Presentation is loading. Please wait.

Presentation is loading. Please wait.

Functions a group of declarations and statements that is assigned a name effectively, a named statement block usually has a value a sub-program when we.

Published byPamela Payne Modified over 9 years ago

Similar presentations

Presentation on theme: "Functions a group of declarations and statements that is assigned a name effectively, a named statement block usually has a value a sub-program when we."— Presentation transcript:

1 Functions a group of declarations and statements that is assigned a name effectively, a named statement block usually has a value a sub-program when we write our program we always define a function named main inside main we can call other functions which can themselves use other functions, and so on…

2 Example - Square #include double square(double a) { return a*a; } int main(void) { double num; printf("enter a number\n"); scanf("%lf",&num); printf("square of %g is %g\n",num,square(num)); return 0; } This is a function defined outside main Here is where we call the function square

3 Why use functions? they can break your problem down into smaller sub-tasks easier to solve complex problems they make a program much easier to read and maintain abstraction – we don’t have to know how a function is implemented to use it generalize a repeated set of instructions we don’t have to keep writing the same thing over and over

4 Characteristics of Functions return-type name(arg_type1 arg_name1, arg_type2 arg_name2, …) { function body; return value; } double square(double a) { return a*a; } int main(void) { … }

5 Return Statement Return causes the execution of the function to terminate and usually returns a value to the calling function The type of the value returned must be the same as the return-type defined for the function (or a ‘lower’ type) If no value is to be returned, the return-type of the function should be set to ‘void’

6 Factorials galore #include int factorial(int n) { int i, fact = 1; for (i=2; i<=n; i++) fact *= i; return fact; } int main(void) { int num; printf("enter a number\n"); scanf("%d",&num); printf("%d!=%d\n",num,factorial(num)); return 0; }

7 A Detailed Example Write a program that receives a nominator and a denominator from the user, and displays the reduced form of the number. For example, if the input is 6 and 9, the program should display 2/3.

8 Example – solution (step I) #include int main(void) { int n, d; printf("Please enter nominator and denominator: "); scanf("%d%d", &n, &d); Calculate n’s and d’s Greatest Common Divisor printf("The reduced form of %d/%d is %d/%d", n, d, n/gcd, d/gcd); return 0; }

9 Example – solution (step II) #include int main(void) { int n, d, g; printf("Please enter nominator and denominator: "); scanf("%d%d", &n, &d); g = gcd(n, d); printf("The reduced form of %d/%d is %d/%d", n, d, n/g, d/g); return 0; }

10 Example – solution (step III) /* Returns the greatest common divisor of its two parameters. Assumes both are positive. The function uses the fact that the if r = mod(y, x) then the gcd of y and x equals the gcd of x and r. */ int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; }

11 GCD – step by step int main(void) { int n, d, g; printf("Please enter … : "); scanf("%d%d", &n, &d); g = gcd(n, d); printf("The reduced form…", n, d, n/g, d/g); return 0; } ndg 69---

12 GCD – step by step int main(void) { int n, d, g; printf("Please enter … : "); scanf("%d%d", &n, &d); g = gcd(n, d); printf("The reduced form…", n, d, n/g, d/g); return 0; } ndg 69---

13 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 69---

14 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 69---

15 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 696

16 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 396

17 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 366

18 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 366

19 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 363

20 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 063

21 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 033

22 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 033

23 GCD – step by step int gcd(int x, int y) { int tmp; while(x > 0) { tmp = x; x = y % x; y = tmp; } return y; } xytmp 033

24 GCD – step by step int main(void) { int n, d, g; printf("Please enter … : "); scanf("%d%d", &n, &d); g = gcd(n, d); printf("The reduced form…", n, d, n/g, d/g); return 0; } ndg 693

25 Example – Complete Solution gcd.c

26 Exercise Input – An integer n Output – The n’th fibonacci number Note – Use an appropriately defined function

27 Solution fibonacci_func.c

28 Exercise Write a program that gets a positive integer from the user and prints all the prime numbers from 2 up to that integer. (Use a function that returns 1 if its parameter is prime, 0 otherwise)

29 Solution is_prime_func.c

30 Exercise Newton was the first to notice that for any positive n, and when x 0 =1, the following series converges to sqrt(n) – Use this fact to write a program that accepts a positive number and outputs its square root Hint – the thousandth element of Newton’s series is a good-enough approximation

