src/java/org/apache/cassandra/cql3/functions/FunctionCall.java - cassandra - Git at Google

 /*
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you 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 org.apache.cassandra.cql3.functions;

 import java.nio.ByteBuffer;
 import java.util.ArrayList;
 import java.util.List;
 import java.util.stream.Collectors;

 import org.apache.cassandra.cql3.*;
 import org.apache.cassandra.cql3.statements.RequestValidations;
 import org.apache.cassandra.db.marshal.*;
 import org.apache.cassandra.exceptions.InvalidRequestException;
 import org.apache.cassandra.serializers.MarshalException;
 import org.apache.cassandra.transport.ProtocolVersion;
 import org.apache.cassandra.utils.ByteBufferUtil;

 public class FunctionCall extends Term.NonTerminal
 {
     private final ScalarFunction fun;
     private final List<Term> terms;

     private FunctionCall(ScalarFunction fun, List<Term> terms)
     {
         this.fun = fun;
         this.terms = terms;
     }

     public void addFunctionsTo(List<Function> functions)
     {
         Terms.addFunctions(terms, functions);
         fun.addFunctionsTo(functions);
     }

     public void collectMarkerSpecification(VariableSpecifications boundNames)
     {
         for (Term t : terms)
             t.collectMarkerSpecification(boundNames);
     }

     public Term.Terminal bind(QueryOptions options) throws InvalidRequestException
     {
         return makeTerminal(fun, bindAndGet(options), options.getProtocolVersion());
     }

     public ByteBuffer bindAndGet(QueryOptions options) throws InvalidRequestException
     {
         List<ByteBuffer> buffers = new ArrayList<>(terms.size());
         for (Term t : terms)
         {
             ByteBuffer functionArg = t.bindAndGet(options);
             RequestValidations.checkBindValueSet(functionArg, "Invalid unset value for argument in call to function %s", fun.name().name);
             buffers.add(functionArg);
         }
         return executeInternal(options.getProtocolVersion(), fun, buffers);
     }

     private static ByteBuffer executeInternal(ProtocolVersion protocolVersion, ScalarFunction fun, List<ByteBuffer> params) throws InvalidRequestException
     {
         ByteBuffer result = fun.execute(protocolVersion, params);
         try
         {
             // Check the method didn't lied on it's declared return type
             if (result != null)
                 fun.returnType().validate(result);
             return result;
         }
         catch (MarshalException e)
         {
             throw new RuntimeException(String.format("Return of function %s (%s) is not a valid value for its declared return type %s",
                                                      fun, ByteBufferUtil.bytesToHex(result), fun.returnType().asCQL3Type()), e);
         }
     }

     public boolean containsBindMarker()
     {
         for (Term t : terms)
         {
             if (t.containsBindMarker())
                 return true;
         }
         return false;
     }

     private static Term.Terminal makeTerminal(Function fun, ByteBuffer result, ProtocolVersion version) throws InvalidRequestException
     {
         if (result == null)
             return null;
         if (fun.returnType().isCollection())
         {
             switch (((CollectionType) fun.returnType()).kind)
             {
                 case LIST:
                     return Lists.Value.fromSerialized(result, (ListType) fun.returnType(), version);
                 case SET:
                     return Sets.Value.fromSerialized(result, (SetType) fun.returnType(), version);
                 case MAP:
                     return Maps.Value.fromSerialized(result, (MapType) fun.returnType(), version);
             }
         }
         else if (fun.returnType().isUDT())
         {
             return UserTypes.Value.fromSerialized(result, (UserType) fun.returnType());
         }

         return new Constants.Value(result);
     }

     public static class Raw extends Term.Raw
     {
         private FunctionName name;
         private final List<Term.Raw> terms;

         public Raw(FunctionName name, List<Term.Raw> terms)
         {
             this.name = name;
             this.terms = terms;
         }

         public Term prepare(String keyspace, ColumnSpecification receiver) throws InvalidRequestException
         {
             Function fun = FunctionResolver.get(keyspace, name, terms, receiver.ksName, receiver.cfName, receiver.type);
             if (fun == null)
                 throw new InvalidRequestException(String.format("Unknown function %s called", name));
             if (fun.isAggregate())
                 throw new InvalidRequestException("Aggregation function are not supported in the where clause");

             ScalarFunction scalarFun = (ScalarFunction) fun;

             // Functions.get() will complain if no function "name" type check with the provided arguments.
             // We still have to validate that the return type matches however
             if (!scalarFun.testAssignment(keyspace, receiver).isAssignable())
                 throw new InvalidRequestException(String.format("Type error: cannot assign result of function %s (type %s) to %s (type %s)",
                                                                 scalarFun.name(), scalarFun.returnType().asCQL3Type(),
                                                                 receiver.name, receiver.type.asCQL3Type()));

             if (fun.argTypes().size() != terms.size())
                 throw new InvalidRequestException(String.format("Incorrect number of arguments specified for function %s (expected %d, found %d)",
                                                                 fun, fun.argTypes().size(), terms.size()));

