Examples of org.jboss.errai.ioc.rebind.ioc.bootstrapper.IOCProcessingContext

Package org.jboss.errai.ioc.rebind.ioc.bootstrapper

Examples of org.jboss.errai.ioc.rebind.ioc.bootstrapper.IOCProcessingContext

org.jboss.errai.ioc.rebind.ioc.bootstrapper.IOCProcessingContext
@author Mike Brock


    renderLifeCycleEvents(PreDestroy.class, injector, ctx, initMeth, preDestroyTasks);


    Statement destructionCallback = createDestructionCallback(injector.getInjectedType(), "obj", initMeth);


    final IOCProcessingContext pc = ctx.getProcessingContext();


    pc.getBootstrapBuilder().privateField(varName, destructionCallbackType)
        .initializesWith(destructionCallback).finish();


    pc.append(Stmt.loadVariable("context").invoke("addDestructionCallback",
        Refs.get(injector.getInstanceVarName()), Refs.get(varName)));


    return true;
  }

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        injectableInstance.getInjectionContext().isBlacklisted(type)) {
      return;
    }


    final InjectionContext injectContext = injectableInstance.getInjectionContext();
    final IOCProcessingContext ctx = injectContext.getProcessingContext();


     /*
     get a parameterized version of the BeanProvider class, parameterized with the type of
     bean it produces.
     */
    final MetaClass creationCallbackRef = parameterizedAs(BeanProvider.class, typeParametersOf(type));


     /*
     begin building the creational callback, implement the "getInstance" method from the interface
     and assign its BlockBuilder to a callbackBuilder so we can work with it.
     */
    final BlockBuilder<AnonymousClassStructureBuilder> callbackBuilder
        = newInstanceOf(creationCallbackRef).extend()
        .publicOverridesMethod("getInstance", Parameter.of(CreationalContext.class, "context", true));


     /* push the method block builder onto the stack, so injection tasks are rendered appropriately. */
    ctx.pushBlockBuilder(callbackBuilder);


     /* get a new unique variable for the creational callback */
    creationalCallbackVarName = InjectUtil.getNewInjectorName().concat("_")
        .concat(type.getName()).concat("_creational");


     /* get the construction strategy and execute it to wire the bean */
    getConstructionStrategy(this, injectContext).generateConstructor(new ConstructionStatusCallback() {
      @Override
      public void beanConstructed(final ConstructionType constructionType) {
        final Statement beanRef = Refs.get(instanceVarName);


        callbackBuilder.append(
            loadVariable("context").invoke("addBean", loadVariable("context").invoke("getBeanReference", load(type),
                load(qualifyingMetadata.getQualifiers())), beanRef)
        );


         /* mark this injector as injected so we don't go into a loop if there is a cycle. */
        setCreated(true);
      }
    });




    callbackBuilder.appendAll(getAddToEndStatements());


     /*
     return the instance of the bean from the creational callback.
     */
    if (isProxied()) {
      callbackBuilder.appendAll(createProxyDeclaration(injectContext));
      callbackBuilder.append(loadVariable(getProxyInstanceVarName()).returnValue());
    }
    else {
      callbackBuilder.append(loadVariable(instanceVarName).returnValue());
    }
     /* pop the block builder of the stack now that we're done wiring. */
    ctx.popBlockBuilder();


     /*
     declare a final variable for the BeanProvider and initialize it with the anonymous class we just
     built.
     */
    ctx.getBootstrapBuilder().privateField(creationalCallbackVarName, creationCallbackRef).modifiers(Modifier.Final)
        .initializesWith(callbackBuilder.finish().finish()).finish();


    if (isSingleton()) {
       /*
        if the injector is for a singleton, we create a variable to hold the singleton reference in the bootstrapper
        method and assign it with SimpleCreationalContext.getInstance().
        */
      ctx.getBootstrapBuilder().privateField(instanceVarName, type).modifiers(Modifier.Final)
          .initializesWith(loadVariable(creationalCallbackVarName).invoke("getInstance", Refs.get("context"))).finish();


      registerWithBeanManager(injectContext, Refs.get(instanceVarName));
    }
    else {

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  @Override
  public void renderProvider(final InjectableInstance injectableInstance) {
    if (isRendered()) return;


    final InjectionContext injectContext = injectableInstance.getInjectionContext();
    final IOCProcessingContext ctx = injectContext.getProcessingContext();


