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|
const builtin = @import("builtin");
const std = @import("std");
const expect = std.testing.expect;
const expectEqual = std.testing.expectEqual;
test "super basic invocations" {
const foo = struct {
fn foo() i32 {
return 1234;
}
}.foo;
try expect(@call(.auto, foo, .{}) == 1234);
try comptime expect(@call(.always_inline, foo, .{}) == 1234);
{
// comptime call without comptime keyword
const result = @call(.compile_time, foo, .{}) == 1234;
try comptime expect(result);
}
}
test "basic invocations" {
if (builtin.zig_backend == .stage2_wasm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_c) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
const foo = struct {
fn foo() i32 {
return 1234;
}
}.foo;
try expect(@call(.auto, foo, .{}) == 1234);
comptime {
// modifiers that allow comptime calls
try expect(@call(.auto, foo, .{}) == 1234);
try expect(@call(.no_async, foo, .{}) == 1234);
try expect(@call(.always_tail, foo, .{}) == 1234);
try expect(@call(.always_inline, foo, .{}) == 1234);
}
{
// comptime call without comptime keyword
const result = @call(.compile_time, foo, .{}) == 1234;
try comptime expect(result);
}
{
// call of non comptime-known function
var alias_foo = &foo;
try expect(@call(.no_async, alias_foo, .{}) == 1234);
try expect(@call(.never_tail, alias_foo, .{}) == 1234);
try expect(@call(.never_inline, alias_foo, .{}) == 1234);
}
}
test "tuple parameters" {
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
const add = struct {
fn add(a: i32, b: i32) i32 {
return a + b;
}
}.add;
var a: i32 = 12;
var b: i32 = 34;
try expect(@call(.auto, add, .{ a, 34 }) == 46);
try expect(@call(.auto, add, .{ 12, b }) == 46);
try expect(@call(.auto, add, .{ a, b }) == 46);
try expect(@call(.auto, add, .{ 12, 34 }) == 46);
if (false) {
try comptime expect(@call(.auto, add, .{ 12, 34 }) == 46); // TODO
}
try expect(comptime @call(.auto, add, .{ 12, 34 }) == 46);
{
const separate_args0 = .{ a, b };
const separate_args1 = .{ a, 34 };
const separate_args2 = .{ 12, 34 };
const separate_args3 = .{ 12, b };
try expect(@call(.always_inline, add, separate_args0) == 46);
try expect(@call(.always_inline, add, separate_args1) == 46);
try expect(@call(.always_inline, add, separate_args2) == 46);
try expect(@call(.always_inline, add, separate_args3) == 46);
}
}
test "result location of function call argument through runtime condition and struct init" {
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
const E = enum { a, b };
const S = struct {
e: E,
};
const namespace = struct {
fn foo(s: S) !void {
try expect(s.e == .b);
}
};
var runtime = true;
try namespace.foo(.{
.e = if (!runtime) .a else .b,
});
}
test "function call with 40 arguments" {
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
const S = struct {
fn doTheTest(thirty_nine: i32) !void {
const result = add(
0,
1,
2,
3,
4,
5,
6,
7,
8,
9,
10,
11,
12,
13,
14,
15,
16,
17,
18,
19,
20,
21,
22,
23,
24,
25,
26,
27,
28,
29,
30,
31,
32,
33,
34,
35,
36,
37,
38,
thirty_nine,
40,
);
try expect(result == 820);
try expect(thirty_nine == 39);
}
fn add(
a0: i32,
a1: i32,
a2: i32,
a3: i32,
a4: i32,
a5: i32,
a6: i32,
a7: i32,
a8: i32,
a9: i32,
a10: i32,
a11: i32,
a12: i32,
a13: i32,
a14: i32,
a15: i32,
a16: i32,
a17: i32,
a18: i32,
a19: i32,
a20: i32,
a21: i32,
a22: i32,
a23: i32,
a24: i32,
a25: i32,
a26: i32,
a27: i32,
a28: i32,
a29: i32,
a30: i32,
a31: i32,
a32: i32,
a33: i32,
a34: i32,
a35: i32,
a36: i32,
a37: i32,
a38: i32,
a39: i32,
a40: i32,
) i32 {
return a0 +
a1 +
a2 +
a3 +
a4 +
a5 +
a6 +
a7 +
a8 +
a9 +
a10 +
a11 +
a12 +
a13 +
a14 +
a15 +
a16 +
a17 +
a18 +
a19 +
a20 +
a21 +
a22 +
a23 +
a24 +
a25 +
a26 +
a27 +
a28 +
a29 +
a30 +
a31 +
a32 +
a33 +
a34 +
a35 +
a36 +
a37 +
a38 +
a39 +
a40;
}
};
try S.doTheTest(39);
}
test "arguments to comptime parameters generated in comptime blocks" {
const S = struct {
fn fortyTwo() i32 {
return 42;
}
fn foo(comptime x: i32) void {
if (x != 42) @compileError("bad");
}
};
S.foo(S.fortyTwo());
}
test "forced tail call" {
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_c) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_wasm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_x86_64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
if (builtin.zig_backend == .stage2_llvm) {
// Only attempt this test on targets we know have tail call support in LLVM.
