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Example 1 with IExecutionAttributeDialect

use of org.thymeleaf.dialect.IExecutionAttributeDialect in project thymeleaf by thymeleaf.

the class ConfigurationPrinterHelper method printDebugConfiguration.

private static void printDebugConfiguration(final ConfigLogBuilder logBuilder, final IDialect idialect, final String dialectPrefix) {
    if (idialect instanceof IProcessorDialect) {
        final IProcessorDialect dialect = (IProcessorDialect) idialect;
        final Set<IProcessor> processors = dialect.getProcessors(dialectPrefix);
        printProcessorsForTemplateMode(logBuilder, processors, TemplateMode.HTML);
        printProcessorsForTemplateMode(logBuilder, processors, TemplateMode.XML);
        printProcessorsForTemplateMode(logBuilder, processors, TemplateMode.TEXT);
        printProcessorsForTemplateMode(logBuilder, processors, TemplateMode.JAVASCRIPT);
        printProcessorsForTemplateMode(logBuilder, processors, TemplateMode.CSS);
        printProcessorsForTemplateMode(logBuilder, processors, TemplateMode.RAW);
    }
    if (idialect instanceof IPreProcessorDialect) {
        final IPreProcessorDialect dialect = (IPreProcessorDialect) idialect;
        final Set<IPreProcessor> preProcessors = dialect.getPreProcessors();
        printPreProcessorsForTemplateMode(logBuilder, preProcessors, TemplateMode.HTML);
        printPreProcessorsForTemplateMode(logBuilder, preProcessors, TemplateMode.XML);
        printPreProcessorsForTemplateMode(logBuilder, preProcessors, TemplateMode.TEXT);
        printPreProcessorsForTemplateMode(logBuilder, preProcessors, TemplateMode.JAVASCRIPT);
        printPreProcessorsForTemplateMode(logBuilder, preProcessors, TemplateMode.CSS);
        printPreProcessorsForTemplateMode(logBuilder, preProcessors, TemplateMode.RAW);
    }
    if (idialect instanceof IPostProcessorDialect) {
        final IPostProcessorDialect dialect = (IPostProcessorDialect) idialect;
        final Set<IPostProcessor> postProcessors = dialect.getPostProcessors();
        printPostProcessorsForTemplateMode(logBuilder, postProcessors, TemplateMode.HTML);
        printPostProcessorsForTemplateMode(logBuilder, postProcessors, TemplateMode.XML);
        printPostProcessorsForTemplateMode(logBuilder, postProcessors, TemplateMode.TEXT);
        printPostProcessorsForTemplateMode(logBuilder, postProcessors, TemplateMode.JAVASCRIPT);
        printPostProcessorsForTemplateMode(logBuilder, postProcessors, TemplateMode.CSS);
        printPostProcessorsForTemplateMode(logBuilder, postProcessors, TemplateMode.RAW);
    }
    if (idialect instanceof IExpressionObjectDialect) {
        final IExpressionObjectDialect dialect = (IExpressionObjectDialect) idialect;
        final IExpressionObjectFactory expressionObjectFactory = dialect.getExpressionObjectFactory();
        if (expressionObjectFactory != null) {
            final Set<String> expressionObjectNames = expressionObjectFactory.getAllExpressionObjectNames();
            if (expressionObjectNames != null && !expressionObjectNames.isEmpty()) {
                logBuilder.line("[THYMELEAF]     * Expression Objects:");
                for (final String expressionObjectName : expressionObjectNames) {
                    logBuilder.line("[THYMELEAF]         * #{}", new Object[] { expressionObjectName });
                }
            }
        }
    }
    if (idialect instanceof IExecutionAttributeDialect) {
        final IExecutionAttributeDialect dialect = (IExecutionAttributeDialect) idialect;
        final Map<String, Object> executionAttributes = dialect.getExecutionAttributes();
        if (executionAttributes != null && !executionAttributes.isEmpty()) {
            logBuilder.line("[THYMELEAF]     * Execution Attributes:");
            for (final Map.Entry<String, Object> executionAttributesEntry : executionAttributes.entrySet()) {
                final String attrName = executionAttributesEntry.getKey();
                final String attrValue = (executionAttributesEntry.getValue() == null ? null : executionAttributesEntry.getValue().toString());
                logBuilder.line("[THYMELEAF]         * \"{}\": {}", new Object[] { attrName, attrValue });
            }
        }
    }
}
Also used : IExpressionObjectFactory(org.thymeleaf.expression.IExpressionObjectFactory) IExecutionAttributeDialect(org.thymeleaf.dialect.IExecutionAttributeDialect) IPostProcessor(org.thymeleaf.postprocessor.IPostProcessor) IProcessor(org.thymeleaf.processor.IProcessor) IProcessorDialect(org.thymeleaf.dialect.IProcessorDialect) IPostProcessorDialect(org.thymeleaf.dialect.IPostProcessorDialect) IPreProcessorDialect(org.thymeleaf.dialect.IPreProcessorDialect) IExpressionObjectDialect(org.thymeleaf.dialect.IExpressionObjectDialect) IPreProcessor(org.thymeleaf.preprocessor.IPreProcessor) Map(java.util.Map)

Example 2 with IExecutionAttributeDialect

use of org.thymeleaf.dialect.IExecutionAttributeDialect in project thymeleaf by thymeleaf.

