const std = @import("std"); const assert = std.debug.assert; const str = std.str; const cstr = std.cstr; const other = @import("other.zig"); // TODO '_' identifier for unused variable bindings const test_return_type_type = @import("cases/return_type_type.zig"); const test_zeroes = @import("cases/zeroes.zig"); const test_sizeof_and_typeof = @import("cases/sizeof_and_typeof.zig"); const test_maybe_return = @import("cases/maybe_return.zig"); const test_max_value_type = @import("cases/max_value_type.zig"); const test_var_params = @import("cases/var_params.zig"); // normal comment /// this is a documentation comment /// doc comment line 2 #attribute("test") fn emptyFunctionWithComments() {} #attribute("test") fn ifStatements() { shouldBeEqual(1, 1); firstEqlThird(2, 1, 2); } fn shouldBeEqual(a: i32, b: i32) { if (a != b) { @unreachable(); } else { return; } } fn firstEqlThird(a: i32, b: i32, c: i32) { if (a == b) { @unreachable(); } else if (b == c) { @unreachable(); } else if (a == c) { return; } else { @unreachable(); } } #attribute("test") fn params() { assert(testParamsAdd(22, 11) == 33); } fn testParamsAdd(a: i32, b: i32) -> i32 { a + b } #attribute("test") fn localVariables() { testLocVars(2); } fn testLocVars(b: i32) { const a: i32 = 1; if (a + b != 3) @unreachable(); } #attribute("test") fn boolLiterals() { assert(true); assert(!false); } #attribute("test") fn voidParameters() { voidFun(1, void{}, 2, {}); } fn voidFun(a : i32, b : void, c : i32, d : void) { const v = b; const vv : void = if (a == 1) {v} else {}; assert(a + c == 3); return vv; } #attribute("test") fn mutableLocalVariables() { var zero : i32 = 0; assert(zero == 0); var i = i32(0); while (i != 3) { i += 1; } assert(i == 3); } #attribute("test") fn arrays() { var array : [5]u32 = undefined; var i : u32 = 0; while (i < 5) { array[i] = i + 1; i = array[i]; } i = 0; var accumulator = u32(0); while (i < 5) { accumulator += array[i]; i += 1; } assert(accumulator == 15); assert(getArrayLen(array) == 5); } fn getArrayLen(a: []u32) -> usize { a.len } #attribute("test") fn shortCircuit() { var hit_1 = false; var hit_2 = false; var hit_3 = false; var hit_4 = false; if (true || {assertRuntime(false); false}) { hit_1 = true; } if (false || { hit_2 = true; false }) { assertRuntime(false); } if (true && { hit_3 = true; false }) { assertRuntime(false); } if (false && {assertRuntime(false); false}) { assertRuntime(false); } else { hit_4 = true; } assert(hit_1); assert(hit_2); assert(hit_3); assert(hit_4); } #static_eval_enable(false) fn assertRuntime(b: bool) { if (!b) @unreachable() } #attribute("test") fn modifyOperators() { var i : i32 = 0; i += 5; assert(i == 5); i -= 2; assert(i == 3); i *= 20; assert(i == 60); i /= 3; assert(i == 20); i %= 11; assert(i == 9); i <<= 1; assert(i == 18); i >>= 2; assert(i == 4); i = 6; i &= 5; assert(i == 4); i ^= 6; assert(i == 2); i = 6; i |= 3; assert(i == 7); } #attribute("test") fn separateBlockScopes() { { const no_conflict : i32 = 5; assert(no_conflict == 5); } const c = { const no_conflict = i32(10); no_conflict }; assert(c == 10); } #attribute("test") fn voidStructFields() { const foo = VoidStructFieldsFoo { .a = void{}, .b = 1, .c = void{}, }; assert(foo.b == 1); assert(@sizeOf(VoidStructFieldsFoo) == 4); } struct VoidStructFieldsFoo { a : void, b : i32, c : void, } #attribute("test") pub fn structs() { var foo : StructFoo = undefined; @memset(&foo, 0, @sizeOf(StructFoo)); foo.a += 1; foo.b = foo.a == 1; testFoo(foo); testMutation(&foo); assert(foo.c == 100); } struct StructFoo { a : i32, b : bool, c : f32, } fn testFoo(foo : StructFoo) { assert(foo.b); } fn testMutation(foo : &StructFoo) { foo.c = 100; } struct Node { val: Val, next: &Node, } struct Val { x: i32, } #attribute("test") fn structPointToSelf() { var root : Node = undefined; root.val.x = 1; var node : Node = undefined; node.next = &root; node.val.x = 2; root.next = &node; assert(node.next.next.next.val.x == 1); } #attribute("test") fn structByvalAssign() { var foo1 : StructFoo = undefined; var foo2 : StructFoo = undefined; foo1.a = 1234; foo2.a = 0; assert(foo2.a == 0); foo2 = foo1; assert(foo2.a == 1234); } fn structInitializer() { const val = Val { .x = 42 }; assert(val.x == 42); } const g1 : i32 = 1233 + 1; var g2 : i32 = 0; #attribute("test") fn globalVariables() { assert(g2 == 0); g2 = g1; assert(g2 == 1234); } #attribute("test") fn whileLoop() { var i : i32 = 0; while (i < 4) { i += 1; } assert(i == 4); assert(whileLoop1() == 1); } fn whileLoop1() -> i32 { return whileLoop2(); } fn whileLoop2() -> i32 { while (true) { return 1; } } #attribute("test") fn voidArrays() { var array: [4]void = undefined; array[0] = void{}; array[1] = array[2]; assert(@sizeOf(@typeOf(array)) == 0); assert(array.len == 4); } #attribute("test") fn threeExprInARow() { assertFalse(false || false || false); assertFalse(true && true && false); assertFalse(1 | 2 | 4 != 7); assertFalse(3 ^ 6 ^ 8 != 13); assertFalse(7 & 14 & 28 != 4); assertFalse(9 << 1 << 2 != 9 << 3); assertFalse(90 >> 1 >> 2 != 90 >> 3); assertFalse(100 - 1 + 1000 != 1099); assertFalse(5 * 4 / 2 % 3 != 1); assertFalse(i32(i32(5)) != 5); assertFalse(!!false); assertFalse(i32(7) != --(i32(7))); } fn assertFalse(b: bool) { assert(!b); } #attribute("test") fn maybeType() { const x : ?bool = true; if (const y ?= x) { if (y) { // OK } else { @unreachable(); } } else { @unreachable(); } const next_x : ?i32 = null; const z = next_x ?? 1234; assert(z == 1234); const final_x : ?i32 = 13; const num = final_x ?? @unreachable(); assert(num == 13); } #attribute("test") fn enumType() { const foo1 = EnumTypeFoo.One {13}; const foo2 = EnumTypeFoo.Two {EnumType { .x = 1234, .y = 5678, }}; const bar = EnumTypeBar.B; assert(bar == EnumTypeBar.B); assert(@memberCount(EnumTypeFoo) == 3); assert(@memberCount(EnumTypeBar) == 4); const expected_foo_size = switch (@compileVar("arch")) { i386 => 20, x86_64 => 24, else => @unreachable(), }; assert(@sizeOf(EnumTypeFoo) == expected_foo_size); assert(@sizeOf(EnumTypeBar) == 1); } struct EnumType { x: u64, y: u64, } enum EnumTypeFoo { One: i32, Two: EnumType, Three: void, } enum EnumTypeBar { A, B, C, D, } #attribute("test") fn arrayLiteral() { const hex_mult = []u16{4096, 256, 16, 1}; assert(hex_mult.len == 4); assert(hex_mult[1] == 256); } #attribute("test") fn constNumberLiteral() { const one = 1; const eleven = ten + one; assert(eleven == 11); } const ten = 10; #attribute("test") fn errorValues() { const a = i32(error.err1); const b = i32(error.err2); assert(a != b); } error err1; error err2; #attribute("test") fn fnCallOfStructField() { assert(callStructField(Foo {.ptr = aFunc,}) == 13); } struct Foo { ptr: fn() -> i32, } fn aFunc() -> i32 { 13 } fn callStructField(foo: Foo) -> i32 { return foo.ptr(); } #attribute("test") fn redefinitionOfErrorValuesAllowed() { shouldBeNotEqual(error.AnError, error.SecondError); } error AnError; error AnError; error SecondError; fn shouldBeNotEqual(a: error, b: error) { if (a == b) @unreachable() } #attribute("test") fn constantEnumWithPayload() { var empty = AnEnumWithPayload.Empty; var full = AnEnumWithPayload.Full {13}; shouldBeEmpty(empty); shouldBeNotEmpty(full); } fn shouldBeEmpty(x: AnEnumWithPayload) { switch (x) { Empty => {}, else => @unreachable(), } } fn shouldBeNotEmpty(x: AnEnumWithPayload) { switch (x) { Empty => @unreachable(), else => {}, } } enum AnEnumWithPayload { Empty, Full: i32, } #attribute("test") fn continueInForLoop() { const array = []i32 {1, 2, 3, 4, 5}; var sum : i32 = 0; for (array) |x| { sum += x; if (x < 3) { continue; } break; } if (sum != 6) @unreachable() } #attribute("test") fn castBoolToInt() { const t = true; const f = false; assert(i32(t) == i32(1)); assert(i32(f) == i32(0)); nonConstCastBoolToInt(t, f); } fn nonConstCastBoolToInt(t: bool, f: bool) { assert(i32(t) == i32(1)); assert(i32(f) == i32(0)); } #attribute("test") fn switchOnEnum() { const fruit = Fruit.Orange; nonConstSwitchOnEnum(fruit); } enum Fruit { Apple, Orange, Banana, } #static_eval_enable(false) fn nonConstSwitchOnEnum(fruit: Fruit) { switch (fruit) { Apple => @unreachable(), Orange => {}, Banana => @unreachable(), } } #attribute("test") fn switchStatement() { nonConstSwitch(SwitchStatmentFoo.C); } #static_eval_enable(false) fn nonConstSwitch(foo: SwitchStatmentFoo) { const val: i32 = switch (foo) { A => 1, B => 2, C => 3, D => 4, }; if (val != 3) @unreachable(); } enum SwitchStatmentFoo { A, B, C, D, } #attribute("test") fn switchProngWithVar() { switchProngWithVarFn(SwitchProngWithVarEnum.One {13}); switchProngWithVarFn(SwitchProngWithVarEnum.Two {13.0}); switchProngWithVarFn(SwitchProngWithVarEnum.Meh); } enum SwitchProngWithVarEnum { One: i32, Two: f32, Meh, } #static_eval_enable(false) fn switchProngWithVarFn(a: SwitchProngWithVarEnum) { switch(a) { One => |x| { if (x != 13) @unreachable(); }, Two => |x| { if (x != 13.0) @unreachable(); }, Meh => |x| { const v: void = x; }, } } #attribute("test") fn errReturnInAssignment() { %%doErrReturnInAssignment(); } #static_eval_enable(false) fn doErrReturnInAssignment() -> %void { var x : i32 = undefined; x = %return makeANonErr(); } fn makeANonErr() -> %i32 { return 1; } #attribute("test") fn rhsMaybeUnwrapReturn() { const x = ?true; const y = x ?? return; } #attribute("test") fn implicitCastFnUnreachableReturn() { wantsFnWithVoid(fnWithUnreachable); } fn wantsFnWithVoid(f: fn()) { } fn fnWithUnreachable() -> unreachable { @unreachable() } #attribute("test") fn explicitCastMaybePointers() { const a: ?&i32 = undefined; const b: ?&f32 = (?&f32)(a); } #attribute("test") fn constExprEvalOnSingleExprBlocks() { assert(constExprEvalOnSingleExprBlocksFn(1, true) == 3); } fn constExprEvalOnSingleExprBlocksFn(x: i32, b: bool) -> i32 { const literal = 3; const result = if (b) { literal } else { x }; return result; } #attribute("test") fn builtinConstEval() { const x : i32 = @constEval(1 + 2 + 3); assert(x == @constEval(6)); } #attribute("test") fn slicing() { var array : [20]i32 = undefined; array[5] = 1234; var slice = array[5...10]; if (slice.len != 5) @unreachable(); const ptr = &slice[0]; if (ptr[0] != 1234) @unreachable(); var slice_rest = array[10...]; if (slice_rest.len != 10) @unreachable(); } #attribute("test") fn memcpyAndMemsetIntrinsics() { var foo : [20]u8 = undefined; var bar : [20]u8 = undefined; @memset(&foo[0], 'A', foo.len); @memcpy(&bar[0], &foo[0], bar.len); if (bar[11] != 'A') @unreachable(); } #attribute("test") fn arrayDotLenConstExpr() { } struct ArrayDotLenConstExpr { y: [@constEval(some_array.len)]u8, } const some_array = []u8 {0, 1, 2, 3}; #attribute("test") fn countLeadingZeroes() { assert(@clz(u8, 0b00001010) == 4); assert(@clz(u8, 0b10001010) == 0); assert(@clz(u8, 0b00000000) == 8); } #attribute("test") fn countTrailingZeroes() { assert(@ctz(u8, 0b10100000) == 5); assert(@ctz(u8, 0b10001010) == 1); assert(@ctz(u8, 0b00000000) == 8); } #attribute("test") fn multilineString() { const s1 = \\one \\two) \\three ; const s2 = "one\ntwo)\nthree"; assert(str.eql(s1, s2)); } #attribute("test") fn multilineCString() { const s1 = c\\one c\\two) c\\three ; const s2 = c"one\ntwo)\nthree"; assert(cstr.cmp(s1, s2) == 0); } #attribute("test") fn simpleGenericFn() { assert(max(i32, 3, -1) == 3); assert(max(f32, 0.123, 0.456) == 0.456); assert(add(2, 3) == 5); } fn max(inline T: type, a: T, b: T) -> T { return if (a > b) a else