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 haven't received our response, please do the following:
check your Spam/Junk folder and click the "Not Spam" button for our message.
This way, you won't miss messages from our team in the future.

>
>
>
V1014. Structures with members of real …
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#)
Problems related to code analyzer
Additional information
toggle menu Contents

V1014. Structures with members of real type are compared byte-wise.

Mar 16 2018

The analyzer has detected a suspicious comparison of two structures containing members of type float or double.

Consider the following example:

struct Object
{
  int Length;
  int Width;
  int Height;
  float Volume;
};
bool operator == (const Object &p1, const Object &p2)
{
  return memcmp(&p1, &p2, sizeof(Object)) == 0;
}

Since the 'Object' structure contains floating-point numbers, comparing them using the 'memcmp' function could have an unexpected result. For example, the numbers -0.0 and 0.0 are equivalent but have different bit representation. Two NaN's have the same representation, but they are not equivalent. It may make sense to use the == operator or compare those variables to a certain precision.

Suppose we want to compare class members using the == operator. In this case, we could delete the 'operator ==' part entirely as the compiler can handle it on its own by implementing the comparison operator by default. However, suppose we do need to implement it as our custom function to compare the 'Volume' members to a certain precision. The fixed version would then look like this:

bool operator == (const Object &p1, const Object &p2)
{
  return    p1.Length == p2.Length
         && p1.Width  == p2.Width
         && p1.Height == p2.Height
         && fabs(p1.Volume - p2.Volume) <= FLT_EPSILON;
}

This diagnostic is classified as: