/*
* Copyright 2010 JBoss 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 org.drools.reteoo.test.dsl;
import java.beans.IntrospectionException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import java.util.Map;
import org.antlr.tool.Rule;
import org.drools.base.ClassObjectType;
import org.drools.base.EvaluatorWrapper;
import org.drools.base.accumulators.MVELAccumulatorFunctionExecutor;
import org.drools.base.accumulators.SumAccumulateFunction;
import org.drools.base.mvel.MVELCompilationUnit;
import org.drools.base.mvel.MVELCompileable;
import org.drools.common.BetaConstraints;
import org.drools.common.DefaultBetaConstraints;
import org.drools.common.DoubleBetaConstraints;
import org.drools.common.EmptyBetaConstraints;
import org.drools.common.InternalRuleBase;
import org.drools.common.QuadroupleBetaConstraints;
import org.drools.common.SingleBetaConstraints;
import org.drools.common.TripleBetaConstraints;
import org.drools.reteoo.AccumulateNode;
import org.drools.reteoo.LeftTupleSource;
import org.drools.reteoo.MockObjectSource;
import org.drools.reteoo.MockTupleSource;
import org.drools.reteoo.ObjectSource;
import org.drools.reteoo.ObjectTypeNode;
import org.drools.reteoo.builder.BuildContext;
import org.drools.rule.Accumulate;
import org.drools.rule.Declaration;
import org.drools.rule.MVELDialectRuntimeData;
import org.drools.rule.Pattern;
import org.drools.spi.Accumulator;
import org.drools.spi.AlphaNodeFieldConstraint;
import org.drools.spi.BetaNodeFieldConstraint;
import org.drools.spi.KnowledgeHelper;
import org.kie.runtime.rule.AccumulateFunction;
public class AccumulateNodeStep
implements
Step {
private ReteTesterHelper reteTesterHelper;
public AccumulateNodeStep(ReteTesterHelper reteTesterHelper) {
this.reteTesterHelper = reteTesterHelper;
}
public void execute( Map<String, Object> context,
List<String[]> args ) {
BuildContext buildContext = (BuildContext) context.get( "BuildContext" );
if ( args.size() >= 1 ) {
// The first argument list is the node parameters
String[] a = args.get( 0 );
String name = a[0];
String leftInput = a[1];
String rightInput = a[2];
String sourceType = a[3];
String expr = a[4];
Class cls = null;
LeftTupleSource leftTupleSource;
if ( leftInput.startsWith( "mock" ) ) {
leftTupleSource = new MockTupleSource( buildContext.getNextId() );
} else {
leftTupleSource = (LeftTupleSource) context.get( leftInput );
}
ObjectSource rightObjectSource;
if ( rightInput.startsWith( "mock" ) ) {
String type = rightInput.substring( 5, rightInput.length() -1 );
try {
cls = reteTesterHelper.getTypeResolver().resolveType( type );
} catch ( ClassNotFoundException e ) {
throw new RuntimeException( e );
}
rightObjectSource = new MockObjectSource( buildContext.getNextId() );
} else {
rightObjectSource = (ObjectSource) context.get( rightInput );
ObjectSource source = rightObjectSource;
while ( !( source instanceof ObjectTypeNode ) ) {
source = source.getParentObjectSource();
}
cls = ((ClassObjectType)((ObjectTypeNode)source).getObjectType()).getClassType();
}
Pattern sourcePattern;
Pattern resultPattern;
try {
sourcePattern = reteTesterHelper.getPattern( 0,
sourceType );
// we always use the accumulate function "sum", so return type is always Number
resultPattern = reteTesterHelper.getPattern( buildContext.getNextId(),
Number.class.getName() );
} catch ( Exception e ) {
throw new IllegalArgumentException( "Not possible to process arguments: " + Arrays.toString( a ) );
}
List<BetaNodeFieldConstraint> list = new ArrayList<BetaNodeFieldConstraint>();
AlphaNodeFieldConstraint[] alphaResultConstraint = new AlphaNodeFieldConstraint[0];
// the following arguments are constraints
for ( int i = 1; i < args.size(); i++ ) {
a = args.get( i );
String type = a[0];
String fieldName = a[1];
String operator = a[2];
String val = a[3];
if ( "source".equals( type ) ) {
Declaration declr = (Declaration) context.get( val );
try {
BetaNodeFieldConstraint sourceBetaConstraint = this.reteTesterHelper.getBoundVariableConstraint( cls,
