zig/test/translate_c.zig

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const tests = @import("tests.zig");
const builtin = @import("builtin");
pub fn addCases(cases: *tests.TranslateCContext) void {
if (builtin.os != builtin.Os.windows) {
// Windows treats this as an enum with type c_int
cases.add("big negative enum init values when C ABI supports long long enums",
\\enum EnumWithInits {
\\ VAL01 = 0,
\\ VAL02 = 1,
\\ VAL03 = 2,
\\ VAL04 = 3,
\\ VAL05 = -1,
\\ VAL06 = -2,
\\ VAL07 = -3,
\\ VAL08 = -4,
\\ VAL09 = VAL02 + VAL08,
\\ VAL10 = -1000012000,
\\ VAL11 = -1000161000,
\\ VAL12 = -1000174001,
\\ VAL13 = VAL09,
\\ VAL14 = VAL10,
\\ VAL15 = VAL11,
\\ VAL16 = VAL13,
\\ VAL17 = (VAL16 - VAL10 + 1),
\\ VAL18 = 0x1000000000000000L,
\\ VAL19 = VAL18 + VAL18 + VAL18 - 1,
\\ VAL20 = VAL19 + VAL19,
\\ VAL21 = VAL20 + 0xFFFFFFFFFFFFFFFF,
\\ VAL22 = 0xFFFFFFFFFFFFFFFF + 1,
\\ VAL23 = 0xFFFFFFFFFFFFFFFF,
\\};
,
\\pub const enum_EnumWithInits = extern enum(c_longlong) {
\\ VAL01 = 0,
\\ VAL02 = 1,
\\ VAL03 = 2,
\\ VAL04 = 3,
\\ VAL05 = -1,
\\ VAL06 = -2,
\\ VAL07 = -3,
\\ VAL08 = -4,
\\ VAL09 = -3,
\\ VAL10 = -1000012000,
\\ VAL11 = -1000161000,
\\ VAL12 = -1000174001,
\\ VAL13 = -3,
\\ VAL14 = -1000012000,
\\ VAL15 = -1000161000,
\\ VAL16 = -3,
\\ VAL17 = 1000011998,
\\ VAL18 = 1152921504606846976,
\\ VAL19 = 3458764513820540927,
\\ VAL20 = 6917529027641081854,
\\ VAL21 = 6917529027641081853,
\\ VAL22 = 0,
\\ VAL23 = -1,
\\};
);
}
cases.add("for loop with var init but empty body",
\\void foo(void) {
\\ for (int x = 0; x < 10; x++);
\\}
,
\\pub fn foo() void {
\\ {
\\ var x: c_int = 0;
\\ while (x < 10) : (x += 1) {}
\\ }
\\}
);
cases.add("do while with empty body",
\\void foo(void) {
\\ do ; while (1);
\\}
, // TODO this should be if (1 != 0) break
\\pub fn foo() void {
\\ while (true) {
\\ if (!1) break;
\\ }
\\}
);
cases.add("for with empty body",
\\void foo(void) {
\\ for (;;);
\\}
,
\\pub fn foo() void {
\\ while (true) {}
\\}
);
cases.add("while with empty body",
\\void foo(void) {
\\ while (1);
\\}
,
\\pub fn foo() void {
\\ while (1 != 0) {}
\\}
);
cases.add("double define struct",
\\typedef struct Bar Bar;
\\typedef struct Foo Foo;
\\
\\struct Foo {
\\ Foo *a;
\\};
\\
\\struct Bar {
\\ Foo *a;
\\};
,
\\pub const struct_Foo = extern struct {
\\ a: ?[*]Foo,
\\};
\\pub const Foo = struct_Foo;
\\pub const struct_Bar = extern struct {
\\ a: ?[*]Foo,
\\};
);
cases.addAllowWarnings("simple data types",
\\#include <stdint.h>
\\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);
,
\\pub extern fn foo(a: u8, b: u8, c: i8) c_int;
,
\\pub extern fn bar(a: u8, b: u16, c: u32, d: u64) void;
,
\\pub extern fn baz(a: i8, b: i16, c: i32, d: i64) void;
);
cases.add("noreturn attribute",
\\void foo(void) __attribute__((noreturn));
,
\\pub extern fn foo() noreturn;
);
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cases.addC("simple function",
\\int abs(int a) {
\\ return a < 0 ? -a : a;
\\}
,
\\export fn abs(a: c_int) c_int {
\\ return if (a < 0) -a else a;
\\}
);
cases.add("enums",
\\enum Foo {
\\ FooA,
\\ FooB,
\\ Foo1,
\\};
,
\\pub const enum_Foo = extern enum {
\\ A,
\\ B,
\\ @"1",
\\};
,
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\\pub const FooA = enum_Foo.A;
,
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\\pub const FooB = enum_Foo.B;
,
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\\pub const Foo1 = enum_Foo.@"1";
,
\\pub const Foo = enum_Foo;
);
cases.add("enums",
\\enum Foo {
\\ FooA = 2,
\\ FooB = 5,
\\ Foo1,
\\};
,
\\pub const enum_Foo = extern enum {
\\ A = 2,
\\ B = 5,
\\ @"1" = 6,
\\};
,
\\pub const FooA = enum_Foo.A;
,
\\pub const FooB = enum_Foo.B;
,
\\pub const Foo1 = enum_Foo.@"1";
,
\\pub const Foo = enum_Foo;
);
cases.add("restrict -> noalias",
\\void foo(void *restrict bar, void *restrict);
