/* * Copyright (c) 2015 Andrew Kelley * * This file is part of zig, which is MIT licensed. * See http://opensource.org/licenses/MIT */ #include "list.hpp" #include "buffer.hpp" #include "os.hpp" #include "error.hpp" #include #include struct TestSourceFile { const char *relative_path; const char *source_code; }; struct TestCase { const char *case_name; const char *output; ZigList source_files; ZigList compile_errors; ZigList compiler_args; ZigList program_args; bool is_parseh; bool is_self_hosted; }; static ZigList test_cases = {0}; static const char *tmp_source_path = ".tmp_source.zig"; static const char *tmp_h_path = ".tmp_header.h"; #if defined(_WIN32) static const char *tmp_exe_path = "./.tmp_exe.exe"; static const char *zig_exe = "./zig.exe"; #define NL "\r\n" #else static const char *tmp_exe_path = "./.tmp_exe"; static const char *zig_exe = "./zig"; #define NL "\n" #endif static void add_source_file(TestCase *test_case, const char *path, const char *source) { test_case->source_files.add_one(); test_case->source_files.last().relative_path = path; test_case->source_files.last().source_code = source; } static TestCase *add_simple_case(const char *case_name, const char *source, const char *output) { TestCase *test_case = allocate(1); test_case->case_name = case_name; test_case->output = output; test_case->source_files.resize(1); test_case->source_files.at(0).relative_path = tmp_source_path; test_case->source_files.at(0).source_code = source; test_case->compiler_args.append("build"); test_case->compiler_args.append(tmp_source_path); test_case->compiler_args.append("--export"); test_case->compiler_args.append("exe"); test_case->compiler_args.append("--name"); test_case->compiler_args.append("test"); test_case->compiler_args.append("--output"); test_case->compiler_args.append(tmp_exe_path); test_case->compiler_args.append("--release"); test_case->compiler_args.append("--strip"); test_case->compiler_args.append("--color"); test_case->compiler_args.append("on"); test_case->compiler_args.append("--check-unused"); test_cases.append(test_case); return test_case; } static TestCase *add_simple_case_libc(const char *case_name, const char *source, const char *output) { TestCase *tc = add_simple_case(case_name, source, output); tc->compiler_args.append("--library"); tc->compiler_args.append("c"); return tc; } static TestCase *add_compile_fail_case(const char *case_name, const char *source, int count, ...) { va_list ap; va_start(ap, count); TestCase *test_case = allocate(1); test_case->case_name = case_name; test_case->source_files.resize(1); test_case->source_files.at(0).relative_path = tmp_source_path; test_case->source_files.at(0).source_code = source; for (int i = 0; i < count; i += 1) { const char *arg = va_arg(ap, const char *); test_case->compile_errors.append(arg); } test_case->compiler_args.append("build"); test_case->compiler_args.append(tmp_source_path); test_case->compiler_args.append("--name"); test_case->compiler_args.append("test"); test_case->compiler_args.append("--export"); test_case->compiler_args.append("obj"); test_case->compiler_args.append("--output"); test_case->compiler_args.append(tmp_exe_path); test_case->compiler_args.append("--release"); test_case->compiler_args.append("--strip"); test_case->compiler_args.append("--check-unused"); test_cases.append(test_case); va_end(ap); return test_case; } static TestCase *add_parseh_case(const char *case_name, const char *source, int count, ...) { va_list ap; va_start(ap, count); TestCase *test_case = allocate(1); test_case->case_name = case_name; test_case->is_parseh = true; test_case->source_files.resize(1); test_case->source_files.at(0).relative_path = tmp_h_path; test_case->source_files.at(0).source_code = source; for (int i = 0; i < count; i += 1) { const char *arg = va_arg(ap, const char *); test_case->compile_errors.append(arg); } test_case->compiler_args.append("parseh"); test_case->compiler_args.append(tmp_h_path); test_case->compiler_args.append("--verbose"); test_cases.append(test_case); va_end(ap); return test_case; } static void add_compiling_test_cases(void) { add_simple_case_libc("hello world with libc", R"SOURCE( const c = @c_import(@c_include("stdio.h")); export fn main(argc: c_int, argv: &&u8) -> c_int { c.puts(c"Hello, world!"); return 0; } )SOURCE", "Hello, world!" NL); { TestCase *tc = add_simple_case("multiple files with private function", R"SOURCE( use @import("std").io; use @import("foo.zig"); pub fn main(args: [][]u8) -> %void { private_function(); %%stdout.printf("OK 2\n"); } fn private_function() { print_text(); } )SOURCE", "OK 1\nOK 2\n"); add_source_file(tc, "foo.zig", R"SOURCE( use @import("std").io; // purposefully conflicting function with main.zig // but it's private so it should be OK fn private_function() { %%stdout.printf("OK 1\n"); } pub fn print_text() { private_function(); } )SOURCE"); } { TestCase *tc = add_simple_case("import segregation", R"SOURCE( use @import("foo.zig"); use @import("bar.zig"); pub fn main(args: [][]u8) -> %void { foo_function(); bar_function(); } )SOURCE", "OK\nOK\n"); add_source_file(tc, "foo.zig", R"SOURCE( use @import("std").io; pub fn foo_function() { %%stdout.printf("OK\n"); } )SOURCE"); add_source_file(tc, "bar.zig", R"SOURCE( use @import("other.zig"); use @import("std").io; pub fn bar_function() { if (foo_function()) { %%stdout.printf("OK\n"); } } )SOURCE"); add_source_file(tc, "other.zig", R"SOURCE( pub fn foo_function() -> bool { // this one conflicts with the one from foo return true; } )SOURCE"); } { TestCase *tc = add_simple_case("two files use import each other", R"SOURCE( use @import("a.zig"); pub fn main(args: [][]u8) -> %void { ok(); } )SOURCE", "OK\n"); add_source_file(tc, "a.zig", R"SOURCE( use @import("b.zig"); const io = @import("std").io; pub const a_text = "OK\n"; pub fn ok() { %%io.stdout.printf(b_text); } )SOURCE"); add_source_file(tc, "b.zig", R"SOURCE( use @import("a.zig"); pub const b_text = a_text; )SOURCE"); } add_simple_case("params", R"SOURCE( const io = @import("std").io; fn add(a: i32, b: i32) -> i32 { a + b } pub fn main(args: [][]u8) -> %void { if (add(22, 11) == 33) { %%io.stdout.printf("pass\n"); } } )SOURCE", "pass\n"); add_simple_case("void parameters", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { void_fun(1, void{}, 2); } fn void_fun(a : i32, b : void, c : i32) { const v = b; const vv : void = if (a == 1) {v} else {}; if (a + c == 3) { %%io.stdout.printf("OK\n"); } return vv; } )SOURCE", "OK\n"); add_simple_case("mutable local variables", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { var zero : i32 = 0; if (zero == 0) { %%io.stdout.printf("zero\n"); } var i = i32(0); while (i != 3) { %%io.stdout.printf("loop\n"); i += 1; } } )SOURCE", "zero\nloop\nloop\nloop\n"); add_simple_case("arrays", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { var array : [5]i32 = undefined; var i : i32 = 0; while (i < 5) { array[i] = i + 1; i = array[i]; } i = 0; var accumulator = i32(0); while (i < 5) { accumulator += array[i]; i += 1; } if (accumulator == 15) { %%io.stdout.printf("OK\n"); } if (get_array_len(array) != 5) { %%io.stdout.printf("BAD\n"); } } fn get_array_len(a: []i32) -> isize { a.len } )SOURCE", "OK\n"); add_simple_case("hello world without libc", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { %%io.stdout.printf("Hello, world!\n"); } )SOURCE", "Hello, world!\n"); add_simple_case("short circuit", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { if (true || { %%io.stdout.printf("BAD 1\n"); false }) { %%io.stdout.printf("OK 1\n"); } if (false || { %%io.stdout.printf("OK 2\n"); false }) { %%io.stdout.printf("BAD 2\n"); } if (true && { %%io.stdout.printf("OK 3\n"); false }) { %%io.stdout.printf("BAD 3\n"); } if (false && { %%io.stdout.printf("BAD 4\n"); false }) { } else { %%io.stdout.printf("OK 4\n"); } } )SOURCE", "OK 1\nOK 2\nOK 3\nOK 4\n"); add_simple_case("modify operators", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { var i : i32 = 0; i += 5; if (i != 5) { %%io.stdout.printf("BAD +=\n"); } i -= 2; if (i != 3) { %%io.stdout.printf("BAD -=\n"); } i *= 20; if (i != 60) { %%io.stdout.printf("BAD *=\n"); } i /= 3; if (i != 20) { %%io.stdout.printf("BAD /=\n"); } i %= 11; if (i != 9) { %%io.stdout.printf("BAD %=\n"); } i <<= 1; if (i != 18) { %%io.stdout.printf("BAD <<=\n"); } i >>= 2; if (i != 4) { %%io.stdout.printf("BAD >>=\n"); } i = 6; i &= 5; if (i != 4) { %%io.stdout.printf("BAD &=\n"); } i ^= 6; if (i != 2) { %%io.stdout.printf("BAD ^=\n"); } i = 6; i |= 3; if (i != 7) { %%io.stdout.printf("BAD |=\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case_libc("number literals", R"SOURCE( const c = @c_import(@c_include("stdio.h")); export fn main(argc: c_int, argv: &&u8) -> c_int { c.printf(c"\n"); c.printf(c"0: %llu\n", u64(0)); c.printf(c"320402575052271: %llu\n", u64(320402575052271)); c.printf(c"0x01236789abcdef: %llu\n", u64(0x01236789abcdef)); c.printf(c"0xffffffffffffffff: %llu\n", u64(0xffffffffffffffff)); c.printf(c"0x000000ffffffffffffffff: %llu\n", u64(0x000000ffffffffffffffff)); c.printf(c"0o1777777777777777777777: %llu\n", u64(0o1777777777777777777777)); c.printf(c"0o0000001777777777777777777777: %llu\n", u64(0o0000001777777777777777777777)); c.printf(c"0b1111111111111111111111111111111111111111111111111111111111111111: %llu\n", u64(0b1111111111111111111111111111111111111111111111111111111111111111)); c.printf(c"0b0000001111111111111111111111111111111111111111111111111111111111111111: %llu\n", u64(0b0000001111111111111111111111111111111111111111111111111111111111111111)); c.printf(c"\n"); c.printf(c"0.0: %a\n", f64(0.0)); c.printf(c"0e0: %a\n", f64(0e0)); c.printf(c"0.0e0: %a\n", f64(0.0e0)); c.printf(c"000000000000000000000000000000000000000000000000000000000.0e0: %a\n", f64(000000000000000000000000000000000000000000000000000000000.0e0)); c.printf(c"0.000000000000000000000000000000000000000000000000000000000e0: %a\n", f64(0.000000000000000000000000000000000000000000000000000000000e0)); c.printf(c"0.0e000000000000000000000000000000000000000000000000000000000: %a\n", f64(0.0e000000000000000000000000000000000000000000000000000000000)); c.printf(c"1.0: %a\n", f64(1.0)); c.printf(c"10.0: %a\n", f64(10.0)); c.printf(c"10.5: %a\n", f64(10.5)); c.printf(c"10.5e5: %a\n", f64(10.5e5)); c.printf(c"10.5e+5: %a\n", f64(10.5e+5)); c.printf(c"50.0e-2: %a\n", f64(50.0e-2)); c.printf(c"50e-2: %a\n", f64(50e-2)); c.printf(c"\n"); c.printf(c"0x1.0: %a\n", f64(0x1.0)); c.printf(c"0x10.0: %a\n", f64(0x10.0)); c.printf(c"0x100.0: %a\n", f64(0x100.0)); c.printf(c"0x103.0: %a\n", f64(0x103.0)); c.printf(c"0x103.7: %a\n", f64(0x103.7)); c.printf(c"0x103.70: %a\n", f64(0x103.70)); c.printf(c"0x103.70p4: %a\n", f64(0x103.70p4)); c.printf(c"0x103.70p5: %a\n", f64(0x103.70p5)); c.printf(c"0x103.70p+5: %a\n", f64(0x103.70p+5)); c.printf(c"0x103.70p-5: %a\n", f64(0x103.70p-5)); c.printf(c"\n"); c.printf(c"0b10100.00010e0: %a\n", f64(0b10100.00010e0)); c.printf(c"0o10700.00010e0: %a\n", f64(0o10700.00010e0)); return 0; } )SOURCE", R"OUTPUT( 0: 0 320402575052271: 320402575052271 0x01236789abcdef: 320402575052271 0xffffffffffffffff: 18446744073709551615 0x000000ffffffffffffffff: 18446744073709551615 0o1777777777777777777777: 18446744073709551615 0o0000001777777777777777777777: 18446744073709551615 0b1111111111111111111111111111111111111111111111111111111111111111: 18446744073709551615 0b0000001111111111111111111111111111111111111111111111111111111111111111: 18446744073709551615 0.0: 0x0p+0 0e0: 0x0p+0 0.0e0: 0x0p+0 000000000000000000000000000000000000000000000000000000000.0e0: 0x0p+0 0.000000000000000000000000000000000000000000000000000000000e0: 0x0p+0 0.0e000000000000000000000000000000000000000000000000000000000: 0x0p+0 1.0: 0x1p+0 10.0: 0x1.4p+3 10.5: 0x1.5p+3 10.5e5: 0x1.0059p+20 10.5e+5: 0x1.0059p+20 50.0e-2: 0x1p-1 50e-2: 0x1p-1 0x1.0: 0x1p+0 0x10.0: 0x1p+4 0x100.0: 0x1p+8 0x103.0: 0x1.03p+8 0x103.7: 0x1.037p+8 0x103.70: 0x1.037p+8 0x103.70p4: 0x1.037p+12 0x103.70p5: 0x1.037p+13 0x103.70p+5: 0x1.037p+13 0x103.70p-5: 0x1.037p+3 0b10100.00010e0: 0x1.41p+4 0o10700.00010e0: 0x1.1c0001p+12 )OUTPUT"); add_simple_case("structs", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { var foo : Foo = undefined; @memset(&foo, 0, @sizeof(Foo)); foo.a += 1; foo.b = foo.a == 1; test_foo(foo); test_mutation(&foo); if (foo.c != 100) { %%io.stdout.printf("BAD\n"); } test_point_to_self(); test_byval_assign(); test_initializer(); %%io.stdout.printf("OK\n"); } struct Foo { a : i32, b : bool, c : f32, } fn test_foo(foo : Foo) { if (!foo.b) { %%io.stdout.printf("BAD\n"); } } fn test_mutation(foo : &Foo) { foo.c = 100; } struct Node { val: Val, next: &Node, } struct Val { x: i32, } fn test_point_to_self() { var root : Node = undefined; root.val.x = 1; var node : Node = undefined; node.next = &root; node.val.x = 2; root.next = &node; if (node.next.next.next.val.x != 1) { %%io.stdout.printf("BAD\n"); } } fn test_byval_assign() { var foo1 : Foo = undefined; var foo2 : Foo = undefined; foo1.a = 1234; if (foo2.a != 0) { %%io.stdout.printf("BAD\n"); } foo2 = foo1; if (foo2.a != 1234) { %%io.stdout.printf("BAD - byval assignment failed\n"); } } fn test_initializer() { const val = Val { .x = 42 }; if (val.x != 42) { %%io.stdout.printf("BAD\n"); } } )SOURCE", "OK\n"); add_simple_case("global variables", R"SOURCE( const io = @import("std").io; const g1 : i32 = 1233 + 1; var g2 : i32 = 0; pub fn main(args: [][]u8) -> %void { if (g2 != 0) { %%io.stdout.printf("BAD\n"); } g2 = g1; if (g2 != 1234) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("while loop", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { var i : i32 = 0; while (i < 4) { %%io.stdout.printf("loop\n"); i += 1; } g(); } fn g() -> i32 { return f(); } fn f() -> i32 { while (true) { return 0; } } )SOURCE", "loop\nloop\nloop\nloop\n"); add_simple_case("continue and break", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { var i : i32 = 0; while (true) { %%io.stdout.printf("loop\n"); i += 1; if (i < 4) { continue; } break; } } )SOURCE", "loop\nloop\nloop\nloop\n"); add_simple_case("implicit cast after unreachable", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { const x = outer(); if (x == 1234) { %%io.stdout.printf("OK\n"); } } fn inner() -> i32 { 1234 } fn outer() -> isize { return inner(); } )SOURCE", "OK\n"); add_simple_case("@sizeof() and @typeof()", R"SOURCE( const io = @import("std").io; const x: u16 = 13; const z: @typeof(x) = 19; pub fn main(args: [][]u8) -> %void { const y: @typeof(x) = 120; %%io.stdout.print_u64(@sizeof(@typeof(y))); %%io.stdout.printf("\n"); } )SOURCE", "2\n"); add_simple_case("member functions", R"SOURCE( const io = @import("std").io; struct Rand { seed: u32, pub fn get_seed(r: Rand) -> u32 { r.seed } } pub fn main(args: [][]u8) -> %void { const r = Rand {.seed = 1234}; if (r.get_seed() != 1234) { %%io.stdout.printf("BAD seed\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("pointer dereferencing", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { var x = i32(3); const y = &x; *y += 1; if (x != 4) { %%io.stdout.printf("BAD\n"); } if (*y != 4) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("constant expressions", R"SOURCE( const io = @import("std").io; const ARRAY_SIZE : i8 = 20; pub fn main(args: [][]u8) -> %void { var array : [ARRAY_SIZE]u8 = undefined; %%io.stdout.print_u64(@sizeof(@typeof(array))); %%io.stdout.printf("\n"); } )SOURCE", "20\n"); add_simple_case("@min_value() and @max_value()", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { %%io.stdout.printf("max u8: "); %%io.stdout.print_u64(@max_value(u8)); %%io.stdout.printf("\n"); %%io.stdout.printf("max u16: "); %%io.stdout.print_u64(@max_value(u16)); %%io.stdout.printf("\n"); %%io.stdout.printf("max u32: "); %%io.stdout.print_u64(@max_value(u32)); %%io.stdout.printf("\n"); %%io.stdout.printf("max u64: "); %%io.stdout.print_u64(@max_value(u64)); %%io.stdout.printf("\n"); %%io.stdout.printf("max i8: "); %%io.stdout.print_i64(@max_value(i8)); %%io.stdout.printf("\n"); %%io.stdout.printf("max i16: "); %%io.stdout.print_i64(@max_value(i16)); %%io.stdout.printf("\n"); %%io.stdout.printf("max i32: "); %%io.stdout.print_i64(@max_value(i32)); %%io.stdout.printf("\n"); %%io.stdout.printf("max i64: "); %%io.stdout.print_i64(@max_value(i64)); %%io.stdout.printf("\n"); %%io.stdout.printf("min u8: "); %%io.stdout.print_u64(@min_value(u8)); %%io.stdout.printf("\n"); %%io.stdout.printf("min u16: "); %%io.stdout.print_u64(@min_value(u16)); %%io.stdout.printf("\n"); %%io.stdout.printf("min u32: "); %%io.stdout.print_u64(@min_value(u32)); %%io.stdout.printf("\n"); %%io.stdout.printf("min u64: "); %%io.stdout.print_u64(@min_value(u64)); %%io.stdout.printf("\n"); %%io.stdout.printf("min i8: "); %%io.stdout.print_i64(@min_value(i8)); %%io.stdout.printf("\n"); %%io.stdout.printf("min i16: "); %%io.stdout.print_i64(@min_value(i16)); %%io.stdout.printf("\n"); %%io.stdout.printf("min i32: "); %%io.stdout.print_i64(@min_value(i32)); %%io.stdout.printf("\n"); %%io.stdout.printf("min i64: "); %%io.stdout.print_i64(@min_value(i64)); %%io.stdout.printf("\n"); } )SOURCE", "max u8: 255\n" "max u16: 65535\n" "max u32: 4294967295\n" "max u64: 18446744073709551615\n" "max i8: 127\n" "max i16: 32767\n" "max i32: 2147483647\n" "max i64: 9223372036854775807\n" "min u8: 0\n" "min u16: 0\n" "min u32: 0\n" "min u64: 0\n" "min i8: -128\n" "min i16: -32768\n" "min i32: -2147483648\n" "min i64: -9223372036854775808\n"); add_simple_case("else if expression", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { if (f(1) == 1) { %%io.stdout.printf("OK\n"); } } fn f(c: u8) -> u8 { if (c == 0) { 0 } else if (c == 1) { 1 } else { 2 } } )SOURCE", "OK\n"); add_simple_case("overflow intrinsics", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { var result: u8 = undefined; if (!@add_with_overflow(u8, 250, 100, &result)) { %%io.stdout.printf("BAD\n"); } if (@add_with_overflow(u8, 100, 150, &result)) { %%io.stdout.printf("BAD\n"); } if (result != 250) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("order-independent declarations", R"SOURCE( const io = @import("std").io; const z = io.stdin_fileno; const x : @typeof(y) = 1234; const y : u16 = 5678; pub fn main(args: [][]u8) -> %void { var x_local : i32 = print_ok(x); } fn print_ok(val: @typeof(x)) -> @typeof(foo) { %%io.stdout.printf("OK\n"); return 0; } const foo : i32 = 0; )SOURCE", "OK\n"); add_simple_case("nested arrays", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { const array_of_strings = [][]u8 {"hello", "this", "is", "my", "thing"}; for (array_of_strings) |str| { %%io.stdout.printf(str); %%io.stdout.printf("\n"); } } )SOURCE", "hello\nthis\nis\nmy\nthing\n"); add_simple_case("for loops", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { const array = []u8 {9, 8, 7, 6}; for (array) |item| { %%io.stdout.print_u64(item); %%io.stdout.printf("\n"); } for (array) |item, index| { %%io.stdout.print_i64(index); %%io.stdout.printf("\n"); } const unknown_size: []u8 = array; for (unknown_size) |item| { %%io.stdout.print_u64(item); %%io.stdout.printf("\n"); } for (unknown_size) |item, index| { %%io.stdout.print_i64(index); %%io.stdout.printf("\n"); } } )SOURCE", "9\n8\n7\n6\n0\n1\n2\n3\n9\n8\n7\n6\n0\n1\n2\n3\n"); add_simple_case("function pointers", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { const fns = []@typeof(fn1) { fn1, fn2, fn3, fn4, }; for (fns) |f| { %%io.stdout.print_u64(f()); %%io.stdout.printf("\n"); } } fn fn1() -> u32 {5} fn fn2() -> u32 {6} fn fn3() -> u32 {7} fn fn4() -> u32 {8} )SOURCE", "5\n6\n7\n8\n"); add_simple_case("statically initialized struct", R"SOURCE( const io = @import("std").io; struct Foo { x: i32, y: bool, } var foo = Foo { .x = 13, .y = true, }; pub fn main(args: [][]u8) -> %void { foo.x += 1; if (foo.x != 14) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("statically initialized array literal", R"SOURCE( const io = @import("std").io; const x = []u8{1,2,3,4}; pub fn main(args: [][]u8) -> %void { const y : [4]u8 = x; if (y[3] != 4) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("return with implicit cast from while loop", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { while (true) { %%io.stdout.printf("OK\n"); return; } } )SOURCE", "OK\n"); add_simple_case("return struct byval from function", R"SOURCE( const io = @import("std").io; struct Foo { x: i32, y: i32, } fn make_foo(x: i32, y: i32) -> Foo { Foo { .x = x, .y = y, } } pub fn main(args: [][]u8) -> %void { const foo = make_foo(1234, 5678); if (foo.y != 5678) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("%% binary operator", R"SOURCE( const io = @import("std").io; error ItBroke; fn g(x: bool) -> %isize { if (x) { error.ItBroke } else { 10 } } pub fn main(args: [][]u8) -> %void { const a = g(true) %% 3; const b = g(false) %% 3; if (a != 3) { %%io.stdout.printf("BAD\n"); } if (b != 10) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("string concatenation", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { %%io.stdout.printf("OK" ++ " IT " ++ "WORKED\n"); } )SOURCE", "OK IT WORKED\n"); add_simple_case("constant struct with negation", R"SOURCE( const io = @import("std").io; 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 }, }; pub fn main(args: [][]u8) -> %void { if (vertices[0].x != -0.6) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("int to ptr cast", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { const x = isize(13); const y = (&u8)(x); const z = usize(y); if (z != 13) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("pointer to void return type", R"SOURCE( const io = @import("std").io; const x = void{}; fn f() -> &void { %%io.stdout.printf("OK\n"); return &x; } pub fn main(args: [][]u8) -> %void { const a = f(); return *a; } )SOURCE", "OK\n"); add_simple_case("unwrap simple value from error", R"SOURCE( const io = @import("std").io; fn do() -> %isize { 13 } pub fn main(args: [][]u8) -> %void { const i = %%do(); if (i != 13) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("store member function in variable", R"SOURCE( const io = @import("std").io; struct Foo { x: i32, fn member(foo: Foo) -> i32 { foo.x } } pub fn main(args: [][]u8) -> %void { const instance = Foo { .x = 1234, }; const member_fn = Foo.member; const result = member_fn(instance); if (result != 1234) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("call member function directly", R"SOURCE( const io = @import("std").io; struct Foo { x: i32, fn member(foo: Foo) -> i32 { foo.x } } pub fn main(args: [][]u8) -> %void { const instance = Foo { .x = 1234, }; const result = Foo.member(instance); if (result != 1234) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("call result of if else expression", R"SOURCE( const io = @import("std").io; fn a() -> []u8 { "a\n" } fn b() -> []u8 { "b\n" } fn f(x: bool) { %%io.stdout.printf((if (x) a else b)()); } pub fn main(args: [][]u8) -> %void { f(true); f(false); } )SOURCE", "a\nb\n"); add_simple_case_libc("expose function pointer to C land", R"SOURCE( const c = @c_import(@c_include("stdlib.h")); export fn compare_fn(a: ?&const c_void, b: ?&const c_void) -> c_int { const a_int = (&i32)(a ?? unreachable{}); const b_int = (&i32)(b ?? unreachable{}); if (*a_int < *b_int) { -1 } else if (*a_int > *b_int) { 1 } else { 0 } } export fn main(args: c_int, argv: &&u8) -> c_int { var array = []i32 { 1, 7, 3, 2, 0, 9, 4, 8, 6, 5 }; c.qsort((&c_void)(&array[0]), c_ulong(array.len), @sizeof(i32), compare_fn); for (array) |item, i| { if (item != i) { c.abort(); } } return 0; } )SOURCE", ""); add_simple_case_libc("casting between float and integer types", R"SOURCE( const c = @c_import(@c_include("stdio.h")); export fn main(argc: c_int, argv: &&u8) -> c_int { const small: f32 = 3.25; const x: f64 = small; const y = i32(x); const z = f64(y); c.printf(c"%.2f\n%d\n%.2f\n%.2f\n", x, y, z, f64(-0.4)); return 0; } )SOURCE", "3.25\n3\n3.00\n-0.40\n"); add_simple_case("const expression eval handling of variables", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { var x = true; while (x) { x = false; } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("incomplete struct parameter top level decl", R"SOURCE( const io = @import("std").io; struct A { b: B, } struct B { c: C, } struct C { x: i32, fn d(c: C) { %%io.stdout.printf("OK\n"); } } fn foo(a: A) { a.b.c.d(); } pub fn main(args: [][]u8) -> %void { const a = A { .b = B { .c = C { .x = 13, }, }, }; foo(a); } )SOURCE", "OK\n"); add_simple_case("same named methods in incomplete struct", R"SOURCE( const io = @import("std").io; struct Foo { field1: Bar, fn method(a: &Foo) -> bool { true } } struct Bar { field2: i32, fn method(b: &Bar) -> bool { true } } pub fn main(args: [][]u8) -> %void { const bar = Bar {.field2 = 13,}; const foo = Foo {.field1 = bar,}; if (!foo.method()) { %%io.stdout.printf("BAD\n"); } if (!bar.method()) { %%io.stdout.printf("BAD\n"); } %%io.stdout.printf("OK\n"); } )SOURCE", "OK\n"); add_simple_case("defer with only fallthrough", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { %%io.stdout.printf("before\n"); defer %%io.stdout.printf("defer1\n"); defer %%io.stdout.printf("defer2\n"); defer %%io.stdout.printf("defer3\n"); %%io.stdout.printf("after\n"); } )SOURCE", "before\nafter\ndefer3\ndefer2\ndefer1\n"); add_simple_case("defer with return", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { %%io.stdout.printf("before\n"); defer %%io.stdout.printf("defer1\n"); defer %%io.stdout.printf("defer2\n"); if (args.len == 1) return; defer %%io.stdout.printf("defer3\n"); %%io.stdout.printf("after\n"); } )SOURCE", "before\ndefer2\ndefer1\n"); add_simple_case("%defer and it fails", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { do_test() %% return; } fn do_test() -> %void { %%io.stdout.printf("before\n"); defer %%io.stdout.printf("defer1\n"); %defer %%io.stdout.printf("deferErr\n"); %return its_gonna_fail(); defer %%io.stdout.printf("defer3\n"); %%io.stdout.printf("after\n"); } error IToldYouItWouldFail; fn