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fix: Adding documentations, tests, and amending algorithm for gcd_of_n_numbers.cpp #2766

Merged
merged 9 commits into from
Oct 7, 2024
133 changes: 104 additions & 29 deletions math/gcd_of_n_numbers.cpp
Original file line number Diff line number Diff line change
@@ -1,41 +1,116 @@
/**
* @file
* @brief This program aims at calculating the GCD of n numbers by division
* method
* @brief This program aims at calculating the GCD of n numbers
*
* @details
* The GCD of n numbers can be calculated by
* repeatedly calculating the GCDs of pairs of numbers
* i.e. \f$\gcd(a, b, c)\f$ = \f$\gcd(\gcd(a, b), c)\f$
* Euclidean algorithm helps calculate the GCD of each pair of numbers
* efficiently
*
* @see gcd_iterative_euclidean.cpp, gcd_recursive_euclidean.cpp
*/
#include <iostream>
#include <algorithm> /// for std::abs
#include <array> /// for std::array
#include <cassert> /// for assert
#include <iostream> /// for IO operations

/** Compute GCD using division algorithm
*
* @param[in] a array of integers to compute GCD for
* @param[in] n number of integers in array `a`
*/
int gcd(int *a, int n) {
int j = 1; // to access all elements of the array starting from 1
int gcd = a[0];
while (j < n) {
if (a[j] % gcd == 0) // value of gcd is as needed so far
j++; // so we check for next element
else
gcd = a[j] % gcd; // calculating GCD by division method
/**
* @namespace math
* @brief Maths algorithms
*/
namespace math {
/**
* @namespace gcd_of_n_numbers
* @brief Compute GCD of numbers in an array
*/
namespace gcd_of_n_numbers {
/**
* @brief Function to compute GCD of 2 numbers x and y
* @param x First number
* @param y Second number
* @return GCD of x and y via recursion
*/
int gcd_two(int x, int y) {
// base cases
if (y == 0)
return x;
if (x == 0)
return y;
return gcd_two(y, x % y); // Euclidean method
}
/**
* @brief Function to check if all elements in array are 0
* @param a Array of numbers
* @param n Number of elements in array
* @return 'True' if all elements are 0
* @return 'False' if not all elements are 0
*/
template <size_t n> bool check_all_zeros(std::array<int, n> a) {
// Check for the undefined GCD cases
int zero_count = 0;
for (int i = 0; i < n; ++i) {
if (a[i] == 0) {
++zero_count;
}
return gcd;
}

// return whether all elements in array are 0
return zero_count == n;
}
/**
* @brief Main program to compute GCD by repeatedly use Euclidean algorithm
* @param a Array of integers to compute GCD for
* @param n Number of integers in the array
* @return GCD of the numbers in the array
*/
template <size_t n> int gcd(std::array<int, n> a) {
// GCD is undefined if all elements in the array are 0
if (check_all_zeros(a))
return -1; // since gcd is positive, use -1 to mark undefined gcd

/** Main function */
int main() {
int n;
std::cout << "Enter value of n:" << std::endl;
std::cin >> n;
int *a = new int[n];
int i;
std::cout << "Enter the n numbers:" << std::endl;
for (i = 0; i < n; i++) std::cin >> a[i];
int gcd = a[0];
for (int i = 1; i < n; i++) {
gcd = gcd_two(gcd, a[i]);
if (std::abs(gcd) == 1)
break; // gcd is already 1, further computations still result in gcd of 1
}

return std::abs(gcd); // divisors can be negative, we only want positive value
}
} // namespace gcd_of_n_numbers
} // namespace math

/**
* @brief Self-test implementation
* @return void
*/
static void test() {
std::array<int, 1> array_1 = {0};
std::array<int, 1> array_2 = {1};
std::array<int, 2> array_3 = {0, 2};
std::array<int, 3> array_4 = {-60, 24, 18};
std::array<int, 4> array_5 = {100, -100, -100, 200};
std::array<int, 5> array_6 = {0, 0, 0, 0, 0};
std::array<int, 7> array_7 = {10350, -24150, 0, 17250, 37950, -127650, 51750};
std::array<int, 7> array_8 = {9500000, -12121200, 0, 4444, 0, 0, 123456789};

std::cout << "GCD of entered n numbers:" << gcd(a, n) << std::endl;
assert(math::gcd_of_n_numbers::gcd(array_1) == -1);
assert(math::gcd_of_n_numbers::gcd(array_2) == 1);
assert(math::gcd_of_n_numbers::gcd(array_3) == 2);
assert(math::gcd_of_n_numbers::gcd(array_4) == 6);
assert(math::gcd_of_n_numbers::gcd(array_5) == 100);
assert(math::gcd_of_n_numbers::gcd(array_6) == -1);
assert(math::gcd_of_n_numbers::gcd(array_7) == 3450);
assert(math::gcd_of_n_numbers::gcd(array_8) == 1);
}

delete[] a;
return 0;
/**
* @brief Main function
* @return 0 on exit
*/
int main() {
test(); // run self-test implementation
return 0;
}
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