the class DialectSetConfiguration method build.

public static DialectSetConfiguration build(final Set<DialectConfiguration> dialectConfigurations) {
    Validate.notNull(dialectConfigurations, "Dialect configuration set cannot be null");
    // This set will contain all the dialects - without any additional configuration information
    final Set<IDialect> dialects = new LinkedHashSet<IDialect>(dialectConfigurations.size());
    // If we find a standard dialect among the configured ones (Standard or SpringStandard), we will report its prefix
    boolean standardDialectPresent = false;
    String standardDialectPrefix = null;
    // This map will be used for merging the execution attributes of all the dialects
    final Map<String, Object> executionAttributes = new LinkedHashMap<String, Object>(10, 1.0f);
    // This will aggregate all the expression object factories provided by the different dialects
    final AggregateExpressionObjectFactory aggregateExpressionObjectFactory = new AggregateExpressionObjectFactory();
    // EnumMaps for each type of processor (depending on the structures that they can be applied to)
    final EnumMap<TemplateMode, List<ITemplateBoundariesProcessor>> templateBoundariesProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<ITemplateBoundariesProcessor>>(TemplateMode.class);
    final EnumMap<TemplateMode, List<ICDATASectionProcessor>> cdataSectionProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<ICDATASectionProcessor>>(TemplateMode.class);
    final EnumMap<TemplateMode, List<ICommentProcessor>> commentProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<ICommentProcessor>>(TemplateMode.class);
    final EnumMap<TemplateMode, List<IDocTypeProcessor>> docTypeProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<IDocTypeProcessor>>(TemplateMode.class);
    final EnumMap<TemplateMode, List<IElementProcessor>> elementProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<IElementProcessor>>(TemplateMode.class);
    final EnumMap<TemplateMode, List<IProcessingInstructionProcessor>> processingInstructionProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<IProcessingInstructionProcessor>>(TemplateMode.class);
    final EnumMap<TemplateMode, List<ITextProcessor>> textProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<ITextProcessor>>(TemplateMode.class);
    final EnumMap<TemplateMode, List<IXMLDeclarationProcessor>> xmlDeclarationProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<IXMLDeclarationProcessor>>(TemplateMode.class);
    // Lists for merging all pre and postprocessors from all dialects
    final EnumMap<TemplateMode, List<IPreProcessor>> preProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<IPreProcessor>>(TemplateMode.class);
    final EnumMap<TemplateMode, List<IPostProcessor>> postProcessorListsByTemplateMode = new EnumMap<TemplateMode, List<IPostProcessor>>(TemplateMode.class);
    /*
         * ITERATE ALL DIALECTS, processing each one according to its features
         */
    for (final DialectConfiguration dialectConfiguration : dialectConfigurations) {
        // cannot be null -- ConfigurationDialect checks this
        final IDialect dialect = dialectConfiguration.getDialect();
        /*
             * STEP ONE for each dialect: process, initialize and merge processors
             */
        if (dialect instanceof IProcessorDialect) {
            final IProcessorDialect processorDialect = (IProcessorDialect) dialect;
            // Might be null if the dialect has been specified to use no prefix (or that is the default of such dialect)
            final String dialectPrefix = (dialectConfiguration.isPrefixSpecified() ? dialectConfiguration.getPrefix() : processorDialect.getPrefix());
            if (dialect instanceof StandardDialect) {
                standardDialectPresent = true;
                standardDialectPrefix = dialectPrefix;
            }
            final Set<IProcessor> dialectProcessors = processorDialect.getProcessors(dialectPrefix);
            if (dialectProcessors == null) {
                throw new ConfigurationException("Dialect should not return null processor set: " + dialect.getClass().getName());
            }
            for (final IProcessor dialectProcessor : dialectProcessors) {
                if (dialectProcessor == null) {
