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| author | Andrew Kelley <andrew@ziglang.org> | 2022-07-01 15:52:54 -0700 |
|---|---|---|
| committer | Andrew Kelley <andrew@ziglang.org> | 2022-07-01 15:52:54 -0700 |
| commit | c89dd15e1be4959800dc7092d7dd4375253db7bc (patch) | |
| tree | ca184ae53592efa21e67128a5f891d642d7f1118 /lib/std/fmt/parse_float/decimal.zig | |
| parent | 5466e87fce581f2ef90ac23bb80b1dbc05836fc6 (diff) | |
| parent | 2360f8c490f3ec684ed64ff28e8c1fade249070b (diff) | |
| download | zig-c89dd15e1be4959800dc7092d7dd4375253db7bc.tar.gz zig-c89dd15e1be4959800dc7092d7dd4375253db7bc.zip | |
Merge remote-tracking branch 'origin/master' into llvm14
Diffstat (limited to 'lib/std/fmt/parse_float/decimal.zig')
| -rw-r--r-- | lib/std/fmt/parse_float/decimal.zig | 493 |
1 files changed, 493 insertions, 0 deletions
diff --git a/lib/std/fmt/parse_float/decimal.zig b/lib/std/fmt/parse_float/decimal.zig new file mode 100644 index 0000000000..1a4c7ebb0d --- /dev/null +++ b/lib/std/fmt/parse_float/decimal.zig @@ -0,0 +1,493 @@ +const std = @import("std"); +const math = std.math; +const common = @import("common.zig"); +const FloatStream = @import("FloatStream.zig"); +const isEightDigits = @import("common.zig").isEightDigits; +const mantissaType = common.mantissaType; + +// Arbitrary-precision decimal class for fallback algorithms. +// +// This is only used if the fast-path (native floats) and +// the Eisel-Lemire algorithm are unable to unambiguously +// determine the float. +// +// The technique used is "Simple Decimal Conversion", developed +// by Nigel Tao and Ken Thompson. A detailed description of the +// algorithm can be found in "ParseNumberF64 by Simple Decimal Conversion", +// available online: <https://nigeltao.github.io/blog/2020/parse-number-f64-simple.html>. +// +// Big-decimal implementation. We do not use the big.Int routines since we only require a maximum +// fixed region of memory. Further, we require only a small subset of operations. +// +// This accepts a floating point parameter and will generate a Decimal which can correctly parse +// the input with sufficient accuracy. Internally this means either a u64 mantissa (f16, f32 or f64) +// or a u128 mantissa (f128). +pub fn Decimal(comptime T: type) type { + const MantissaT = mantissaType(T); + std.debug.assert(MantissaT == u64 or MantissaT == u128); + + return struct { + const Self = @This(); + + /// The maximum number of digits required to unambiguously round a float. + /// + /// For a double-precision IEEE-754 float, this required 767 digits, + /// so we store the max digits + 1. + /// + /// We can exactly represent a float in radix `b` from radix 2 if + /// `b` is divisible by 2. This function calculates the exact number of + /// digits required to exactly represent that float. + /// + /// According to the "Handbook of Floating Point Arithmetic", + /// for IEEE754, with emin being the min exponent, p2 being the + /// precision, and b being the radix, the number of digits follows as: + /// + /// `−emin + p2 + ⌊(emin + 1) log(2, b) − log(1 − 2^(−p2), b)⌋` + /// + /// For f32, this follows as: + /// emin = -126 + /// p2 = 24 + /// + /// For f64, this follows as: + /// emin = -1022 + /// p2 = 53 + /// + /// For f128, this follows as: + /// emin = -16383 + /// p2 = 112 + /// + /// In Python: + /// `-emin + p2 + math.floor((emin+ 1)*math.log(2, b)-math.log(1-2**(-p2), b))` + pub const max_digits = if (MantissaT == u64) 768 else 11564; + /// The max digits that can be exactly represented in a 64-bit integer. + pub