zig/test/cases/eval.zig

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const std = @import("std");
const assert = std.debug.assert;
const builtin = @import("builtin");
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test "compile time recursion" {
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assert(some_data.len == 21);
}
var some_data: [usize(fibonacci(7))]u8 = undefined;
fn fibonacci(x: i32) i32 {
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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);
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test "static add one" {
assert(should_be_1235 == 1235);
}
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test "inlined loop" {
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;
}
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test "inline variable gets result of const if" {
assert(gimme1or2(true) == 1);
assert(gimme1or2(false) == 2);
}
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test "static function evaluation" {
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assert(statically_added_number == 3);
}
const statically_added_number = staticAdd(1, 2);
fn staticAdd(a: i32, b: i32) i32 {
return a + b;
}
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test "const expr eval on single expr blocks" {
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assert(constExprEvalOnSingleExprBlocksFn(1, true) == 3);
}
fn constExprEvalOnSingleExprBlocksFn(x: i32, b: bool) i32 {
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const literal = 3;
const result = if (b) b: {
break :b literal;
} else b: {
break :b x;
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};
return result;
}
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test "statically initialized list" {
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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,
};
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const static_point_list = []Point{
makePoint(1, 2),
makePoint(3, 4),
};
fn makePoint(x: i32, y: i32) Point {
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return Point{
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.x = x,
.y = y,
};
}
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test "static eval list init" {
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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 {
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return Vec3{ .data = []f32{
x,
y,
z,
} };
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}
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test "constant expressions" {
var array: [array_size]u8 = undefined;
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assert(@sizeOf(@typeOf(array)) == 20);
}
const array_size: u8 = 20;
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test "constant struct with negation" {
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assert(vertices[0].x == -0.6);
}
const Vertex = struct {
x: f32,
y: f32,
r: f32,
g: f32,
b: f32,
};
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const vertices = []Vertex{
Vertex{
.x = -0.6,
.y = -0.4,
.r = 1.0,
.g = 0.0,
.b = 0.0,
},
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Vertex{
.x = 0.6,
.y = -0.4,
.r = 0.0,
.g = 1.0,
.b = 0.0,
},
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Vertex{
.x = 0.0,
.y = 0.6,
.r = 0.0,
.g = 0.0,
.b = 1.0,
},
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};
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test "statically initialized struct" {
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st_init_str_foo.x += 1;
assert(st_init_str_foo.x == 14);
}
const StInitStrFoo = struct {
x: i32,
y: bool,
};
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var st_init_str_foo = StInitStrFoo{
.x = 13,
.y = true,
};
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test "statically initalized array literal" {
const y: [4]u8 = st_init_arr_lit_x;
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assert(y[3] == 4);
}
