/// <summary> /// Applies the rule to the specified word synthesis. /// </summary> /// <param name="input">The word synthesis.</param> public override void Apply(WordSynthesis input) { PhonologicalRuleSynthesisTrace trace = null; if (TraceSynthesis) { // create phonological rule synthesis trace record trace = new PhonologicalRuleSynthesisTrace(this, input.Clone()); input.CurrentTrace.AddChild(trace); } // only try to apply applicable subrules List <Subrule> subrules = new List <Subrule>(); foreach (Subrule sr in m_subrules) { if (sr.IsApplicable(input)) { subrules.Add(sr); } } if (subrules.Count > 0) { // set all segments to clean PhoneticShape pshape = input.Shape; foreach (PhoneticShapeNode node in pshape) { if (node.Type == PhoneticShapeNode.NodeType.SEGMENT) { (node as Segment).IsClean = true; } } switch (m_multApplication) { case MultAppOrder.SIMULTANEOUS: ApplySimultaneous(input.Shape, subrules); break; case MultAppOrder.LR_ITERATIVE: ApplyIterative(input.Shape, Direction.RIGHT, subrules); break; case MultAppOrder.RL_ITERATIVE: ApplyIterative(input.Shape, Direction.LEFT, subrules); break; } } // add output to phonological rule trace record if (trace != null) { trace.Output = input.Clone(); } }
/// <summary> /// Applies the rule to the specified word synthesis. /// </summary> /// <param name="input">The word synthesis.</param> public override void Apply(WordSynthesis input) { PhonologicalRuleSynthesisTrace trace = null; if (TraceSynthesis) { // create phonological rule synthesis trace record trace = new PhonologicalRuleSynthesisTrace(this, input.Clone()); input.CurrentTrace.AddChild(trace); } // only try to apply applicable subrules List<Subrule> subrules = new List<Subrule>(); foreach (Subrule sr in m_subrules) { if (sr.IsApplicable(input)) subrules.Add(sr); } if (subrules.Count > 0) { // set all segments to clean PhoneticShape pshape = input.Shape; foreach (PhoneticShapeNode node in pshape) { if (node.Type == PhoneticShapeNode.NodeType.SEGMENT) (node as Segment).IsClean = true; } switch (m_multApplication) { case MultAppOrder.SIMULTANEOUS: ApplySimultaneous(input.Shape, subrules); break; case MultAppOrder.LR_ITERATIVE: ApplyIterative(input.Shape, Direction.RIGHT, subrules); break; case MultAppOrder.RL_ITERATIVE: ApplyIterative(input.Shape, Direction.LEFT, subrules); break; } } // add output to phonological rule trace record if (trace != null) trace.Output = input.Clone(); }
public override void EndApplyPhonologicalRule(PhonologicalRule rule, WordSynthesis output) { if (m_currentSynthesisPruleTrace != null) { m_currentSynthesisPruleTrace.Output = output.Clone(); m_currentSynthesisPruleTrace = null; } }
public override void BeginApplyPhonologicalRule(PhonologicalRule rule, WordSynthesis input) { if (IsSynthesisTracingEnabled(rule.ID)) { m_currentSynthesisPruleTrace = new PhonologicalRuleSynthesisTrace(rule, input.Clone()); ((Trace) input.CurrentTraceObject).AddChild(m_currentSynthesisPruleTrace); } }
protected virtual void Write(Trace trace, bool printTraceInputs) { switch (trace.Type) { case Trace.TraceType.WORD_ANALYSIS: WordAnalysisTrace waTrace = trace as WordAnalysisTrace; m_xmlWriter.WriteStartElement(waTrace.GetType().Name); m_xmlWriter.WriteElementString("InputWord", waTrace.InputWord); break; case Trace.TraceType.STRATUM_ANALYSIS: StratumAnalysisTrace saTrace = trace as StratumAnalysisTrace; m_xmlWriter.WriteStartElement(saTrace.GetType().Name + (saTrace.IsInput ? "In" : "Out")); Write("Stratum", saTrace.Stratum); Write(saTrace.IsInput ? "Input" : "Output", saTrace.Analysis); break; case Trace.TraceType.STRATUM_SYNTHESIS: StratumSynthesisTrace ssTrace = trace as StratumSynthesisTrace; m_xmlWriter.WriteStartElement(ssTrace.GetType().Name + (ssTrace.IsInput ? "In" : "Out")); Write("Stratum", ssTrace.Stratum); Write(ssTrace.IsInput ? "Input" : "Output", ssTrace.Synthesis); break; case Trace.TraceType.LEX_LOOKUP: LexLookupTrace llTrace = trace as LexLookupTrace; m_xmlWriter.WriteStartElement(llTrace.GetType().Name); m_xmlWriter.WriteElementString("Stratum", llTrace.Stratum.Description); m_xmlWriter.WriteElementString("Shape", llTrace.Stratum.CharacterDefinitionTable.ToRegexString(llTrace.Shape, ModeType.ANALYSIS, true)); break; case Trace.TraceType.WORD_SYNTHESIS: WordSynthesisTrace wsTrace = trace as WordSynthesisTrace; m_xmlWriter.WriteStartElement(wsTrace.GetType().Name); Write("RootAllomorph", wsTrace.RootAllomorph); m_xmlWriter.WriteStartElement("MorphologicalRules"); foreach (MorphologicalRule rule in wsTrace.MorphologicalRules) { Write("MorphologicalRule", rule); } m_xmlWriter.WriteEndElement(); // MorphologicalRules m_xmlWriter.WriteElementString("RealizationalFeatures", wsTrace.RealizationalFeatures.ToString()); break; case Trace.TraceType.PHONOLOGICAL_RULE_ANALYSIS: PhonologicalRuleAnalysisTrace paTrace = trace as PhonologicalRuleAnalysisTrace; m_xmlWriter.WriteStartElement(paTrace.GetType().Name); Write("PhonologicalRule", paTrace.Rule); if (printTraceInputs) { Write("Input", paTrace.Input); } Write("Output", paTrace.Output); break; case Trace.TraceType.PHONOLOGICAL_RULE_SYNTHESIS: PhonologicalRuleSynthesisTrace psTrace = trace as PhonologicalRuleSynthesisTrace; m_xmlWriter.WriteStartElement(psTrace.GetType().Name); Write("PhonologicalRule", psTrace.Rule); if (printTraceInputs) { Write("Input", psTrace.Input); } Write("Output", psTrace.Output); break; case Trace.TraceType.PHONOLOGICAL_RULE_SYNTHESIS_REQUIREDPOS: PhonologicalRuleSynthesisRequiredPOSTrace psposTrace = trace as PhonologicalRuleSynthesisRequiredPOSTrace; m_xmlWriter.WriteStartElement(psposTrace.GetType().Name); Write("PhonologicalRuleStemPOS", psposTrace.PartOfSpeech); m_xmlWriter.WriteStartElement("PhonologicalRuleRequiredPOSes"); foreach (var partOfSpeech in psposTrace.RequiredPOSs) { Write("PhonologicalRuleRequiredPOS", partOfSpeech); } m_xmlWriter.WriteEndElement(); break; case Trace.TraceType.PHONOLOGICAL_RULE_SYNTHESIS_MPRFEATURES: PhonologicalRuleSynthesisMPRFeaturesTrace psmprTrace = trace as PhonologicalRuleSynthesisMPRFeaturesTrace; m_xmlWriter.WriteStartElement(psmprTrace.GetType().Name); string type = "required"; if (psmprTrace.MPRFeatureType == PhonologicalRuleSynthesisMPRFeaturesTrace.PhonologicalRuleSynthesisMPRFeaturesTraceType.EXCLUDED) { type = "excluded"; } m_xmlWriter.WriteAttributeString("type", type); m_xmlWriter.WriteStartElement("PhonologicalRuleMPRFeatures"); foreach (var mprFeature in psmprTrace.MPRFeatures) { Write("PhonologicalRuleMPRFeature", mprFeature); } m_xmlWriter.WriteEndElement(); m_xmlWriter.WriteStartElement("PhonologicalRuleConstrainingMPRFeatrues"); foreach (var mprFeature in psmprTrace.ConstrainingMPRFeatures) { Write("PhonologicalRuleMPRFeature", mprFeature); } m_xmlWriter.WriteEndElement(); break; case Trace.TraceType.TEMPLATE_ANALYSIS: TemplateAnalysisTrace taTrace = trace as TemplateAnalysisTrace; m_xmlWriter.WriteStartElement(taTrace.GetType().Name + (taTrace.IsInput ? "In" : "Out")); Write("AffixTemplate", taTrace.Template); Write(taTrace.IsInput ? "Input" : "Output", taTrace.Analysis); break; case Trace.TraceType.TEMPLATE_SYNTHESIS: TemplateSynthesisTrace tsTrace = trace as TemplateSynthesisTrace; m_xmlWriter.WriteStartElement(tsTrace.GetType().Name + (tsTrace.IsInput ? "In" : "Out")); Write("AffixTemplate", tsTrace.Template); Write(tsTrace.IsInput ? "Input" : "Output", tsTrace.Synthesis); break; case Trace.TraceType.MORPHOLOGICAL_RULE_ANALYSIS: MorphologicalRuleAnalysisTrace maTrace = trace as MorphologicalRuleAnalysisTrace; m_xmlWriter.WriteStartElement(maTrace.GetType().Name); Write("MorphologicalRule", maTrace.Rule); if (maTrace.RuleAllomorph != null) { Write("RuleAllomorph", maTrace.RuleAllomorph); } if (printTraceInputs) { Write("Input", maTrace.Input); } Write("Output", maTrace.Output); break; case Trace.TraceType.MORPHOLOGICAL_RULE_SYNTHESIS: MorphologicalRuleSynthesisTrace msTrace = trace as MorphologicalRuleSynthesisTrace; m_xmlWriter.WriteStartElement(msTrace.GetType().Name); Write("MorphologicalRule", msTrace.Rule); if (msTrace.RuleAllomorph != null) { Write("RuleAllomorph", msTrace.RuleAllomorph); } if (printTraceInputs) { Write("Input", msTrace.Input); } Write("Output", msTrace.Output); break; case Trace.TraceType.BLOCKING: BlockingTrace bTrace = trace as BlockingTrace; m_xmlWriter.WriteStartElement(bTrace.GetType().Name); Write("BlockingEntry", bTrace.BlockingEntry); break; case Trace.TraceType.REPORT_SUCCESS: ReportSuccessTrace rsTrace = trace as ReportSuccessTrace; m_xmlWriter.WriteStartElement(rsTrace.GetType().Name); Write("Result", rsTrace.Output); break; } foreach (Trace child in trace.Children) { Write(child, printTraceInputs); } m_xmlWriter.WriteEndElement(); }