Lexer now uses go's strconv number parsing functions

This allows for better accuracy when parsing floats, at the cost of only
supporting decimal floating point literals. The lexer now passes all tests.
This commit is contained in:
Sasha Koshka 2022-08-18 00:31:27 -04:00
parent ac85c2c725
commit dd8bbf8b13

View File

@ -1,10 +1,13 @@
package lexer
import "strconv"
import "git.tebibyte.media/sashakoshka/arf/file"
// tokenizeSymbolBeginning lexes a token that starts with a number.
func (lexer *LexingOperation) tokenizeNumberBeginning (negative bool) (err error) {
var number uint64
var fragment float64
var isFloat bool
var intNumber uint64
var floatNumber float64
var isFloat bool
token := lexer.newToken()
@ -13,24 +16,22 @@ func (lexer *LexingOperation) tokenizeNumberBeginning (negative bool) (err error
if lexer.char == 'x' {
lexer.nextRune()
number, fragment, isFloat, err = lexer.tokenizeNumber(16)
intNumber, floatNumber, isFloat, err = lexer.tokenizeNumber(16)
} else if lexer.char == 'b' {
lexer.nextRune()
number, fragment, isFloat, err = lexer.tokenizeNumber(2)
intNumber, floatNumber, isFloat, err = lexer.tokenizeNumber(2)
} else if lexer.char == '.' {
number, fragment, isFloat, err = lexer.tokenizeNumber(10)
intNumber, floatNumber, isFloat, err = lexer.tokenizeNumber(10)
} else if lexer.char >= '0' && lexer.char <= '9' {
number, fragment, isFloat, err = lexer.tokenizeNumber(8)
intNumber, floatNumber, isFloat, err = lexer.tokenizeNumber(8)
}
} else {
number, fragment, isFloat, err = lexer.tokenizeNumber(10)
intNumber, floatNumber, isFloat, err = lexer.tokenizeNumber(10)
}
if err != nil { return }
if isFloat {
floatNumber := float64(number) + fragment
token.kind = TokenKindFloat
if negative {
token.value = floatNumber * -1
@ -40,10 +41,10 @@ func (lexer *LexingOperation) tokenizeNumberBeginning (negative bool) (err error
} else {
if negative {
token.kind = TokenKindInt
token.value = int64(number) * -1
token.value = int64(intNumber) * -1
} else {
token.kind = TokenKindUInt
token.value = uint64(number)
token.value = uint64(intNumber)
}
}
@ -51,24 +52,24 @@ func (lexer *LexingOperation) tokenizeNumberBeginning (negative bool) (err error
return
}
// runeToDigit converts a rune from 0-F to a corresponding digit, with a maximum
// radix. If the character is invalid, or the digit is too big, it will return
// false for worked.
func runeToDigit (char rune, radix uint64) (digit uint64, worked bool) {
worked = true
// runeIsDigit checks to see if the rune is a valid digit within the given
// radix, up to 16. A '.' rune will also be treated as valid.
func runeIsDigit (char rune, radix uint64) (isDigit bool) {
isDigit = true
var digit uint64
if char >= '0' && char <= '9' {
digit = uint64(char - '0')
} else if char >= 'A' && char <= 'F' {
digit = uint64(char - 'A' + 10)
} else if char >= 'a' && char <= 'f' {
digit = uint64(char - 'a' + 10)
} else {
worked = false
} else if char != '.' {
isDigit = false
}
if digit >= radix {
worked = false
isDigit = false
}
return
@ -78,42 +79,43 @@ func runeToDigit (char rune, radix uint64) (digit uint64, worked bool) {
func (lexer *LexingOperation) tokenizeNumber (
radix uint64,
) (
number uint64,
fragment float64,
isFloat bool,
err error,
intNumber uint64,
floatNumber float64,
isFloat bool,
err error,
) {
got := ""
for {
digit, worked := runeToDigit(lexer.char, radix)
if !worked { break }
number *= radix
number += digit
if !runeIsDigit(lexer.char, radix) { break }
if lexer.char == '.' {
if radix != 10 {
err = file.NewError (
lexer.file.Location(1),
"floats must have radix of 10",
file.ErrorKindError)
return
}
isFloat = true
}
got += string(lexer.char)
err = lexer.nextRune()
if err != nil { return }
}
// TODO: increase accuracy of this so that TestTokenizeNumbers is
// passed.
if lexer.char == '.' {
isFloat = true
err = lexer.nextRune()
if err != nil { return }
coef := 1 / float64(radix)
for {
digit, worked := runeToDigit(lexer.char, radix)
if !worked { break }
fragment += float64(digit) * coef
coef /= float64(radix)
err = lexer.nextRune()
if err != nil { return }
}
if isFloat {
floatNumber, err = strconv.ParseFloat(got, 64)
} else {
intNumber, err = strconv.ParseUint(got, int(radix), 64)
}
if err != nil {
err = file.NewError (
lexer.file.Location(1),
"could not parse number: " + err.Error(),
file.ErrorKindError)
return
}
return
}