if (builtin.cpu.arch != .x86_64 and builtin.cpu.arch != .aarch64) {
return error.SkipZigTest;
}
}
const S = struct {
fn fibonacciTailInternal(n: u16, a: u16, b: u16) u16 {
if (n == 0) return a;
if (n == 1) return b;
return @call(
.always_tail,
fibonacciTailInternal,
.{ n - 1, b, a + b },
);
}
fn fibonacciTail(n: u16) u16 {
return fibonacciTailInternal(n, 0, 1);
}
};
try expect(S.fibonacciTail(10) == 55);
}
test "inline call preserves tail call" {
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_c) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_wasm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_x86_64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
if (builtin.zig_backend == .stage2_llvm) {
// Only attempt this test on targets we know have tail call support in LLVM.
if (builtin.cpu.arch != .x86_64 and builtin.cpu.arch != .aarch64) {
return error.SkipZigTest;
}
}
const max = std.math.maxInt(u16);
const S = struct {
var a: u16 = 0;
fn foo() void {
return bar();
}
inline fn bar() void {
if (a == max) return;
// Stack overflow if not tail called
var buf: [max]u16 = undefined;
buf[a] = a;
a += 1;
return @call(.always_tail, foo, .{});
}
};
S.foo();
try expect(S.a == std.math.maxInt(u16));
}
test "inline call doesn't re-evaluate non generic struct" {
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
const S = struct {
fn foo(f: struct { a: u8, b: u8 }) !void {
try expect(f.a == 123);
try expect(f.b == 45);
}
};
const ArgTuple = std.meta.ArgsTuple(@TypeOf(S.foo));
try @call(.always_inline, S.foo, ArgTuple{.{ .a = 123, .b = 45 }});
try comptime @call(.always_inline, S.foo, ArgTuple{.{ .a = 123, .b = 45 }});
}
test "Enum constructed by @Type passed as generic argument" {
const S = struct {
const E = std.meta.FieldEnum(struct {
prev_pos: bool,
pos: bool,
vel: bool,
damp_vel: bool,
acc: bool,
rgba: bool,
prev_scale: bool,
scale: bool,
prev_rotation: bool,
rotation: bool,
angular_vel: bool,
alive: bool,
});
fn foo(comptime a: E, b: u32) !void {
try expect(@intFromEnum(a) == b);
}
};
inline for (@typeInfo(S.E).Enum.fields, 0..) |_, i| {
try S.foo(@as(S.E, @enumFromInt(i)), i);
}
}
test "generic function with generic function parameter" {
const S = struct {
fn f(comptime a: fn (anytype) anyerror!void, b: anytype) anyerror!void {
try a(b);
}
fn g(a: anytype) anyerror!void {
try expect(a == 123);
}
};
try S.f(S.g, 123);
}
test "recursive inline call with comptime known argument" {
const S = struct {
inline fn foo(x: i32) i32 {
if (x <= 0) {
return 0;
} else {
return x * 2 + foo(x - 1);
}
}
};
try expect(S.foo(4) == 20);
}
test "inline while with @call" {
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
const S = struct {
fn inc(a: *u32) void {
a.* += 1;
}
};
var a: u32 = 0;
comptime var i = 0;
inline while (i < 10) : (i += 1) {
@call(.auto, S.inc, .{&a});
}
try expect(a == 10);
}
test "method call as parameter type" {
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
const S = struct {
fn foo(x: anytype, y: @TypeOf(x).Inner()) @TypeOf(y) {
return y;
}
fn Inner() type {
return u64;
}
};
try expectEqual(@as(u64, 123), S.foo(S{}, 123));
try expectEqual(@as(u64, 500), S.foo(S{}, 500));
}
test "non-anytype generic parameters provide result type" {
if (builtin.zig_backend == .stage2_wasm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_c) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest; // TODO
const S = struct {
fn f(comptime T: type, y: T) !void {
try expectEqual(@as(T, 123), y);
}
fn g(x: anytype, y: @TypeOf(x)) !void {
try expectEqual(@as(@TypeOf(x), 0x222), y);
}
};
var rt_u16: u16 = 123;
var rt_u32: u32 = 0x10000222;
try S.f(u8, @intCast(rt_u16));
try S.f(u8, @intCast(123));
try S.g(rt_u16, @truncate(rt_u32));
try S.g(rt_u16, @truncate(0x10000222));
try comptime S.f(u8, @intCast(123));
try comptime S.g(@as(u16, undefined), @truncate(0x99990222));
}
test "argument to generic function has correct result type" {
if (builtin.zig_backend == .stage2_wasm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_c) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest; // TODO
const S = struct {
fn foo(_: anytype, e: enum { a, b }) bool {
return e == .b;
}
fn doTheTest() !void {
var t = true;
// Since the enum literal passes through a runtime conditional here, these can only
// compile if RLS provides the correct result type to the argument
try expect(foo({}, if (!t) .a else .b));
try expect(!foo("dummy", if (t) .a else .b));
try expect(foo({}, if (t) .b else .a));
try expect(!foo(123, if (t) .a else .a));
try expect(foo(123, if (t) .b else .b));
}
};
try S.doTheTest();
try comptime S.doTheTest();
}
test "call inline fn through pointer" {
const S = struct {
inline fn foo(x: u8) !void {
try expect(x == 123);
}
};
const f = &S.foo;
try f(123);
}
|
