private AIMLTagHandler proccessTemplate(SubQuery query, Request request, Result result, XmlNode templateNode, Unifiable sGuard, out bool createdOutput, out bool templateSucceeded, AIMLTagHandler parentHandlerU, TemplateInfo templateInfo, bool copyChild, bool copyParent) { ChatLabel label = request.PushScope; var prevTraced = request.IsTraced; var untraced = request.Graph.UnTraced; var superTrace = templateInfo != null && templateInfo.IsTraced; try { if (superTrace) { request.IsTraced = true; request.Graph.UnTraced = false; } var th = proccessResponse000(query, request, result, templateNode, sGuard, out createdOutput, out templateSucceeded, parentHandlerU, templateInfo, copyChild, copyParent); if (superTrace) { StaticAIMLUtils.writeDebugLine("SuperTrace=" + templateSucceeded + ": " + templateInfo); } return(th); } catch (ChatSignalOverBudget ex) { throw; } catch (ChatSignal ex) { if (label.IsSignal(ex)) { // if (ex.SubQuery != query) throw; if (ex.NeedsAdding) { request.AddOutputSentences(templateInfo, ex.TemplateOutput, result, request.TopLevelScore); } templateSucceeded = ex.TemplateSucceeded; createdOutput = ex.CreatedOutput; return(ex.TagHandlerU); } throw; } catch (Exception ex) { throw; } finally { request.IsTraced = prevTraced; request.Graph.UnTraced = untraced; label.PopScope(); } }
private object EvalAIMLHandler(string cmd, Request user) { XmlNode node = StaticAIMLUtils.getTemplateNode(cmd); LineInfoElementImpl.unsetReadonly(node); if (Loader == null) { Loader = GetLoader(GetBotRequest("EvalAIMLHandler " + cmd, RequestKind.EvalAIMLHandler)); } var res = ImmediateAiml(node, user, Loader, RequestKind.EvalAIMLHandler); return(res); }
private static bool ShouldSet(XmlNode templateNode, ISettingsDictionary dictionary, string name, object newValue, Unifiable oldValue, SubQuery query) { if (templateNode == null) { return(true); } bool canSet = query.UseDictionaryForSet(dictionary); ; bool onlyIfUnknown; if (StaticXMLUtils.TryParseBool(templateNode, "ifUnknown", out onlyIfUnknown)) { if (onlyIfUnknown) { return((Unifiable.IsMissing(oldValue) || IsIncomplete(oldValue)) && canSet); } } bool overwriteExisting; if (StaticXMLUtils.TryParseBool(templateNode, "overwriteExisting", out overwriteExisting)) { if (!overwriteExisting) { return((Unifiable.IsNullOrEmpty(oldValue) || IsIncomplete(oldValue)) && canSet); } //if (overwriteExisting) return(true); } string oldMatch = StaticXMLUtils.GetAttribValue(templateNode, "existing", null); bool shouldSet = true; if (oldMatch != null) { if (!StaticAIMLUtils.IsPredMatch(oldMatch, oldValue, null)) { shouldSet = false; } } var newValueU = Unifiable.Create(newValue); string newMatch = StaticXMLUtils.GetAttribValue(templateNode, "matches", null); if (newMatch != null) { if (!StaticAIMLUtils.IsPredMatch(newMatch, newValueU, null)) { shouldSet = false; } } string wontvalue = StaticXMLUtils.GetAttribValue(templateNode, "wontvalue", null); if (wontvalue != null) { if (StaticAIMLUtils.IsPredMatch(wontvalue, newValueU, null)) { shouldSet = false; } } return(shouldSet && canSet); }
/// <summary> /// Recursively evaluates the template nodes returned from the Proccessor /// </summary> /// <param name="node">the node to evaluate</param> /// <param name="query">the query that produced targetBot node</param> /// <param name="request">the request from the user</param> /// <param name="result">the result to be sent to the user</param> /// <param name="user">the user who originated the request</param> /// <returns>the output Unifiable</returns> public string processNodeVV(XmlNode node, SubQuery query, Request request, Result result, User user, AIMLTagHandler