1. Functions Make your code more organized or manageable.
Make your code more concise.
Make your code more scalable.
Make big code to be small pieces with special task.
Function can be built in a class as a member.
2. Functions Function Definition: section of program with special functionality
Classification:
built-in functions or pre-packed functions in C/C++ standard library
programmer-defined functions and user-defined library
functions built-in class libraries
3. Functions Each function should be called or invoked (call to perform)
Calling function and called function, depending on their situation or status
There must be a communication between the calling function and the called function.
Passing information to called function
Return information from called function
4. Functions Return value
A called function which may not return a value to the calling function is named a void function
5. Functions Return value
A called function which must return a value to the calling function is named a function with a return value
6. Functions Passing information to a called function through arguments
Passing by value
Passing by reference
Passing by address
7. Functions Function Format:
In calling function
FunctionName (argument1, argument2, )
In called function
FunctionName (parameter1, parameter, )
Example:
8. Functions Common math library functions:
ceil(x) cos(x) exp(x) fabs(x)
floor(x) fmod(x,y) log(x) log10(x)
pow(x,y) sin(x) sqrt(x) tan(x)
The variable declared inside function are local variables.
9. Function definition and usage
11. Functions Format of a function name(parameter-list)
15. Functions Prototype Function prototypes
Pre-registering function name, return data type, name of parameters and the order in which these parameters are expected.
Pre-checking the matches of data communication between calling functions and called functions
Forcing conversion between arguments and parameters during information passing
16. Functions Promotion order (precedence) for built-in data type
long double double float
unsigned long int long int unsigned int
int unsigned short int
short int unsigned char
short char
17. Functions Standard library header files
(Table, Page 155-157)
Programmers can design their custom header file
#include "myheader.h"
18. Standard library Header Files �
19. Functions rand(): A special function in <cstdlib> to generate random number
30. Function shifting and scaling
31. Game of chance and enum enum is user-defined type
38. Identifiers for variable or objects of classe Storage class, scope and linkage
C++ provides five storage class specifiers: auto, register, extern, mutable, static
It helps determine its storage class, scope and linkage
Identifier's Storage Class determines the period during which the identifier exits in memory.
Some identifier exit shortly, some repeatedly created and destroyed, and others exit for entire execution.
39. Functions Storage Class, scope and linkage
Scope determines the reference of variables. Some identifier can be referenced in limited portions of program, while others can be references through out whole program.
Linkage determines the accessibility of identifier among multiple C++ files
40. Storage class specifiers:
automatic storage
static storage
Automatic storage class
auto and register keywords are used to declare variables of the automatic storage class.
Local variables or function parameters are normally of automatic storage class. They are available only within active C++ block.
auto is defaulted for local variables in C++.
register is used to reverse local variable in register memory, but not common.
41. Functions extern and static keywords are used to declare variables or function in storage class.
extern is used to declare global variables and functions
extern is defaulted for global variables and function names in C++
static is used to expand scope for local variables
42. Functions Example:
static variables remain their values, even the function is exited.
43. Functions Scope: portion pf the program where an identifier has meaning
Four scope rules:
file scope:
function scope, using : (like switch structure)
block scope, using { }
function-prototype scope
44. File scope:
Declare out side any functions, such as global variables, function definitions, function prototypes
Function scope with labels
Declare within function block or after labels, such as in switch-case statement, like case (1):
Block scope
Declare within local block
Function prototype scope
Ignore the variable name in parameter-list
51. Functions Function Recursion -- a function can be called by itself.
Recursion function is usually a function which can be called by itself repeatedly.
Factorial of a non-negative integer, n! is a very typical and simple example
n!=n*(n-1)*(n-2)*2*1 = n*(n-1)!.
0!=1
52. Functions Design an iterative for loop (non-recursively)
53. Functions Result:
54. Functions Instead, we can design recursive function for perform the same task.
Question: which we should use: either iterative or repetitive structure using for-loop or recursive selection structure using repeatedly calling?
Fig 3.17 lists recursive function examples through out the textbook for your reference.
58. Functions
62. Recursion and Iteration Recursion uses selection structure
Iteration use repetition structure
Recursion is easy to implement
But cost more memory allocation
63. Functions
66. Inline Functions Copy the content of function and insert
Applied to a program which call the function more frequently
Fast but need more memory
67. Inline Functions
69. Functions References and Reference parameters
The first method is to pass by value: copy the value and pass over
The second method is to pass by reference, i.e., is to make alias variables
Use & in front of parameter, like int &count
Weak security
Example: call-by-reference
75. Functions Defaulted arguments
The defaulted value of the argument can be automatically
inserted by the compiler can passed in the called.
79. Functions
82. Functions
85. Functions
