// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package strconv import "errors" // ErrRange indicates that a value is out of range for the target type. var ErrRange = errors.New("value out of range") // ErrSyntax indicates that a value does not have the right syntax for the target type. var ErrSyntax = errors.New("invalid syntax") // A NumError records a failed conversion. type NumError struct { Func string // the failing function (ParseBool, ParseInt, ParseUint, ParseFloat) Num string // the input Err error // the reason the conversion failed (ErrRange, ErrSyntax) } func (e *NumError) Error() string { return "strconv." + e.Func + ": " + `parsing "` + e.Num + `": ` + e.Err.Error() } func syntaxError(fn, str string) *NumError { return &NumError{fn, str, ErrSyntax} } func rangeError(fn, str string) *NumError { return &NumError{fn, str, ErrRange} } const intSize = 32 << uint(^uint(0)>>63) const IntSize = intSize // number of bits in int, uint (32 or 64) // Return the first number n such that n*base >= 1<<64. func cutoff64(base int) uint64 { if base < 2 { return 0 } return (1<<64-1)/uint64(base) + 1 } // ParseUint is like ParseInt but for unsigned numbers. func ParseUint(s string, b int, bitSize int) (n uint64, err error) { var cutoff, maxVal uint64 if bitSize == 0 { bitSize = int(IntSize) } s0 := s switch { case len(s) < 1: err = ErrSyntax goto Error case 2 <= b && b <= 36: // valid base; nothing to do case b == 0: // Look for octal, hex prefix. switch { case s[0] == '0' && len(s) > 1 && (s[1] == 'x' || s[1] == 'X'): b = 16 s = s[2:] if len(s) < 1 { err = ErrSyntax goto Error } case s[0] == '0': b = 8 default: b = 10 } default: err = errors.New("invalid base " + Itoa(b)) goto Error } n = 0 cutoff = cutoff64(b) maxVal = 1<= b { n = 0 err = ErrSyntax goto Error } if n >= cutoff { // n*b overflows n = 1<<64 - 1 err = ErrRange goto Error } n *= uint64(b) n1 := n + uint64(v) if n1 < n || n1 > maxVal { // n+v overflows n = 1<<64 - 1 err = ErrRange goto Error } n = n1 } return n, nil Error: return n, &NumError{"ParseUint", s0, err} } // ParseInt interprets a string s in the given base (2 to 36) and // returns the corresponding value i. If base == 0, the base is // implied by the string's prefix: base 16 for "0x", base 8 for // "0", and base 10 otherwise. // // The bitSize argument specifies the integer type // that the result must fit into. Bit sizes 0, 8, 16, 32, and 64 // correspond to int, int8, int16, int32, and int64. // // The errors that ParseInt returns have concrete type *NumError // and include err.Num = s. If s is empty or contains invalid // digits, err.Error = ErrSyntax; if the value corresponding // to s cannot be represented by a signed integer of the // given size, err.Error = ErrRange. func ParseInt(s string, base int, bitSize int) (i int64, err error) { const fnParseInt = "ParseInt" if bitSize == 0 { bitSize = int(IntSize) } // Empty string bad. if len(s) == 0 { return 0, syntaxError(fnParseInt, s) } // Pick off leading sign. s0 := s neg := false if s[0] == '+' { s = s[1:] } else if s[0] == '-' { neg = true s = s[1:] } // Convert unsigned and check range. var un uint64 un, err = ParseUint(s, base, bitSize) if err != nil && err.(*NumError).Err != ErrRange { err.(*NumError).Func = fnParseInt err.(*NumError).Num = s0 return 0, err } cutoff := uint64(1 << uint(bitSize-1)) if !neg && un >= cutoff { return int64(cutoff - 1), rangeError(fnParseInt, s0) } if neg && un > cutoff { return -int64(cutoff), rangeError(fnParseInt, s0) } n := int64(un) if neg { n = -n } return n, nil } // Atoi is shorthand for ParseInt(s, 10, 0). func Atoi(s string) (i int, err error) { i64, err := ParseInt(s, 10, 0) return int(i64), err }