             List<Term> parameters = new ArrayList<>(terms.size());
             for (int i = 0; i < terms.size(); i++)
             {
                 Term t = terms.get(i).prepare(keyspace, FunctionResolver.makeArgSpec(receiver.ksName, receiver.cfName, scalarFun, i));
                 parameters.add(t);
             }

             return new FunctionCall(scalarFun, parameters);
         }

         public AssignmentTestable.TestResult testAssignment(String keyspace, ColumnSpecification receiver)
         {
             // Note: Functions.get() will return null if the function doesn't exist, or throw is no function matching
             // the arguments can be found. We may get one of those if an undefined/wrong function is used as argument
             // of another, existing, function. In that case, we return true here because we'll throw a proper exception
             // later with a more helpful error message that if we were to return false here.
             try
             {
                 Function fun = FunctionResolver.get(keyspace, name, terms, receiver.ksName, receiver.cfName, receiver.type);

                 // Because fromJson() can return whatever type the receiver is, we'll always get EXACT_MATCH.  To
                 // handle potentially ambiguous function calls with fromJson() as an argument, always return
                 // WEAKLY_ASSIGNABLE to force the user to typecast if necessary
                 if (fun != null && fun.name().equals(FromJsonFct.NAME))
                     return TestResult.WEAKLY_ASSIGNABLE;

                 if (fun != null && receiver.type.equals(fun.returnType()))
                     return AssignmentTestable.TestResult.EXACT_MATCH;
                 else if (fun == null || receiver.type.isValueCompatibleWith(fun.returnType()))
                     return AssignmentTestable.TestResult.WEAKLY_ASSIGNABLE;
                 else
                     return AssignmentTestable.TestResult.NOT_ASSIGNABLE;
             }
             catch (InvalidRequestException e)
             {
                 return AssignmentTestable.TestResult.WEAKLY_ASSIGNABLE;
             }
         }

         public AbstractType<?> getExactTypeIfKnown(String keyspace)
         {
             // We could implement this, but the method is only used in selection clause, where FunctionCall is not used
             // we use a Selectable.WithFunction instead). And if that method is later used in other places, better to
             // let that future patch make sure this can be implemented properly (note in particular we don't have access
             // to the receiver type, which FunctionResolver.get() takes) rather than provide an implementation that may
             // not work in all cases.
             throw new UnsupportedOperationException();
         }

         public String getText()
         {
             return name + terms.stream().map(Term.Raw::getText).collect(Collectors.joining(", ", "(", ")"));
         }
     }
 }
	/*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you 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 org.apache.cassandra.cql3.functions;

	import java.nio.ByteBuffer;
	import java.util.ArrayList;
	import java.util.List;
	import java.util.stream.Collectors;

	import org.apache.cassandra.cql3.*;
	import org.apache.cassandra.cql3.statements.RequestValidations;
	import org.apache.cassandra.db.marshal.*;
	import org.apache.cassandra.exceptions.InvalidRequestException;
	import org.apache.cassandra.serializers.MarshalException;
	import org.apache.cassandra.transport.ProtocolVersion;
	import org.apache.cassandra.utils.ByteBufferUtil;

	public class FunctionCall extends Term.NonTerminal
	{
	private final ScalarFunction fun;
	private final List<Term> terms;

	private FunctionCall(ScalarFunction fun, List<Term> terms)
	{
	this.fun = fun;
	this.terms = terms;
	}

	public void addFunctionsTo(List<Function> functions)
	{
	Terms.addFunctions(terms, functions);
	fun.addFunctionsTo(functions);
	}

	public void collectMarkerSpecification(VariableSpecifications boundNames)
	{
	for (Term t : terms)
	t.collectMarkerSpecification(boundNames);
	}

	public Term.Terminal bind(QueryOptions options) throws InvalidRequestException
	{
	return makeTerminal(fun, bindAndGet(options), options.getProtocolVersion());
	}

	public ByteBuffer bindAndGet(QueryOptions options) throws InvalidRequestException
	{
	List<ByteBuffer> buffers = new ArrayList<>(terms.size());
	for (Term t : terms)
	{
	ByteBuffer functionArg = t.bindAndGet(options);
	RequestValidations.checkBindValueSet(functionArg, "Invalid unset value for argument in call to function %s", fun.name().name);
	buffers.add(functionArg);
	}
	return executeInternal(options.getProtocolVersion(), fun, buffers);
	}

	private static ByteBuffer executeInternal(ProtocolVersion protocolVersion, ScalarFunction fun, List<ByteBuffer> params) throws InvalidRequestException
	{
	ByteBuffer result = fun.execute(protocolVersion, params);
	try
	{
	// Check the method didn't lied on it's declared return type
	if (result != null)
	fun.returnType().validate(result);
	return result;
	}
	catch (MarshalException e)
	{
	throw new RuntimeException(String.format("Return of function %s (%s) is not a valid value for its declared return type %s",
	fun, ByteBufferUtil.bytesToHex(result), fun.returnType().asCQL3Type()), e);
	}
	}