parentHandlerU, bool protectChild, bool copyParent, AIMLTagHandler tagHandlerU, out bool childSuccess) { AltBot TargetBot = tagHandlerU.bot; if (request != null) { TargetBot = request.TargetBot; } childSuccess = true; if (node == null) { string whyError = "ERROR null NODE " + tagHandlerU; writeToLog(whyError); throw new ChatSignalOverBudget(request, whyError); } if (node.NodeType == XmlNodeType.Text) { childSuccess = true; if (tagHandlerU != null) { tagHandlerU.QueryHasSuceeded = true; } string s = StaticAIMLUtils.Trim(StaticAIMLUtils.TextNodeValue(node)); if (!String.IsNullOrEmpty(s)) { return(StaticAIMLUtils.ValueText(s)); } //return s; } if (tagHandlerU == null) { string whyError = "ERROR null THND " + node; childSuccess = false; writeToLog(whyError); } bool isTraced = (request != null && (request.IsTraced || !request.GraphsAcceptingUserInput)) || (query != null && query.IsTraced); // check for timeout (to avoid infinite loops) bool overBudget = false; if (request != null && request.IsComplete(result)) { object gn = request.Graph; if (query != null) { gn = query.Graph; } string s = StaticAIMLUtils.SafeFormat("WARNING! Request " + request.WhyComplete + ". User: {0} raw input: {3} \"{1}\" processing {2} templates: \"{4}\"", request.Requester.UserID, Unifiable.DescribeUnifiable(request.rawInput), (query == null ? "-NOQUERY-" : query.Templates.Count.ToString()), gn, node); if (isTraced) { request.writeToLog(s); } overBudget = true; if (!request.IsToplevelRequest) { throw new ChatSignalOverBudget(request, s); } } // process the node if (ReferenceEquals(null, tagHandlerU)) { childSuccess = true; if (node.NodeType == XmlNodeType.Comment) { return(Unifiable.Empty); } if (node.NodeType == XmlNodeType.Text) { string s = StaticAIMLUtils.Trim(StaticAIMLUtils.TextNodeValue(node)); if (String.IsNullOrEmpty(s)) { return(Unifiable.Empty); } return(s); } // ReSharper disable ConditionIsAlwaysTrueOrFalse OutputDelegate del = (request != null) ? request.writeToLog : writeToLog; // ReSharper restore ConditionIsAlwaysTrueOrFalse if (overBudget) { return(Unifiable.Empty); } string nodeInner = node.InnerXml; TargetBot.EvalAiml(node, request, del ?? TextPatternUtils.DEVNULL); return(node.InnerXml); } XmlNode oldNode = node; bool wasReadonlyNode = oldNode.IsReadOnly; // copy the node!?! if (protectChild) { copyParent = true; LineInfoElementImpl newnode = StaticAIMLUtils.CopyNode(node, copyParent); newnode.ReadOnly = false; node = newnode; } if (overBudget) { tagHandlerU.Dispose(); tagHandlerU = null; childSuccess = true; return(Unifiable.Empty); } tagHandlerU.SetParent(parentHandlerU); //if (parent!=null) parent.AddChild(tagHandler); Unifiable cp = tagHandlerU.Transform(); if (Unifiable.IsNullOrEmpty(cp) && (!tagHandlerU.QueryHasSuceeded || tagHandlerU.QueryHasFailed)) { bool needsOneMoreTry = !request.SuspendSearchLimits && (request.IsToplevelRequest /*|| result.ParentRequest.IsToplevelRequest*/); if (isTraced || needsOneMoreTry) { //writeDebugLine("ERROR: Try Again since NULL " + tagHandler); bool wsl = request.SuspendSearchLimits; try { request.SuspendSearchLimits = true; cp = tagHandlerU.Transform(); if (Unifiable.IsNull(cp)) { childSuccess = false; return(tagHandlerU.GetTemplateNodeInnerText()); } if (false && Unifiable.IsNullOrEmpty(cp)) { // trace the next line to see why AIMLTagHandler handlerU = tagHandlerU; TargetBot.TraceTest("ERROR: Try Again since NULL " + handlerU, () => { cp = handlerU.Transform(); }); } } finally { request.SuspendSearchLimits = wsl; } } } if (tagHandlerU.QueryHasFailed) { childSuccess = false; return(tagHandlerU.FAIL); } childSuccess = !tagHandlerU.QueryHasFailed; if (!childSuccess) { } var st = StaticAIMLUtils.IsSilentTag(node); var ine = Unifiable.IsNullOrEmpty(cp); if (!ine || st) { childSuccess = true; return(cp); } if (Unifiable.IsNull(cp)) { cp = tagHandlerU.GetTemplateNodeInnerText(); if (tagHandlerU.QueryHasSuceeded) { childSuccess = true; return(cp); } return(cp); } return(cp); }
