Our website uses cookies to enhance your browsing experience.
Accept
to the top
close form

Fill out the form in 2 simple steps below:

Your contact information:

Step 1
Congratulations! This is your promo code!

Desired license type:

Step 2
Team license
Enterprise license
** By clicking this button you agree to our Privacy Policy statement
close form
Request our prices
New License
License Renewal
--Select currency--
USD
EUR
* By clicking this button you agree to our Privacy Policy statement

close form
Free PVS‑Studio license for Microsoft MVP specialists
* By clicking this button you agree to our Privacy Policy statement

close form
To get the licence for your open-source project, please fill out this form
* By clicking this button you agree to our Privacy Policy statement

close form
I am interested to try it on the platforms:
* By clicking this button you agree to our Privacy Policy statement

close form
check circle
Message submitted.

Your message has been sent. We will email you at


If you do not see the email in your inbox, please check if it is filtered to one of the following folders:

  • Promotion
  • Updates
  • Spam

Webinar: Evaluation - 05.12

>
>
>
V1101. Changing the default argument of…
menu mobile close menu
Analyzer diagnostics
General Analysis (C++)
General Analysis (C#)
General Analysis (Java)
Micro-Optimizations (C++)
Diagnosis of 64-bit errors (Viva64, C++)
Customer specific requests (C++)
MISRA errors
AUTOSAR errors
OWASP errors (C++)
OWASP errors (C#)
Problems related to code analyzer
Additional information
toggle menu Contents

V1101. Changing the default argument of a virtual function parameter in a derived class may result in unexpected behavior.

Aug 01 2023

The analyzer has detected a virtual function that has a parameter with a default argument. Default arguments are defined in the base and derived classes; their values are different. Changing the default argument of a virtual function parameter in this way is not an error, but it can lead to unexpected results when using these classes.

Take a look at the example:

struct Base
{
  virtual void foo(int i = 0) const noexcept
  {
    std::cout << "Base::foo() called, i = " << i << std::endl;
  }
};

struct Derived : Base
{
  void foo(int i = 10) const noexcept override
  {
    std::cout << "Derived::foo() called, i = " << i << std::endl;
  }
};

In the 'Base' class, the 'foo' virtual function is defined with one 'i' parameter that has a default argument of '0'. In the 'Derived' class, which is derived from 'Base', the 'foo' virtual function is overridden and the default argument of the 'i' parameter is changed to '10'.

Let's see what issues such overriding may cause. Let's say we use the code as follows:

int main()
{
  Derived obj;
  Base *ptr = &obj;
  ptr->foo();
}

The 'main' function will return an unexpected string — "Derived::foo() called, i = 0". When forming the 'foo' function call, a compiler takes the static type of an object under the 'ptr' pointer — 'Base'. Therefore, the default argument of '0' from the base class is substituted in the function call. At the same time, the 'ptr' variable actually points to an object of the 'Derived' type. So, the virtual function from the derived class is executed.

To avoid this kind of behavior, we recommend using one of the following strategies:

  • don't use default arguments in virtual functions;
  • define the default argument of the virtual function parameter only in the base class.

Here's the correct example:

struct Base
{
  virtual void foo(int i = 0) const noexcept
  {
    std::cout << "Base::foo() called, i = " << i << std::endl;
  }
};

struct Derived : Base
{
  void foo(int i) const noexcept override
  {
    std::cout << "Derived::foo() called, i = " << i << std::endl;
  }
};

Note. The analyzer does not issue any warnings for the following code:

struct Base
{
  virtual void foo(int i = 0) const noexcept
  {
    std::cout << "Base::foo() called, i = " << i << std::endl;
  }
};

struct Derived : Base
{
  void foo(int i = 0) const noexcept override
  {
    std::cout << "Derived::foo() called, i = " << i << std::endl;
  }
};

However, we do not recommend writing such code because it is more difficult to maintain.

This diagnostic is classified as: