W Javie sterta jest specjalnym typem struktury danych, w której węzeł główny lub węzeł nadrzędny jest porównywany z jego lewym i prawym dzieckiem i układany według kolejności. Załóżmy, że x jest węzłem głównym, a y jest węzłem podrzędnym, właściwością klucz (x)<= key(y)< strong>wygeneruje min-heap i ta relacja jest nazywana „Właściwość sterty” .

Na podstawie kolejności węzłów nadrzędnych i podrzędnych stertę można sklasyfikować w dwóch formach, tj. sterty minimalnej i sterty maksymalnej. Rozumiemy oba po kolei i zaimplementujmy kod w Javie.

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Min. sterta

Min sterta to specjalny typ struktury danych sterty, która sama w sobie jest kompletnym drzewem binarnym. Min sterta ma następujące właściwości:

1. Wartość węzła głównego jest zawsze mniejsza w porównaniu do innych węzłów sterty.
2. Każdy węzeł wewnętrzny ma wartość klucza, która jest zawsze mniejsza lub równa jego dzieciom.

Na stercie Min możemy wykonać następujące trzy operacje:

wstaw węzeł()

Wstawienia na stertę Min możemy dokonać dodając nowy klucz na końcu drzewa. Jeśli wartość wstawionego klucza jest mniejsza niż jego węzeł nadrzędny, musimy przejść przez klucz w górę, aby spełnić właściwość sterty. Proces wstawiania zajmuje czas O(log n).

ekstraktMin()

Jest to jedna z najważniejszych operacji, którą wykonujemy, aby usunąć węzeł wartości minimalnej, czyli węzeł główny sterty. Po usunięciu węzła głównego musimy upewnić się, że właściwość sterty powinna zostać zachowana. Operacja ekstraktMin() zajmuje czas O(Logn), aby usunąć minimalny element ze sterty.

aplikacje do przetwarzania w chmurze

pobierzMin()

The pobierzMin() operacja służy do uzyskania węzła głównego sterty, tj. minimalnego elementu w czasie O(1).

Przykład:

