float512
WARNING
float512 is not implemented in the current release.
| Property | Value |
|---|---|
| Size | 64 bytes (512 bits) |
| Format | Rux extension |
| Approximate range | ±2.0 × 10-1262611 to ±2.0 × 101262611 |
| Decimal precision | ~148–150 digits |
| Literal suffix | f512 |
| Hardware support | Always software-emulated |
float512 is the maximum-precision float in Rux. It is a Rux extension beyond IEEE 754-2019, but follows the same structural rules (sign, biased exponent, significand) and round-to-nearest behaviour. Special values (Inf, -Inf, NaN) are supported, and division by zero produces Inf or NaN rather than a fatal error. It is always software-emulated — expect large slowdowns versus float64, so it is not recommended for hot paths.
Literals
float512 has no literal suffix, so an explicit type annotation is required:
let ext: float512 = 1.0; // explicit annotation
let big: float512 = 1.3e308; // scientific notationUnsuffixed floating-point literals otherwise default to float64. See Literals for the full grammar.
Typical Use Cases
- Specialized research
- Long-running simulations where error accumulation must be tightly bounded
Arithmetic
| Operator | Description | Compound |
|---|---|---|
+ | Addition | += |
- | Subtraction | -= |
* | Multiplication | *= |
/ | Division | /= |
% | Remainder | %= |
** | Exponentiation | n/a |
let a: float512 = 10.0;
let b: float512 = 3.0;
let sum = a + b; // 13.0
let quot = a / b; // 3.333…
let rem = a % b; // 1.0Both operands must share the same type; mixed-width expressions require an explicit cast. Arithmetic rounds to nearest (ties to even), unary negation (-x) flips the sign, and results that exceed the range overflow to Inf. Subtracting nearly equal values loses significant digits (catastrophic cancellation) — reorder the computation when accuracy matters.
Division by zero never fails: it yields signed infinity, and 0.0 / 0.0 yields NaN. Inf and NaN then propagate — Inf - Inf and Inf * 0.0 are both NaN.
let p = 1.0 / 0.0; // Inf
let n = -1.0 / 0.0; // -Inf
let u = 0.0 / 0.0; // NaNComparison
| Operator | Description | Result |
|---|---|---|
== | Equal | bool |
!= | Not equal | bool |
< | Less than | bool |
<= | Less than or equal | bool |
> | Greater than | bool |
>= | Greater than or equal | bool |
Both operands must have the same type; comparing a different float width, or a float with an integer, is a compile-time error — cast explicitly first.
NaN is unordered: every comparison involving it returns false, including NaN == NaN. Detect it with IsNan, never ==. For the same reason, avoid == between computed results and compare within a tolerance instead:
let x = 0.1 + 0.2;
let close = Abs(x - 0.3) < 1.0e-140; // not x == 0.3Conversion
Rux implicitly widens to any larger float type, so no precision is lost. float512 is the widest float, so there is no wider type to widen into. Narrowing to a smaller float must be explicit and rounds to nearest (ties to even).
let x: float512 = 1.5;
let narrow = x as float64; // narrowing — explicit castFloat-to-integer conversions are always explicit and truncate toward zero; casting NaN or Inf to an integer raises a fatal error in debug builds.
let whole = x as int32; // 1 truncates toward zero