/*
* Written by Doug Lea with assistance from members of JCP JSR-166
* Expert Group and released to the public domain, as explained at
* http://creativecommons.org/licenses/publicdomain
*/
package extra166y;
import jsr166y.*;
import static extra166y.Ops.*;
import java.util.*;
import java.util.concurrent.atomic.*;
import java.lang.reflect.Array;
/**
* A prefix view of ParallelArray that causes operations to apply
* to mappings of elements, not to the elements themselves.
* Instances of this class may be constructed only via prefix
* methods of ParallelArray or its other prefix classes.
*/
public abstract class ParallelArrayWithMapping<T,U> extends AbstractParallelAnyArray.OPap<T> {
ParallelArrayWithMapping(ForkJoinPool ex, int origin, int fence,
T[] array) {
super(ex, origin, fence, array);
}
/**
* Applies the given procedure to elements
* @param procedure the procedure
*/
public void apply(Procedure<? super U> procedure) {
ex.invoke(new PAS.FJOApply(this, origin, fence, null, procedure));
}
/**
* Returns reduction of elements
* @param reducer the reducer
* @param base the result for an empty array
* @return reduction
*/
public U reduce(Reducer<U> reducer, U base) {
PAS.FJOReduce f = new PAS.FJOReduce
(this, origin, fence, null, reducer, base);
ex.invoke(f);
return (U)(f.result);
}
/**
* Returns some element matching bound and filter
* constraints, or null if none.
* @return an element, or null if none.
*/
public U any() {
int i = anyIndex();
return (i < 0)? null : (U)oget(i);
}
/**
* Returns the minimum element, or null if empty
* @param comparator the comparator
* @return minimum element, or null if empty
*/
public U min(Comparator<? super U> comparator) {
return reduce(CommonOps.<U>minReducer(comparator), null);
}
/**
* Returns the minimum element, or null if empty,
* assuming that all elements are Comparables
* @return minimum element, or null if empty
* @throws ClassCastException if any element is not Comparable.
*/
public U min() {
return reduce((Reducer<U>)(CommonOps.castedMinReducer()), null);
}
/**
* Returns the maximum element, or null if empty
* @param comparator the comparator
* @return maximum element, or null if empty
*/
public U max(Comparator<? super U> comparator) {
return reduce(CommonOps.<U>maxReducer(comparator), null);
}
/**
* Returns the maximum element, or null if empty
* assuming that all elements are Comparables
* @return maximum element, or null if empty
* @throws ClassCastException if any element is not Comparable.
*/
public U max() {
return reduce((Reducer<U>)(CommonOps.castedMaxReducer()), null);
}
/**
* Returns summary statistics, using the given comparator
* to locate minimum and maximum elements.
* @param comparator the comparator to use for
* locating minimum and maximum elements
* @return the summary.
*/
public ParallelArray.SummaryStatistics<U> summary
(Comparator<? super U> comparator) {
PAS.FJOStats f = new PAS.FJOStats
(this, origin, fence, null, comparator);
ex.invoke(f);
return (ParallelArray.SummaryStatistics<U>)f;
}
/**
* Returns summary statistics, assuming that all elements are
* Comparables
* @return the summary.
*/
public ParallelArray.SummaryStatistics<U> summary() {
return summary((Comparator<? super U>)(CommonOps.castedComparator()));
}
/**
* Returns a new ParallelArray holding elements
* @return a new ParallelArray holding elements
*/
public ParallelArray<U> all() {
return new ParallelArray<U>(ex, (U[])allObjects(null));
}
/**
* Returns a new ParallelArray with the given element type
* holding elements
* @param elementType the type of the elements
* @return a new ParallelArray holding elements
*/
public ParallelArray<U> all(Class<? super U> elementType) {
return new ParallelArray<U>(ex, (U[])allObjects(elementType));
}
/**
* Returns an operation prefix that causes a method to operate
* on mapped elements of the array using the given op
* applied to current op's results
* @param op the op
* @return operation prefix
*/
public abstract <V> ParallelArrayWithMapping<T, V> withMapping
(Op<? super U, ? extends V> op);
/**
* Returns an operation prefix that causes a method to operate
* on mapped elements of the array using the given op
* applied to current op's results
* @param op the op
* @return operation prefix
*/
public abstract ParallelArrayWithDoubleMapping<T> withMapping
(ObjectToDouble<? super U> op);
/**
* Returns an operation prefix that causes a method to operate
* on mapped elements of the array using the given op
* applied to current op's results
* @param op the op
* @return operation prefix
*/
public abstract ParallelArrayWithLongMapping<T> withMapping
(ObjectToLong<? super U> op);
/**
* Returns an operation prefix that causes a method to operate
* on binary mappings of this array and the other array.
* @param combiner the combiner
* @param other the other array
* @return operation prefix
* @throws IllegalArgumentException if other array is a
* filtered view (all filters must precede all mappings).
*/
public <V,W,X> ParallelArrayWithMapping<T,W> withMapping
(BinaryOp<? super U, ? super V, ? extends W> combiner,
ParallelArrayWithMapping<X,V> other) {
if (other.hasFilter()) throw new IllegalArgumentException();
return withIndexedMapping
(AbstractParallelAnyArray.indexedMapper(combiner, other, origin));
}
/**
* Returns an operation prefix that causes a method to operate
* on binary mappings of this array and the other array.
* @param combiner the combiner
* @param other the other array
* @return operation prefix
* @throws IllegalArgumentException if other array is a
* filtered view (all filters must precede all mappings).
*/
public <V> ParallelArrayWithMapping<T,V> withMapping
(ObjectAndDoubleToObject<? super U, ? extends V> combiner,
ParallelDoubleArrayWithDoubleMapping other) {
if (other.hasFilter()) throw new IllegalArgumentException();
return withIndexedMapping
(AbstractParallelAnyArray.indexedMapper(combiner, other, origin));
}
/**
* Returns an operation prefix that causes a method to operate
* on binary mappings of this array and the other array.
* @param combiner the combiner
* @param other the other array
* @return operation prefix
* @throws IllegalArgumentException if other array is a
* filtered view (all filters must precede all mappings).
*/
public <V> ParallelArrayWithMapping<T,V> withMapping
(ObjectAndLongToObject<? super U, ? extends V> combiner,
ParallelLongArrayWithLongMapping other) {
if (other.hasFilter()) throw new IllegalArgumentException();
return withIndexedMapping
(AbstractParallelAnyArray.indexedMapper(combiner, other, origin));
}
/**
* Returns an operation prefix that causes a method to operate
* on binary mappings of this array and the other array.
* @param combiner the combiner
* @param other the other array
* @return operation prefix
* @throws IllegalArgumentException if other array is a
* filtered view (all filters must precede all mappings).
*/
public <V,W> ParallelArrayWithDoubleMapping<T> withMapping
(ObjectAndObjectToDouble<? super U, ? super V> combiner,
ParallelArrayWithMapping<W,V> other) {
if (other.hasFilter()) throw new IllegalArgumentException();
return withIndexedMapping
(AbstractParallelAnyArray.indexedMapper(combiner, other, origin));
}
/**
* Returns an operation prefix that causes a method to operate
* on binary mappings of this array and the other array.
* @param combiner the combiner
* @param other the other array
* @return operation prefix
* @throws IllegalArgumentException if other array is a
* filtered view (all filters must precede all mappings).
*/
public ParallelArrayWithDoubleMapping<T> withMapping
(ObjectAndDoubleToDouble<? super U> combiner,
ParallelDoubleArrayWithDoubleMapping other) {
if (other.hasFilter()) throw new IllegalArgumentException();
return withIndexedMapping
(AbstractParallelAnyArray.indexedMapper(combiner, other, origin));
}
/**
* Returns an operation prefix that causes a method to operate
* on binary mappings of this array and the other array.
