/* * Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, * 2018, 2019, 2020 * Jonathan Schleifer * * All rights reserved. * * This file is part of ObjFW. It may be distributed under the terms of the * Q Public License 1.0, which can be found in the file LICENSE.QPL included in * the packaging of this file. * * Alternatively, it may be distributed under the terms of the GNU General * Public License, either version 2 or 3, which can be found in the file * LICENSE.GPLv2 or LICENSE.GPLv3 respectively included in the packaging of this * file. */ #include "config.h" #define OF_XML_PARSER_M #include #import "OFXMLParser.h" #import "OFString.h" #import "OFArray.h" #import "OFDictionary.h" #import "OFData.h" #import "OFXMLAttribute.h" #import "OFStream.h" #ifdef OF_HAVE_FILES # import "OFFile.h" #endif #import "OFSystemInfo.h" #import "OFInitializationFailedException.h" #import "OFInvalidArgumentException.h" #import "OFInvalidEncodingException.h" #import "OFInvalidFormatException.h" #import "OFMalformedXMLException.h" #import "OFOutOfRangeException.h" #import "OFUnboundPrefixException.h" typedef void (*state_function_t)(id, SEL); static SEL selectors[OF_XMLPARSER_NUM_STATES]; static state_function_t lookupTable[OF_XMLPARSER_NUM_STATES]; @interface OFXMLParser () - (void)of_inByteOrderMarkState; - (void)of_outsideTagState; - (void)of_tagOpenedState; - (void)of_inProcessingInstructionsState; - (void)of_inTagNameState; - (void)of_inCloseTagNameState; - (void)of_inTagState; - (void)of_inAttributeNameState; - (void)of_expectAttributeEqualSignState; - (void)of_expectAttributeDelimiterState; - (void)of_inAttributeValueState; - (void)of_expectTagCloseState; - (void)of_expectSpaceOrTagCloseState; - (void)of_inExclamationMarkState; - (void)of_inCDATAOpeningState; - (void)of_inCDATAState; - (void)of_inCommentOpeningState; - (void)of_inCommentState1; - (void)of_inCommentState2; - (void)of_inDOCTYPEState; @end static OF_INLINE void appendToBuffer(OFMutableData *buffer, const char *string, of_string_encoding_t encoding, size_t length) { if (OF_LIKELY(encoding == OF_STRING_ENCODING_UTF_8)) [buffer addItems: string count: length]; else { void *pool = objc_autoreleasePoolPush(); OFString *tmp = [OFString stringWithCString: string encoding: encoding length: length]; [buffer addItems: tmp.UTF8String count: tmp.UTF8StringLength]; objc_autoreleasePoolPop(pool); } } static OFString * transformString(OFXMLParser *parser, OFMutableData *buffer, size_t cut, bool unescape) { char *items = buffer.mutableItems; size_t length = buffer.count - cut; bool hasEntities = false; OFString *ret; for (size_t i = 0; i < length; i++) { if (items[i] == '\r') { if (i + 1 < length && items[i + 1] == '\n') { [buffer removeItemAtIndex: i]; items = buffer.mutableItems; i--; length--; } else items[i] = '\n'; } else if (items[i] == '&') hasEntities = true; } ret = [OFString stringWithUTF8String: items length: length]; if (unescape && hasEntities) { @try { return [ret stringByXMLUnescapingWithDelegate: parser]; } @catch (OFInvalidFormatException *e) { @throw [OFMalformedXMLException exceptionWithParser: parser]; } } return ret; } static OFString * namespaceForPrefix(OFString *prefix, OFArray *namespaces) { OFDictionary *const *objects = namespaces.objects; size_t count = namespaces.count; if (prefix == nil) prefix = @""; while (count > 0) { OFString *tmp; if ((tmp = [objects[--count] objectForKey: prefix]) != nil) return tmp; } return nil; } static OF_INLINE void resolveAttributeNamespace(OFXMLAttribute *attribute, OFArray *namespaces, OFXMLParser *self) { OFString *attributeNS; OFString *attributePrefix = attribute->_namespace; if (attributePrefix == nil) return; attributeNS = namespaceForPrefix(attributePrefix, namespaces); if ((attributePrefix != nil && attributeNS == nil)) @throw [OFUnboundPrefixException exceptionWithPrefix: attributePrefix parser: self]; [attribute->_namespace release]; attribute->_namespace = [attributeNS retain]; } @implementation OFXMLParser @synthesize delegate = _delegate, depthLimit = _depthLimit; + (void)initialize { const SEL selectors_[OF_XMLPARSER_NUM_STATES] = { @selector(of_inByteOrderMarkState), @selector(of_outsideTagState), @selector(of_tagOpenedState), @selector(of_inProcessingInstructionsState), @selector(of_inTagNameState), @selector(of_inCloseTagNameState), @selector(of_inTagState), @selector(of_inAttributeNameState), @selector(of_expectAttributeEqualSignState), @selector(of_expectAttributeDelimiterState), @selector(of_inAttributeValueState), @selector(of_expectTagCloseState), @selector(of_expectSpaceOrTagCloseState), @selector(of_inExclamationMarkState), @selector(of_inCDATAOpeningState), @selector(of_inCDATAState), @selector(of_inCommentOpeningState), @selector(of_inCommentState1), @selector(of_inCommentState2), @selector(of_inDOCTYPEState) }; memcpy(selectors, selectors_, sizeof(selectors_)); for (size_t i = 0; i < OF_XMLPARSER_NUM_STATES; i++) { if (![self instancesRespondToSelector: selectors[i]]) @throw [OFInitializationFailedException exceptionWithClass: self]; lookupTable[i] = (state_function_t) [self instanceMethodForSelector: selectors[i]]; } } + (instancetype)parser { return [[[self alloc] init] autorelease]; } - (instancetype)init { self = [super init]; @try { void *pool; OFMutableDictionary *dict; _buffer = [[OFMutableData alloc] init]; _previous = [[OFMutableArray alloc] init]; _namespaces = [[OFMutableArray alloc] init]; _attributes = [[OFMutableArray alloc] init]; pool = objc_autoreleasePoolPush(); dict = [OFMutableDictionary dictionaryWithKeysAndObjects: @"xml", @"http://www.w3.org/XML/1998/namespace", @"xmlns", @"http://www.w3.org/2000/xmlns/", nil]; [_namespaces addObject: dict]; _acceptProlog = true; _lineNumber = 1; _encoding = OF_STRING_ENCODING_UTF_8; _depthLimit = 32; objc_autoreleasePoolPop(pool); } @catch (id e) { [self release]; @throw e; } return self; } - (void)dealloc { [_buffer release]; [_name release]; [_prefix release]; [_namespaces release]; [_attributes release]; [_attributeName release]; [_attributePrefix release]; [_previous release]; [super dealloc]; } - (void)parseBuffer: (const char *)buffer length: (size_t)length { _data = buffer; for (_i = _last = 0; _i < length; _i++) { size_t j = _i; lookupTable[_state](self, selectors[_state]); /* Ensure we don't count this character twice */ if (_i != j) continue; if (_data[_i] == '\r' || (_data[_i] == '\n' && !_lastCarriageReturn)) _lineNumber++; _lastCarriageReturn = (_data[_i] == '\r'); } /* In OF_XMLPARSER_IN_TAG, there can be only spaces */ if (length - _last > 0 && _state != OF_XMLPARSER_IN_TAG) appendToBuffer(_buffer, _data + _last, _encoding, length - _last); } - (void)parseString: (OFString *)string { [self parseBuffer: string.UTF8String length: string.UTF8StringLength]; } - (void)parseStream: (OFStream *)stream { size_t pageSize = [OFSystemInfo pageSize]; char *buffer = [self allocMemoryWithSize: pageSize]; @try { while (!stream.atEndOfStream) { size_t length = [stream readIntoBuffer: buffer length: pageSize]; [self parseBuffer: buffer length: length]; } } @finally { [self freeMemory: buffer]; } } #ifdef OF_HAVE_FILES - (void)parseFile: (OFString *)path { OFFile *file = [[OFFile alloc] initWithPath: path mode: @"r"]; @try { [self parseStream: file]; } @finally { [file release]; } } #endif /* * The following methods handle the different states of the parser. They are * looked