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It's known that defining a heap variable with new gets the pointer without specifying the name:

Var *p = new Var("name", 1);

But I have to clear the variable pointed to by p with delete p later on in the program.

I want to declare a stack variable so it is automatically cleared after function exits, but I only want to get the pointer, and the following:

Var v("name", 1);
Var *p = &v;

is quite tedious, and specifier v will never be referenced.

Can I declare a stack class instance and get its pointer without specifying its name?

share|improve this question
Var *p = Var("name", 1); does not work? – Patashu Jun 5 '13 at 1:45
Um, do you really need to access the object through a pointer? – Mark Garcia Jun 5 '13 at 1:46
@Patashu Um.. no. – 0x499602D2 Jun 5 '13 at 1:48
I'll stick my neck out — I think the answer is "No, you can't do that; that is, you cannot define an anonymous variable on the stack". – Jonathan Leffler Jun 5 '13 at 1:52
What's wrong with just using "&v" in the locations where you need a pointer version of it? – kfsone Jun 5 '13 at 4:11
up vote 10 down vote accepted

There's two questions hidden in here. The first one is:

Var *p = new Var("name", 1);

But I have to clear the variable pointed to by p with delete p later on in the program.

I want to declare a stack variable so it is automatically cleared after function exits

So here, you're asking how to allocate memory without having to explicitly clean it up afterwards. The solution is to use std::unique_ptr:

std::unique_ptr<Var> p(new Var("name", 1));

Voila! unique_ptr will automatically clean itself up, it has virtually no overhead compared to a raw pointer, and it's overloaded the * and -> operators so you can use it just like a raw pointer. Search for "C++11 smart pointers" if you want to know more.

The second question is:

I only want to get the pointer, and the following:

Var v("name", 1);
Var *p = &v;

is quite tedious, and specifier v will never be referenced.

The important point here is that Var *p = &v is completely unnecessary. If you have a function that requires a pointer, you can use &v on the spot:

void SomeFunc(const Var* p);
// ...
Var v("name", 1);

There's no need to put &v in a separate variable before passing it into a function that requires a pointer.

The exception is if the function takes a reference to a pointer (or a pointer to a pointer):

void SomeFunc2(Var*& p);
void SomeFunc3(Var** p);

These types of functions are rare in modern C++, and when you see them, you should read the documentation for that function very carefully. More often than not, those functions will allocate memory, and you'll have to free it explicitly with some other function.

share|improve this answer
One nitpick: you should probably clarify that the object pointed to by unique_ptr is not on the stack here; it's in the heap. Granted, OP's complaint about the heap was merely that raw pointers don't do automatic clean-up, which of course is solved with unique_ptr, but it's still worthwhile to know that heap memory is being allocated and freed here. Additionally, it can't be used "just like a raw pointer", because in order to pass it to a function that actually takes a raw pointer (which, as you point out, is probably OP's use case here), you must use get(). – Kyle Strand Apr 16 '15 at 1:04
(Personally, I'm not sold on get(), though from the votes on that question it appears that most people disagree with me on that.) – Kyle Strand Apr 16 '15 at 1:06
Yes, as I mentioned in the answer, there's actually two questions being asked: how can I allocate memory without having to explicitly clean it up? and how can I pass a stack variable to a function expecting a pointer? – Rick Yorgason May 15 '15 at 16:12
As far as get() goes, I think it's fair to be critical about its use. It's only really necessary when interfacing with legacy code. If you have full control over all the code, you can usually avoid it completely. – Rick Yorgason May 15 '15 at 16:26
Right, I wasn't saying your answer doesn't answer the (intended) question, I'm just saying that the stack/heap distinction might not be clear to inexperienced C++ users, so that's probably worth mentioning, especially given the title of the question. – Kyle Strand May 15 '15 at 16:34

There's no way to do this by allocating on the stack. However, you can use std::make_shared for the heap:

#include <memory>

std::shared_ptr<Var> p = std::make_shared<Var>();
share|improve this answer
Which is totally much more elegant than what the OP already has and definitely less tedious in terms of typing ;) – JustSid Jun 5 '13 at 1:49
This allocates on the free store (heap) not the stack. – Tony D Jun 5 '13 at 1:51
@CDT Why do you need a pointer in the first place? – 0x499602D2 Jun 5 '13 at 2:01
By default, you should prefer unique_ptr to shared_ptr. – Rick Yorgason Jun 5 '13 at 4:49
This allocates on the heap instead of the stack. And even if that was tolerable there is absolutely no need for shared ownership here and a std::unique_ptr would be the appropriate solution (hint: this applies to most situations where you're tempted to spam std::shared_ptrs). – Christian Rau Jun 5 '13 at 7:37

At the cost/risk of being more confusing, you can avoid repeating the type in your code in the question ala:

Var v("name", 1), *p = &v;

You could also potentially use alloca, which is provided by most systems and returns a pointer to stack-allocated memory, but then you have to go through a separate painful step to placement new an object into that memory and do your own object destruction. alloca needs to be called inside the function so it's the function stack on which the object is created, and not during the preparation of function arguments (as the variable's memory may be embedded in the stack area the compiler's using to prepare function arguments), which makes it tricky to wrap into some easily reused facility. You could use macros, but they're evil (see Marshall Cline's C++ FAQ for an explanation of that). Overall - not worth the pain....

