package ini import ( "fmt" "strconv" "strings" "unicode" ) var ( runesTrue = []rune("true") runesFalse = []rune("false") ) var literalValues = [][]rune{ runesTrue, runesFalse, } func isBoolValue(b []rune) bool { for _, lv := range literalValues { if isCaselessLitValue(lv, b) { return true } } return false } func isLitValue(want, have []rune) bool { if len(have) < len(want) { return false } for i := 0; i < len(want); i++ { if want[i] != have[i] { return false } } return true } // isCaselessLitValue is a caseless value comparison, assumes want is already lower-cased for efficiency. func isCaselessLitValue(want, have []rune) bool { if len(have) < len(want) { return false } for i := 0; i < len(want); i++ { if want[i] != unicode.ToLower(have[i]) { return false } } return true } // isNumberValue will return whether not the leading characters in // a byte slice is a number. A number is delimited by whitespace or // the newline token. // // A number is defined to be in a binary, octal, decimal (int | float), hex format, // or in scientific notation. func isNumberValue(b []rune) bool { negativeIndex := 0 helper := numberHelper{} needDigit := false for i := 0; i < len(b); i++ { negativeIndex++ switch b[i] { case '-': if helper.IsNegative() || negativeIndex != 1 { return false } helper.Determine(b[i]) needDigit = true continue case 'e', 'E': if err := helper.Determine(b[i]); err != nil { return false } negativeIndex = 0 needDigit = true continue case 'b': if helper.numberFormat == hex { break } fallthrough case 'o', 'x': needDigit = true if i == 0 { return false } fallthrough case '.': if err := helper.Determine(b[i]); err != nil { return false } needDigit = true continue } if i > 0 && (isNewline(b[i:]) || isWhitespace(b[i])) { return !needDigit } if !helper.CorrectByte(b[i]) { return false } needDigit = false } return !needDigit } func isValid(b []rune) (bool, int, error) { if len(b) == 0 { // TODO: should probably return an error return false, 0, nil } return isValidRune(b[0]), 1, nil } func isValidRune(r rune) bool { return r != ':' && r != '=' && r != '[' && r != ']' && r != ' ' && r != '\n' } // ValueType is an enum that will signify what type // the Value is type ValueType int func (v ValueType) String() string { switch v { case NoneType: return "NONE" case DecimalType: return "FLOAT" case IntegerType: return "INT" case StringType: return "STRING" case BoolType: return "BOOL" } return "" } // ValueType enums const ( NoneType = ValueType(iota) DecimalType IntegerType StringType QuotedStringType BoolType ) // Value is a union container type Value struct { Type ValueType raw []rune integer int64 decimal float64 boolean bool str string } func newValue(t ValueType, base int, raw []rune) (Value, error) { v := Value{ Type: t, raw: raw, } var err error switch t { case DecimalType: v.decimal, err = strconv.ParseFloat(string(raw), 64) case IntegerType: if base != 10 { raw = raw[2:] } v.integer, err = strconv.ParseInt(string(raw), base, 64) case StringType: v.str = string(raw) case QuotedStringType: v.str = string(raw[1 : len(raw)-1]) case BoolType: v.boolean = isCaselessLitValue(runesTrue, v.raw) } // issue 2253 // // if the value trying to be parsed is too large, then we will use // the 'StringType' and raw value instead. if nerr, ok := err.(*strconv.NumError); ok && nerr.Err == strconv.ErrRange { v.Type = StringType v.str = string(raw) err = nil } return v, err } // NewStringValue returns a Value type generated using a string input. func NewStringValue(str string) (Value, error) { return newValue(StringType, 10, []rune(str)) } // NewIntValue returns a Value type generated using an int64 input. func NewIntValue(i int64) (Value, error) { return newValue(IntegerType, 10, []rune{rune(i)}) } // Append will append values and change the type to a string // type. func (v *Value) Append(tok Token) { r := tok.Raw() if v.Type != QuotedStringType { v.Type = StringType r = tok.raw[1 : len(tok.raw)-1] } if tok.Type() != TokenLit { v.raw = append(v.raw, tok.Raw()...) } else { v.raw = append(v.raw, r...) } } func (v Value) String() string { switch v.Type { case DecimalType: return fmt.Sprintf("decimal: %f", v.decimal) case IntegerType: return fmt.Sprintf("integer: %d", v.integer) case StringType: return fmt.Sprintf("string: %s", string(v.raw)) case QuotedStringType: return fmt.Sprintf("quoted string: %s", string(v.raw)) case BoolType: return fmt.Sprintf("bool: %t", v.boolean) default: return "union not set" } } func newLitToken(b []rune) (Token, int, error) { n := 0 var err error token := Token{} if b[0] == '"' { n, err = getStringValue(b) if err != nil { return token, n, err } token = newToken(TokenLit, b[:n], QuotedStringType) } else if isNumberValue(b) { var base int base, n, err = getNumericalValue(b) if err != nil { return token, 0, err } value := b[:n] vType := IntegerType if contains(value, '.') || hasExponent(value) { vType = DecimalType } token = newToken(TokenLit, value, vType) token.base = base } else if isBoolValue(b) { n, err = getBoolValue(b) token = newToken(TokenLit, b[:n], BoolType) } else { n, err = getValue(b) token = newToken(TokenLit, b[:n], StringType) } return token, n, err } // IntValue returns an integer value func (v Value) IntValue() int64 { return v.integer } // FloatValue returns a float value func (v Value) FloatValue() float64 { return v.decimal } // BoolValue returns a bool value func (v Value) BoolValue() bool { return v.boolean } func isTrimmable(r rune) bool { switch r { case '\n', ' ': return true } return false } // StringValue returns the string value func (v Value) StringValue() string { switch v.Type { case StringType: return strings.TrimFunc(string(v.raw), isTrimmable) case QuotedStringType: // preserve all characters in the quotes return string(removeEscapedCharacters(v.raw[1 : len(v.raw)-1])) default: return strings.TrimFunc(string(v.raw), isTrimmable) } } func contains(runes []rune, c rune) bool { for i := 0; i < len(runes); i++ { if runes[i] == c { return true } } return false } func runeCompare(v1 []rune, v2 []rune) bool { if len(v1) != len(v2) { return false } for i := 0; i < len(v1); i++ { if v1[i] != v2[i] { return false } } return true }