const max_digits_without_overflow = if (MantissaT == u64) 19 else 38; + pub const decimal_point_range = if (MantissaT == u64) 2047 else 32767; + pub const min_exponent = if (MantissaT == u64) -324 else -4966; + pub const max_exponent = if (MantissaT == u64) 310 else 4933; + pub const max_decimal_digits = if (MantissaT == u64) 18 else 37; + + /// The number of significant digits in the decimal. + num_digits: usize, + /// The offset of the decimal point in the significant digits. + decimal_point: i32, + /// If the number of significant digits stored in the decimal is truncated. + truncated: bool, + /// buffer of the raw digits, in the range [0, 9]. + digits: [max_digits]u8, + + pub fn new() Self { + return .{ + .num_digits = 0, + .decimal_point = 0, + .truncated = false, + .digits = [_]u8{0} ** max_digits, + }; + } + + /// Append a digit to the buffer + pub fn tryAddDigit(self: *Self, digit: u8) void { + if (self.num_digits < max_digits) { + self.digits[self.num_digits] = digit; + } + self.num_digits += 1; + } + + /// Trim trailing zeroes from the buffer + pub fn trim(self: *Self) void { + // All of the following calls to `Self::trim` can't panic because: + // + // 1. `parse_decimal` sets `num_digits` to a max of `max_digits`. + // 2. `right_shift` sets `num_digits` to `write_index`, which is bounded by `num_digits`. + // 3. `left_shift` `num_digits` to a max of `max_digits`. + // + // Trim is only called in `right_shift` and `left_shift`. + std.debug.assert(self.num_digits <= max_digits); + while (self.num_digits != 0 and self.digits[self.num_digits - 1] == 0) { + self.num_digits -= 1; + } + } + + pub fn round(self: *Self) MantissaT { + if (self.num_digits == 0 or self.decimal_point < 0) { + return 0; + } else if (self.decimal_point > max_decimal_digits) { + return math.maxInt(MantissaT); + } + + const dp = @intCast(usize, self.decimal_point); + var n: MantissaT = 0; + + var i: usize = 0; + while (i < dp) : (i += 1) { + n *= 10; + if (i < self.num_digits) { + n += @as(MantissaT, self.digits[i]); + } + } + + var round_up = false; + if (dp < self.num_digits) { + round_up = self.digits[dp] >= 5; + if (self.digits[dp] == 5 and dp + 1 == self.num_digits) { + round_up = self.truncated or ((dp != 0) and (1 & self.digits[dp - 1] != 0)); + } + } + if (round_up) { + n += 1; + } + return n; + } + + /// Computes decimal * 2^shift. + pub fn leftShift(self: *Self, shift: usize) void { + if (self.num_digits == 0) { + return; + } + const num_new_digits = self.numberOfDigitsLeftShift(shift); + var read_index = self.num_digits; + var write_index = self.num_digits + num_new_digits; + var n: MantissaT = 0; + while (read_index != 0) { + read_index -= 1; + write_index -= 1; + n += math.shl(MantissaT, self.digits[read_index], shift); + + const quotient = n / 10; + const remainder = n - (10 * quotient); + if (write_index < max_digits) { + self.digits[write_index] = @intCast(u8, remainder); + } else if (remainder > 0) { + self.truncated = true; + } + n = quotient; + } + while (n > 0) { + write_index -= 1; + + const quotient = n / 10; + const remainder = n - (10 * quotient); + if (write_index < max_digits) { + self.digits[write_index] = @intCast(u8, remainder); + } else if (remainder > 0) { + self.truncated = true; + } + n = quotient; + } + + self.num_digits += num_new_digits; + if (self.num_digits > max_digits) { + self.num_digits = max_digits; + } + self.decimal_point += @intCast(i32, num_new_digits); + self.trim(); + } + + /// Computes decimal * 2^-shift. + pub fn rightShift(self: *Self, shift: usize) void { + var read_index: usize = 0; + var write_index: usize = 0; + var n: MantissaT = 0; + while (math.shr(MantissaT, n, shift) == 0) { + if (read_index < self.num_digits) { + n = (10 * n) + self.digits[read_index]; + read_index += 1; + } else if (n == 0) { + return; + } else { + while (math.shr(MantissaT, n, shift) == 0) { + n *= 10; + read_index += 1; + } + break; + } + } + + self.decimal_point -= @intCast(i32, read_index) - 1; + if (self.decimal_point < -decimal_point_range) { + self.num_digits = 0; + self.decimal_point = 0; + self.truncated = false; + return; + } + + const mask = math.shl(MantissaT, 1, shift) - 1; + while (read_index < self.num_digits) { + const new_digit = @intCast(u8, math.shr(MantissaT, n, shift)); + n = (10 * (n & mask)) + self.digits[read_index]; + read_index += 1; + self.digits[write_index] = new_digit; + write_index += 1; + } + while (n > 0) { + const new_digit = @intCast(u8, math.shr(MantissaT, n, shift)); + n = 10 * (n & mask); + if (write_index < max_digits) { + self.digits[write_index] = new_digit; + write_index += 1; + } else if (new_digit > 0) { + self.truncated = true; + } + } + self.num_digits = write_index; + self.trim(); + } + + /// Parse a bit integer representation of the float as a decimal. + // We do not verify underscores in this path since these will have been verified + // via parse.parseNumber so can assume the number is well-formed. + // This code-path does not have to handle hex-floats since these will always be handled via another + // function prior to this. + pub fn parse(s: []const u8) Self { + var d = Self.new(); + var stream = FloatStream.init(s); + + stream.skipChars2('0', '_'); + while (stream.scanDigit(10)) |digit| { + d.tryAddDigit(digit); + } + + if (stream.firstIs('.')) { + stream.advance(1); + const marker = stream.offsetTrue(); + + // Skip leading zeroes + if (d.num_digits == 0) { + stream.skipChars('0'); + } + + while (stream.hasLen(8) and d.num_digits + 8 < max_digits) { + const v = stream.readU64Unchecked(); + if (!isEightDigits(v)) { + break; + } + std.mem.writeIntSliceLittle(u64, d.digits[d.num_digits..], v - 0x3030_3030_3030_3030); + d.num_digits += 8; + stream.advance(8); + } + + while (stream.scanDigit(10)) |digit| { + d.tryAddDigit(digit); + } + d.decimal_point = @intCast(i32, marker) - @intCast(i32, stream.offsetTrue()); + } + if (d.num_digits != 0) { + // Ignore trailing zeros if any + var n_trailing_zeros: usize = 0; + var i = stream.offsetTrue() - 1; + while (true) { + if (s[i] == '0') { + n_trailing_zeros += 1; + } else if (s[i] != '.') { + break; + } + + i -= 1; + if (i == 0) break; + } + d.decimal_point += @intCast(i32, n_trailing_zeros); + d.num_digits -= n_trailing_zeros; + d.decimal_point += @intCast(i32, d.num_digits); + if (d.num_digits > max_digits) { + d.truncated = true; + d.num_digits = max_digits; + } + } + if (stream.firstIsLower('e')) { + stream.advance(1); + var neg_exp = false; + if (stream.firstIs('-')) { + neg_exp = true; + stream.advance(1); + } else if (stream.firstIs('+')) { + stream.advance(1); + } + var exp_num: i32 = 0; + while (stream.scanDigit(10)) |digit| { + if (exp_num < 0x10000) { + exp_num = 10 * exp_num + digit; + } + } + d.decimal_point += if (neg_exp) -exp_num else exp_num; + } + + var i = d.num_digits; + while (i < max_digits_without_overflow) : (i += 1) { + d.digits[i] = 0; + } + + return d; + } + + // Compute the number decimal digits introduced by a base-2 shift. This is performed + // by storing the leading digits of 1/2^i = 5^i and using these along with the cut-off + // value to quickly determine the decimal shift from binary. + // + // See also https://github.com/golang/go/blob/go1.15.3/src/strconv/decimal.go#L163 for + // another description of the method. + pub fn numberOfDigitsLeftShift(self: *Self, shift: usize) usize { + const ShiftCutoff = struct { + delta: u8, + cutoff: []const u8, + }; + + // Leading digits of 1/2^i = 5^i. + // + // ``` + // import math + // + // bits = 128 + // for i in range(bits): + // log2 = math.log(2)/math.log(10) + // print(f'.