238 lines
5.2 KiB
Zig
238 lines
5.2 KiB
Zig
const assert = @import("std").debug.assert;
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test "switch with numbers" {
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testSwitchWithNumbers(13);
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}
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fn testSwitchWithNumbers(x: u32) void {
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const result = switch (x) {
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1, 2, 3, 4 ... 8 => false,
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13 => true,
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else => false,
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};
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assert(result);
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}
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test "switch with all ranges" {
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assert(testSwitchWithAllRanges(50, 3) == 1);
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assert(testSwitchWithAllRanges(101, 0) == 2);
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assert(testSwitchWithAllRanges(300, 5) == 3);
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assert(testSwitchWithAllRanges(301, 6) == 6);
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}
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fn testSwitchWithAllRanges(x: u32, y: u32) u32 {
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return switch (x) {
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0 ... 100 => 1,
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101 ... 200 => 2,
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201 ... 300 => 3,
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else => y,
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};
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}
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test "implicit comptime switch" {
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const x = 3 + 4;
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const result = switch (x) {
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3 => 10,
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4 => 11,
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5, 6 => 12,
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7, 8 => 13,
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else => 14,
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};
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comptime {
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assert(result + 1 == 14);
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}
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}
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test "switch on enum" {
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const fruit = Fruit.Orange;
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nonConstSwitchOnEnum(fruit);
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}
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const Fruit = enum {
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Apple,
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Orange,
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Banana,
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};
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fn nonConstSwitchOnEnum(fruit: Fruit) void {
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switch (fruit) {
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Fruit.Apple => unreachable,
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Fruit.Orange => {},
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Fruit.Banana => unreachable,
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}
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}
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test "switch statement" {
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nonConstSwitch(SwitchStatmentFoo.C);
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}
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fn nonConstSwitch(foo: SwitchStatmentFoo) void {
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const val = switch (foo) {
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SwitchStatmentFoo.A => i32(1),
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SwitchStatmentFoo.B => 2,
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SwitchStatmentFoo.C => 3,
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SwitchStatmentFoo.D => 4,
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};
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assert(val == 3);
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}
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const SwitchStatmentFoo = enum {
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A,
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B,
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C,
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D,
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};
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test "switch prong with variable" {
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switchProngWithVarFn(SwitchProngWithVarEnum { .One = 13});
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switchProngWithVarFn(SwitchProngWithVarEnum { .Two = 13.0});
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switchProngWithVarFn(SwitchProngWithVarEnum { .Meh = {}});
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}
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const SwitchProngWithVarEnum = union(enum) {
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One: i32,
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Two: f32,
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Meh: void,
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};
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fn switchProngWithVarFn(a: &const SwitchProngWithVarEnum) void {
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switch(*a) {
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SwitchProngWithVarEnum.One => |x| {
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assert(x == 13);
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},
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SwitchProngWithVarEnum.Two => |x| {
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assert(x == 13.0);
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},
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SwitchProngWithVarEnum.Meh => |x| {
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const v: void = x;
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},
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}
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}
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test "switch on enum using pointer capture" {
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testSwitchEnumPtrCapture();
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comptime testSwitchEnumPtrCapture();
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}
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fn testSwitchEnumPtrCapture() void {
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var value = SwitchProngWithVarEnum { .One = 1234 };
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switch (value) {
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SwitchProngWithVarEnum.One => |*x| *x += 1,
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else => unreachable,
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}
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switch (value) {
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SwitchProngWithVarEnum.One => |x| assert(x == 1235),
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else => unreachable,
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}
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}
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test "switch with multiple expressions" {
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const x = switch (returnsFive()) {
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1, 2, 3 => 1,
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4, 5, 6 => 2,
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else => i32(3),
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};
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assert(x == 2);
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}
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fn returnsFive() i32 {
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return 5;
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}
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const Number = union(enum) {
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One: u64,
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Two: u8,
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Three: f32,
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};
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const number = Number { .Three = 1.23 };
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fn returnsFalse() bool {
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switch (number) {
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Number.One => |x| return x > 1234,
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Number.Two => |x| return x == 'a',
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Number.Three => |x| return x > 12.34,
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}
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}
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test "switch on const enum with var" {
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assert(!returnsFalse());
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}
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test "switch on type" {
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assert(trueIfBoolFalseOtherwise(bool));
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assert(!trueIfBoolFalseOtherwise(i32));
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}
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fn trueIfBoolFalseOtherwise(comptime T: type) bool {
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return switch (T) {
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bool => true,
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else => false,
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};
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}
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test "switch handles all cases of number" {
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testSwitchHandleAllCases();
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comptime testSwitchHandleAllCases();
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}
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fn testSwitchHandleAllCases() void {
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assert(testSwitchHandleAllCasesExhaustive(0) == 3);
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assert(testSwitchHandleAllCasesExhaustive(1) == 2);
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assert(testSwitchHandleAllCasesExhaustive(2) == 1);
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assert(testSwitchHandleAllCasesExhaustive(3) == 0);
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assert(testSwitchHandleAllCasesRange(100) == 0);
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assert(testSwitchHandleAllCasesRange(200) == 1);
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assert(testSwitchHandleAllCasesRange(201) == 2);
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assert(testSwitchHandleAllCasesRange(202) == 4);
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assert(testSwitchHandleAllCasesRange(230) == 3);
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}
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fn testSwitchHandleAllCasesExhaustive(x: u2) u2 {
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return switch (x) {
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0 => u2(3),
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1 => 2,
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2 => 1,
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3 => 0,
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};
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}
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fn testSwitchHandleAllCasesRange(x: u8) u8 {
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return switch (x) {
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0 ... 100 => u8(0),
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101 ... 200 => 1,
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201, 203 => 2,
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202 => 4,
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204 ... 255 => 3,
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};
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}
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test "switch all prongs unreachable" {
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testAllProngsUnreachable();
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comptime testAllProngsUnreachable();
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}
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fn testAllProngsUnreachable() void {
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assert(switchWithUnreachable(1) == 2);
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assert(switchWithUnreachable(2) == 10);
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}
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fn switchWithUnreachable(x: i32) i32 {
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while (true) {
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switch (x) {
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1 => return 2,
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2 => break,
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else => continue,
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}
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}
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return 10;
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}
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fn return_a_number() error!i32 {
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return 1;
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}
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test "capture value of switch with all unreachable prongs" {
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const x = return_a_number() catch |err| switch (err) {
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else => unreachable,
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};
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assert(x == 1);
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}
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