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Fix BinaryHeap/Search trees and associated tests.

Mikaël Capelle 6 years ago
parent
commit
c5518e7240

+ 1
- 1
src/main/org/insa/algo/utils/BinaryHeap.java View File

@@ -150,7 +150,7 @@ public class BinaryHeap<E extends Comparable<E>> implements PriorityQueue<E> {
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     @Override
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     public E findMin() throws EmptyPriorityQueueException {
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         if (isEmpty())
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-            throw new RuntimeException("Empty binary heap.");
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+            throw new EmptyPriorityQueueException();
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         return this.array.get(0);
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     }
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+ 45
- 4
src/test/org/insa/algo/utils/BinaryHeapTest.java View File

@@ -5,6 +5,7 @@ import static org.junit.Assert.assertFalse;
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 import static org.junit.Assert.assertTrue;
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 import java.util.Arrays;
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+import java.util.HashSet;
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 import java.util.stream.IntStream;
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 import org.junit.Before;
@@ -165,8 +166,28 @@ public class BinaryHeapTest {
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         int size1 = heap1.size();
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         int[] deleteOrder1 = new int[] { 12, 17, 18, 19, 4, 5, 3, 2, 0, 9, 10, 16, 8, 14, 13, 15, 7,
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                 6, 1, 11 };
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-        for (int x: deleteOrder1) {
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-            heap1.remove(this.data1[x]);
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+        for (int i = 0; i < deleteOrder1.length; ++i) {
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+            // Remove from structure
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+            heap1.remove(this.data1[deleteOrder1[i]]);
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+
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+            // Copy the remaining elements
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+            BinaryHeap<MutableInteger> copyTree = new BinaryHeap<>(heap1);
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+
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+            // Retrieve all remaining elements in both structures
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+            MutableInteger[] remains_in = new MutableInteger[deleteOrder1.length - i - 1],
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+                    remains_cp = new MutableInteger[deleteOrder1.length - i - 1];
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+            for (int j = 0; j < remains_cp.length; ++j) {
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+                remains_in[j] = this.data1[deleteOrder1[i + j + 1]];
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+                remains_cp[j] = copyTree.deleteMin();
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+            }
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+
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+            // Check that the copy is now empty, and that both list contains all
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+            // elements.
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+            assertTrue(copyTree.isEmpty());
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+            assertEquals(new HashSet<>(Arrays.asList(remains_in)),
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+                    new HashSet<>(Arrays.asList(remains_cp)));
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+
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+            // Check that the size of the original tree is correct.
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             assertEquals(--size1, heap1.size());
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         }
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         assertTrue(heap1.isEmpty());
@@ -174,8 +195,28 @@ public class BinaryHeapTest {
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         // heap 2
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         int size2 = heap2.size();
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         int[] deleteOrder2 = new int[] { 6, 5, 0, 1, 4, 2, 3 };
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-        for (int x: deleteOrder2) {
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-            heap2.remove(this.data2[x]);
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+        for (int i = 0; i < deleteOrder2.length; ++i) {
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+            // Remove from structure
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+            heap2.remove(this.data2[deleteOrder2[i]]);
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+
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+            // Copy the remaining elements
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+            BinaryHeap<MutableInteger> copyTree = new BinaryHeap<>(heap2);
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+
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+            // Retrieve all remaining elements in both structures
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+            MutableInteger[] remains_in = new MutableInteger[deleteOrder2.length - i - 1],
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+                    remains_cp = new MutableInteger[deleteOrder2.length - i - 1];
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+            for (int j = 0; j < remains_cp.length; ++j) {
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+                remains_in[j] = this.data2[deleteOrder2[i + j + 1]];
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+                remains_cp[j] = copyTree.deleteMin();
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+            }
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+
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+            // Check that the copy is now empty, and that both list contains all
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+            // elements.
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+            assertTrue(copyTree.isEmpty());
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+            assertEquals(new HashSet<>(Arrays.asList(remains_in)),
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+                    new HashSet<>(Arrays.asList(remains_cp)));
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+
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+            // Check that the size of the original tree is correct.
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             assertEquals(--size2, heap2.size());
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         }
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         assertTrue(heap2.isEmpty());

