zig/lib/std /
math/isnan.zig
TODO: LLVM is known to miscompile on some architectures to quiet NaN - this is tracked by https://github.com/ziglang/zig/issues/14366
const std = @import("../std.zig");
const builtin = @import("builtin");
const math = std.math;
const meta = std.meta;
const expect = std.testing.expect;
isNan()
pub fn isNan(x: anytype) bool {
return x != x;
}
isSignalNan()
/// TODO: LLVM is known to miscompile on some architectures to quiet NaN -
/// this is tracked by https://github.com/ziglang/zig/issues/14366
pub fn isSignalNan(x: anytype) bool {
const T = @TypeOf(x);
const U = meta.Int(.unsigned, @bitSizeOf(T));
const quiet_signal_bit_mask = 1 << (math.floatFractionalBits(T) - 1);
return isNan(x) and (@as(U, @bitCast(x)) & quiet_signal_bit_mask == 0);
}
Test: isNan
test isNan {
inline for ([_]type{ f16, f32, f64, f80, f128, c_longdouble }) |T| {
try expect(isNan(math.nan(T)));
try expect(isNan(-math.nan(T)));
try expect(isNan(math.snan(T)));
try expect(!isNan(@as(T, 1.0)));
try expect(!isNan(@as(T, math.inf(T))));
}
}
Test: isSignalNan
test isSignalNan {
inline for ([_]type{ f16, f32, f64, f80, f128, c_longdouble }) |T| {
// TODO: Signalling NaN values get converted to quiet NaN values in
// some cases where they shouldn't such that this can fail.
// See https://github.com/ziglang/zig/issues/14366
if (!builtin.cpu.arch.isArm() and
!builtin.cpu.arch.isAARCH64() and
!builtin.cpu.arch.isMIPS32() and
!builtin.cpu.arch.isPowerPC() and
builtin.zig_backend != .stage2_c)
{
try expect(isSignalNan(math.snan(T)));
}
try expect(!isSignalNan(math.nan(T)));
try expect(!isSignalNan(@as(T, 1.0)));
try expect(!isSignalNan(math.inf(T)));
}
}