ref: 34f2230c4a505f3b94bc33ed07f0839fe66a0e93
dir: /lib/std/fltparse.myr/
use "alloc" use "bigint" use "chartype" use "chomp" use "extremum" use "fltbits" use "hasprefix" use "intparse" use "option" use "utf" use "striter" pkg std = const flt64parse : (str : byte[:] -> std.option(flt64)) const flt32parse : (str : byte[:] -> std.option(flt32)) ;; type parseresult = union `Flt (int, std.bigint#, int16) `Inf int `Nan int `Badflt ;; const flt64parse = {str var val match fltparse(str) | `Badflt: -> `std.None | `Inf sign: -> `std.Some ((sign : flt64) * std.flt64inf()) | `Nan sign: -> `std.Some ((sign : flt64) * std.flt64nan()) | `Flt (sign, mant, exp): val = toflt(sign, mant, exp, &lim64) std.bigfree(mant) -> `std.Some val ;; } const flt32parse = {str var val match fltparse(str) | `Badflt: -> `std.None | `Inf sign: -> `std.Some ((sign : flt32) * std.flt32inf()) | `Nan sign: -> `std.Some ((sign : flt32) * std.flt32nan()) | `Flt (sign, mant, exp): val = toflt(sign, mant, exp, &lim32) std.bigfree(mant) -> `std.Some (val : flt32) ;; } const fltparse = {str var sign, exp, mant, expinc, i if std.chomp(&str, "-") sign = -1 else sign = 1 std.chomp(&str, "+") ;; match str | "inf": -> `Inf sign | "Inf": -> `Inf sign | "nan": -> `Nan sign | "NaN": -> `Nan sign | "": -> `Badflt | _: /* nothing */ ;; i = 0 exp = 0 expinc = 0 mant = std.mkbigint(0) for var c = std.decode(str[i:]); c == '0'; c = std.decode(str[i:]) i++ ;; for var c = std.decode(str[i:]); fltchar(c); c = std.decode(str[i:]) i++ if c == '_' continue elif c == '.' /* fail if we've already seen the '.' */ if expinc != 0 goto error ;; expinc = -1 elif std.isdigit(c) exp += expinc std.bigmuli(mant, 10) std.bigaddi(mant, std.charval(c, 10)) else goto error ;; ;; if std.hasprefix(str[i:], "e") || std.hasprefix(str[i:], "E") /* intparse doesn't accept '+', so if we have 'e+', consume the '+ */ if std.hasprefix(str[i+1:], "+") i++ ;; match std.intparsebase(str[i+1:], 10) | `std.Some n: exp += n | `std.None: goto error ;; i = str.len ;; if i != str.len goto error ;; -> `Flt (sign, mant, exp) :error std.bigfree(mant) -> `Badflt } const fltchar = {c -> std.isdigit(c) || c == '.' || c == '_' } type lim = struct minsig : uint64 maxsig : uint64 loshift : uint64 nextinc : uint64 minexp : int16 maxexp : int16 sigbits : int16 ;; const lim64 : lim = [ .minsig=0x10000000000000ul, .maxsig=0x20000000000000ul, .minexp=-1022 - 52, .maxexp=1023 - 52, .sigbits=53, .nextinc=1, .loshift=0 ] const lim32 : lim = [ .minsig=0x400000, .maxsig=0x800000, .minexp=-126-22, .maxexp=127-22, .sigbits=22, .nextinc=0x20000000, .loshift=30 ] const toflt = {sign, mant, exp, lim /* if it's all zero, just return 0 */ if std.bigeqi(mant, 0) -> (sign : flt64) * 0.0 /* todo: add fast parsing for common cases */ else -> (sign : flt64) * fallback(mant, exp, lim) ;; } const fallback = {mant, exp, lim var u, v, k : int16, eabs var x, r, xprime, rprime var f u = mant k = 0 v = std.mkbigint(1) x = std.mkbigint(0) r = std.mkbigint(0) eabs = std.abs(exp) if exp >= 0 /* can be optimized */ mulexp(u, eabs, 10) else mulexp(v, eabs, 10) ;; estimate(u, v, &k, lim) while true (xprime, rprime) = std.bigdivmod(u, v) std.bigsteal(x, xprime) std.bigsteal(r, rprime) if k == lim.minexp if std.biggei(x, lim.minsig) && std.biglei(x, lim.maxsig) break else f = denormal(x, v, r, lim) goto done ;; elif k > lim.maxexp f = std.flt64inf() goto done ;; if std.biglti(x, lim.minsig) std.bigmuli(u, 2) k-- elif std.biggti(x, lim.maxsig) std.bigmuli(v, 2) k++ else break ;; ;; f = assemble(u, v, r, k, lim) :done std.bigfree(v) std.bigfree(x) std.bigfree(r) -> f } const estimate = {u, v, k, lim var log2u, log2v, log2rat var ushift, vshift var targ targ = lim.sigbits log2u = std.bigbitcount(u) log2v = std.bigbitcount(v) ushift = 0 vshift = 0 log2rat = (log2u - log2v : int16) /* if we deal with denormals, we just punt to the 'k == minexp' test and take the slow path. */ if log2rat < targ - 1 ushift = std.clamp(targ - log2rat - 1, lim.minexp, lim.maxexp) k# -= ushift elif log2rat > targ + 1 vshift = std.clamp(log2rat - targ + 1, lim.minexp, lim.maxexp) k# += vshift ;; std.bigshli(u, ushift) std.bigshli(v, vshift) } const assemble = {u, v, r, k, lim var z, diff std.bigdiv(u, v) diff = std.bigdup(v) std.bigsub(diff, r) z = mkflt(u, k) match std.bigcmp(r, diff) | `std.Before: /* nothing */ | `std.After: z = nextfloat(z, lim) | `std.Equal: if !std.bigiseven(u) z = nextfloat(z, lim) ;; ;; std.bigfree(diff) -> z } const nextfloat = {z, lim var sign, mant, exp var za (sign, exp, mant) = std.flt64explode(z) if std.abs((mant : int64) - (1l << 52) - 1) < (lim.nextinc : int64) mant = 0 exp++ else mant += lim.nextinc ;; za = std.flt64assem(sign, exp, mant) -> za } const mulexp = {val, exp, pow while exp > 0 exp-- std.bigmuli(val, pow) ;; } const denormal = {x, v, rem, lim var m, z if x.dig.len == 0 m = 0 elif x.dig.len == 2 m = (x.dig[0] : uint64) m |= (x.dig[1] : uint64) << 32 else m = (x.dig[0] : uint64) << lim.loshift ;; z = std.flt64frombits(m) match std.bigcmp(rem, v) | `std.Before: /* nothing */ | `std.After: z = nextfloat(z, lim) | `std.Equal: if !std.bigiseven(x) z = nextfloat(z, lim) ;; ;; -> z } const mkflt = {mant, exp var m, e if mant.dig.len == 2 /* flt64: guaranteed to be in the range 2^52..2^53 */ m = (mant.dig[0] : uint64) m |= (mant.dig[1] : uint64) << 32 else /* flt32: 2^22..2^23, so adjust into flt64 range */ m = (mant.dig[0] : uint64) << 30 exp -= 30 ;; m &= (1<<52) - 1 e = (exp : uint64) e += 1023 + 52 /* exponent bias */ e &= 0x7ff e <<= 52 -> std.flt64frombits(m | e) }