// Test trailing comma syntax // zig fmt: off extern var a: c_int; extern "c" var b: c_int; export var c: c_int = 0; threadlocal var d: c_int = 0; extern threadlocal var e: c_int; extern "c" threadlocal var f: c_int; export threadlocal var g: c_int = 0; const struct_trailing_comma = struct { x: i32, y: i32, }; const struct_no_comma = struct { x: i32, y: i32 }; const struct_fn_no_comma = struct { fn m() void {} y: i32 }; const enum_no_comma = enum { A, B }; fn container_init() void { const S = struct { x: i32, y: i32 }; _ = S { .x = 1, .y = 2 }; _ = S { .x = 1, .y = 2, }; } fn type_expr_return1() if (true) A {} fn type_expr_return2() for (true) |_| A {} fn type_expr_return3() while (true) A {} fn switch_cases(x: i32) void { switch (x) { 1,2,3 => {}, 4,5, => {}, 6...8, => {}, else => {}, } } fn switch_prongs(x: i32) void { switch (x) { 0 => {}, else => {}, } switch (x) { 0 => {}, else => {} } } const fn_no_comma = fn(i32, i32)void; const fn_trailing_comma = fn(i32, i32,)void; fn fn_calls() void { fn add(x: i32, y: i32,) i32 { x + y }; _ = add(1, 2); _ = add(1, 2,); } fn asm_lists() void { if (false) { // Build AST but don't analyze asm ("not real assembly" :[a] "x" (x),); asm ("not real assembly" :[a] "x" (->i32),:[a] "x" (1),); asm ("still not real assembly" :::"a","b",); } }