INSA/be-graphes
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Clean code.

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Holt59 2018-03-10 20:45:55 +01:00
parent 094a2331af
commit 23341f1499
3 changed files with 30 additions and 25 deletions
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48
src/main/org/insa/algo/datastructures/BinaryHeap.java
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@ -20,27 +20,37 @@ import java.util.ArrayList;
*/ */
public class BinaryHeap<E extends Comparable<E>> { public class BinaryHeap<E extends Comparable<E>> {
private int currentSize; // Number of elements in heap // Number of elements in heap.
private int currentSize;
// Java genericity does not work with arrays. // The heap array. Java genericity does not work with arrays so we have to use
// We have to use an ArrayList // an ArrayList.
private ArrayList<E> array; // The heap array private ArrayList<E> array;
/** /**
* Construct the binary heap. * Construct a new empty binary heap.
*/ */
public BinaryHeap() { public BinaryHeap() {
this.currentSize = 0; this.currentSize = 0;
this.array = new ArrayList<E>(); this.array = new ArrayList<E>();
} }
// Constructor used for debug. /**
* Construct a copy of the given heap.
*
* @param heap Binary heap to copy.
*/
public BinaryHeap(BinaryHeap<E> heap) { public BinaryHeap(BinaryHeap<E> heap) {
this.currentSize = heap.currentSize; this.currentSize = heap.currentSize;
this.array = new ArrayList<E>(heap.array); this.array = new ArrayList<E>(heap.array);
} }
// Sets an element in the array /**
* Set an element at the given index.
*
* @param index Index at which the element should be set.
* @param value Element to set.
*/
private void arraySet(int index, E value) { private void arraySet(int index, E value) {
if (index == this.array.size()) { if (index == this.array.size()) {
this.array.add(value); this.array.add(value);
@ -51,41 +61,37 @@ public class BinaryHeap<E extends Comparable<E>> {
} }
/** /**
* Test if the heap is logically empty. * @return true if the heap is empty, false otherwise.
*
* @return true if empty, false otherwise.
*/ */
public boolean isEmpty() { public boolean isEmpty() {
return this.currentSize == 0; return this.currentSize == 0;
} }
/** /**
* Returns size. * @return Current size (number of elements) of this heap.
*
* @return current size.
*/ */
public int size() { public int size() {
return this.currentSize; return this.currentSize;
} }
/** /**
* Returns index of parent. * @return Index of the parent of the given index.
*/ */
private int index_parent(int index) { private int index_parent(int index) {
return (index - 1) / 2; return (index - 1) / 2;
} }
/** /**
* Returns index of left child. * @return Index of the left child of the given index.
*/ */
private int index_left(int index) { private int index_left(int index) {
return index * 2 + 1; return index * 2 + 1;
} }
/** /**
* Insert into the heap. * Insert the given element into the heap.
* *
* @param x the item to insert. * @param x Item to insert.
*/ */
public void insert(E x) { public void insert(E x) {
int index = this.currentSize++; int index = this.currentSize++;
@ -96,7 +102,7 @@ public class BinaryHeap<E extends Comparable<E>> {
/** /**
* Internal method to percolate up in the heap. * Internal method to percolate up in the heap.
* *
* @param index the index at which the percolate begins. * @param index Index at which the percolate begins.
*/ */
private void percolateUp(int index) { private void percolateUp(int index) {
E x = this.array.get(index); E x = this.array.get(index);
@ -114,7 +120,7 @@ public class BinaryHeap<E extends Comparable<E>> {
/** /**
* Internal method to percolate down in the heap. * Internal method to percolate down in the heap.
* *
* @param index the index at which the percolate begins. * @param index Index at which the percolate begins.
*/ */
private void percolateDown(int index) { private void percolateDown(int index) {
int ileft = index_left(index); int ileft = index_left(index);
@ -148,7 +154,7 @@ public class BinaryHeap<E extends Comparable<E>> {
/** /**
* Find the smallest item in the heap. * Find the smallest item in the heap.
* *
* @return the smallest item in the heap. * @return The smallest item in the heap.
* *
* @throws RuntimeException if this heap is empty. * @throws RuntimeException if this heap is empty.
*/ */
@ -161,7 +167,7 @@ public class BinaryHeap<E extends Comparable<E>> {
/** /**
* Remove the smallest item from the heap. * Remove the smallest item from the heap.
* *
* @return the smallest item in the heap. * @return The smallest item in the heap.
* *
* @throws RuntimeException if this heap is empty. * @throws RuntimeException if this heap is empty.
*/ */

2
src/main/org/insa/algo/weakconnectivity/WeaklyConnectedComponentsAlgorithm.java
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@ -17,7 +17,7 @@ public class WeaklyConnectedComponentsAlgorithm
extends AbstractAlgorithm<WeaklyConnectedComponentObserver> { extends AbstractAlgorithm<WeaklyConnectedComponentObserver> {
/** /**
* @param data * @param data Input data for this algorithm.
*/ */
public WeaklyConnectedComponentsAlgorithm(WeaklyConnectedComponentsData data) { public WeaklyConnectedComponentsAlgorithm(WeaklyConnectedComponentsData data) {
super(data); super(data);

3
src/main/org/insa/algo/weakconnectivity/WeaklyConnectedComponentsData.java
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@ -6,8 +6,7 @@ import org.insa.graph.Graph;
public class WeaklyConnectedComponentsData extends AbstractInputData { public class WeaklyConnectedComponentsData extends AbstractInputData {
/** /**
* * @param graph Graph for which components should be retrieved.
* @param graph
*/ */
public WeaklyConnectedComponentsData(Graph graph) { public WeaklyConnectedComponentsData(Graph graph) {
super(graph); super(graph);