/// <summary> /// Recursively evaluates the template nodes returned from the Proccessor /// </summary> /// <param name="node">the node to evaluate</param> /// <param name="query">the query that produced targetBot node</param> /// <param name="request">the request from the user</param> /// <param name="result">the result to be sent to the user</param> /// <param name="user">the user who originated the request</param> /// <returns>the output Unifiable</returns> public string processNode(XmlNode node, SubQuery query, Request request, Result result, User user, AIMLTagHandler parentHandlerU, bool protectChild, bool copyParent, AIMLTagHandler nodeHandlerU, bool suspendLimits, out bool templateSucceeded) { Request originalSalientRequest = Request.GetOriginalSalientRequest(request); bool osrExists = originalSalientRequest != null; var wasSuspendRestrati = request == null || request.SuspendSearchLimits; templateSucceeded = true; if (request != null) { request.SuspendSearchLimits = suspendLimits; } Dictionary <Unifiable, Unifiable> sraiMark = null; if (osrExists && ChatOptions.UseSraiLimitersBasedOnTextContent) { sraiMark = originalSalientRequest.CreateSRAIMark(); } try { bool childSuccess; string outputSentence = processNodeVV(node, query, request, result, user, parentHandlerU, protectChild, copyParent, nodeHandlerU, out childSuccess); if (!childSuccess) { templateSucceeded = false; } if (Unifiable.IsNull(outputSentence)) { //outputSentence = tagHandler.GetTemplateNodeInnerText(); templateSucceeded = false; return(outputSentence); } if (!Unifiable.IsNullOrEmpty(outputSentence)) { return(outputSentence); } if (StaticAIMLUtils.IsSilentTag(node) && !Unifiable.IsEMPTY(outputSentence)) { return(""); } if (nodeHandlerU.FinalResultValid) { return(nodeHandlerU.FinalResult); } return(outputSentence); } finally { if (osrExists && ChatOptions.UseSraiLimitersBasedOnTextContent) { originalSalientRequest.ResetSRAIResults(sraiMark); } if (request != null) { request.SuspendSearchLimits = wasSuspendRestrati; } } }
internal AIMLTagHandler GetTagHandlerU(User user, SubQuery query, Request request, Result result, XmlNode node, bool liText) { AIMLTagHandler tagHandlerU = getBespokeTags(user, query, request, result, node); string nodeNameLower = StaticAIMLUtils.ToLower(node.LocalName); AltBot targetBot = query.TargetBot; if (Equals(null, tagHandlerU)) { switch (nodeNameLower) { case "template": case "answer": //CML tagHandlerU = new template(targetBot, user, query, request, result, node); break; case "aiml": case "cml": //CML tagHandlerU = new aiml(targetBot, user, query, request, result, node); break; case "aimlexec": case "eval": tagHandlerU = new aimlexec(targetBot, user, query, request, result, node); break; case "vars": case "root": case "predicates": //CML tagHandlerU = new root(targetBot, user, query, request, result, node, (() => query.TargetSettings)); break; case "properties": case "bots": tagHandlerU = new root(targetBot, user, query, request, result, node, (() => request.TargetBot.GlobalSettings)); break; case "substitutions": tagHandlerU = new root(targetBot, user, query, request, result, node, (() => request.TargetBot.InputSubstitutions)); break; case "topic": case "conversation": //CML tagHandlerU = new topic(targetBot, user, query, request, result, node); break; case "category": case "conv": //CML tagHandlerU = new category(targetBot, user, query, request, result, node); break; case "and": tagHandlerU = new and(targetBot, user, query, request, result, node); break; case "or": tagHandlerU = new or(targetBot, user, query, request, result, node); break; case "optional": tagHandlerU = new optional(targetBot, user, query, request, result, node); break; case "isa": tagHandlerU = new isa(targetBot, user, query, request, result, node); break; case "bot": tagHandlerU = new bot(targetBot, user, query, request, result, node); break; case "condition": case "options": //cml tagHandlerU = new condition_aima(targetBot, user, query, request, result, node); break; case "li": if (liText) { tagHandlerU = new liif(targetBot, user, query, request, result, node); } break; case "if": tagHandlerU = new liif(targetBot, user, query, request, result, node); break; case "personf": tagHandlerU = new format(targetBot, user, query, request, result, node, new Func <string, string>(HttpUtility.UrlEncode), null); break; case "date": tagHandlerU = new date(targetBot, user, query, request, result, node); break; case "formal": tagHandlerU = new formal(targetBot, user, query, request, result, node); break; case "gender": tagHandlerU = new gender(targetBot, user, query, request, result, node); break; case "get": tagHandlerU = new get(targetBot, user, query, request, result, node); break; case "gossip": tagHandlerU = new gossip(targetBot, user, query, request, result, node); break; case "get_ip": case "id": tagHandlerU = new id(targetBot, user, query, request, result, node); break; case "inputreq": tagHandlerU = new inputreq(targetBot, user, query, request, result, node); break; case "request": tagHandlerU = new input(targetBot, user, query, request, result, node, 1); break; case "input": tagHandlerU = new input(targetBot, user, query, request, result, node, 1); break; case "justthat": // <input index="2"/> tagHandlerU = new input(targetBot, user, query, request, result, node, 2); break; case "beforethat": // <input index="3"/> tagHandlerU = new input(targetBot, user, query, request, result, node, 3); break; #if !(__MonoCS__) case "javascript": tagHandlerU = new javascript(targetBot, user, query, request, result, node); break; #endif case "learn": case "load": case "noload": // the commented version of <load> tagHandlerU = new learn(targetBot, user, query, request, result, node); break; case "lowercase": tagHandlerU = new lowercase(targetBot, user, query, request, result, node); break; case "person": tagHandlerU = new substitute(targetBot, user, query, request, result, node); break; case "person2": tagHandlerU = new substitute(targetBot, user, query, request, result, node); break; case "random": tagHandlerU = new random(targetBot, user, query, request, result, node); break; case "sentence": tagHandlerU = new sentence(targetBot, user, query, request, result, node); break; case "set": tagHandlerU = new set(targetBot, user, query, request, result, node); break; case "size": case "getsize": tagHandlerU = new size(targetBot, user, query, request, result, node); break; case "sr": tagHandlerU = new sr(targetBot, user, query, request, result, node); break; case "srai_odd": tagHandlerU = new srai_odd(targetBot, user, query, request, result, node); break; case "star": tagHandlerU = new star(targetBot, user, query, request, result, node); break; case "system": tagHandlerU = new system(targetBot, user, query, request, result, node); break; case "that": //default <that index="1,1"/> tagHandlerU = new that(targetBot, user, query, request, result, node, 1); break; case "justbeforethat": //treated as <that