I was looking at some example C++ code for a hardware interface I'm working with and noticed a lot of statements along the following lines:

if ( NULL == pMsg ) return rv;

I'm sure I've heard people say that putting the constant first is a good idea, but why is that? Is it just so that if you have a large statement you can quickly see what you're comparing against or is there more to it?

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    +1 for a really good question title. Commented Jan 26, 2010 at 10:24
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    pretty sure I've seen this question more than once, can't find it now though.
    – Idan K
    Commented Jan 26, 2010 at 10:30
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    @ Idan: I was suprised I couldn't find it, but after 5 mins of searching I gave up ;-)
    – Jon Cage
    Commented Jan 26, 2010 at 10:40
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    It's not restricted to just if-statements: while(NULL == pMsg) { } is the same construct, and used for the same reason.
    – MSalters
    Commented Jan 26, 2010 at 11:22
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    This kind of ritualistic nonsense can prevent a few very specific mistakes, most of which can be caught by the compiler. I note that the example also contains pseudoHungarian notation, which is of no use whatsoever in a typed language. Static code analysis and unit tests will catch much wider classes of error, without making the code look like it was written by a gibbering lunatic. Commented Jan 26, 2010 at 12:32

8 Answers 8


So that you don't mix comparison (==) with assignment (=).

As you know, you can't assign to a constant. If you try, the compiler will give you an error.

Basically, it's one of defensive programming techniques. To protect yourself from yourself.


To stop you from writing:

 if ( pMsg = NULL ) return rv;

by mistake. A good compiler will warn you about this however, so most people don't use the "constant first" way, as they find it difficult to read.

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    +1 for mentioning that modern compilers warn about this anyway. Another reason to not do it in C++ is to avoid pitfalls with poorly written operator overloads. (_bstr_t, oh, how I hate you.)
    – jamesdlin
    Commented Jan 26, 2010 at 10:28
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    If you really wanted an assignment, most compilers will suppress the warning by using double parenthesis: if (( pMsg = NULL )) return rv;
    – Eric
    Commented Mar 10, 2016 at 14:33

It stops the single = assignment bug.


if ( NULL = pMsg ) return rv;

won't compile, where as

if ( pMsg =  NULL) return rv;

will compile and give you headaches


To clarify what I wrote in some of the comments, here is a reason not to do this in C++ code.

Someone writes, say, a string class and decides to add a cast operator to const char*:

class BadString
   BadString(const char* s) : mStr(s) { }

   operator const char*() const { return mStr.c_str(); }

   bool operator==(const BadString& s) { return mStr == s.mStr; }

   // Other stuff...

   std::string mStr;

Now someone blindly applies the constant == variable "defensive" programming pattern:

BadString s("foo");

if ("foo" == s) // Oops.  This compares pointers and is never true.
   // ...

This is, IMO, a more insidious problem than accidental assignment because you can't tell from the call site that anything is obviously wrong.

Of course, the real lessons are:

  1. Don't write your own string classes.
  2. Avoid implicit cast operators, especially when doing (1).

But sometimes you're dealing with third-party APIs you can't control. For example, the _bstr_t string class common in Windows COM programming suffers from this flaw.

  • I've seen a lot of places that ban operator overloading in general. Yay C++.
    – i_am_jorf
    Commented Jan 26, 2010 at 20:54
  • Wouldn't s=="foo" have the same problem though?
    – Jon Cage
    Commented Jan 31, 2010 at 19:21
  • @Jon Cage: No. Unintuitively, while "foo" == s doesn't trigger a desired ambiguity error, s == "foo" does. (The author might then implement bool MyString::operator==(const char*) const which will resolve the s == "foo" ambiguity but still do nothing to fix "foo" == s.)
    – jamesdlin
    Commented Jan 31, 2010 at 20:51
  • @James: Am I right in thinking the "foo" == s case isn't handled there because it's handled by whatever type "foo" equates to (a const char*?); hence the pointer comparison?
    – Jon Cage
    Commented Feb 1, 2010 at 10:59
  • @Jon Cage: I don't understand what you mean by "handled by whatever type..." when it's a primitive type. In this case, the compiler silently coerces the RHS from a BadString to a const char* via its cast operator and then compares pointers.
    – jamesdlin
    Commented Feb 1, 2010 at 11:31

When the constant is first, the compiler will warn you if you accidentally write = rather than == since it's illegal to assign a value to a constant.


They said, "to prevent mixing of assignment and comparison".

In reality I think it is nonsense: if you are so disciplined that you don't forget to put constant at the left side, you definitely won't mix up '=' with '==', would you? ;)

  • No, but, you have more of a chance averting the mistake with something that takes multiple keystrokes than one that could be caused by not typing quite hard enough to get the second =. Hence, you know, typo. Commented Jan 26, 2010 at 10:33
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    I'd like to think I'm fairly disciplined, but whatever your coding style, everyone makes the occasional typo and this simple habit avoids mistakes like that making it through to execution. A bug caught at compile time is worth 10 at execution time :-)
    – Jon Cage
    Commented Jan 26, 2010 at 10:38
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    In this case (also when dealing with bool's), IMO the surest way is not to compare against NULL (true/false) explicitly. if (!pMsg)...
    – visitor
    Commented Jan 26, 2010 at 10:56
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    The problem with this (CONST == var) order is that is mixes up the Subject-predicate order which is natural for most western languages. The subject is the main actor in a sentence, and the main actor in the equality is the variable, not the constant. This is why this seems unnatural and is hard to read, like a sentence in the passive voice. So there is a good reason to avoid the (CONST == var) construction. Commented Jan 26, 2010 at 14:40
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    Yes, like Yoda speak it reads. Also, what if two mutable values you were to compare, would the more awkward order you try to pick just to be consistent with the style ;)
    – UncleBens
    Commented Jan 26, 2010 at 17:21

Compilers outputting warnings is good, but some of us in the real world can't afford to treat warnings as errors. Reversing the order of variable and constant means this simple slip always shows up as an error and prevents compilation. You get used to this pattern very quickly, and the bug it protects against is a subtle one, which is often difficult to find once introduced.


I forget the article, but the quote went something like:

Evidently it's easier remembering to put the constant first, than it is remembering to use ==" ;))

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