,
\\pub extern fn foo(noalias bar: ?*c_void, noalias arg1: ?*c_void) void;
);
cases.add("simple struct",
\\struct Foo {
\\ int x;
\\ char *y;
\\};
,
\\const struct_Foo = extern struct {
\\ x: c_int,
\\ y: ?[*]u8,
\\};
,
\\pub const Foo = struct_Foo;
);
cases.add("qualified struct and enum",
\\struct Foo {
\\ int x;
\\ int y;
\\};
\\enum Bar {
\\ BarA,
\\ BarB,
\\};
\\void func(struct Foo *a, enum Bar **b);
,
\\pub const struct_Foo = extern struct {
\\ x: c_int,
\\ y: c_int,
\\};
,
\\pub const enum_Bar = extern enum {
\\ A,
\\ B,
\\};
,
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\\pub const BarA = enum_Bar.A;
,
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\\pub const BarB = enum_Bar.B;
,
\\pub extern fn func(a: ?[*]struct_Foo, b: ?[*](?[*]enum_Bar)) void;
,
\\pub const Foo = struct_Foo;
,
\\pub const Bar = enum_Bar;
);
cases.add("constant size array",
\\void func(int array[20]);
,
\\pub extern fn func(array: ?[*]c_int) void;
);
cases.add("self referential struct with function pointer",
\\struct Foo {
\\ void (*derp)(struct Foo *foo);
\\};
,
\\pub const struct_Foo = extern struct {
\\ derp: ?extern fn(?[*]struct_Foo) void,
\\};
,
\\pub const Foo = struct_Foo;
);
cases.add("struct prototype used in func",
\\struct Foo;
\\struct Foo *some_func(struct Foo *foo, int x);
,
\\pub const struct_Foo = @OpaqueType();
,
\\pub extern fn some_func(foo: ?*struct_Foo, x: c_int) ?*struct_Foo;
,
\\pub const Foo = struct_Foo;
);
cases.add("#define a char literal",
\\#define A_CHAR 'a'
,
\\pub const A_CHAR = 97;
);
cases.add("#define an unsigned integer literal",
\\#define CHANNEL_COUNT 24
,
\\pub const CHANNEL_COUNT = 24;
);
cases.add("#define referencing another #define",
\\#define THING2 THING1
\\#define THING1 1234
,
\\pub const THING1 = 1234;
,
\\pub const THING2 = THING1;
);
cases.add("variables",
\\extern int extern_var;
\\static const int int_var = 13;
,
\\pub extern var extern_var: c_int;
,
\\pub const int_var: c_int = 13;
);
cases.add("circular struct definitions",
\\struct Bar;
\\
\\struct Foo {
\\ struct Bar *next;
\\};
\\
\\struct Bar {
\\ struct Foo *next;
\\};
,
\\pub const struct_Bar = extern struct {
\\ next: ?[*]struct_Foo,
\\};
,
\\pub const struct_Foo = extern struct {
\\ next: ?[*]struct_Bar,
\\};
);
cases.add("typedef void",
\\typedef void Foo;
\\Foo fun(Foo *a);
,
\\pub const Foo = c_void;
,
\\pub extern fn fun(a: ?*Foo) Foo;
);
cases.add("generate inline func for #define global extern fn",
\\extern void (*fn_ptr)(void);
\\#define foo fn_ptr
\\
\\extern char (*fn_ptr2)(int, float);
\\#define bar fn_ptr2
,
\\pub extern var fn_ptr: ?extern fn() void;
,
\\pub inline fn foo() void {
\\ return fn_ptr.?();
\\}
,
\\pub extern var fn_ptr2: ?extern fn(c_int, f32) u8;
,
\\pub inline fn bar(arg0: c_int, arg1: f32) u8 {
\\ return fn_ptr2.?(arg0, arg1);
\\}
);
cases.add("#define string",
\\#define foo "a string"
,
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\\pub const foo = c"a string";
);
cases.add("__cdecl doesn't mess up function pointers",
\\void foo(void (__cdecl *fn_ptr)(void));
,
\\pub extern fn foo(fn_ptr: ?extern fn() void) void;
);
cases.add("comment after integer literal",
\\#define SDL_INIT_VIDEO 0x00000020 /**< SDL_INIT_VIDEO implies SDL_INIT_EVENTS */
,
\\pub const SDL_INIT_VIDEO = 32;
);
cases.add("u integer suffix after hex literal",
\\#define SDL_INIT_VIDEO 0x00000020u /**< SDL_INIT_VIDEO implies SDL_INIT_EVENTS */
,
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\\pub const SDL_INIT_VIDEO = c_uint(32);
);
cases.add("l integer suffix after hex literal",
\\#define SDL_INIT_VIDEO 0x00000020l /**< SDL_INIT_VIDEO implies SDL_INIT_EVENTS */
,
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\\pub const SDL_INIT_VIDEO = c_long(32);
);
cases.add("ul integer suffix after hex literal",
