package humanize import ( "errors" "math" "regexp" "strconv" ) var siPrefixTable = map[float64]string{ -24: "y", // yocto -21: "z", // zepto -18: "a", // atto -15: "f", // femto -12: "p", // pico -9: "n", // nano -6: "ยต", // micro -3: "m", // milli 0: "", 3: "k", // kilo 6: "M", // mega 9: "G", // giga 12: "T", // tera 15: "P", // peta 18: "E", // exa 21: "Z", // zetta 24: "Y", // yotta } var revSIPrefixTable = revfmap(siPrefixTable) // revfmap reverses the map and precomputes the power multiplier func revfmap(in map[float64]string) map[string]float64 { rv := map[string]float64{} for k, v := range in { rv[v] = math.Pow(10, k) } return rv } var riParseRegex *regexp.Regexp func init() { ri := `^([0-9.]+)\s?([` for _, v := range siPrefixTable { ri += v } ri += `]?)(.*)` riParseRegex = regexp.MustCompile(ri) } // ComputeSI finds the most appropriate SI prefix for the given number // and returns the prefix along with the value adjusted to be within // that prefix. // // See also: SI, ParseSI. // // e.g. ComputeSI(2.2345e-12) -> (2.2345, "p") func ComputeSI(input float64) (float64, string) { if input == 0 { return 0, "" } exponent := math.Floor(logn(input, 10)) exponent = math.Floor(exponent/3) * 3 value := input / math.Pow(10, exponent) // Handle special case where value is exactly 1000.0 // Should return 1M instead of 1000k if value == 1000.0 { exponent += 3 value = input / math.Pow(10, exponent) } prefix := siPrefixTable[exponent] return value, prefix } // SI returns a string with default formatting. // // SI uses Ftoa to format float value, removing trailing zeros. // // See also: ComputeSI, ParseSI. // // e.g. SI(1000000, B) -> 1MB // e.g. SI(2.2345e-12, "F") -> 2.2345pF func SI(input float64, unit string) string { value, prefix := ComputeSI(input) return Ftoa(value) + " " + prefix + unit } var errInvalid = errors.New("invalid input") // ParseSI parses an SI string back into the number and unit. // // See also: SI, ComputeSI. // // e.g. ParseSI(2.2345pF) -> (2.2345e-12, "F", nil) func ParseSI(input string) (float64, string, error) { found := riParseRegex.FindStringSubmatch(input) if len(found) != 4 { return 0, "", errInvalid } mag := revSIPrefixTable[found[2]] unit := found[3] base, err := strconv.ParseFloat(found[1], 64) return base * mag, unit, err }