its_gonna_fail() -> %void { return error.IToldYouItWouldFail; } )SOURCE", "before\ndeferErr\ndefer1\n"); add_simple_case("%defer and it passes", R"SOURCE( const io = @import("std").io; pub fn main(args: [][]u8) -> %void { do_test() %% return; } fn do_test() -> %void { %%io.stdout.printf("before\n"); defer %%io.stdout.printf("defer1\n"); %defer %%io.stdout.printf("deferErr\n"); %return its_gonna_pass(); defer %%io.stdout.printf("defer3\n"); %%io.stdout.printf("after\n"); } fn its_gonna_pass() -> %void { } )SOURCE", "before\nafter\ndefer3\ndefer1\n"); } //////////////////////////////////////////////////////////////////////////////////// static void add_compile_failure_test_cases(void) { add_compile_fail_case("multiple function definitions", R"SOURCE( fn a() {} fn a() {} )SOURCE", 1, ".tmp_source.zig:3:1: error: redefinition of 'a'"); add_compile_fail_case("bad directive", R"SOURCE( #bogus1("") extern fn b(); #bogus2("") fn a() {} )SOURCE", 2, ".tmp_source.zig:2:1: error: invalid directive: 'bogus1'", ".tmp_source.zig:4:1: error: invalid directive: 'bogus2'"); add_compile_fail_case("unreachable with return", R"SOURCE( fn a() -> unreachable {return;} )SOURCE", 1, ".tmp_source.zig:2:24: error: expected type 'unreachable', got 'void'"); add_compile_fail_case("control reaches end of non-void function", R"SOURCE( fn a() -> i32 {} )SOURCE", 1, ".tmp_source.zig:2:15: error: expected type 'i32', got 'void'"); add_compile_fail_case("undefined function call", R"SOURCE( fn a() { b(); } )SOURCE", 1, ".tmp_source.zig:3:5: error: use of undeclared identifier 'b'"); add_compile_fail_case("wrong number of arguments", R"SOURCE( fn a() { b(1); } fn b(a: i32, b: i32, c: i32) { } )SOURCE", 1, ".tmp_source.zig:3:6: error: expected 3 arguments, got 1"); add_compile_fail_case("invalid type", R"SOURCE( fn a() -> bogus {} )SOURCE", 1, ".tmp_source.zig:2:11: error: use of undeclared identifier 'bogus'"); add_compile_fail_case("pointer to unreachable", R"SOURCE( fn a() -> &unreachable {} )SOURCE", 1, ".tmp_source.zig:2:11: error: pointer to unreachable not allowed"); add_compile_fail_case("unreachable code", R"SOURCE( fn a() { return; b(); } fn b() {} )SOURCE", 1, ".tmp_source.zig:4:5: error: unreachable code"); add_compile_fail_case("bad import", R"SOURCE( const bogus = @import("bogus-does-not-exist.zig"); )SOURCE", 1, ".tmp_source.zig:2:15: error: unable to find 'bogus-does-not-exist.zig'"); add_compile_fail_case("undeclared identifier", R"SOURCE( fn a() { b + c } )SOURCE", 2, ".tmp_source.zig:3:5: error: use of undeclared identifier 'b'", ".tmp_source.zig:4:5: error: use of undeclared identifier 'c'"); add_compile_fail_case("parameter redeclaration", R"SOURCE( fn f(a : i32, a : i32) { } )SOURCE", 1, ".tmp_source.zig:2:15: error: redeclaration of variable 'a'"); add_compile_fail_case("local variable redeclaration", R"SOURCE( fn f() { const a : i32 = 0; const a = 0; } )SOURCE", 1, ".tmp_source.zig:4:5: error: redeclaration of variable 'a'"); add_compile_fail_case("local variable redeclares parameter", R"SOURCE( fn f(a : i32) { const a = 0; } )SOURCE", 1, ".tmp_source.zig:3:5: error: redeclaration of variable 'a'"); add_compile_fail_case("variable has wrong type", R"SOURCE( fn f() -> i32 { const a = c"a"; a } )SOURCE", 1, ".tmp_source.zig:4:5: error: expected type 'i32', got '&const u8'"); add_compile_fail_case("if condition is bool, not int", R"SOURCE( fn f() { if (0) {} } )SOURCE", 1, ".tmp_source.zig:3:9: error: integer value 0 cannot be implicitly casted to type 'bool'"); add_compile_fail_case("assign unreachable", R"SOURCE( fn f() { const a = return; } )SOURCE", 1, ".tmp_source.zig:3:5: error: variable initialization is unreachable"); add_compile_fail_case("unreachable variable", R"SOURCE( fn f() { const a : unreachable = return; } )SOURCE", 1, ".tmp_source.zig:3:15: error: variable of type 'unreachable' not allowed"); add_compile_fail_case("unreachable parameter", R"SOURCE( fn f(a : unreachable) {} )SOURCE", 1, ".tmp_source.zig:2:10: error: parameter of type 'unreachable' not allowed"); add_compile_fail_case("bad assignment target", R"SOURCE( fn f() { 3 = 3; } )SOURCE", 1, ".tmp_source.zig:3:5: error: invalid assignment target"); add_compile_fail_case("assign to constant variable", R"SOURCE( fn f() { const a = 3; a = 4; } )SOURCE", 1, ".tmp_source.zig:4:5: error: cannot assign to constant"); add_compile_fail_case("use of undeclared identifier", R"SOURCE( fn f() { b = 3; } )SOURCE", 1, ".tmp_source.zig:3:5: error: use of undeclared identifier 'b'"); add_compile_fail_case("const is a statement, not an expression", R"SOURCE( fn f() { (const a = 0); } )SOURCE", 1, ".tmp_source.zig:3:6: error: invalid token: 'const'"); add_compile_fail_case("array access errors", R"SOURCE( fn f() { var bad : bool = undefined; i[i] = i[i]; bad[bad] = bad[bad]; } )SOURCE", 4, ".tmp_source.zig:4:5: error: use of undeclared identifier 'i'", ".tmp_source.zig:4:7: error: use of undeclared identifier 'i'", ".tmp_source.zig:5:8: error: array access of non-array", ".tmp_source.zig:5:9: error: expected type 'isize', got 'bool'"); add_compile_fail_case("variadic functions only allowed in extern", R"SOURCE( fn f(...) {} )SOURCE", 1, ".tmp_source.zig:2:1: error: variadic arguments only allowed in extern functions"); add_compile_fail_case("write to const global variable", R"SOURCE( const x : i32 = 99; fn f() { x = 1; } )SOURCE", 1, ".tmp_source.zig:4:5: error: cannot assign to constant"); add_compile_fail_case("missing else clause", R"SOURCE( fn f() { const x : i32 = if (true) { 1 }; const y = if (true) { i32(1) }; } )SOURCE", 2, ".tmp_source.zig:3:21: error: expected type 'i32', got 'void'", ".tmp_source.zig:4:15: error: incompatible types: 'i32' and 'void'"); add_compile_fail_case("direct struct loop", R"SOURCE( struct A { a : A, } )SOURCE", 1, ".tmp_source.zig:2:1: error: 'A' depends on itself"); add_compile_fail_case("indirect struct loop", R"SOURCE( struct A { b : B, } struct B { c : C, } struct C { a : A, } )SOURCE", 1, ".tmp_source.zig:2:1: error: 'A' depends on itself"); add_compile_fail_case("invalid struct field", R"SOURCE( struct A { x : i32, } fn f() { var a : A = undefined; a.foo = 1; const y = a.bar; } )SOURCE", 2, ".tmp_source.zig:5:6: error: no member named 'foo' in 'A'", ".tmp_source.zig:6:16: error: no member named 'bar' in 'A'"); add_compile_fail_case("redefinition of struct", R"SOURCE( struct A { x : i32, } struct A { y : i32, } )SOURCE", 1, ".tmp_source.zig:3:1: error: redefinition of 'A'"); add_compile_fail_case("redefinition