diff --git a/lexer.go b/lexer.go index 7454a2e..81cfb22 100644 --- a/lexer.go +++ b/lexer.go @@ -9,7 +9,7 @@ import ( const ( char_any = '*' - char_separator = ',' + char_comma = ',' char_single = '?' char_escape = '\\' char_range_open = '[' @@ -138,7 +138,7 @@ type lexer struct { func newLexer(source string) *lexer { l := &lexer{ input: source, - state: lexText, + state: lexRaw, items: make(chan item, len(source)), termPhrases: make(map[int]int), } @@ -146,7 +146,7 @@ func newLexer(source string) *lexer { } func (l *lexer) run() { - for state := lexText; state != nil; { + for state := lexRaw; state != nil; { state = state(l) } close(l.items) @@ -218,29 +218,26 @@ func (l *lexer) acceptAll(valid string) { l.unread() } -func (l *lexer) emit(t itemType) { - if l.pos == len(l.input) { - l.items <- item{t, l.input[l.start:]} - } else { - l.items <- item{t, l.input[l.start:l.pos]} - } +func (l *lexer) emitCurrent(t itemType) { + l.emit(t, l.input[l.start:l.pos]) +} +func (l *lexer) emit(t itemType, s string) { + l.items <- item{t, s} l.start = l.pos l.runes = 0 l.width = 0 } -func (l *lexer) emitMaybe(t itemType) { - if l.pos > l.start { - l.emit(t) - } -} - func (l *lexer) errorf(format string, args ...interface{}) { l.items <- item{item_error, fmt.Sprintf(format, args...)} } -func lexText(l *lexer) stateFn { +func (l *lexer) inTerms() bool { + return len(l.termScopes) > 0 +} + +func lexRaw(l *lexer) stateFn { for { c := l.read() if c == eof { @@ -248,21 +245,8 @@ func lexText(l *lexer) stateFn { } switch c { - case char_escape: - l.unread() - l.emitMaybe(item_text) - - l.read() - l.ignore() - - if l.read() == eof { - l.errorf("unclosed '%s' character", string(char_escape)) - return nil - } - case char_single: l.unread() - l.emitMaybe(item_text) return lexSingle case char_any: @@ -274,33 +258,35 @@ func lexText(l *lexer) stateFn { } l.unread() - l.emitMaybe(item_text) return n case char_range_open: l.unread() - l.emitMaybe(item_text) return lexRangeOpen case char_terms_open: l.unread() - l.emitMaybe(item_text) return lexTermsOpen case char_terms_close: l.unread() - l.emitMaybe(item_text) return lexTermsClose - case char_separator: + case char_comma: + if l.inTerms() { // if we are not in terms + l.unread() + return lexSeparator + } + fallthrough + + default: l.unread() - l.emitMaybe(item_text) - return lexSeparator + return lexText } } if l.pos > l.start { - l.emit(item_text) + l.emitCurrent(item_text) } if len(l.termScopes) != 0 { @@ -308,11 +294,41 @@ func lexText(l *lexer) stateFn { return nil } - l.emit(item_eof) + l.emitCurrent(item_eof) return nil } +func lexText(l *lexer) stateFn { + var escaped bool + var data []rune + +scan: + for c := l.read(); c != eof; c = l.read() { + switch { + case c == char_escape: + escaped = true + continue + + case !escaped && c == char_comma && l.inTerms(): + l.unread() + break scan + + case !escaped && utf8.RuneLen(c) == 1 && special(byte(c)): + l.unread() + break scan + + default: + data = append(data, c) + } + + escaped = false + } + + l.emit(item_text, string(data)) + return lexRaw +} + func lexInsideRange(l *lexer) stateFn { for { c := l.read() @@ -325,7 +341,7 @@ func lexInsideRange(l *lexer) stateFn { case char_range_not: // only first char makes sense if l.pos-l.width == l.start { - l.emit(item_not) + l.emitCurrent(item_not) } case char_range_between: @@ -338,8 +354,13 @@ func lexInsideRange(l *lexer) stateFn { return lexRangeHiLo case char_range_close: + if l.runes == 1 { + l.errorf("range should contain at least single char") + return nil + } + l.unread() - l.emitMaybe(item_text) + l.emitCurrent(item_text) return lexRangeClose } } @@ -362,7 +383,7 @@ func lexRangeHiLo(l *lexer) stateFn { return nil } - l.emit(item_range_between) + l.emitCurrent(item_range_between) case char_range_close: l.unread() @@ -372,7 +393,7 @@ func lexRangeHiLo(l *lexer) stateFn { return nil } - l.emit(item_range_hi) + l.emitCurrent(item_range_hi) return lexRangeClose default: @@ -385,35 +406,30 @@ func lexRangeHiLo(l *lexer) stateFn { return nil } - l.emit(item_range_lo) + l.emitCurrent(item_range_lo) } } } func lexAny(l *lexer) stateFn { l.pos += 1 - l.emit(item_any) - return lexText + l.emitCurrent(item_any) + return lexRaw } func lexSuper(l *lexer) stateFn { l.pos += 2 - l.emit(item_super) - return lexText + l.emitCurrent(item_super) + return lexRaw } func lexSingle(l *lexer) stateFn { l.pos += 1 - l.emit(item_single) - return lexText + l.emitCurrent(item_single) + return lexRaw } func lexSeparator(l *lexer) stateFn { - if len(l.termScopes) == 0 { - l.errorf("syntax error: separator not inside terms list") - return nil - } - posOpen := l.termScopes[len(l.termScopes)-1] if l.pos-posOpen == 1 { @@ -423,16 +439,16 @@ func lexSeparator(l *lexer) stateFn { l.termPhrases[posOpen] += 1 l.pos += 1 - l.emit(item_separator) - return lexText + l.emitCurrent(item_separator) + return lexRaw } func lexTermsOpen(l *lexer) stateFn { l.termScopes = append(l.termScopes, l.pos) l.pos += 1 - l.emit(item_terms_open) + l.emitCurrent(item_terms_open) - return lexText + return lexRaw } func lexTermsClose(l *lexer) stateFn { @@ -460,19 +476,19 @@ func lexTermsClose(l *lexer) stateFn { delete(l.termPhrases, posOpen) l.pos += 1 - l.emit(item_terms_close) + l.emitCurrent(item_terms_close) - return lexText + return lexRaw } func lexRangeOpen(l *lexer) stateFn { l.pos += 1 - l.emit(item_range_open) + l.emitCurrent(item_range_open) return lexInsideRange } func lexRangeClose(l *lexer) stateFn { l.pos += 1 - l.emit(item_range_close) - return lexText + l.emitCurrent(item_range_close) + return lexRaw } diff --git a/lexer_test.go b/lexer_test.go index 44d18dc..664dd71 100644 --- a/lexer_test.go +++ b/lexer_test.go @@ -16,6 +16,27 @@ func TestLexGood(t *testing.T) { item{item_eof, ""}, }, }, + { + pattern: "hello,world", + items: []item{ + item{item_text, "hello,world"}, + item{item_eof, ""}, + }, + }, + { + pattern: "hello\\,world", + items: []item{ + item{item_text, "hello,world"}, + item{item_eof, ""}, + }, + }, + { + pattern: "hello\\{world", + items: []item{ + item{item_text, "hello{world"}, + item{item_eof, ""}, + }, + }, { pattern: "hello?", items: []item{ @@ -124,12 +145,10 @@ func TestLexGood(t *testing.T) { for i, exp := range test.items { act := lexer.nextItem() if act.t != exp.t { - t.Errorf("#%d wrong %d-th item type: exp: %v; act: %v (%s vs %s)", id, i, exp.t, act.t, exp, act) - break + t.Errorf("#%d %q: wrong %d-th item type: exp: %q; act: %q\n\t(%s vs %s)", id, test.pattern, i, exp.t, act.t, exp, act) } if act.s != exp.s { - t.Errorf("#%d wrong %d-th item contents: exp: %q; act: %q (%s vs %s)", id, i, exp.s, act.s, exp, act) - break + t.Errorf("#%d %q: wrong %d-th item contents: exp: %q; act: %q\n\t(%s vs %s)", id, test.pattern, i, exp.s, act.s, exp, act) } } }