/*
* Chrysalix
* See the COPYRIGHT.txt file distributed with this work for information
* regarding copyright ownership. Some portions may be licensed
* to Red Hat, Inc. under one or more contributor license agreements.
* See the AUTHORS.txt file in the distribution for a full listing of
* individual contributors.
*
* Chrysalix is free software. Unless otherwise indicated, all code in Chrysalix
* is licensed to you under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation; either version 2.1 of
* the License, or (at your option) any later version.
*
* Chrysalix is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this software; if not, write to the Free
* Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
* 02110-1301 USA, or see the FSF site: http://www.fsf.org.
*/
package org.chrysalix.operation;
import org.chrysalix.ChrysalixException;
import org.chrysalix.ChrysalixI18n;
import org.chrysalix.transformation.Operation;
import org.chrysalix.transformation.OperationDescriptor;
import org.chrysalix.transformation.Transformation;
import org.chrysalix.transformation.TransformationFactory;
import org.chrysalix.transformation.ValidationProblem;
import org.chrysalix.transformation.ValidationProblems;
import org.chrysalix.transformation.Value;
import org.chrysalix.transformation.ValueDescriptor;
import org.modelspace.ModelObject;
import org.modelspace.ModelspaceException;
/**
* Computes the median value of a collection of number terms.
*/
public final class Median extends AbstractOperation< Number > {
private static String ADD_OPERATION_NOT_FOUND = "Add operation child of the median operation was not found";
static final String DESCRIPTION = "Computes the median value of a collection of numeric terms";
private static String DIVIDE_OPERATION_NOT_FOUND = "Divide operation child of the median operation was not found";
private static final String ERROR = "Median operation in transformation '%s' failed to calculate";
private static final String INPUT_DESCRIPTION = "An input term used to determine the median value of a set of terms.";
private static final String INPUT_NAME = "Input";
static final String NAME = "Median";
/**
* The input term descriptor.
*/
public static final ValueDescriptor< Number > TERM_DESCRIPTOR =
TransformationFactory.createValueDescriptor( TransformationFactory.createId( Median.class, "input" ),
ChrysalixI18n.localize( INPUT_DESCRIPTION ),
ChrysalixI18n.localize( INPUT_NAME ),
Number.class,
true,
1,
true );
/**
* The input descriptors.
*/
private static final ValueDescriptor< ? >[] INPUT_DESCRIPTORS = { TERM_DESCRIPTOR };
/**
* The output descriptor.
*/
public static final OperationDescriptor< Number > DESCRIPTOR =
new AbstractOperationDescriptor< Number >( TransformationFactory.createId( Median.class ),
ChrysalixI18n.localize( DESCRIPTION ),
ChrysalixI18n.localize( NAME ),
Number.class,
INPUT_DESCRIPTORS ) {
/**
* {@inheritDoc}
*
* @see org.chrysalix.transformation.OperationDescriptor#newInstance(org.modelspace.ModelObject,
* org.chrysalix.transformation.Transformation)
*/
@Override
public Operation< Number > newInstance( final ModelObject operation,
final Transformation transformation ) throws ModelspaceException, ChrysalixException {
return new Median( operation, transformation );
}
};
/**
* @param operation
* the operation model object (cannot be <code>null</code>)
* @param transformation
* the transformation containing this operation (cannot be <code>null</code>)
* @throws ModelspaceException
* if an error with the model object occurs
* @throws ChrysalixException
* if a non-model object error occurs
* @throws IllegalArgumentException
* if the input is <code>null</code>
*/
Median( final ModelObject operation,
final Transformation transformation ) throws ModelspaceException, ChrysalixException {
super( operation, transformation );
}
/**
* {@inheritDoc}
*
* @see org.chrysalix.operation.AbstractOperation#addInput(java.lang.String, java.lang.Object[])
*/
@Override
public void addInput( final String descriptorId,
final Object... valuesBeingAdded ) throws ChrysalixException {
if ( !isValidInputDescriptorId( descriptorId ) ) {
try {
throw new ChrysalixException( ChrysalixI18n.localize( ERROR_ADDING_OR_REMOVING_OPERATION_INPUT,
name(),
transformationId(),
descriptorId ) );
} catch ( final ModelspaceException e ) {
final ChrysalixException pe =
new ChrysalixException( ChrysalixI18n.localize( ERROR_ADDING_OR_REMOVING_OPERATION_INPUT_UNKNOWN_NAME,
transformationId(),
descriptorId ) );
pe.addSuppressed( e );
throw pe;
}
}
final Add add = addOperation();
add.addInput( Add.TERM_DESCRIPTOR.id(), valuesBeingAdded );
divideOperation().setInput( Divide.TERM_DESCRIPTOR.id(), add, valuesBeingAdded.length );
}
private Add addOperation() throws ChrysalixException {
ModelObject modelObject = null;
try {
modelObject = modelObect().child( Add.TERM_DESCRIPTOR.id() );
if ( modelObject == null ) {
throw new ChrysalixException( ChrysalixI18n.localize( ADD_OPERATION_NOT_FOUND ) );
}
return ( Add ) Add.DESCRIPTOR.newInstance( modelObject, transformation() );
} catch ( final ModelspaceException e ) {
throw new ChrysalixException( e, ChrysalixI18n.localize( ADD_OPERATION_NOT_FOUND ) );
}
}
/**
* {@inheritDoc}
*
