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c6af94350830a38824fb69ca21b8b4bb111a1f49
C-Plus-Plus/search/binary_search.cpp
realstealthninja c6af943508 fix: add cstdint header to all files using fixed width integers (#2717) 
* fix: add <cstdint> to subset_sum.cpp

* fix: add <cstdint> to subarray_sum.cpp

* fix: add <cstdint> to wildcard_matching.cpp

* fix: add <cstdint> to count_bit_flips.cpp

* fix: add <cstdint> to count_of_set_bits.cpp

* fix: add <cstdint> to trailing_ciphers.cpp

* fix: add <cstdint> to hamming_distance.cpp

* doc: include doc for hamming_distance

* fix: add <cstdint> to next_higher_numebr_with_same_number_of_set_bits.cpp

* fix: add <cstdint> to power_of_2.cpp

* fix: add <cstdint> to set_kth_bit.cpp

* fix: add <cstdint> to bit_manipulation/set_kth_bit.cpp

* fix: add <cstdint> to bit_manipulation/travelling_salesman_using_bit_manipulation.cpp

* fix: add <cstdint> to ciphers/base64_encoding.cpp

* fix: add <cstdint> to ciphers/hill_cipher.cpp

* fix: add <cstdint> to ciphers/uint128_t.hpp

* fix: add <cstdint> to data_structures/dsu_path_compression.cpp

* fix: add <cstdint> to data_structures/dsu_path_compression.cpp

* fix add <cstdint> to datastructures/list_array>cpp

* fix add <cstdint> to datastructures/queue_using_array.cpp

* fix: add <cstdint> to sparse_table.cpp

* fix: add <cstdint> to stack_using_list_queue.cpp

* fix: add <cstdint> to treap.cpp

* fix: add <cstdint> to graham_scan_functions.hpp

* fix: add <cstdint> to graph/**

* fix: add integral typdefs to hashing/**

* fix: add <cstdint> to math/**

* fix: add <cstdint> to numerical_methods/**

* fix: add <cstdint> to other/**

* fix: add <cstdint> to search/**

* fix: add <cstdint> to sorting/**

* fix: add <cstdint> to string/**

* doc: remove include statement from comment

* fix: make tests static

Co-authored-by: David Leal <halfpacho@gmail.com>

* fix: make tests static

Co-authored-by: David Leal <halfpacho@gmail.com>

* chore: use iwyu on backtracking/**.cpp

* chore: use iwyu on bit_manip/**.cpp

* chore: use iwyu on ciphers/**.cpp

* chore: use iwyu on cpu_scheduling_algorithms/**.cpp

* chore: use iwyu on data_structures/**.cpp

* chore: use iwyu on divide_and_conquer/**.cpp

* chore: use iwyu on geometry/**.cpp

* chore: use iwyu on graph/**.cpp

* chore: use iwyu on hashing/**.cpp

* chore: use iwyu on machine_learning/**.cpp

* chore: use iwyu on math/**.cpp

* chore: use iwyu on numerical_methods/**.cpp

* chore: use iwyu on others/**.cpp

* chore: use iwyu on probablity/**.cpp

* chore: use iwyu on search/**.cpp

* chore: use iwyu on sorting/**.cpp

* chore: use iwyu on strings/**.cpp

* Revert "chore: use iwyu on strings/**.cpp"

This reverts commit f2127456a8.

* Revert "chore: use iwyu on sorting/**.cpp"

This reverts commit a290ae7ee2.

* Revert "chore: use iwyu on search/**.cpp"

This reverts commit 19d136ae0f.

* Revert "chore: use iwyu on probablity/**.cpp"

This reverts commit 5dd7f82a34.

* Revert "chore: use iwyu on others/**.cpp"

This reverts commit 8a8fd42383.

* Revert "chore: use iwyu on numerical_methods/**.cpp"

This reverts commit eff2f44a50.

* Revert "chore: use iwyu on math/**.cpp"

This reverts commit c47117ca3f.

* Revert "chore: use iwyu on machine_learning/**.cpp"

This reverts commit c3897d3763.

* Revert "chore: use iwyu on hashing/**.cpp"

This reverts commit 0c6611a835.

* Revert "chore: use iwyu on graph/**.cpp"

This reverts commit dabd6d2591.