of enums", R"SOURCE( enum A {} enum A {} )SOURCE", 1, ".tmp_source.zig:3:1: error: redefinition of 'A'"); add_compile_fail_case("redefinition of global variables", R"SOURCE( var a : i32 = 1; var a : i32 = 2; )SOURCE", 1, ".tmp_source.zig:3:1: error: redeclaration of variable 'a'"); add_compile_fail_case("byvalue struct on exported functions", R"SOURCE( struct A { x : i32, } export fn f(a : A) {} )SOURCE", 1, ".tmp_source.zig:3:13: error: byvalue struct parameters not yet supported on extern functions"); add_compile_fail_case("duplicate field in struct value expression", R"SOURCE( struct A { x : i32, y : i32, z : i32, } fn f() { const a = A { .z = 1, .y = 2, .x = 3, .z = 4, }; } )SOURCE", 1, ".tmp_source.zig:12:9: error: duplicate field"); add_compile_fail_case("missing field in struct value expression", R"SOURCE( struct A { x : i32, y : i32, z : i32, } fn f() { // we want the error on the '{' not the 'A' because // the A could be a complicated expression const a = A { .z = 4, .y = 2, }; } )SOURCE", 1, ".tmp_source.zig:10:17: error: missing field: 'x'"); add_compile_fail_case("invalid field in struct value expression", R"SOURCE( struct A { x : i32, y : i32, z : i32, } fn f() { const a = A { .z = 4, .y = 2, .foo = 42, }; } )SOURCE", 1, ".tmp_source.zig:11:9: error: no member named 'foo' in 'A'"); add_compile_fail_case("invalid break expression", R"SOURCE( fn f() { break; } )SOURCE", 1, ".tmp_source.zig:3:5: error: 'break' expression outside loop"); add_compile_fail_case("invalid continue expression", R"SOURCE( fn f() { continue; } )SOURCE", 1, ".tmp_source.zig:3:5: error: 'continue' expression outside loop"); add_compile_fail_case("invalid maybe type", R"SOURCE( fn f() { if (const x ?= true) { } } )SOURCE", 1, ".tmp_source.zig:3:20: error: expected maybe type"); add_compile_fail_case("cast unreachable", R"SOURCE( fn f() -> i32 { i32(return 1) } )SOURCE", 1, ".tmp_source.zig:3:8: error: invalid cast from type 'unreachable' to 'i32'"); add_compile_fail_case("invalid builtin fn", R"SOURCE( fn f() -> @bogus(foo) { } )SOURCE", 1, ".tmp_source.zig:2:11: error: invalid builtin function: 'bogus'"); add_compile_fail_case("top level decl dependency loop", R"SOURCE( const a : @typeof(b) = 0; const b : @typeof(a) = 0; )SOURCE", 1, ".tmp_source.zig:2:1: error: 'a' depends on itself"); add_compile_fail_case("noalias on non pointer param", R"SOURCE( fn f(noalias x: i32) {} )SOURCE", 1, ".tmp_source.zig:2:6: error: noalias on non-pointer parameter"); add_compile_fail_case("struct init syntax for array", R"SOURCE( const foo = []u16{.x = 1024,}; )SOURCE", 1, ".tmp_source.zig:2:18: error: type '[]u16' does not support struct initialization syntax"); add_compile_fail_case("type variables must be constant", R"SOURCE( var foo = u8; )SOURCE", 1, ".tmp_source.zig:2:1: error: variable of type 'type' must be constant"); add_compile_fail_case("variables shadowing types", R"SOURCE( struct Foo {} struct Bar {} fn f(Foo: i32) { var Bar : i32 = undefined; } )SOURCE", 4, ".tmp_source.zig:5:6: error: redefinition of 'Foo'", ".tmp_source.zig:2:1: note: previous definition is here", ".tmp_source.zig:6:5: error: redefinition of 'Bar'", ".tmp_source.zig:3:1: note: previous definition is here"); add_compile_fail_case("multiple else prongs in a switch", R"SOURCE( fn f(x: u32) { const value: bool = switch (x) { 1234 => false, else => true, else => true, }; } )SOURCE", 1, ".tmp_source.zig:6:9: error: multiple else prongs in switch expression"); add_compile_fail_case("global variable initializer must be constant expression", R"SOURCE( extern fn foo() -> i32; const x = foo(); )SOURCE", 1, ".tmp_source.zig:3:11: error: global variable initializer requires constant expression"); add_compile_fail_case("non compile time string concatenation", R"SOURCE( fn f(s: []u8) -> []u8 { s ++ "foo" } )SOURCE", 1, ".tmp_source.zig:3:5: error: string concatenation requires constant expression"); add_compile_fail_case("c_import with bogus include", R"SOURCE( const c = @c_import(@c_include("bogus.h")); )SOURCE", 2, ".tmp_source.zig:2:11: error: C import failed", ".h:1:10: note: 'bogus.h' file not found"); add_compile_fail_case("address of number literal", R"SOURCE( const x = 3; const y = &x; )SOURCE", 1, ".tmp_source.zig:3:12: error: unable to get address of type '(integer literal)'"); add_compile_fail_case("@typeof number literal", R"SOURCE( const x = 3; struct Foo { index: @typeof(x), } )SOURCE", 1, ".tmp_source.zig:4:20: error: type '(integer literal)' not eligible for @typeof"); add_compile_fail_case("integer overflow error", R"SOURCE( const x : u8 = 300; )SOURCE", 1, ".tmp_source.zig:2:16: error: integer value 300 cannot be implicitly casted to type 'u8'"); add_compile_fail_case("incompatible number literals", R"SOURCE( const x = 2 == 2.0; )SOURCE", 1, ".tmp_source.zig:2:11: error: integer value 2 cannot be implicitly casted to type '(float literal)'"); add_compile_fail_case("missing function call param", R"SOURCE( struct Foo { a: i32, b: i32, fn member_a(foo: Foo) -> i32 { return foo.a; } fn member_b(foo: Foo) -> i32 { return foo.b; } } const member_fn_type = @typeof(Foo.member_a); const members = []member_fn_type { Foo.member_a, Foo.member_b, }; fn f(foo: Foo, index: i32) { const result = members[index](); } )SOURCE", 1, ".tmp_source.zig:21:34: error: expected 1 arguments, got 0"); add_compile_fail_case("missing function name and param name", R"SOURCE( fn () {} fn f(i32) {} )SOURCE", 2, ".tmp_source.zig:2:1: error: missing function name", ".tmp_source.zig:3:6: error: missing parameter name"); add_compile_fail_case("wrong function type", R"SOURCE( const fns = []fn(){ a, b, c }; fn a() -> i32 {0} fn b() -> i32 {1} fn c() -> i32 {2} )SOURCE", 3, ".tmp_source.zig:2:21: error: expected type 'fn()', got 'fn() -> i32'", ".tmp_source.zig:2:24: error: expected type 'fn()', got 'fn() -> i32'", ".tmp_source.zig:2:27: error: expected type 'fn()', got 'fn() -> i32'"); add_compile_fail_case("extern function pointer mismatch", R"SOURCE( const fns = [](fn(i32)->i32){ a, b, c }; pub fn a(x: i32) -> i32 {x + 0} pub fn b(x: i32) -> i32 {x + 1} export fn c(x: i32) -> i32 {x + 2} )SOURCE", 1, ".tmp_source.zig:2:37: error: expected type 'fn(i32) -> i32', got 'extern fn(i32) -> i32'"); add_compile_fail_case("implicit cast from f64 to f32", R"SOURCE( const x : f64 = 1.0; const y : f32 = x; )SOURCE", 1, ".tmp_source.zig:3:17: error: expected type 'f32', got 'f64'"); add_compile_fail_case("colliding invalid top level functions", R"SOURCE( fn