	public boolean containsBindMarker()
	{
	for (Term t : terms)
	{
	if (t.containsBindMarker())
	return true;
	}
	return false;
	}

	private static Term.Terminal makeTerminal(Function fun, ByteBuffer result, ProtocolVersion version) throws InvalidRequestException
	{
	if (result == null)
	return null;
	if (fun.returnType().isCollection())
	{
	switch (((CollectionType) fun.returnType()).kind)
	{
	case LIST:
	return Lists.Value.fromSerialized(result, (ListType) fun.returnType(), version);
	case SET:
	return Sets.Value.fromSerialized(result, (SetType) fun.returnType(), version);
	case MAP:
	return Maps.Value.fromSerialized(result, (MapType) fun.returnType(), version);
	}
	}
	else if (fun.returnType().isUDT())
	{
	return UserTypes.Value.fromSerialized(result, (UserType) fun.returnType());
	}

	return new Constants.Value(result);
	}

	public static class Raw extends Term.Raw
	{
	private FunctionName name;
	private final List<Term.Raw> terms;

	public Raw(FunctionName name, List<Term.Raw> terms)
	{
	this.name = name;
	this.terms = terms;
	}

	public Term prepare(String keyspace, ColumnSpecification receiver) throws InvalidRequestException
	{
	Function fun = FunctionResolver.get(keyspace, name, terms, receiver.ksName, receiver.cfName, receiver.type);
	if (fun == null)
	throw new InvalidRequestException(String.format("Unknown function %s called", name));
	if (fun.isAggregate())
	throw new InvalidRequestException("Aggregation function are not supported in the where clause");

	ScalarFunction scalarFun = (ScalarFunction) fun;

	// Functions.get() will complain if no function "name" type check with the provided arguments.
	// We still have to validate that the return type matches however
	if (!scalarFun.testAssignment(keyspace, receiver).isAssignable())
	throw new InvalidRequestException(String.format("Type error: cannot assign result of function %s (type %s) to %s (type %s)",
	scalarFun.name(), scalarFun.returnType().asCQL3Type(),
	receiver.name, receiver.type.asCQL3Type()));

	if (fun.argTypes().size() != terms.size())
	throw new InvalidRequestException(String.format("Incorrect number of arguments specified for function %s (expected %d, found %d)",
	fun, fun.argTypes().size(), terms.size()));

	List<Term> parameters = new ArrayList<>(terms.size());
	for (int i = 0; i < terms.size(); i++)
	{
	Term t = terms.get(i).prepare(keyspace, FunctionResolver.makeArgSpec(receiver.ksName, receiver.cfName, scalarFun, i));
	parameters.add(t);
	}

	return new FunctionCall(scalarFun, parameters);
	}

	public AssignmentTestable.TestResult testAssignment(String keyspace, ColumnSpecification receiver)
	{
	// Note: Functions.get() will return null if the function doesn't exist, or throw is no function matching
	// the arguments can be found. We may get one of those if an undefined/wrong function is used as argument
	// of another, existing, function. In that case, we return true here because we'll throw a proper exception
	// later with a more helpful error message that if we were to return false here.
	try
	{
	Function fun = FunctionResolver.get(keyspace, name, terms, receiver.ksName, receiver.cfName, receiver.type);

	// Because fromJson() can return whatever type the receiver is, we'll always get EXACT_MATCH. To
	// handle potentially ambiguous function calls with fromJson() as an argument, always return
	// WEAKLY_ASSIGNABLE to force the user to typecast if necessary
	if (fun != null && fun.name().equals(FromJsonFct.NAME))
	return TestResult.WEAKLY_ASSIGNABLE;

	if (fun != null && receiver.type.equals(fun.returnType()))
	return AssignmentTestable.TestResult.EXACT_MATCH;
	else if (fun == null \|\| receiver.type.isValueCompatibleWith(fun.returnType()))
	return AssignmentTestable.TestResult.WEAKLY_ASSIGNABLE;
	else
	return AssignmentTestable.TestResult.NOT_ASSIGNABLE;
	}
	catch (InvalidRequestException e)
	{
	return AssignmentTestable.TestResult.WEAKLY_ASSIGNABLE;
	}
	}

	public AbstractType<?> getExactTypeIfKnown(String keyspace)
	{
	// We could implement this, but the method is only used in selection clause, where FunctionCall is not used
	// we use a Selectable.WithFunction instead). And if that method is later used in other places, better to
	// let that future patch make sure this can be implemented properly (note in particular we don't have access
	// to the receiver type, which FunctionResolver.get() takes) rather than provide an implementation that may
	// not work in all cases.
	throw new UnsupportedOperationException();
	}

	public String getText()
	{
	return name + terms.stream().map(Term.Raw::getText).collect(Collectors.joining(", ", "(", ")"));
	}
	}
	}