Const Correctness in C++
Published at 2023-06-01
Last update over 365 days ago
Licensed under CC BY-NC-SA 4.0
cpp
software-engineering
const-interface
const-correctness
programming-language
This is a note for Lecture 8, CS106L, Spring 2023.
INTRODUCTION
What’s const?
Def.
const
: keyword indicating a variable, function or parameter can’t be modified
const
variables can be references or not.
Ex.
std::vector<int> vec{1, 2, 3};
const std::vector<int> c_vec{7, 8}; // a const variable
std::vector<int>& ref = vec; // a regular reference
const std::vector<int>& c_ref = vec; // a const reference
vec.push_back(3); // OKAY
c_vec.push_back(3); // BAD - const
ref.push_back(3); // OKAY
c_ref.push_back(3); // BAD - const
Why const?
It helps find out mistakes.
void f(const int x, const int y) {
if ((x==2 && y==3) || (x==1)) {
cout << 'a' << endl;
}
if ((y==x-1) && (x==-1 || y=-1)) {
cout << 'b' << endl;
}
if ((x==3) && (y==2*x)) {
cout << 'c' << endl;
}
}
Since the variable y
is const, y=-1
can be found by the compiler.
CONST AND CLASSES
INTRODUCTION OF CONST-INTERFACE
Recall our Student
class:
// student.h
class Student {
public:
std::string getName();
void setName(std::string name);
int getAge();
void setAge(int age);
private:
std::string name;
std::string state;
int age;
};
// student.cpp
#include "student.h"
std::string Student::getName() {
return name;
}
void Student::setName(string name) {
this->name = name;
}
int Student::getAge() {
return age;
}
void Student::setAge(int age) {
if (age >= 0) {
this->age = age;
}
else error("Age cannot be negative!");
}
What if we use a const Student
?
// main.cpp
std::string stringify(const Student& s) {
return s.getName() + "is" + std::to_string(s.getAge()) + " years old.";
}
It causes compile error! The compiler doesn’t know getName
and getAge
don’t modify s
! We need to promise that it doesn’t by defining them as const functions, by adding const
to the end of function.
// student.h
class Student {
public:
std::string getName() const;
void setName(std::string name);
int getAge() const;
void setAge(int age);
private:
std::string name;
std::string state;
int age;
};
// student.cpp
#include "student.h"
std::string Student::getName() const {
return name;
}
void Student::setName(string name) {
this->name = name;
}
int Student::getAge() const {
return age;
}
void Student::setAge(int age) {
if (age >= 0) {
this->age = age;
}
else error("Age cannot be negative!");
}
Def.
- const-interface: All member functions marked
const
in a class definition. Objects of typeconst ClassName
may ONLY use the const-interface.
PRACTICE
Let’s make StrVector
’s const-interface!
Tip
Questions to ask whether a function should be a const-interface:
- Should this function be able available to a const object? 1.1. Can I mark the function const as is (i.e. the function doesn’t modify the object)? 1.2. Otherwise, can I make a const version of the function?
class StrVector {
public:
using iterator = std::string*;
const size_t kInitialSize = 2;
/*...*/
size_t size() const; // const-interface. Yes
bool empty() const; // const-interface. Yes
void push_back(const std::string& elem);
std::string& at(size_t indx); // like vec[] but with error checking
iterator begin(); // const-interface?
iterator end(); // const-interface?
/*...*/
};
std::string& StrVector::at(size_t index) {
if (index >= size()) {
throw std::out_of_range("Index out of range in at.");
}
return operator[](index); // operator[] = return *(begin() + index)
}
size()
and empty()
should be const-interfaces. Of course. What about at()
? Seems like at
doesn’t modify the vector… can we just mark at
const like we did with the other functions?
NO!
The problem is that at
returns a reference to an element in the vector. That element reference could be modified (thereby modifying the vector). For example:
// StrVector my_vec = { "sarah", "haven" };
std::string& elem_ref = my_vec.at(1);
elem_ref = "Now I'm Different";
// my_vec = { "sarah", "Now I'm Different" }
The solution should be adding a const version at
function.
std::string& at(size_t indx);
const std::string& at(size_t indx) const;
And implement them like this:
std::string& StrVector::at(size_t index) {
if (index >= size()) {
throw std::out_of_range("Index out of range in at.");
}
return *(begin() + index);
}
const std::string& StrVector::at(size_t index) const {
return static_cast<const std::string&>(
const_cast<StrVector*>(this)->at(index));
}
Learn more about static_cast
and const_cast
here
Should begin()
and end()
be const
?
Consider a function with const StrVector
param:
void printVec(const StrVector& vec) {
cout << "{ ";
for (auto it = vec.begin(); it != vec.end(); ++it) {
*it = "dont mind me modifying a const vector :D";
}
cout << "}" << endl;
}
This code will compile! begin()
and end
don’t explicitly change vec
, but they give us an iterator that can! But, we also need a way to iterate through a const vec
just to access it.
The solution is const_iterator
:
class StrVector {
public:
using iterator = std::string*;
using const_iterator = const std::string*;
/*...*/
iterator begin();
iterator end();
const_iterator begin() const;
const_iterator end() const;
/*...*/
};
CONST ITERATOR vs CONST_ITERATOR
This is tricky!
Iterator Type | Increment Iterator? | Change underlying value? |
---|---|---|
iterator | ✅ | ✅ |
const_iterator | ✅ | ❌ |
const iterator | ❌ | ✅ |
const const_iterator | ❌ | ❌ |
using iterator = std::string*;
using const_iterator = const std::string*;
const iterator it_c = vec.begin(); // string * const, const ptr to non-const obj
*it_c = "hi"; // OK! it_c is a const pointer to non-const object
it_c++; // not ok! can't change where a const pointer points!
const_iterator c_it = vec.begin(); // const string*, a non-const ptr to const object
c_it++; // totally ok! The pointer itself is non-const
*c_it = "hi"; // not ok! Can't change underlying const object
cout << *it << endl; // allowed! Can always read a const object, just can't change
// const string * const, const ptr to const obj
const const_iterator c_it_c = vec.begin();
cout << c_it_c << " points to " << *c_it_c << endl; // only reads are allowed!
c_it_c++; // not ok! can't change where a const pointer points!
*c_it_c = "hi"; // not ok! can't change underlying const object
RECAP
- Use const parameters and variables wherever you can in application code
- Every member function of a class that doesn’t change it member variables should be marked
const
- Don’t reinvent the wheel! Use our fancy
static_cast
/const_cast
trick to use the non-const version to implement a const version of a function auto
will drop allconst
and&
, so be sure to specify- Make iterators and const_iterators for all your classes!