/// <summary>
/// Applies the rule to the specified word analysis.
/// </summary>
/// <param name="input">The input word synthesis.</param>
/// <param name="output">The output word syntheses.</param>
/// <returns>
/// <c>true</c> if the rule was successfully applied, otherwise <c>false</c>
/// </returns>
public override bool Apply(WordSynthesis input, out ICollection <WordSynthesis> output)
{
output = null;
// these should probably be moved to IsApplicable, but we will leave it here for
// now so we don't have to call it again to set the features for the output word
// synthesis record
// check head features
FeatureValues headHeadFeatures;
if (!m_headRequiredHeadFeatures.UnifyDefaults(input.HeadFeatures, out headHeadFeatures))
{
return(false);
}
FeatureValues nonHeadHeadFeatures;
if (!m_nonHeadRequiredHeadFeatures.UnifyDefaults(input.NonHead.HeadFeatures, out nonHeadHeadFeatures))
{
return(false);
}
// check foot features
FeatureValues headFootFeatures;
if (!m_headRequiredFootFeatures.UnifyDefaults(input.FootFeatures, out headFootFeatures))
{
return(false);
}
FeatureValues nonHeadFootFeatures;
if (!m_nonHeadRequiredFootFeatures.UnifyDefaults(input.NonHead.FootFeatures, out nonHeadFootFeatures))
{
return(false);
}
MorphologicalRuleSynthesisTrace trace = null;
if (TraceSynthesis)
{
// create morphological rule synthesis trace record
trace = new MorphologicalRuleSynthesisTrace(this, input.Clone());
input.CurrentTrace.AddChild(trace);
}
output = new List <WordSynthesis>();
foreach (Subrule sr in m_subrules)
{
WordSynthesis ws;
if (sr.Apply(input, out ws))
{
if (m_outPOS != null)
{
ws.POS = m_outPOS;
}
if (m_outHeadFeatures != null)
{
ws.HeadFeatures = m_outHeadFeatures.Clone();
}
ws.HeadFeatures.Add(headHeadFeatures);
if (m_outFootFeatures != null)
{
ws.FootFeatures = m_outFootFeatures.Clone();
}
ws.FootFeatures.Add(headFootFeatures);
if (m_obligHeadFeatures != null)
{
foreach (Feature feature in m_obligHeadFeatures)
{
ws.AddObligatoryHeadFeature(feature);
}
}
ws.MorphologicalRuleApplied(this);
ws = CheckBlocking(ws);
if (trace != null)
{
// set current trace record to the morphological rule trace record for each
// output analysis
ws.CurrentTrace = trace;
// add output to morphological rule trace record
trace.RuleAllomorph = sr;
trace.Output = ws.Clone();
}
output.Add(ws);
// return all word syntheses that match subrules that are constrained by environments,
// HC violates the disjunctive property of allomorphs here because it cannot check the
// environmental constraints until it has a surface form, we will enforce the disjunctive
// property of allomorphs at that time
if (sr.RequiredEnvironments == null && sr.ExcludedEnvironments == null)
{
break;
}
}
}
return(output.Count > 0);
}
/// <summary>
/// Applies the rule to the specified word synthesis.
/// </summary>
/// <param name="input">The input word synthesis.</param>
/// <param name="output">The output word syntheses.</param>
/// <returns>
/// <c>true</c> if the rule was successfully applied, otherwise <c>false</c>
/// </returns>
public override bool Apply(WordSynthesis input, out ICollection <WordSynthesis> output)
{
output = null;
// these should probably be moved to IsApplicable, but we will leave it here for
// now so we don't have to call it again to set the features for the output word
// synthesis record
// check head features
FeatureValues headFeatures;
if (!m_requiredHeadFeatures.UnifyDefaults(input.HeadFeatures, out headFeatures))
{
return(false);
}
// check foot features
FeatureValues footFeatures;
if (!m_requiredFootFeatures.UnifyDefaults(input.FootFeatures, out footFeatures))
{
return(false);
}
output = new List <WordSynthesis>();
for (int i = 0; i < m_subrules.Count; i++)
{
WordSynthesis ws;
if (m_subrules[i].Apply(input, out ws))
{
if (m_outPOS != null)
{
ws.POS = m_outPOS;
}
if (m_outHeadFeatures != null)
{
ws.HeadFeatures = m_outHeadFeatures.Clone();
}
ws.HeadFeatures.Add(headFeatures);
if (m_outFootFeatures != null)
{
ws.FootFeatures = m_outFootFeatures.Clone();
}
ws.FootFeatures.Add(footFeatures);
if (m_obligHeadFeatures != null)
{
foreach (Feature feature in m_obligHeadFeatures)
{
ws.AddObligatoryHeadFeature(feature);
}
}
ws.MorphologicalRuleApplied(this);
ws = CheckBlocking(ws);
if (TraceSynthesis)
{
MorphologicalRuleSynthesisTrace trace = new MorphologicalRuleSynthesisTrace(this, input.Clone());
// add output to morphological rule trace record
trace.RuleAllomorph = m_subrules[i];
trace.Output = ws.Clone();
ws.CurrentTrace.AddChild(trace);
// set current trace record to the morphological rule trace record for each
// output analysis
ws.CurrentTrace = trace;
}
output.Add(ws);
// return all word syntheses that match subrules that are constrained by environments,
// HC violates the disjunctive property of allomorphs here because it cannot check the
// environmental constraints until it has a surface form, we will enforce the disjunctive
// property of allomorphs at that time
// HC also checks for free fluctuation, if the next subrule has the same constraints, we
// do not treat them as disjunctive
if ((i != m_subrules.Count - 1 && !m_subrules[i].ConstraintsEqual(m_subrules[i + 1])) &&
m_subrules[i].RequiredEnvironments == null && m_subrules[i].ExcludedEnvironments == null)
{
break;
}
}
}
if (TraceSynthesis && output.Count == 0)
{
input.CurrentTrace.AddChild(new MorphologicalRuleSynthesisTrace(this, input.Clone()));
}
return(output.Count > 0);
}