The OpenD Programming Language

CustomFloat

Allows user code to define custom floating-point formats. These formats are for storage only; all operations on them are performed by first implicitly extracting them to real first. After the operation is completed the result can be stored in a custom floating-point value via assignment.

  1. template CustomFloat(uint bits)
    template CustomFloat (
    uint bits
    ) if (
    bits == 8 ||
    bits == 16
    ||
    bits == 32
    ||
    bits == 64
    ||
    bits == 80
    ) {}
  2. template CustomFloat(uint precision, uint exponentWidth, CustomFloatFlags flags = CustomFloatFlags.ieee)
  3. struct CustomFloat(uint precision, uint exponentWidth, CustomFloatFlags flags, uint bias)

Examples

import std.math.trigonometry : sin, cos;

// Define a 16-bit floating point values
CustomFloat!16                                x;     // Using the number of bits
CustomFloat!(10, 5)                           y;     // Using the precision and exponent width
CustomFloat!(10, 5,CustomFloatFlags.ieee)     z;     // Using the precision, exponent width and format flags
CustomFloat!(10, 5,CustomFloatFlags.ieee, 15) w;     // Using the precision, exponent width, format flags and exponent offset bias

// Use the 16-bit floats mostly like normal numbers
w = x*y - 1;

// Functions calls require conversion
z = sin(+x)           + cos(+y);                     // Use unary plus to concisely convert to a real
z = sin(x.get!float)  + cos(y.get!float);            // Or use get!T
z = sin(cast(float) x) + cos(cast(float) y);           // Or use cast(T) to explicitly convert

// Define a 8-bit custom float for storing probabilities
alias Probability = CustomFloat!(4, 4, CustomFloatFlags.ieee^CustomFloatFlags.probability^CustomFloatFlags.signed );
auto p = Probability(0.5);

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