package fastfloat import ( "math" "strconv" "strings" ) // ParseUint64BestEffort parses uint64 number s. // // It is equivalent to strconv.ParseUint(s, 10, 64), but is faster. // // 0 is returned if the number cannot be parsed. func ParseUint64BestEffort(s string) uint64 { if len(s) == 0 { return 0 } i := uint(0) d := uint64(0) j := i for i < uint(len(s)) { if s[i] >= '0' && s[i] <= '9' { d = d*10 + uint64(s[i]-'0') i++ if i > 18 { // The integer part may be out of range for uint64. // Fall back to slow parsing. dd, err := strconv.ParseUint(s, 10, 64) if err != nil { return 0 } return dd } continue } break } if i <= j { return 0 } if i < uint(len(s)) { // Unparsed tail left. return 0 } return d } // ParseInt64BestEffort parses int64 number s. // // It is equivalent to strconv.ParseInt(s, 10, 64), but is faster. // // 0 is returned if the number cannot be parsed. func ParseInt64BestEffort(s string) int64 { if len(s) == 0 { return 0 } i := uint(0) minus := s[0] == '-' if minus { i++ if i >= uint(len(s)) { return 0 } } d := int64(0) j := i for i < uint(len(s)) { if s[i] >= '0' && s[i] <= '9' { d = d*10 + int64(s[i]-'0') i++ if i > 18 { // The integer part may be out of range for int64. // Fall back to slow parsing. dd, err := strconv.ParseInt(s, 10, 64) if err != nil { return 0 } return dd } continue } break } if i <= j { return 0 } if i < uint(len(s)) { // Unparsed tail left. return 0 } if minus { d = -d } return d } // Exact powers of 10. // // This works faster than math.Pow10, since it avoids additional multiplication. var float64pow10 = [...]float64{ 1e0, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7, 1e8, 1e9, 1e10, 1e11, 1e12, 1e13, 1e14, 1e15, 1e16, } // ParseBestEffort parses floating-point number s. // // It is equivalent to strconv.ParseFloat(s, 64), but is faster. // // 0 is returned if the number cannot be parsed. func ParseBestEffort(s string) float64 { if len(s) == 0 { return 0 } i := uint(0) minus := s[0] == '-' if minus { i++ if i >= uint(len(s)) { return 0 } } d := uint64(0) j := i for i < uint(len(s)) { if s[i] >= '0' && s[i] <= '9' { d = d*10 + uint64(s[i]-'0') i++ if i > 18 { // The integer part may be out of range for uint64. // Fall back to slow parsing. f, err := strconv.ParseFloat(s, 64) if err != nil && !math.IsInf(f, 0) { return 0 } return f } continue } break } if i <= j { if strings.EqualFold(s[i:], "inf") { if minus { return -inf } return inf } if strings.EqualFold(s[i:], "nan") { return nan } return 0 } f := float64(d) if i >= uint(len(s)) { // Fast path - just integer. if minus { f = -f } return f } if s[i] == '.' { // Parse fractional part. i++ if i >= uint(len(s)) { return 0 } k := i for i < uint(len(s)) { if s[i] >= '0' && s[i] <= '9' { d = d*10 + uint64(s[i]-'0') i++ if i-j >= uint(len(float64pow10)) { // The mantissa is out of range. Fall back to standard parsing. f, err := strconv.ParseFloat(s, 64) if err != nil && !math.IsInf(f, 0) { return 0 } return f } continue } break } if i < k { return 0 } // Convert the entire mantissa to a float at once to avoid rounding errors. f = float64(d) / float64pow10[i-k] if i >= uint(len(s)) { // Fast path - parsed fractional number. if minus { f = -f } return f } } if s[i] == 'e' || s[i] == 'E' { // Parse exponent part. i++ if i >= uint(len(s)) { return 0 } expMinus := false if s[i] == '+' || s[i] == '-' { expMinus = s[i] == '-' i++ if i >= uint(len(s)) { return 0 } } exp := int16(0) j := i for i < uint(len(s)) { if s[i] >= '0' && s[i] <= '9' { exp = exp*10 + int16(s[i]-'0') i++ if exp > 300 { // The exponent may be too big for float64. // Fall back to standard parsing. f, err := strconv.ParseFloat(s, 64) if err != nil && !math.IsInf(f, 0) { return 0 } return f } continue } break } if i <= j { return 0 } if expMinus { exp = -exp } f *= math.Pow10(int(exp)) if i >= uint(len(s)) { if minus { f = -f } return f } } return 0 } var inf = math.Inf(1) var nan = math.NaN()