public override void Read(Tokeniser t, CharacterReader r) { char c = r.Consume(); switch (c) { case '\t': case '\n': case '\f': case ' ': t.Transition(BeforeAttributeName); break; case '/': t.Transition(SelfClosingStartTag); break; case '>': t.EmitTagPending(); t.Transition(Data); break; case eof: t.EofError(this); t.Transition(Data); break; default: t.Error(this); r.Unconsume(); t.Transition(BeforeAttributeName); break; } }
public override void Read(Tokeniser t, CharacterReader r) { string value = r.ConsumeToAny('\t', '\n', '\f', ' ', '&', '>', nullChar, '"', '\'', '<', '=', '`'); if (value.Length > 0) { t.tagPending.AppendAttributeValue(value); } char c = r.Consume(); switch (c) { case '\t': case '\n': case '\f': case ' ': t.Transition(BeforeAttributeName); break; case '&': string ref2 = t.ConsumeCharacterReference('>', true); if (ref2 == null) { t.tagPending.AppendAttributeValue('&'); } else { t.tagPending.AppendAttributeValue(ref2); } break; case '>': t.EmitTagPending(); t.Transition(Data); break; case nullChar: t.Error(this); t.tagPending.AppendAttributeValue(replacementChar); break; case eof: t.EofError(this); t.Transition(Data); break; case '"': case '\'': case '<': case '=': case '`': t.Error(this); t.tagPending.AppendAttributeValue(c); break; // no default, handled in consume to any above } }
public override void Read(Tokeniser t, CharacterReader r) { char c = r.Consume(); switch (c) { case '\t': case '\n': case '\f': case ' ': // ignore break; case '"': t.Transition(AttributeValue_doubleQuoted); break; case '&': r.Unconsume(); t.Transition(AttributeValue_unquoted); break; case '\'': t.Transition(AttributeValue_singleQuoted); break; case nullChar: t.Error(this); t.tagPending.AppendAttributeValue(replacementChar); t.Transition(AttributeValue_unquoted); break; case eof: t.EofError(this); t.Transition(Data); break; case '>': t.Error(this); t.EmitTagPending(); t.Transition(Data); break; case '<': case '=': case '`': t.Error(this); t.tagPending.AppendAttributeValue(c); t.Transition(AttributeValue_unquoted); break; default: r.Unconsume(); t.Transition(AttributeValue_unquoted); break; } }
public override void Read(Tokeniser t, CharacterReader r) { if (r.MatchesLetter()) { string name = r.ConsumeLetterSequence(); t.tagPending.AppendTagName(name.ToLowerInvariant()); t.dataBuffer.Append(name); return; } char c = r.Consume(); switch (c) { case '\t': case '\n': case '\f': case ' ': if (t.IsAppropriateEndTagToken()) { t.Transition(BeforeAttributeName); } else { AnythingElse(t, r); } break; case '/': if (t.IsAppropriateEndTagToken()) { t.Transition(SelfClosingStartTag); } else { AnythingElse(t, r); } break; case '>': if (t.IsAppropriateEndTagToken()) { t.EmitTagPending(); t.Transition(Data); } else { AnythingElse(t, r); } break; default: AnythingElse(t, r); break; } }
public override void Read(Tokeniser t, CharacterReader r) { char c = r.Consume(); switch (c) { case '\t': case '\n': case '\f': case ' ': // ignore break; case '/': t.Transition(SelfClosingStartTag); break; case '=': t.Transition(BeforeAttributeValue); break; case '>': t.EmitTagPending(); t.Transition(Data); break; case nullChar: t.Error(this); t.tagPending.AppendAttributeName(replacementChar); t.Transition(AttributeName); break; case eof: t.EofError(this); t.Transition(Data); break; case '"': case '\'': case '<': t.Error(this); t.tagPending.NewAttribute(); t.tagPending.AppendAttributeName(c); t.Transition(AttributeName); break; default: // A-Z, anything else t.tagPending.NewAttribute(); r.Unconsume(); t.Transition(AttributeName); break; } }
// from before attribute name public override void Read(Tokeniser t, CharacterReader r) { string name = r.ConsumeToAny('\t', '\n', '\f', ' ', '/', '=', '>', nullChar, '"', '\'', '<'); t.tagPending.AppendAttributeName(name.ToLowerInvariant()); char c = r.Consume(); switch (c) { case '\t': case '\n': case '\f': case ' ': t.Transition(AfterAttributeName); break; case '/': t.Transition(SelfClosingStartTag); break; case '=': t.Transition(BeforeAttributeValue); break; case '>': t.EmitTagPending(); t.Transition(Data); break; case nullChar: t.Error(this); t.tagPending.AppendAttributeName(replacementChar); break; case eof: t.EofError(this); t.Transition(Data); break; case '"': case '\'': case '<': t.Error(this); t.tagPending.AppendAttributeName(c); // no default, as covered in consumeToAny break; } }
// from < in rcdata public override void Read(Tokeniser t, CharacterReader r) { if (r.Matches('/')) { t.CreateTempBuffer(); t.AdvanceTransition(RCDATAEndTagOpen); } else if (r.MatchesLetter() && !r.ContainsIgnoreCase("</" + t.AppropriateEndTagName())) { // diverge from spec: got a start tag, but there's no appropriate end tag (</title>), so rather than // consuming to EOF; break out here t.tagPending = new Token.EndTag(t.AppropriateEndTagName()); t.EmitTagPending(); r.Unconsume(); // undo "<" t.Transition(Data); } else { t.Emit("<"); t.Transition(Rcdata); } }
public override void Read(Tokeniser t, CharacterReader r) { char c = r.Consume(); switch (c) { case '>': t.tagPending.selfClosing = true; t.EmitTagPending(); t.Transition(Data); break; case eof: t.EofError(this); t.Transition(Data); break; default: t.Error(this); t.Transition(BeforeAttributeName); break; } }
// from < or </ in data, will have start or end tag pending public override void Read(Tokeniser t, CharacterReader r) { // previous TagOpen state did NOT consume, will have a letter char in current string tagName = r.ConsumeToAny('\t', '\n', '\f', ' ', '/', '>', nullChar).ToLowerInvariant(); t.tagPending.AppendTagName(tagName); switch (r.Consume()) { case '\t': case '\n': case '\f': case ' ': t.Transition(BeforeAttributeName); break; case '/': t.Transition(SelfClosingStartTag); break; case '>': t.EmitTagPending(); t.Transition(Data); break; case nullChar: // replacement t.tagPending.AppendTagName(replacementStr); break; case eof: // should emit pending tag? t.EofError(this); t.Transition(Data); // no default, as covered with above consumeToAny break; } }