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const <variable name> [ = <value> ]; <function name> ( const <type>*<variable name> ;) <function name> const;
Use the const modifier to make a variable value unmodifiable.
Use the const modifier to assign an initial value to a variable that cannot be changed by the program. Any future assignments to a const result in a compiler error.
A const pointer cannot be modified, though the object to which it points can be changed. Consider the following examples.
const float pi = 3.14; // When used by itself, const is equivalent to int. const maxint = 12345; // A constant pointer char *const str1 = "Hello, world"; // A pointer to a constant character string. char const *str2 = "Appmethod C++";
Given these declarations, the following statements are illegal.
pi = 3.0; // Assigns a value to a const. i = maxint++; // Increments a const. str1 = "Hi, there!" // Points str1 to something else.
Using the const Keyword in C++ Programs
C++ extends const to include classes and member functions. In a C++ class definition, use the const modifier following a member function declaration. The member function is prevented from modifying any data in the class.
A class object defined with the const keyword attempts to use only member functions that are also defined with const. If you call a member function that is not defined as const, the compiler issues a warning that a non-const function is being called for a const object. Using the const keyword in this manner is a safety feature of C++.
Warning: A pointer can indirectly modify a const variable, as in the following:
*(int *)&my_age = 35;
If you use the const modifier with a pointer parameter in a function's parameter list, the function cannot modify the variable that the pointer points to. For example,
int printf (const char *format, ...);
printf is prevented from modifying the format string.