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const st_init_arr_lit_x = []u8{
1,
2,
3,
4,
};
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test "const slice" {
comptime {
const a = "1234567890";
assert(a.len == 10);
const b = a[1..2];
assert(b.len == 1);
assert(b[0] == '2');
}
}
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test "try to trick eval with runtime if" {
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 {
return max(bool, a, b);
}
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test "inlined block and runtime block phi" {
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,
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func: fn (i32) i32,
};
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const cmd_fns = []CmdFn{
CmdFn{
.name = "one",
.func = one,
},
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CmdFn{
.name = "two",
.func = two,
},
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CmdFn{
.name = "three",
.func = three,
},
};
fn one(value: i32) i32 {
return value + 1;
}
fn two(value: i32) i32 {
return value + 2;
}
fn three(value: i32) i32 {
return 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;
}
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test "comptime iterate over fn ptr list" {
assert(performFn('t', 1) == 6);
assert(performFn('o', 0) == 1);
assert(performFn('w', 99) == 99);
}
test "eval @setRuntimeSafety at compile-time" {
const result = comptime fnWithSetRuntimeSafety();
assert(result == 1234);
}
fn fnWithSetRuntimeSafety() i32 {
@setRuntimeSafety(true);
return 1234;
}
test "eval @setFloatMode at compile-time" {
const result = comptime fnWithFloatMode();
assert(result == 1234.0);
}
fn fnWithFloatMode() f32 {
@setFloatMode(this, builtin.FloatMode.Strict);
return 1234.0;
}
const SimpleStruct = struct {
field: i32,
fn method(self: &const SimpleStruct) i32 {
return self.field + 3;
}
};
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var simple_struct = SimpleStruct{ .field = 1234 };
const bound_fn = simple_struct.method;
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test "call method on bound fn referring to var instance" {
assert(bound_fn() == 1237);
}
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test "ptr to local array argument at comptime" {
comptime {
var bytes: [10]u8 = undefined;
modifySomeBytes(bytes[0..]);
assert(bytes[0] == 'a');
assert(bytes[9] == 'b');
}
}
fn modifySomeBytes(bytes: []u8) void {
bytes[0] = 'a';
bytes[9] = 'b';
}
test "comparisons 0 <= uint and 0 > uint should be comptime" {
testCompTimeUIntComparisons(1234);
}
fn testCompTimeUIntComparisons(x: u32) void {
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");
}
}
test "const ptr to variable data changes at runtime" {
assert(foo_ref.name[0] == 'a');
foo_ref.name = "b";
assert(foo_ref.name[0] == 'b');
}
const Foo = struct {
name: []const u8,
};
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var foo_contents = Foo{ .name = "a" };
const foo_ref = &foo_contents;
test "create global array with for loop" {
assert(global_array[5] == 5 * 5);
assert(global_array[9] == 9 * 9);
}
const global_array = x: {
var result: [10]usize = undefined;
for (result) |*item, index| {
item.* = index * index;
}
break :x result;
};
test "compile-time downcast when the bits fit" {
comptime {
const spartan_count: u16 = 255;
const byte = u8(spartan_count);
assert(byte == 255);
}
}
const hi1 = "hi";
const hi2 = hi1;
test "const global shares pointer with other same one" {
assertEqualPtrs(&hi1[0], &hi2[0]);
comptime assert(&hi1[0] == &hi2[0]);
}
fn assertEqualPtrs(ptr1: &const u8, ptr2: &const u8) void {
assert(ptr1 == ptr2);
}
test "@setEvalBranchQuota" {
comptime {
// 1001 for the loop and then 1 more for the assert fn call
@setEvalBranchQuota(1002);
var i = 0;
var sum = 0;
while (i < 1001) : (i += 1) {
sum += i;
}
assert(sum == 500500);
}
}
// TODO test "float literal at compile time not lossy" {
// TODO assert(16777216.0 + 1.0 == 16777217.0);
// TODO assert(9007199254740992.0 + 1.0 == 9007199254740993.0);
// TODO }
test "f32 at compile time is lossy" {