                    throw new ConfigurationException("Dialect should not return null processor in processor set: " + dialect.getClass().getName());
                }
                // Obtain and check template mode
                final TemplateMode templateMode = dialectProcessor.getTemplateMode();
                if (templateMode == null) {
                    throw new ConfigurationException("Template mode cannot be null (processor: " + dialectProcessor.getClass().getName() + ")");
                }
                if (dialectProcessor instanceof IElementProcessor) {
                    // can be either a tag processor or a node one
                    List<IElementProcessor> processorsForTemplateMode = elementProcessorListsByTemplateMode.get(templateMode);
                    if (processorsForTemplateMode == null) {
                        processorsForTemplateMode = new ArrayList<IElementProcessor>(5);
                        elementProcessorListsByTemplateMode.put(templateMode, processorsForTemplateMode);
                    }
                    processorsForTemplateMode.add(ProcessorConfigurationUtils.wrap((IElementProcessor) dialectProcessor, processorDialect));
                    Collections.sort(processorsForTemplateMode, ProcessorComparators.PROCESSOR_COMPARATOR);
                } else if (dialectProcessor instanceof ITemplateBoundariesProcessor) {
                    List<ITemplateBoundariesProcessor> processorsForTemplateMode = templateBoundariesProcessorListsByTemplateMode.get(templateMode);
                    if (processorsForTemplateMode == null) {
                        processorsForTemplateMode = new ArrayList<ITemplateBoundariesProcessor>(5);
                        templateBoundariesProcessorListsByTemplateMode.put(templateMode, processorsForTemplateMode);
                    }
                    processorsForTemplateMode.add(ProcessorConfigurationUtils.wrap((ITemplateBoundariesProcessor) dialectProcessor, processorDialect));
                    Collections.sort(processorsForTemplateMode, ProcessorComparators.PROCESSOR_COMPARATOR);
                } else if (dialectProcessor instanceof ICDATASectionProcessor) {
                    List<ICDATASectionProcessor> processorsForTemplateMode = cdataSectionProcessorListsByTemplateMode.get(templateMode);
                    if (processorsForTemplateMode == null) {
                        processorsForTemplateMode = new ArrayList<ICDATASectionProcessor>(5);
                        cdataSectionProcessorListsByTemplateMode.put(templateMode, processorsForTemplateMode);
                    }
                    processorsForTemplateMode.add(ProcessorConfigurationUtils.wrap((ICDATASectionProcessor) dialectProcessor, processorDialect));
                    Collections.sort(processorsForTemplateMode, ProcessorComparators.PROCESSOR_COMPARATOR);
                } else if (dialectProcessor instanceof ICommentProcessor) {
                    List<ICommentProcessor> processorsForTemplateMode = commentProcessorListsByTemplateMode.get(templateMode);
                    if (processorsForTemplateMode == null) {
                        processorsForTemplateMode = new ArrayList<ICommentProcessor>(5);
                        commentProcessorListsByTemplateMode.put(templateMode, processorsForTemplateMode);
                    }
                    processorsForTemplateMode.add(ProcessorConfigurationUtils.wrap((ICommentProcessor) dialectProcessor, processorDialect));
                    Collections.sort(processorsForTemplateMode, ProcessorComparators.PROCESSOR_COMPARATOR);
                } else if (dialectProcessor instanceof IDocTypeProcessor) {
                    List<IDocTypeProcessor> processorsForTemplateMode = docTypeProcessorListsByTemplateMode.get(templateMode);
                    if (processorsForTemplateMode == null) {
                        processorsForTemplateMode = new ArrayList<IDocTypeProcessor>(5);
                        docTypeProcessorListsByTemplateMode.put(templateMode, processorsForTemplateMode);
                    }
                    processorsForTemplateMode.add(ProcessorConfigurationUtils.wrap((IDocTypeProcessor) dialectProcessor, processorDialect));
                    Collections.sort(processorsForTemplateMode, ProcessorComparators.PROCESSOR_COMPARATOR);
                } else if (dialectProcessor instanceof IProcessingInstructionProcessor) {
                    List<IProcessingInstructionProcessor> processorsForTemplateMode = processingInstructionProcessorListsByTemplateMode.get(templateMode);
                    if (processorsForTemplateMode == null) {
                        processorsForTemplateMode = new ArrayList<IProcessingInstructionProcessor>(5);
                        processingInstructionProcessorListsByTemplateMode.put(templateMode, processorsForTemplateMode);
                    }
                    processorsForTemplateMode.add(ProcessorConfigurationUtils.wrap((IProcessingInstructionProcessor) dialectProcessor, processorDialect));
                    Collections.sort(processorsForTemplateMode, ProcessorComparators.PROCESSOR_COMPARATOR);
                } else if (dialectProcessor instanceof ITextProcessor) {
                    List<ITextProcessor> processorsForTemplateMode = textProcessorListsByTemplateMode.get(templateMode);
                    if (processorsForTemplateMode == null) {
                        processorsForTemplateMode = new ArrayList<ITextProcessor>(5);
                        textProcessorListsByTemplateMode.put(templateMode, processorsForTemplateMode);
                    }
                    processorsForTemplateMode.add(ProcessorConfigurationUtils.wrap((ITextProcessor) dialectProcessor, processorDialect));
                    Collections.sort(processorsForTemplateMode, ProcessorComparators.PROCESSOR_COMPARATOR);
                } else if (dialectProcessor instanceof IXMLDeclarationProcessor) {
                    List<IXMLDeclarationProcessor> processorsForTemplateMode = xmlDeclarationProcessorListsByTemplateMode.get(templateMode);
                    if (processorsForTemplateMode == null) {
                        processorsForTemplateMode = new ArrayList<IXMLDeclarationProcessor>(5);
                        xmlDeclarationProcessorListsByTemplateMode.put(templateMode, processorsForTemplateMode);
                    }
                    processorsForTemplateMode.add(ProcessorConfigurationUtils.wrap((IXMLDeclarationProcessor) dialectProcessor, processorDialect));
                    Collections.sort(processorsForTemplateMode, ProcessorComparators.PROCESSOR_COMPARATOR);
                }
            }
        }
        /*
             * STEP TWO for each dialect: merge execution attributes
             */
        if (dialect instanceof IExecutionAttributeDialect) {
            final Map<String, Object> dialectExecutionAttributes = ((IExecutionAttributeDialect) dialect).getExecutionAttributes();
            if (dialectExecutionAttributes != null) {
                for (final Map.Entry<String, Object> entry : dialectExecutionAttributes.entrySet()) {
                    final String executionAttributeName = entry.getKey();
                    if (executionAttributes.containsKey(executionAttributeName)) {
                        throw new ConfigurationException("Conflicting execution attribute. Two or more dialects specify an execution " + "attribute with the same name \"" + executionAttributeName + "\".");
                    }
                    executionAttributes.put(entry.getKey(), entry.getValue());
                }
            }
        }
        /*
             * STEP THREE for each dialect: aggregate all the expression object factories
             */
        if (dialect instanceof IExpressionObjectDialect) {
            final IExpressionObjectFactory factory = ((IExpressionObjectDialect) dialect).getExpressionObjectFactory();
            if (factory != null) {
                aggregateExpressionObjectFactory.add(factory);
            }
        }
        /*
             * STEP FOUR for each dialect: aggregate pre-processors (and check the correctness of the list)
             */
        if (dialect instanceof IPreProcessorDialect) {
            final Set<IPreProcessor> dialectPreProcessors = ((IPreProcessorDialect) dialect).getPreProcessors();
            if (dialectPreProcessors != null) {
                for (final IPreProcessor preProcessor : dialectPreProcessors) {
                    if (preProcessor == null) {
                        throw new ConfigurationException("Pre-Processor list for dialect " + dialect.getClass().getName() + " includes a " + "null entry, which is forbidden.");
                    }
                    // Obtain and check template mode
                    final TemplateMode templateMode = preProcessor.getTemplateMode();
                    if (templateMode == null) {
                        throw new ConfigurationException("Template mode cannot be null (pre-processor: " + preProcessor.getClass().getName() + ", dialect" + dialect.getClass().getName() + ")");
                    }
                    // Check the handler class: should extend ITemplateHandler and have an empty constructor
                    final Class<?> handlerClass = preProcessor.getHandlerClass();
                    if (handlerClass == null) {
                        throw new ConfigurationException("Pre-Processor " + preProcessor.getClass().getName() + " for dialect " + preProcessor.getClass().getName() + " returns a null handler class, which is forbidden.");
                    }
                    if (!ITemplateHandler.class.isAssignableFrom(handlerClass)) {
                        throw new ConfigurationException("Handler class " + handlerClass.getName() + " specified for " + "pre-processor " + preProcessor.getClass().getName() + " in dialect " + dialect.getClass().getName() + " does not implement required " + "interface " + ITemplateHandler.class.getName());
                    }
                    try {
                        // Check the empty constructor is present -- we will need to use it for creating new instances
                        handlerClass.getConstructor(new Class[0]);
                    } catch (final NoSuchMethodException e) {
                        throw new ConfigurationException("Pre-Processor class " + handlerClass.getName() + " specified for " + "pre-processor " + preProcessor.getClass().getName() + " in dialect " + dialect.getClass().getName() + " does not implement required " + "zero-argument constructor.", e);
                    }
                    // Add the pre-processor to its corresponding map and sort
                    List<IPreProcessor> preProcessorsForTemplateMode = preProcessorListsByTemplateMode.get(templateMode);
                    if (preProcessorsForTemplateMode == null) {
                        preProcessorsForTemplateMode = new ArrayList<IPreProcessor>(5);
                        preProcessorListsByTemplateMode.put(templateMode, preProcessorsForTemplateMode);
                    }
                    preProcessorsForTemplateMode.add(preProcessor);
                    Collections.sort(preProcessorsForTemplateMode, ProcessorComparators.PRE_PROCESSOR_COMPARATOR);
                }
            }
        }
        /*
             * STEP FIVE for each dialect: aggregate post-processors (and check the correctness of the list)
             */
        if (dialect instanceof IPostProcessorDialect) {
            final Set<IPostProcessor> dialectPostProcessors = ((IPostProcessorDialect) dialect).getPostProcessors();
            if (dialectPostProcessors != null) {
                for (final IPostProcessor postProcessor : dialectPostProcessors) {
                    if (postProcessor == null) {
                        throw new ConfigurationException("Post-Processor list for dialect " + dialect.getClass().getName() + " includes a " + "null entry, which is forbidden.");
                    }
                    // Obtain and check template mode
                    final TemplateMode templateMode = postProcessor.getTemplateMode();
                    if (templateMode == null) {
                        throw new ConfigurationException("Template mode cannot be null (post-processor: " + postProcessor.getClass().getName() + ", dialect" + dialect.getClass().getName() + ")");
                    }
                    // Check the handler class: should extend ITemplateHandler and have an empty constructor
                    final Class<?> handlerClass = postProcessor.getHandlerClass();
                    if (handlerClass == null) {
                        throw new ConfigurationException("Post-Processor " + postProcessor.getClass().getName() + " for dialect " + postProcessor.getClass().getName() + " returns a null handler class, which is forbidden.");
                    }
                    if (!ITemplateHandler.class.isAssignableFrom(handlerClass)) {
                        throw new ConfigurationException("Handler class " + handlerClass.getName() + " specified for " + "post-processor " + postProcessor.getClass().getName() + " in dialect " + dialect.getClass().getName() + " does not implement required " + "interface " + ITemplateHandler.class.getName());
