265 lines
5.7 KiB
Zig
265 lines
5.7 KiB
Zig
const assert = @import("std").debug.assert;
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const Value = union(enum) {
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Int: u64,
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Array: [9]u8,
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};
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const Agg = struct {
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val1: Value,
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val2: Value,
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};
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const v1 = Value { .Int = 1234 };
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const v2 = Value { .Array = []u8{3} ** 9 };
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const err = (error!Agg)(Agg {
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.val1 = v1,
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.val2 = v2,
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});
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const array = []Value { v1, v2, v1, v2};
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test "unions embedded in aggregate types" {
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switch (array[1]) {
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Value.Array => |arr| assert(arr[4] == 3),
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else => unreachable,
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}
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switch((err catch unreachable).val1) {
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Value.Int => |x| assert(x == 1234),
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else => unreachable,
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}
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}
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const Foo = union {
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float: f64,
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int: i32,
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};
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test "basic unions" {
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var foo = Foo { .int = 1 };
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assert(foo.int == 1);
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foo = Foo {.float = 12.34};
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assert(foo.float == 12.34);
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}
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test "init union with runtime value" {
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var foo: Foo = undefined;
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setFloat(&foo, 12.34);
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assert(foo.float == 12.34);
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setInt(&foo, 42);
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assert(foo.int == 42);
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}
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fn setFloat(foo: &Foo, x: f64) void {
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*foo = Foo { .float = x };
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}
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fn setInt(foo: &Foo, x: i32) void {
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*foo = Foo { .int = x };
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}
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const FooExtern = extern union {
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float: f64,
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int: i32,
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};
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test "basic extern unions" {
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var foo = FooExtern { .int = 1 };
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assert(foo.int == 1);
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foo.float = 12.34;
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assert(foo.float == 12.34);
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}
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const Letter = enum {
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A,
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B,
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C,
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};
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const Payload = union(Letter) {
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A: i32,
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B: f64,
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C: bool,
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};
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test "union with specified enum tag" {
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doTest();
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comptime doTest();
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}
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fn doTest() void {
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assert(bar(Payload {.A = 1234}) == -10);
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}
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fn bar(value: &const Payload) i32 {
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assert(Letter(*value) == Letter.A);
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return switch (*value) {
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Payload.A => |x| return x - 1244,
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Payload.B => |x| if (x == 12.34) i32(20) else 21,
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Payload.C => |x| if (x) i32(30) else 31,
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};
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}
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const MultipleChoice = union(enum(u32)) {
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A = 20,
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B = 40,
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C = 60,
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D = 1000,
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};
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test "simple union(enum(u32))" {
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var x = MultipleChoice.C;
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assert(x == MultipleChoice.C);
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assert(u32(@TagType(MultipleChoice)(x)) == 60);
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}
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const MultipleChoice2 = union(enum(u32)) {
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Unspecified1: i32,
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A: f32 = 20,
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Unspecified2: void,
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B: bool = 40,
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Unspecified3: i32,
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C: i8 = 60,
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Unspecified4: void,
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D: void = 1000,
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Unspecified5: i32,
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};
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test "union(enum(u32)) with specified and unspecified tag values" {
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comptime assert(@TagType(@TagType(MultipleChoice2)) == u32);
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testEnumWithSpecifiedAndUnspecifiedTagValues(MultipleChoice2 {.C = 123});
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comptime testEnumWithSpecifiedAndUnspecifiedTagValues(MultipleChoice2 { .C = 123} );
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}
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fn testEnumWithSpecifiedAndUnspecifiedTagValues(x: &const MultipleChoice2) void {
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assert(u32(@TagType(MultipleChoice2)(*x)) == 60);
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assert(1123 == switch (*x) {
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MultipleChoice2.A => 1,
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MultipleChoice2.B => 2,
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MultipleChoice2.C => |v| i32(1000) + v,
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MultipleChoice2.D => 4,
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MultipleChoice2.Unspecified1 => 5,
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MultipleChoice2.Unspecified2 => 6,
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MultipleChoice2.Unspecified3 => 7,
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MultipleChoice2.Unspecified4 => 8,
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MultipleChoice2.Unspecified5 => 9,
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});
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}
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const ExternPtrOrInt = extern union {
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ptr: &u8,
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int: u64
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};
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test "extern union size" {
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comptime assert(@sizeOf(ExternPtrOrInt) == 8);
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}
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const PackedPtrOrInt = packed union {
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ptr: &u8,
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int: u64
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};
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test "extern union size" {
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comptime assert(@sizeOf(PackedPtrOrInt) == 8);
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}
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const ZeroBits = union {
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OnlyField: void,
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};
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test "union with only 1 field which is void should be zero bits" {
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comptime assert(@sizeOf(ZeroBits) == 0);
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}
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const TheTag = enum {A, B, C};
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const TheUnion = union(TheTag) { A: i32, B: i32, C: i32 };
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test "union field access gives the enum values" {
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assert(TheUnion.A == TheTag.A);
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assert(TheUnion.B == TheTag.B);
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assert(TheUnion.C == TheTag.C);
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}
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test "cast union to tag type of union" {
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testCastUnionToTagType(TheUnion {.B = 1234});
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comptime testCastUnionToTagType(TheUnion {.B = 1234});
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}
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fn testCastUnionToTagType(x: &const TheUnion) void {
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assert(TheTag(*x) == TheTag.B);
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}
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test "cast tag type of union to union" {
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var x: Value2 = Letter2.B;
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assert(Letter2(x) == Letter2.B);
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}
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const Letter2 = enum { A, B, C };
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const Value2 = union(Letter2) { A: i32, B, C, };
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test "implicit cast union to its tag type" {
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var x: Value2 = Letter2.B;
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assert(x == Letter2.B);
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giveMeLetterB(x);
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}
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fn giveMeLetterB(x: Letter2) void {
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assert(x == Value2.B);
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}
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test "implicit cast from @EnumTagType(TheUnion) to &const TheUnion" {
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assertIsTheUnion2Item1(TheUnion2.Item1);
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}
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const TheUnion2 = union(enum) {
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Item1,
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Item2: i32,
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};
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fn assertIsTheUnion2Item1(value: &const TheUnion2) void {
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assert(*value == TheUnion2.Item1);
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}
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pub const PackThis = union(enum) {
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Invalid: bool,
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StringLiteral: u2,
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};
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test "constant packed union" {
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testConstPackedUnion([]PackThis {
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PackThis { .StringLiteral = 1 },
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});
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}
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fn testConstPackedUnion(expected_tokens: []const PackThis) void {
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assert(expected_tokens[0].StringLiteral == 1);
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}
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test "switch on union with only 1 field" {
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var r: PartialInst = undefined;
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r = PartialInst.Compiled;
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switch (r) {
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PartialInst.Compiled => {
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var z: PartialInstWithPayload = undefined;
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z = PartialInstWithPayload { .Compiled = 1234 };
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switch (z) {
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PartialInstWithPayload.Compiled => |x| {
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assert(x == 1234);
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return;
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},
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}
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},
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}
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unreachable;
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}
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const PartialInst = union(enum) {
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Compiled,
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};
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const PartialInstWithPayload = union(enum) {
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Compiled: i32,
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};
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