user/src/com/google/web/bindery/requestfactory/apt/DomainChecker.java - gwt - Git at Google

 /*
  * Copyright 2011 Google Inc.
  *
  * Licensed under the Apache License, Version 2.0 (the "License"); you may not
  * use this file except in compliance with the License. You may obtain a copy of
  * the License at
  *
  * http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
  * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
  * License for the specific language governing permissions and limitations under
  * the License.
  */
 package com.google.web.bindery.requestfactory.apt;

 import com.google.web.bindery.requestfactory.apt.ClientToDomainMapper.UnmappedTypeException;
 import com.google.web.bindery.requestfactory.shared.ProxyFor;
 import com.google.web.bindery.requestfactory.shared.ProxyForName;
 import com.google.web.bindery.requestfactory.shared.Service;
 import com.google.web.bindery.requestfactory.shared.ServiceName;

 import java.util.ArrayList;
 import java.util.Collections;
 import java.util.Iterator;
 import java.util.List;

 import javax.lang.model.element.ExecutableElement;
 import javax.lang.model.element.Modifier;
 import javax.lang.model.element.Name;
 import javax.lang.model.element.TypeElement;
 import javax.lang.model.type.ExecutableType;
 import javax.lang.model.type.MirroredTypeException;
 import javax.lang.model.type.TypeKind;
 import javax.lang.model.type.TypeMirror;
 import javax.lang.model.util.ElementFilter;

 /**
  * Checks client to domain mappings.
  */
 class DomainChecker extends ScannerBase<Void> {

   /**
    * Attempt to find the most specific method that conforms to a given
    * signature.
    */
   static class MethodFinder extends ScannerBase<ExecutableElement> {
     private TypeElement domainType;
     private ExecutableElement found;
     private final boolean boxReturnType;
     private final CharSequence name;
     private final TypeMirror returnType;
     private final List<TypeMirror> params;

     public MethodFinder(CharSequence name, TypeMirror returnType, List<TypeMirror> params,
         boolean boxReturnType, State state) {
       this.boxReturnType = boxReturnType;
       this.name = name;
       this.returnType = TypeSimplifier.simplify(returnType, boxReturnType, state);
       List<TypeMirror> temp = new ArrayList<TypeMirror>(params.size());
       for (TypeMirror param : params) {
         temp.add(TypeSimplifier.simplify(param, false, state));
       }
       this.params = Collections.unmodifiableList(temp);
     }

     @Override
     public ExecutableElement visitExecutable(ExecutableElement domainMethodElement, State state) {
       // Quick check for name, paramer count, and return type assignability
       if (domainMethodElement.getSimpleName().contentEquals(name)
           && domainMethodElement.getParameters().size() == params.size()) {
         // Pick up parameterizations in domain type
         ExecutableType domainMethod = viewIn(domainType, domainMethodElement, state);

         boolean returnTypeMatches;
         if (returnType == null) {
           /*
            * This condition is for methods that we don't really care about the
            * domain return types (for getId(), getVersion()).
            */
           returnTypeMatches = true;
         } else {
           TypeMirror domainReturn =
               TypeSimplifier.simplify(domainMethod.getReturnType(), boxReturnType, state);
           // The isSameType handles the NONE case.
           returnTypeMatches = state.types.isSubtype(domainReturn, returnType);
         }
         if (returnTypeMatches) {
           boolean paramsMatch = true;
           Iterator<TypeMirror> lookFor = params.iterator();
           Iterator<? extends TypeMirror> domainParam = domainMethod.getParameterTypes().iterator();
           while (lookFor.hasNext()) {
             assert domainParam.hasNext();
             TypeMirror requestedType = lookFor.next();
             TypeMirror paramType = TypeSimplifier.simplify(domainParam.next(), false, state);
             if (!state.types.isSubtype(requestedType, paramType)) {
               paramsMatch = false;
             }
           }

           if (paramsMatch) {
             // Keep most-specific method signature
             if (found == null
                 || state.types.isSubsignature(domainMethod, (ExecutableType) found.asType())) {
               found = domainMethodElement;
             }
           }
         }
       }

       return found;
     }

     @Override
     public ExecutableElement visitType(TypeElement domainType, State state) {
       this.domainType = domainType;
       return scanAllInheritedMethods(domainType, state);
     }
   }

   /**
    * This is used as the target for errors since generic methods show up as
    * synthetic elements that don't correspond to any source.
    */
   private TypeElement checkedElement;
   private boolean currentTypeIsProxy;
   private TypeElement domainElement;
   private boolean requireInstanceDomainMethods;
   private boolean requireStaticDomainMethods;

   @Override
   public Void visitExecutable(ExecutableElement clientMethodElement, State state) {
     if (shouldIgnore(clientMethodElement, state)) {
       return null;
     }
     // Ignore overrides of stableId() in proxies
     Name name = clientMethodElement.getSimpleName();
     if (currentTypeIsProxy && name.contentEquals("stableId")
         && clientMethodElement.getParameters().isEmpty()) {
       return null;
     }

     ExecutableType clientMethod = viewIn(checkedElement, clientMethodElement, state);
     List<TypeMirror> lookFor = new ArrayList<TypeMirror>();
     // Convert client method signature to domain types
     TypeMirror returnType;
     try {
       returnType = convertToDomainTypes(clientMethod, lookFor, clientMethodElement, state);
     } catch (UnmappedTypeException e) {
       /*
        * Unusual: this would happen if a RequestContext for which we have a
        * resolved domain service method uses unresolved proxy types. For
        * example, the RequestContext uses a @Service annotation, while one or
        * more proxy types use @ProxyForName("") and specify a domain type not
        * available to the compiler.
        */
       return null;
     }

     ExecutableElement domainMethod;
     if (currentTypeIsProxy && isSetter(clientMethodElement, state)) {
       // Look for void setFoo(...)
       domainMethod =
           new MethodFinder(name, state.types.getNoType(TypeKind.VOID), lookFor, false, state).scan(
               domainElement, state);
       if (domainMethod == null) {
         // Try a builder style
         domainMethod =
             new MethodFinder(name, domainElement.asType(), lookFor, false, state).scan(
                 domainElement, state);
       }
     } else {
       /*
        * The usual case for getters and all service methods. Only box return
        * types when matching context methods since there's a significant
        * semantic difference between a null Integer and 0.
        */
       domainMethod =
           new MethodFinder(name, returnType, lookFor, !currentTypeIsProxy, state).scan(
               domainElement, state);
     }

     if (domainMethod == null) {
       // Did not find a service method
       StringBuilder sb = new StringBuilder();
       sb.append(returnType).append(" ").append(name).append("(");
       for (TypeMirror param : lookFor) {
         sb.append(param);
       }
       sb.append(")");

       state.poison(clientMethodElement, Messages.domainMissingMethod(sb));
       return null;
     }

      /*
      * Check the domain method for any requirements for it to be static.
      * InstanceRequests assume instance methods on the domain type.
      */
     boolean isInstanceRequest =
         state.types.isSubtype(clientMethod.getReturnType(), state.instanceRequestType);

     if ((isInstanceRequest || requireInstanceDomainMethods)
         && domainMethod.getModifiers().contains(Modifier.STATIC)) {
       state.poison(checkedElement, Messages.domainMethodWrongModifier(false, domainMethod
           .getSimpleName()));
     }
     if (!isInstanceRequest && requireStaticDomainMethods
         && !domainMethod.getModifiers().contains(Modifier.STATIC)) {
       state.poison(checkedElement, Messages.domainMethodWrongModifier(true, domainMethod
           .getSimpleName()));
     }

     // Record the mapping
     state.addMapping(clientMethodElement, domainMethod);
     return null;
   }

   @Override
   public Void visitType(TypeElement clientTypeElement, State state) {
     TypeMirror clientType = clientTypeElement.asType();
     checkedElement = clientTypeElement;
     boolean isEntityProxy = state.types.isSubtype(clientType, state.entityProxyType);
     currentTypeIsProxy = isEntityProxy || state.types.isSubtype(clientType, state.valueProxyType);
     domainElement = (TypeElement) state.getClientToDomainMap().get(clientTypeElement);
     if (domainElement == null) {
       // A proxy with an unresolved domain type (e.g. ProxyForName(""))
       return null;
     }

     requireInstanceDomainMethods = false;
     requireStaticDomainMethods = false;

     if (currentTypeIsProxy) {
       // Require domain property methods to be instance methods
       requireInstanceDomainMethods = true;
       if (!hasProxyLocator(clientTypeElement, state)) {
         // Domain types without a Locator should have a no-arg constructor
         if (!hasNoArgConstructor(domainElement)) {
           state.warn(clientTypeElement, Messages.domainNoDefaultConstructor(domainElement
               .getSimpleName(), clientTypeElement.getSimpleName(), state.requestContextType
               .asElement().getSimpleName()));
         }

