Course
Introduction
C++ "Hello, World!" ProgramPrint Number Entered by UserAdd Two NumbersFind Quotient and RemainderFind Size of int, float, double and char in Your SystemSwap Two NumbersFind ASCII Value of a CharacterMultiply two NumbersDecisions and Loops
Check Whether Number is Even or OddCheck Whether a character is Vowel or ConsonantFind Largest Number Among Three NumbersFind All Roots of a Quadratic EquationCalculate Sum of Natural NumbersCheck Leap YearFind FactorialGenerate Multiplication TableDisplay Fibonacci SeriesFind GCDFind LCMReverse a NumberCalculate Power of a NumberCheck Whether a Number is Palindrome or NotCheck Whether a Number is Prime or NotDisplay Prime Numbers Between Two IntervalsCheck Armstrong NumberDisplay Armstrong Number Between Two IntervalsDisplay Factors of a NumberCreate Pyramid and PatternMake a Simple Calculator to Add, Subtract, Multiply or Divide Using switch...caseFunctions
Display Prime Numbers Between Two Intervals Using FunctionsCheck Prime Number By Creating a FunctionCheck Whether a Number can be Express as Sum of Two Prime NumbersFind Sum of Natural Numbers using RecursionCalculate Factorial of a Number Using RecursionFind G.C.D Using RecursionConvert Binary Number to Decimal and vice-versaConvert Octal Number to Decimal and vice-versaConvert Binary Number to Octal and vice-versaReverse a Sentence Using RecursionCalculate Power Using RecursionArrays and Strings
Calculate Average of Numbers Using ArraysFind Largest Element of an ArrayCalculate Standard DeviationAdd Two Matrix Using Multi-dimensional ArraysMultiply Two Matrix Using Multi-dimensional ArraysFind Transpose of a MatrixMultiply two Matrices by Passing Matrix to FunctionAccess Elements of an Array Using PointerSwap Numbers in Cyclic Order Using Call by ReferenceFind the Frequency of Characters in a StringFind the Number of Vowels, Consonants, Digits and White Spaces in a StringRemove all Characters in a String Except AlphabetsFind the Length of a StringConcatenate Two StringsCopy StringsSort Elements in Lexicographical Order (Dictionary Order)C++ Program to Multiply two Matrices by Passing Matrix to Function
To understand this example, you should have the knowledge of the following C++ programming topics:
- C++ Arrays
- C++ Multidimensional Arrays
- Passing Array to a Function in C++ Programming
- C++ for Loop
- C++ while and do…while Loop
This program asks user to enter the size of the matrix (rows and columns).
Then, it asks the user to enter the elements of two matrices and finally it multiplies two matrix and displays the result.
To perform this task three functions are made:
- To take matrix elements from user
- To multiply two matrix
- To display the resultant matrix after multiplication
Example: Multiply Matrix by Passing it to a Function
#include <iostream>
using namespace std;
void enterData(int firstMatrix[][10], int secondMatrix[][10], int rowFirst, int columnFirst, int rowSecond, int columnSecond);
void multiplyMatrices(int firstMatrix[][10], int secondMatrix[][10], int multResult[][10], int rowFirst, int columnFirst, int rowSecond, int columnSecond);
void display(int mult[][10], int rowFirst, int columnSecond);
int main()
{
int firstMatrix[10][10], secondMatrix[10][10], mult[10][10], rowFirst, columnFirst, rowSecond, columnSecond, i, j, k;
cout << "Enter rows and column for first matrix: ";
cin >> rowFirst >> columnFirst;
cout << "Enter rows and column for second matrix: ";
cin >> rowSecond >> columnSecond;
// If colum of first matrix in not equal to row of second matrix, asking user to enter the size of matrix again.
while (columnFirst != rowSecond)
{
cout << "Error! column of first matrix not equal to row of second." << endl;
cout << "Enter rows and column for first matrix: ";
cin >> rowFirst >> columnFirst;
cout << "Enter rows and column for second matrix: ";
cin >> rowSecond >> columnSecond;
}
// Function to take matrices data
enterData(firstMatrix, secondMatrix, rowFirst, columnFirst, rowSecond, columnSecond);
// Function to multiply two matrices.
multiplyMatrices(firstMatrix, secondMatrix, mult, rowFirst, columnFirst, rowSecond, columnSecond);
// Function to display resultant matrix after multiplication.
display(mult, rowFirst, columnSecond);
return 0;
}
void enterData(int firstMatrix[][10], int secondMatrix[][10], int rowFirst, int columnFirst, int rowSecond, int columnSecond)
{
int i, j;
cout << endl << "Enter elements of matrix 1:" << endl;
for(i = 0; i < rowFirst; ++i)
{
for(j = 0; j < columnFirst; ++j)
{
cout << "Enter elements a"<< i + 1 << j + 1 << ": ";
cin >> firstMatrix[i][j];
}
}
cout << endl << "Enter elements of matrix 2:" << endl;
for(i = 0; i < rowSecond; ++i)
{
for(j = 0; j < columnSecond; ++j)
{
cout << "Enter elements b" << i + 1 << j + 1 << ": ";
cin >> secondMatrix[i][j];
}
}
}
void multiplyMatrices(int firstMatrix[][10], int secondMatrix[][10], int mult[][10], int rowFirst, int columnFirst, int rowSecond, int columnSecond)
{
int i, j, k;
// Initializing elements of matrix mult to 0.
for(i = 0; i < rowFirst; ++i)
{
for(j = 0; j < columnSecond; ++j)
{
mult[i][j] = 0;
}
}
// Multiplying matrix firstMatrix and secondMatrix and storing in array mult.
for(i = 0; i < rowFirst; ++i)
{
for(j = 0; j < columnSecond; ++j)
{
for(k=0; k<columnFirst; ++k)
{
mult[i][j] += firstMatrix[i][k] * secondMatrix[k][j];
}
}
}
}
void display(int mult[][10], int rowFirst, int columnSecond)
{
int i, j;
cout << "Output Matrix:" << endl;
for(i = 0; i < rowFirst; ++i)
{
for(j = 0; j < columnSecond; ++j)
{
cout << mult[i][j] << " ";
if(j == columnSecond - 1)
cout << endl << endl;
}
}
}
Output
Enter rows and column for first matrix: 3
2
Enter rows and column for second matrix: 3
2
Error! column of first matrix not equal to row of second.
Enter rows and column for first matrix: 2
3
Enter rows and column for second matrix: 3
2
Enter elements of matrix 1:
Enter elements a11: 3
Enter elements a12: -2
Enter elements a13: 5
Enter elements a21: 3
Enter elements a22: 0
Enter elements a23: 4
Enter elements of matrix 2:
Enter elements b11: 2
Enter elements b12: 3
Enter elements b21: -9
Enter elements b22: 0
Enter elements b31: 0
Enter elements b32: 4
Output Matrix:
24 29
6 25