Show Lecture.Const as a slide show.
CS253 Const
const
const
, when applied to a variable, means that you can’t change it.
- It’s like a
final
variable in Java.
- It does not mean that the memory is read-only;
it just means that you can’t write it.
- A given piece of memory may be read-only to one part of a program,
but read-write to another.
const
is also used to indicate an accessor member function.
Example
const int BOARD_SIZE = 8;
char chessboard[BOARD_SIZE][BOARD_SIZE];
for (int i=0; i<BOARD_SIZE; i++)
for (int j=0; j<BOARD_SIZE; j++)
chessboard[i][j] = ' ';
if (chessboard[3][2] == ' ') // Empty position?
chessboard[3][2] = 'R'; // put a rook there
cout << chessboard[3][2] << '\n';
R
Reference example
void show_name(const string &name) {
cout << "The name is: “" << name << "”\n";
}
int main(int, char *argv[]) {
string s = argv[0];
show_name(s);
}
The name is: “./a.out”
- The string is read-write in
main()
,
but read-only in show_name()
.
- The string memory itself is read-write. It’s just that
show_name()
promises not to change it.
constexpr
constexpr
, when applied to a variable, means that you can’t change it,
like const
.
- It also means that the value was computed at compile-time.
- The compiler is entitled to assume that the value never changes,
so it can substitute the value wherever you use the variable.
- Use it for true constants:
- π, Avogadro’s Number
- number of days in a week
- number of squares in a chessboard
Examples
constexpr auto pi = 3.14159;
cout << pi << '\n';
3.14159
constexpr double avo=6.022e23;
avo = 1.234;
cout << avo;
c.cc:2: error: assignment of read-only variable 'avo'
Trying to cheat
Let’s try to fool constexpr
:
constexpr int answer = 42;
int *p = &answer;
*p = 8675309;
cout << answer << '\n';
c.cc:2: error: invalid conversion from 'const int*' to 'int*'
constexpr int answer = 42;
int *p = const_cast<int *>(&answer);
*p = 8675309;
cout << *p << ' ' << answer << '\n';
8675309 42