         /*
          * Check for getId(), getVersion(), and findFoo() for any type that
          * extends EntityProxy, but not on EntityProxy itself, since EntityProxy
          * is mapped to java.lang.Object.
          */
         if (isEntityProxy && !state.types.isSameType(clientType, state.entityProxyType)) {
           checkDomainEntityMethods(state);
         }
       }
     } else if (!hasServiceLocator(clientTypeElement, state)) {
       /*
        * Otherwise, we're looking at a RequestContext. If it doesn't have a
        * ServiceLocator, all methods must be static.
        */
       requireStaticDomainMethods = true;
     }

     scanAllInheritedMethods(clientTypeElement, state);
     return null;
   }

   /**
    * Check that {@code getId()} and {@code getVersion()} exist and that they are
    * non-static. Check that {@code findFoo()} exists, is static, returns an
    * appropriate type, and its parameter is assignable from the return value
    * from {@code getId()}.
    */
   private void checkDomainEntityMethods(State state) {
     ExecutableElement getId =
         new MethodFinder("getId", null, Collections.<TypeMirror> emptyList(), false, state).scan(
             domainElement, state);
     if (getId == null) {
       state.poison(checkedElement, Messages.domainNoGetId(domainElement.asType()));
     } else {
       if (getId.getModifiers().contains(Modifier.STATIC)) {
         state.poison(checkedElement, Messages.domainGetIdStatic());
       }

       // Can only check findFoo() if we have a getId
       ExecutableElement find =
           new MethodFinder("find" + domainElement.getSimpleName(), domainElement.asType(),
               Collections.singletonList(getId.getReturnType()), false, state).scan(domainElement,
               state);
       if (find == null) {
         state.warn(checkedElement, Messages.domainMissingFind(domainElement.asType(), domainElement
             .getSimpleName(), getId.getReturnType(), checkedElement.getSimpleName()));
       } else if (!find.getModifiers().contains(Modifier.STATIC)) {
         state.poison(checkedElement, Messages.domainFindNotStatic(domainElement.getSimpleName()));
       }
     }

     ExecutableElement getVersion =
         new MethodFinder("getVersion", null, Collections.<TypeMirror> emptyList(), false, state)
             .scan(domainElement, state);
     if (getVersion == null) {
       state.poison(checkedElement, Messages.domainNoGetVersion(domainElement.asType()));
     } else if (getVersion.getModifiers().contains(Modifier.STATIC)) {
       state.poison(checkedElement, Messages.domainGetVersionStatic());
     }
   }

   /**
    * Converts a client method's types to their domain counterparts.
    *
    * @param clientMethod the RequestContext method to validate
    * @param parameterAccumulator an out parameter that will be populated with
    *          the converted paramater types
    * @param warnTo The element to which warnings should be posted if one or more
    *          client types cannot be converted to domain types for validation
    * @param state the State object
    * @throws UnmappedTypeException if one or more types used in
    *           {@code clientMethod} cannot be resolved to domain types
    */
   private TypeMirror convertToDomainTypes(ExecutableType clientMethod,
       List<TypeMirror> parameterAccumulator, ExecutableElement warnTo, State state)
       throws UnmappedTypeException {
     boolean error = false;
     TypeMirror returnType;
     try {
       returnType = clientMethod.getReturnType().accept(new ClientToDomainMapper(), state);
     } catch (UnmappedTypeException e) {
       error = true;
       returnType = null;
       state.warn(warnTo, Messages.methodNoDomainPeer(e.getClientType(), false));
     }
     for (TypeMirror param : clientMethod.getParameterTypes()) {
       try {
         parameterAccumulator.add(param.accept(new ClientToDomainMapper(), state));
       } catch (UnmappedTypeException e) {
         parameterAccumulator.add(null);
         error = true;
         state.warn(warnTo, Messages.methodNoDomainPeer(e.getClientType(), true));
       }
     }
     if (error) {
       throw new UnmappedTypeException();
     }
     return returnType;
   }

   /**
    * Looks for a no-arg constructor or no constructors at all. Instance
    * initializers are ignored.
    */
   private boolean hasNoArgConstructor(TypeElement x) {
     List<ExecutableElement> constructors = ElementFilter.constructorsIn(x.getEnclosedElements());
     if (constructors.isEmpty()) {
       return true;
     }
     for (ExecutableElement constructor : constructors) {
       if (constructor.getParameters().isEmpty()) {
         return true;
       }
     }
     return false;
   }

   private boolean hasProxyLocator(TypeElement x, State state) {
     ProxyFor proxyFor = x.getAnnotation(ProxyFor.class);
     if (proxyFor != null) {
       // See javadoc on getAnnotation
       try {
         proxyFor.locator();
         throw new RuntimeException("Should not reach here");
       } catch (MirroredTypeException expected) {
         TypeMirror locatorType = expected.getTypeMirror();
         return !state.types.asElement(locatorType).equals(state.locatorType.asElement());
       }
     }
     ProxyForName proxyForName = x.getAnnotation(ProxyForName.class);
     return proxyForName != null && !proxyForName.locator().isEmpty();
   }

   private boolean hasServiceLocator(TypeElement x, State state) {
     Service service = x.getAnnotation(Service.class);
     if (service != null) {
       // See javadoc on getAnnotation
       try {
         service.locator();
         throw new RuntimeException("Should not reach here");
       } catch (MirroredTypeException expected) {
         TypeMirror locatorType = expected.getTypeMirror();
         return !state.types.asElement(locatorType).equals(state.serviceLocatorType.asElement());
       }
     }
     ServiceName serviceName = x.getAnnotation(ServiceName.class);
     return serviceName != null && !serviceName.locator().isEmpty();
   }
 }
	/*
	* Copyright 2011 Google Inc.
	*
	* Licensed under the Apache License, Version 2.0 (the "License"); you may not
	* use this file except in compliance with the License. You may obtain a copy of
	* the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
	* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
	* License for the specific language governing permissions and limitations under
	* the License.
	*/
	package com.google.web.bindery.requestfactory.apt;

	import com.google.web.bindery.requestfactory.apt.ClientToDomainMapper.UnmappedTypeException;
	import com.google.web.bindery.requestfactory.shared.ProxyFor;
	import com.google.web.bindery.requestfactory.shared.ProxyForName;
	import com.google.web.bindery.requestfactory.shared.Service;
	import com.google.web.bindery.requestfactory.shared.ServiceName;

	import java.util.ArrayList;
	import java.util.Collections;
	import java.util.Iterator;
	import java.util.List;

	import javax.lang.model.element.ExecutableElement;
	import javax.lang.model.element.Modifier;
	import javax.lang.model.element.Name;
	import javax.lang.model.element.TypeElement;
	import javax.lang.model.type.ExecutableType;
	import javax.lang.model.type.MirroredTypeException;
	import javax.lang.model.type.TypeKind;
	import javax.lang.model.type.TypeMirror;
	import javax.lang.model.util.ElementFilter;

	/**
	* Checks client to domain mappings.
	*/
	class DomainChecker extends ScannerBase<Void> {

	/**
	* Attempt to find the most specific method that conforms to a given
	* signature.
	*/
	static class MethodFinder extends ScannerBase<ExecutableElement> {
	private TypeElement domainType;
	private ExecutableElement found;
	private final boolean boxReturnType;
	private final CharSequence name;
	private final TypeMirror returnType;
	private final List<TypeMirror> params;

	public MethodFinder(CharSequence name, TypeMirror returnType, List<TypeMirror> params,
	boolean boxReturnType, State state) {
	this.boxReturnType = boxReturnType;
	this.name = name;
	this.returnType = TypeSimplifier.simplify(returnType, boxReturnType, state);
	List<TypeMirror> temp = new ArrayList<TypeMirror>(params.size());
	for (TypeMirror param : params) {
	temp.add(TypeSimplifier.simplify(param, false, state));
	}
	this.params = Collections.unmodifiableList(temp);
	}