{{ .delta = {int(log2*i+1)}, .cutoff = "{5**i}" }}, // {2**i}') + // ``` + const pow2_to_pow5_table = [_]ShiftCutoff{ + .{ .delta = 0, .cutoff = "" }, + .{ .delta = 1, .cutoff = "5" }, // 2 + .{ .delta = 1, .cutoff = "25" }, // 4 + .{ .delta = 1, .cutoff = "125" }, // 8 + .{ .delta = 2, .cutoff = "625" }, // 16 + .{ .delta = 2, .cutoff = "3125" }, // 32 + .{ .delta = 2, .cutoff = "15625" }, // 64 + .{ .delta = 3, .cutoff = "78125" }, // 128 + .{ .delta = 3, .cutoff = "390625" }, // 256 + .{ .delta = 3, .cutoff = "1953125" }, // 512 + .{ .delta = 4, .cutoff = "9765625" }, // 1024 + .{ .delta = 4, .cutoff = "48828125" }, // 2048 + .{ .delta = 4, .cutoff = "244140625" }, // 4096 + .{ .delta = 4, .cutoff = "1220703125" }, // 8192 + .{ .delta = 5, .cutoff = "6103515625" }, // 16384 + .{ .delta = 5, .cutoff = "30517578125" }, // 32768 + .{ .delta = 5, .cutoff = "152587890625" }, // 65536 + .{ .delta = 6, .cutoff = "762939453125" }, // 131072 + .{ .delta = 6, .cutoff = "3814697265625" }, // 262144 + .{ .delta = 6, .cutoff = "19073486328125" }, // 524288 + .{ .delta = 7, .cutoff = "95367431640625" }, // 1048576 + .{ .delta = 7, .cutoff = "476837158203125" }, // 2097152 + .{ .delta = 7, .cutoff = "2384185791015625" }, // 4194304 + .{ .delta = 7, .cutoff = "11920928955078125" }, // 8388608 + .{ .delta = 8, .cutoff = "59604644775390625" }, // 16777216 + .{ .delta = 8, .cutoff = "298023223876953125" }, // 33554432 + .{ .delta = 8, .cutoff = "1490116119384765625" }, // 67108864 + .{ .delta = 9, .cutoff = "7450580596923828125" }, // 134217728 + .{ .delta = 9, .cutoff = "37252902984619140625" }, // 268435456 + .{ .delta = 9, .cutoff = "186264514923095703125" }, // 536870912 + .{ .delta = 10, .cutoff = "931322574615478515625" }, // 1073741824 + .{ .delta = 10, .cutoff = "4656612873077392578125" }, // 2147483648 + .{ .delta = 10, .cutoff = "23283064365386962890625" }, // 4294967296 + .{ .delta = 10, .cutoff = "116415321826934814453125" }, // 8589934592 + .{ .delta = 11, .cutoff = "582076609134674072265625" }, // 17179869184 + .{ .delta = 11, .cutoff = "2910383045673370361328125" }, // 34359738368 + .{ .delta = 11, .cutoff = "14551915228366851806640625" }, // 68719476736 + .{ .delta = 12, .cutoff = "72759576141834259033203125" }, // 137438953472 + .{ .delta = 12, .cutoff = "363797880709171295166015625" }, // 274877906944 + .{ .delta = 12, .cutoff = "1818989403545856475830078125" }, // 549755813888 + .{ .delta = 13, .cutoff = "9094947017729282379150390625" }, // 1099511627776 + .{ .delta = 13, .cutoff = "45474735088646411895751953125" }, // 2199023255552 + .{ .delta = 13, .cutoff = "227373675443232059478759765625" }, // 4398046511104 + .{ .delta = 13, .cutoff = "1136868377216160297393798828125" }, // 8796093022208 + .{ .delta = 14, .cutoff = "5684341886080801486968994140625" }, // 17592186044416 + .{ .delta = 14, .cutoff = "28421709430404007434844970703125" }, // 35184372088832 + .{ .delta = 14, .cutoff = "142108547152020037174224853515625" }, // 70368744177664 + .{ .delta = 15, .cutoff = "710542735760100185871124267578125" }, // 140737488355328 + .