mirror of
https://github.com/ziglang/zig.git
synced 2024-12-03 18:38:45 +00:00
333 lines
11 KiB
Zig
333 lines
11 KiB
Zig
const std = @import("std.zig");
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const warn = std.debug.warn;
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pub const LeakCountAllocator = @import("testing/leak_count_allocator.zig").LeakCountAllocator;
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pub const FailingAllocator = @import("testing/failing_allocator.zig").FailingAllocator;
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/// This should only be used in temporary test programs.
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pub const allocator = &allocator_instance.allocator;
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pub var allocator_instance = LeakCountAllocator.init(&base_allocator_instance.allocator);
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pub const failing_allocator = &failing_allocator_instance.allocator;
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pub var failing_allocator_instance = FailingAllocator.init(&base_allocator_instance.allocator, 0);
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pub var base_allocator_instance = std.heap.ThreadSafeFixedBufferAllocator.init(allocator_mem[0..]);
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var allocator_mem: [2 * 1024 * 1024]u8 = undefined;
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/// This function is intended to be used only in tests. It prints diagnostics to stderr
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/// and then aborts when actual_error_union is not expected_error.
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pub fn expectError(expected_error: anyerror, actual_error_union: var) void {
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if (actual_error_union) |actual_payload| {
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std.debug.panic("expected error.{}, found {}", .{ @errorName(expected_error), actual_payload });
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} else |actual_error| {
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if (expected_error != actual_error) {
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std.debug.panic("expected error.{}, found error.{}", .{
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@errorName(expected_error),
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@errorName(actual_error),
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});
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}
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}
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}
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/// This function is intended to be used only in tests. When the two values are not
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/// equal, prints diagnostics to stderr to show exactly how they are not equal,
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/// then aborts.
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/// The types must match exactly.
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pub fn expectEqual(expected: var, actual: @TypeOf(expected)) void {
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switch (@typeInfo(@TypeOf(actual))) {
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.NoReturn,
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.BoundFn,
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.Opaque,
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.Frame,
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.AnyFrame,
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=> @compileError("value of type " ++ @typeName(@TypeOf(actual)) ++ " encountered"),
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.Undefined,
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.Null,
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.Void,
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=> return,
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.Type,
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.Bool,
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.Int,
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.Float,
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.ComptimeFloat,
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.ComptimeInt,
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.EnumLiteral,
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.Enum,
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.Fn,
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.ErrorSet,
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=> {
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if (actual != expected) {
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std.debug.panic("expected {}, found {}", .{ expected, actual });
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}
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},
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.Pointer => |pointer| {
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switch (pointer.size) {
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.One, .Many, .C => {
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if (actual != expected) {
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std.debug.panic("expected {*}, found {*}", .{ expected, actual });
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}
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},
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.Slice => {
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if (actual.ptr != expected.ptr) {
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std.debug.panic("expected slice ptr {}, found {}", .{ expected.ptr, actual.ptr });
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}
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if (actual.len != expected.len) {
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std.debug.panic("expected slice len {}, found {}", .{ expected.len, actual.len });
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}
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},
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}
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},
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.Array => |array| expectEqualSlices(array.child, &expected, &actual),
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.Vector => |vectorType| {
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var i: usize = 0;
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while (i < vectorType.len) : (i += 1) {
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if (!std.meta.eql(expected[i], actual[i])) {
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std.debug.panic("index {} incorrect. expected {}, found {}", .{ i, expected[i], actual[i] });
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}
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}
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},
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.Struct => |structType| {
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inline for (structType.fields) |field| {
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expectEqual(@field(expected, field.name), @field(actual, field.name));
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}
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},
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.Union => |union_info| {
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if (union_info.tag_type == null) {
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@compileError("Unable to compare untagged union values");
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}
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const TagType = @TagType(@TypeOf(expected));
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const expectedTag = @as(TagType, expected);
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const actualTag = @as(TagType, actual);
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expectEqual(expectedTag, actualTag);
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// we only reach this loop if the tags are equal
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inline for (std.meta.fields(@TypeOf(actual))) |fld| {
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if (std.mem.eql(u8, fld.name, @tagName(actualTag))) {
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expectEqual(@field(expected, fld.name), @field(actual, fld.name));
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return;
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}
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}
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// we iterate over *all* union fields
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// => we should never get here as the loop above is
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// including all possible values.
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unreachable;
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},
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.Optional => {
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if (expected) |expected_payload| {
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if (actual) |actual_payload| {
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expectEqual(expected_payload, actual_payload);
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} else {
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std.debug.panic("expected {}, found null", .{expected_payload});
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}
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} else {
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if (actual) |actual_payload| {
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std.debug.panic("expected null, found {}", .{actual_payload});
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}
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}
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},
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.ErrorUnion => {
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if (expected) |expected_payload| {
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if (actual) |actual_payload| {
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expectEqual(expected_payload, actual_payload);
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} else |actual_err| {
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std.debug.panic("expected {}, found {}", .{ expected_payload, actual_err });
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}
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} else |expected_err| {
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if (actual) |actual_payload| {
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std.debug.panic("expected {}, found {}", .{ expected_err, actual_payload });
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} else |actual_err| {
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expectEqual(expected_err, actual_err);
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}
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}
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},
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}
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}
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test "expectEqual.union(enum)" {
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const T = union(enum) {
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a: i32,
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b: f32,
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};
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const a10 = T{ .a = 10 };
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const a20 = T{ .a = 20 };
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expectEqual(a10, a10);
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}
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/// This function is intended to be used only in tests. When the two slices are not
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/// equal, prints diagnostics to stderr to show exactly how they are not equal,
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/// then aborts.
