zig/test/cases/enum.zig

347 lines
8.7 KiB
Zig

const assert = @import("std").debug.assert;
const mem = @import("std").mem;
test "enum type" {
const foo1 = Foo{ .One = 13};
const foo2 = Foo{. Two = Point { .x = 1234, .y = 5678, }};
const bar = Bar.B;
assert(bar == Bar.B);
assert(@memberCount(Foo) == 3);
assert(@memberCount(Bar) == 4);
assert(@sizeOf(Foo) == @sizeOf(FooNoVoid));
assert(@sizeOf(Bar) == 1);
}
test "enum as return value" {
switch (returnAnInt(13)) {
Foo.One => |value| assert(value == 13),
else => unreachable,
}
}
const Point = struct {
x: u64,
y: u64,
};
const Foo = union(enum) {
One: i32,
Two: Point,
Three: void,
};
const FooNoVoid = union(enum) {
One: i32,
Two: Point,
};
const Bar = enum {
A,
B,
C,
D,
};
fn returnAnInt(x: i32) -> Foo {
Foo { .One = x }
}
test "constant enum with payload" {
var empty = AnEnumWithPayload {.Empty = {}};
var full = AnEnumWithPayload {.Full = 13};
shouldBeEmpty(empty);
shouldBeNotEmpty(full);
}
fn shouldBeEmpty(x: &const AnEnumWithPayload) {
switch (*x) {
AnEnumWithPayload.Empty => {},
else => unreachable,
}
}
fn shouldBeNotEmpty(x: &const AnEnumWithPayload) {
switch (*x) {
AnEnumWithPayload.Empty => unreachable,
else => {},
}
}
const AnEnumWithPayload = union(enum) {
Empty: void,
Full: i32,
};
const Number = enum {
Zero,
One,
Two,
Three,
Four,
};
test "enum to int" {
shouldEqual(Number.Zero, 0);
shouldEqual(Number.One, 1);
shouldEqual(Number.Two, 2);
shouldEqual(Number.Three, 3);
shouldEqual(Number.Four, 4);
}
fn shouldEqual(n: Number, expected: u3) {
assert(u3(n) == expected);
}
test "int to enum" {
testIntToEnumEval(3);
}
fn testIntToEnumEval(x: i32) {
assert(IntToEnumNumber(u3(x)) == IntToEnumNumber.Three);
}
const IntToEnumNumber = enum {
Zero,
One,
Two,
Three,
Four,
};
test "@tagName" {
assert(mem.eql(u8, testEnumTagNameBare(BareNumber.Three), "Three"));
comptime assert(mem.eql(u8, testEnumTagNameBare(BareNumber.Three), "Three"));
}
fn testEnumTagNameBare(n: BareNumber) -> []const u8 {
return @tagName(n);
}
const BareNumber = enum {
One,
Two,
Three,
};
test "enum alignment" {
comptime {
assert(@alignOf(AlignTestEnum) >= @alignOf([9]u8));
assert(@alignOf(AlignTestEnum) >= @alignOf(u64));
}
}
const AlignTestEnum = union(enum) {
A: [9]u8,
B: u64,
};
const ValueCount1 = enum { I0 };
const ValueCount2 = enum { I0, I1 };
const ValueCount256 = enum {
I0, I1, I2, I3, I4, I5, I6, I7, I8, I9, I10, I11, I12, I13, I14, I15,
I16, I17, I18, I19, I20, I21, I22, I23, I24, I25, I26, I27, I28, I29, I30, I31,
I32, I33, I34, I35, I36, I37, I38, I39, I40, I41, I42, I43, I44, I45, I46, I47,
I48, I49, I50, I51, I52, I53, I54, I55, I56, I57, I58, I59, I60, I61, I62, I63,
I64, I65, I66, I67, I68, I69, I70, I71, I72, I73, I74, I75, I76, I77, I78, I79,
I80, I81, I82, I83, I84, I85, I86, I87, I88, I89, I90, I91, I92, I93, I94, I95,
I96, I97, I98, I99, I100, I101, I102, I103, I104, I105, I106, I107, I108, I109,
I110, I111, I112, I113, I114, I115, I116, I117, I118, I119, I120, I121, I122, I123,
I124, I125, I126, I127, I128, I129, I130, I131, I132, I133, I134, I135, I136, I137,
I138, I139, I140, I141, I142, I143, I144, I145, I146, I147, I148, I149, I150, I151,
I152, I153, I154, I155, I156, I157, I158, I159, I160, I161, I162, I163, I164, I165,
I166, I167, I168, I169, I170, I171, I172, I173, I174, I175, I176, I177, I178, I179,
I180, I181, I182, I183, I184, I185, I186, I187, I188, I189, I190, I191, I192, I193,
I194, I195, I196, I197, I198, I199, I200, I201, I202, I203, I204, I205, I206, I207,
I208, I209, I210, I211, I212, I213, I214, I215, I216, I217, I218, I219, I220, I221,
I222, I223, I224, I225, I226, I227, I228, I229, I230, I231, I232, I233, I234, I235,
I236, I237, I238, I239, I240, I241, I242, I243, I244, I245, I246, I247, I248, I249,
I250, I251, I252, I253, I254, I255
};
const ValueCount257 = enum {
I0, I1, I2, I3, I4, I5, I6, I7, I8, I9, I10, I11, I12, I13, I14, I15,
I16, I17, I18, I19, I20, I21, I22, I23, I24, I25, I26, I27, I28, I29, I30, I31,
