315 lines
7.6 KiB
Zig
315 lines
7.6 KiB
Zig
const assert = @import("std").debug.assert;
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test "division" {
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testDivision();
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comptime testDivision();
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}
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fn testDivision() {
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assert(div(u32, 13, 3) == 4);
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assert(div(f32, 1.0, 2.0) == 0.5);
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assert(divExact(u32, 55, 11) == 5);
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assert(divExact(i32, -55, 11) == -5);
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assert(divExact(f32, 55.0, 11.0) == 5.0);
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assert(divExact(f32, -55.0, 11.0) == -5.0);
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assert(divFloor(i32, 5, 3) == 1);
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assert(divFloor(i32, -5, 3) == -2);
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assert(divFloor(f32, 5.0, 3.0) == 1.0);
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assert(divFloor(f32, -5.0, 3.0) == -2.0);
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assert(divFloor(i32, -0x80000000, -2) == 0x40000000);
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assert(divFloor(i32, 0, -0x80000000) == 0);
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assert(divFloor(i32, -0x40000001, 0x40000000) == -2);
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assert(divFloor(i32, -0x80000000, 1) == -0x80000000);
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assert(divTrunc(i32, 5, 3) == 1);
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assert(divTrunc(i32, -5, 3) == -1);
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assert(divTrunc(f32, 5.0, 3.0) == 1.0);
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assert(divTrunc(f32, -5.0, 3.0) == -1.0);
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}
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fn div(comptime T: type, a: T, b: T) -> T {
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a / b
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}
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fn divExact(comptime T: type, a: T, b: T) -> T {
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@divExact(a, b)
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}
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fn divFloor(comptime T: type, a: T, b: T) -> T {
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@divFloor(a, b)
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}
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fn divTrunc(comptime T: type, a: T, b: T) -> T {
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@divTrunc(a, b)
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}
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test "@addWithOverflow" {
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var result: u8 = undefined;
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assert(@addWithOverflow(u8, 250, 100, &result));
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assert(!@addWithOverflow(u8, 100, 150, &result));
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assert(result == 250);
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}
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// TODO test mulWithOverflow
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// TODO test subWithOverflow
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test "@shlWithOverflow" {
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var result: u16 = undefined;
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assert(@shlWithOverflow(u16, 0b0010111111111111, 3, &result));
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assert(!@shlWithOverflow(u16, 0b0010111111111111, 2, &result));
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assert(result == 0b1011111111111100);
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}
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test "@clz" {
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testClz();
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comptime testClz();
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}
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fn testClz() {
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assert(clz(u8(0b00001010)) == 4);
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assert(clz(u8(0b10001010)) == 0);
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assert(clz(u8(0b00000000)) == 8);
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assert(clz(u128(0xffffffffffffffff)) == 64);
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assert(clz(u128(0x10000000000000000)) == 63);
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}
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fn clz(x: var) -> usize {
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@clz(x)
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}
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test "@ctz" {
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testCtz();
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comptime testCtz();
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}
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fn testCtz() {
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assert(ctz(u8(0b10100000)) == 5);
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assert(ctz(u8(0b10001010)) == 1);
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assert(ctz(u8(0b00000000)) == 8);
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}
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fn ctz(x: var) -> usize {
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@ctz(x)
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}
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test "assignment operators" {
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var i: u32 = 0;
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i += 5; assert(i == 5);
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i -= 2; assert(i == 3);
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i *= 20; assert(i == 60);
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i /= 3; assert(i == 20);
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i %= 11; assert(i == 9);
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i <<= 1; assert(i == 18);
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i >>= 2; assert(i == 4);
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i = 6;
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i &= 5; assert(i == 4);
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i ^= 6; assert(i == 2);
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i = 6;
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i |= 3; assert(i == 7);
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}
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test "three expr in a row" {
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testThreeExprInARow(false, true);
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comptime testThreeExprInARow(false, true);
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}
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fn testThreeExprInARow(f: bool, t: bool) {
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assertFalse(f or f or f);
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assertFalse(t and t and f);
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assertFalse(1 | 2 | 4 != 7);
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assertFalse(3 ^ 6 ^ 8 != 13);
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assertFalse(7 & 14 & 28 != 4);
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assertFalse(9 << 1 << 2 != 9 << 3);
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assertFalse(90 >> 1 >> 2 != 90 >> 3);
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assertFalse(100 - 1 + 1000 != 1099);
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assertFalse(5 * 4 / 2 % 3 != 1);
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assertFalse(i32(i32(5)) != 5);
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assertFalse(!!false);
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assertFalse(i32(7) != --(i32(7)));
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}
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fn assertFalse(b: bool) {
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assert(!b);
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}
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test "const number literal" {
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const one = 1;
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const eleven = ten + one;
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assert(eleven == 11);
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}
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const ten = 10;
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test "unsigned wrapping" {
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testUnsignedWrappingEval(@maxValue(u32));
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comptime testUnsignedWrappingEval(@maxValue(u32));
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}
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fn testUnsignedWrappingEval(x: u32) {
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const zero = x +% 1;
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assert(zero == 0);
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const orig = zero -% 1;
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assert(orig == @maxValue(u32));
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}
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test "signed wrapping" {
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testSignedWrappingEval(@maxValue(i32));
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comptime testSignedWrappingEval(@maxValue(i32));
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}
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fn testSignedWrappingEval(x: i32) {
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const min_val = x +% 1;
