Class ReflectiveMethodResolver

java.lang.Object
org.springframework.expression.spel.support.ReflectiveMethodResolver
All Implemented Interfaces:
MethodResolver
Direct Known Subclasses:
DataBindingMethodResolver

public class ReflectiveMethodResolver extends Object implements MethodResolver
Reflection-based MethodResolver used by default in StandardEvaluationContext unless explicit method resolvers have been specified.
Since:
3.0
Author:
Andy Clement, Juergen Hoeller, Chris Beams, Sam Brannen
See Also:
  • Constructor Details

    • ReflectiveMethodResolver

      public ReflectiveMethodResolver()
    • ReflectiveMethodResolver

      public ReflectiveMethodResolver(boolean useDistance)
      This constructor allows the ReflectiveMethodResolver to be configured such that it will use a distance computation to check which is the better of two close matches (when there are multiple matches). Using the distance computation is intended to ensure matches are more closely representative of what a Java compiler would do when taking into account boxing/unboxing and whether the method candidates are declared to handle a supertype of the type (of the argument) being passed in.
      Parameters:
      useDistance - true if distance computation should be used when calculating matches; false otherwise
  • Method Details

    • registerMethodFilter

      public void registerMethodFilter(Class<?> type, @Nullable MethodFilter filter)
      Register a filter for methods on the given type.
      Parameters:
      type - the type to filter on
      filter - the corresponding method filter, or null to clear any filter for the given type
    • resolve

      @Nullable public MethodExecutor resolve(EvaluationContext context, Object targetObject, String name, List<TypeDescriptor> argumentTypes) throws AccessException
      Locate a method on the type.

      There are three kinds of matches that might occur:

      1. An exact match where the types of the arguments match the types of the method.
      2. An inexact match where the types we are looking for are subtypes of those defined on the method.
      3. A match where we are able to convert the arguments into those expected by the method, according to the registered type converter.
      Specified by:
      resolve in interface MethodResolver
      Parameters:
      context - the current evaluation context
      targetObject - the object upon which the method is being called
      name - the name of the method
      argumentTypes - the types of arguments that the method must be able to handle
      Returns:
      a MethodExecutor that can invoke the method, or null if the method cannot be found
      Throws:
      AccessException
    • getMethods

      protected Method[] getMethods(Class<?> type)
      Return the set of methods for this type. The default implementation returns the result of Class.getMethods() for the given type, but subclasses may override in order to alter the results, for example, specifying static methods declared elsewhere.
      Parameters:
      type - the class for which to return the methods
      Since:
      3.1.1
    • isCandidateForInvocation

      protected boolean isCandidateForInvocation(Method method, Class<?> targetClass)
      Determine whether the given Method is a candidate for method resolution on an instance of the given target class.

      The default implementation considers any method as a candidate, even for static methods and non-user-declared methods on the Object base class.

      Parameters:
      method - the Method to evaluate
      targetClass - the concrete target class that is being introspected
      Since:
      4.3.15