	@Override
	public ExecutableElement visitExecutable(ExecutableElement domainMethodElement, State state) {
	// Quick check for name, paramer count, and return type assignability
	if (domainMethodElement.getSimpleName().contentEquals(name)
	&& domainMethodElement.getParameters().size() == params.size()) {
	// Pick up parameterizations in domain type
	ExecutableType domainMethod = viewIn(domainType, domainMethodElement, state);

	boolean returnTypeMatches;
	if (returnType == null) {
	/*
	* This condition is for methods that we don't really care about the
	* domain return types (for getId(), getVersion()).
	*/
	returnTypeMatches = true;
	} else {
	TypeMirror domainReturn =
	TypeSimplifier.simplify(domainMethod.getReturnType(), boxReturnType, state);
	// The isSameType handles the NONE case.
	returnTypeMatches = state.types.isSubtype(domainReturn, returnType);
	}
	if (returnTypeMatches) {
	boolean paramsMatch = true;
	Iterator<TypeMirror> lookFor = params.iterator();
	Iterator<? extends TypeMirror> domainParam = domainMethod.getParameterTypes().iterator();
	while (lookFor.hasNext()) {
	assert domainParam.hasNext();
	TypeMirror requestedType = lookFor.next();
	TypeMirror paramType = TypeSimplifier.simplify(domainParam.next(), false, state);
	if (!state.types.isSubtype(requestedType, paramType)) {
	paramsMatch = false;
	}
	}

	if (paramsMatch) {
	// Keep most-specific method signature
	if (found == null
	\|\| state.types.isSubsignature(domainMethod, (ExecutableType) found.asType())) {
	found = domainMethodElement;
	}
	}
	}
	}

	return found;
	}

	@Override
	public ExecutableElement visitType(TypeElement domainType, State state) {
	this.domainType = domainType;
	return scanAllInheritedMethods(domainType, state);
	}
	}

	/**
	* This is used as the target for errors since generic methods show up as
	* synthetic elements that don't correspond to any source.
	*/
	private TypeElement checkedElement;
	private boolean currentTypeIsProxy;
	private TypeElement domainElement;
	private boolean requireInstanceDomainMethods;
	private boolean requireStaticDomainMethods;

	@Override
	public Void visitExecutable(ExecutableElement clientMethodElement, State state) {
	if (shouldIgnore(clientMethodElement, state)) {
	return null;
	}
	// Ignore overrides of stableId() in proxies
	Name name = clientMethodElement.getSimpleName();
	if (currentTypeIsProxy && name.contentEquals("stableId")
	&& clientMethodElement.getParameters().isEmpty()) {
	return null;
	}

	ExecutableType clientMethod = viewIn(checkedElement, clientMethodElement, state);
	List<TypeMirror> lookFor = new ArrayList<TypeMirror>();
	// Convert client method signature to domain types
	TypeMirror returnType;
	try {
	returnType = convertToDomainTypes(clientMethod, lookFor, clientMethodElement, state);
	} catch (UnmappedTypeException e) {
	/*
	* Unusual: this would happen if a RequestContext for which we have a
	* resolved domain service method uses unresolved proxy types. For
	* example, the RequestContext uses a @Service annotation, while one or
	* more proxy types use @ProxyForName("") and specify a domain type not
	* available to the compiler.
	*/
	return null;
	}

	ExecutableElement domainMethod;
	if (currentTypeIsProxy && isSetter(clientMethodElement, state)) {
	// Look for void setFoo(...)
	domainMethod =
	new MethodFinder(name, state.types.getNoType(TypeKind.VOID), lookFor, false, state).scan(
	domainElement, state);
	if (domainMethod == null) {
	// Try a builder style
	domainMethod =
	new MethodFinder(name, domainElement.asType(), lookFor, false, state).scan(
	domainElement, state);
	}
	} else {
	/*
	* The usual case for getters and all service methods. Only box return
	* types when matching context methods since there's a significant
	* semantic difference between a null Integer and 0.
	*/
	domainMethod =
	new MethodFinder(name, returnType, lookFor, !currentTypeIsProxy, state).scan(
	domainElement, state);
	}

	if (domainMethod == null) {
	// Did not find a service method
	StringBuilder sb = new StringBuilder();
	sb.append(returnType).append(" ").append(name).append("(");
	for (TypeMirror param : lookFor) {
	sb.append(param);
	}
	sb.append(")");

	state.poison(clientMethodElement, Messages.domainMissingMethod(sb));
	return null;
	}

