr as *i32;
    let value: i32 = *i32ptr;
    try testing::expect(value == 42);
}

@test fn testVecPushPop() throws (testing::TestError) {
    let mut arena: [u8; 16] align(4) = undefined;
    let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));

    let val1: i32 = 42;
    let val2: i32 = 100;
    let val3: i32 = -5;

    try testing::expect(vec::push(&mut v, &val1));
    try testing::expect(vec::len(&v) == 1);

    try testing::expect(vec::push(&mut v, &val2));
    try testing::expect(vec::len(&v) == 2);

    try testing::expect(vec::push(&mut v, &val3));
    try testing::expect(vec::len(&v) == 3);

    let mut popped: i32 = 0;

    try testing::expect(vec::pop(&mut v, &mut popped));
    try testing::expect(popped == -5);
    try testing::expect(vec::len(&v) == 2);

    try testing::expect(vec::pop(&mut v, &mut popped));
    try testing::expect(popped == 100);
    try testing::expect(vec::len(&v) == 1);

    try testing::expect(vec::pop(&mut v, &mut popped));
    try testing::expect(popped == 42);
    try testing::expect(vec::len(&v) == 0);

    try testing::expectNot(vec::pop(&mut v, &mut popped));
}

@test fn testVecGetSet() throws (testing::TestError) {
    let mut arena: [u8; 32] align(4) = undefined;
    let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));

    let val1: i32 = 10;
    let val2: i32 = 20;
    let val3: i32 = 30;

    vec::push(&mut v, &val1);
    vec::push(&mut v, &val2);
    vec::push(&mut v, &val3);

    if let ptr = vec::get(&v, 0) {
        let value: i32 = *(ptr as *i32);
        try testing::expect(value == 10);
    } else {
        throw testing::TestError::Failed;
    }

    if let ptr = vec::get(&v, 1) {
        let value: i32 = *(ptr as *i32);
        try testing::expect(value == 20);
    } else {
        throw testing::TestError::Failed;
    }

    if let ptr = vec::get(&v, 2) {
        let value: i32 = *(ptr as *i32);
        try testing::expect(value == 30);
    } else {
        throw testing::TestError::Failed;
    }
    try testing::expect(vec::get(&v, 3) == nil);

    let new: i32 = 999;
    try testing::expect(vec::set(&mut v, 1, &new));

    if let ptr = vec::get(&v, 1) {
        let value: i32 = *(ptr as *i32);
        try testing::expect(value == 999);
    } else {
        throw testing::TestError::Failed;
    }
    try testing::expectNot(vec::set(&mut v, 5, &new));
}

@test fn testVecCapacity() throws (testing::TestError) {
    let mut arena: [u8; 16] align(4) = undefined;
    let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));

    let val: i32 = 7;
    try testing::expect(vec::push(&mut v, &val));
    try testing::expect(vec::push(&mut v, &val));
    try testing::expect(vec::push(&mut v, &val));
    try testing::expect(vec::push(&mut v, &val));
    try testing::expect(vec::len(&v) == 4);

    try testing::expectNot(vec::push(&mut v, &val));
    try testing::expect(vec::len(&v) == 4);
}

@test fn testVecReset() throws (testing::TestError) {
    let mut arena: [u8; 16] align(4) = undefined;
    let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));

    let val: i32 = 123;
    vec::push(&mut v, &val);
    vec::push(&mut v, &val);
    try testing::expect(vec::len(&v) == 2);

    vec::reset(&mut v);
    try testing::expect(vec::len(&v) == 0);

    try testing::expect(vec::push(&mut v, &val));
    try testing::expect(vec::len(&v) == 1);
}

