Slices
test.zig
const expect = @import("std").testing.expect;
test "basic slices" {
var array = [_]i32{ 1, 2, 3, 4 };
// A slice is a pointer and a length. The difference between an array and
// a slice is that the array's length is part of the type and known at
// compile-time, whereas the slice's length is known at runtime.
// Both can be accessed with the `len` field.
var known_at_runtime_zero: usize = 0;
const slice = array[known_at_runtime_zero..array.len];
try expect(&slice[0] == &array[0]);
try expect(slice.len == array.len);
// Using the address-of operator on a slice gives a single-item pointer,
// while using the `ptr` field gives a many-item pointer.
try expect(@TypeOf(slice.ptr) == [*]i32);
try expect(@TypeOf(&slice[0]) == *i32);
try expect(@ptrToInt(slice.ptr) == @ptrToInt(&slice[0]));
// Slices have array bounds checking. If you try to access something out
// of bounds, you'll get a safety check failure:
slice[10] += 1;
// Note that `slice.ptr` does not invoke safety checking, while `&slice[0]`
// asserts that the slice has len >= 1.
}
$ zig test test.zig
Test [1/1] test "basic slices"...
thread 30511 panic: index out of bounds
/home/andy/Downloads/zig/docgen_tmp/test.zig:22:10: 0x206a53 in test "basic slices" (test)
slice[10] += 1;
^
/home/andy/Downloads/zig/lib/std/special/test_runner.zig:76:28: 0x22d73a in std.special.main (test)
} else test_fn.func();
^
/home/andy/Downloads/zig/lib/std/start.zig:458:37: 0x225d1a in std.start.callMain (test)
const result = root.main() catch |err| {
^
/home/andy/Downloads/zig/lib/std/start.zig:400:12: 0x20985e in std.start.callMainWithArgs (test)
return @call(.{ .modifier = .always_inline }, callMain, .{});
^
/home/andy/Downloads/zig/lib/std/start.zig:319:17: 0x208865 in std.start.posixCallMainAndExit (test)
std.os.exit(@call(.{ .modifier = .always_inline }, callMainWithArgs, .{ argc, argv, envp }));
^
/home/andy/Downloads/zig/lib/std/start.zig:244:5: 0x2085c2 in std.start._start (test)
@call(.{ .modifier = .never_inline }, posixCallMainAndExit, .{});
^
error: the following test command crashed:
docgen_tmp/zig-cache/o/838077344bc971dfe73a08c5661e78d1/test /home/andy/Downloads/zig/build/zig
This is one reason we prefer slices to pointers.
slices.zig
const std = @import("std");
const expect = std.testing.expect;
const mem = std.mem;
const fmt = std.fmt;
test "using slices for strings" {
// Zig has no concept of strings. String literals are const pointers
// to null-terminated arrays of u8, and by convention parameters
// that are "strings" are expected to be UTF-8 encoded slices of u8.
// Here we coerce *const [5:0]u8 and *const [6:0]u8 to []const u8
const hello: []const u8 = "hello";
const world: []const u8 = "世界";
var all_together: [100]u8 = undefined;
// You can use slice syntax on an array to convert an array into a slice.
const all_together_slice = all_together[0..];
// String concatenation example.
const hello_world = try fmt.bufPrint(all_together_slice, "{s} {s}", .{ hello, world });
// Generally, you can use UTF-8 and not worry about whether something is a
// string. If you don't need to deal with individual characters, no need
// to decode.
try expect(mem.eql(u8, hello_world, "hello 世界"));
}
test "slice pointer" {
var array: [10]u8 = undefined;
const ptr = &array;
// You can use slicing syntax to convert a pointer into a slice:
const slice = ptr[0..5];
slice[2] = 3;
try expect(slice[2] == 3);
// The slice is mutable because we sliced a mutable pointer.
// Furthermore, it is actually a pointer to an array, since the start
// and end indexes were both comptime-known.
try expect(@TypeOf(slice) == *[5]u8);
// You can also slice a slice:
const slice2 = slice[2..3];
try expect(slice2.len == 1);
try expect(slice2[0] == 3);
}
$ zig test slices.zig
Test [1/2] test "using slices for strings"...
Test [2/2] test "slice pointer"...
All 2 tests passed.
See also:
Sentinel-Terminated Slices
The syntax [:x]T
is a slice which has a runtime known length and also guarantees a sentinel value at the element indexed by the length. The type does not guarantee that there are no sentinel elements before that. Sentinel-terminated slices allow element access to the len
index.
null_terminated_slice.zig
const std = @import("std");
const expect = std.testing.expect;
test "null terminated slice" {
const slice: [:0]const u8 = "hello";
try expect(slice.len == 5);
try expect(slice[5] == 0);
}
$ zig test null_terminated_slice.zig
Test [1/1] test "null terminated slice"...
All 1 tests passed.
See also: