public void start(int i) { out.startElement("ruleChain"); out.emitAttribute("key", out.getNamePool().getClarkName(i)); }
public void start(int i) { out.startElement("ruleChain"); out.emitAttribute("key", out.getNamePool().getClarkName(i)); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter destination) { destination.startElement("convertItems"); destination.emitAttribute("to", requiredItemType.toString(destination.getNamePool())); operand.explain(destination); destination.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter destination) { destination.startElement("convertItems"); destination.emitAttribute("to", requiredItemType.toString(destination.getNamePool())); operand.explain(destination); destination.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter destination) { destination.startElement("convertItems"); destination.emitAttribute("to", requiredItemType.toString(destination.getNamePool())); operand.explain(destination); destination.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter destination) { destination.startElement("instance"); destination.emitAttribute("of", targetType.toString(destination.getNamePool())); destination.emitAttribute("occurs", Cardinality.getOccurrenceIndicator(targetCardinality)); operand.explain(destination); destination.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter destination) { destination.startElement("instance"); destination.emitAttribute("of", targetType.toString(destination.getNamePool())); destination.emitAttribute("occurs", Cardinality.getOccurrenceIndicator(targetCardinality)); operand.explain(destination); destination.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("directAttribute"); out.emitAttribute("name", out.getNamePool().getDisplayName(nameCode)); out.emitAttribute("validation", Validation.toString(validationAction)); if (schemaType != null) { out.emitAttribute("type", schemaType.getDescription()); } getSelect().explain(out); out.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("directAttribute"); out.emitAttribute("name", out.getNamePool().getDisplayName(nameCode)); out.emitAttribute("validation", Validation.toString(validationAction)); if (schemaType != null) { out.emitAttribute("type", schemaType.getDescription()); } getSelect().explain(out); out.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("directElement"); out.emitAttribute("name", out.getNamePool().getDisplayName(nameCode)); out.emitAttribute("validation", Validation.toString(validation)); if (getSchemaType() != null) { out.emitAttribute("type", getSchemaType().getDescription()); } content.explain(out); out.endElement(); } }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("directElement"); out.emitAttribute("name", out.getNamePool().getDisplayName(nameCode)); out.emitAttribute("validation", Validation.toString(validation)); if (getSchemaType() != null) { out.emitAttribute("type", getSchemaType().getDescription()); } content.explain(out); out.endElement(); } }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("directAttribute"); out.emitAttribute("name", out.getNamePool().getDisplayName(nameCode)); out.emitAttribute("validation", Validation.toString(getValidationAction())); if (getSchemaType() != null) { out.emitAttribute("type", getSchemaType().getDescription()); } getSelect().explain(out); out.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("for"); out.emitAttribute("variable", getVariableName()); out.emitAttribute("as", sequence.getItemType(out.getTypeHierarchy()).toString(out.getNamePool())); if (positionVariable != null) { out.emitAttribute("at", positionVariable.getVariableQName().getDisplayName()); } out.startSubsidiaryElement("in"); sequence.explain(out); out.endSubsidiaryElement(); out.startSubsidiaryElement("return"); action.explain(out); out.endSubsidiaryElement(); out.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("for"); out.emitAttribute("variable", getVariableName()); out.emitAttribute("as", sequence.getItemType(out.getTypeHierarchy()).toString(out.getNamePool())); if (positionVariable != null) { out.emitAttribute("at", positionVariable.getVariableQName().getDisplayName()); } out.startSubsidiaryElement("in"); sequence.explain(out); out.endSubsidiaryElement(); out.startSubsidiaryElement("return"); action.explain(out); out.endSubsidiaryElement(); out.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("for"); out.emitAttribute("variable", getVariableName()); out.emitAttribute("as", sequence.getItemType(out.getTypeHierarchy()).toString(out.getNamePool())); if (positionVariable != null) { out.emitAttribute("at", positionVariable.getVariableQName().getDisplayName()); } out.startSubsidiaryElement("in"); sequence.explain(out); out.endSubsidiaryElement(); out.startSubsidiaryElement("return"); action.explain(out); out.endSubsidiaryElement(); out.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("let"); out.emitAttribute("variable", getVariableName()); out.emitAttribute("as", sequence.getItemType(out.getTypeHierarchy()).toString(out.getNamePool()) + Cardinality.getOccurrenceIndicator(sequence.getCardinality())); if (isIndexedVariable()) { out.emitAttribute("indexable", "true"); } out.startSubsidiaryElement("be"); sequence.explain(out); out.endSubsidiaryElement(); out.startSubsidiaryElement("return"); action.explain(out); out.endSubsidiaryElement(); out.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("let"); out.emitAttribute("variable", getVariableName()); out.emitAttribute("as", sequence.getItemType(out.getTypeHierarchy()).toString(out.getNamePool()) + Cardinality.getOccurrenceIndicator(sequence.getCardinality())); if (isIndexedVariable()) { out.emitAttribute("indexable", "true"); } out.startSubsidiaryElement("be"); sequence.explain(out); out.endSubsidiaryElement(); out.startSubsidiaryElement("return"); action.explain(out); out.endSubsidiaryElement(); out.endElement(); }
/** * Diagnostic print of expression structure. The abstract expression tree * is written to the supplied output destination. */ public void explain(ExpressionPresenter out) { out.startElement("let"); out.emitAttribute("variable", getVariableName()); out.emitAttribute("as", sequence.getItemType(out.getTypeHierarchy()).toString(out.getNamePool()) + Cardinality.getOccurrenceIndicator(sequence.getCardinality())); if (isIndexedVariable()) { out.emitAttribute("indexable", "true"); } out.startSubsidiaryElement("be"); sequence.explain(out); out.endSubsidiaryElement(); out.startSubsidiaryElement("return"); action.explain(out); out.endSubsidiaryElement(); out.endElement(); }