    /*
    get a parameterized version of the BeanProvider class, parameterized with the type of
    bean it produces.
    */
    final MetaClass beanProviderClassRef = parameterizedAs(AsyncBeanProvider.class, typeParametersOf(type));
    final MetaClass creationalCallbackClassRef = parameterizedAs(CreationalCallback.class, typeParametersOf(type));
    /*
    begin building the creational callback, implement the "getInstance" method from the interface
    and assign its BlockBuilder to a callbackBuilder so we can work with it.
    */
    final BlockBuilder<AnonymousClassStructureBuilder> callbackBuilder
        = newInstanceOf(beanProviderClassRef).extend()
        .publicOverridesMethod("getInstance", Parameter.of(creationalCallbackClassRef, "callback", true),
            Parameter.of(AsyncCreationalContext.class, "context", true));




    final boolean loadAsync = type.isAnnotationPresent(LoadAsync.class);


    final BlockBuilder<AnonymousClassStructureBuilder> targetBlock;


    if (loadAsync) {
      final BlockBuilder<AnonymousClassStructureBuilder> asyncBuilder = ObjectBuilder.newInstanceOf(RunAsyncCallback.class).extend()
          .publicOverridesMethod("onFailure", Parameter.of(Throwable.class, "throwable"))
          .append(Stmt.throw_(RuntimeException.class, "failed to run asynchronously", Refs.get("throwable")))
          .finish()
          .publicOverridesMethod("onSuccess");


      targetBlock = asyncBuilder;
    }
    else {
      targetBlock = callbackBuilder;
    }
        /* push the method block builder onto the stack, so injection tasks are rendered appropriately. */
    ctx.pushBlockBuilder(targetBlock);


    targetBlock.append(
        Stmt.create().declareFinalVariable("beanRef", BeanRef.class,
            loadVariable("context").invoke("getBeanReference", load(type),
                load(qualifyingMetadata.getQualifiers()))
        ));


    targetBlock.append(
        Stmt.create().declareFinalVariable("async", AsyncBeanContext.class,
            Stmt.create().newObject(AsyncBeanContext.class))
    );


    /* get a new unique variable for the creational callback */
    creationalCallbackVarName = InjectUtil.getNewInjectorName().concat("_")
        .concat(type.getName()).concat("_creational");


    /* get the construction strategy and execute it to wire the bean */
    AsyncInjectUtil.getConstructionStrategy(this, injectContext).generateConstructor(new ConstructionStatusCallback() {
      @Override
      public void beanConstructed(final ConstructionType constructionType) {
        /* the bean has been constructed, so get a reference to the BeanRef and set it to the 'beanRef' variable. */


        injectContext.getProcessingContext().append(
            loadVariable("context").invoke("addBean", Refs.get("beanRef"), Refs.get(instanceVarName))
        );


        /* add the bean to SimpleCreationalContext */


        final ObjectBuilder objectBuilder = Stmt.create().newObject(Runnable.class);
        final BlockBuilder<AnonymousClassStructureBuilder> blockBuilder = objectBuilder
            .extend().publicOverridesMethod("run");


        final BlockBuilderUpdater updater
            = new BlockBuilderUpdater(injectContext, AsyncTypeInjector.this, constructionType, targetBlock, blockBuilder);


        setAttribute("BlockBuilderUpdater", updater);
        final Statement beanRef = updater.run();


        injectContext.addBeanReference(type, beanRef);
        addStatementToEndOfInjector(Stmt.loadVariable("async").invoke("runOnFinish", blockBuilder.finish().finish()));


        /* mark this injector as injected so we don't go into a loop if there is a cycle. */
        setCreated(true);
      }
    });


    /*
    return the instance of the bean from the creational callback.
    */


    targetBlock.appendAll(getAddToEndStatements());


    targetBlock._(Stmt.loadVariable("async").invoke("finish"));


    /* pop the block builder of the stack now that we're done wiring. */
    ctx.popBlockBuilder();


    if (loadAsync) {
      final ObjectBuilder objectBuilder = targetBlock.finish().finish();


      final String frameworkOrSystemProperty
          = EnvUtil.getEnvironmentConfig().getFrameworkOrSystemProperty("errai.ioc.testing.simulated_loadasync_latency");
      if (Boolean.parseBoolean(frameworkOrSystemProperty)) {
        callbackBuilder.append(Stmt.invokeStatic(FakeGWT.class, "runAsync", objectBuilder));
      }
      else {
        callbackBuilder.append(Stmt.invokeStatic(GWT.class, "runAsync", objectBuilder));
      }
    }
    /*
      declare a final variable for the BeanProvider and initialize it with the anonymous class we just
      built.
    */
    ctx.getBootstrapBuilder().privateField(creationalCallbackVarName, beanProviderClassRef).modifiers(Modifier.Final)
        .initializesWith(callbackBuilder.finish().finish()).finish();


    if (isSingleton()) {
      registerWithBeanManager(injectContext, Stmt.load(true));
    }

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    if (classStatementMap.containsKey(type)) {
      throw new RuntimeException("transient value already exists: " + name + "::" + type.getFullyQualifiedName());
    }


    final IOCProcessingContext pCtx = getInjectionContext().getProcessingContext();
    if (hasUnsatisfiedTransientValue(name, type)) {
      final Statement unsatisfiedTransientValue = getUnsatisfiedTransientValue(name, type);
      pCtx.append(Stmt.nestedCall(unsatisfiedTransientValue).invoke("set", valueRef));
      classStatementMap.put(type, Stmt.nestedCall(unsatisfiedTransientValue).invoke("get"));
      markSatisfied(name, type);
    }
    else {
      final String varName = InjectUtil.getUniqueVarName();
      pCtx.append(Stmt.declareFinalVariable(varName, type, valueRef));
      classStatementMap.put(type, Stmt.loadVariable(varName));
    }
  }

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    }


    final String holderVar = InjectUtil.getUniqueVarName();
    final MetaClass holderType = MetaClassFactory.parameterizedAs(RefHolder.class, MetaClassFactory.typeParametersOf(type));


    final IOCProcessingContext pCtx = getInjectionContext().getProcessingContext();
    pCtx.append(Stmt.declareFinalVariable(holderVar, holderType, Stmt.newObject(holderType)));


    addUnsatisifiedTransientValue(name, type, Stmt.loadVariable(holderVar));


    return Stmt.loadVariable(holderVar).invoke("get");
  }

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        return loadVariable(creationalCallbackVarName).invoke("getInstance", Refs.get("context"));
      }
    }


    final InjectionContext injectContext = injectableInstance.getInjectionContext();
    final IOCProcessingContext ctx = injectContext.getProcessingContext();


    /*
    get a parameterized version of the CreationalCallback class, parameterized with the type of
    bean it produces.
    */
    final MetaClass creationCallbackRef = parameterizedAs(CreationalCallback.class, typeParametersOf(type));


    /*
    begin building the creational callback, implement the "getInstance" method from the interface
    and assign its BlockBuilder to a callbackBuilder so we can work with it.
    */
    final BlockBuilder<AnonymousClassStructureBuilder> callbackBuilder
        = newInstanceOf(creationCallbackRef).extend()
        .publicOverridesMethod("getInstance", Parameter.of(CreationalContext.class, "context", true));


    /* push the method block builder onto the stack, so injection tasks are rendered appropriately. */
    ctx.pushBlockBuilder(callbackBuilder);


    /* get a new unique variable for the creational callback */
    creationalCallbackVarName = InjectUtil.getNewInjectorName().concat("_")
        .concat(type.getName()).concat("_creational");


    /* get the construction strategy and execute it to wire the bean */
    getConstructionStrategy(this, injectContext).generateConstructor(new ConstructionStatusCallback() {
      @Override
      public void beanConstructed() {
        /* the bean has been constructed, so get a reference to the BeanRef and set it to the 'beanRef' variable. */


        /* add the bean to CreationalContext */
        callbackBuilder.append(
            loadVariable("context").invoke("addBean", loadVariable("context").invoke("getBeanReference", load(type),
                load(qualifyingMetadata.getQualifiers())), Refs.get(instanceVarName))
        );


        /* mark this injector as injected so we don't go into a loop if there is a cycle. */
        setCreated(true);
      }
    });


    /*
    return the instance of the bean from the creational callback.
    */
    callbackBuilder.append(loadVariable(instanceVarName).returnValue());


    /* pop the block builder of the stack now that we're done wiring. */
    ctx.popBlockBuilder();


    /*
    declare a final variable for the CreationalCallback and initialize it with the anonymous class we just
    built.
    */
    ctx.getBootstrapBuilder().privateField(creationalCallbackVarName, creationCallbackRef).modifiers(Modifier.Final)
        .initializesWith(callbackBuilder.finish().finish()).finish();


    final Statement retVal;


    if (isSingleton()) {
      /*
       if the injector is for a singleton, we create a variable to hold the singleton reference in the bootstrapper
       method and assign it with CreationalContext.getInstance().
       */
      ctx.getBootstrapBuilder().privateField(instanceVarName, type).modifiers(Modifier.Final)
          .initializesWith(loadVariable(creationalCallbackVarName).invoke("getInstance", Refs.get("context"))).finish();


      /*
       use the variable we just assigned as the return value for this injector.
       */