@test fn testVecStruct() throws (testing::TestError) {
    let mut arena: [u8; 64] align(4) = undefined;
    let mut v = vec::new(&mut arena[..], @sizeOf(Point), @alignOf(Point));

    let p1: Point = Point { x: 1, y: 2 };
    let p2: Point = Point { x: 3, y: 4 };

    try testing::expect(vec::push(&mut v, &p1));
    try testing::expect(vec::push(&mut v, &p2));

    if let ptr = vec::get(&v, 0) {
        let p: *Point = ptr as *Point;
        try testing::expect(p.x == 1);
        try testing::expect(p.y == 2);
    } else {
        throw testing::TestError::Failed;
    }
    let mut popped: Point = Point { x: 0, y: 0 };

    try testing::expect(vec::pop(&mut v, &mut popped));
    try testing::expect(popped.x == 3);
    try testing::expect(popped.y == 4);
}

1	//! Tests for formatting functions.
2
3	use std::fmt;
4	use std::mem;
5	use std::vec;
6	use std::testing;
7
8	// Data types //////////////////////////////////////////////////////////////////
9
10	record Point {
11	x: i32,
12	y: i32,
13	}
14
15	// fmt /////////////////////////////////////////////////////////////////////////
16
17	@test fn testFormatU32Zero() throws (testing::TestError) {
18	let mut buffer: [u8; 11] = [0; 11];
19	let result: *[u8] = fmt::formatU32(0, &mut buffer[..]);
20	try testing::expect(result.len == 1);
21	try testing::expectBytesEq(result, "0");
22	}
23
24	@test fn testFormatU32Basic() throws (testing::TestError) {
25	let mut buffer: [u8; 11] = [0; 11];
26	let result: *[u8] = fmt::formatU32(123, &mut buffer[..]);
27	try testing::expect(result.len == 3);
28	try testing::expectBytesEq(result, "123");
29	}
30
31	@test fn testFormatU32Large() throws (testing::TestError) {
32	let mut buffer: [u8; 11] = [0; 11];
33	let result: *[u8] = fmt::formatU32(90000, &mut buffer[..]);
34	try testing::expect(result.len == 5);
35	try testing::expectBytesEq(result, "90000");
36	}
37
38	@test fn testFormatU32Max() throws (testing::TestError) {
39	let mut buffer: [u8; 11] = [0; 11];
40	let result: *[u8] = fmt::formatU32(4294967295, &mut buffer[..]);
41	try testing::expect(result.len == 10);
42	try testing::expectBytesEq(result, "4294967295");
43	}
44
45	@test fn testFormatI32Positive() throws (testing::TestError) {
46	let mut buffer: [u8; 11] = [0; 11];
47	let result: *[u8] = fmt::formatI32(456, &mut buffer[..]);
48	try testing::expect(result.len == 3);
49	try testing::expectBytesEq(result, "456");
50	}
51
52	@test fn testFormatI32Negative() throws (testing::TestError) {
53	let mut buffer: [u8; 11] = [0; 11];
54	let result: *[u8] = fmt::formatI32(-789, &mut buffer[..]);
55	try testing::expect(result.len == 4);
56	try testing::expectBytesEq(result, "-789");
57	}
58
59	@test fn testFormatI32Zero() throws (testing::TestError) {
60	let mut buffer: [u8; 11] = [0; 11];
61	let result: *[u8] = fmt::formatI32(0, &mut buffer[..]);
62	try testing::expect(result.len == 1);
63	try testing::expectBytesEq(result, "0");
64	}
65
66	@test fn testFormatI32Max() throws (testing::TestError) {
67	let mut buffer: [u8; 11] = [0; 11];
68	let result: *[u8] = fmt::formatI32(2147483647, &mut buffer[..]);
69	try testing::expect(result.len == 10);
70	try testing::expectBytesEq(result, "2147483647");
71	}
72
73	@test fn testFormatI32Min() throws (testing::TestError) {