func() -> bogus {} fn func() -> bogus {} )SOURCE", 2, ".tmp_source.zig:3:1: error: redefinition of 'func'", ".tmp_source.zig:2:14: error: use of undeclared identifier 'bogus'"); add_compile_fail_case("bogus compile var", R"SOURCE( const x = @compile_var("bogus"); )SOURCE", 1, ".tmp_source.zig:2:24: error: unrecognized compile variable: 'bogus'"); add_compile_fail_case("@const_eval", R"SOURCE( fn a(x: i32) { const y = @const_eval(x); } )SOURCE", 1, ".tmp_source.zig:3:27: error: unable to evaluate constant expression"); add_compile_fail_case("non constant expression in array size outside function", R"SOURCE( struct Foo { y: [get()]u8, } fn get() -> isize { 1 } )SOURCE", 1, ".tmp_source.zig:3:9: error: unable to evaluate constant expression"); add_compile_fail_case("unnecessary if statement", R"SOURCE( fn f() { if (true) { } } )SOURCE", 1, ".tmp_source.zig:3:9: error: condition is always true; unnecessary if statement"); add_compile_fail_case("addition with non numbers", R"SOURCE( struct Foo { field: i32, } const x = Foo {.field = 1} + Foo {.field = 2}; )SOURCE", 1, ".tmp_source.zig:5:28: error: invalid operands to binary expression: 'Foo' and 'Foo'"); add_compile_fail_case("division by zero", R"SOURCE( const lit_int_x = 1 / 0; const lit_float_x = 1.0 / 0.0; const int_x = i32(1) / i32(0); const float_x = f32(1.0) / f32(0.0); )SOURCE", 4, ".tmp_source.zig:2:21: error: division by zero is undefined", ".tmp_source.zig:3:25: error: division by zero is undefined", ".tmp_source.zig:4:22: error: division by zero is undefined", ".tmp_source.zig:5:26: error: division by zero is undefined"); add_compile_fail_case("missing switch prong", R"SOURCE( enum Number { One, Two, Three, Four, } fn f(n: Number) -> i32 { switch (n) { One => 1, Two => 2, Three => 3, } } )SOURCE", 1, ".tmp_source.zig:9:5: error: enumeration value 'Four' not handled in switch"); add_compile_fail_case("import inside function body", R"SOURCE( fn f() { const std = @import("std"); } )SOURCE", 1, ".tmp_source.zig:3:17: error: @import invalid inside function bodies"); add_compile_fail_case("normal string with newline", R"SOURCE( const foo = "a b"; )SOURCE", 1, ".tmp_source.zig:2:13: error: use raw string for multiline string literal"); add_compile_fail_case("invalid comparison for function pointers", R"SOURCE( fn foo() {} const invalid = foo > foo; )SOURCE", 1, ".tmp_source.zig:3:21: error: operator not allowed for type 'fn()'"); add_compile_fail_case("generic function instance with non-constant expression", R"SOURCE( fn foo(x: i32)(y: i32) -> i32 { return x + y; } fn test1(a: i32, b: i32) -> i32 { return foo(a)(b); } )SOURCE", 1, ".tmp_source.zig:4:16: error: unable to resolve constant expression"); add_compile_fail_case("goto jumping into block", R"SOURCE( fn f() { { a_label: } goto a_label; } )SOURCE", 2, ".tmp_source.zig:4:1: error: label 'a_label' defined but not used", ".tmp_source.zig:6:5: error: no label in scope named 'a_label'"); add_compile_fail_case("goto jumping past a defer", R"SOURCE( fn f(b: bool) { if (b) goto label; defer derp(); label: } fn derp(){} )SOURCE", 2, ".tmp_source.zig:3:12: error: no label in scope named 'label'", ".tmp_source.zig:5:1: error: label 'label' defined but not used"); add_compile_fail_case("assign null to non-nullable pointer", R"SOURCE( const a: &u8 = null; )SOURCE", 1, ".tmp_source.zig:2:16: error: expected maybe type, got '&u8'"); add_compile_fail_case("indexing an array of size zero", R"SOURCE( const array = []u8{}; fn foo() { const pointer = &array[0]; } )SOURCE", 1, ".tmp_source.zig:4:27: error: out of bounds array access"); } ////////////////////////////////////////////////////////////////////////////// static void add_parseh_test_cases(void) { add_parseh_case("simple data types", R"SOURCE( #include int foo(char a, unsigned char b, signed char c); int foo(char a, unsigned char b, signed char c); // test a duplicate prototype void bar(uint8_t a, uint16_t b, uint32_t c, uint64_t d); void baz(int8_t a, int16_t b, int32_t c, int64_t d); )SOURCE", 3, "pub extern fn foo(a: u8, b: u8, c: i8) -> c_int;", "pub extern fn bar(a: u8, b: u16, c: u32, d: u64);", "pub extern fn baz(a: i8, b: i16, c: i32, d: i64);"); add_parseh_case("noreturn attribute", R"SOURCE( void foo(void) __attribute__((noreturn)); )SOURCE", 1, R"OUTPUT(pub extern fn foo() -> unreachable;)OUTPUT"); add_parseh_case("enums", R"SOURCE( enum Foo { FooA, FooB, Foo1, }; )SOURCE", 1, R"OUTPUT(export enum enum_Foo { A, B, _1, } pub const FooA = enum_Foo.A; pub const FooB = enum_Foo.B; pub const Foo1 = enum_Foo._1;)OUTPUT", R"OUTPUT(pub const Foo = enum_Foo;)OUTPUT"); add_parseh_case("restrict -> noalias", R"SOURCE( void foo(void *restrict bar, void *restrict); )SOURCE", 1, R"OUTPUT(pub extern fn foo(noalias bar: ?&c_void, noalias arg1: ?&c_void);)OUTPUT"); add_parseh_case("simple struct", R"SOURCE( struct Foo { int x; char *y; }; )SOURCE", 2, R"OUTPUT(export struct struct_Foo { x: c_int, y: ?&u8, })OUTPUT", R"OUTPUT(pub const Foo = struct_Foo;)OUTPUT"); add_parseh_case("qualified struct and enum", R"SOURCE( struct Foo { int x; int y; }; enum Bar { BarA, BarB, }; void func(struct Foo *a, enum Bar **b); )SOURCE", 3, R"OUTPUT(export struct struct_Foo { x: c_int, y: c_int, } export enum enum_Bar { A, B, } pub const BarA = enum_Bar.A; pub const BarB = enum_Bar.B;)OUTPUT", "pub extern fn func(a: ?&struct_Foo, b: ?&?&enum_Bar);", R"OUTPUT(pub const Foo = struct_Foo; pub const Bar = enum_Bar;)OUTPUT"); add_parseh_case("constant size array", R"SOURCE( void func(int array[20]); )SOURCE", 1, "pub extern fn func(array: ?&c_int);"); add_parseh_case("self referential struct with function pointer", R"SOURCE( struct Foo { void (*derp)(struct Foo *foo); }; )SOURCE", 2, R"OUTPUT(export struct struct_Foo { derp: ?extern fn(?&struct_Foo), })OUTPUT", R"OUTPUT(pub const Foo = struct_Foo;)OUTPUT"); add_parseh_case("struct prototype used in func", R"SOURCE( struct Foo; struct Foo *some_func(struct Foo *foo, int x); )SOURCE", 2, R"OUTPUT(pub type struct_Foo = u8; pub extern fn some_func(foo: ?&struct_Foo, x: c_int) -> ?