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C-Plus-Plus/graph/is_graph_bipartite2.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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/**
* @brief Check whether a given graph is bipartite or not
* @details
* A bipartite graph is the one whose nodes can be divided into two
* disjoint sets in such a way that the nodes in a set are not
* connected to each other at all, i.e. no intra-set connections.
* The only connections that exist are that of inter-set,
* i.e. the nodes from one set are connected to a subset of nodes
* in the other set.
* In this implementation, using a graph in the form of adjacency
* list, check whether the given graph is a bipartite or not.
*
* References used:
* [GeeksForGeeks](https://www.geeksforgeeks.org/bipartite-graph/)
* @author [tushar2407](https://github.com/tushar2407)
*/
#include <cassert> /// for assert
#include <cstdint>
#include <iostream> /// for IO operations
#include <queue> /// for queue data structure
#include <vector> /// for vector data structure
/**
* @namespace graph
* @brief Graphical algorithms
*/
namespace graph {
/**
* @brief function to check whether the passed graph is bipartite or not
* @param graph is a 2D matrix whose rows or the first index signify the node
* and values in that row signify the nodes it is connected to
* @param index is the valus of the node currently under observation
* @param visited is the vector which stores whether a given node has been
* traversed or not yet
* @returns boolean
*/
bool checkBipartite(const std::vector<std::vector<int64_t>> &graph,
int64_t index, std::vector<int64_t> *visited) {
std::queue<int64_t> q; ///< stores the neighbouring node indexes in squence
/// of being reached
q.push(index); /// insert the current node into the queue
(*visited)[index] = 1; /// mark the current node as travelled
while (q.size()) {
int64_t u = q.front();
q.pop();
for (uint64_t i = 0; i < graph[u].size(); i++) {
int64_t v =
graph[u][i]; ///< stores the neighbour of the current node
if (!(*visited)[v]) /// check whether the neighbour node is
/// travelled already or not
{
(*visited)[v] =
((*visited)[u] == 1)
? -1
: 1; /// colour the neighbouring node with
/// different colour than the current node
q.push(v); /// insert the neighbouring node into the queue
} else if ((*visited)[v] ==
(*visited)[u]) /// if both the current node and its
/// neighbour has the same state then it
/// is not a bipartite graph
{
return false;
}
}
}
return true; /// return true when all the connected nodes of the current
/// nodes are travelled and satisify all the above conditions
}
/**
* @brief returns true if the given graph is bipartite else returns false
* @param graph is a 2D matrix whose rows or the first index signify the node
* and values in that row signify the nodes it is connected to
* @returns booleans
*/
bool isBipartite(const std::vector<std::vector<int64_t>> &graph) {
std::vector<int64_t> visited(
graph.size()); ///< stores boolean values
/// which signify whether that node had been visited or
/// not
for (uint64_t i = 0; i < graph.size(); i++) {
if (!visited[i]) /// if the current node is not visited then check
/// whether the sub-graph of that node is a bipartite
/// or not
{
if (!checkBipartite(graph, i, &visited)) {
return false;
}
}
}
return true;
}
} // namespace graph
/**
* @brief Self-test implementations
* @returns void
*/
static void test() {
std::vector<std::vector<int64_t>> graph = {{1, 3}, {0, 2}, {1, 3}, {0, 2}};
assert(graph::isBipartite(graph) ==
true); /// check whether the above
/// defined graph is indeed bipartite
std::vector<std::vector<int64_t>> graph_not_bipartite = {
{1, 2, 3}, {0, 2}, {0, 1, 3}, {0, 2}};
assert(graph::isBipartite(graph_not_bipartite) ==
false); /// check whether
/// the above defined graph is indeed bipartite
std::cout << "All tests have successfully passed!\n";
}
/**
* @brief Main function
* Instantitates a dummy graph of a small size with
* a few edges between random nodes.
* On applying the algorithm, it checks if the instantiated
* graph is bipartite or not.
* @returns 0 on exit
*/
int main() {
test(); // run self-test implementations
return 0;
}
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