index="2,1"/> tagHandlerU = new that(targetBot, user, query, request, result, node, 2); break; case "response": //treated as <that index="1,1"/> tagHandlerU = new that(targetBot, user, query, request, result, node, 2); break; case "thatstar": tagHandlerU = new thatstar(targetBot, user, query, request, result, node); break; case "think": tagHandlerU = new think(targetBot, user, query, request, result, node); break; case "topicstar": tagHandlerU = new topicstar(targetBot, user, query, request, result, node); break; case "uppercase": tagHandlerU = new uppercase(targetBot, user, query, request, result, node); break; case "version": case "getversion": tagHandlerU = new version(targetBot, user, query, request, result, node); break; case "cycsystem": tagHandlerU = new cycsystem(targetBot, user, query, request, result, node); break; case "cycretract": tagHandlerU = new cycretract(targetBot, user, query, request, result, node); break; case "cycassert": tagHandlerU = new cycassert(targetBot, user, query, request, result, node); break; case "cycterm": tagHandlerU = new cycterm(targetBot, user, query, request, result, node); break; case "cycquery": tagHandlerU = new cycquery(targetBot, user, query, request, result, node); break; case "cyccondition": tagHandlerU = new cyccondition(targetBot, user, query, request, result, node); break; case "cycphrase": tagHandlerU = new cycphrase(targetBot, user, query, request, result, node); break; case "cycparaphrase": tagHandlerU = new cycphrase(targetBot, user, query, request, result, node); break; case "guard": tagHandlerU = new guard(targetBot, user, query, request, result, node); break; case "guardstar": tagHandlerU = new guardstar(targetBot, user, query, request, result, node); break; case "cycrandom": tagHandlerU = new cycrandom(targetBot, user, query, request, result, node); break; case "tscore": tagHandlerU = new tscore(targetBot, user, query, request, result, node); break; case "space": tagHandlerU = new space(targetBot, user, query, request, result, node); break; case "markov": tagHandlerU = new markov(targetBot, user, query, request, result, node); break; case "soundcode": tagHandlerU = new soundcode(targetBot, user, query, request, result, node); break; // MSM case "msm": tagHandlerU = new msm(targetBot, user, query, request, result, node); break; case "processmsm": tagHandlerU = new process_msm(targetBot, user, query, request, result, node); break; case "setstate": tagHandlerU = new setstate(targetBot, user, query, request, result, node); break; case "state": tagHandlerU = new state(targetBot, user, query, request, result, node); break; case "transition": tagHandlerU = new transition(targetBot, user, query, request, result, node); break; case "setevidence": tagHandlerU = new setevidence(targetBot, user, query, request, result, node); break; case "evidenceassoc": tagHandlerU = new evidence_assoc(targetBot, user, query, request, result, node); break; case "evidencepattern": tagHandlerU = new evidence_pattern(targetBot, user, query, request, result, node); break; case "evidencestate": tagHandlerU = new evidencestate(targetBot, user, query, request, result, node); break; case "dependentmachine": tagHandlerU = new dependentmachine(targetBot, user, query, request, result, node); break; case "responsetopic": tagHandlerU = new response_topic(targetBot, user, query, request, result, node); break; case "push": tagHandlerU = new push(targetBot, user, query, request, result, node); break; case "pop": tagHandlerU = new pop(targetBot, user, query, request, result, node); break; case "peekstack": tagHandlerU = new peekstack(targetBot, user, query, request, result, node); break; case "lex": tagHandlerU = new lex(targetBot, user, query, request, result, node); break; case "lexset": tagHandlerU = new lexset(targetBot, user, query, request, result, node); break; case "lexis": tagHandlerU = new lexis(targetBot, user, query, request, result, node); break; case "dbpush": tagHandlerU = new dbpush(targetBot, user, query, request, result, node); break; case "dbquery": tagHandlerU = new dbquery(targetBot, user, query, request, result, node); break; case "dbupdate": tagHandlerU = new dbupdate(targetBot, user, query, request, result, node); break; case "dbdelete": tagHandlerU = new dbdelete(targetBot, user, query, request, result, node); break; case "dbload": tagHandlerU = new dbload(targetBot, user, query, request, result, node); break; case "regex": tagHandlerU = new regex(targetBot, user, query, request, result, node); break; case "bind": // <bind>#$isa</bind> tagHandlerU = new bind(targetBot, user, query, request, result, node); break; case "#text": if (!liText) { return(null); } return(new verbatum(node.Value, targetBot, user, query, request, result, node)); case "#comment": return(new verbatum(node.OuterXml, targetBot, user, query, request, result, node)); case "br": return(new verbatum("\n", targetBot, user, query, request, result, node)); case "pre": return(new verbatum(StaticXMLUtils.InnerXmlText(node), targetBot, user, query, request, result, node)); case "p": return(new verbatum("\n\n", targetBot, user, query, request, result, node)); case "meta": return(new verbatum(node.OuterXml, targetBot, user, query, request, result, node)); default: break; } } if (tagHandlerU != null) { return(tagHandlerU); } if (StaticAIMLUtils.IsHtmlTag(node.Name)) { return(new recursiveVerbatum(node, targetBot, user, query, request, result, node, true)); } if (tagHandlerU == null) { // "bot", "favorite", "fav" foreach (KeyValuePair <string, string> prefix in new[] { new KeyValuePair <string, string>("get_", "get"), new KeyValuePair <string, string>("set_", "set"), new KeyValuePair <string, string>("bot_", "bot"), new KeyValuePair <string, string>("favorite_", "bot"), new KeyValuePair <string, string>("favorite", "bot"), new KeyValuePair <string, string>("fav_", "bot"), new KeyValuePair <string, string>("fav", "bot"), new KeyValuePair <string, string>("get", "get"), new KeyValuePair <string, string>("set", "set"), new KeyValuePair <string, string>("bot", "bot"), }) { if (nodeNameLower.StartsWith(prefix.Key) && node.Name.Length > prefix.Key.Length) { string name = node.Name.Substring(prefix.Key.Length); XmlNode pn = node.ParentNode; LineInfoElementImpl newnode = StaticXMLUtils.CopyNode(prefix.Value, node, false); XmlAttributeLineInfo atr = (XmlAttributeLineInfo)newnode.OwnerDocument.CreateAttribute("name"); atr.ReadOnly = false; atr.Value = name; newnode.Attributes.Append(atr); if (node.Name.ToLower() != newnode.Name.ToLower()) { writeToLog("AIMLLOADER: converted " + node.OuterXml + " -> " + newnode.OuterXml); return(targetBot.GetTagHandler(newnode, query, request, result, user, liText)); } writeToLog("AIMLLOADER: ! convert " + node.OuterXml + " -> " + newnode.OuterXml); } } } if (tagHandlerU != null) { return(tagHandlerU); } if (nodeNameLower == "name") { return(new bot(targetBot, user, query, request, result, node)); } tagHandlerU = new lazyClosure(targetBot, user, query, request, result, node); writeToLog("AIMLLOADER: lazyClosure: " + node.OuterXml); return(tagHandlerU); }