&struct_Foo;)OUTPUT", R"OUTPUT(pub const Foo = struct_Foo;)OUTPUT"); add_parseh_case("#define a char literal", R"SOURCE( #define A_CHAR 'a' )SOURCE", 1, R"OUTPUT(pub const A_CHAR = 'a';)OUTPUT"); add_parseh_case("#define an unsigned integer literal", R"SOURCE( #define CHANNEL_COUNT 24 )SOURCE", 1, R"OUTPUT(pub const CHANNEL_COUNT = 24;)OUTPUT"); add_parseh_case("overide previous #define", R"SOURCE( #define A_CHAR 'a' #define A_CHAR 'b' )SOURCE", 1, "pub const A_CHAR = 'b';"); add_parseh_case("#define referencing another #define", R"SOURCE( #define THING2 THING1 #define THING1 1234 )SOURCE", 2, "pub const THING1 = 1234;", "pub const THING2 = THING1;"); add_parseh_case("variables", R"SOURCE( extern int extern_var; static const int int_var = 13; )SOURCE", 2, "pub extern var extern_var: c_int;", "pub const int_var: c_int = 13;"); add_parseh_case("circular struct definitions", R"SOURCE( struct Bar; struct Foo { struct Bar *next; }; struct Bar { struct Foo *next; }; )SOURCE", 2, R"SOURCE(export struct struct_Bar { next: ?&struct_Foo, })SOURCE", R"SOURCE(export struct struct_Foo { next: ?&struct_Bar, })SOURCE"); add_parseh_case("typedef void", R"SOURCE( typedef void Foo; Foo fun(Foo *a); )SOURCE", 2, "pub const Foo = c_void;", "pub extern fn fun(a: ?&c_void);"); add_parseh_case("generate inline func for #define global extern fn", R"SOURCE( extern void (*fn_ptr)(void); #define foo fn_ptr )SOURCE", 2, "pub extern var fn_ptr: ?extern fn();", R"SOURCE(pub inline fn foo() { (??fn_ptr)() })SOURCE"); add_parseh_case("#define string", R"SOURCE( #define foo "a string" )SOURCE", 1, "pub const foo = c\"a string\";"); add_parseh_case("__cdecl doesn't mess up function pointers", R"SOURCE( void foo(void (__cdecl *fn_ptr)(void)); )SOURCE", 1, "pub extern fn foo(fn_ptr: ?extern fn());"); } static void run_self_hosted_test(void) { Buf zig_stderr = BUF_INIT; Buf zig_stdout = BUF_INIT; int return_code; ZigList args = {0}; args.append("test"); args.append("../test/self_hosted.zig"); os_exec_process(zig_exe, args, &return_code, &zig_stderr, &zig_stdout); if (return_code) { printf("\nSelf-hosted tests failed:\n"); printf("./zig test ../test/self_hosted.zig\n"); printf("%s\n", buf_ptr(&zig_stderr)); exit(1); } } static void add_self_hosted_tests(void) { TestCase *test_case = allocate(1); test_case->case_name = "self hosted tests"; test_case->is_self_hosted = true; test_cases.append(test_case); } static void print_compiler_invocation(TestCase *test_case) { printf("%s", zig_exe); for (int i = 0; i < test_case->compiler_args.length; i += 1) { printf(" %s", test_case->compiler_args.at(i)); } printf("\n"); } static void run_test(TestCase *test_case) { if (test_case->is_self_hosted) { return run_self_hosted_test(); } for (int i = 0; i < test_case->source_files.length; i += 1) { TestSourceFile *test_source = &test_case->source_files.at(i); os_write_file( buf_create_from_str(test_source->relative_path), buf_create_from_str(test_source->source_code)); } Buf zig_stderr = BUF_INIT; Buf zig_stdout = BUF_INIT; int return_code; int err; if ((err = os_exec_process(zig_exe, test_case->compiler_args, &return_code, &zig_stderr, &zig_stdout))) { fprintf(stderr, "Unable to exec %s: %s\n", zig_exe, err_str(err)); } if (!test_case->is_parseh && test_case->compile_errors.length) { if (return_code) { for (int i = 0; i < test_case->compile_errors.length; i += 1) { const char *err_text = test_case->compile_errors.at(i); if (!strstr(buf_ptr(&zig_stderr), err_text)) { printf("\n"); printf("========= Expected this compile error: =========\n"); printf("%s\n", err_text); printf("================================================\n"); print_compiler_invocation(test_case); printf("%s\n", buf_ptr(&zig_stderr)); exit(1); } } return; // success } else { printf("\nCompile failed with return code 0 (Expected failure):\n"); print_compiler_invocation(test_case); printf("%s\n", buf_ptr(&zig_stderr)); exit(1); } } if (return_code != 0) { printf("\nCompile failed with return code %d:\n", return_code); print_compiler_invocation(test_case); printf("%s\n", buf_ptr(&zig_stderr)); exit(1); } if (test_case->is_parseh) { if (buf_len(&zig_stderr) > 0) { printf("\nparseh emitted warnings:\n"); print_compiler_invocation(test_case); printf("%s\n", buf_ptr(&zig_stderr)); exit(1); } for (int i = 0; i < test_case->compile_errors.length; i += 1) { const char *output = test_case->compile_errors.at(i); if (!strstr(buf_ptr(&zig_stdout), output)) { printf("\n"); printf("========= Expected this output: =========\n"); printf("%s\n", output); printf("================================================\n"); print_compiler_invocation(test_case); printf("%s\n", buf_ptr(&zig_stdout)); exit(1); } } } else { Buf program_stderr = BUF_INIT; Buf program_stdout = BUF_INIT; os_exec_process(tmp_exe_path, test_case->program_args, &return_code, &program_stderr, &program_stdout); if (return_code != 0) { printf("\nProgram exited with return code %d:\n", return_code); print_compiler_invocation(test_case); printf("%s", tmp_exe_path); for (int i = 0; i < test_case->program_args.length; i += 1) { printf(" %s", test_case->program_args.at(i)); } printf("\n"); printf("%s\n", buf_ptr(&program_stderr)); exit(1); } if (!buf_eql_str(&program_stdout, test_case->output)) { printf("\n"); print_compiler_invocation(test_case); printf("%s", tmp_exe_path); for (int i = 0; i < test_case->program_args.length; i += 1) { printf(" %s", test_case->program_args.at(i)); } printf("\n"); printf("==== Test failed. Expected output: ====\n"); printf("%s\n", test_case->output); printf("========= Actual output: ==============\n"); printf("%s\n", buf_ptr(&program_stdout)); printf("=======================================\n"); exit(1); } } for (int i = 0; i < test_case->source_files.length; i += 1) { TestSourceFile *test_source = &test_case->source_files.at(i); remove(test_source->relative_path); } } static void run_all_tests(bool reverse) { if (reverse) { for (int i = test_cases.length - 1; i >= 0; i -= 1) { TestCase *test_case = test_cases.at(i); printf("Test %d/%d %s...", i + 1, test_cases.length, test_case->case_name); run_test(test_case); printf("OK\n"); } } else { for (int i = 0; i < test_cases.length; i += 1) { TestCase *test_case = test_cases.at(i); printf("Test %d/%d %s...", i + 1, test_cases.length, test_case->case_name); run_test(test_case); printf("OK\n"); } } printf("%d tests passed.\n", test_cases.length); } static void cleanup(void) { remove(tmp_source_path); remove(tmp_h_path); remove(tmp_exe_path); } static int usage(const char *arg0) { fprintf(stderr, "Usage: %s [--reverse]\n", arg0); return 1; } int main(int argc, char **argv) { bool reverse = false; for (int i = 1; i < argc; i += 1) { if (strcmp(argv[i], "--reverse") == 0) { reverse = true; } else { return usage(argv[0]); } } add_compiling_test_cases(); add_compile_failure_test_cases(); add_parseh_test_cases(); add_self_hosted_tests(); run_all_tests(reverse); cleanup(); }