b; } fn add(inline a: i32, b: i32) -> i32 { return @constEval(a) + b; } #attribute("test") fn constantEqualFunctionPointers() { const alias = emptyFn; assert(@constEval(emptyFn == alias)); } fn emptyFn() {} #attribute("test") fn genericMallocFree() { const a = %%memAlloc(u8, 10); memFree(u8, a); } const some_mem : [100]u8 = undefined; #static_eval_enable(false) fn memAlloc(inline T: type, n: usize) -> %[]T { return (&T)(&some_mem[0])[0...n]; } fn memFree(inline T: type, mem: []T) { } #attribute("test") fn callFnWithEmptyString() { acceptsString(""); } fn acceptsString(foo: []u8) { } #attribute("test") fn hexEscape() { assert(str.eql("\x68\x65\x6c\x6c\x6f", "hello")); } error AnError; error ALongerErrorName; #attribute("test") fn errorNameString() { assert(str.eql(@errorName(error.AnError), "AnError")); assert(str.eql(@errorName(error.ALongerErrorName), "ALongerErrorName")); } #attribute("test") fn gotoAndLabels() { gotoLoop(); assert(goto_counter == 10); } fn gotoLoop() { var i: i32 = 0; goto cond; loop: i += 1; cond: if (!(i < 10)) goto end; goto_counter += 1; goto loop; end: } var goto_counter: i32 = 0; #attribute("test") fn gotoLeaveDeferScope() { testGotoLeaveDeferScope(true); } #static_eval_enable(false) fn testGotoLeaveDeferScope(b: bool) { var it_worked = false; goto entry; exit: if (it_worked) { return; } @unreachable(); entry: defer it_worked = true; if (b) goto exit; } #attribute("test") fn castUndefined() { const array: [100]u8 = undefined; const slice = ([]u8)(array); testCastUndefined(slice); } fn testCastUndefined(x: []u8) {} #attribute("test") fn castSmallUnsignedToLargerSigned() { assert(castSmallUnsignedToLargerSigned1(200) == i16(200)); assert(castSmallUnsignedToLargerSigned2(9999) == i64(9999)); } fn castSmallUnsignedToLargerSigned1(x: u8) -> i16 { x } fn castSmallUnsignedToLargerSigned2(x: u16) -> i64 { x } #attribute("test") fn implicitCastAfterUnreachable() { assert(outer() == 1234); } fn inner() -> i32 { 1234 } fn outer() -> i64 { return inner(); } #attribute("test") fn elseIfExpression() { assert(elseIfExpressionF(1) == 1); } fn elseIfExpressionF(c: u8) -> u8 { if (c == 0) { 0 } else if (c == 1) { 1 } else { 2 } } #attribute("test") fn errBinaryOperator() { const a = errBinaryOperatorG(true) %% 3; const b = errBinaryOperatorG(false) %% 3; assert(a == 3); assert(b == 10); } error ItBroke; fn errBinaryOperatorG(x: bool) -> %isize { if (x) { error.ItBroke } else { 10 } } #attribute("test") fn unwrapSimpleValueFromError() { const i = %%unwrapSimpleValueFromErrorDo(); assert(i == 13); } fn unwrapSimpleValueFromErrorDo() -> %isize { 13 } #attribute("test") fn storeMemberFunctionInVariable() { const instance = MemberFnTestFoo { .x = 1234, }; const memberFn = MemberFnTestFoo.member; const result = memberFn(instance); assert(result == 1234); } struct MemberFnTestFoo { x: i32, fn member(foo: MemberFnTestFoo) -> i32 { foo.x } } #attribute("test") fn callMemberFunctionDirectly() { const instance = MemberFnTestFoo { .x = 1234, }; const result = MemberFnTestFoo.member(instance); assert(result == 1234); } #attribute("test") fn memberFunctions() { const r = MemberFnRand {.seed = 1234}; assert(r.getSeed() == 1234); } struct MemberFnRand { seed: u32, pub fn getSeed(r: MemberFnRand) -> u32 { r.seed } } #attribute("test") fn staticFunctionEvaluation() { assert(statically_added_number == 3); } const statically_added_number = staticAdd(1, 2); fn staticAdd(a: i32, b: i32) -> i32 { a + b } #attribute("test") fn staticallyInitalizedList() { assert(static_point_list[0].x == 1); assert(static_point_list[0].y == 2); assert(static_point_list[1].x == 3); assert(static_point_list[1].y == 4); } struct Point { x: i32, y: i32, } const static_point_list = []Point { makePoint(1, 2), makePoint(3, 4) }; fn makePoint(x: i32, y: i32) -> Point { return Point { .x = x, .y = y, }; } #attribute("test") fn staticEvalRecursive() { assert(some_data.len == 21); } var some_data: [usize(fibbonaci(7))]u8 = undefined; fn fibbonaci(x: i32) -> i32 { if (x <= 1) return 1; return fibbonaci(x - 1) + fibbonaci(x - 2); } #attribute("test") fn staticEvalWhile() { assert(static_eval_while_number == 1); } const static_eval_while_number = staticWhileLoop1(); fn staticWhileLoop1() -> i32 { return whileLoop2(); } fn staticWhileLoop2() -> i32 { while (true) { return 1; } } #attribute("test") fn staticEvalListInit() { assert(static_vec3.data[2] == 1.0); } const static_vec3 = vec3(0.0, 0.0, 1.0); pub struct Vec3 { data: [3]f32, } pub fn vec3(x: f32, y: f32, z: f32) -> Vec3 { Vec3 { .data = []f32 { x, y, z, }, } } #attribute("test") fn genericFnWithImplicitCast() { assert(getFirstByte(u8, []u8 {13}) == 13); assert(getFirstByte(u16, []u16 {0, 13}) == 0); } fn getByte(ptr: ?&u8) -> u8 {*??ptr} fn getFirstByte(inline T: type, mem: []T) -> u8 { getByte((&u8)(&mem[0])) } #attribute("test") fn continueAndBreak() { runContinueAndBreakTest(); assert(continue_and_break_counter == 8); } var continue_and_break_counter: i32 = 0; fn runContinueAndBreakTest() { var i : i32 = 0; while (true) { continue_and_break_counter += 2; i += 1; if (i < 4) { continue; } break; } assert(i == 4); } #attribute("test") fn pointerDereferencing() { var x = i32(3); const y = &x; *y += 1; assert(x == 4); assert(*y == 4); } #attribute("test") fn constantExpressions() { var array : [array_size]u8 = undefined; assert(@sizeOf(@typeOf(array)) == 20); } const array_size : u8 = 20; #attribute("test") fn minValueAndMaxValue() { assert(@maxValue(u8) == 255); assert(@maxValue(u16) == 65535); assert(@maxValue(u32) == 4294967295); assert(@maxValue(u64) == 18446744073709551615); assert(@maxValue(i8) == 127); assert(@maxValue(i16) == 32767); assert(@maxValue(i32) == 2147483647); assert(@maxValue(i64) == 9223372036854775807); assert(@minValue(u8) == 0); assert(@minValue(u16) == 0); assert(@minValue(u32) == 0); assert(@minValue(u64) == 0); assert(@minValue(i8) == -128); assert(@minValue(i16) == -32768); assert(@minValue(i32) == -2147483648); assert(@minValue(i64) == -9223372036854775808); } #attribute("test") fn overflowIntrinsics() { var result: u8 = undefined; assert(@addWithOverflow(u8, 250, 100, &result)); assert(!@addWithOverflow(u8, 100, 150, &result)); assert(result == 250); } #attribute("test") fn nestedArrays() { const array_of_strings = [][]u8 {"hello", "this", "is", "my", "thing"}; for (array_of_strings) |s, i| { if (i == 0) assert(str.eql(s, "hello")); if (i == 1) assert(str.eql(s, "this")); if (i == 2) assert(str.eql(s, "is")); if (i == 3) assert(str.eql(s, "my")); if (i == 4) assert(str.eql(s, "thing")); } } #attribute("test") fn intToPtrCast() { const x = isize(13); const y = (&u8)(x); const z = usize(y); assert(z == 13); } #attribute("test") fn stringConcatenation() { assert(str.eql("OK" ++ " IT " ++ "WORKED", "OK IT WORKED")); } #attribute("test") fn constantStructWithNegation() { assert(vertices[0].x == -0.6); } struct Vertex { x: f32, y: f32, r: f32, g: f32, b: f32, } const vertices = []Vertex { Vertex { .x = -0.6, .y = -0.4, .r = 1.0, .g = 0.0, .b = 0.0 }, Vertex { .x = 0.6, .y = -0.4, .r = 0.0, .g = 1.0, .b = 0.0 }, Vertex { .x = 0.0, .y = 0.6, .r = 0.0, .g = 0.0, .b = 1.0 }, }; #attribute("test") fn returnWithImplicitCastFromWhileLoop() { %%returnWithImplicitCastFromWhileLoopTest(); } fn returnWithImplicitCastFromWhileLoopTest() -> %void { while (true) { return; } } #attribute("test") fn returnStructByvalFromFunction() { const bar = makeBar(1234, 5678); assert(bar.y == 5678); } struct Bar { x: i32, y: i32, } fn makeBar(x: i32, y: i32) -> Bar { Bar { .x = x, .y = y, } } #attribute("test") fn