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In a function parameter that is a pointer (foo(void *bar)), you can use const to specify that either the pointer (the parameter) itself is constant (foo(void * const bar)), and/or the data that the pointer points to is constant (foo(void const *bar)).

However in the foo(void const *bar) case, this is just a guarantee to the caller that foo will not attempt to modify the data pointed to by bar. It does not give bar any guarantee to foo that the memory location pointed to by bar will always be valid.

In cases where you are working with constant data within an executable image, if you could provide that guarantee to foo and if foo needed to keep a reference that data for longer than the duration of the function call, foo could simply keep a copy of the pointer rather than having to make a copy of the data.

Is there a way to encode this guarantee in the C++ type system?

Thanks.

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You could take a T const*&, which would atleast ensure, that whatever you're handed is const on the caller site aswell, but I don't think that helps much. –  Xeo Sep 3 '12 at 19:24
    
You can always use things like boost tag system, which encodes non-type information in the type system. –  Dani Sep 3 '12 at 19:28
    
Did you mean to ask "is there a way to specify that a pointer points to data that will always be valid"? There is a difference between "is" and "will always be". If that was what you meant, then one of the standard library wrapper classes like shared_ptr might do what you want. –  Oktalist Sep 3 '12 at 19:29
    
For whose benefit do you wish to encode this information? As a hint to the compiler? Or as a kind of documentation for the developer reading/using the code? –  jalf Sep 3 '12 at 19:33
    
void const *bar does not guarantee that the function will not attempt to modify the data. It communicates intention; the function can violate that intention by casting away the const and modifying the data. –  Pete Becker Sep 3 '12 at 20:15

4 Answers 4

Q: Is there a way to specify in C++ that a pointer points to data that is always valid?

A: No. You are always empowered with the ability to shoot yourself in the foot :)

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2  
i see only a silly response to the subject, and no acknowledgement of the details provided beyond the subject. sorry (-1). –  justin Sep 3 '12 at 19:52

Not with a raw pointer but you could use a shared_ptr or a unique_ptr instead which would communicate that the function has ownership of the pointer.

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But that doesn't mean that the pointer is valid. –  Pete Becker Sep 3 '12 at 19:54
    
@PeteBecker it doesn't guarantee it, but if it isn't then the caller is severely misusing shared_ptr or unique_ptr. The only way it wouldn't stay valid is if the caller did some shenanigans like pulling the raw pointer out of the smart pointer and deleting it. –  Dirk Holsopple Sep 3 '12 at 20:06
1  
My point was that using shared_ptr doesn't guarantee that the pointer it holds is valid, any more than calling a function guarantees that the pointer you pass in is valid. Garbage In, Garbage Out. –  Pete Becker Sep 3 '12 at 20:12
    
Thank you, I'll research those pointer types some more (I'm just using C-style pointers so far) –  Matt Sep 3 '12 at 22:51
    
@PeteBecker the question doesn't mention checking that the pointer is initially valid (which you can't do), only whether you can store the pointer without the caller deleting it (which smart pointers do short of very unusual behavior by the caller). –  Dirk Holsopple Sep 4 '12 at 12:13

There's no real way to guarantee it if you accept a pointer as input. You could however maintain a table of valid pointers and let your input be an index into that table; you can validate that by making sure the index falls within the table.

Short of that, the best you can do is catch the exception/signal that occurs when a bad pointer is used and try to recover from it.

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Well, catch the exception/signal that might occur when a bad pointer is used. –  Pete Becker Sep 3 '12 at 20:03
    
Thanks, but I was specifically looking at avoiding a use-after-free scenario. –  Matt Sep 3 '12 at 22:46
    
@Matt -- it probably would have been quite helpful if you had mentioned that up front, as it's quite different from what you've asked. There are debug tools to detect this situation (valgrind on Linux, visual leak detect detector on Windows), in order to validate the code. If you're looking for something which is not just a debug tool, you'll need to implement it yourself -- perhaps something where your caller does not allocate their own memory, but rather they must allocate and free it using routines you provide. –  mah Sep 4 '12 at 0:41

the approach i have taken is to create a class representation which introduces a semantic that specifies the backing data is static. then just ensure it cannot be trivially constructed, or its data reassigned.

so no, there is not a direct language feature, but introducing that semantic is easy enough.

Here's an illustration on how to prevent clients from accidentally promoting standard data to an immortal data container:

template <typename T>
class t_immortal_data_container {
public:
  // how clients create t_immortal_data_container<T>,
  // avoiding implicit promotions:
  static t_immortal_data_container Create(T& pImmortalData) {
    return t_immortal_data_container(pImmortalData);
  }

  ~t_immortal_data_container() {
  }
public:
  ...
private:
  // private: ensure t_immortal_data_container<T> only can use
  // this constructor:
  t_immortal_data_container(T& pData) : d_immortalData(pData) {
  }
private:
  T d_immortalData; /* << as pointer or reference */
private:
  // prohibited -- no definition
  t_immortal_data_container() /* = delete */ ;
};

then you update your program to accept this type as parameters, and handle the cases accordingly.

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Thank you, seems like a pretty heavy solution that I expect works (although I'd need to look up the "= default;" and "= delete;" syntax before I fully understood it) –  Matt Sep 3 '12 at 22:50
    
@Matt you're welcome. heavy: not so. it's a very lightweight way to introduce these semantics. typically, you will create them on the stack, and need them as parameters in a few select places to ensure semantics. syntax: the syntax is C++11. = default is used to permit use of the copy constructor. = delete is used to delete the default constructor. this just means that the client may use the copy constructor, while forbidding use of the default constructor. i will just change it so it uses no C++11… –  justin Sep 3 '12 at 23:10
    
Thanks Justin. When I wrote my last comment I was under the misimpression that you wrote this class expecting for the data itself to be encapsulated in it, rather than just holding a pointer to static data, so it's lighter than I originally thought. –  Matt Sep 3 '12 at 23:20
    
@Matt exactly - it simply refers to your static data by pointer or reference. in some scenarios, you might just use its pointer as the definitive storage location (the static is this container, and creates the single instance of the data as a parameter to the constructor of the static instance). passing that container around could simplify some things, and prevent some bugs. even then, it would not cost much because no copy of the data is required; just ensure T is a pointer or reference. i try to minimize static data, so i don't actually use this in many places, but it does help at times. –  justin Sep 3 '12 at 23:36

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