I32, I33, I34, I35, I36, I37, I38, I39, I40, I41, I42, I43, I44, I45, I46, I47,
I48, I49, I50, I51, I52, I53, I54, I55, I56, I57, I58, I59, I60, I61, I62, I63,
I64, I65, I66, I67, I68, I69, I70, I71, I72, I73, I74, I75, I76, I77, I78, I79,
I80, I81, I82, I83, I84, I85, I86, I87, I88, I89, I90, I91, I92, I93, I94, I95,
I96, I97, I98, I99, I100, I101, I102, I103, I104, I105, I106, I107, I108, I109,
I110, I111, I112, I113, I114, I115, I116, I117, I118, I119, I120, I121, I122, I123,
I124, I125, I126, I127, I128, I129, I130, I131, I132, I133, I134, I135, I136, I137,
I138, I139, I140, I141, I142, I143, I144, I145, I146, I147, I148, I149, I150, I151,
I152, I153, I154, I155, I156, I157, I158, I159, I160, I161, I162, I163, I164, I165,
I166, I167, I168, I169, I170, I171, I172, I173, I174, I175, I176, I177, I178, I179,
I180, I181, I182, I183, I184, I185, I186, I187, I188, I189, I190, I191, I192, I193,
I194, I195, I196, I197, I198, I199, I200, I201, I202, I203, I204, I205, I206, I207,
I208, I209, I210, I211, I212, I213, I214, I215, I216, I217, I218, I219, I220, I221,
I222, I223, I224, I225, I226, I227, I228, I229, I230, I231, I232, I233, I234, I235,
I236, I237, I238, I239, I240, I241, I242, I243, I244, I245, I246, I247, I248, I249,
I250, I251, I252, I253, I254, I255, I256
};
test "enum sizes" {
comptime {
assert(@sizeOf(ValueCount1) == 0);
assert(@sizeOf(ValueCount2) == 1);
assert(@sizeOf(ValueCount256) == 1);
assert(@sizeOf(ValueCount257) == 2);
}
}
const Small2 = enum (u2) {
One,
Two,
};
const Small = enum (u2) {
One,
Two,
Three,
Four,
};
test "set enum tag type" {
{
var x = Small.One;
x = Small.Two;
comptime assert(@EnumTagType(Small) == u2);
}
{
var x = Small2.One;
x = Small2.Two;
comptime assert(@EnumTagType(Small2) == u2);
}
}
const A = enum (u3) {
One,
Two,
Three,
Four,
One2,
Two2,
Three2,
Four2,
};
const B = enum (u3) {
One3,
Two3,
Three3,
Four3,
One23,
Two23,
Three23,
Four23,
};
const C = enum (u2) {
One4,
Two4,
Three4,
Four4,
};
const BitFieldOfEnums = packed struct {
a: A,
b: B,
c: C,
};
const bit_field_1 = BitFieldOfEnums {
.a = A.Two,
.b = B.Three3,
.c = C.Four4,
};
test "bit field access with enum fields" {
var data = bit_field_1;
assert(getA(&data) == A.Two);
assert(getB(&data) == B.Three3);
assert(getC(&data) == C.Four4);
comptime assert(@sizeOf(BitFieldOfEnums) == 1);
data.b = B.Four3;
assert(data.b == B.Four3);
data.a = A.Three;
assert(data.a == A.Three);
assert(data.b == B.Four3);
}
fn getA(data: &const BitFieldOfEnums) -> A {
return data.a;
}
fn getB(data: &const BitFieldOfEnums) -> B {
return data.b;
}
fn getC(data: &const BitFieldOfEnums) -> C {
return data.c;
}
test "casting enum to its tag type" {
testCastEnumToTagType(Small2.Two);
comptime testCastEnumToTagType(Small2.Two);
}
fn testCastEnumToTagType(value: Small2) {
assert(u2(value) == 1);
}
const MultipleChoice = enum(u32) {
A = 20,
B = 40,
C = 60,
D = 1000,
};
test "enum with specified tag values" {
testEnumWithSpecifiedTagValues(MultipleChoice.C);
comptime testEnumWithSpecifiedTagValues(MultipleChoice.C);
}
fn testEnumWithSpecifiedTagValues(x: MultipleChoice) {
assert(u32(x) == 60);
assert(1234 == switch (x) {
MultipleChoice.A => 1,
MultipleChoice.B => 2,
MultipleChoice.C => u32(1234),
MultipleChoice.D => 4,
});
}
const MultipleChoice2 = enum(u32) {
Unspecified1,
A = 20,
Unspecified2,
B = 40,
Unspecified3,
C = 60,
Unspecified4,
D = 1000,
Unspecified5,
};
test "enum with specified and unspecified tag values" {
testEnumWithSpecifiedAndUnspecifiedTagValues(MultipleChoice2.D);
comptime testEnumWithSpecifiedAndUnspecifiedTagValues(MultipleChoice2.D);
}
fn testEnumWithSpecifiedAndUnspecifiedTagValues(x: MultipleChoice2) {
assert(u32(x) == 1000);
assert(1234 == switch (x) {
MultipleChoice2.A => 1,
MultipleChoice2.B => 2,
MultipleChoice2.C => 3,
MultipleChoice2.D => u32(1234),
MultipleChoice2.Unspecified1 => 5,
MultipleChoice2.Unspecified2 => 6,
MultipleChoice2.Unspecified3 => 7,
MultipleChoice2.Unspecified4 => 8,
MultipleChoice2.Unspecified5 => 9,
});
}