	/*
	* Check the domain method for any requirements for it to be static.
	* InstanceRequests assume instance methods on the domain type.
	*/
	boolean isInstanceRequest =
	state.types.isSubtype(clientMethod.getReturnType(), state.instanceRequestType);

	if ((isInstanceRequest \|\| requireInstanceDomainMethods)
	&& domainMethod.getModifiers().contains(Modifier.STATIC)) {
	state.poison(checkedElement, Messages.domainMethodWrongModifier(false, domainMethod
	.getSimpleName()));
	}
	if (!isInstanceRequest && requireStaticDomainMethods
	&& !domainMethod.getModifiers().contains(Modifier.STATIC)) {
	state.poison(checkedElement, Messages.domainMethodWrongModifier(true, domainMethod
	.getSimpleName()));
	}

	// Record the mapping
	state.addMapping(clientMethodElement, domainMethod);
	return null;
	}

	@Override
	public Void visitType(TypeElement clientTypeElement, State state) {
	TypeMirror clientType = clientTypeElement.asType();
	checkedElement = clientTypeElement;
	boolean isEntityProxy = state.types.isSubtype(clientType, state.entityProxyType);
	currentTypeIsProxy = isEntityProxy \|\| state.types.isSubtype(clientType, state.valueProxyType);
	domainElement = (TypeElement) state.getClientToDomainMap().get(clientTypeElement);
	if (domainElement == null) {
	// A proxy with an unresolved domain type (e.g. ProxyForName(""))
	return null;
	}

	requireInstanceDomainMethods = false;
	requireStaticDomainMethods = false;

	if (currentTypeIsProxy) {
	// Require domain property methods to be instance methods
	requireInstanceDomainMethods = true;
	if (!hasProxyLocator(clientTypeElement, state)) {
	// Domain types without a Locator should have a no-arg constructor
	if (!hasNoArgConstructor(domainElement)) {
	state.warn(clientTypeElement, Messages.domainNoDefaultConstructor(domainElement
	.getSimpleName(), clientTypeElement.getSimpleName(), state.requestContextType
	.asElement().getSimpleName()));
	}

	/*
	* Check for getId(), getVersion(), and findFoo() for any type that
	* extends EntityProxy, but not on EntityProxy itself, since EntityProxy
	* is mapped to java.lang.Object.
	*/
	if (isEntityProxy && !state.types.isSameType(clientType, state.entityProxyType)) {
	checkDomainEntityMethods(state);
	}
	}
	} else if (!hasServiceLocator(clientTypeElement, state)) {
	/*
	* Otherwise, we're looking at a RequestContext. If it doesn't have a
	* ServiceLocator, all methods must be static.
	*/
	requireStaticDomainMethods = true;
	}

	scanAllInheritedMethods(clientTypeElement, state);
	return null;
	}

	/**
	* Check that {@code getId()} and {@code getVersion()} exist and that they are
	* non-static. Check that {@code findFoo()} exists, is static, returns an
	* appropriate type, and its parameter is assignable from the return value
	* from {@code getId()}.
	*/
	private void checkDomainEntityMethods(State state) {
	ExecutableElement getId =
	new MethodFinder("getId", null, Collections.<TypeMirror> emptyList(), false, state).scan(
	domainElement, state);
	if (getId == null) {
	state.poison(checkedElement, Messages.domainNoGetId(domainElement.asType()));
	} else {
	if (getId.getModifiers().contains(Modifier.STATIC)) {
	state.poison(checkedElement, Messages.domainGetIdStatic());
	}