fieldName,
declr,
operator );
list.add( sourceBetaConstraint );
} catch ( IntrospectionException e ) {
throw new IllegalArgumentException();
}
} else if ( "result".equals( type ) ) {
alphaResultConstraint = new AlphaNodeFieldConstraint[1];
try {
alphaResultConstraint[0] = this.reteTesterHelper.getLiteralConstraint( resultPattern,
fieldName,
operator,
val );
} catch ( IntrospectionException e ) {
throw new IllegalArgumentException( "Unable to configure alpha constraint: " + Arrays.toString( a ),
e );
}
}
}
BetaConstraints betaSourceConstraints;
switch ( list.size() ) {
case 0:
betaSourceConstraints = new EmptyBetaConstraints();
break;
case 1:
betaSourceConstraints = new SingleBetaConstraints( list.get(0),
buildContext.getRuleBase().getConfiguration() );
break;
case 2:
betaSourceConstraints = new DoubleBetaConstraints( list.toArray( new BetaNodeFieldConstraint[2] ),
buildContext.getRuleBase().getConfiguration() );
break;
case 3:
betaSourceConstraints = new TripleBetaConstraints( list.toArray( new BetaNodeFieldConstraint[2] ),
buildContext.getRuleBase().getConfiguration() );
break;
case 4:
betaSourceConstraints = new QuadroupleBetaConstraints( list.toArray( new BetaNodeFieldConstraint[2] ),
buildContext.getRuleBase().getConfiguration() );
break;
default:
betaSourceConstraints = new DefaultBetaConstraints( list.toArray( new BetaNodeFieldConstraint[2] ),
buildContext.getRuleBase().getConfiguration() );
break;
}
MVELDialectRuntimeData data = (MVELDialectRuntimeData) buildContext.getRuleBase().getPackage( buildContext.getRule().getPackageName() ).getDialectRuntimeRegistry().getDialectData( "mvel" );
data.onAdd( null, ((InternalRuleBase) buildContext.getRuleBase()).getRootClassLoader() );
//MvelD data = (MVELDialectRuntimeData) buildContext.getRuleBase().getPackage( buildContext.getRule().getName() ).getDialectRuntimeRegistry().getDialectData( "mvel" );
NodeTestCase testCase = (NodeTestCase) context.get( "TestCase" );
try {
for ( String imp : testCase.getImports() ) {
if ( imp.endsWith( ".*" ) ) {
data.addPackageImport( imp.substring( 0,
imp.lastIndexOf( '.' ) ) );
} else {
//classImports.add( imp );
cls = data.getRootClassLoader().loadClass( imp ) ;
data.addImport( cls.getSimpleName(), cls);
}
}
} catch (Exception e) {
throw new RuntimeException("Unable to load class",e );
}
Declaration decl = (Declaration) context.get( expr );
// build an external function executor
MVELCompilationUnit compilationUnit = new MVELCompilationUnit( name,
expr,
new String[]{}, // global identifiers
new EvaluatorWrapper[]{}, // operator identifiers
new Declaration[]{}, // previous declarations
new Declaration[]{decl}, // local declarations
new String[]{}, // other identifiers
new String[]{"this", "drools", "kcontext", "rule", decl.getIdentifier()}, // input identifiers
new String[]{Object.class.getName(), KnowledgeHelper.class.getName(), KnowledgeHelper.class.getName(), Rule.class.getName(), decl.getValueType().getClassType().getName()}, // input types
4,
false,
false );
AccumulateFunction accFunction = new SumAccumulateFunction();
Accumulator accumulator = new MVELAccumulatorFunctionExecutor( compilationUnit,
accFunction );
((MVELCompileable) accumulator).compile( data );
Accumulate accumulate = new Accumulate( sourcePattern,
new Declaration[]{}, // required declaration
new Accumulator[]{accumulator},
false );
AccumulateNode accNode = new AccumulateNode( buildContext.getNextId(),
leftTupleSource,
rightObjectSource,
alphaResultConstraint,
betaSourceConstraints,
new EmptyBetaConstraints(),
accumulate,
false,
buildContext );
accNode.attach(buildContext);
context.put( name,
accNode );
} else {
StringBuilder msgBuilder = new StringBuilder();
msgBuilder.append( "Can not parse AccumulateNode step arguments: \n" );
for ( String[] arg : args ) {
msgBuilder.append( " " );
msgBuilder.append( Arrays.toString( arg ) );
msgBuilder.append( "\n" );
}
throw new IllegalArgumentException( msgBuilder.toString() );
}
}
}