{ .delta = 15, .cutoff = "3552713678800500929355621337890625" }, // 281474976710656 + .{ .delta = 15, .cutoff = "17763568394002504646778106689453125" }, // 562949953421312 + .{ .delta = 16, .cutoff = "88817841970012523233890533447265625" }, // 1125899906842624 + .{ .delta = 16, .cutoff = "444089209850062616169452667236328125" }, // 2251799813685248 + .{ .delta = 16, .cutoff = "2220446049250313080847263336181640625" }, // 4503599627370496 + .{ .delta = 16, .cutoff = "11102230246251565404236316680908203125" }, // 9007199254740992 + .{ .delta = 17, .cutoff = "55511151231257827021181583404541015625" }, // 18014398509481984 + .{ .delta = 17, .cutoff = "277555756156289135105907917022705078125" }, // 36028797018963968 + .{ .delta = 17, .cutoff = "1387778780781445675529539585113525390625" }, // 72057594037927936 + .{ .delta = 18, .cutoff = "6938893903907228377647697925567626953125" }, // 144115188075855872 + .{ .delta = 18, .cutoff = "34694469519536141888238489627838134765625" }, // 288230376151711744 + .{ .delta = 18, .cutoff = "173472347597680709441192448139190673828125" }, // 576460752303423488 + .{ .delta = 19, .cutoff = "867361737988403547205962240695953369140625" }, // 1152921504606846976 + .{ .delta = 19, .cutoff = "4336808689942017736029811203479766845703125" }, // 2305843009213693952 + .{ .delta = 19, .cutoff = "21684043449710088680149056017398834228515625" }, // 4611686018427387904 + .{ .delta = 19, .cutoff = "108420217248550443400745280086994171142578125" }, // 9223372036854775808 + .{ .delta = 20, .cutoff = "542101086242752217003726400434970855712890625" }, // 18446744073709551616 + .{ .delta = 20, .cutoff = "2710505431213761085018632002174854278564453125" }, // 36893488147419103232 + .{ .delta = 20, .cutoff = "13552527156068805425093160010874271392822265625" }, // 73786976294838206464 + .{ .delta = 21, .cutoff = "67762635780344027125465800054371356964111328125" }, // 147573952589676412928 + .{ .delta = 21, .cutoff = "338813178901720135627329000271856784820556640625" }, // 295147905179352825856 + .{ .delta = 21, .cutoff = "1694065894508600678136645001359283924102783203125" }, // 590295810358705651712 + .{ .delta = 22, .cutoff = "8470329472543003390683225006796419620513916015625" }, // 1180591620717411303424 + .{ .delta = 22, .cutoff = "42351647362715016953416125033982098102569580078125" }, // 2361183241434822606848 + .{ .delta = 22, .cutoff = "211758236813575084767080625169910490512847900390625" }, // 4722366482869645213696 + .{ .delta = 22, .cutoff = "1058791184067875423835403125849552452564239501953125" }, // 9444732965739290427392 + .{ .delta = 23, .cutoff = "5293955920339377119177015629247762262821197509765625" }, // 18889465931478580854784 + .{ .delta = 23, .cutoff = "26469779601696885595885078146238811314105987548828125" }, // 37778931862957161709568 + .{ .delta = 23, .cutoff = "132348898008484427979425390731194056570529937744140625" }, // 75557863725914323419136 + .{ .delta = 24, .cutoff = "661744490042422139897126953655970282852649688720703125" }, // 151115727451828646838272 + .{ .delta = 24, .cutoff = "3308722450212110699485634768279851414263248443603515625" }, // 302231454903657293676544 + .{ .delta = 24, .cutoff = "16543612251060553497428173841399257071316242218017578125" }, // 604462909807314587353088 + .{ .delta = 25, .cutoff = "82718061255302767487140869206996285356581211090087890625" }, // 1208925819614629174706176 + .{ .delta = 25, .cutoff = "413590306276513837435704346034981426782906055450439453125" }, // 2417851639229258349412352 + .