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Why in code like below is the .NET compiler not able to establish that all code paths do return a value?

bool Test(bool param) {
    bool test = true;
    if (param)
        test = false;
        test = false;
    if (!test)
        return false;

error CS0161: Not all code paths return a value!

The code can be refactored - but the compiler is not suggesting that. Yet all return paths are covered - so why does the compiler complain that they are not?

Edit: I guess the conclusion here is that:

(error CS0161) + (all code paths obviously return a value) => refactor code.  

Once you get the habit of that translation I guess everything is ok.

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I guess the devs didn't feel the need to cater for code like this. –  David Heffernan Apr 11 '12 at 21:31
Is there an actual snippet of useful code for which you're seeing this compiler error? –  Cody Gray Apr 11 '12 at 21:31
But it could still be trivially refactored to eliminate redundancy. And then I suspect it would no longer trigger the error. Think of it like a subtle nudge to follow good design practice. –  Cody Gray Apr 11 '12 at 21:35
This function in it's current state is useless as if (!test) return false should ONLY be return false. I'm not seeing any value in trying to understand why a useless function is throwing a warning/error. –  Erik Philips Apr 11 '12 at 21:38
In response to your edit: dtb's answer is correct. Eric Lippert's article not only says that "the reachability analyzer is not very smart" but also that "This shortcoming of the language design is silly, but frankly, we have higher priorities than fixing this silly case." The solution here is not to fix the compiler; rather, it is to remove the if (!power_args_ok) line. Alternatively, you can throw a new Exception("power_args_ok is unexpectedly true") to protect yourself against buggy edits to this method. –  phoog Apr 11 '12 at 21:50

4 Answers 4

up vote 10 down vote accepted

From the C# Language Specification 4.0 included with Visual Studio 2010.

10.6.10 "Method body":

When the return type of a method is not void, each return statement in that method’s body must specify an expression that is implicitly convertible to the return type. The endpoint of the method body of a value-returning method must not be reachable. In other words, in a value-returning method, control is not permitted to flow off the end of the method body.

The definition of reachability is here (emphasis added):

8.1 "End points and reachability":

If a statement can possibly be reached by execution, the statement is said to be reachable. Conversely, if there is no possibility that a statement will be executed, the statement is said to be unreachable.


To determine whether a particular statement or end point is reachable, the compiler performs flow analysis according to the reachability rules defined for each statement. The flow analysis takes into account the values of constant expressions (§7.19) that control the behavior of statements, but the possible values of non-constant expressions are not considered.

Since !test isn't a constant expression (even though it will always evaluate to true), the compiler is obliged to not consider it in the flow analysis. One reason (maybe the only reason) for this restriction is that performing this kind of flow analysis is impossible in the general case.

To get rid of the error, you'll need to have another return statement, either in an else clause or unconditionally at the end of the method.

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+1 for finding the spec reference –  phoog Apr 11 '12 at 21:52
Well I guess that spells it out. Im just suprised that there is zero depth anaysis of non-constant expressions. I can understand that the analysis could get complicated quickly but its odd the compiler doest run through a few shallow / trivial cases. –  Ricibob Apr 11 '12 at 22:04
@Ricibob: The more accurate we make the reachability analyzer, the harder it is for the specification to clearly describe it, and therefore the harder it is for you to know whether your program is correct or not. The language as it is specified today attempts to inhabit the "sweet spot" where the algorithm is understandable, and it catches most reachability errors. Minimizing the number of "false positive" errors is not very high on the priority list. Moreover: the error is pointing out to you an opportunity to improve the code; be happy about that! –  Eric Lippert Apr 11 '12 at 22:12

From Eric Lippert's blog:

The reachability analyzer is not very smart. It does not realize that there are only two possible control flows and that we've covered all of them with returns.

(The blog post is on switch statements, but I guess the reachability analyzer isn't much smarter for if statements.)

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This just represents the limitations in how smart the compiler is with regard to what gets initialized and which lines will be executed.

I run into this from time to time. But it's very seldom that it's a problem. I would normally just restructure the code a little.

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Let's backward analyze the code:

Problem: Code doesn't return any value.

Question: Where in code a value is returned?

Answer: Just at the last line.

Conclusion: So that line of code (last line) should always return a value.

Question: Does last line always return a value?

Answer: No, it only returns value if test is false while it has been set to true at the first line.

Conclusion: As compiler says, this function never returns a value while it is supposed to return bool.

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