Anyway, I recommend sticking with the code in your question and not over-thinking this: using &v a few times tends to be easier, and when it's not it's normally not a big deal if there's an unnecessary identifier for the stack-based variable.

share|improve this answer
HOLY CRAP THAT'S BROKEN. alloca is dangerous enough in the first place without people returning pointers to the bit of stack it gave you from inside a constructor. Holy crap! – kfsone Jun 5 '13 at 4:09
@kfsone: yeah... yikes... WTF was I thinking??? – Tony D Jun 5 '13 at 4:11
tbh, made my day =) – kfsone Jun 5 '13 at 4:14
@kfsone: it's was a shocker par excellence, even if I do say so myself ;-) – Tony D Jun 5 '13 at 4:20

I don't think there is a way to overcome it without some overhead (like the shared_ptr). so the shortest way to write it will be:

Var v("name", 1), *p = &v;
share|improve this answer

Yes, it's possible to return an address to a temporary (i.e. stack) object and assign it to a pointer. However, the compiler might actually discard the object (i.e. cause that section in memory to be overwritten) before the end of the current scope. (TO CLARIFY: THIS MEANS DON'T DO THIS. EVER.) See the discussion in the comments below about the behavior observed in different versions of GCC on different operating systems. (I don't know whether or not the fact that version 4.5.3 only gives a warning instead of an error indicates that this will always be "safe" in the sense that the pointer will be valid everywhere within the current scope if you compile with that particular version of GCC, but I wouldn't count on it.)

Here's the code I used (modified as per Jonathan Leffler's suggestion):

#include <stdio.h>

class Class {
    int a;
    int b;
    Class(int va, int vb){a = va; b = vb;}

int main(){ 
    Class *p = &Class(1, 2);
    Class *q = &Class(3, 4);
    printf("%p: %d,%d\n", (void *)p, p->a, p->b);
    printf("%p: %d,%d\n", (void *)q, q->a, q->b);

When compiled using GCC 4.5.3 and run (on Windows 7 SP1), this code printed:

0x28ac28: 1,2
0x28ac30: 3,4

When compiled using GCC 4.7.1 and run (on Mac OS X 10.8.3), it printed:

0x7fff51cd04c0: 0,0
0x7fff51cd04d0: 1372390648,32767

In any case, I'm not sure why you wouldn't just declare the variable normally and use &v everywhere you need something "pointer-like" (for instance, in functions that require a pointer as an argument).

share|improve this answer
When I compile your code in a file clash.cpp, GCC 4.7.1 (g++ -Wall -Wextra says: clash.cpp: In function ‘int main()’: and clash.cpp:11:26: error: taking address of temporary [-fpermissive]. Note that this is an error with 4.7.1 (which version did you use?) I think it is trying to tell you that the duration of the temporary is the end of the statement, so the pointer points at nothing after the statement is complete. To get it to compile, I had to add -fpermissive. – Jonathan Leffler Jun 5 '13 at 5:11
When I run this minor variation of your code: int main(){ Class *p = &Class(1, 2); Class *q = &Class(3, 4); printf("%p: %d,%d\n", (void *)p, p->a, p->b); printf("%p: %d,%d\n", (void *)q, q->a, q->b); } I get garbage output. Without the %p printing, (somewhat to my surprise) the code printed 1,2 and 3,4, but with it, I got: 0x7fff51cd04c0: 0,0 and 0x7fff51cd04d0: 1372390648,32767. (GCC/G++ 4.7.1 on Mac OS X 10.8.3) – Jonathan Leffler Jun 5 '13 at 5:19
This is the trouble with undefined behaviour; it can sometimes seem to work as you expected...until you move the code to a different machine or different compiler on the same machine. According to the Cygwin setup program, there is a cygwin64-gcc at v4.8.0, and a gcc4 at v4.7.2 (though it defaults to the 4.5.3 version), and plain gcc at an archaic v3.4.4. Maybe an upgrade is in order...or maybe not if you've ever relied on this behaviour. (NB: it is an error in 4.7.1 with or without the -Wall -Wextra options; it ceases to be an error with -fpermissive.) – Jonathan Leffler Jun 5 '13 at 6:17
@WagnerPatriota: no; it is not the best solution because it is relying on undefined behaviour. Relying on undefined behaviour is dangerous — very dangerous. It is dangerous to your sanity; it is dangerous to your program and its data. – Jonathan Leffler Jun 5 '13 at 6:37
@WagnerPatriota: this is very seriously wrong - not just something that might actually exhibit undefined behaviour on some weird system but can be expected to work reliably on all modern mainstream machines (as quite a few C++ undefined behaviours are) - rather, this is of the "if it works at all for anyone it's already a fluke and just change the optimiser level or add a few more variables elsewhere in the function and watch it crash and burn" variety. – Tony D Jun 5 '13 at 7:02

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