+ 45
- 4
src/test/org/insa/algo/utils/BinarySearchTreeTest.java View File

@@ -5,6 +5,7 @@ import static org.junit.Assert.assertFalse;
5 5
 import static org.junit.Assert.assertTrue;
6 6
 
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 import java.util.Arrays;
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+import java.util.HashSet;
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 import java.util.stream.IntStream;
9 10
 
10 11
 import org.junit.Before;
@@ -165,8 +166,28 @@ public class BinarySearchTreeTest {
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         int size1 = searchTree1.size();
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         int[] deleteOrder1 = new int[] { 12, 17, 18, 19, 4, 5, 3, 2, 0, 9, 10, 16, 8, 14, 13, 15, 7,
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                 6, 1, 11 };
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-        for (int x: deleteOrder1) {
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-            searchTree1.remove(this.data1[x]);
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+        for (int i = 0; i < deleteOrder1.length; ++i) {
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+            // Remove from structure
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+            searchTree1.remove(this.data1[deleteOrder1[i]]);
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+
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+            // Copy the remaining elements
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+            BinarySearchTree<MutableInteger> copyTree = new BinarySearchTree<>(searchTree1);
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+
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+            // Retrieve all remaining elements in both structures
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+            MutableInteger[] remains_in = new MutableInteger[deleteOrder1.length - i - 1],
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+                    remains_cp = new MutableInteger[deleteOrder1.length - i - 1];
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+            for (int j = 0; j < remains_cp.length; ++j) {
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+                remains_in[j] = this.data1[deleteOrder1[i + j + 1]];
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+                remains_cp[j] = copyTree.deleteMin();
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+            }
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+
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+            // Check that the copy is now empty, and that both list contains all
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+            // elements.
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+            assertTrue(copyTree.isEmpty());
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+            assertEquals(new HashSet<>(Arrays.asList(remains_in)),
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+                    new HashSet<>(Arrays.asList(remains_cp)));
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+
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+            // Check that the size of the original tree is correct.
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             assertEquals(--size1, searchTree1.size());
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         }
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         assertTrue(searchTree1.isEmpty());
@@ -174,8 +195,28 @@ public class BinarySearchTreeTest {
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         // searchTree 2
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         int size2 = searchTree2.size();
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         int[] deleteOrder2 = new int[] { 6, 5, 0, 1, 4, 2, 3 };
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-        for (int x: deleteOrder2) {
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-            searchTree2.remove(this.data2[x]);
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+        for (int i = 0; i < deleteOrder2.length; ++i) {
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+            // Remove from structure
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+            searchTree2.remove(this.data2[deleteOrder2[i]]);
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+
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+            // Copy the remaining elements
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+            BinarySearchTree<MutableInteger> copyTree = new BinarySearchTree<>(searchTree2);
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+
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+            // Retrieve all remaining elements in both structures
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+            MutableInteger[] remains_in = new MutableInteger[deleteOrder2.length - i - 1],
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+                    remains_cp = new MutableInteger[deleteOrder2.length - i - 1];
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+            for (int j = 0; j < remains_cp.length; ++j) {
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+                remains_in[j] = this.data2[deleteOrder2[i + j + 1]];
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+                remains_cp[j] = copyTree.deleteMin();
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+            }
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+
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+            // Check that the copy is now empty, and that both list contains all
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+            // elements.
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+            assertTrue(copyTree.isEmpty());
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+            assertEquals(new HashSet<>(Arrays.asList(remains_in)),
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+                    new HashSet<>(Arrays.asList(remains_cp)));
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+
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+            // Check that the size of the original tree is correct.
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             assertEquals(--size2, searchTree2.size());
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         }
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         assertTrue(searchTree2.isEmpty());

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