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308 lines
5.9 KiB
Go
308 lines
5.9 KiB
Go
package main
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import (
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"fmt"
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"io"
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"strings"
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)
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type typ3 int
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const (
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invalid typ3 = iota
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integerToken
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symbolToken
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openParenToken
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closeParenToken
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stringToken
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floatToken
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)
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func (t typ3) String() string {
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switch t {
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case integerToken:
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return "integer"
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case symbolToken:
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return "symbol"
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case openParenToken:
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return "open_paren"
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case closeParenToken:
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return "close_paren"
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case stringToken:
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return "string"
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case floatToken:
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return "float"
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}
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panic("wtf")
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}
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type token struct {
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lexeme string
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t typ3
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}
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type stateFn func(*lexer) (stateFn, error)
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type lexer struct {
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io.RuneReader
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cur []rune
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depth int
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out chan token
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}
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// clears the current lexem buffer and emits a token of the given type.
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// There's no sanity checking to make sure you don't emit some bullshit, so
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// don't fuck it up.
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func (l *lexer) emit(t typ3) {
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debugPrint("emit " + string(l.cur))
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l.out <- token{lexeme: string(l.cur), t: t}
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l.cur = nil
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}
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// appends the rune to the current in-progress lexem
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func (l *lexer) append(r rune) {
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debugPrint(fmt.Sprintf("append %c\n", (r)))
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if l.cur == nil {
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l.cur = make([]rune, 0, 32)
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}
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l.cur = append(l.cur, r)
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}
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func isDigit(r rune) bool {
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switch r {
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case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
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return true
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}
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return false
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}
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func debugPrint(s string) {
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if DEBUG {
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fmt.Println(s)
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}
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}
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// lexes an open parenthesis
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func lexOpenParen(l *lexer) (stateFn, error) {
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debugPrint("-->lexOpenParen")
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l.out <- token{"(", openParenToken}
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l.depth++
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r, _, err := l.ReadRune()
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if err != nil {
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return nil, err
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}
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switch r {
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case ' ', '\t', '\n', '\r':
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return lexWhitespace, nil
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case '(':
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return lexOpenParen, nil
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case ')':
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return lexCloseParen, nil
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case ';':
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return lexComment, nil
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}
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if isDigit(r) {
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l.append(r)
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return lexInt, nil
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}
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l.append(r)
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return lexSymbol, nil
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}
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// lexes some whitespace in progress. Maybe this should be combined with root
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// and the lexer shouldn't have a state. I think wehat I'm doing now is
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// "wrong" but who honestly gives a shit.
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func lexWhitespace(l *lexer) (stateFn, error) {
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debugPrint("-->lexWhitespace")
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r, _, err := l.ReadRune()
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if err != nil {
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return nil, err
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}
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switch r {
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case ' ', '\t', '\n', '\r':
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return lexWhitespace, nil
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case '"':
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return lexString, nil
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case '(':
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return lexOpenParen, nil
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case ')':
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return lexCloseParen, nil
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case ';':
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return lexComment, nil
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}
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if isDigit(r) {
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l.append(r)
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return lexInt, nil
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}
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l.append(r)
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return lexSymbol, nil
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}
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func lexString(l *lexer) (stateFn, error) {
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debugPrint("-->lexString")
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r, _, err := l.ReadRune()
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if err != nil {
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return nil, err
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}
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switch r {
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case '"':
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l.emit(stringToken)
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return lexWhitespace, nil
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case '\\':
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return lexStringEsc, nil
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}
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l.append(r)
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return lexString, nil
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}
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// lex the character *after* the string escape character \
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func lexStringEsc(l *lexer) (stateFn, error) {
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debugPrint("-->lexStringEsc")
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r, _, err := l.ReadRune()
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if err != nil {
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return nil, err
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}
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l.append(r)
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return lexString, nil
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}
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// lex an integer. Once we're on an integer, the only valid characters are
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// whitespace, close paren, a period to indicate we want a float, or more
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// digits. Everything else is crap.
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func lexInt(l *lexer) (stateFn, error) {
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debugPrint("-->lexInt")
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r, _, err := l.ReadRune()
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if err != nil {
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return nil, err
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}
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switch r {
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case ' ', '\t', '\n', '\r':
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l.emit(integerToken)
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return lexWhitespace, nil
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case '.':
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l.append(r)
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return lexFloat, nil
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case ')':
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l.emit(integerToken)
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return lexCloseParen, nil
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case ';':
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l.emit(integerToken)
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return lexComment, nil
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}
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if isDigit(r) {
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l.append(r)
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return lexInt, nil
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}
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return nil, fmt.Errorf("unexpected rune in lexInt: %c", r)
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}
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// once we're in a float, the only valid values are digits, whitespace or close
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// paren.
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func lexFloat(l *lexer) (stateFn, error) {
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debugPrint("-->lexFloat")
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r, _, err := l.ReadRune()
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if err != nil {
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return nil, err
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}
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switch r {
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case ' ', '\t', '\n', '\r':
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l.emit(floatToken)
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return lexWhitespace, nil
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case ')':
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l.emit(floatToken)
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return lexCloseParen, nil
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case ';':
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l.emit(floatToken)
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return lexComment, nil
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}
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if isDigit(r) {
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l.append(r)
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return lexFloat, nil
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}
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return nil, fmt.Errorf("unexpected run in lexFloat: %c", r)
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}
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// lexes a symbol in progress
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func lexSymbol(l *lexer) (stateFn, error) {
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debugPrint("-->lexSymbol")
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r, _, err := l.ReadRune()
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if err != nil {
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return nil, err
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}
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switch r {
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case ' ', '\t', '\n', '\r':
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debugPrint("ending lexSymbol on whitespace")
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l.emit(symbolToken)
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return lexWhitespace, nil
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case ')':
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l.emit(symbolToken)
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return lexCloseParen, nil
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case ';':
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l.emit(symbolToken)
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return lexComment, nil
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default:
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l.append(r)
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return lexSymbol, nil
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}
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panic("not reached")
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}
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// lex a close parenthesis
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func lexCloseParen(l *lexer) (stateFn, error) {
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debugPrint("-->lexCloseParen")
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l.out <- token{")", closeParenToken}
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l.depth--
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r, _, err := l.ReadRune()
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if err != nil {
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return nil, err
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}
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switch r {
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case ' ', '\t', '\n', '\r':
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return lexWhitespace, nil
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case ')':
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return lexCloseParen, nil
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case ';':
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return lexComment, nil
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}
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return nil, fmt.Errorf("unimplemented")
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}
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// lexes a comment
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func lexComment(l *lexer) (stateFn, error) {
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debugPrint("-->lexComment")
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r, _, err := l.ReadRune()
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if err != nil {
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return nil, err
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}
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switch r {
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case '\n', '\r':
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return lexWhitespace, nil
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}
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return lexComment, nil
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}
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// lexes some lispy input from an io.Reader, emiting tokens on chan c. The
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// channel is closed when the input reaches EOF, signaling that there are no
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// new tokens.
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func lex(input io.RuneReader, c chan token) {
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defer close(c)
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l := &lexer{input, nil, 0, c}
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var err error
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f := stateFn(lexWhitespace)
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for err == nil {
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f, err = f(l)
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}
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if err != io.EOF {
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fmt.Println(err)
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}
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if l.depth != 0 {
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fmt.Println("error: unbalanced parenthesis")
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}
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}
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func lexs(input string, c chan token) {
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lex(strings.NewReader(input), c)
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}
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