ref: 1ee90265d5f764cb54b49531c4b247c5f404491c
dir: /lib/std/fltbits.myr/
pkg std = const flt64bits : (flt : flt64 -> int64) const flt32bits : (flt : flt32 -> int32) const flt64inf : (-> flt64) const flt64nan : (-> flt64) const flt32inf : (-> flt32) const flt32nan : (-> flt32) generic isnan : (f : @a::floating -> bool) const flt64frombits : (bits : uint64 -> flt64) const flt32frombits : (bits : uint32 -> flt32) const flt64explode : (flt : flt64 -> (bool, int64, int64)) const flt32explode : (flt : flt32 -> (bool, int32, int32)) const flt64assem : (sign : bool, mant : int64, exp : int64 -> flt64) const flt32assem : (sign : bool, mant : int32, exp : int32 -> flt32) ;; const flt64bits = {flt; -> (&flt : int64#)#} const flt32bits = {flt; -> (&flt : int32#)#} const flt64frombits = {bits; -> (&bits : flt64#)#} const flt32frombits = {bits; -> (&bits : flt32#)#} const flt64explode = {flt var bits, isneg, mant, exp bits = flt64bits(flt) isneg = (bits >> 63) != 0 /* msb is sign bit */ exp = (bits >> 52) & 0x7ff /* exp is in bits [52..63] */ mant = bits & ((1l << 52) - 1) /* msb is in bits [..51] */ /* add back the implicit bit if this is not a denormal */ if exp != 0 mant |= 1l << 52 else exp = 1 ;; /* adjust for exponent bias. nb: because we are treating the mantissa as m.0 instead of 0.m, our exponent bias needs to be offset by the size of m */ -> (isneg, mant, exp) } const flt32explode = {flt var bits, isneg, mant, exp bits = flt32bits(flt) isneg = (bits >> 31) != 0 /* msb is sign bit */ exp = (bits >> 22) & 0xff /* exp is in bits [23..30] */ mant = bits & ((1 << 22) - 1) /* msb is in bits [0..22] */ /* add back the implicit bit if this is not a denormal */ if exp != 0 mant |= 1 << 22 else exp = 1 ;; /* adjust for exponent bias. nb: because we are treating the mantissa as m.0 instead of 0.m, our exponent bias needs to be offset by the size of m */ -> (isneg, mant, exp) } const flt64assem = {sign, mant, exp var s, m, e s = (sign : uint64) e = (exp : uint64) & 0x7ff m = (mant : uint64) & ((1ul<<52) - 1) -> std.flt64frombits((s << 63) | (e << 52) | m) } const flt32assem = {sign, mant, exp var s, m, e s = (sign : uint32) e = (exp : uint32) & 0xff m = (mant : uint32) & ((1<<22) - 1) -> std.flt32frombits(s << 31 | e << 22 | m) } generic isnan = {f var b b = flt64bits((f : flt64)) -> (b >> 52) & 0x7ffl == 0x7ffl && \ b & ~(0x7ffl) != 0 } const flt64inf = { -> std.flt64frombits(0x7ff0000000000000ul) } const flt64nan = { -> std.flt64frombits(0x7ff8000000000000ul) } const flt32inf = { -> std.flt32frombits(0x7f800000) } const flt32nan = { -> std.flt32frombits(0x7fc00000) }