What is the difference between undefined, unspecified, and implementation-defined behavior in C and C++?
Undefined behavior is one of those aspects of the C and C++ language that can be surprising to programmers coming from other languages (other languages try to hide it better). Basically, it is possible to write C++ programs that do not behave in a predictable way, even though many C++ compilers will not report any errors in the program!
Let's look at a classic example:
I can hear people screaming "But wait, I can compile this no problem and get the output
Other examples of undefined behavior include accessing an array beyond its bounds, dereferencing the null pointer, accessing objects after their lifetime ended or writing allegedly clever expressions like
Section 1.9 of the C++ standard also mentions undefined behavior's two less dangerous brothers, unspecified behavior and implementation-defined behavior:
Specifically, section 1.3.24 states:
What can you do to avoid running into undefined behavior? Basically, you have to read good C++ books by authors who know what they're talking about. Screw internet tutorials. Screw bullschildt.
Well, this is basically a straight copy-paste from the standard
Maybe easy wording could be easier for understanding than the rigorous definition of the standards.
The language doesn't specify the evaluation, left to right or right to left! So an unspecified behavior may or mayn't result in an undefined behavior, but certainly your program should not produce an unspecified behavior.
@eSKay I think your question is worth editing the answer to clarify more :)
The difference between implementation-defined and unspecified, is that the compiler is supposed to pick a behavior in the first case but it doesn't have to in the second case. For example, an implementation must have one and only one definition of
From the official C Rationale Document
Undefined Behavior vs. Unspecified Behavior has a short description of it.
Their final summary:
C++ standard n3337 § 1.3.10 implementation-defined behavior
Sometimes C++ Standard doesn't impose particular behavior on some constructs but says instead that a particular, well defined behavior has to be chosen and described by particular implementation (version of library). So user can still know exactly how will program behave even though Standard doesn't describe this.
C++ standard n3337 § 1.3.24 undefined behavior
When the program encounters construct that is not defined according to C++ Standard it is allowed to do whatever it wants to do ( maybe send an email to me or maybe send an email to you or maybe ignore the code completely).
C++ standard n3337 § 1.3.25 unspecified behavior
C++ Standard doesn't impose particular behavior on some constructs but says instead that a particular, well defined behavior has to be chosen ( bot not necessary described) by particular implementation (version of library). So in the case when no description has been provided it can be difficult to the user to know exactly how will program behave.
A point which even (especially) seasoned programmers will find bizarre about undefined behavior is that the fundamental philosophy has changed over the last few years. Historically, it used to be that compilers could be expected to handle certain constructs sensibly even though the C standard did not require them to do so. For example, I don't know of any C89 or C99 compilers for hardware developed after 1980 where passing (-300, 2) to the following code wouldn't yield -1000.
The preferred philosophy among some of today's compiler writers, however, would suggest that because
protected by Lundin Mar 25 '14 at 9:53
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