\\#define SDL_INIT_VIDEO 0x00000020ul /**< SDL_INIT_VIDEO implies SDL_INIT_EVENTS */
,
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\\pub const SDL_INIT_VIDEO = c_ulong(32);
);
cases.add("lu integer suffix after hex literal",
\\#define SDL_INIT_VIDEO 0x00000020lu /**< SDL_INIT_VIDEO implies SDL_INIT_EVENTS */
,
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\\pub const SDL_INIT_VIDEO = c_ulong(32);
);
cases.add("ll integer suffix after hex literal",
\\#define SDL_INIT_VIDEO 0x00000020ll /**< SDL_INIT_VIDEO implies SDL_INIT_EVENTS */
,
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\\pub const SDL_INIT_VIDEO = c_longlong(32);
);
cases.add("ull integer suffix after hex literal",
\\#define SDL_INIT_VIDEO 0x00000020ull /**< SDL_INIT_VIDEO implies SDL_INIT_EVENTS */
,
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\\pub const SDL_INIT_VIDEO = c_ulonglong(32);
);
cases.add("llu integer suffix after hex literal",
\\#define SDL_INIT_VIDEO 0x00000020llu /**< SDL_INIT_VIDEO implies SDL_INIT_EVENTS */
,
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\\pub const SDL_INIT_VIDEO = c_ulonglong(32);
);
cases.add("zig keywords in C code",
\\struct comptime {
\\ int defer;
\\};
,
\\pub const struct_comptime = extern struct {
\\ @"defer": c_int,
\\};
,
\\pub const @"comptime" = struct_comptime;
);
cases.add("macro defines string literal with hex",
\\#define FOO "aoeu\xab derp"
\\#define FOO2 "aoeu\x0007a derp"
\\#define FOO_CHAR '\xfF'
,
\\pub const FOO = c"aoeu\xab derp";
,
\\pub const FOO2 = c"aoeuz derp";
,
\\pub const FOO_CHAR = 255;
);
cases.add("macro defines string literal with octal",
\\#define FOO "aoeu\023 derp"
\\#define FOO2 "aoeu\0234 derp"
\\#define FOO_CHAR '\077'
,
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\\pub const FOO = c"aoeu\x13 derp";
,
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\\pub const FOO2 = c"aoeu\x134 derp";
,
\\pub const FOO_CHAR = 63;
);
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cases.add("macro with parens around negative number",
\\#define LUA_GLOBALSINDEX (-10002)
,
\\pub const LUA_GLOBALSINDEX = -10002;
);
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cases.addC("post increment",
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\\unsigned foo1(unsigned a) {
\\ a++;
\\ return a;
\\}
\\int foo2(int a) {
\\ a++;
\\ return a;
\\}
,
\\pub export fn foo1(_arg_a: c_uint) c_uint {
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\\ var a = _arg_a;
\\ a +%= 1;
\\ return a;
\\}
\\pub export fn foo2(_arg_a: c_int) c_int {
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\\ var a = _arg_a;
\\ a += 1;
\\ return a;
\\}
);
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cases.addC("shift right assign",
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\\int log2(unsigned a) {
\\ int i = 0;
\\ while (a > 0) {
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\\ a >>= 1;
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\\ }
\\ return i;
\\}
,
\\pub export fn log2(_arg_a: c_uint) c_int {
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\\ var a = _arg_a;
\\ var i: c_int = 0;
\\ while (a > c_uint(0)) {
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\\ a >>= @import("std").math.Log2Int(c_uint)(1);
\\ }
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\\ return i;
\\}
);
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cases.addC("if statement",
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\\int max(int a, int b) {
\\ if (a < b)
\\ return b;
\\
\\ if (a < b)
\\ return b;
\\ else
\\ return a;
\\}
,
\\pub export fn max(a: c_int, b: c_int) c_int {
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\\ if (a < b) return b;
\\ if (a < b) return b else return a;
\\}
);
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cases.addC("==, !=",
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\\int max(int a, int b) {
\\ if (a == b)
\\ return a;
\\ if (a != b)
\\ return b;
\\ return a;
\\}
,
\\pub export fn max(a: c_int, b: c_int) c_int {
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\\ if (a == b) return a;
\\ if (a != b) return b;
\\ return a;
\\}
);
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cases.addC("add, sub, mul, div, rem",
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\\int s(int a, int b) {
\\ int c;
\\ c = a + b;
\\ c = a - b;
\\ c = a * b;
\\ c = a / b;
\\ c = a % b;
\\}
\\unsigned u(unsigned a, unsigned b) {
\\ unsigned c;
\\ c = a + b;
\\ c = a - b;
\\ c = a * b;
\\ c = a / b;
\\ c = a % b;
\\}
,
\\pub export fn s(a: c_int, b: c_int) c_int {
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\\ var c: c_int = undefined;
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\\ c = (a + b);
\\ c = (a - b);
\\ c = (a * b);
\\ c = @divTrunc(a, b);
\\ c = @rem(a, b);
\\}
\\pub export fn u(a: c_uint, b: c_uint) c_uint {
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\\ var c: c_uint = undefined;
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\\ c = (a +% b);
\\ c = (a -% b);
\\ c = (a *% b);
\\ c = (a / b);
\\ c = (a % b);
\\}
);
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cases.addC("bitwise binary operators",
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\\int max(int a, int b) {
\\ return (a & b) ^ (a | b);
\\}
,
\\pub export fn max(a: c_int, b: c_int) c_int {
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\\ return (a & b) ^ (a | b);
\\}
);
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cases.addC("logical and, logical or",
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\\int max(int a, int b) {
\\ if (a < b || a == b)
\\ return b;
\\ if (a >= b && a == b)
\\ return a;
\\ return a;
\\}
,
\\pub export fn max(a: c_int, b: c_int) c_int {
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\\ if ((a < b) or (a == b)) return b;
\\ if ((a >= b) and (a == b)) return a;
\\ return a;
\\}
);
cases.addC("logical and, logical or on none bool values",
\\int and_or_none_bool(int a, float b, void *c) {
\\ if (a && b) return 0;
\\ if (b && c) return 1;
\\ if (a && c) return 2;
\\ if (a || b) return 3;
\\ if (b || c) return 4;
\\ if (a || c) return 5;
\\ return 6;
\\}
,
\\pub export fn and_or_none_bool(a: c_int, b: f32, c: ?*c_void) c_int {
\\ if ((a != 0) and (b != 0)) return 0;
\\ if ((b != 0) and (c != null)) return 1;
\\ if ((a != 0) and (c != null)) return 2;
\\ if ((a != 0) or (b != 0)) return 3;
\\ if ((b != 0) or (c != null)) return 4;
\\ if ((a != 0) or (c != null)) return 5;
\\ return 6;
\\}
);
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cases.addC("assign",
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\\int max(int a) {
\\ int tmp;
\\ tmp = a;
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\\ a = tmp;
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\\}
,
\\pub export fn max(_arg_a: c_int) c_int {
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\\ var a = _arg_a;
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\\ var tmp: c_int = undefined;
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\\ tmp = a;
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\\ a = tmp;
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\\}
);
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cases.addC("chaining assign",
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\\void max(int a) {
\\ int b, c;
\\ c = b = a;
\\}
,
\\pub export fn max(a: c_int) void {
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\\ var b: c_int = undefined;
\\ var c: c_int = undefined;
\\ c = x: {
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\\ const _tmp = a;
\\ b = _tmp;