74	let mut buffer: [u8; 11] = [0; 11];
75	let result: *[u8] = fmt::formatI32(-2147483648, &mut buffer[..]);
76	try testing::expect(result.len == 11);
77	try testing::expectBytesEq(result, "-2147483648");
78	}
79
80	@test fn testFormatU64Zero() throws (testing::TestError) {
81	let mut buffer: [u8; 20] = [0; 20];
82	let result: *[u8] = fmt::formatU64(0, &mut buffer[..]);
83	try testing::expect(result.len == 1);
84	try testing::expectBytesEq(result, "0");
85	}
86
87	@test fn testFormatU64Max() throws (testing::TestError) {
88	let mut buffer: [u8; 20] = [0; 20];
89	let result: *[u8] = fmt::formatU64(18446744073709551615, &mut buffer[..]);
90	try testing::expect(result.len == 20);
91	try testing::expectBytesEq(result, "18446744073709551615");
92	}
93
94	@test fn testFormatI64Negative() throws (testing::TestError) {
95	let mut buffer: [u8; 20] = [0; 20];
96	let result: *[u8] = fmt::formatI64(-9876543210, &mut buffer[..]);
97	try testing::expect(result.len == 11);
98	try testing::expectBytesEq(result, "-9876543210");
99	}
100
101	@test fn testFormatI64Min() throws (testing::TestError) {
102	let mut buffer: [u8; 20] = [0; 20];
103	let result: *[u8] = fmt::formatI64(-9223372036854775808, &mut buffer[..]);
104	try testing::expect(result.len == 20);
105	try testing::expectBytesEq(result, "-9223372036854775808");
106	}
107
108	// mem /////////////////////////////////////////////////////////////////////////
109
110	@test fn testCopyFullSlice() throws (testing::TestError) {
111	let mut xs: [u8; 3] = [1, 2, 3];
112	let mut ys: [u8; 3] = [4, 5, 6];
113
114	try! mem::copy(&mut xs[..], &ys[..]);
115	try testing::expectBytesEq(&xs[..], &ys[..]);
116	try testing::expectBytesEq(&xs[..], &[4, 5, 6]);
117	}
118
119	@test fn testCopyPartialSlice() throws (testing::TestError) {
120	let mut xs: [u8; 3] = [1, 2, 3];
121
122	try! mem::copy(&mut xs[..2], &[8, 9]);
123	try testing::expectBytesEq(&xs[..], &[8, 9, 3]);
124	}
125
126	@test fn testCopySingleElement() throws (testing::TestError) {
127	let mut xs: [u8; 3] = [1, 2, 3];
128
129	try! mem::copy(&mut xs[..], &[7]);
130	try testing::expectBytesEq(&xs[..], &[7, 2, 3]);
131	}
132
133	@test fn testCopyBufferTooSmallError() throws (testing::TestError) {
134	let mut xs: [u8; 2] = [1, 2];
135	let ys: [u8; 3] = [4, 5, 6];
136
137	let mut threw = false;
138	try mem::copy(&mut xs[..], &ys[..]) catch {
139	threw = true;
140	};
141	try testing::expect(threw);
142	}
143
144	@test fn testStripPrefixMatch() throws (testing::TestError) {
145	let input: *[u8] = "hello world";
146	let prefix: *[u8] = "hello";
147
148	let result = mem::stripPrefix(prefix, input) else {
149	throw testing::TestError::Failed;
150	};
151	try testing::expectBytesEq(result, " world");
152	}
153
154	@test fn testStripPrefixNoMatch() throws (testing::TestError) {
155	let input: *[u8] = "hello world";
156	let prefix: *[u8] = "goodbye";
157
158	let result = mem::stripPrefix(prefix, input);
159	try testing::expect(result == nil);
160	}
161
162	@test fn testStripPrefixEmpty() throws (testing::TestError) {
163	let input: *[u8] = "hello";
164	let prefix: *[u8] = "";
165
166	let result = mem::stripPrefix(prefix, input) else {
167	throw testing::TestError::Failed;
168	};
169	try testing::expectBytesEq(result, input);
