import "test_std.zig"; #attribute("test") fn empty_function() {} /** * multi line doc comment */ /// this is a documentation comment /// doc comment line 2 #attribute("test") fn comments() { comments_f1(/* mid-line comment /* nested */ */ "OK\n"); } fn comments_f1(s: []u8) {} #attribute("test") fn if_statements() { should_be_equal(1, 1); first_eql_third(2, 1, 2); } fn should_be_equal(a: i32, b: i32) { if (a != b) { unreachable{}; } else { return; } } fn first_eql_third(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 local_variables() { test_loc_vars(2); } fn test_loc_vars(b: i32) { const a: i32 = 1; if (a + b != 3) unreachable{}; } #attribute("test") fn bool_literals() { should_be_true(true); should_be_false(false); } fn should_be_true(b: bool) { if (!b) unreachable{}; } fn should_be_false(b: bool) { if (b) unreachable{}; } #attribute("test") fn separate_block_scopes() { { const no_conflict : i32 = 5; assert(no_conflict == 5); } const c = { const no_conflict = i32(10); no_conflict }; assert(c == 10); } #attribute("test") fn void_struct_fields() { 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") fn void_arrays() { var array: [4]void = undefined; array[0] = void{}; array[1] = array[2]; assert(@sizeof(@typeof(array)) == 0); assert(array.len == 4); } #attribute("test") fn three_expr_in_a_row() { assert_false(false || false || false); assert_false(true && true && false); assert_false(1 | 2 | 4 != 7); assert_false(3 ^ 6 ^ 8 != 13); assert_false(7 & 14 & 28 != 4); assert_false(9 << 1 << 2 != 9 << 3); assert_false(90 >> 1 >> 2 != 90 >> 3); assert_false(100 - 1 + 1000 != 1099); assert_false(5 * 4 / 2 % 3 != 1); assert_false(i32(i32(5)) != 5); assert_false(!!false); assert_false(i32(7) != --(i32(7))); } fn assert_false(b: bool) { assert(!b); } #attribute("test") fn maybe_type() { 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 enum_type() { const foo1 = EnumTypeFoo.One(13); const foo2 = EnumTypeFoo.Two(EnumType { .x = 1234, .y = 5678, }); const bar = EnumTypeBar.B; assert(bar == EnumTypeBar.B); assert(@member_count(EnumTypeFoo) == 3); assert(@member_count(EnumTypeBar) == 4); const expected_foo_size = switch (@compile_var("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 array_literal() { const HEX_MULT = []u16{4096, 256, 16, 1}; assert(HEX_MULT.len == 4); assert(HEX_MULT[1] == 256); } #attribute("test") fn const_number_literal() { const one = 1; const eleven = ten + one; assert(eleven == 11); } const ten = 10; #attribute("test") fn error_values() { const a = i32(error.err1); const b = i32(error.err2); assert(a != b); } error err1; error err2; #attribute("test") fn fn_call_of_struct_field() { if (call_struct_field(Foo {.ptr = a_func,}) != 13) { unreachable{}; } } struct Foo { ptr: fn() -> i32, } fn a_func() -> i32 { 13 } fn call_struct_field(foo: Foo) -> i32 { return foo.ptr(); } #attribute("test") fn redefinition_of_error_values_allowed() { should_be_not_equal(error.AnError, error.SecondError); } error AnError; error AnError; error SecondError; fn should_be_not_equal(a: error, b: error) { if (a == b) unreachable{} } #attribute("test") fn constant_enum_with_payload() { var empty = AnEnumWithPayload.Empty; var full = AnEnumWithPayload.Full(13); should_be_empty(empty); should_be_not_empty(full); } fn should_be_empty(x: AnEnumWithPayload) { switch (x) { Empty => {}, else => unreachable{}, } } fn should_be_not_empty(x: AnEnumWithPayload) { switch (x) { Empty => unreachable{}, else => {}, } } enum AnEnumWithPayload { Empty, Full: i32, } #attribute("test") fn continue_in_for_loop() { 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 cast_bool_to_int() { const t = true; const f = false; assert(i32(t) == i32(1)); assert(i32(f) == i32(0)); non_const_cast_bool_to_int(t, f); } fn non_const_cast_bool_to_int(t: bool, f: bool) { assert(i32(t) == i32(1)); assert(i32(f) == i32(0)); } #attribute("test") fn switch_on_enum() { const fruit = Fruit.Orange; non_const_switch_on_enum(fruit); } enum Fruit { Apple, Orange, Banana, } fn non_const_switch_on_enum(fruit: Fruit) { switch (fruit) { Apple => unreachable{}, Orange => {}, Banana => unreachable{}, } } #attribute("test") fn switch_statement() { non_const_switch(SwitchStatmentFoo.C); } fn non_const_switch(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 switch_prong_with_var() { switch_prong_with_var_fn(SwitchProngWithVarEnum.One(13)); switch_prong_with_var_fn(SwitchProngWithVarEnum.Two(13.0)); switch_prong_with_var_fn(SwitchProngWithVarEnum.Meh); } enum SwitchProngWithVarEnum { One: i32, Two: f32, Meh, } fn switch_prong_with_var_fn(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 err_return_in_assignment() { %%do_err_return_in_assignment(); } fn do_err_return_in_assignment() -> %void { var x : i32 = undefined; x = %return make_a_non_err(); } fn make_a_non_err() -> %i32 { return 1; } #attribute("test") fn rhs_maybe_unwrap_return() { const x = ?true; const y = x ?? return; } #attribute("test") fn implicit_cast_fn_unreachable_return() { wants_fn_with_void(fn_with_unreachable); } fn wants_fn_with_void(f: fn()) { } fn fn_with_unreachable() -> unreachable { unreachable {} } #attribute("test") fn explicit_cast_maybe_pointers() { const a: ?&i32 = undefined; const b: ?&f32 = (?&f32)(a); } #attribute("test") fn const_expr_eval_on_single_expr_blocks() { if (const_expr_eval_on_single_expr_blocks_fn(1, true) != 3) unreachable{} } fn const_expr_eval_on_single_expr_blocks_fn(x: i32, b: bool) -> i32 { const literal = 3; const result = if (b) { literal } else { x }; return result; } #attribute("test") fn builtin_const_eval() { const x : i32 = @const_eval(1 + 2 + 3); assert(x == @const_eval(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 memcpy_and_memset_intrinsics() { 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 array_dot_len_const_expr() { } struct ArrayDotLenConstExpr { y: [@const_eval(some_array.len)]u8, } const some_array = []u8 {0, 1, 2, 3}; fn assert(b: bool) { if (!b) unreachable{} }