// $Id$ // vim:tabstop=2 /*********************************************************************** Moses - factored phrase-based language decoder Copyright (C) 2006 University of Edinburgh This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ***********************************************************************/ #include "XmlOption.h" #include #include #include #include #include #include "Util.h" #include "StaticData.h" #include "WordsRange.h" #include "TargetPhrase.h" #include "ReorderingConstraint.h" #include "FactorCollection.h" #include "moses/TranslationModel/PhraseDictionary.h" #if PT_UG #include "TranslationModel/UG/mmsapt.h" #endif namespace Moses { using namespace std; string ParseXmlTagAttribute(const string& tag,const string& attributeName) { /*TODO deal with unescaping \"*/ string tagOpen = attributeName + "=\""; size_t contentsStart = tag.find(tagOpen); if (contentsStart == string::npos) return ""; contentsStart += tagOpen.size(); size_t contentsEnd = tag.find_first_of('"',contentsStart+1); if (contentsEnd == string::npos) { TRACE_ERR("Malformed XML attribute: "<< tag); return ""; } size_t possibleEnd; while (tag.at(contentsEnd-1) == '\\' && (possibleEnd = tag.find_first_of('"',contentsEnd+1)) != string::npos) { contentsEnd = possibleEnd; } return tag.substr(contentsStart,contentsEnd-contentsStart); } /** * Remove "<" and ">" from XML tag * * \param str xml token to be stripped * \param lbrackStr xml tag's left bracket string, typically "<" * \param rbrackStr xml tag's right bracket string, typically ">" */ string TrimXml(const string& str, const std::string& lbrackStr, const std::string& rbrackStr) { // too short to be xml token -> do nothing if (str.size() < lbrackStr.length()+rbrackStr.length() ) return str; // strip first and last character if (str.substr(0,lbrackStr.length()) == lbrackStr && str.substr(str.size()-rbrackStr.length()) == rbrackStr) { return str.substr(lbrackStr.length(), str.size()-lbrackStr.length()-rbrackStr.length()); } // not an xml token -> do nothing else { return str; } } /** * Check if the token is an XML tag, i.e. starts with "<" * * \param tag token to be checked * \param lbrackStr xml tag's left bracket string, typically "<" * \param rbrackStr xml tag's right bracket string, typically ">" */ bool isXmlTag(const string& tag, const std::string& lbrackStr, const std::string& rbrackStr) { return (tag.substr(0,lbrackStr.length()) == lbrackStr && (tag[lbrackStr.length()] == '/' || (tag[lbrackStr.length()] >= 'a' && tag[lbrackStr.length()] <= 'z') || (tag[lbrackStr.length()] >= 'A' && tag[lbrackStr.length()] <= 'Z'))); } /** * Split up the input character string into tokens made up of * either XML tags or text. * example: this is a test . * => (this ), (), ( is a ), (), ( test .) * * \param str input string * \param lbrackStr xml tag's left bracket string, typically "<" * \param rbrackStr xml tag's right bracket string, typically ">" */ vector TokenizeXml(const string& str, const std::string& lbrackStr, const std::string& rbrackStr) { string lbrack = lbrackStr; // = "<"; string rbrack = rbrackStr; // = ">"; vector tokens; // vector of tokens to be returned string::size_type cpos = 0; // current position in string string::size_type lpos = 0; // left start of xml tag string::size_type rpos = 0; // right end of xml tag // walk thorugh the string (loop vver cpos) while (cpos != str.size()) { // find the next opening "<" of an xml tag lpos = str.find(lbrack, cpos); // lpos = str.find_first_of(lbrack, cpos); if (lpos != string::npos) { // find the end of the xml tag rpos = str.find(rbrack, lpos+lbrackStr.length()-1); // rpos = str.find_first_of(rbrack, lpos); // sanity check: there has to be closing ">" if (rpos == string::npos) { TRACE_ERR("ERROR: malformed XML: " << str << endl); return tokens; } } else { // no more tags found // add the rest as token