170	}
171
172	@test fn testStripPrefixTooLong() throws (testing::TestError) {
173	let input: *[u8] = "hi";
174	let prefix: *[u8] = "hello";
175
176	let result = mem::stripPrefix(prefix, input);
177	try testing::expect(result == nil);
178	}
179
180	@test fn testEqMatchingSlices() throws (testing::TestError) {
181	let a: *[u8] = "abc";
182	let b: *[u8] = "abc";
183
184	try testing::expect(mem::eq(a, b));
185	}
186
187	@test fn testEqDifferentContents() throws (testing::TestError) {
188	let a: *[u8] = "abc";
189	let b: *[u8] = "abd";
190
191	try testing::expectNot(mem::eq(a, b));
192	}
193
194	@test fn testEqDifferentLengths() throws (testing::TestError) {
195	let a: *[u8] = "abc";
196	let b: *[u8] = "abcd";
197
198	try testing::expectNot(mem::eq(a, b));
199	}
200
201	@test fn testEqEmptySlices() throws (testing::TestError) {
202	let a: *[u8] = "";
203	let b: *[u8] = "";
204
205	try testing::expect(mem::eq(a, b));
206	}
207
208	@test fn testCmpEqualSlices() throws (testing::TestError) {
209	try testing::expect(mem::cmp("abc", "abc") == 0);
210	}
211
212	@test fn testCmpLessThanByContent() throws (testing::TestError) {
213	try testing::expect(mem::cmp("abc", "abd") < 0);
214	}
215
216	@test fn testCmpGreaterThanByContent() throws (testing::TestError) {
217	try testing::expect(mem::cmp("abd", "abc") > 0);
218	}
219
220	@test fn testCmpPrefixOrdering() throws (testing::TestError) {
221	try testing::expect(mem::cmp("abc", "abcd") < 0);
222	try testing::expect(mem::cmp("abcd", "abc") > 0);
223	}
224
225	// vec /////////////////////////////////////////////////////////////////////////
226
227	@test fn testVecInitialState() throws (testing::TestError) {
228	let mut arena: [u8; 16] align(4) = undefined;
229	let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));
230
231	try testing::expect(vec::len(&v) == 0);
232	try testing::expect(vec::capacity(&v) == 4);
233	}
234
235	@test fn testVecPushAndGet() throws (testing::TestError) {
236	let mut arena: [u8; 16] align(4) = undefined;
237	let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));
238
239	let val1: i32 = 42;
240	try testing::expect(vec::push(&mut v, &val1));
241	try testing::expect(vec::len(&v) == 1);
242
243	let ptr = vec::get(&v, 0) else {
244	throw testing::TestError::Failed;
245	};
246	let i32ptr: i32 = ptr as i32;
247	let value: i32 = *i32ptr;
248	try testing::expect(value == 42);
249	}
250
251	@test fn testVecPushPop() throws (testing::TestError) {
252	let mut arena: [u8; 16] align(4) = undefined;
253	let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));
254
255	let val1: i32 = 42;
256	let val2: i32 = 100;
257	let val3: i32 = -5;
258
259	try testing::expect(vec::push(&mut v, &val1));
260	try testing::expect(vec::len(&v) == 1);
261
262	try testing::expect(vec::push(&mut v, &val2));
263	try testing::expect(vec::len(&v) == 2);
264
265	try testing::expect(vec::push(&mut v, &val3));
266	try testing::expect(vec::len(&v) == 3);
267
268	let mut popped: i32 = 0;
269
270	try testing::expect(vec::pop(&mut v, &mut popped));
271	try testing::expect(popped == -5);
272	try testing::expect(vec::len(&v) == 2);
273
274	try testing::expect(vec::pop(&mut v, &mut popped));
275	try testing::expect(popped == 100);
276	try testing::expect(vec::len(&v) == 1);
