#include "graph.h"
#include "matrix.h"
#include <stdint.h>
#include <stdio.h>
#include <time.h>

void benchmark() {
    const uint64_t row_length1 = 100;
    const uint64_t column_length1 = 100;
    uint64_t matrix1[row_length1][column_length1];

    const uint64_t row_length2 = 100;
    const uint64_t column_length2 = 100;
    uint64_t matrix2[row_length2][column_length2];

    uint64_t new_matrix[row_length1][column_length2];

    double elapsed_time = 0.0;
    const uint64_t iterations = 10000;
    clock_t start_time;

    for (uint64_t i = 0; i < iterations; i++) {
        random_adjacency(row_length1, column_length1, matrix1);
        random_adjacency(row_length2, column_length2, matrix2);

        start_time = clock();

        matrix_multiply_basic(row_length1, column_length1, matrix1,
                              row_length2, column_length2, matrix2,
                              new_matrix);

        elapsed_time += (double)(clock() - start_time) / CLOCKS_PER_SEC;
    }

    printf("%lu iterations of matrix_multiply_basic took roughly %f seconds\n", iterations, elapsed_time);
    printf("1 iteration of matrix_multiply_basic took on average roughly %f seconds\n", elapsed_time/iterations);
}

void test() {
    const uint64_t row_length1 = 5;
    const uint64_t column_length1 = 5;
    uint64_t matrix1[row_length1][column_length1];

    read_csv("csv/graph.csv", row_length1, column_length1, matrix1);

    // print_matrix(row_length1, column_length1, matrix1);

    // uint64_t new_matrix[row_length1][column_length1];
    //
    // matrix_multiply_basic(row_length1, column_length1, matrix1,
    //                       row_length1, column_length1, matrix1,
    //                       new_matrix);
    //
    // print_matrix(row_length1, column_length1, new_matrix);
}

int main(void) {
    test();
    // benchmark();
}