\\ break :x _tmp;
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\\ };
\\}
);
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cases.addC("shift right assign with a fixed size type",
\\#include <stdint.h>
\\int log2(uint32_t a) {
\\ int i = 0;
\\ while (a > 0) {
\\ a >>= 1;
\\ }
\\ return i;
\\}
,
\\pub export fn log2(_arg_a: u32) c_int {
\\ var a = _arg_a;
\\ var i: c_int = 0;
\\ while (a > c_uint(0)) {
\\ a >>= u5(1);
\\ }
\\ return i;
\\}
);
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cases.add("anonymous enum",
\\enum {
\\ One,
\\ Two,
\\};
,
\\pub const One = 0;
\\pub const Two = 1;
);
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cases.addC("function call",
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\\static void bar(void) { }
\\static int baz(void) { return 0; }
\\void foo(void) {
\\ bar();
\\ baz();
\\}
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,
\\pub fn bar() void {}
\\pub fn baz() c_int {
\\ return 0;
\\}
\\pub export fn foo() void {
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\\ bar();
\\ _ = baz();
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\\}
);
2017-09-20 21:54:08 -07:00
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cases.addC("field access expression",
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\\struct Foo {
\\ int field;
\\};
\\int read_field(struct Foo *foo) {
\\ return foo->field;
\\}
,
\\pub const struct_Foo = extern struct {
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\\ field: c_int,
\\};
\\pub export fn read_field(foo: ?[*]struct_Foo) c_int {
\\ return foo.?.field;
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\\}
);
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cases.addC("null statements",
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\\void foo(void) {
\\ ;;;;;
\\}
,
\\pub export fn foo() void {}
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);
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cases.add("undefined array global",
\\int array[100];
,
\\pub var array: [100]c_int = undefined;
);
2017-09-20 22:38:16 -07:00
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cases.addC("array access",
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\\int array[100];
\\int foo(int index) {
\\ return array[index];
\\}
,
\\pub var array: [100]c_int = undefined;
\\pub export fn foo(index: c_int) c_int {
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\\ return array[index];
\\}
);
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cases.addC("c style cast",
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\\int float_to_int(float a) {
\\ return (int)a;
\\}
,
\\pub export fn float_to_int(a: f32) c_int {
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\\ return c_int(a);
\\}
);
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cases.addC("implicit cast to void *",
\\void *foo(unsigned short *x) {
\\ return x;
\\}
,
\\pub export fn foo(x: ?[*]c_ushort) ?*c_void {
\\ return @ptrCast(?*c_void, x);
\\}
);
2017-09-20 23:37:42 -07:00
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cases.addC("sizeof",
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\\#include <stddef.h>
\\size_t size_of(void) {
\\ return sizeof(int);
\\}
,
\\pub export fn size_of() usize {
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\\ return @sizeOf(c_int);
\\}
);
cases.addC("null pointer implicit cast",
\\int* foo(void) {
\\ return 0;
\\}
,
\\pub export fn foo() ?[*]c_int {
\\ return null;
\\}
);
2017-11-13 18:59:32 -08:00
cases.addC("comma operator",
\\int foo(void) {
\\ return 1, 2;
\\}
,
\\pub export fn foo() c_int {
\\ return x: {
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\\ _ = 1;
\\ break :x 2;
2017-11-13 18:59:32 -08:00
\\ };
\\}
);
2017-11-13 19:33:41 -08:00
2017-11-13 19:49:53 -08:00
cases.addC("bitshift",
\\int foo(void) {
\\ return (1 << 2) >> 1;
\\}
,
\\pub export fn foo() c_int {
2017-11-13 19:49:53 -08:00
\\ return (1 << @import("std").math.Log2Int(c_int)(2)) >> @import("std").math.Log2Int(c_int)(1);
\\}
);
cases.addC("compound assignment operators",
\\void foo(void) {
\\ int a = 0;
\\ a += (a += 1);
\\ a -= (a -= 1);
\\ a *= (a *= 1);
\\ a &= (a &= 1);
\\ a |= (a |= 1);
\\ a ^= (a ^= 1);
\\ a >>= (a >>= 1);
\\ a <<= (a <<= 1);
\\}
,
\\pub export fn foo() void {
\\ var a: c_int = 0;
\\ a += x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* + 1);
\\ break :x _ref.*;
\\ };
\\ a -= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* - 1);
\\ break :x _ref.*;
\\ };
\\ a *= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* * 1);
\\ break :x _ref.*;
\\ };
\\ a &= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* & 1);
\\ break :x _ref.*;
\\ };
\\ a |= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* | 1);
\\ break :x _ref.*;
\\ };
\\ a ^= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* ^ 1);
\\ break :x _ref.*;
\\ };
\\ a >>= @import("std").math.Log2Int(c_int)(x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* >> @import("std").math.Log2Int(c_int)(1));
\\ break :x _ref.*;
\\ });
\\ a <<= @import("std").math.Log2Int(c_int)(x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* << @import("std").math.Log2Int(c_int)(1));
\\ break :x _ref.*;
\\ });
\\}
);
cases.addC("compound assignment operators unsigned",
\\void foo(void) {
\\ unsigned a = 0;
\\ a += (a += 1);
\\ a -= (a -= 1);
\\ a *= (a *= 1);
\\ a &= (a &= 1);
\\ a |= (a |= 1);
\\ a ^= (a ^= 1);
\\ a >>= (a >>= 1);
\\ a <<= (a <<= 1);
\\}
,
\\pub export fn foo() void {
\\ var a: c_uint = c_uint(0);
\\ a +%= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* +% c_uint(1));
\\ break :x _ref.*;
\\ };
\\ a -%= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* -% c_uint(1));
\\ break :x _ref.*;
\\ };
\\ a *%= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* *% c_uint(1));
\\ break :x _ref.*;
\\ };
\\ a &= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* & c_uint(1));
\\ break :x _ref.*;
\\ };
\\ a |= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* | c_uint(1));
\\ break :x _ref.*;
\\ };
\\ a ^= x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* ^ c_uint(1));
\\ break :x _ref.*;
\\ };
\\ a >>= @import("std").math.Log2Int(c_uint)(x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* >> @import("std").math.Log2Int(c_uint)(1));
\\ break :x _ref.*;
\\ });
\\ a <<= @import("std").math.Log2Int(c_uint)(x: {
\\ const _ref = &a;
\\ _ref.* = (_ref.* << @import("std").math.Log2Int(c_uint)(1));
\\ break :x _ref.*;
\\ });
\\}
);
2017-11-13 19:33:41 -08:00
cases.addC("duplicate typedef",
\\typedef long foo;
\\typedef int bar;
\\typedef long foo;
\\typedef int baz;
,
\\pub const foo = c_long;
\\pub const bar = c_int;
\\pub const baz = c_int;
);
cases.addC("post increment/decrement",
\\void foo(void) {
\\ int i = 0;
\\ unsigned u = 0;
\\ i++;
\\ i--;
\\ u++;
\\ u--;
\\ i = i++;
\\ i = i--;
\\ u = u++;
\\ u = u--;
\\}
,
\\pub export fn foo() void {
\\ var i: c_int = 0;
\\ var u: c_uint = c_uint(0);
\\ i += 1;
\\ i -= 1;
\\ u +%= 1;
\\ u -%= 1;
\\ i = x: {
\\ const _ref = &i;
\\ const _tmp = _ref.*;
\\ _ref.* += 1;
\\ break :x _tmp;
\\ };
\\ i = x: {
\\ const _ref = &i;
\\ const _tmp = _ref.*;
\\ _ref.* -= 1;
\\ break :x _tmp;
\\ };
\\ u = x: {
\\ const _ref = &u;
\\ const _tmp = _ref.*;
\\ _ref.* +%= 1;
\\ break :x _tmp;
\\ };
\\ u = x: {
\\ const _ref = &u;
\\ const _tmp = _ref.*;
\\ _ref.* -%= 1;
\\ break :x _tmp;
\\ };
\\}
);
2017-11-13 21:56:20 -08:00
cases.addC("pre increment/decrement",
\\void foo(void) {
\\ int i = 0;
\\ unsigned u = 0;
\\ ++i;
\\ --i;
\\ ++u;
\\ --u;
\\ i = ++i;
\\ i = --i;
\\ u = ++u;