Algorytm minimalnej sterty

 proceduredesign_min_heap Array arr: of size n =&gt; array of elements // call min_heapify procedure for each element of the array to form min heap repeat for (k = n/2 ; k &gt;= 1 ; k--) call procedure min_heapify (arr, k); proceduremin_heapify (vararr[ ] , var k, varn) { varleft_child = 2*k; varright_child = 2*k+1; var smallest; if(left_child<= n and arr[left_child ] <arr[ k ) smallest="left_child;" else if(right_child<="n" arr[right_child <arr[smallest] if(smallest !="k)" { swaparr[ arr[ ]); callmin_heapify (arr, smallest, n); } < pre> <p> <strong>MinHeapJavaImplementation.java</strong> </p> <pre> // import required classes and packages packagejavaTpoint.javacodes; importjava.util.Scanner; // create class MinHeap to construct Min heap in Java classMinHeap { // declare array and variables privateint[] heapData; privateintsizeOfHeap; privateintheapMaxSize; private static final int FRONT = 1; //use constructor to initialize heapData array publicMinHeap(intheapMaxSize) { this.heapMaxSize = heapMaxSize; this.sizeOfHeap = 0; heapData = new int[this.heapMaxSize + 1]; heapData[0] = Integer.MIN_VALUE; } // create getParentPos() method that returns parent position for the node privateintgetParentPosition(int position) { return position / 2; } // create getLeftChildPosition() method that returns the position of left child privateintgetLeftChildPosition(int position) { return (2 * position); } // create getRightChildPosition() method that returns the position of right child privateintgetRightChildPosition(int position) { return (2 * position) + 1; } // checks whether the given node is leaf or not privatebooleancheckLeaf(int position) { if (position &gt;= (sizeOfHeap / 2) &amp;&amp; position heapData[getLeftChildPosition(position)] || heapData[position] &gt;heapData[getRightChildPosition(position)]) { // swap with left child and then heapify the left child if (heapData[getLeftChildPosition(position)] = heapMaxSize) { return; } heapData[++sizeOfHeap] = data; int current = sizeOfHeap; while (heapData[current] <heapdata[getparentposition(current)]) { swap(current, getparentposition(current)); current="getParentPosition(current);" } crreatedisplayheap() method to print the data of heap public void displayheap() system.out.println('parent node' + '	' 'left child 'right node'); for (int k="1;" position--) minheapify(position); create removeroot() removing minimum element from publicintremoveroot() intpopelement="heapData[FRONT];" heapdata[front]="heapData[sizeOfHeap--];" minheapify(front); returnpopelement; minheapjavaimplementation class in java classminheapjavaimplementation{ main() start static main(string[] arg) declare variable intheapsize; scanner object sc="new" scanner(system.in); system.out.println('enter size min heap'); heapsize="sc.nextInt();" minheapheapobj="new" minheap(heapsize); for(inti="1;" i<="heapSize;" i++) system.out.print('enter '+i+' element: '); int heapobj.insertnode(data); close obj sc.close(); construct a given heapobj.designminheap(); display system.out.println('the is heapobj.displayheap(); root node system.out.println('after element(root node) '+heapobj.removeroot()+', is:'); < pre> <p> <strong>Output:</strong> </p> <img src="//techcodeview.com/img/java-tutorial/97/heap-implementation-java-2.webp" alt="Heap implementation in Java"> <h2>Max heap</h2> <p>Max heap is another special type of heap data structure that is also a complete binary tree in itself in Java. Max heap has the following properties:</p> <ol class="points"> <li>Root node value is always greater in comparison to the other nodes of the heap.</li> <li>Each internal node has a key value that is always greater or equal to its children.</li> </ol> <p>We can perform the following three operations in Max heap:</p> <h3>insertNode()</h3> <p>We can perform insertion in the Max heap by adding a new key at the end of the tree. If the value of the inserted key is greater than its parent node, we have to traverse the key upwards for fulfilling the heap property. The insertion process takes O(log n) time.</p> <h3>extractMax()</h3> <p>It is one of the most important operations which we perform to remove the maximum value node, i.e., the root node of the heap. After removing the root node, we have to make sure that heap property should be maintained. The extractMax() operation takes O(Log n) time to remove the maximum element from the heap.</p> <h3>getMax()</h3> <p>The <strong>getMax()</strong> operation is used to get the root node of the heap, i.e., maximum element in O(1) time.</p> <p> <strong>Example:</strong> </p> <img src="//techcodeview.com/img/java-tutorial/97/heap-implementation-java-3.webp" alt="Heap implementation in Java"> <p> <strong>Min heap Algorithm</strong> </p> <pre> proceduredesign_max_heap Array arr: of size n =&gt; array of elements // call min_heapify procedure for each element of the array to form max heap repeat for (k = n/2 ; k &gt;= 1 ; k--) call procedure max_heapify (arr, k); proceduremin_heapify (vararr[ ] , var k, varn) { varleft_child = 2*k + 1; varright_child = 2*k+ 2; if(left_childarr[ largest ] ) largest = left_child; else largest = k; if(right_childarr[largest] ) largest = right_child; if(largest != k) { swaparr[ k ] and arr[ largest ]); callmax_heapify (arr, largest, n); } } </pre> <p> <strong>MaxHeapJavaImplementation.java</strong> </p> <pre> //import required classes and packages packagejavaTpoint.javacodes; importjava.util.Scanner; //create class MinHeap to construct Min heap in Java classMaxHeap { // declare array and variables privateint[] heapData; privateintsizeOfHeap; privateintheapMaxSize; private static final int FRONT = 1; //use constructor to initialize heapData array publicMaxHeap(intheapMaxSize) { this.heapMaxSize = heapMaxSize; this.sizeOfHeap = 0; heapData = new int[this.heapMaxSize]; } // create getParentPos() method that returns parent position for the node privateintgetParentPosition(int position) { return (position - 1) / 2; } // create getLeftChildPosition() method that returns the position of left child privateintgetLeftChildPosition(int position) { return (2 * position); } // create getRightChildPosition() method that returns the position of right child privateintgetRightChildPosition(int position) { return (2 * position) + 1; } // checks whether the given node is leaf or not privatebooleancheckLeaf(int position) { if (position &gt; (sizeOfHeap / 2) &amp;&amp; position <= sizeofheap) { return true; } false; create swapnodes() method that perform swapping of the given nodes heap firstnode and secondnode are positions private void swap(intfirstnode, intsecondnode) int temp; temp="heapData[firstNode];" heapdata[firstnode]="heapData[secondNode];" heapdata[secondnode]="temp;" maxheapify() to heapify node for maintaining property maxheapify(int position) check whether is non-leaf greater than its right left child if (!checkleaf(position)) (heapdata[position] <heapdata[getleftchildposition(position)] || heapdata[position] heapdata[getrightchildposition(position)]) swap(position, getleftchildposition(position)); maxheapify(getleftchildposition(position)); swap with else getrightchildposition(position)); maxheapify(getrightchildposition(position)); insertnode() insert element in public insertnode(int data) heapdata[sizeofheap]="data;" current="sizeOfHeap;" while (heapdata[current]>heapData[getParentPosition(current)]) { swap(current, getParentPosition(current)); current = getParentPosition(current); } sizeOfHeap++; } // create displayHeap() method to print the data of the heap public void displayHeap() { System.out.println(&apos;PARENT NODE&apos; + &apos;	&apos; + &apos;LEFT CHILD NODE&apos; + &apos;	&apos; + &apos;RIGHT CHILD NODE&apos;); for (int k = 0; k <sizeofheap 2; k++) { system.out.print(' ' + heapdata[k] '		' heapdata[2 * k 1] 2]); system.out.println(); } create designmaxheap() method to construct min heap public void for (int position="0;" < (sizeofheap 2); position++) maxheapify(position); removeroot() removing maximum element from the publicintremoveroot() intpopelement="heapData[FRONT];" heapdata[front]="heapData[sizeOfHeap--];" maxheapify(front); returnpopelement; minheapjavaimplementation class in java classmaxheapjavaimplementation{ main() start static main(string[] arg) declare variable intheapsize; scanner object sc="new" scanner(system.in); system.out.println('enter size of max heap'); heapsize="sc.nextInt();" maxheapheapobj="new" maxheap(50); for(inti="1;" i<="heapSize;" i++) system.out.print('enter '+i+' element: '); int data="sc.nextInt();" heapobj.insertnode(data); close obj sc.close(); a given heapobj.designmaxheap(); display system.out.println('the is heapobj.displayheap(); root node system.out.println('after element(root node) '+heapobj.removeroot()+', is:'); pre> <p> <strong>Output:</strong> </p> <img src="//techcodeview.com/img/java-tutorial/97/heap-implementation-java-4.webp" alt="Heap implementation in Java"> <hr></sizeofheap></=></pre></heapdata[getparentposition(current)])></pre></=>

