const assert = @import("std").debug.assert; test "compileTimeRecursion" { assert(some_data.len == 21); } var some_data: [usize(fibonacci(7))]u8 = undefined; fn fibonacci(x: i32) -> i32 { if (x <= 1) return 1; return fibonacci(x - 1) + fibonacci(x - 2); } fn unwrapAndAddOne(blah: ?i32) -> i32 { return ??blah + 1; } const should_be_1235 = unwrapAndAddOne(1234); test "testStaticAddOne" { assert(should_be_1235 == 1235); } test "inlinedLoop" { comptime var i = 0; comptime var sum = 0; inline while (i <= 5; i += 1) sum += i; assert(sum == 15); } fn gimme1or2(comptime a: bool) -> i32 { const x: i32 = 1; const y: i32 = 2; comptime var z: i32 = if (a) x else y; return z; } test "inlineVariableGetsResultOfConstIf" { assert(gimme1or2(true) == 1); assert(gimme1or2(false) == 2); } test "staticFunctionEvaluation" { assert(statically_added_number == 3); } const statically_added_number = staticAdd(1, 2); fn staticAdd(a: i32, b: i32) -> i32 { a + b } test "constExprEvalOnSingleExprBlocks" { assert(constExprEvalOnSingleExprBlocksFn(1, true) == 3); } fn constExprEvalOnSingleExprBlocksFn(x: i32, b: bool) -> i32 { const literal = 3; const result = if (b) { literal } else { x }; return result; } test "staticallyInitalizedList" { assert(static_point_list[0].x == 1); assert(static_point_list[0].y == 2); assert(static_point_list[1].x == 3); assert(static_point_list[1].y == 4); } const Point = struct { x: i32, y: i32, }; const static_point_list = []Point { makePoint(1, 2), makePoint(3, 4) }; fn makePoint(x: i32, y: i32) -> Point { return Point { .x = x, .y = y, }; } test "staticEvalListInit" { assert(static_vec3.data[2] == 1.0); assert(vec3(0.0, 0.0, 3.0).data[2] == 3.0); } const static_vec3 = vec3(0.0, 0.0, 1.0); pub const Vec3 = struct { data: [3]f32, }; pub fn vec3(x: f32, y: f32, z: f32) -> Vec3 { Vec3 { .data = []f32 { x, y, z, }, } } test "constantExpressions" { var array : [array_size]u8 = undefined; assert(@sizeOf(@typeOf(array)) == 20); } const array_size : u8 = 20; test "constantStructWithNegation" { assert(vertices[0].x == -0.6); } const Vertex = struct { 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 }, }; test "staticallyInitalizedStruct" { st_init_str_foo.x += 1; assert(st_init_str_foo.x == 14); } const StInitStrFoo = struct { x: i32, y: bool, }; var st_init_str_foo = StInitStrFoo { .x = 13, .y = true, }; test "staticallyInitializedArrayLiteral" { const y : [4]u8 = st_init_arr_lit_x; assert(y[3] == 4); } const st_init_arr_lit_x = []u8{1,2,3,4}; test "constSlice" { comptime { const a = "1234567890"; assert(a.len == 10); const b = a[1...2]; assert(b.len == 1); assert(b[0] == '2'); } } test "tryToTrickEvalWithRuntimeIf" { assert(testTryToTrickEvalWithRuntimeIf(true) == 10); } fn testTryToTrickEvalWithRuntimeIf(b: bool) -> usize { comptime var i: usize = 0; inline while (i < 10; i += 1) { const result = if (b) false else true; } comptime { return i; } } fn max(comptime T: type, a: T, b: T) -> T { if (T == bool) { return a or b; } else if (a > b) { return a; } else { return b; } } fn letsTryToCompareBools(a: bool, b: bool) -> bool { max(bool, a, b) } test "inlinedBlockAndRuntimeBlockPhi" { assert(letsTryToCompareBools(true, true)); assert(letsTryToCompareBools(true, false)); assert(letsTryToCompareBools(false, true)); assert(!letsTryToCompareBools(false, false)); comptime { assert(letsTryToCompareBools(true, true)); assert(letsTryToCompareBools(true, false)); assert(letsTryToCompareBools(false, true)); assert(!letsTryToCompareBools(false, false)); } } const CmdFn = struct { name: []const u8, func: fn(i32) -> i32, }; const cmd_fns = []CmdFn{ CmdFn {.name = "one", .func = one}, CmdFn {.name = "two", .func = two}, CmdFn {.name = "three", .func = three}, }; fn one(value: i32) -> i32 { value + 1 } fn two(value: i32) -> i32 { value + 2 } fn three(value: i32) -> i32 { value + 3 } fn performFn(comptime prefix_char: u8, start_value: i32) -> i32 { var result: i32 = start_value; comptime var i = 0; inline while (i < cmd_fns.len; i += 1) { if (cmd_fns[i].name[0] == prefix_char) { result = cmd_fns[i].func(result); } } return result; } test "comptimeIterateOverFnPtrList" { assert(performFn('t', 1) == 6); assert(performFn('o', 0) == 1); assert(performFn('w', 99) == 99); } test "evalSetDebugSafetyAtCompileTime" { const result = comptime fnWithSetDebugSafety(); assert(result == 1234); } fn fnWithSetDebugSafety() -> i32{ @setDebugSafety(this, true); return 1234; } const SimpleStruct = struct { field: i32, fn method(self: &const SimpleStruct) -> i32 { return self.field + 3; } }; var simple_struct = SimpleStruct{ .field = 1234, }; const bound_fn = simple_struct.method; test "callMethodOnBoundFnReferringToVarInstance" { assert(bound_fn() == 1237); } test "ptrToLocalArrayArgumentAtComptime" { comptime { var bytes: [10]u8 = undefined; modifySomeBytes(bytes[0...]); assert(bytes[0] == 'a'); assert(bytes[9] == 'b'); } } fn modifySomeBytes(bytes: []u8) { bytes[0] = 'a'; bytes[9] = 'b'; } test "comparisons 0 <= uint and 0 > uint should be comptime" { testCompTimeUIntComparisons(1234); } fn testCompTimeUIntComparisons(x: u32) { if (!(0 <= x)) { @compileError("this condition should be comptime known"); } if (0 > x) { @compileError("this condition should be comptime known"); } if (!(x >= 0)) { @compileError("this condition should be comptime known"); } if (x < 0) { @compileError("this condition should be comptime known"); } }