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pub fn expectEqualSlices(comptime T: type, expected: []const T, actual: []const T) void {
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// TODO better printing of the difference
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// If the arrays are small enough we could print the whole thing
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// If the child type is u8 and no weird bytes, we could print it as strings
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// Even for the length difference, it would be useful to see the values of the slices probably.
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if (expected.len != actual.len) {
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std.debug.panic("slice lengths differ. expected {}, found {}", .{ expected.len, actual.len });
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}
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var i: usize = 0;
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while (i < expected.len) : (i += 1) {
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if (!std.meta.eql(expected[i], actual[i])) {
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std.debug.panic("index {} incorrect. expected {}, found {}", .{ i, expected[i], actual[i] });
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}
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}
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}
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/// This function is intended to be used only in tests. When `ok` is false, the test fails.
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/// A message is printed to stderr and then abort is called.
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pub fn expect(ok: bool) void {
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if (!ok) @panic("test failure");
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}
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pub const TmpDir = struct {
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dir: std.fs.Dir,
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parent_dir: std.fs.Dir,
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sub_path: [sub_path_len]u8,
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const random_bytes_count = 12;
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const sub_path_len = std.base64.Base64Encoder.calcSize(random_bytes_count);
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pub fn cleanup(self: *TmpDir) void {
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self.dir.close();
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self.parent_dir.deleteTree(&self.sub_path) catch {};
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self.parent_dir.close();
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self.* = undefined;
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}
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};
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fn getCwdOrWasiPreopen() std.fs.Dir {
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if (@import("builtin").os.tag == .wasi) {
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var preopens = std.fs.wasi.PreopenList.init(allocator);
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defer preopens.deinit();
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preopens.populate() catch
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@panic("unable to make tmp dir for testing: unable to populate preopens");
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const preopen = preopens.find(".") orelse
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@panic("unable to make tmp dir for testing: didn't find '.' in the preopens");
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return std.fs.Dir{ .fd = preopen.fd };
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} else {
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return std.fs.cwd();
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}
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}
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pub fn tmpDir(opts: std.fs.Dir.OpenDirOptions) TmpDir {
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var random_bytes: [TmpDir.random_bytes_count]u8 = undefined;
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std.crypto.randomBytes(&random_bytes) catch
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@panic("unable to make tmp dir for testing: unable to get random bytes");
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var sub_path: [TmpDir.sub_path_len]u8 = undefined;
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std.fs.base64_encoder.encode(&sub_path, &random_bytes);
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var cwd = getCwdOrWasiPreopen();
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var cache_dir = cwd.makeOpenPath("zig-cache", .{}) catch
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@panic("unable to make tmp dir for testing: unable to make and open zig-cache dir");
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defer cache_dir.close();
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var parent_dir = cache_dir.makeOpenPath("tmp", .{}) catch
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@panic("unable to make tmp dir for testing: unable to make and open zig-cache/tmp dir");
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var dir = parent_dir.makeOpenPath(&sub_path, opts) catch
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@panic("unable to make tmp dir for testing: unable to make and open the tmp dir");
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return .{
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.dir = dir,
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.parent_dir = parent_dir,
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.sub_path = sub_path,
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};
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}
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test "expectEqual nested array" {
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const a = [2][2]f32{
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[_]f32{ 1.0, 0.0 },
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[_]f32{ 0.0, 1.0 },
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};
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const b = [2][2]f32{
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[_]f32{ 1.0, 0.0 },
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[_]f32{ 0.0, 1.0 },
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};
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expectEqual(a, b);
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}
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test "expectEqual vector" {
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var a = @splat(4, @as(u32, 4));
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var b = @splat(4, @as(u32, 4));
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expectEqual(a, b);
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}
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pub fn expectEqualStrings(expected: []const u8, actual: []const u8) void {
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if (std.mem.indexOfDiff(u8, actual, expected)) |diff_index| {
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warn("\n====== expected this output: =========\n", .{});
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printWithVisibleNewlines(expected);
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warn("\n======== instead found this: =========\n", .{});
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printWithVisibleNewlines(actual);
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warn("\n======================================\n", .{});
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var diff_line_number: usize = 1;
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for (expected[0..diff_index]) |value| {
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if (value == '\n') diff_line_number += 1;
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}
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warn("First difference occurs on line {}:\n", .{diff_line_number});
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warn("expected:\n", .{});
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printIndicatorLine(expected, diff_index);
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warn("found:\n", .{});
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printIndicatorLine(actual, diff_index);
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@panic("test failure");
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}
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}
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fn printIndicatorLine(source: []const u8, indicator_index: usize) void {
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const line_begin_index = if (std.mem.lastIndexOfScalar(u8, source[0..indicator_index], '\n')) |line_begin|
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line_begin + 1
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else
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0;
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const line_end_index = if (std.mem.indexOfScalar(u8, source[indicator_index..], '\n')) |line_end|
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(indicator_index + line_end)
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else
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source.len;
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printLine(source[line_begin_index..line_end_index]);
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{
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var i: usize = line_begin_index;
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while (i < indicator_index) : (i += 1)
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warn(" ", .{});
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}
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warn("^\n", .{});
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}
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fn printWithVisibleNewlines(source: []const u8) void {
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var i: usize = 0;
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while (std.mem.indexOf(u8, source[i..], "\n")) |nl| : (i += nl + 1) {
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printLine(source[i .. i + nl]);
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}
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warn("{}␃\n", .{source[i..]}); // End of Text symbol (ETX)
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}
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fn printLine(line: []const u8) void {
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if (line.len != 0) switch (line[line.len - 1]) {
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' ', '\t' => warn("{}⏎\n", .{line}), // Carriage return symbol,
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else => {},
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};
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warn("{}\n", .{line});
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}
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test "" {
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expectEqualStrings("foo", "foo");
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}
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