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assert(min_val == @minValue(i32));
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const max_val = min_val -% 1;
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assert(max_val == @maxValue(i32));
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}
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test "negation wrapping" {
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testNegationWrappingEval(@minValue(i16));
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comptime testNegationWrappingEval(@minValue(i16));
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}
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fn testNegationWrappingEval(x: i16) {
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assert(x == -32768);
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const neg = -%x;
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assert(neg == -32768);
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}
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test "unsigned 64-bit division" {
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test_u64_div();
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comptime test_u64_div();
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}
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fn test_u64_div() {
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const result = divWithResult(1152921504606846976, 34359738365);
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assert(result.quotient == 33554432);
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assert(result.remainder == 100663296);
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}
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fn divWithResult(a: u64, b: u64) -> DivResult {
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DivResult {
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.quotient = a / b,
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.remainder = a % b,
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}
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}
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const DivResult = struct {
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quotient: u64,
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remainder: u64,
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};
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test "binary not" {
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assert(comptime {~u16(0b1010101010101010) == 0b0101010101010101});
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assert(comptime {~u64(2147483647) == 18446744071562067968});
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testBinaryNot(0b1010101010101010);
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}
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fn testBinaryNot(x: u16) {
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assert(~x == 0b0101010101010101);
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}
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test "small int addition" {
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var x: @IntType(false, 2) = 0;
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assert(x == 0);
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x += 1;
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assert(x == 1);
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x += 1;
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assert(x == 2);
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x += 1;
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assert(x == 3);
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var result: @typeOf(x) = 3;
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assert(@addWithOverflow(@typeOf(x), x, 1, &result));
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assert(result == 0);
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}
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test "float equality" {
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const x: f64 = 0.012;
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const y: f64 = x + 1.0;
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testFloatEqualityImpl(x, y);
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comptime testFloatEqualityImpl(x, y);
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}
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fn testFloatEqualityImpl(x: f64, y: f64) {
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const y2 = x + 1.0;
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assert(y == y2);
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}
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test "allow signed integer division/remainder when values are comptime known and positive or exact" {
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assert(5 / 3 == 1);
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assert(-5 / -3 == 1);
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assert(-6 / 3 == -2);
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assert(5 % 3 == 2);
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assert(-6 % 3 == 0);
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}
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test "float literal parsing" {
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comptime assert(0x1.0 == 1.0);
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}
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test "hex float literal within range" {
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const a = 0x1.0p1023;
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const b = 0x0.1p1027;
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const c = 0x1.0p-1022;
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}
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test "truncating shift left" {
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testShlTrunc(@maxValue(u16));
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comptime testShlTrunc(@maxValue(u16));
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}
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fn testShlTrunc(x: u16) {
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const shifted = x << 1;
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assert(shifted == 65534);
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}
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test "truncating shift right" {
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testShrTrunc(@maxValue(u16));
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comptime testShrTrunc(@maxValue(u16));
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}
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fn testShrTrunc(x: u16) {
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const shifted = x >> 1;
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assert(shifted == 32767);
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}
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test "exact shift left" {
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testShlExact(0b00110101);
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comptime testShlExact(0b00110101);
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}
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fn testShlExact(x: u8) {
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const shifted = @shlExact(x, 2);
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assert(shifted == 0b11010100);
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}
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test "exact shift right" {
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testShrExact(0b10110100);
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comptime testShrExact(0b10110100);
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}
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fn testShrExact(x: u8) {
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const shifted = @shrExact(x, 2);
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assert(shifted == 0b00101101);
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}
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test "big number addition" {
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comptime {
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assert(
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35361831660712422535336160538497375248 +
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101752735581729509668353361206450473702 ==
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137114567242441932203689521744947848950);
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assert(
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594491908217841670578297176641415611445982232488944558774612 +
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390603545391089362063884922208143568023166603618446395589768 ==
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985095453608931032642182098849559179469148836107390954364380);
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}
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}
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test "big number multiplication" {
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comptime {
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assert(
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45960427431263824329884196484953148229 *
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128339149605334697009938835852565949723 ==
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5898522172026096622534201617172456926982464453350084962781392314016180490567);
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assert(
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594491908217841670578297176641415611445982232488944558774612 *
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390603545391089362063884922208143568023166603618446395589768 ==
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232210647056203049913662402532976186578842425262306016094292237500303028346593132411865381225871291702600263463125370016);
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}
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}
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