277
278	try testing::expect(vec::pop(&mut v, &mut popped));
279	try testing::expect(popped == 42);
280	try testing::expect(vec::len(&v) == 0);
281
282	try testing::expectNot(vec::pop(&mut v, &mut popped));
283	}
284
285	@test fn testVecGetSet() throws (testing::TestError) {
286	let mut arena: [u8; 32] align(4) = undefined;
287	let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));
288
289	let val1: i32 = 10;
290	let val2: i32 = 20;
291	let val3: i32 = 30;
292
293	vec::push(&mut v, &val1);
294	vec::push(&mut v, &val2);
295	vec::push(&mut v, &val3);
296
297	if let ptr = vec::get(&v, 0) {
298	let value: i32 = (ptr as i32);
299	try testing::expect(value == 10);
300	} else {
301	throw testing::TestError::Failed;
302	}
303
304	if let ptr = vec::get(&v, 1) {
305	let value: i32 = (ptr as i32);
306	try testing::expect(value == 20);
307	} else {
308	throw testing::TestError::Failed;
309	}
310
311	if let ptr = vec::get(&v, 2) {
312	let value: i32 = (ptr as i32);
313	try testing::expect(value == 30);
314	} else {
315	throw testing::TestError::Failed;
316	}
317	try testing::expect(vec::get(&v, 3) == nil);
318
319	let new: i32 = 999;
320	try testing::expect(vec::set(&mut v, 1, &new));
321
322	if let ptr = vec::get(&v, 1) {
323	let value: i32 = (ptr as i32);
324	try testing::expect(value == 999);
325	} else {
326	throw testing::TestError::Failed;
327	}
328	try testing::expectNot(vec::set(&mut v, 5, &new));
329	}
330
331	@test fn testVecCapacity() throws (testing::TestError) {
332	let mut arena: [u8; 16] align(4) = undefined;
333	let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));
334
335	let val: i32 = 7;
336	try testing::expect(vec::push(&mut v, &val));
337	try testing::expect(vec::push(&mut v, &val));
338	try testing::expect(vec::push(&mut v, &val));
339	try testing::expect(vec::push(&mut v, &val));
340	try testing::expect(vec::len(&v) == 4);
341
342	try testing::expectNot(vec::push(&mut v, &val));
343	try testing::expect(vec::len(&v) == 4);
344	}
345
346	@test fn testVecReset() throws (testing::TestError) {
347	let mut arena: [u8; 16] align(4) = undefined;
348	let mut v = vec::new(&mut arena[..], @sizeOf(i32), @alignOf(i32));
349
350	let val: i32 = 123;
351	vec::push(&mut v, &val);
352	vec::push(&mut v, &val);
353	try testing::expect(vec::len(&v) == 2);
354
355	vec::reset(&mut v);
356	try testing::expect(vec::len(&v) == 0);
357
358	try testing::expect(vec::push(&mut v, &val));
359	try testing::expect(vec::len(&v) == 1);
360	}
361
362	@test fn testVecStruct() throws (testing::TestError) {
363	let mut arena: [u8; 64] align(4) = undefined;
364	let mut v = vec::new(&mut arena[..], @sizeOf(Point), @alignOf(Point));
365
366	let p1: Point = Point { x: 1, y: 2 };
367	let p2: Point = Point { x: 3, y: 4 };
368
369	try testing::expect(vec::push(&mut v, &p1));
370	try testing::expect(vec::push(&mut v, &p2));
371
372	if let ptr = vec::get(&v, 0) {
373	let p: Point = ptr as Point;
374	try testing::expect(p.x == 1);
375	try testing::expect(p.y == 2);
376	} else {
377	throw testing::TestError::Failed;
378	}
379	let mut popped: Point = Point { x: 0, y: 0 };
380
381	try testing::expect(vec::pop(&mut v, &mut popped));
382	try testing::expect(popped.x == 3);
383	try testing::expect(popped.y == 4);
384	}