31 Solution sqrt.c

32 The Great Void Sometimes there’s no reason for a function to return a value In these cases, the function return type should be ‘void’ If the ‘return’ keyword is used within such a function it exits the function immediately. No value needs be specified Calling ‘return’ in a function returning void is not obligatory If the function receives no parameters, the parameter list should be replaced by ‘void’

33 Example void ShowHelp(void) { printf("This function explains what this program does…\n"); printf("Yadayadayada"); /* …. */ } int main(void) { char choice; printf("Please enter your selection: "); scanf("%c", &choice); if (choice==‘h’) ShowHelp(); else if /* Program continues … */ }

34 Pass-by-value Function arguments are passed to the function by copying their values rather than giving the function direct access to the actual variables A change to the value of an argument in a function body will not change the value of variables in the calling function Example – add_one.c

35 add_one – step by step int add_one(int b) { b=b+1; return b; } int main(void) { int a=34,b=1; a=add_one(b); printf("a = %d, b = %d\n", a, b); return 0; } ab 341 Main() memory state

36 add_one – step by step int add_one(int b) { b=b+1; return b; } int main(void) { int a=34,b=1; a=add_one(b); printf("a = %d, b = %d\n", a, b); return 0; } ab 341 Main() memory state

37 add_one – step by step int add_one(int b) { b=b+1; return b; } int main(void) { int a=34,b=1; a=add_one(b); printf("a = %d, b = %d\n", a, b); return 0; } ab 341 Main() memory state b 1 add_one memory state

38 ab 341 Main() memory state add_one – step by step int add_one(int b) { b=b+1; return b; } int main(void) { int a=34,b=1; a=add_one(b); printf("a = %d, b = %d\n", a, b); return 0; } b 2 add_one memory state

39 ab 341 Main() memory state add_one – step by step int add_one(int b) { b=b+1; return b; } int main(void) { int a=34,b=1; a=add_one(b); printf("a = %d, b = %d\n", a, b); return 0; } b 2 add_one memory state

40 add_one – step by step int add_one(int b) { b=b+1; return b; } int main(void) { int a=34,b=1; a=add_one(b); printf("a = %d, b = %d\n", a, b); return 0; } ab 21 Main() memory state

41 add_one – step by step int add_one(int b) { b=b+1; return b; } int main(void) { int a=34,b=1; a=add_one(b); printf("a = %d, b = %d\n", a, b); return 0; } ab 21 Main() memory state

42 Riddle me this #include int factorial(int n) { int fact = 1; while (n>1) { fact *= n; n--; } return fact; } int main(void) { int n; printf("enter a number\n"); scanf("%d",&n); printf("%d!=%d\n", n, factorial(n)); /* What will this print? */ printf( "n = %d\n", n); return 0; }

43 Scope of variables A variable declared within a function is unrelated to variables declared elsewhere, even if they have the same name A function cannot access variables that are declared in other functions Example – scope.c

44 Wrong way to do it int add_one(int b) { a=b+1; } int main(void) { int a=34,b=1; add_one(b); printf("a = %d, b = %d\n", a, b); return 0; }

45 Function Declaration Most software projects in C are composed of more than one file We want to be able to define the function in one file, and to use it in all files For this reason, the function must be declared in every file in which it’s called, before it’s called for the first time the declaration contains: the function name the data types of the arguments (their names are optional) the data type of the return value

46 Function Declaration #include int factorial(int a); /* Function Declaration! */ int main(void){ int num; printf("enter a number\n"); scanf("%d",&num); printf("%d!=%d\n",num,factorial(num)); return 0; } int factorial(int a){ int i,b=1; for(i=1; i<=a; i++) b=b*i; return b; }

47 Function Declaration stdio.h actually contains a large set of function declarations The #include directive tells the compiler to insert these declarations into the file, so that these functions could be called

48 The math library A collection of mathematical functions Need to include the header file math.h (#include ) Use functions of the library, e.g. double s,p; s=sqrt(p); Declared in math.h : double sqrt ( double x );

49 The math library sin(x), cos(x), tan(x) x is given in radians asin(x), acos(x), atan(x) log(x) sqrt(x) pow(x,y) – raise x to the yth power. ceil(x), floor(x) …and more

50 Exercise Write a function that uses the formula  2 /6=1/1+1/4+1/9+1/16+…+1/n 2 (where n goes to infinity) in order to approximate . The function should accept an argument n which determines the number of terms in the formula. It should return the approximation of . Write a program that gets an integer n from the user, and approximate  using n terms of the above formula.