functionPointers() { const fns = []@typeOf(fn1) { fn1, fn2, fn3, fn4, }; for (fns) |f, i| { assert(f() == u32(i) + 5); } } fn fn1() -> u32 {5} fn fn2() -> u32 {6} fn fn3() -> u32 {7} fn fn4() -> u32 {8} #attribute("test") fn staticallyInitalizedStruct() { st_init_str_foo.x += 1; assert(st_init_str_foo.x == 14); } struct StInitStrFoo { x: i32, y: bool, } var st_init_str_foo = StInitStrFoo { .x = 13, .y = true, }; #attribute("test") fn staticallyInitializedArrayLiteral() { const y : [4]u8 = st_init_arr_lit_x; assert(y[3] == 4); } const st_init_arr_lit_x = []u8{1,2,3,4}; #attribute("test") fn pointerToVoidReturnType() { %%testPointerToVoidReturnType(); } fn testPointerToVoidReturnType() -> %void { const a = testPointerToVoidReturnType2(); return *a; } const test_pointer_to_void_return_type_x = void{}; fn testPointerToVoidReturnType2() -> &void { return &test_pointer_to_void_return_type_x; } #attribute("test") fn callResultOfIfElseExpression() { assert(str.eql(f2(true), "a")); assert(str.eql(f2(false), "b")); } fn f2(x: bool) -> []u8 { return (if (x) fA else fB)(); } fn fA() -> []u8 { "a" } fn fB() -> []u8 { "b" } #attribute("test") fn constExpressionEvalHandlingOfVariables() { var x = true; while (x) { x = false; } } #attribute("test") fn constantEnumInitializationWithDifferingSizes() { test3_1(test3_foo); test3_2(test3_bar); } enum Test3Foo { One, Two: f32, Three: Test3Point, } struct Test3Point { x: i32, y: i32, } const test3_foo = Test3Foo.Three{Test3Point {.x = 3, .y = 4}}; const test3_bar = Test3Foo.Two{13}; #static_eval_enable(false) fn test3_1(f: Test3Foo) { switch (f) { Three => |pt| { assert(pt.x == 3); assert(pt.y == 4); }, else => @unreachable(), } } #static_eval_enable(false) fn test3_2(f: Test3Foo) { switch (f) { Two => |x| { assert(x == 13); }, else => @unreachable(), } } #attribute("test") fn pubEnum() { pubEnumTest(other.APubEnum.Two); } fn pubEnumTest(foo: other.APubEnum) { assert(foo == other.APubEnum.Two); } #attribute("test") fn castWithImportedSymbol() { assert(other.size_t(42) == 42); } #attribute("test") fn whileWithContinueExpr() { var sum: i32 = 0; {var i: i32 = 0; while (i < 10; i += 1) { if (i == 5) continue; sum += i; }} assert(sum == 40); } #attribute("test") fn forLoopWithPointerElemVar() { const source = "abcdefg"; var target: [source.len]u8 = undefined; @memcpy(&target[0], &source[0], source.len); mangleString(target); assert(str.eql(target, "bcdefgh")); } #static_eval_enable(false) fn mangleString(s: []u8) { for (s) |*c| { *c += 1; } } #attribute("test") fn emptyStructMethodCall() { const es = EmptyStruct{}; assert(es.method() == 1234); } struct EmptyStruct { #static_eval_enable(false) fn method(es: EmptyStruct) -> i32 { 1234 } } #attribute("test") fn @"weird function name"() { } #attribute("test") fn returnEmptyStructFromFn() { testReturnEmptyStructFromFn(); testReturnEmptyStructFromFnNoeval(); } struct EmptyStruct2 {} fn testReturnEmptyStructFromFn() -> EmptyStruct2 { EmptyStruct2 {} } #static_eval_enable(false) fn testReturnEmptyStructFromFnNoeval() -> EmptyStruct2 { EmptyStruct2 {} } #attribute("test") fn passSliceOfEmptyStructToFn() { assert(testPassSliceOfEmptyStructToFn([]EmptyStruct2{ EmptyStruct2{} }) == 1); } fn testPassSliceOfEmptyStructToFn(slice: []EmptyStruct2) -> usize { slice.len } #attribute("test") fn pointerComparison() { const a = ([]u8)("a"); const b = &a; assert(ptrEql(b, b)); } fn ptrEql(a: &[]u8, b: &[]u8) -> bool { a == b } #attribute("test") fn characterLiterals() { assert('\'' == single_quote); } const single_quote = '\''; #attribute("test") fn switchWithMultipleExpressions() { const x: i32 = switch (returnsFive()) { 1, 2, 3 => 1, 4, 5, 6 => 2, else => 3, }; assert(x == 2); } #static_eval_enable(false) fn returnsFive() -> i32 { 5 } #attribute("test") fn switchOnErrorUnion() { const x = switch (returnsTen()) { Ok => |val| val + 1, ItBroke, NoMem => 1, CrappedOut => 2, }; assert(x == 11); } error ItBroke; error NoMem; error CrappedOut; #static_eval_enable(false) fn returnsTen() -> %i32 { 10 } #attribute("test") fn boolCmp() { assert(testBoolCmp(true, false) == false); } #static_eval_enable(false) fn testBoolCmp(a: bool, b: bool) -> bool { a == b } #attribute("test") fn takeAddressOfParameter() { testTakeAddressOfParameter(12.34); testTakeAddressOfParameterNoeval(12.34); } fn testTakeAddressOfParameter(f: f32) { const f_ptr = &f; assert(*f_ptr == 12.34); } #static_eval_enable(false) fn testTakeAddressOfParameterNoeval(f: f32) { const f_ptr = &f; assert(*f_ptr == 12.34); } #attribute("test") fn arrayMultOperator() { assert(str.eql("ab" ** 5, "ababababab")); } #attribute("test") fn stringEscapes() { assert(str.eql("\"", "\x22")); assert(str.eql("\'", "\x27")); assert(str.eql("\n", "\x0a")); assert(str.eql("\r", "\x0d")); assert(str.eql("\t", "\x09")); assert(str.eql("\\", "\x5c")); assert(str.eql("\u1234\u0069", "\xe1\x88\xb4\x69")); } #attribute("test") fn ifVarMaybePointer() { assert(shouldBeAPlus1(Particle {.a = 14, .b = 1, .c = 1, .d = 1}) == 15); } #static_eval_enable(false) fn shouldBeAPlus1(p: Particle) -> u64 { var maybe_particle: ?Particle = p; if (const *particle ?= maybe_particle) { particle.a += 1; } if (const particle ?= maybe_particle) { return particle.a; } return 0; } struct Particle { a: u64, b: u64, c: u64, d: u64, } #attribute("test") fn assignToIfVarPtr() { var maybe_bool: ?bool = true; if (const *b ?= maybe_bool) { *b = false; } assert(??maybe_bool == false); } #attribute("test") fn cmpxchg() { var x: i32 = 1234; while (!@cmpxchg(&x, 1234, 5678, AtomicOrder.SeqCst, AtomicOrder.SeqCst)) {} assert(x == 5678); } #attribute("test") fn fence() { var x: i32 = 1234; @fence(AtomicOrder.SeqCst); x = 5678; } #attribute("test") fn unsignedWrapping() { testUnsignedWrappingEval(@maxValue(u32)); testUnsignedWrappingNoeval(@maxValue(u32)); } fn testUnsignedWrappingEval(x: u32) { const zero = x +% 1; assert(zero == 0); const orig = zero -% 1; assert(orig == @maxValue(u32)); } #static_eval_enable(false) fn testUnsignedWrappingNoeval(x: u32) { const zero = x +% 1; assert(zero == 0); const orig = zero -% 1; assert(orig == @maxValue(u32)); } #attribute("test") fn signedWrapping() { testSignedWrappingEval(@maxValue(i32)); testSignedWrappingNoeval(@maxValue(i32)); } fn testSignedWrappingEval(x: i32) { const min_val = x +% 1; assert(min_val == @minValue(i32)); const max_val = min_val -% 1; assert(max_val == @maxValue(i32)); } #static_eval_enable(false) fn testSignedWrappingNoeval(x: i32) { const min_val = x +% 1; assert(min_val == @minValue(i32)); const max_val = min_val -% 1; assert(max_val == @maxValue(i32)); } #attribute("test") fn negationWrapping() { testNegationWrappingEval(@minValue(i16)); testNegationWrappingNoeval(@minValue(i16)); } fn testNegationWrappingEval(x: i16) { assert(x == -32768); const neg = -%x; assert(neg == -32768); } #static_eval_enable(false) fn testNegationWrappingNoeval(x: i16) { assert(x == -32768); const neg = -%x; assert(neg == -32768); } #attribute("test") fn shlWrapping() { testShlWrappingEval(@maxValue(u16)); testShlWrappingNoeval(@maxValue(u16)); } fn testShlWrappingEval(x: u16) { const shifted = x <<% 1; assert(shifted == 65534); } #static_eval_enable(false) fn testShlWrappingNoeval(x: u16) { const shifted = x <<% 1; assert(shifted == 65534); } #attribute("test") fn shlWithOverflow() { var result: u16 = undefined; assert(@shlWithOverflow(u16, 0b0010111111111111, 3, &result)); assert(!@shlWithOverflow(u16, 0b0010111111111111, 2, &result)); assert(result == 0b1011111111111100); } #attribute("test") fn cStringConcatenation() { const a = c"OK" ++ c" IT " ++ c"WORKED"; const b = c"OK IT WORKED"; const len = cstr.len(b); const len_with_null = len + 1; {var i: u32 = 0; while (i < len_with_null; i += 1) { assert(a[i] == b[i]); }} assert(a[len] == 0); assert(b[len] == 0); } #attribute("test") fn genericStruct() { var a1 = GenNode(i32) {.value = 13, .next = null,}; var b1 = GenNode(bool) {.value = true, .next = null,}; assert(a1.value == 13); assert(a1.value == a1.getVal()); assert(b1.getVal()); } struct GenNode(T: type) { value: T, next: ?&GenNode(T), fn getVal(n: &const GenNode(T)) -> T { n.value } } #attribute("test") fn castSliceToU8Slice() { assert(@sizeOf(i32) == 4); var big_thing_array = []i32{1, 2, 3, 4}; const big_thing_slice: []i32 = big_thing_array; const bytes = ([]u8)(big_thing_slice); assert(bytes.len == 4 * 4); bytes[4] = 0; bytes[5] = 0; bytes[6] = 0; bytes[7] = 0; assert(big_thing_slice[1] == 0); const big_thing_again = ([]i32)(bytes); assert(big_thing_again[2] == 3); big_thing_again[2] = -1; assert(bytes[8] == @maxValue(u8)); assert(bytes[9] == @maxValue(u8)); assert(bytes[10] == @maxValue(u8)); assert(bytes[11] == @maxValue(u8)); } #attribute("test") fn floatDivision() { assert(fdiv32(12.0, 3.0) == 4.0); } #static_eval_enable(false) fn fdiv32(a: f32, b: f32) -> f32 { a / b } #attribute("test") fn exactDivision() { assert(divExact(55, 11) == 5); } #static_eval_enable(false) fn divExact(a: u32, b: u32) -> u32 { @divExact(a, b) } #attribute("test") fn nullLiteralOutsideFunction() { const is_null = if (const _ ?= here_is_a_null_literal.context) false else true; assert(is_null); } struct SillyStruct { context: ?i32, } const here_is_a_null_literal = SillyStruct { .context = null, }; #attribute("test") fn truncate() { assert(testTruncate(0x10fd) == 0xfd); } #static_eval_enable(false) fn testTruncate(x: u32) -> u8 { @truncate(u8, x) } #attribute("test") fn constDeclsInStruct() { assert(GenericDataThing(3).count_plus_one == 4); } struct GenericDataThing(count: isize) { const count_plus_one = count + 1; } #attribute("test") fn useGenericParamInGenericParam() { assert(aGenericFn(i32, 3, 4) == 7); } fn aGenericFn(inline T: type, inline a: T, b: T) -> T { return a + b; } #attribute("test") fn namespaceDependsOnCompileVar() { if (some_namespace.a_bool) { assert(some_namespace.a_bool); } else { assert(!some_namespace.a_bool); } } const some_namespace = switch(@compileVar("os")) { linux => @import("a.zig"), else => @import("b.zig"), }; #attribute("test") fn unsigned64BitDivision() { const result = div(1152921504606846976, 34359738365); assert(result.quotient == 33554432); assert(result.remainder == 100663296); } #static_eval_enable(false) fn div(a: u64, b: u64) -> DivResult { DivResult { .quotient = a / b, .remainder = a % b, } } struct DivResult { quotient: u64, remainder: u64, } #attribute("test") fn intTypeBuiltin() { assert(@intType(true, 8) == i8); assert(@intType(true, 16) == i16); assert(@intType(true, 32) == i32); assert(@intType(true, 64) == i64); assert(@intType(false, 8) == u8); assert(@intType(false, 16) == u16); assert(@intType(false, 32) == u32); assert(@intType(false, 64) == u64); assert(i8.bit_count == 8); assert(i16.bit_count == 16); assert(i32.bit_count == 32); assert(i64.bit_count == 64); assert(i8.is_signed); assert(i16.is_signed); assert(i32.is_signed); assert(i64.is_signed); assert(isize.is_signed); assert(!u8.is_signed); assert(!u16.is_signed); assert(!u32.is_signed); assert(!u64.is_signed); assert(!usize.is_signed); } #attribute("test") fn intToEnum() { testIntToEnumEval(3); testIntToEnumNoeval(3); } fn testIntToEnumEval(x: i32) { assert(IntToEnumNumber(x) == IntToEnumNumber.Three); } #static_eval_enable(false) fn testIntToEnumNoeval(x: i32) { assert(IntToEnumNumber(x) == IntToEnumNumber.Three); } enum IntToEnumNumber { Zero, One, Two, Three, Four, }