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Done with lexer (chap1)

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Signed-off-by: jmug <u.g.a.mariano@gmail.com>
This commit is contained in:
Mariano Uvalle 2025-01-01 18:35:22 -08:00
parent f8099f50d2
commit dcf5cb336a
3 changed files with 331 additions and 0 deletions
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141
pkg/lexer/lexer.go Normal file
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package lexer
import "code.jmug.me/jmug/interpreter-in-go/pkg/token"
type Lexer struct {
input string
position int
readPosition int
ch byte
}
func New(input string) *Lexer {
l := &Lexer{input: input}
l.readChar()
return l
}
func (l *Lexer) NextToken() token.Token {
l.skipWhitespace()
var tok token.Token
switch l.ch {
case '=':
if l.peekChar() == '=' {
ch := l.ch
l.readChar()
literal := string(ch) + string(l.ch)
tok.Type = token.EQ
tok.Literal = literal
} else {
tok = newToken(token.ASSIGN, l.ch)
}
case '+':
tok = newToken(token.PLUS, l.ch)
case '-':
tok = newToken(token.MINUS, l.ch)
case '!':
if l.peekChar() == '=' {
ch := l.ch
l.readChar()
literal := string(ch) + string(l.ch)
tok.Type = token.NOT_EQ
tok.Literal = literal
} else {
tok = newToken(token.BANG, l.ch)
}
case '*':
tok = newToken(token.ASTERISK, l.ch)
case '/':
tok = newToken(token.SLASH, l.ch)
case '<':
tok = newToken(token.LT, l.ch)
case '>':
tok = newToken(token.GT, l.ch)
case ',':
tok = newToken(token.COMMA, l.ch)
case ';':
tok = newToken(token.SEMICOLON, l.ch)
case '(':
tok = newToken(token.LPAREN, l.ch)
case ')':
tok = newToken(token.RPAREN, l.ch)
case '{':
tok = newToken(token.LBRACE, l.ch)
case '}':
tok = newToken(token.RBRACE, l.ch)
case 0:
tok.Literal = ""
tok.Type = token.EOF
default:
if isLetter(l.ch) {
tok.Literal = l.readIdentifier()
tok.Type = token.LookupIdent(tok.Literal)
// Don't let it fall through because readIdentifier calls readChar.
return tok
} else if isDigit(l.ch) {
tok.Literal = l.readNumber()
tok.Type = token.INT
// Don't let it fall through because readNumber calls readChar.
return tok
} else {
tok = newToken(token.ILLEGAL, l.ch)
}
}
l.readChar()
return tok
}
func (l *Lexer) readChar() {
if l.readPosition >= len(l.input) {
l.ch = 0
} else {
l.ch = l.input[l.readPosition]
}
l.position = l.readPosition
l.readPosition += 1
}
func (l *Lexer) peekChar() byte {
if l.readPosition >= len(l.input) {
return 0
}
return l.input[l.readPosition]
}
func (l *Lexer) readIdentifier() string {
position := l.position
for isLetter(l.ch) {
l.readChar()
}
// Slicing until l.position instead of readPosition because the last read
// char was not a letter.
return l.input[position:l.position]
}
func (l *Lexer) readNumber() string {
position := l.position
for isDigit(l.ch) {
l.readChar()
}
// Slicing until l.position instead of readPosition because the last read
// char was not a letter.
return l.input[position:l.position]
}
func (l *Lexer) skipWhitespace() {
for l.ch == ' ' || l.ch == '\t' || l.ch == '\n' || l.ch == '\r' {
l.readChar()
}
}
func newToken(tokenType token.TokenType, ch byte) token.Token {
return token.Token{Type: tokenType, Literal: string(ch)}
}
func isLetter(ch byte) bool {
return ('a' <= ch && ch <= 'z') || ('A' <= ch && ch <= 'Z') || ch == '_'
}
func isDigit(ch byte) bool {
return '0' <= ch && ch <= '9'
}