MaxHeapJavaImplementation.java

 //import required classes and packages packagejavaTpoint.javacodes; importjava.util.Scanner; //create class MinHeap to construct Min heap in Java classMaxHeap { // declare array and variables privateint[] heapData; privateintsizeOfHeap; privateintheapMaxSize; private static final int FRONT = 1; //use constructor to initialize heapData array publicMaxHeap(intheapMaxSize) { this.heapMaxSize = heapMaxSize; this.sizeOfHeap = 0; heapData = new int[this.heapMaxSize]; } // create getParentPos() method that returns parent position for the node privateintgetParentPosition(int position) { return (position - 1) / 2; } // create getLeftChildPosition() method that returns the position of left child privateintgetLeftChildPosition(int position) { return (2 * position); } // create getRightChildPosition() method that returns the position of right child privateintgetRightChildPosition(int position) { return (2 * position) + 1; } // checks whether the given node is leaf or not privatebooleancheckLeaf(int position) { if (position &gt; (sizeOfHeap / 2) &amp;&amp; position <= sizeofheap) { return true; } false; create swapnodes() method that perform swapping of the given nodes heap firstnode and secondnode are positions private void swap(intfirstnode, intsecondnode) int temp; temp="heapData[firstNode];" heapdata[firstnode]="heapData[secondNode];" heapdata[secondnode]="temp;" maxheapify() to heapify node for maintaining property maxheapify(int position) check whether is non-leaf greater than its right left child if (!checkleaf(position)) (heapdata[position] <heapdata[getleftchildposition(position)] || heapdata[position] heapdata[getrightchildposition(position)]) swap(position, getleftchildposition(position)); maxheapify(getleftchildposition(position)); swap with else getrightchildposition(position)); maxheapify(getrightchildposition(position)); insertnode() insert element in public insertnode(int data) heapdata[sizeofheap]="data;" current="sizeOfHeap;" while (heapdata[current]>heapData[getParentPosition(current)]) { swap(current, getParentPosition(current)); current = getParentPosition(current); } sizeOfHeap++; } // create displayHeap() method to print the data of the heap public void displayHeap() { System.out.println(&apos;PARENT NODE&apos; + &apos;	&apos; + &apos;LEFT CHILD NODE&apos; + &apos;	&apos; + &apos;RIGHT CHILD NODE&apos;); for (int k = 0; k <sizeofheap 2; k++) { system.out.print(\' \' + heapdata[k] \'		\' heapdata[2 * k 1] 2]); system.out.println(); } create designmaxheap() method to construct min heap public void for (int position="0;" < (sizeofheap 2); position++) maxheapify(position); removeroot() removing maximum element from the publicintremoveroot() intpopelement="heapData[FRONT];" heapdata[front]="heapData[sizeOfHeap--];" maxheapify(front); returnpopelement; minheapjavaimplementation class in java classmaxheapjavaimplementation{ main() start static main(string[] arg) declare variable intheapsize; scanner object sc="new" scanner(system.in); system.out.println(\'enter size of max heap\'); heapsize="sc.nextInt();" maxheapheapobj="new" maxheap(50); for(inti="1;" i<="heapSize;" i++) system.out.print(\'enter \'+i+\' element: \'); int data="sc.nextInt();" heapobj.insertnode(data); close obj sc.close(); a given heapobj.designmaxheap(); display system.out.println(\'the is heapobj.displayheap(); root node system.out.println(\'after element(root node) \'+heapobj.removeroot()+\', is:\'); pre> <p> <strong>Output:</strong> </p> <img src="//techcodeview.com/img/java-tutorial/97/heap-implementation-java-4.webp" alt="Heap implementation in Java"> <hr></sizeofheap></=>