tokens.push_back(str.substr(cpos)); break; } // add stuff before xml tag as token, if there is any if (lpos - cpos > 0) tokens.push_back(str.substr(cpos, lpos - cpos)); // add xml tag as token tokens.push_back(str.substr(lpos, rpos-lpos+rbrackStr.length())); cpos = rpos + rbrackStr.length(); } return tokens; } /** * Process a sentence with xml annotation * Xml tags may specifiy additional/replacing translation options * and reordering constraints * * \param line in: sentence, out: sentence without the xml * \param res vector with translation options specified by xml * \param reorderingConstraint reordering constraint zones specified by xml * \param walls reordering constraint walls specified by xml * \param lbrackStr xml tag's left bracket string, typically "<" * \param rbrackStr xml tag's right bracket string, typically ">" */ bool ProcessAndStripXMLTags(string &line, vector &res, ReorderingConstraint &reorderingConstraint, vector< size_t > &walls, std::vector< std::pair > &placeholders, int offset, const std::string& lbrackStr, const std::string& rbrackStr) { //parse XML markup in translation line const StaticData &staticData = StaticData::Instance(); // hack. What pt should XML trans opt be assigned to? PhraseDictionary *firstPt = NULL; if (PhraseDictionary::GetColl().size() == 0) { firstPt = PhraseDictionary::GetColl()[0]; } // no xml tag? we're done. //if (line.find_first_of('<') == string::npos) { if (line.find(lbrackStr) == string::npos) { return true; } // break up input into a vector of xml tags and text // example: (this), (), (is a), (), (test .) vector xmlTokens = TokenizeXml(line, lbrackStr, rbrackStr); // we need to store opened tags, until they are closed // tags are stored as tripled (tagname, startpos, contents) typedef pair< string, pair< size_t, string > > OpenedTag; vector< OpenedTag > tagStack; // stack that contains active opened tags string cleanLine; // return string (text without xml) size_t wordPos = 0; // position in sentence (in terms of number of words) const vector &outputFactorOrder = staticData.GetOutputFactorOrder(); // const string &factorDelimiter = staticData.GetFactorDelimiter(); // loop through the tokens for (size_t xmlTokenPos = 0 ; xmlTokenPos < xmlTokens.size() ; xmlTokenPos++) { // not a xml tag, but regular text (may contain many words) if(!isXmlTag(xmlTokens[xmlTokenPos], lbrackStr, rbrackStr)) { // add a space at boundary, if necessary if (cleanLine.size()>0 && cleanLine[cleanLine.size() - 1] != ' ' && xmlTokens[xmlTokenPos][0] != ' ') { cleanLine += " "; } cleanLine += xmlTokens[xmlTokenPos]; // add to output wordPos = Tokenize(cleanLine).size(); // count all the words } // process xml tag else { // *** get essential information about tag *** // strip extra boundary spaces and "<" and ">" string tag = Trim(TrimXml(xmlTokens[xmlTokenPos], lbrackStr, rbrackStr)); VERBOSE(3,"XML TAG IS: " << tag << std::endl); if (tag.size() == 0) { TRACE_ERR("ERROR: empty tag name: " << line << endl); return false; } // check if unary (e.g., "") bool isUnary = ( tag[tag.size() - 1] == '/' ); // check if opening tag (e.g. "", not "")g bool isClosed = ( tag[0] == '/' ); bool isOpen = !isClosed; if (isClosed && isUnary) { TRACE_ERR("ERROR: can't have both closed and unary tag " << lbrackStr << tag << rbrackStr << ": " << line << endl); return false; } if (isClosed) tag = tag.substr(1); // remove "/" at the beginning if (isUnary) tag = tag.substr(0,tag.size()-1); // remove "/" at the end // find the tag name and contents string::size_type endOfName = tag.find_first_of(' '); string tagName = tag; string tagContent = ""; if (endOfName != string::npos) { tagName = tag.substr(0,endOfName); tagContent = tag.substr(endOfName+1); } // *** process new tag *** if (isOpen || isUnary) { // put the tag on the tag stack OpenedTag openedTag = make_pair( tagName, make_pair( wordPos, tagContent ) ); tagStack.push_back( openedTag ); VERBOSE(3,"XML TAG " << tagName << " (" << tagContent << ") added to stack, now size " << tagStack.size() << endl); } // *** process completed tag *** if (isClosed || isUnary) { // pop last opened tag from stack; if (tagStack.size() == 0) { TRACE_ERR("ERROR: tag " << tagName << " closed, but not opened" << ":" << line << endl); return false; } OpenedTag openedTag = tagStack.back(); tagStack.pop_back(); // tag names have to match if (openedTag.first != tagName) { TRACE_ERR("ERROR: tag " << openedTag.first << " closed by tag " << tagName << ": " << line << endl ); return false; } // assemble remaining information about tag size_t startPos = openedTag.second.first; string tagContent = openedTag.second.second; size_t endPos = wordPos; // span attribute overwrites position string span = ParseXmlTagAttribute(tagContent,"span"); if (! span.empty()) { vector ij = Tokenize(span, "-"); if (ij.size() != 1 && ij.size() != 2) { TRACE_ERR("ERROR: span attribute must be of the form \"i-j\" or \"i\": " << line << endl); return false; } startPos = atoi(ij[0].c_str()); if (ij.size() == 1) endPos = startPos + 1; else endPos = atoi(ij[1].c_str()) + 1; } VERBOSE(3,"XML TAG " << tagName << " (" << tagContent << ") spanning " << startPos << " to " << (endPos-1) << " complete, commence processing" << endl); // special tag: wall if (tagName == "wall") { size_t start = (startPos == 0) ? 0 : startPos-1; for(size_t pos = start; pos < endPos; pos++) walls.push_back( pos ); } // special tag: zone else if (tagName == "zone") { if (startPos >= endPos) { TRACE_ERR("ERROR: zone must span at least one word: " << line << endl); return false; } reorderingConstraint.SetZone( startPos, endPos-1 ); } // name-entity placeholder else if (tagName == "ne") { if (startPos != (endPos - 1)) { TRACE_ERR("ERROR: Placeholder must only span 1 word: " << line << endl); return false; } string entity = ParseXmlTagAttribute(tagContent,"entity"); placeholders.push_back(std::pair(startPos, entity)); } // update: add new aligned sentence pair to Mmsapt identified by name else if (tagName == "update") { #if PT_UG // get model name and aligned sentence pair string pdName = ParseXmlTagAttribute(tagContent,"name"); string source = ParseXmlTagAttribute(tagContent,"source"); string target = ParseXmlTagAttribute(tagContent,"target"); string alignment = ParseXmlTagAttribute(tagContent,"alignment"); // find PhraseDictionary by name const vector &pds = PhraseDictionary::GetColl(); PhraseDictionary* pd = NULL; for (vector::const_iterator i = pds.begin(); i != pds.end(); ++i) { PhraseDictionary* curPd = *i; if (curPd->GetScoreProducerDescription() == pdName) { pd = curPd; break; } } if (pd == NULL) { TRACE_ERR("ERROR: No PhraseDictionary with name " << pdName << ", no update" << endl); return false; } // update model VERBOSE(3,"Updating " << pdName << " ||| " << source << " ||| " << target << " ||| " << alignment << endl); Mmsapt* pdsa = reinterpret_cast(pd); pdsa->add(source, target, alignment); #else TRACE_ERR("ERROR: recompile with --with-mm to update PhraseDictionary at runtime" << endl); return false; #endif } // weight-overwrite: update feature weights, unspecified weights remain unchanged // IMPORTANT: translation models that cache phrases or apply table-limit during load // based on initial weights need to be reset. Sending an empty update will do this // for PhraseDictionaryBitextSampling (Mmsapt) models: // else if (tagName == "weight-overwrite") { // is a name->ff map stored anywhere so we don't have to build it every time? const vector &ffs = FeatureFunction::GetFeatureFunctions(); boost::unordered_map map; BOOST_FOREACH(FeatureFunction* const& ff, ffs) { map[ff->GetScoreProducerDescription()] = ff; } // update each weight listed ScoreComponentCollection allWeights = StaticData::Instance().GetAllWeights(); boost::unordered_map::iterator