* @param combiner the combiner
* @param other the other array
* @return operation prefix
* @throws IllegalArgumentException if other array is a
* filtered view (all filters must precede all mappings).
*/
public ParallelArrayWithDoubleMapping<T> withMapping
(ObjectAndLongToDouble<? super U> combiner,
ParallelLongArrayWithLongMapping other) {
if (other.hasFilter()) throw new IllegalArgumentException();
return withIndexedMapping
(AbstractParallelAnyArray.indexedMapper(combiner, other, origin));
}
/**
* Returns an operation prefix that causes a method to operate
* on binary mappings of this array and the other array.
* @param combiner the combiner
* @param other the other array
* @return operation prefix
* @throws IllegalArgumentException if other array is a
* filtered view (all filters must precede all mappings).
*/
public <V,W> ParallelArrayWithLongMapping<T> withMapping
(ObjectAndObjectToLong<? super U, ? super V> combiner,
ParallelArrayWithMapping<W,V> other) {
if (other.hasFilter()) throw new IllegalArgumentException();
return withIndexedMapping
(AbstractParallelAnyArray.indexedMapper(combiner, other, origin));
}
/**
* Returns an operation prefix that causes a method to operate
* on binary mappings of this array and the other array.
* @param combiner the combiner
* @param other the other array
* @return operation prefix
* @throws IllegalArgumentException if other array is a
* filtered view (all filters must precede all mappings).
*/
public ParallelArrayWithLongMapping<T> withMapping
(ObjectAndDoubleToLong<? super U> combiner,
ParallelDoubleArrayWithDoubleMapping other) {
if (other.hasFilter()) throw new IllegalArgumentException();
return withIndexedMapping
(AbstractParallelAnyArray.indexedMapper(combiner, other, origin));
}
/**
* Returns an operation prefix that causes a method to operate
* on binary mappings of this array and the other array.
* @param combiner the combiner
* @param other the other array
* @return operation prefix
* @throws IllegalArgumentException if other array is a
* filtered view (all filters must precede all mappings).
*/
public ParallelArrayWithLongMapping<T> withMapping
(ObjectAndLongToLong<? super U> combiner,
ParallelLongArrayWithLongMapping other) {
if (other.hasFilter()) throw new IllegalArgumentException();
return withIndexedMapping
(AbstractParallelAnyArray.indexedMapper(combiner, other, origin));
}
/**
* Returns an operation prefix that causes a method to operate
* on mappings of this array using the given mapper that
* accepts as arguments an element's current index and value
* (as mapped by preceding mappings, if any), and produces a
* new value.
* @param mapper the mapper
* @return operation prefix
*/
public abstract <V> ParallelArrayWithMapping<T,V> withIndexedMapping
(IntAndObjectToObject<? super U, ? extends V> mapper);
/**
* Returns an operation prefix that causes a method to operate
* on mappings of this array using the given mapper that
* accepts as arguments an element's current index and value
* (as mapped by preceding mappings, if any), and produces a
* new value.
* @param mapper the mapper
* @return operation prefix
*/
public abstract ParallelArrayWithDoubleMapping<T> withIndexedMapping
(IntAndObjectToDouble<? super U> mapper);
/**
* Returns an operation prefix that causes a method to operate
* on mappings of this array using the given mapper that
* accepts as arguments an element's current index and value
* (as mapped by preceding mappings, if any), and produces a
* new value.
* @param mapper the mapper
* @return operation prefix
*/
public abstract ParallelArrayWithLongMapping<T> withIndexedMapping
(IntAndObjectToLong<? super U> mapper);
/**
* Returns an Iterable view to sequentially step through mapped
* elements also obeying bound and filter constraints, without
* performing computations to evaluate them in parallel
* @return the Iterable view
*/
public Iterable<U> sequentially() {
return new Sequentially<U>();
}
}