Usability issues:
Must use ResultCollector returned from FunctionService.execute
Below, we have to use the collector returned by FunctionService.execute, rather than just calling getResult on our own result collector. We run into problems otherwise, maybe because exceptions are not handed to the user supplied result collector?
Example:
ResultCollector<TopEntriesCollector, TopEntries> rc = (ResultCollector<TopEntriesCollector, TopEntries>) FunctionService.onRegion(region) .withArgs(context) .withCollector(collector) .execute(LuceneFunction.ID); //This doesn't work TopEntries entries = collector.getResult() //This is what you have to do TopEntries entries = rc.getResult();
Exceptions are handed to ResultCollector.addResult, causing ClassCastExceptions
On the ResultSender, there is a method to return exceptions using sendException.
However, the ResultCollector only has addResult(). Further, ResultCollector has generic types
public interface ResultCollector<T,S> { public void addResult(DistributedMember memberID, T resultOfSingleExecution);
Since the type of T is the user result type, trying to call add result will almost invariably result in the ClassCastException, like below
[fatal 2015/12/03 10:58:20.809 PST <Function Execution Processor1> tid=Function Execution Processor1id] Unexpected exception during function execution on local node Partitioned Region java.lang.ClassCastException: java.lang.Exception cannot be cast to com.gemstone.gemfire.cache.lucene.internal.distributed.TopEntriesCollector at com.gemstone.gemfire.cache.lucene.internal.distributed.TopEntriesFunctionCollector.addResult(TopEntriesFunctionCollector.java:1) at com.gemstone.gemfire.internal.cache.execute.LocalResultCollectorImpl.addResult(LocalResultCollectorImpl.java:85) at com.gemstone.gemfire.internal.cache.execute.PartitionedRegionFunctionResultSender.lastResult(PartitionedRegionFunctionResultSender.java:216) at com.gemstone.gemfire.internal.cache.execute.PartitionedRegionFunctionResultSender.lastResult(PartitionedRegionFunctionResultSender.java:174) at com.gemstone.gemfire.internal.cache.execute.PartitionedRegionFunctionResultSender.sendException(PartitionedRegionFunctionResultSender.java:309) at com.gemstone.gemfire.cache.lucene.internal.distributed.LuceneFunction.execute(LuceneFunction.java:60) at com.gemstone.gemfire.internal.cache.execute.AbstractExecution.executeFunctionLocally(AbstractExecution.java:367) at com.gemstone.gemfire.internal.cache.
onMember functions cannot be unit tested, because our API requires using a singleton cache
FunctionContext does not contain a cache. That means any function that you execute with onMember must contain code like this:
public void execute(FunctionContext context) { Cache cache = CacheFactory.getAnyInstance(); //...do work with the cache }
This makes it impossible to write pure unit tests for the function code that mock the cache.
onRegion functions always have to cast the FunctionContext to RegionFunctionContext
Any function that is executed on a region has to do a cast. This is not an intuitive API; the user has to know that there is such a thing as RegionFunctionContext. This can also lead to ClassCastExceptions if the user tries to cast the FunctionContext and it is not actually a REgionFunctionContext
All onRegion function code basically has to start this way:
public void execute(FunctionContext context) { RegionFunctionContext ctx = (RegionFunctionContext) context;
Getting the local data set of a function is not intuitive, uses static functions that expect concrete objects
If you want to operate on the local data set for a function, you have to do this
public void execute(FunctionContext context) { RegionFunctionContext ctx = (RegionFunctionContext) context; //This actually doesn't give you the local data set Region wholePartitionedRegion = ctx.getDataSet(); //This does, using a static function call Region localData = PartitionRegionHelper.getLocalDataForContext(ctx); //This is a bad idea, because it may include some buckets that are also being processed on other nodes Region localDataDontDoThis = PartitionRegionHelper.getLocalData(ctx.getDataSet());
There are several problems with this approach.
- It's not clear that ctx.getDataSet does not return the local data.
- The local data set is not mockable for unit tests, because this static function call extracts it using internal APIs on concrete classes. This also prevents this sort of function from being tested in a pure unit test.
- The user has to know that PartitionRegionHelper exists; the API is not obvious
- The various methods on PartitionRegionHelper are confusing, specifically it's unclear to a user why they should use getLocalDataFOrContext instead of getLocalData
No way to get a spring data repository of the local data set of a function
This is not specifically an issue in the geode codebase, but it affects a lot of geode users.
Spring Gemfire provides an simplified function API. Spring Data Gemfire allows the user to generate a repository object to access a region. However, there is no way to generate a repository that accesses the local data for the function.
Here's an example
public interface PostRepository extends GemfireRepository<Post, PostId> { @Query("select * from /posts where id.person=$1") public Collection<Post> findPosts(String personName); } public class Functions { //This repository accesses the entire data for the region on all members. @Autowired PostRepository postRepository; @GemfireFunction(HA=true) public SentimentResult getSentimentDoesntWork(Region<PostId, Post> localPosts, @Filter Set<String> personNames) throws Exception { String personName = personNames.iterator().next(); //This works, because localPosts is bound to the local data for the region Collection<Post> posts = localPosts.query("id.person='" + personName + "'"); //But I really want to use spring data repositories. Unfortunately, //I can't get a repository here PostRepository localDataRepository == ?? Collection<Post> posts = localDataRepository.findPosts(personName); }
FunctionService.onMembers relies on a singleton DistributedSystem
FunctionService.onMembers doesn't take a Cache or DistributedSystem. This locks us in to having a singleton DistributedSystem, because FunctionService will always look up the singleton.
Having a static FunctionService.onXXX means users can't mock the functionService
To invoke a function, the user code needs to refer to the static FunctionService.onXXX methods ( see below). That means that code that contains these static calls can't be tested with a test that mocks the function service.
FunctionService.onRegion(region) .withArgs(context) .withCollector(collector) .execute(LuceneFunction.ID);
It might be better to have a cache.getFunctionService
Functions are not easy to implement for the common case of having one result
The function context has a ResultSender with methods like sendResult, lastResult, sendException, etc.
However, the common case is that the user wants to send a single result, so we should provide a simpler function interface for this case that has a single return value.
Lambdas and functions
Lambdas cannot be used for Geode functions, because there are multiple non abstract methods on function like hasResult, isHA, etc.