assert(f32(1 << 24) + 1 == 1 << 24);
}
test "f64 at compile time is lossy" {
assert(f64(1 << 53) + 1 == 1 << 53);
}
test "f128 at compile time is lossy" {
assert(f128(10384593717069655257060992658440192.0) + 1 == 10384593717069655257060992658440192.0);
}
// TODO need a better implementation of bigfloat_init_bigint
// assert(f128(1 << 113) == 10384593717069655257060992658440192);
pub fn TypeWithCompTimeSlice(comptime field_name: []const u8) type {
return struct {
pub const Node = struct {};
};
}
test "string literal used as comptime slice is memoized" {
const a = "link";
const b = "link";
comptime assert(TypeWithCompTimeSlice(a).Node == TypeWithCompTimeSlice(b).Node);
comptime assert(TypeWithCompTimeSlice("link").Node == TypeWithCompTimeSlice("link").Node);
}
test "comptime slice of undefined pointer of length 0" {
const slice1 = (&i32)(undefined)[0..0];
assert(slice1.len == 0);
const slice2 = (&i32)(undefined)[100..100];
assert(slice2.len == 0);
}
fn copyWithPartialInline(s: []u32, b: []u8) void {
comptime var i: usize = 0;
inline while (i < 4) : (i += 1) {
s[i] = 0;
s[i] |= u32(b[i * 4 + 0]) << 24;
s[i] |= u32(b[i * 4 + 1]) << 16;
s[i] |= u32(b[i * 4 + 2]) << 8;
s[i] |= u32(b[i * 4 + 3]) << 0;
}
}
test "binary math operator in partially inlined function" {
var s: [4]u32 = undefined;
var b: [16]u8 = undefined;
for (b) |*r, i|
r.* = u8(i + 1);
copyWithPartialInline(s[0..], b[0..]);
assert(s[0] == 0x1020304);
assert(s[1] == 0x5060708);
assert(s[2] == 0x90a0b0c);
assert(s[3] == 0xd0e0f10);
}
test "comptime function with the same args is memoized" {
comptime {
assert(MakeType(i32) == MakeType(i32));
assert(MakeType(i32) != MakeType(f64));
}
}
fn MakeType(comptime T: type) type {
return struct {
field: T,
};
}
test "comptime function with mutable pointer is not memoized" {
comptime {
var x: i32 = 1;
const ptr = &x;
increment(ptr);
increment(ptr);
assert(x == 3);
}
}
fn increment(value: &i32) void {
value.* += 1;
}
fn generateTable(comptime T: type) [1010]T {
var res: [1010]T = undefined;
var i: usize = 0;
while (i < 1010) : (i += 1) {
res[i] = T(i);
}
return res;
}
fn doesAlotT(comptime T: type, value: usize) T {
@setEvalBranchQuota(5000);
const table = comptime blk: {
break :blk generateTable(T);
};
return table[value];
}
test "@setEvalBranchQuota at same scope as generic function call" {
assert(doesAlotT(u32, 2) == 2);
}
test "comptime slice of slice preserves comptime var" {
comptime {
var buff: [10]u8 = undefined;
buff[0..][0..][0] = 1;
assert(buff[0..][0..][0] == 1);
}
}
test "comptime slice of pointer preserves comptime var" {
comptime {
var buff: [10]u8 = undefined;
var a = &buff[0];
a[0..1][0] = 1;
assert(buff[0..][0..][0] == 1);
}
}
const SingleFieldStruct = struct {
x: i32,
fn read_x(self: &const SingleFieldStruct) i32 {
return self.x;
}
};
test "const ptr to comptime mutable data is not memoized" {
comptime {
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var foo = SingleFieldStruct{ .x = 1 };
assert(foo.read_x() == 1);
foo.x = 2;
assert(foo.read_x() == 2);
}
}
test "array concat of slices gives slice" {
comptime {
var a: []const u8 = "aoeu";
var b: []const u8 = "asdf";
const c = a ++ b;
assert(std.mem.eql(u8, c, "aoeuasdf"));
}
}
test "comptime shlWithOverflow" {
const ct_shifted: u64 = comptime amt: {
var amt = u64(0);
_ = @shlWithOverflow(u64, ~u64(0), 16, &amt);
break :amt amt;
};
const rt_shifted: u64 = amt: {
var amt = u64(0);
_ = @shlWithOverflow(u64, ~u64(0), 16, &amt);
break :amt amt;
};
assert(ct_shifted == rt_shifted);
}
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test "runtime 128 bit integer division" {
var a: u128 = 152313999999999991610955792383;
var b: u128 = 10000000000000000000;
var c = a / b;
assert(c == 15231399999);
}
pub const Info = struct {
version: u8,
};
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pub const diamond_info = Info{ .version = 0 };
test "comptime modification of const struct field" {
comptime {
var res = diamond_info;
res.version = 1;
assert(diamond_info.version == 0);
assert(res.version == 1);
}
}