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This question already has an answer here:

Is it safe to assume that the if statement will always work if the variable is uninitialized? Assumption is yes, but I have been told that random bits of garbage in the variable does not always mean that the check if null will work.

Void afunction () {
    char* someStr;
    if (someStr) 
        // do something
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marked as duplicate by LihO, Mark, StoryTeller, Sudarshan, Sankar Ganesh Feb 6 '13 at 6:15

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

I'm pretty sure that's not a guarantee. I think it's implementation dependent on where a created pointer is pointing. – Falmarri Feb 5 '13 at 22:31
@Falmarri Reading uninitialized variables is undefined behavior, not “implementation dependent”. See and – Pascal Cuoq Feb 5 '13 at 22:33
@PascalCuoq: Right, that's regular variables. I'm not sure if uninitialized pointers are the same or not. – Falmarri Feb 6 '13 at 16:30
up vote 8 down vote accepted

Is it safe to assume that the if statement will always work if the variable is uninitialized?

No. Reading uninitialized storage invokes undefined behavior. You can't make safe assumptions about this code.

Don't do this!

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As a side note, in every C/C++ implementation I have seen, this will almost surely initialize someStr with an old value (of some other variable) from the stack. Compilers warn you about this for good reason. – John Colanduoni Feb 5 '13 at 22:33
@HevyLight If the uninitialized variable gets a consistent old value that was lying on the stack, you should consider yourself lucky. An optimizing compiler will not balk at treating the uninitialized read as unreachable (since it is undefined behavior) or at treating the variable as having several values. See the two links I posted in a comment to the question for entertaining examples. – Pascal Cuoq Feb 5 '13 at 22:43
@HevyLight: This ineed the case. If you know what you're doing this can be usfull behavior. For example OpenSSL uses this as an additional source of entropy. The compiler warnings issued made some Debian maintainer, who didn't know what he was doing, remove the "offending" code together with some other important things, reducing the entropy pool size of Debian's OpenSSL implementation to a mere 16 bit (based on the process ID). This is known as the Debian cryptography disaster. – datenwolf Feb 5 '13 at 22:43
“If you know what you're doing this can be usfull behavior”. No! Please see – Pascal Cuoq Feb 5 '13 at 22:56
@PascalCuoq: The way OpenSSL uses uninitialized memory as an source for additional entropy is a lot more robust than what's presented in that blogpost. If it were a simple XOR on a variable it would not really improve the entropy quality. What OpenSSL does is, that it feeds the values of several entropy sources, one after another into a cryptographic hash functions, pushing the resulting bits into a feedback shift register. The nice thing about this is, that the entropy never can shrink if done that way. Even if the compiler optimizes away some parts it will not reduce the already present bits – datenwolf Feb 5 '13 at 23:01

This is absolutly not guaranteed to always work. You have to initialize it yourself.

char* someStr = NULL;

or some other value.

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Uninitialized variables are indeterminate. Reading them prior to assigning a value results in undefined behavior.

It is quite easy to check if a pointer is NULL:

if (someStr) {
   // Don't use it (or do for some weird reason)

To be on the safe side and make sure the pointer is the value you want it to be, I would assign it a value upon initialization.

char* someStr = NULL;

You could also make the pointer static to avoid the undefined behavior.

static char* someStr;
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I liked your answer when it only said “Uninitialized variables are indeterminate. Reading them prior to assigning a value results in undefined behavior”, but now you have added a recommendation that I do not understand. if (someStr == NULL) is not different from if (someStr). You shouldn't write either when someStr is uninitialized. Why did you add this part? – Pascal Cuoq Feb 5 '13 at 22:40
For me it was preference, that's really the only reason why. if statements are used to check boolean values, which are supposed to be 0 and 1, and not really meant for NULL values. That way you don't know if the pointer is actually NULL, or 0. I can edit it back to the original if you would like. – syb0rg Feb 5 '13 at 22:44
I think the stylistic preference* has lower priority than the undefinedness of reading from an uninitialized pointer, and that an answer to the question should concentrate on the latter. * C99 says “the first substatement is executed if the expression compares unequal to 0”, which allows the condition expression to be an integer, a pointer, or even a floating-point number. – Pascal Cuoq Feb 5 '13 at 22:49
I'll revert it to the original, but NULL and 0 have different hex representations, which is why I used my specific if statement. I believe that 0 is 0x30 in hex, and NULL is 0x01 in hex. – syb0rg Feb 5 '13 at 22:54
1 “An integer constant expression with the value 0, […], is called a null pointer constant” (also, the standard allows for several null pointer constants, as implied by the “a” in the quote, but all null pointer constants must compare equal (6.5.9:6)) – Pascal Cuoq Feb 5 '13 at 23:05

The value of someStr is not defined. In general it will be set to some old value lying around on the stack. So, it may well be NULL (that is, 0).

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