\\ u = --u;
\\}
,
\\pub export fn foo() void {
\\ var i: c_int = 0;
\\ var u: c_uint = c_uint(0);
\\ i += 1;
\\ i -= 1;
\\ u +%= 1;
\\ u -%= 1;
\\ i = x: {
\\ const _ref = &i;
\\ _ref.* += 1;
\\ break :x _ref.*;
\\ };
\\ i = x: {
\\ const _ref = &i;
\\ _ref.* -= 1;
\\ break :x _ref.*;
\\ };
\\ u = x: {
\\ const _ref = &u;
\\ _ref.* +%= 1;
\\ break :x _ref.*;
\\ };
\\ u = x: {
\\ const _ref = &u;
\\ _ref.* -%= 1;
\\ break :x _ref.*;
\\ };
\\}
);
2017-11-13 21:56:20 -08:00
cases.addC("do loop",
\\void foo(void) {
\\ int a = 2;
\\ do {
\\ a--;
\\ } while (a != 0);
\\
\\ int b = 2;
\\ do
\\ b--;
\\ while (b != 0);
\\}
,
\\pub export fn foo() void {
2017-11-13 21:56:20 -08:00
\\ var a: c_int = 2;
\\ while (true) {
\\ a -= 1;
\\ if (!(a != 0)) break;
\\ }
2017-11-13 21:56:20 -08:00
\\ var b: c_int = 2;
\\ while (true) {
\\ b -= 1;
\\ if (!(b != 0)) break;
\\ }
2017-11-13 21:56:20 -08:00
\\}
);
2017-11-13 23:10:13 -08:00
cases.addC("deref function pointer",
\\void foo(void) {}
\\int baz(void) { return 0; }
2017-11-13 23:10:13 -08:00
\\void bar(void) {
\\ void(*f)(void) = foo;
\\ int(*b)(void) = baz;
2017-11-13 23:10:13 -08:00
\\ f();
\\ (*(f))();
\\ foo();
\\ b();
\\ (*(b))();
\\ baz();
2017-11-13 23:10:13 -08:00
\\}
,
\\pub export fn foo() void {}
\\pub export fn baz() c_int {
\\ return 0;
\\}
\\pub export fn bar() void {
\\ var f: ?extern fn() void = foo;
\\ var b: ?extern fn() c_int = baz;
\\ f.?();
\\ f.?();
\\ foo();
\\ _ = b.?();
\\ _ = b.?();
\\ _ = baz();
2017-11-13 23:10:13 -08:00
\\}
);
cases.addC("normal deref",
\\void foo(int *x) {
\\ *x = 1;
\\}
,
\\pub export fn foo(x: ?[*]c_int) void {
\\ x.?.* = 1;
2017-11-13 23:10:13 -08:00
\\}
);
2017-11-16 20:54:33 -08:00
cases.add("simple union",
\\union Foo {
\\ int x;
\\ double y;
\\};
,
\\pub const union_Foo = extern union {
2017-11-16 20:54:33 -08:00
\\ x: c_int,
\\ y: f64,
\\};
,
\\pub const Foo = union_Foo;
);
2017-11-17 09:11:03 -08:00
cases.add("address of operator",
\\int foo(void) {
\\ int x = 1234;
\\ int *ptr = &x;
\\ return *ptr;
\\}
,
\\pub fn foo() c_int {
2017-11-17 09:11:03 -08:00
\\ var x: c_int = 1234;
\\ var ptr: ?[*]c_int = &x;
\\ return ptr.?.*;
2017-11-17 09:11:03 -08:00
\\}
);
2017-11-24 16:26:05 -08:00
cases.add("string literal",
\\const char *foo(void) {
\\ return "bar";
\\}
,
\\pub fn foo() ?[*]const u8 {
2017-11-24 16:26:05 -08:00
\\ return c"bar";
\\}
);
2017-11-24 21:25:47 -08:00
cases.add("return void",
\\void foo(void) {
\\ return;
\\}
,
\\pub fn foo() void {
2017-11-24 21:25:47 -08:00
\\ return;
\\}
);
2017-11-24 21:57:48 -08:00
cases.add("for loop",
\\void foo(void) {
\\ for (int i = 0; i < 10; i += 1) { }
\\}
,
\\pub fn foo() void {
2017-11-24 21:57:48 -08:00
\\ {
\\ var i: c_int = 0;
\\ while (i < 10) : (i += 1) {}
\\ }
2017-11-24 21:57:48 -08:00
\\}
);
cases.add("empty for loop",
\\void foo(void) {
\\ for (;;) { }
\\}
,
\\pub fn foo() void {
\\ while (true) {}
\\}
);
cases.add("break statement",
\\void foo(void) {
\\ for (;;) {
\\ break;
\\ }
\\}
,
\\pub fn foo() void {
\\ while (true) {
\\ break;
\\ }
\\}
);
cases.add("continue statement",
\\void foo(void) {
\\ for (;;) {
\\ continue;
\\ }
\\}
,
\\pub fn foo() void {
\\ while (true) {
\\ continue;
\\ }
\\}
);
cases.add("macros with field targets",
\\typedef unsigned int GLbitfield;
\\typedef void (*PFNGLCLEARPROC) (GLbitfield mask);
\\typedef void(*OpenGLProc)(void);
\\union OpenGLProcs {
\\ OpenGLProc ptr[1];
\\ struct {
\\ PFNGLCLEARPROC Clear;
\\ } gl;
\\};
\\extern union OpenGLProcs glProcs;
\\#define glClearUnion glProcs.gl.Clear
\\#define glClearPFN PFNGLCLEARPROC
,
\\pub const GLbitfield = c_uint;
,
\\pub const PFNGLCLEARPROC = ?extern fn(GLbitfield) void;
,
\\pub const OpenGLProc = ?extern fn() void;
,
\\pub const union_OpenGLProcs = extern union {
\\ ptr: [1]OpenGLProc,
\\ gl: extern struct {