                    }
                    try {
                        // Check the empty constructor is present -- we will need to use it for creating new instances
                        handlerClass.getConstructor(new Class[0]);
                    } catch (final NoSuchMethodException e) {
                        throw new ConfigurationException("Post-Processor class " + handlerClass.getName() + " specified for " + "post-processor " + postProcessor.getClass().getName() + " in dialect " + dialect.getClass().getName() + " does not implement required " + "zero-argument constructor.", e);
                    }
                    // Add the pre-processor to its corresponding map and sort
                    List<IPostProcessor> postProcessorsForTemplateMode = postProcessorListsByTemplateMode.get(templateMode);
                    if (postProcessorsForTemplateMode == null) {
                        postProcessorsForTemplateMode = new ArrayList<IPostProcessor>(5);
                        postProcessorListsByTemplateMode.put(templateMode, postProcessorsForTemplateMode);
                    }
                    postProcessorsForTemplateMode.add(postProcessor);
                    Collections.sort(postProcessorsForTemplateMode, ProcessorComparators.POST_PROCESSOR_COMPARATOR);
                }
            }
        }
        /*
             * LAST STEP for each dialect: add it to the dialects set
             */
        dialects.add(dialect);
    }
    // Time to turn the list-based structures into sets -- we needed the lists because we needed a way to order them using Collections.sort()
    final EnumMap<TemplateMode, Set<ITemplateBoundariesProcessor>> templateBoundariesProcessorsByTemplateMode = listMapToSetMap(templateBoundariesProcessorListsByTemplateMode);
    final EnumMap<TemplateMode, Set<ICDATASectionProcessor>> cdataSectionProcessorsByTemplateMode = listMapToSetMap(cdataSectionProcessorListsByTemplateMode);
    final EnumMap<TemplateMode, Set<ICommentProcessor>> commentProcessorsByTemplateMode = listMapToSetMap(commentProcessorListsByTemplateMode);
    final EnumMap<TemplateMode, Set<IDocTypeProcessor>> docTypeProcessorsByTemplateMode = listMapToSetMap(docTypeProcessorListsByTemplateMode);
    final EnumMap<TemplateMode, Set<IElementProcessor>> elementProcessorsByTemplateMode = listMapToSetMap(elementProcessorListsByTemplateMode);
    final EnumMap<TemplateMode, Set<IProcessingInstructionProcessor>> processingInstructionProcessorsByTemplateMode = listMapToSetMap(processingInstructionProcessorListsByTemplateMode);
    final EnumMap<TemplateMode, Set<ITextProcessor>> textProcessorsByTemplateMode = listMapToSetMap(textProcessorListsByTemplateMode);
    final EnumMap<TemplateMode, Set<IXMLDeclarationProcessor>> xmlDeclarationProcessorsByTemplateMode = listMapToSetMap(xmlDeclarationProcessorListsByTemplateMode);
    final EnumMap<TemplateMode, Set<IPreProcessor>> preProcessorsByTemplateMode = listMapToSetMap(preProcessorListsByTemplateMode);
    final EnumMap<TemplateMode, Set<IPostProcessor>> postProcessorsByTemplateMode = listMapToSetMap(postProcessorListsByTemplateMode);
    // Initialize the ElementDefinitions and AttributeDefinitions structures -- they need the element processors so that these
    // are directly applied to the element/attribute definitions and therefore per element/attribute matching is not required
    // during template processing.
    final ElementDefinitions elementDefinitions = new ElementDefinitions(elementProcessorsByTemplateMode);
    final AttributeDefinitions attributeDefinitions = new AttributeDefinitions(elementProcessorsByTemplateMode);
    // Traverse the sets of processors in order to set the AttributeDefinitions and/or ElementDefinitions objects
    // to those that need them in order to initialize and cache attribute/element definition-related structures