* Revert "chore: use iwyu on geometry/**.cpp"

This reverts commit 740bd65932.

* Revert "chore: use iwyu on divide_and_conquer/**.cpp"

This reverts commit 16ee49e086.

* Revert "chore: use iwyu on data_structures/**.cpp"

This reverts commit a3b719e368.

* Revert "chore: use iwyu on cpu_scheduling_algorithms/**.cpp"

This reverts commit 24e597f7e2.

* Revert "chore: use iwyu on ciphers/**.cpp"

This reverts commit 3d80295883.

* Revert "chore: use iwyu on bit_manip/**.cpp"

This reverts commit 7edcb6e458.

* Revert "chore: use iwyu on backtracking/**.cpp"

This reverts commit f0a30d7cdb.

* Update search/binary_search.cpp

* Update backtracking/subarray_sum.cpp

* Update backtracking/subset_sum.cpp

* Update backtracking/wildcard_matching.cpp

* Update bit_manipulation/count_bits_flip.cpp

* Update bit_manipulation/count_of_set_bits.cpp

* Update bit_manipulation/count_of_trailing_ciphers_in_factorial_n.cpp

* Update bit_manipulation/hamming_distance.cpp

* Update bit_manipulation/next_higher_number_with_same_number_of_set_bits.cpp

* Update bit_manipulation/power_of_2.cpp

* Update others/lru_cache.cpp

* Update bit_manipulation/set_kth_bit.cpp

* Update bit_manipulation/travelling_salesman_using_bit_manipulation.cpp

* Update ciphers/base64_encoding.cpp

* Update ciphers/hill_cipher.cpp

* Update ciphers/uint128_t.hpp

* Update cpu_scheduling_algorithms/fcfs_scheduling.cpp

* Update data_structures/dsu_path_compression.cpp

* Update data_structures/dsu_union_rank.cpp

* Update data_structures/list_array.cpp

* Update data_structures/queue_using_array.cpp

* Update data_structures/sparse_table.cpp

* Update data_structures/stack_using_queue.cpp

* Update data_structures/treap.cpp

* Update geometry/graham_scan_functions.hpp

* Update graph/bidirectional_dijkstra.cpp

* Update graph/connected_components_with_dsu.cpp

* Update graph/cycle_check_directed_graph.cpp

* Update graph/is_graph_bipartite2.cpp

* Update graph/travelling_salesman_problem.cpp

* Update hashing/md5.cpp

* Update hashing/sha1.cpp

* Update math/n_choose_r.cpp

* Update strings/z_function.cpp

* Update strings/manacher_algorithm.cpp

* Update sorting/wiggle_sort.cpp

* Update sorting/selection_sort_recursive.cpp

* Update sorting/selection_sort_iterative.cpp

* Update sorting/recursive_bubble_sort.cpp

* Update sorting/radix_sort2.cpp

* Update sorting/dnf_sort.cpp

* Update sorting/cycle_sort.cpp

* Update search/sublist_search.cpp

* Update search/saddleback_search.cpp

* Update search/interpolation_search.cpp

* Update search/floyd_cycle_detection_algo.cpp

* Update search/exponential_search.cpp

* Update search/exponential_search.cpp

* Update math/n_bonacci.cpp

* Update math/aliquot_sum.cpp

* Update math/check_factorial.cpp

* Update math/double_factorial.cpp

* Update math/eulers_totient_function.cpp

* Update math/factorial.cpp

* Update math/fibonacci.cpp

* Update math/fibonacci_matrix_exponentiation.cpp

* Update math/fibonacci_sum.cpp

* Update math/finding_number_of_digits_in_a_number.cpp

* chore: remove "/// for integral typedefs"

* chore: remove for integral typedefs from modular division

* fix: remove comment from include

* fix: add cstdint to gale shapely

---------

Co-authored-by: David Leal <halfpacho@gmail.com>
2024-11-04 17:38:54 +05:30

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/******************************************************************************
* @file
* @brief [Binary search
* algorithm](https://en.wikipedia.org/wiki/Binary_search_algorithm)
* @details
* Binary search is a search algorithm that finds the position of a target value
* within a sorted array.Just like looking for a word in a dictionary, in binary search we compare the target value to the middle
* element of the array. If they are not equal, then the half in which the target
* cannot lie is eliminated and the search continues on the remaining half,
* again taking the middle element to compare to the target value, and repeating
* this until the target value is found. If the search ends with the remaining
* half being empty, the target is not in the array.
*
* ### Implementation
*
* Binary search works on sorted arrays. It begins by comparing an
* element in the middle of the array with the target value. If the target value
* matches the element, its position in the array is returned. If the target
* value is less than the element, the search continues in the lower half of
* the array. If the target value is greater than the element, the search
* continues in the upper half of the array. By doing this, the algorithm
* eliminates the half in which the target value cannot lie in each iteration.
*
* ### Complexities
*
* //n is the number of element in the array.
*
* Worst-case time complexity O(log n)
* Best-case time complexity O(1)
* Average time complexity O(log n)
* space complexity 0(1)
* Worst-case space complexity 0(1)
*
* @author [Lajat Manekar](https://github.com/Lazeeez)
* @author Unknown author
*******************************************************************************/
#include <algorithm> /// for std::sort function
#include <cassert> /// for std::assert
#include <cstdint>
#include <iostream> /// for IO operations
#include <vector> /// for std::vector
/******************************************************************************
* @namespace search
* @brief Searching algorithms
*******************************************************************************/
namespace search {
/******************************************************************************
* @namespace binary_search
* @brief Binary search searching algorihm
*******************************************************************************/
namespace binary_search {
/******************************************************************************
* @brief The main function which implements binary search
* @param arr vector to be searched in
* @param val value to be searched
* @returns @param int index of val in vector arr
*******************************************************************************/
uint64_t binarySearch(std::vector<uint64_t> arr, uint64_t val) {
uint64_t low = 0; // set the lowest point of the vector.
uint64_t high = arr.size() - 1; // set the highest point of the vector.
while (low <= high) {
uint64_t m = low + (high - low) / 2; // set the pivot point
if (val == arr[m]) {
return m;
} /****************************************************
* if pivot point is the val, return it,
* else check if val is greater or smaller than pivot value
* and set the next pivot point accordingly.
****************************************************/
else if (val < arr[m]) {
high = m - 1;
} else {
low = m + 1;
}
}
return -1; // if val is not in the array, return -1.
}
} // namespace binary_search
} // namespace search
/*******************************************************************************
* @brief Self-test implementation #1
* @returns void
*******************************************************************************/
static void test1() {
// testcase #1
// array = [1,3,5,7,9,8,6,4,2] , Value = 4
// should return 3
std::vector<uint64_t> arr = {{1, 3, 5, 7, 9, 8, 6, 4, 2}};
std::sort(arr.begin(), arr.end());
uint64_t expected_ans = 3;
uint64_t derived_ans = search::binary_search::binarySearch(arr, 4);
std::cout << "Test #1: ";
assert(derived_ans == expected_ans);
std::cout << "Passed!" << std::endl;
}
/*******************************************************************************
* @brief Self-test implementation #2
* @returns void
*******************************************************************************/
void test2() {
// testcase #2
// array = [1,23,25,4,2] , Value = 25
// should return 4
std::vector<uint64_t> arr = {{1, 23, 25, 4, 2}};
std::sort(arr.begin(), arr.end());
uint64_t expected_ans = 4;
uint64_t derived_ans = search::binary_search::binarySearch(arr, 25);
std::cout << "Test #2: ";
assert(derived_ans == expected_ans);
std::cout << "Passed!" << std::endl;
}
/*******************************************************************************
* @brief Self-test implementation #3
* @returns void
*******************************************************************************/
void test3() {
// testcase #3
// array = [1,31,231,12,12,2,5,51,21,23,12,3] , Value = 5
// should return 8
std::vector<uint64_t> arr = {{1, 31, 231, 12, 2, 5, 51, 21, 23, 12, 3}};
std::sort(arr.begin(), arr.end());
uint64_t expected_ans = 8;
uint64_t derived_ans = search::binary_search::binarySearch(arr, 31);
std::cout << "Test #3: ";
assert(derived_ans == expected_ans);
std::cout << "Passed!" << std::endl;
}
/*******************************************************************************
* @brief Main function
* @returns 0 on exit
*******************************************************************************/
int main() {
test1(); // run self-test implementation #1
test2(); // run self-test implementation #2
test3(); // run self-test implementation #3
return 0;
}
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