\\ Clear: PFNGLCLEARPROC,
\\ },
\\};
,
\\pub extern var glProcs: union_OpenGLProcs;
,
\\pub const glClearPFN = PFNGLCLEARPROC;
,
\\pub inline fn glClearUnion(arg0: GLbitfield) void {
\\ return glProcs.gl.Clear.?(arg0);
\\}
,
\\pub const OpenGLProcs = union_OpenGLProcs;
);
cases.add("variable name shadowing",
\\int foo(void) {
\\ int x = 1;
\\ {
\\ int x = 2;
\\ x += 1;
\\ }
\\ return x;
\\}
,
\\pub fn foo() c_int {
\\ var x: c_int = 1;
\\ {
\\ var x_0: c_int = 2;
\\ x_0 += 1;
\\ }
\\ return x;
\\}
);
cases.add("pointer casting",
\\float *ptrcast(int *a) {
\\ return (float *)a;
\\}
,
\\fn ptrcast(a: ?[*]c_int) ?[*]f32 {
\\ return @ptrCast(?[*]f32, a);
\\}
);
cases.add("bin not",
\\int foo(int x) {
\\ return ~x;
\\}
,
\\pub fn foo(x: c_int) c_int {
\\ return ~x;
\\}
);
cases.add("bool not",
\\int foo(int a, float b, void *c) {
\\ return !(a == 0);
\\ return !a;
\\ return !b;
\\ return !c;
\\}
,
\\pub fn foo(a: c_int, b: f32, c: ?*c_void) c_int {
\\ return !(a == 0);
\\ return !(a != 0);
\\ return !(b != 0);
\\ return !(c != null);
\\}
);
cases.add("primitive types included in defined symbols",
\\int foo(int u32) {
\\ return u32;
\\}
,
\\pub fn foo(u32_0: c_int) c_int {
\\ return u32_0;
\\}
);
cases.add("const ptr initializer",
\\static const char *v0 = "0.0.0";
,
\\pub var v0: ?[*]const u8 = c"0.0.0";
);
cases.add("static incomplete array inside function",
\\void foo(void) {
\\ static const char v2[] = "2.2.2";
\\}
,
\\pub fn foo() void {
\\ const v2: [*]const u8 = c"2.2.2";
\\}
);
cases.add("macro pointer cast",
\\#define NRF_GPIO ((NRF_GPIO_Type *) NRF_GPIO_BASE)
,
\\pub const NRF_GPIO = if (@typeId(@typeOf(NRF_GPIO_BASE)) == @import("builtin").TypeId.Pointer) @ptrCast([*]NRF_GPIO_Type, NRF_GPIO_BASE) else if (@typeId(@typeOf(NRF_GPIO_BASE)) == @import("builtin").TypeId.Int) @intToPtr([*]NRF_GPIO_Type, NRF_GPIO_BASE) else ([*]NRF_GPIO_Type)(NRF_GPIO_BASE);
);
cases.add("if on none bool",
\\enum SomeEnum { A, B, C };
\\int if_none_bool(int a, float b, void *c, enum SomeEnum d) {
\\ if (a) return 0;
\\ if (b) return 1;
\\ if (c) return 2;
\\ if (d) return 3;
\\ return 4;
\\}
,
\\pub const A = enum_SomeEnum.A;
\\pub const B = enum_SomeEnum.B;
\\pub const C = enum_SomeEnum.C;
\\pub const enum_SomeEnum = extern enum {
\\ A,
\\ B,
\\ C,
\\};
\\pub fn if_none_bool(a: c_int, b: f32, c: ?*c_void, d: enum_SomeEnum) c_int {
\\ if (a != 0) return 0;
\\ if (b != 0) return 1;
\\ if (c != null) return 2;
\\ if (d != @bitCast(enum_SomeEnum, @TagType(enum_SomeEnum)(0))) return 3;
\\ return 4;
\\}
);
cases.add("while on none bool",
\\int while_none_bool(int a, float b, void *c) {
\\ while (a) return 0;
\\ while (b) return 1;
\\ while (c) return 2;
\\ return 3;
\\}
,
\\pub fn while_none_bool(a: c_int, b: f32, c: ?*c_void) c_int {
\\ while (a != 0) return 0;
\\ while (b != 0) return 1;
\\ while (c != null) return 2;
\\ return 3;
\\}
);
cases.add("for on none bool",
\\int for_none_bool(int a, float b, void *c) {
\\ for (;a;) return 0;
\\ for (;b;) return 1;
\\ for (;c;) return 2;
\\ return 3;
\\}
,
\\pub fn for_none_bool(a: c_int, b: f32, c: ?*c_void) c_int {
\\ while (a != 0) return 0;
\\ while (b != 0) return 1;
\\ while (c != null) return 2;
\\ return 3;
\\}
);
cases.add("switch on int",
\\int switch_fn(int i) {
\\ int res = 0;
\\ switch (i) {
\\ case 0:
\\ res = 1;
\\ case 1:
\\ res = 2;
\\ default:
\\ res = 3 * i;
\\ break;
\\ case 2:
\\ res = 5;
\\ }
\\}
,
2018-05-28 17:23:55 -07:00
\\pub fn switch_fn(i: c_int) c_int {
\\ var res: c_int = 0;
\\ __switch: {
\\ __case_2: {
\\ __default: {
\\ __case_1: {
\\ __case_0: {
\\ switch (i) {
\\ 0 => break :__case_0,
\\ 1 => break :__case_1,
\\ else => break :__default,
\\ 2 => break :__case_2,
\\ }
\\ }
\\ res = 1;
\\ }
\\ res = 2;
\\ }
\\ res = (3 * i);
\\ break :__switch;
\\ }
\\ res = 5;
\\ }
\\}
);
}