    initializeDefinitionsForProcessors(templateBoundariesProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    initializeDefinitionsForProcessors(cdataSectionProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    initializeDefinitionsForProcessors(commentProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    initializeDefinitionsForProcessors(docTypeProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    initializeDefinitionsForProcessors(elementProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    initializeDefinitionsForProcessors(processingInstructionProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    initializeDefinitionsForProcessors(textProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    initializeDefinitionsForProcessors(xmlDeclarationProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    initializeDefinitionsForPreProcessors(preProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    initializeDefinitionsForPostProcessors(postProcessorsByTemplateMode, elementDefinitions, attributeDefinitions);
    return new DialectSetConfiguration(new LinkedHashSet<DialectConfiguration>(dialectConfigurations), dialects, standardDialectPresent, standardDialectPrefix, executionAttributes, aggregateExpressionObjectFactory, elementDefinitions, attributeDefinitions, templateBoundariesProcessorsByTemplateMode, cdataSectionProcessorsByTemplateMode, commentProcessorsByTemplateMode, docTypeProcessorsByTemplateMode, elementProcessorsByTemplateMode, processingInstructionProcessorsByTemplateMode, textProcessorsByTemplateMode, xmlDeclarationProcessorsByTemplateMode, preProcessorsByTemplateMode, postProcessorsByTemplateMode);
}
Also used : LinkedHashSet(java.util.LinkedHashSet) IExecutionAttributeDialect(org.thymeleaf.dialect.IExecutionAttributeDialect) IExpressionObjectFactory(org.thymeleaf.expression.IExpressionObjectFactory) ITemplateBoundariesProcessor(org.thymeleaf.processor.templateboundaries.ITemplateBoundariesProcessor) ArrayList(java.util.ArrayList) IDialect(org.thymeleaf.dialect.IDialect) IPostProcessorDialect(org.thymeleaf.dialect.IPostProcessorDialect) LinkedHashMap(java.util.LinkedHashMap) ICommentProcessor(org.thymeleaf.processor.comment.ICommentProcessor) ConfigurationException(org.thymeleaf.exceptions.ConfigurationException) ArrayList(java.util.ArrayList) List(java.util.List) EnumMap(java.util.EnumMap) StandardDialect(org.thymeleaf.standard.StandardDialect) ITemplateHandler(org.thymeleaf.engine.ITemplateHandler) IProcessorDialect(org.thymeleaf.dialect.IProcessorDialect) IElementProcessor(org.thymeleaf.processor.element.IElementProcessor) LinkedHashMap(java.util.LinkedHashMap) Map(java.util.Map) EnumMap(java.util.EnumMap) ICDATASectionProcessor(org.thymeleaf.processor.cdatasection.ICDATASectionProcessor) TemplateMode(org.thymeleaf.templatemode.TemplateMode) LinkedHashSet(java.util.LinkedHashSet) Set(java.util.Set) ElementDefinitions(org.thymeleaf.engine.ElementDefinitions) IDocTypeProcessor(org.thymeleaf.processor.doctype.IDocTypeProcessor) IPreProcessorDialect(org.thymeleaf.dialect.IPreProcessorDialect) AttributeDefinitions(org.thymeleaf.engine.AttributeDefinitions) ITextProcessor(org.thymeleaf.processor.text.ITextProcessor) IPostProcessor(org.thymeleaf.postprocessor.IPostProcessor) IProcessingInstructionProcessor(org.thymeleaf.processor.processinginstruction.IProcessingInstructionProcessor) IProcessor(org.thymeleaf.processor.IProcessor) IExpressionObjectDialect(org.thymeleaf.dialect.IExpressionObjectDialect) IXMLDeclarationProcessor(org.thymeleaf.processor.xmldeclaration.IXMLDeclarationProcessor) IPreProcessor(org.thymeleaf.preprocessor.IPreProcessor)

Aggregations

Map (java.util.Map)2 IExecutionAttributeDialect (org.thymeleaf.dialect.IExecutionAttributeDialect)2 IExpressionObjectDialect (org.thymeleaf.dialect.IExpressionObjectDialect)2 IPostProcessorDialect (org.thymeleaf.dialect.IPostProcessorDialect)2 IPreProcessorDialect (org.thymeleaf.dialect.IPreProcessorDialect)2 IProcessorDialect (org.thymeleaf.dialect.IProcessorDialect)2 IExpressionObjectFactory (org.thymeleaf.expression.IExpressionObjectFactory)2 IPostProcessor (org.thymeleaf.postprocessor.IPostProcessor)2 IPreProcessor (org.thymeleaf.preprocessor.IPreProcessor)2 IProcessor (org.thymeleaf.processor.IProcessor)2 ArrayList (java.util.ArrayList)1 EnumMap (java.util.EnumMap)1 LinkedHashMap (java.util.LinkedHashMap)1 LinkedHashSet (java.util.LinkedHashSet)1 List (java.util.List)1 Set (java.util.Set)1 IDialect (org.thymeleaf.dialect.IDialect)1 AttributeDefinitions (org.thymeleaf.engine.AttributeDefinitions)1 ElementDefinitions (org.thymeleaf.engine.ElementDefinitions)1 ITemplateHandler (org.thymeleaf.engine.ITemplateHandler)1