com.carrotsearch.hppcrt.FloatContainer Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of hppcrt Show documentation
Show all versions of hppcrt Show documentation
High Performance Primitive Collections Realtime
(fork of HPPC from Carrotsearch)
Fundamental data structures (maps, sets, lists, queues, heaps, sorts) generated for
combinations of object and primitive types to conserve JVM memory and speed
up execution. The Realtime fork intends to extend the existing collections, by tweaking to remove any dynamic allocations at runtime,
and to obtain low variance execution times whatever the input nature.
package com.carrotsearch.hppcrt;
import java.util.Iterator;
import com.carrotsearch.hppcrt.cursors.FloatCursor;
import com.carrotsearch.hppcrt.predicates.FloatPredicate;
import com.carrotsearch.hppcrt.procedures.FloatProcedure;
/**
* A generic container holding float
s. An overview of interface relationships
* is given in the figure below:
*
*
*/
@javax.annotation.Generated(date = "2014-10-25T20:54:13+0200", value = "HPPC-RT generated from: FloatContainer.java")
public interface FloatContainer extends Iterable
{
/**
* Returns an iterator to a cursor traversing the collection. The order of traversal
* is not defined. More than one cursor may be active at a time. The behavior of
* iterators is undefined if structural changes are made to the underlying collection.
*
* The iterator is implemented as a
* cursor and it returns the same cursor instance on every call to
* {@link Iterator#next()} (to avoid boxing of primitive types). To read the current
* list's value (or index in the list) use the cursor's public fields. An example is
* shown below.
*
*
* for (FloatCursor<float> c : container) {
* System.out.println("index=" + c.index + " value=" + c.value);
* }
*
*/
@Override
Iterator iterator();
/**
* Lookup a given element in the container. This operation has no speed
* guarantees (may be linear with respect to the size of this container).
*
* @return Returns true
if this container has an element
* equal to e
.
*/
boolean contains(float e);
/**
* Return the current number of elements in this container. The time for calculating
* the container's size may take O(n)
time, although implementing classes
* should try to maintain the current size and return in constant time.
*/
int size();
/**
* Return the maximum number of elements this container is guaranteed to hold without reallocating.
* The time for calculating the container's capacity may take O(n)
time.
*/
int capacity();
/**
* True if there is no elements in the container,
* equivalent to size() == 0
*/
boolean isEmpty();
/**
* Copies all elements from this container to an array.
* The returned array is sized to match exactly
* the number of elements of the container.
* If you need an array of the type identical with this container's generic type, use {@link #toArray(Class)}.
*
* @see #toArray(Class)
*/
public float [] toArray();
/**
* Copies all elements of this container to an existing array of the same type.
* @param target The target array must be large enough to hold all elements, i.e >= {@link #size()}.
* @return Returns the target argument for chaining.
*/
float[] toArray(float[] target);
/**
* Applies a procedure
to all container elements. Returns the argument (any
* subclass of {@link FloatProcedure}. This lets the caller to call methods of the argument
* by chaining the call (even if the argument is an anonymous type) to retrieve computed values,
* for example (IntContainer):
*
* int count = container.forEach(new IntProcedure() {
* int count; // this is a field declaration in an anonymous class.
* public void apply(int value) { count++; }}).count;
*
*/
T forEach(T procedure);
/**
* Applies a predicate
to container elements, as long as the predicate
* returns true
. The iteration is interrupted otherwise.
*/
T forEach(T predicate);
}