51 Solution pi.c

52 Exercise Modify the previous function that approximates . The function should accept an argument specifying the desired accuracy, and keep adding terms until the contribution of the next term drops below this level. Write a program that gets a (small) double, epsilon, from the user, and approximates  within this function.

53 Solution pi_eps.c

Download ppt "Functions a group of declarations and statements that is assigned a name effectively, a named statement block usually has a value a sub-program when we."

Similar presentations

BBS514 Structured Programming (Yapısal Programlama)1 Functions and Structured Programming.

BBS514 Structured Programming (Yapısal Programlama)1 Functions and Structured Programming.
1 ICS103 Programming in C Lecture 5: Introduction to Functions.

1 ICS103 Programming in C Lecture 5: Introduction to Functions.
For loops For loops are controlled by a counter variable. for( c =init_value;c

For loops For loops are controlled by a counter variable. for( c =init_value;c
Selection Statements Selects statements to execute based on the value of an expression The expression is sometimes called the controlling expression Selection.

Selection Statements Selects statements to execute based on the value of an expression The expression is sometimes called the controlling expression Selection.
Chapter 6: User-Defined Functions I

Chapter 6: User-Defined Functions I
© Copyright 1992–2004 by Deitel & Associates, Inc. and Pearson Education Inc. All Rights Reserved. Chapter 5 - Functions Outline 5.1Introduction 5.2Program.

© Copyright 1992–2004 by Deitel & Associates, Inc. and Pearson Education Inc. All Rights Reserved. Chapter 5 - Functions Outline 5.1Introduction 5.2Program.
Programming Recursion “To Iterate is Human, to Recurse, Divine” -- L. Peter Deutsch.

Programming Recursion “To Iterate is Human, to Recurse, Divine” -- L. Peter Deutsch.
TK1913-C Programming1 TK1913-C Programming 1 C Library Functions C provides a collection of library functions for programmers If these library functions.

TK1913-C Programming1 TK1913-C Programming 1 C Library Functions C provides a collection of library functions for programmers If these library functions.
Programming Functions. A group of declarations and statements that is assigned a name  effectively, a named statement block  usually has a value A sub-program.

Programming Functions. A group of declarations and statements that is assigned a name  effectively, a named statement block  usually has a value A sub-program.
Chapter 6: User-Defined Functions I

Chapter 6: User-Defined Functions I
1 Agenda - Loops while for for & while Nested Loops do-while Misc. & Questions.

1 Agenda - Loops while for for & while Nested Loops do-while Misc. & Questions.
1 Gentle Introduction to Programming Session 2: Functions.

1 Gentle Introduction to Programming Session 2: Functions.
C++ Functions. 2 Agenda What is a function? What is a function? Types of C++ functions: Types of C++ functions: Standard functions Standard functions.

C++ Functions. 2 Agenda What is a function? What is a function? Types of C++ functions: Types of C++ functions: Standard functions Standard functions.
Functions Lecture 4 – Section 2: 9/21/05 Section 4: 9/22/05.

Functions Lecture 4 – Section 2: 9/21/05 Section 4: 9/22/05.
Chapter 6: User-Defined Functions I Instructor: Mohammad Mojaddam

Chapter 6: User-Defined Functions I Instructor: Mohammad Mojaddam
 2003 Prentice Hall, Inc. All rights reserved. 1 Functions and Recursion Outline Function Templates Recursion Example Using Recursion: The Fibonacci Series.

 2003 Prentice Hall, Inc. All rights reserved. 1 Functions and Recursion Outline Function Templates Recursion Example Using Recursion: The Fibonacci Series.
Programming C for Engineers An exercise is posted on the web site! Due in one week Single submission.

Programming C for Engineers An exercise is posted on the web site! Due in one week Single submission.
© Copyright 1992–2004 by Deitel & Associates, Inc. and Pearson Education Inc. All Rights Reserved. C How To Program - 4th edition Deitels Class 05 University.

© Copyright 1992–2004 by Deitel & Associates, Inc. and Pearson Education Inc. All Rights Reserved. C How To Program - 4th edition Deitels Class 05 University.
Lecture 6 – Functions (2). Outline Recall - sample application functions that return no value functions that return a value Recall – global variable vs.

Lecture 6 – Functions (2). Outline Recall - sample application functions that return no value functions that return a value Recall – global variable vs.
1. Function prototype Function prototype is a declaration; indicates the function exists Should have function name, return type and parameter Placed before.

1. Function prototype Function prototype is a declaration; indicates the function exists Should have function name, return type and parameter Placed before.

Similar presentations

Ads by Google