ffi; string ffName(""); vector ffWeights; vector toks = Tokenize(ParseXmlTagAttribute(tagContent,"weights")); BOOST_FOREACH(string const& tok, toks) { if (tok.substr(tok.size() - 1, 1) == "=") { // start new feature if (ffName != "") { // set previous feature weights if (ffi != map.end()) { allWeights.Assign(ffi->second, ffWeights); } ffWeights.clear(); } ffName = tok.substr(0, tok.size() - 1); ffi = map.find(ffName); if (ffi == map.end()) { TRACE_ERR("ERROR: No FeatureFunction with name " << ffName << ", no weight update" << endl); } } else { // weight for current feature ffWeights.push_back(Scan(tok)); } } if (ffi != map.end()) { allWeights.Assign(ffi->second, ffWeights); } StaticData::InstanceNonConst().SetAllWeights(allWeights); } // default: opening tag that specifies translation options else { if (startPos > endPos) { TRACE_ERR("ERROR: tag " << tagName << " startPos > endPos: " << line << endl); return false; } else if (startPos == endPos) { TRACE_ERR("WARNING: tag " << tagName << " 0 span: " << line << endl); continue; } // specified translations -> vector of phrases // multiple translations may be specified, separated by "||" vector altTexts = TokenizeMultiCharSeparator(ParseXmlTagAttribute(tagContent,"translation"), "||"); if( altTexts.size() == 1 && altTexts[0] == "" ) altTexts.pop_back(); // happens when nothing specified // deal with legacy annotations: "translation" was called "english" vector moreAltTexts = TokenizeMultiCharSeparator(ParseXmlTagAttribute(tagContent,"english"), "||"); if (moreAltTexts.size()>1 || moreAltTexts[0] != "") { for(vector::iterator translation=moreAltTexts.begin(); translation != moreAltTexts.end(); translation++) { string t = *translation; altTexts.push_back( t ); } } // specified probabilities for the translations -> vector of probs vector altProbs = TokenizeMultiCharSeparator(ParseXmlTagAttribute(tagContent,"prob"), "||"); if( altProbs.size() == 1 && altProbs[0] == "" ) altProbs.pop_back(); // happens when nothing specified // report what we have processed so far VERBOSE(3,"XML TAG NAME IS: '" << tagName << "'" << endl); VERBOSE(3,"XML TAG TRANSLATION IS: '" << altTexts[0] << "'" << endl); VERBOSE(3,"XML TAG PROB IS: '" << altProbs[0] << "'" << endl); VERBOSE(3,"XML TAG SPAN IS: " << startPos << "-" << (endPos-1) << endl); if (altProbs.size() > 0 && altTexts.size() != altProbs.size()) { TRACE_ERR("ERROR: Unequal number of probabilities and translation alternatives: " << line << endl); return false; } // store translation options into members if (staticData.GetXmlInputType() != XmlIgnore) { // only store options if we aren't ignoring them for (size_t i=0; i 0) probValue = Scan(altProbs[i]); // convert from prob to log-prob float scoreValue = FloorScore(TransformScore(probValue)); WordsRange range(startPos + offset,endPos-1 + offset); // span covered by phrase TargetPhrase targetPhrase(firstPt); // targetPhrase.CreateFromString(Output, outputFactorOrder,altTexts[i],factorDelimiter, NULL); targetPhrase.CreateFromString(Output, outputFactorOrder,altTexts[i], NULL); // lhs const UnknownLHSList &lhsList = staticData.GetUnknownLHS(); if (!lhsList.empty()) { const Factor *factor = FactorCollection::Instance().AddFactor(lhsList[0].first, true); Word *targetLHS = new Word(true); targetLHS->SetFactor(0, factor); // TODO - other factors too? targetPhrase.SetTargetLHS(targetLHS); } targetPhrase.SetXMLScore(scoreValue); targetPhrase.EvaluateInIsolation(sourcePhrase); XmlOption *option = new XmlOption(range,targetPhrase); assert(option); res.push_back(option); } altTexts.clear(); altProbs.clear(); } } } } } // we are done. check if there are tags that are still open if (tagStack.size() > 0) { TRACE_ERR("ERROR: some opened tags were never closed: " << line << endl); return false; } // return de-xml'ed sentence in line line = cleanLine; return true; } }