void Init() { pos = -1; line = 1; col = 0; oldEols = 0; NextCh(); if (ch == 0xEF) { // check optional byte order mark for UTF-8 NextCh(); int ch1 = ch; NextCh(); int ch2 = ch; if (ch1 != 0xBB || ch2 != 0xBF) { throw new FatalError(String.Format("illegal byte order mark: EF {0,2:X} {1,2:X}", ch1, ch2)); } buffer = new UTF8Buffer(buffer); col = 0; NextCh(); } pt = tokens = new Token(); // first token is a dummy }
public void Parse() { la = new Token(); la.val = ""; Get(); KLAIM(); Expect(0); }
// make sure that peeking starts at the current scan position public void ResetPeek() { pt = tokens; }
// get the next token (possibly a token already seen during peeking) public Token Scan() { if (tokens.next == null) { return NextToken(); } else { pt = tokens = tokens.next; return tokens; } }
private void SetStartPos(Node n, Token t) { n.LexicalInfo.StartLine = t.line; n.LexicalInfo.StartColumn = t.col; }
// peek for the next token, ignore pragmas public Token Peek() { do { if (pt.next == null) { pt.next = NextToken(); } pt = pt.next; } while (pt.kind > maxT); // skip pragmas return pt; }
private void SetPos(Node n, Token start, Token end) { n.LexicalInfo.StartLine = start.line; n.LexicalInfo.StartColumn = start.col; n.LexicalInfo.EndLine = end.line; n.LexicalInfo.EndColumn = end.col + end.val.Length; }
private void SetPos(Node n, Token t) { n.LexicalInfo.StartLine = t.line; n.LexicalInfo.StartColumn = t.col; n.LexicalInfo.EndLine = t.line; n.LexicalInfo.EndColumn = t.col + t.val.Length; }
private void SetEndPos(Node n, Token t) { n.LexicalInfo.EndLine = t.line; n.LexicalInfo.EndColumn = t.col; }
private void CopyPos(Node n, Node source, Token end) { n.LexicalInfo.StartLine = source.LexicalInfo.StartLine; n.LexicalInfo.StartColumn = source.LexicalInfo.StartColumn; n.LexicalInfo.EndLine = t.line; n.LexicalInfo.EndColumn = t.col; }
Token NextToken() { while (ch == ' ' || ch >= 9 && ch <= 10 || ch == 13 ) NextCh(); if (ch == '#' && Comment0()) return NextToken(); t = new Token(); t.pos = pos; t.col = col; t.line = line; int state; if (start.ContainsKey(ch)) { state = (int) start[ch]; } else { state = 0; } tlen = 0; AddCh(); switch (state) { case -1: { t.kind = eofSym; break; } // NextCh already done case 0: { t.kind = noSym; break; } // NextCh already done case 1: if (ch >= '0' && ch <= '9' || ch >= 'A' && ch <= 'Z' || ch >= 'a' && ch <= 'z') {AddCh(); goto case 1;} else {t.kind = 1; break;} case 2: if (ch >= '0' && ch <= '9' || ch >= 'A' && ch <= 'Z' || ch >= 'a' && ch <= 'z') {AddCh(); goto case 2;} else {t.kind = 2; t.val = new String(tval, 0, tlen); CheckLiteral(); return t;} case 3: if (ch >= 'a' && ch <= 'z') {AddCh(); goto case 4;} else {t.kind = noSym; break;} case 4: if (ch >= '0' && ch <= '9' || ch >= 'A' && ch <= 'Z' || ch >= 'a' && ch <= 'z') {AddCh(); goto case 4;} else {t.kind = 3; break;} case 5: if (ch >= '0' && ch <= '9') {AddCh(); goto case 5;} else {t.kind = 4; break;} case 6: {t.kind = 5; break;} case 7: if (ch == ':') {AddCh(); goto case 8;} else {t.kind = noSym; break;} case 8: {t.kind = 6; break;} case 9: {t.kind = 7; break;} case 10: {t.kind = 8; break;} case 11: {t.kind = 9; break;} case 12: {t.kind = 10; break;} case 13: {t.kind = 11; break;} case 14: {t.kind = 13; break;} case 15: {t.kind = 14; break;} case 16: {t.kind = 15; break;} case 17: {t.kind = 18; break;} case 18: {t.kind = 21; break;} case 19: {t.kind = 22; break;} case 20: {t.kind = 23; break;} case 21: if (ch == '|') {AddCh(); goto case 6;} else {t.kind = 12; break;} } t.val = new String(tval, 0, tlen); return t; }