{ .delta = 25, .cutoff = "2067951531382569187178521730174907133914530277252197265625" }, // 4835703278458516698824704 + .{ .delta = 25, .cutoff = "10339757656912845935892608650874535669572651386260986328125" }, // 9671406556917033397649408 + .{ .delta = 26, .cutoff = "51698788284564229679463043254372678347863256931304931640625" }, // 19342813113834066795298816 + .{ .delta = 26, .cutoff = "258493941422821148397315216271863391739316284656524658203125" }, // 38685626227668133590597632 + .{ .delta = 26, .cutoff = "1292469707114105741986576081359316958696581423282623291015625" }, // 77371252455336267181195264 + .{ .delta = 27, .cutoff = "6462348535570528709932880406796584793482907116413116455078125" }, // 154742504910672534362390528 + .{ .delta = 27, .cutoff = "32311742677852643549664402033982923967414535582065582275390625" }, // 309485009821345068724781056 + .{ .delta = 27, .cutoff = "161558713389263217748322010169914619837072677910327911376953125" }, // 618970019642690137449562112 + .{ .delta = 28, .cutoff = "807793566946316088741610050849573099185363389551639556884765625" }, // 1237940039285380274899124224 + .{ .delta = 28, .cutoff = "4038967834731580443708050254247865495926816947758197784423828125" }, // 2475880078570760549798248448 + .{ .delta = 28, .cutoff = "20194839173657902218540251271239327479634084738790988922119140625" }, // 4951760157141521099596496896 + .{ .delta = 28, .cutoff = "100974195868289511092701256356196637398170423693954944610595703125" }, // 9903520314283042199192993792 + .{ .delta = 29, .cutoff = "504870979341447555463506281780983186990852118469774723052978515625" }, // 19807040628566084398385987584 + .{ .delta = 29, .cutoff = "2524354896707237777317531408904915934954260592348873615264892578125" }, // 39614081257132168796771975168 + .{ .delta = 29, .cutoff = "12621774483536188886587657044524579674771302961744368076324462890625" }, // 79228162514264337593543950336 + .{ .delta = 30, .cutoff = "63108872417680944432938285222622898373856514808721840381622314453125" }, // 158456325028528675187087900672 + .{ .delta = 30, .cutoff = "315544362088404722164691426113114491869282574043609201908111572265625" }, // 316912650057057350374175801344 + .{ .delta = 30, .cutoff = "1577721810442023610823457130565572459346412870218046009540557861328125" }, // 633825300114114700748351602688 + .{ .delta = 31, .cutoff = "7888609052210118054117285652827862296732064351090230047702789306640625" }, // 1267650600228229401496703205376 + .{ .delta = 31, .cutoff = "39443045261050590270586428264139311483660321755451150238513946533203125" }, // 2535301200456458802993406410752 + .{ .delta = 31, .cutoff = "197215226305252951352932141320696557418301608777255751192569732666015625" }, // 5070602400912917605986812821504 + .{ .delta = 32, .cutoff = "986076131526264756764660706603482787091508043886278755962848663330078125" }, // 10141204801825835211973625643008 + .{ .delta = 32, .cutoff = "4930380657631323783823303533017413935457540219431393779814243316650390625" }, // 20282409603651670423947251286016 + .{ .delta = 32, .cutoff = "24651903288156618919116517665087069677287701097156968899071216583251953125" }, // 40564819207303340847894502572032 + .{ .delta = 32, .cutoff = "123259516440783094595582588325435348386438505485784844495356082916259765625" }, // 81129638414606681695789005144064 + .{ .delta = 33, .cutoff = "616297582203915472977912941627176741932192527428924222476780414581298828125" }, // 162259276829213363391578010288128 + .{ .delta = 33, .cutoff = "3081487911019577364889564708135883709660962637144621112383902072906494140625" }, // 324518553658426726783156020576256 + .{ .delta = 33, .cutoff = "15407439555097886824447823540679418548304813185723105561919510364532470703125" }, // 649037107316853453566312041152512 + .{ .delta = 34, .cutoff = "77037197775489434122239117703397092741524065928615527809597551822662353515625" }, // 1298074214633706907132624082305024 + .{ .delta = 34, .cutoff = "385185988877447170611195588516985463707620329643077639047987759113311767578125" }, // 2596148429267413814265248164610048 + .{ .delta = 34, .cutoff = "1925929944387235853055977942584927318538101648215388195239938795566558837890625" }, // 5192296858534827628530496329220096 + .{ .delta = 35, .cutoff = "9629649721936179265279889712924636592690508241076940976199693977832794189453125" }, // 10384593717069655257060992658440192 + .{ .delta = 35, .cutoff = "48148248609680896326399448564623182963452541205384704880998469889163970947265625" }, // 20769187434139310514121985316880384 + .{ .delta = 35, .cutoff = "240741243048404481631997242823115914817262706026923524404992349445819854736328125" }, // 41538374868278621028243970633760768 + .{ .delta = 35, .cutoff = "1203706215242022408159986214115579574086313530134617622024961747229099273681640625" }, // 83076749736557242056487941267521536 + .{ .delta = 36, .cutoff = "6018531076210112040799931070577897870431567650673088110124808736145496368408203125" }, // 166153499473114484112975882535043072 + .{ .delta = 36, .cutoff = "30092655381050560203999655352889489352157838253365440550624043680727481842041015625" }, // 332306998946228968225951765070086144 + .{ .delta = 36, .cutoff = "150463276905252801019998276764447446760789191266827202753120218403637409210205078125" }, // 664613997892457936451903530140172288 + .{ .delta = 37, .cutoff = "752316384526264005099991383822237233803945956334136013765601092018187046051025390625" }, // 1329227995784915872903807060280344576 + .{ .delta = 37, .cutoff = "3761581922631320025499956919111186169019729781670680068828005460090935230255126953125" }, // 2658455991569831745807614120560689152 + .{ .delta = 37, .cutoff = "18807909613156600127499784595555930845098648908353400344140027300454676151275634765625" }, // 5316911983139663491615228241121378304 + .{ .delta = 38, .cutoff = "94039548065783000637498922977779654225493244541767001720700136502273380756378173828125" }, // 10633823966279326983230456482242756608 + .{ .delta = 38, .cutoff = "470197740328915003187494614888898271127466222708835008603500682511366903781890869140625" }, // 21267647932558653966460912964485513216 + .{ .delta = 38, .cutoff = "2350988701644575015937473074444491355637331113544175043017503412556834518909454345703125" }, // 42535295865117307932921825928971026432 + .{ .delta = 38, .cutoff = "11754943508222875079687365372222456778186655567720875215087517062784172594547271728515625" }, // 85070591730234615865843651857942052864 + .{ .delta = 39, .cutoff = "58774717541114375398436826861112283890933277838604376075437585313920862972736358642578125" }, // 170141183460469231731687303715884105728 + }; + + std.debug.assert(shift < pow2_to_pow5_table.len); + const x = pow2_to_pow5_table[shift]; + + // Compare leading digits of current to check if lexicographically less than cutoff. + for (x.cutoff) |p5, i| { + if (i >= self.num_digits) { + return x.delta - 1; + } else if (self.digits[i] == p5 - '0') { // digits are stored as integers + continue; + } else if (self.digits[i] < p5 - '0') { + return x.delta - 1; + } else { + return x.delta; + } + return x.delta; + } + return x.delta; + } + }; +} |