* @see org.chrysalix.operation.AbstractOperation#calculate()
*/
@SuppressWarnings( "unchecked" )
@Override
protected Number calculate() throws ChrysalixException {
// assert !problems().isError();
//
// // convert terms to number terms
// final Value< ? >[] inputs = addOperation().inputs();
// final int size = inputs.length;
// final List< Value< Number >> numberTerms = new ArrayList<>( size );
//
// // OK to cast since this method should not be run if there is a non-number term
// for ( final Value< ? > term : inputs ) {
// numberTerms.add( ( Value< Number > ) term );
// }
//
// // sort values
// Collections.sort( numberTerms, Value.ASCENDING_NUMBER_SORTER );
//
// final boolean even = ( ( size & 1 ) == 0 );
// final int halfwayIndex = ( size / 2 );
//
// if ( even ) {
// final Value< ? > first = numberTerms.get( halfwayIndex - 1 );
// final Value< ? > second = numberTerms.get( halfwayIndex );
// final Add addOp = new Add( transformation() );
//
// try {
// addOp.addInput( Add.TERM_DESCRIPTOR.name(), first, second );
// final Number sum = addOp.get();
//
// final Divide divideOp = new Divide( transformation() );
// divideOp.addInput( Divide.TERM_DESCRIPTOR.name(), sum, 2 );
//
// return divideOp.get();
// } catch ( final ChrysalixException e ) {
// final ValidationProblem problem =
// TransformationFactory.createError( transformationId(),
// ChrysalixI18n.localize( ERROR, transformationId() ) );
// problems().add( problem );
// }
// }
//
// return numberTerms.get( halfwayIndex ).get();
// TODO impl
return 0;
}
private Divide divideOperation() throws ChrysalixException {
ModelObject modelObject = null;
try {
modelObject = modelObect().child( Divide.TERM_DESCRIPTOR.id() );
if ( modelObject == null ) {
throw new ChrysalixException( ChrysalixI18n.localize( DIVIDE_OPERATION_NOT_FOUND ) );
}
return ( Divide ) Divide.DESCRIPTOR.newInstance( modelObject, transformation() );
} catch ( final ModelspaceException e ) {
throw new ChrysalixException( e, ChrysalixI18n.localize( DIVIDE_OPERATION_NOT_FOUND ) );
}
}
/**
* {@inheritDoc}
*
* @see org.chrysalix.operation.AbstractOperation#problems()
*/
@Override
public ValidationProblems problems() throws ChrysalixException {
this.problems.clear();
// make sure there are terms
if ( inputs().length == 0 ) {
final ValidationProblem problem =
TransformationFactory.createError( transformationId(),
ChrysalixI18n.localize( AbstractOperation.HAS_NO_TERMS,
NAME,
transformationId() ) );
problems().add( problem );
} else {
if ( inputs().length < INPUT_DESCRIPTORS[ 0 ].requiredValueCount() ) {
final ValidationProblem problem =
TransformationFactory.createError( transformationId(),
ChrysalixI18n.localize( AbstractOperation.INVALID_TERM_COUNT,
NAME,
transformationId(),
inputs().length ) );
problems().add( problem );
}
// make sure all the terms have types of Number
for ( final Value< ? > term : inputs() ) {
Object value;
try {
value = term.get();
if ( !( value instanceof Number ) ) {
final ValidationProblem problem =
TransformationFactory.createError( transformationId(),
ChrysalixI18n.localize( AbstractOperation.INVALID_TERM_TYPE,
NAME,
transformationId() ) );
problems().add( problem );
}
} catch ( final ChrysalixException e ) {
final ValidationProblem problem =
TransformationFactory.createError( transformationId(),
ChrysalixI18n.localize( AbstractOperation.OPERATION_VALIDATION_ERROR,
NAME,
transformationId() ) );
problems().add( problem );
}
}
}
return super.problems();
}
/**
* {@inheritDoc}
*
* @see org.chrysalix.operation.AbstractOperation#removeInput(java.lang.String, java.lang.Object[])
*/
@Override
public void removeInput( final String descriptorId,
final Object... valuesBeingRemoved ) throws ChrysalixException {
if ( !isValidInputDescriptorId( descriptorId ) ) {
try {
throw new ChrysalixException( ChrysalixI18n.localize( ERROR_ADDING_OR_REMOVING_OPERATION_INPUT,
name(),
transformationId(),
descriptorId ) );
} catch ( final ModelspaceException e ) {
final ChrysalixException pe =
new ChrysalixException( ChrysalixI18n.localize( ERROR_ADDING_OR_REMOVING_OPERATION_INPUT_UNKNOWN_NAME,
transformationId(),
descriptorId ) );
pe.addSuppressed( e );
throw pe;
}
}
final Add add = addOperation();
add.removeInput( Add.TERM_DESCRIPTOR.id(), valuesBeingRemoved );
divideOperation().setInput( Divide.TERM_DESCRIPTOR.id(), add, add.inputs().length );
}
/**
* {@inheritDoc}
*
* @see org.chrysalix.operation.AbstractOperation#setInput(java.lang.String, java.lang.Object[])
*/
@Override
public void setInput( final String descriptorId,
final Object... valuesBeingSet ) throws ChrysalixException {
if ( !isValidInputDescriptorId( descriptorId ) ) {
try {
throw new ChrysalixException( ChrysalixI18n.localize( ERROR_ADDING_OR_REMOVING_OPERATION_INPUT,
name(),
transformationId(),
descriptorId ) );
} catch ( final ModelspaceException e ) {
final ChrysalixException pe =
new ChrysalixException( ChrysalixI18n.localize( ERROR_ADDING_OR_REMOVING_OPERATION_INPUT_UNKNOWN_NAME,
transformationId(),
descriptorId ) );
pe.addSuppressed( e );
throw pe;
}
}
final Add add = addOperation();
add.setInput( Add.TERM_DESCRIPTOR.id(), valuesBeingSet );
divideOperation().setInput( Divide.TERM_DESCRIPTOR.id(), add, valuesBeingSet.length );
}
}