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As the title says,

What exactly is the "as-if" rule?

An typical answer one would get is:

The rule that allows any and all code transformations that do not change the observable behavior of the program

From time to time we keep getting behaviors from certain implementations which are attributed to this rule. Many a times wrongly. So, What exactly is this rule. The standard does not clearly mention this rule as a section or paragraph, so what exactly falls under the purview of this rule? To me it seems like a grey area which is not defined in detail by the standard. Can someone elaborate on the details citing the references from the standard.

Note: Tagging this as C and C++ both, because it is relevant to both languages.

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It refers to the abstract machine. – Alexey Frunze Mar 30 '13 at 12:00

1 Answer 1

up vote 45 down vote accepted

What is the "as-if" rule?

The "as-if" rule basically defines what transformations an implementation is allowed to perform on a legal C++ program. In short, all transformations that do not affect a program's "observable behavior" (see below for a precise definition) are allowed.

The goal is to give implementations freedom to perform optimizations as long as the behavior of the program remains compliant with the semantics specified by the C++ Standard in terms of an abstract machine.

Where does the Standard introduce this rule?

The C++11 Standard introduces the "as-if" rule in Paragraph 1.9/1:

The semantic descriptions in this International Standard define a parameterized nondeterministic abstract machine. This International Standard places no requirement on the structure of conforming implementations. In particular, they need not copy or emulate the structure of the abstract machine. Rather, conforming implementations are required to emulate (only) the observable behavior of the abstract machine as explained below.

Also, an explanatory footnote adds:

This provision is sometimes called the “as-if” rule, because an implementation is free to disregard any requirement of this International Standard as long as the result is as if the requirement had been obeyed, as far as can be determined from the observable behavior of the program. For instance, an actual implementation need not evaluate part of an expression if it can deduce that its value is not used and that no side effects affecting the observable behavior of the program are produced.

What does the rule mandate exactly?

Paragraph 1.9/5 further specifies:

A conforming implementation executing a well-formed program shall produce the same observable behavior as one of the possible executions of the corresponding instance of the abstract machine with the same program and the same input. However, if any such execution contains an undefined operation, this International Standard places no requirement on the implementation executing that program with that input (not even with regard to operations preceding the first undefined operation).

It is worth stressing that this constraint applies when "executing a well-formed program" only, and that the possible outcomes of executing a program which contains undefined behavior are unconstrained. This is made explicit in Paragraph 1.9/4 as well:

Certain other operations are described in this International Standard as undefined (for example, the effect of attempting to modify a const object). [ Note: This International Standard imposes no requirements on the behavior of programs that contain undefined behavior. —end note ]

Finally, concerning the definition of "observable behavior", Paragraph 1.9/8 goes as follows:

The least requirements on a conforming implementation are:

— Access to volatile objects are evaluated strictly according to the rules of the abstract machine.

— At program termination, all data written into files shall be identical to one of the possible results that execution of the program according to the abstract semantics would have produced.

— The input and output dynamics of interactive devices shall take place in such a fashion that prompting output is actually delivered before a program waits for input. What constitutes an interactive device is implementation-defined.

These collectively are referred to as the observable behavior of the program. [ Note: More stringent correspondences between abstract and actual semantics may be defined by each implementation. —end note ]

Are there situations where this rule does not apply?

To the best of my knowledge, the only exception to the "as-if" rule is copy/move elision, which is allowed even though the copy constructor, move constructor, or destructor of a class have side effects. The exact conditions for this are specified in Paragraph 12.8/31:

When certain criteria are met, an implementation is allowed to omit the copy/move construction of a class object, even if the constructor selected for the copy/move operation and/or the destructor for the object have side effects. [...]

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I have seen this citation. What is not clear is the definition of observable behavior. What exactly qualify's as an observable behavior? Copy elision being an exception to as-if rule is pretty much well known and not a part of my question really. – Alok Save Mar 30 '13 at 12:02
@AlokSave: Well in the C standard, we see "Accessing a volatile object, modifying an object, modifying a file, or calling a function that does any of those operations are all side effects". Presumably there's something equivalent in the C++ standard(s). Informally, I guess "anything that changes its interaction with the outside world". – Oliver Charlesworth Mar 30 '13 at 12:05
Any behaviour that changes the state of the abstract machine (so, something that changes a variable passed in or global variable, or reads and writes to I/O devices). – Mats Petersson Mar 30 '13 at 12:05
One point to note particularly is that it applies only to legal programs. Anything invoking undefined behaviour is explicitly out of any coverage. – vonbrand Mar 30 '13 at 14:59
@vonbrand: Good point. I will add this, thank you – Andy Prowl Mar 30 '13 at 15:00

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