public AIMLTagHandler proccessResponse000(SubQuery query, Request request, Result result, XmlNode sOutput, Unifiable sGuard, out bool createdOutput, out bool templateSucceeded, AIMLTagHandler parentHandlerU, TemplateInfo templateInfo, bool copyChild, bool copyParent) { AltBot Proc = query.TargetBot; //query.LastTagHandler = handler; bool isTraced = request.IsTraced || request.IsTraced || !request.GraphsAcceptingUserInput || (templateInfo != null && templateInfo.IsTraced); //XmlNode guardNode = AIMLTagHandler.getNode(s.Guard.InnerXml); bool usedGuard = sGuard != null && sGuard.PatternNode != null; sOutput = sOutput ?? templateInfo.ClonedOutput; string output = sOutput.OuterXml; XmlNode templateNode = sOutput; bool childOriginal = true; result.Started = true; if (usedGuard) { output = "<template>" + sGuard.PatternNode.OuterXml + " GUARDBOM " + output + "</template>"; templateNode = StaticAIMLUtils.getNodeAndSetSibling(false, output, false, false, sOutput); childOriginal = false; } bool protectChild = copyChild || childOriginal; bool suspendingLimits = request.IsToplevelRequest || request.SuspendSearchLimits; AIMLTagHandler tagHandlerU = GetTagHandler(request.Requester, query, request, result, templateNode, parentHandlerU); string outputSentenceOut = processNode(templateNode, query, request, result, request.Requester, parentHandlerU, protectChild, copyParent, tagHandlerU, suspendingLimits, out templateSucceeded); templateSucceeded = !StaticAIMLUtils.IsFalse(outputSentenceOut); if (outputSentenceOut == null) { if (tagHandlerU == null) { writeToLog("tagHandler = null " + output); } else { bool success = false; if (tagHandlerU.QueryHasSuceeded) { success = true; } if (tagHandlerU.QueryHasFailed) { success = false; } if (success) { writeToLog("Very BaD " + output); } else { } templateSucceeded = false; createdOutput = false; return(tagHandlerU); } } outputSentenceOut = outputSentenceOut ?? ""; string left, outputSentence; if (!StaticAIMLUtils.SplitOff(outputSentenceOut, "GUARDBOM", out left, out outputSentence)) { left = null; outputSentence = outputSentenceOut; } if (sGuard == null || sGuard.PatternNode != null) { string o = Proc.ToEnglish(outputSentence); if (outputSentence.Trim().Length > 0) { templateSucceeded = true; } if (Proc.IsOutputSentence(o, outputSentence)) { if (isTraced) { string aIMLLoaderParentTextAndSourceInfo = ParentTextAndSourceInfo(templateNode); if (aIMLLoaderParentTextAndSourceInfo.Length > 300) { aIMLLoaderParentTextAndSourceInfo = TextFilter.ClipString( aIMLLoaderParentTextAndSourceInfo, 300); } writeToLog("AIMLTRACE '{0}' IsOutputSentence={1}", o, aIMLLoaderParentTextAndSourceInfo); } createdOutput = true; request.AddOutputSentences(templateInfo, o, result, request.TopLevelScore); } else { createdOutput = false; } // @TODO @HACK @BUG isTraced is a HORRID flag here! if (false && !createdOutput && isTraced && request.GraphsAcceptingUserInput) { if (templateInfo != null) { string fromStr = " from " + templateInfo.Graph; if (!StaticAIMLUtils.IsSilentTag(templateNode)) { writeToLog("SILENT '{0}' TEMPLATE={1}", o, ParentTextAndSourceInfo(templateNode) + fromStr); } request.DisableTemplateUntilFinished(templateInfo); } else { writeToLog("UNUSED '{0}' TEMPLATE={1}", o, ParentTextAndSourceInfo(templateNode)); } } return(tagHandlerU); } try { templateSucceeded = !StaticAIMLUtils.IsFalse(left); if (!templateSucceeded) { createdOutput = false; return(tagHandlerU); } string lang = StaticXMLUtils.GetAttribValue(sGuard.PatternNode, "lang", "cycl").ToLower(); try { Unifiable ss = Proc.SystemExecute(left, lang, request); if (StaticAIMLUtils.IsFalse(ss) || StaticAIMLUtils.IsNullOrEmpty(ss)) { if (isTraced) { writeToLog("GUARD FALSE '{0}' TEMPLATE={1}", request, ParentTextAndSourceInfo(templateNode)); } templateSucceeded = false; createdOutput = false; return(tagHandlerU); } else { templateSucceeded = true; } } catch (ChatSignal e) { throw; } catch (Exception e) { Proc.writeToLog(e); templateSucceeded = false; createdOutput = false; return(tagHandlerU); } //part the BOM string o = Proc.ToEnglish(outputSentence); if (Proc.IsOutputSentence(o, outputSentence)) { if (isTraced) { writeToLog(query.Graph + ": GUARD SUCCESS '{0}' TEMPLATE={1}", o, ParentTextAndSourceInfo(templateNode)); } templateSucceeded = true; createdOutput = true; request.AddOutputSentences(templateInfo, o, result, request.TopLevelScore); return(tagHandlerU); } else { writeToLog("GUARD SKIP '{0}' TEMPLATE={1}", outputSentence, ParentTextAndSourceInfo(templateNode)); } templateSucceeded = false; createdOutput = false; return(tagHandlerU); } catch (ChatSignal e) { throw; } catch (Exception ex) { Proc.writeToLog(ex); templateSucceeded = false; createdOutput = false; return(tagHandlerU); } }
public Unifiable[] TransformU() { if (true) { var ss = StaticAIMLUtils.SentenceBreaker(inputString, TrimEndTokens).ToArray(); Unifiable[] us = new Unifiable[ss.Length]; for (int i = 0; i < ss.Length; i++) { us[i] = ss[i]; } return(us); } string[] tokens = null; if (bot != null) { tokens = bot(); } string inputStringString = this.inputString.AsString(); string nonSplitTags = TextPatternUtils.ReplaceMap(inputStringString, new string[][] { new[] { "<br>", " " }, new[] { "<p>", " " }, new[] { "<br/>", " " }, new[] { "<p/>", " " } }); if (nonSplitTags.Contains("<")) { return(new [] { inputString }); } inputStringString = StaticAIMLUtils.ForInputTemplate(inputStringString); Unifiable[] nodes = this.inputString.ToArray(); int currentTokenbNum = 0; int startTokenNum = 0; if (tokens == null) { List <Unifiable> tidyString = new List <Unifiable>(); tokens = new[] { "! ", "? ", ". ", ", ", "br>", "<p>", "<br/>", "<p/>" }; foreach (string token in tokens) { inputStringString = inputStringString.Replace(token, token + " <split/> "); } string[] sss = inputStringString.Split(new[] { "<split/>" }, System.StringSplitOptions.RemoveEmptyEntries); foreach (string rawSentence in sss) { string tidySentence = TextPatternUtils.ReTrimAndspace(rawSentence.Replace("<p/>", " ").Replace("<br/>", " ").Replace("<br>", " ").Replace("<p>", " ")); tidySentence = StaticAIMLUtils.ForInputTemplate(tidySentence); if (tidySentence.Length > 0) { tidyString.Add(tidySentence); } if (tidySentence == "." || tidySentence == "?") { continue; } } if (tidyString.Count > 0) { return(tidyString.ToArray()); } else { return(new Unifiable[] { inputStringString }); } inputStringString = inputStringString.TrimStart(".!? ,".ToCharArray()); while (inputStringString.Length > 0) { int index = inputStringString.IndexOfAny(".!?".ToCharArray()); if (index > 1) { string ss = inputStringString.Substring(0, index + 1); tidyString.Add(ss); inputStringString = inputStringString.Substring(index + 1); continue; } tidyString.Add(inputStringString); } return(tidyString.ToArray()); } string[] rawResult = this.inputString.AsString().Split(tokens, System.StringSplitOptions.RemoveEmptyEntries); List <Unifiable> tidyResult = new List <Unifiable>(); foreach (string rawSentence in rawResult) { string tidySentence = rawSentence.Trim(); if (tidySentence.Length > 0) { tidyResult.Add(tidySentence); } } return((Unifiable[])tidyResult.ToArray()); }
public static string SafeFormat(string f, params object[] args) { return(StaticAIMLUtils.SafeFormat(f, args)); }
public static bool IsNullOrEmpty(Object unifiable) { return(StaticAIMLUtils.IsNullOrEmpty(unifiable)); }
public static bool IsSomething(Unifiable s, out Unifiable something) { return(StaticAIMLUtils.IsSomething(s, out something)); }