struzik

Search/exponential_search.cpp

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+#include <iostream>
+#include <string>
+#include <assert.h>
+using namespaces std;
+
+//-----------------Binary Search Algorithm(use by struziki algorithm//-----------------
+//Time Complexity O(log n) where 'n' is the number of elements
+//Worst Time Complexity O(log n)
+//Best Time Complexity Ω(1)
+//Space Complexity O(1)
+//Auxiliary Space Complexity O(1)
+
+template<class Type> inline Type* binary_search(Type *array, size_t size, Type key) {//Parameter List:Pointer to and array|size of array|key what you search
+        int32_t lower_index(0), upper_index(size - 1),middle_index; //lower_index => start of search range | upper_index => end of search range | middle_index => middle of search range
+        while (lower_index <= upper_index)
+        {
+                middle_index = floor((lower_index + upper_index) / 2);
+                if (*(array + middle_index) < key) lower_index = (middle_index + 1); //if the key is smaller than the middle of search range, we narrow the search range from up
+                else if (*(array + middle_index) > key) upper_index = (middle_index - 1);//if the key is bigger than the middle of search range, we narrow the search range from down
+                else return (array + middle_index); //the key has been found
+        }
+        return nullptr;
+}
+
+//-----------------Struzik Search Algorithm(Exponential//-----------------
+//Time Complexity O(log i)where i is the position of the search key in the list
+//Worst Time Complexity O(log i)
+//Best Time Complexity Ω(1)
+//Space Complexity O(1)
+//Auxiliary Space Complexity O(1)
+
+template<class Type> Type* Struzik_Search(Type* array,size_t size,Type key) { //Parameter List: Pointer to an array(sorted)!You can use complex objectum, but in that case you have to overload '<>' operators!|size of array|key what you search
+        uint32_t block_front(0),block_size = size == 0 ? 0 : 1; //the start and end of the first block where the algorithm starts seach !if the size of array 0 than return null pointer
+        while (block_front != block_size) //when the start of block(block_front) and end of block(block_size) equal it means the key bigger than the last element of array and it return null pointer
+        {
+                if (*(array + block_size - 1) < key) {//if the key is bigger than the end of block we define a new block what is twice bigger than the previous
+                        block_front = block_size;
+                        (block_size * 2 - 1 < size) ? (block_size *= 2) : block_size = size;//if the end of new block bigger than size of array it takes the end of array
+                        continue;
+                }
+                //when the algorithm delimit the block where the key shold be we do a binary search there
+                return binary_search<Type>(array + block_front, (block_size - block_front), key);
+        }
+        return nullptr;
+}
+int main(){
+
+    //----------------TEST CASES----------------
+        int *sorted_array = new int[7]{ 7,10,15,23,70,105,203 };
+        assert(Struzik_Search<int>(sorted_array, 7, 0) == nullptr);     //Key smaller than the first element of array
+        assert(Struzik_Search<int>(sorted_array, 7, 1000) == nullptr);  //Key bigger than the last element of array
+        assert(Struzik_Search<int>(sorted_array, 7, 50) == nullptr);    //Key between the elemenets of array
+        assert(Struzik_Search<int>(sorted_array, 7, 7) == sorted_array);//Key is in the array !FOUND!
+    //----------------TEST CASES----------------
+   return EXIT_SUCCESS;
+}