	// Can only check findFoo() if we have a getId
	ExecutableElement find =
	new MethodFinder("find" + domainElement.getSimpleName(), domainElement.asType(),
	Collections.singletonList(getId.getReturnType()), false, state).scan(domainElement,
	state);
	if (find == null) {
	state.warn(checkedElement, Messages.domainMissingFind(domainElement.asType(), domainElement
	.getSimpleName(), getId.getReturnType(), checkedElement.getSimpleName()));
	} else if (!find.getModifiers().contains(Modifier.STATIC)) {
	state.poison(checkedElement, Messages.domainFindNotStatic(domainElement.getSimpleName()));
	}
	}

	ExecutableElement getVersion =
	new MethodFinder("getVersion", null, Collections.<TypeMirror> emptyList(), false, state)
	.scan(domainElement, state);
	if (getVersion == null) {
	state.poison(checkedElement, Messages.domainNoGetVersion(domainElement.asType()));
	} else if (getVersion.getModifiers().contains(Modifier.STATIC)) {
	state.poison(checkedElement, Messages.domainGetVersionStatic());
	}
	}

	/**
	* Converts a client method's types to their domain counterparts.
	*
	* @param clientMethod the RequestContext method to validate
	* @param parameterAccumulator an out parameter that will be populated with
	* the converted paramater types
	* @param warnTo The element to which warnings should be posted if one or more
	* client types cannot be converted to domain types for validation
	* @param state the State object
	* @throws UnmappedTypeException if one or more types used in
	* {@code clientMethod} cannot be resolved to domain types
	*/
	private TypeMirror convertToDomainTypes(ExecutableType clientMethod,
	List<TypeMirror> parameterAccumulator, ExecutableElement warnTo, State state)
	throws UnmappedTypeException {
	boolean error = false;
	TypeMirror returnType;
	try {
	returnType = clientMethod.getReturnType().accept(new ClientToDomainMapper(), state);
	} catch (UnmappedTypeException e) {
	error = true;
	returnType = null;
	state.warn(warnTo, Messages.methodNoDomainPeer(e.getClientType(), false));
	}
	for (TypeMirror param : clientMethod.getParameterTypes()) {
	try {
	parameterAccumulator.add(param.accept(new ClientToDomainMapper(), state));
	} catch (UnmappedTypeException e) {
	parameterAccumulator.add(null);
	error = true;
	state.warn(warnTo, Messages.methodNoDomainPeer(e.getClientType(), true));
	}
	}
	if (error) {
	throw new UnmappedTypeException();
	}
	return returnType;
	}

	/**
	* Looks for a no-arg constructor or no constructors at all. Instance
	* initializers are ignored.
	*/
	private boolean hasNoArgConstructor(TypeElement x) {
	List<ExecutableElement> constructors = ElementFilter.constructorsIn(x.getEnclosedElements());
	if (constructors.isEmpty()) {
	return true;
	}
	for (ExecutableElement constructor : constructors) {
	if (constructor.getParameters().isEmpty()) {
	return true;
	}
	}
	return false;
	}

	private boolean hasProxyLocator(TypeElement x, State state) {
	ProxyFor proxyFor = x.getAnnotation(ProxyFor.class);
	if (proxyFor != null) {
	// See javadoc on getAnnotation
	try {
	proxyFor.locator();
	throw new RuntimeException("Should not reach here");
	} catch (MirroredTypeException expected) {
	TypeMirror locatorType = expected.getTypeMirror();
	return !state.types.asElement(locatorType).equals(state.locatorType.asElement());
	}
	}
	ProxyForName proxyForName = x.getAnnotation(ProxyForName.class);
	return proxyForName != null && !proxyForName.locator().isEmpty();
	}

	private boolean hasServiceLocator(TypeElement x, State state) {
	Service service = x.getAnnotation(Service.class);
	if (service != null) {
	// See javadoc on getAnnotation
	try {
	service.locator();
	throw new RuntimeException("Should not reach here");
	} catch (MirroredTypeException expected) {
	TypeMirror locatorType = expected.getTypeMirror();
	return !state.types.asElement(locatorType).equals(state.serviceLocatorType.asElement());
	}
	}
	ServiceName serviceName = x.getAnnotation(ServiceName.class);
	return serviceName != null && !serviceName.locator().isEmpty();
	}
	}