126
pkg/lexer/lexer_test.go Normal file
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package lexer
import (
"testing"
"code.jmug.me/jmug/interpreter-in-go/pkg/token"
)
func TestNextToken(t *testing.T) {
input := `let five = 5;
let ten = 10;
let add = fn(x, y) {
x + y;
};
let result = add(five, ten);
!-/*5;
5 < 10 > 5;
if (5 < 10) {
return true;
} else {
return false;
}
10 == 10;
10 != 9;
`
tests := []struct {
expectedType token.TokenType
expectedLiteral string
}{
{token.LET, "let"},
{token.IDENT, "five"},
{token.ASSIGN, "="},
{token.INT, "5"},
{token.SEMICOLON, ";"},
{token.LET, "let"},
{token.IDENT, "ten"},
{token.ASSIGN, "="},
{token.INT, "10"},
{token.SEMICOLON, ";"},
{token.LET, "let"},
{token.IDENT, "add"},
{token.ASSIGN, "="},
{token.FUNCTION, "fn"},
{token.LPAREN, "("},
{token.IDENT, "x"},
{token.COMMA, ","},
{token.IDENT, "y"},
{token.RPAREN, ")"},
{token.LBRACE, "{"},
{token.IDENT, "x"},
{token.PLUS, "+"},
{token.IDENT, "y"},
{token.SEMICOLON, ";"},
{token.RBRACE, "}"},
{token.SEMICOLON, ";"},
{token.LET, "let"},
{token.IDENT, "result"},
{token.ASSIGN, "="},
{token.IDENT, "add"},
{token.LPAREN, "("},
{token.IDENT, "five"},
{token.COMMA, ","},
{token.IDENT, "ten"},
{token.RPAREN, ")"},
{token.SEMICOLON, ";"},
{token.BANG, "!"},
{token.MINUS, "-"},
{token.SLASH, "/"},
{token.ASTERISK, "*"},
{token.INT, "5"},
{token.SEMICOLON, ";"},
{token.INT, "5"},
{token.LT, "<"},
{token.INT, "10"},
{token.GT, ">"},
{token.INT, "5"},
{token.SEMICOLON, ";"},
{token.IF, "if"},
{token.LPAREN, "("},
{token.INT, "5"},
{token.LT, "<"},
{token.INT, "10"},
{token.RPAREN, ")"},
{token.LBRACE, "{"},
{token.RETURN, "return"},
{token.TRUE, "true"},
{token.SEMICOLON, ";"},
{token.RBRACE, "}"},
{token.ELSE, "else"},
{token.LBRACE, "{"},
{token.RETURN, "return"},
{token.FALSE, "false"},
{token.SEMICOLON, ";"},
{token.RBRACE, "}"},
{token.INT, "10"},
{token.EQ, "=="},
{token.INT, "10"},
{token.SEMICOLON, ";"},
{token.INT, "10"},
{token.NOT_EQ, "!="},
{token.INT, "9"},
{token.SEMICOLON, ";"},
{token.EOF, ""},
}
l := New(input)
for i, tt := range tests {
tok := l.NextToken()
if tok.Type != tt.expectedType {
t.Fatalf("tests[%d] - tokentype wrong. expected=%q, got=%q",
i, tt.expectedType, tok.Type)
}
if tok.Literal != tt.expectedLiteral {
t.Fatalf("tests[%d] - literal wrong. expected=%q, got=%q",
i, tt.expectedLiteral, tok.Literal)
}
}
}

64
pkg/token/token.go Normal file
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package token
type TokenType string
const (
ILLEGAL = "ILLEGAL"
EOF = "EOF"
// Identifiers + Literals
IDENT = "IDENT"
INT = "INT"
// Operators
ASSIGN = "="
PLUS = "+"
MINUS = "-"
BANG = "!"
ASTERISK = "*"
SLASH = "/"
LT = "<"
GT = ">"
EQ = "=="
NOT_EQ = "!="
// Delimiters
COMMA = ","
SEMICOLON = ";"
LPAREN = "("
RPAREN = ")"
LBRACE = "{"
RBRACE = "}"
// Keywords
FUNCTION = "FUNCTION"
LET = "LET"
TRUE = "TRUE"
FALSE = "FALSE"
IF = "IF"
ELSE = "ELSE"
RETURN = "RETURN"
)
var keywords = map[string]TokenType{
"fn": FUNCTION,
"let": LET,
"true": TRUE,
"false": FALSE,
"if": IF,
"else": ELSE,
"return": RETURN,
}
type Token struct {
Type TokenType
Literal string
}
func LookupIdent(ident string) TokenType {
if typ, ok := keywords[ident]; ok {
return typ
}
return IDENT
}