up in +[initialize] and put in a lookup table to speed things up. * One dispatch for every character would be way too slow! */ - (void)of_inByteOrderMarkState { if (_data[_i] != "\xEF\xBB\xBF"[_level]) { if (_level == 0) { _state = OF_XMLPARSER_OUTSIDE_TAG; _i--; return; } @throw [OFMalformedXMLException exceptionWithParser: self]; } if (_level++ == 2) _state = OF_XMLPARSER_OUTSIDE_TAG; _last = _i + 1; } /* Not in a tag */ - (void)of_outsideTagState { size_t length; if ((_finishedParsing || _previous.count < 1) && _data[_i] != ' ' && _data[_i] != '\t' && _data[_i] != '\n' && _data[_i] != '\r' && _data[_i] != '<') @throw [OFMalformedXMLException exceptionWithParser: self]; if (_data[_i] != '<') return; if ((length = _i - _last) > 0) appendToBuffer(_buffer, _data + _last, _encoding, length); if (_buffer.count > 0) { void *pool = objc_autoreleasePoolPush(); OFString *characters = transformString(self, _buffer, 0, true); if ([_delegate respondsToSelector: @selector(parser:foundCharacters:)]) [_delegate parser: self foundCharacters: characters]; objc_autoreleasePoolPop(pool); } [_buffer removeAllItems]; _last = _i + 1; _state = OF_XMLPARSER_TAG_OPENED; } /* Tag was just opened */ - (void)of_tagOpenedState { if (_finishedParsing && _data[_i] != '!' && _data[_i] != '?') @throw [OFMalformedXMLException exceptionWithParser: self]; switch (_data[_i]) { case '?': _last = _i + 1; _state = OF_XMLPARSER_IN_PROCESSING_INSTRUCTIONS; _level = 0; break; case '/': _last = _i + 1; _state = OF_XMLPARSER_IN_CLOSE_TAG_NAME; _acceptProlog = false; break; case '!': _last = _i + 1; _state = OF_XMLPARSER_IN_EXCLAMATION_MARK; _acceptProlog = false; break; default: if (_depthLimit > 0 && _previous.count >= _depthLimit) @throw [OFOutOfRangeException exception]; _state = OF_XMLPARSER_IN_TAG_NAME; _acceptProlog = false; _i--; break; } } /* */ - (bool)of_parseXMLProcessingInstructions: (OFString *)pi { const char *cString; size_t length, last; int PIState = 0; OFString *attribute = nil; OFMutableString *value = nil; char piDelimiter = 0; bool hasVersion = false; if (!_acceptProlog) return false; _acceptProlog = false; pi = [pi substringWithRange: of_range(3, pi.length - 3)]; pi = pi.stringByDeletingEnclosingWhitespaces; cString = pi.UTF8String; length = pi.UTF8StringLength; last = 0; for (size_t i = 0; i < length; i++) { switch (PIState) { case 0: if (cString[i] == ' ' || cString[i] == '\t' || cString[i] == '\r' || cString[i] == '\n') continue; last = i; PIState = 1; i--; break; case 1: if (cString[i] != '=') continue; attribute = [OFString stringWithCString: cString + last encoding: _encoding length: i - last]; last = i + 1; PIState = 2; break; case 2: if (cString[i] != '\'' && cString[i] != '"') return false; piDelimiter = cString[i]; last = i + 1; PIState = 3; break; case 3: if (cString[i] != piDelimiter) continue; value = [OFMutableString stringWithCString: cString + last encoding: _encoding length: i - last]; if ([attribute isEqual: @"version"]) { if (![value hasPrefix: @"1."]) return false; hasVersion = true; } if ([attribute isEqual: @"encoding"]) { @try { _encoding = of_string_parse_encoding(value); } @catch (OFInvalidArgumentException *e) { @throw [OFInvalidEncodingException exception]; } } last = i + 1; PIState = 0; break; } } if (PIState != 0 || !hasVersion) return false; return true; } /* Inside processing instructions */ - (void)of_inProcessingInstructionsState { if (_data[_i] == '?') _level = 1; else if (_level == 1 && _data[_i] == '>') { void *pool = objc_autoreleasePoolPush(); OFString *PI; appendToBuffer(_buffer, _data + _last, _encoding, _i - _last); PI = transformString(self, _buffer, 1, false); if ([PI isEqual: @"xml"] || [PI hasPrefix: @"xml "] || [PI hasPrefix: @"xml\t"] || [PI hasPrefix: @"xml\r"] || [PI hasPrefix: @"xml\n"]) if (![self of_parseXMLProcessingInstructions: PI]) @throw [OFMalformedXMLException exceptionWithParser: self]; if ([_delegate respondsToSelector: @selector(parser:foundProcessingInstructions:)]) [_delegate parser: self foundProcessingInstructions: PI]; objc_autoreleasePoolPop(pool); [_buffer removeAllItems]; _last = _i + 1; _state = OF_XMLPARSER_OUTSIDE_TAG; } else _level = 0; } /* Inside a tag, no name yet */ - (void)of_inTagNameState { void *pool; const char *bufferCString, *tmp; size_t length, bufferLength; OFString *bufferString; if (_data[_i] != ' ' && _data[_i] != '\t' && _data[_i] != '\n' && _data[_i] != '\r' && _data[_i] != '>' && _data[_i] != '/') return; if ((length = _i - _last) > 0) appendToBuffer(_buffer, _data + _last, _encoding, length); pool = objc_autoreleasePoolPush(); bufferCString = _buffer.items; bufferLength = _buffer.count; bufferString = [OFString stringWithUTF8String: bufferCString length: bufferLength]; if ((tmp = memchr(bufferCString, ':', bufferLength)) != NULL) { _name = [[OFString alloc] initWithUTF8String: tmp + 1 length: bufferLength - (tmp - bufferCString) - 1]; _prefix = [[OFString alloc] initWithUTF8String: bufferCString length: tmp - bufferCString]; } else { _name = [bufferString copy]; _prefix = nil; } if (_data[_i] == '>' || _data[_i] == '/') { OFString *namespace; namespace = namespaceForPrefix(_prefix, _namespaces); if (_prefix != nil && namespace == nil) @throw [OFUnboundPrefixException exceptionWithPrefix: _prefix parser: self]; if ([_delegate respondsToSelector: @selector(parser: didStartElement:prefix:namespace:attributes:)]) [_delegate parser: self didStartElement: _name prefix: _prefix namespace: namespace attributes: nil]; if (_data[_i] == '/') { if ([_delegate respondsToSelector: @selector(parser:didEndElement:prefix:namespace:)]) [_delegate parser: self didEndElement: _name prefix: _prefix namespace: namespace]; if (_previous.count == 0) _finishedParsing = true; } else [_previous addObject: bufferString]; [_name release]; [_prefix release]; _name = _prefix = nil; _state = (_data[_i] == '/' ? OF_XMLPARSER_EXPECT_TAG_CLOSE : OF_XMLPARSER_OUTSIDE_TAG); } else _state = OF_XMLPARSER_IN_TAG; if (_data[_i] != '/') [_namespaces addObject: [OFMutableDictionary dictionary]]; objc_autoreleasePoolPop(pool); [_buffer removeAllItems]; _last = _i + 1; } /* Inside a close tag, no name yet */ - (void)of_inCloseTagNameState { void *pool; const char *bufferCString, *tmp; size_t length, bufferLength; OFString *bufferString, *namespace; if (_data[_i] != ' ' && _data[_i] != '\t' && _data[_i] != '\n' && _data[_i] != '\r' && _data[_i] != '>') return; if ((length = _i - _last) > 0) appendToBuffer(_buffer, _data + _last, _encoding, length); pool = objc_autoreleasePoolPush(); bufferCString = _buffer.items; bufferLength = _buffer.count; bufferString = [OFString stringWithUTF8String: bufferCString length: bufferLength]; if ((tmp = memchr(bufferCString, ':', bufferLength)) != NULL) { _name = [[OFString alloc] initWithUTF8String: tmp + 1 length: bufferLength - (tmp - bufferCString) - 1]; _prefix = [[OFString alloc] initWithUTF8String: bufferCString length: tmp - bufferCString]; } else { _name = [bufferString copy]; _prefix = nil; } if (![_previous.lastObject isEqual: bufferString]) @throw [OFMalformedXMLException exceptionWithParser: self]; [_previous removeLastObject]; [_buffer removeAllItems]; namespace = namespaceForPrefix(_prefix, _namespaces); if (_prefix != nil && namespace == nil) @throw [OFUnboundPrefixException exceptionWithPrefix: _prefix parser: self]; if ([_delegate respondsToSelector: @selector(parser:didEndElement:prefix:namespace:)]) [_delegate parser: self didEndElement: _name prefix: _prefix namespace: namespace]; objc_autoreleasePoolPop(pool); [_namespaces removeLastObject]; [_name release]; [_prefix release]; _name = _prefix = nil; _last = _i + 1; _state = (_data[_i] == '>' ? OF_XMLPARSER_OUTSIDE_TAG : OF_XMLPARSER_EXPECT_SPACE_OR_TAG_CLOSE); if (_previous.count == 0) _finishedParsing = true; } /* Inside a tag, name found */ - (void)of_inTagState { void *pool; OFString *namespace; OFXMLAttribute *const *attributesObjects; size_t attributesCount; if (_data[_i] != '>' && _data[_i] != '/') { if (_data[_i] != ' ' && _data[_i] != '\t' && _data[_i] != '\n' && _data[_i] != '\r') { _last = _i; _state = OF_XMLPARSER_IN_ATTRIBUTE_NAME; _i--; } return; } attributesObjects = _attributes.objects; attributesCount = _attributes.count; namespace = namespaceForPrefix(_prefix, _namespaces); if (_prefix != nil && namespace == nil) @throw [OFUnboundPrefixException exceptionWithPrefix: _prefix parser: self]; for (size_t j = 0; j < attributesCount; j++) resolveAttributeNamespace(attributesObjects[j], _namespaces, self); pool = objc_autoreleasePoolPush(); if ([_delegate respondsToSelector: @selector(parser:didStartElement:prefix:namespace:attributes:)]) [_delegate parser: self didStartElement: _name prefix: _prefix namespace: namespace attributes: _attributes]; if (_data[_i] == '/') { if ([_delegate respondsToSelector: @selector(parser:didEndElement:prefix:namespace:)]) [_delegate parser: self didEndElement: _name prefix: _prefix namespace: namespace]; if (_previous.count == 0) _finishedParsing = true; [_namespaces removeLastObject]; } else if (_prefix != nil) { OFString *str = [OFString stringWithFormat: @"%@:%@", _prefix, _name]; [_previous addObject: str]; } else [_previous addObject: _name]; objc_autoreleasePoolPop(pool); [_name release]; [_prefix release]; [_attributes removeAllObjects]; _name = _prefix = nil; _last = _i + 1; _state = (_data[_i] == '/' ? OF_XMLPARSER_EXPECT_TAG_CLOSE : OF_XMLPARSER_OUTSIDE_TAG); } /* Looking for attribute name */ - (void)of_inAttributeNameState { void *pool; OFString *bufferString; const char *bufferCString, *tmp; size_t length, bufferLength; if (_data[_i] != '=' && _data[_i] != ' ' && _data[_i] != '\t' && _data[_i] != '\n' && _data[_i] != '\r') return; if ((length = _i - _last) > 0) appendToBuffer(_buffer, _data + _last, _encoding, length); pool = objc_autoreleasePoolPush(); bufferString = [OFString stringWithUTF8String: _buffer.items length: _buffer.count]; bufferCString = bufferString.UTF8String; bufferLength = bufferString.UTF8StringLength; if ((tmp = memchr(bufferCString, ':', bufferLength)) != NULL) { _attributeName = [[OFString alloc] initWithUTF8String: tmp + 1 length: bufferLength - (tmp - bufferCString) - 1]; _attributePrefix = [[OFString alloc] initWithUTF8String: bufferCString length: tmp - bufferCString]; } else { _attributeName = [bufferString copy]; _attributePrefix = nil; } objc_autoreleasePoolPop(pool); [_buffer removeAllItems]; _last = _i + 1; _state = (_data[_i] == '=' ? OF_XMLPARSER_EXPECT_ATTRIBUTE_DELIMITER : OF_XMLPARSER_EXPECT_ATTRIBUTE_EQUAL_SIGN); } /* Expecting equal sign of an attribute */ - (void)of_expectAttributeEqualSignState { if (_data[_i] == '=') { _last = _i + 1; _state = OF_XMLPARSER_EXPECT_ATTRIBUTE_DELIMITER; return; } if (_data[_i] != ' ' && _data[_i] != '\t' && _data[_i] != '\n' && _data[_i] != '\r') @throw [OFMalformedXMLException exceptionWithParser: self]; } /* Expecting name/value delimiter of an attribute */ - (void)of_expectAttributeDelimiterState { _last = _i + 1; if (_data[_i] == ' ' || _data[_i] == '\t' || _data[_i] == '\n' || _data[_i] == '\r') return; if (_data[_i] != '\'' && _data[_i] != '"') @throw [OFMalformedXMLException exceptionWithParser: self]; _delimiter = _data[_i]; _state = OF_XMLPARSER_IN_ATTRIBUTE_VALUE; } /* Looking for attribute value */ - (void)of_inAttributeValueState { void *pool; OFString *attributeValue; size_t length; OFXMLAttribute *attribute; if (_data[_i] != _delimiter) return; if ((length = _i - _last) > 0) appendToBuffer(_buffer, _data + _last, _encoding, length); pool = objc_autoreleasePoolPush(); attributeValue = transformString(self, _buffer, 0, true); if (_attributePrefix == nil && [_attributeName isEqual: @"xmlns"]) [_namespaces.lastObject setObject: attributeValue forKey: @""]; if ([_attributePrefix isEqual: @"xmlns"]) [_namespaces.lastObject setObject: attributeValue forKey: _attributeName]; attribute = [OFXMLAttribute attributeWithName: _attributeName namespace: _attributePrefix stringValue: attributeValue]; attribute->_useDoubleQuotes = (_delimiter == '"'); [_attributes addObject: attribute]; objc_autoreleasePoolPop(pool); [_buffer removeAllItems]; [_attributeName release]; [_attributePrefix release]; _attributeName = _attributePrefix = nil; _last = _i + 1; _state = OF_XMLPARSER_IN_TAG; } /* Expecting closing '>' */ - (void)of_expectTagCloseState { if (_data[_i] == '>') { _last = _i + 1; _state = OF_XMLPARSER_OUTSIDE_TAG; } else @throw [OFMalformedXMLException exceptionWithParser: self]; } /* Expecting closing '>' or space */ - (void)of_expectSpaceOrTagCloseState { if (_data[_i] == '>') { _last = _i + 1; _state = OF_XMLPARSER_OUTSIDE_TAG; } else if (_data[_i] != ' ' && _data[_i] != '\t' && _data[_i] != '\n' && _data[_i] != '\r') @throw [OFMalformedXMLException exceptionWithParser: self]; } /* In ' && _level >= 2) { void *pool = objc_autoreleasePoolPush(); OFString *CDATA; appendToBuffer(_buffer, _data + _last, _encoding, _i - _last); CDATA = transformString(self, _buffer, 2, false); if ([_delegate respondsToSelector: @selector(parser:foundCDATA:)]) [_delegate parser: self foundCDATA: CDATA]; objc_autoreleasePoolPop(pool); [_buffer removeAllItems]; _last = _i + 1; _state = OF_XMLPARSER_OUTSIDE_TAG; } else _level = 0; } /* Comment */ - (void)of_inCommentOpeningState { if (_data[_i] != '-') @throw [OFMalformedXMLException exceptionWithParser: self]; _last = _i + 1; _state = OF_XMLPARSER_IN_COMMENT_1; _level = 0; } - (void)of_inCommentState1 { if (_data[_i] == '-') _level++; else _level = 0; if (_level == 2) _state = OF_XMLPARSER_IN_COMMENT_2; } - (void)of_inCommentState2 { void *pool; OFString *comment; if (_data[_i] != '>') @throw [OFMalformedXMLException exceptionWithParser: self]; pool = objc_autoreleasePoolPush(); appendToBuffer(_buffer, _data + _last, _encoding, _i - _last); comment = transformString(self, _buffer, 2, false); if ([_delegate respondsToSelector: @selector(parser:foundComment:)]) [_delegate parser: self foundComment: comment]; objc_autoreleasePoolPop(pool); [_buffer removeAllItems]; _last = _i + 1; _state = OF_XMLPARSER_OUTSIDE_TAG; } /* In */ - (void)of_inDOCTYPEState { if ((_level < 6 && _data[_i] != "OCTYPE"[_level]) || (_level == 6 && _data[_i] != ' ' && _data[_i] != '\t' && _data[_i] != '\n' && _data[_i] != '\r')) @throw [OFMalformedXMLException exceptionWithParser: self]; _level++; if (_level > 6 && _data[_i] == '>') _state = OF_XMLPARSER_OUTSIDE_TAG; _last = _i + 1; } - (size_t)lineNumber { return _lineNumber; } - (bool)hasFinishedParsing { return _finishedParsing; } - (OFString *)string: (OFString *)string containsUnknownEntityNamed: (OFString *)entity { if ([_delegate respondsToSelector: @selector(parser:foundUnknownEntityNamed:)]) return [_delegate parser: self foundUnknownEntityNamed: entity]; return nil; } @end