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          final Statement[] parameterStatements
              = resolveInjectionDependencies(constructor.getParameters(), ctx, constructor);


          if (injector.isSingleton() && injector.isCreated()) return;


          final IOCProcessingContext processingContext = ctx.getProcessingContext();


          processingContext.append(
              Stmt.declareFinalVariable(injector.getInstanceVarName(), type, Stmt.newObject(type, parameterStatements))


          );
          callback.beanConstructed();


          handleInjectionTasks(ctx, injectionTasks);


          doPostConstruct(ctx, injector, postConstructTasks);
          doPreDestroy(ctx, injector, preDestroyTasks);
        }


      };
    }
    else {
      // field injection
      if (!hasDefaultConstructor(type))
        throw new InjectionFailure("there is no public default constructor or suitable injection constructor for type: "
            + type.getFullyQualifiedName());


      return new ConstructionStrategy() {
        @Override
        public void generateConstructor(final ConstructionStatusCallback callback) {
          if (injector.isSingleton() && injector.isCreated()) return;


          final IOCProcessingContext processingContext = ctx.getProcessingContext();


          processingContext.append(
              Stmt.declareVariable(type)
                  .asFinal()
                  .named(injector.getInstanceVarName())
                  .initializeWith(Stmt.newObject(type))

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    renderLifeCycleEvents(PostConstruct.class, injector, ctx, initMeth, postConstructTasks);


    final AnonymousClassStructureBuilder classStructureBuilder = initMeth.finish();


    final IOCProcessingContext pc = ctx.getProcessingContext();


    pc.getBootstrapBuilder()
        .privateField(varName, initializationCallbackType)
        .initializesWith(classStructureBuilder.finish()).finish();


    pc.append(Stmt.loadVariable("context").invoke("addInitializationCallback",
        Refs.get(injector.getInstanceVarName()), Refs.get(varName)));
  }

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    final String varName = "destroy_".concat(injector.getInstanceVarName());
    injector.setPreDestroyCallbackVar(varName);


    renderLifeCycleEvents(PreDestroy.class, injector, ctx, initMeth, preDestroyTasks);


    final IOCProcessingContext pc = ctx.getProcessingContext();


    pc.getBootstrapBuilder().privateField(varName, destructionCallbackType)
        .initializesWith(initMeth.finish().finish()).finish();


    pc.append(Stmt.loadVariable("context").invoke("addDestructionCallback",
        Refs.get(injector.getInstanceVarName()), Refs.get(varName)));
  }

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            .addInnerClass(new InnerClass(proxyClass));
  }


  @Override
  public Statement getBeanInstance(InjectableInstance injectableInstance) {
    final IOCProcessingContext pCtx = injectableInstance.getInjectionContext().getProcessingContext();


    pCtx.append(Stmt.declareFinalVariable(varName, proxyClass, newObject(proxyClass)));


    final MetaClass proxyResolverRef = parameterizedAs(ProxyResolver.class, typeParametersOf(proxiedType));


    final BlockBuilder<AnonymousClassStructureBuilder> proxyResolverBody = newObject(proxyResolverRef)
            .extend().publicOverridesMethod("resolve", Parameter.of(proxiedType, "obj"));


    final Statement proxyResolver = proxyResolverBody._(loadVariable(varName)
            .invoke(ProxyMaker.PROXY_BIND_METHOD, Refs.get("obj"))).finish().finish();


    proxyResolverBody._(Stmt.loadVariable("context").invoke("addProxyReference", Refs.get(varName), Refs.get("obj")));


    pCtx.append(loadVariable("context").invoke("addUnresolvedProxy", proxyResolver,
            proxiedType, qualifyingMetadata.getQualifiers()));


    for (Statement statement : closeStatements) {
      proxyResolverBody.append(statement);
    }

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org.jboss.errai.ioc.rebind.ioc.injector.api.AsyncInjectionTask

org.jboss.errai.ioc.rebind.ioc.injector.api.InjectableInstance

org.jboss.errai.ioc.rebind.ioc.injector.api.InjectionTask

org.jboss.errai.ioc.rebind.ioc.injector.async.AsyncProxyInjector

org.jboss.errai.ioc.rebind.ioc.injector.async.AsyncTypeInjector

org.jboss.errai.ioc.rebind.ioc.injector.AsyncInjectUtil

org.jboss.errai.ioc.rebind.ioc.injector.basic.ProxyInjector

org.jboss.errai.ioc.rebind.ioc.injector.basic.TypeInjector

org.jboss.errai.ioc.rebind.ioc.injector.InjectUtil

org.jboss.errai.ioc.rebind.ioc.injector.ProxyInjector

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