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I have an abstract module class that specific modules derive from. At runtime, I parse a config file and determine the specific module type of each module within the config file:

std::vector<module*> modules;
module *temp;

//Let nm be the result of parsing as a std::string

if(nm == "type1")
    temp = new module_1(...);
else if(nm == "type2")
    temp = new module_2(...);
else if(nm == "type3")
    temp = new module_3(...);
    //Syntax error
    return -1;

partition p;
p.modules = modules;

handing off the vector modules to a partition class:

class partition
    //Member functions

    //...Other variables
    std::vector<module*> modules;

What's the proper way to deallocate the memory for these module pointers once I'm done with them? I tried to delete them in the destructor for the partition class as follows, but wound up with a segmentation fault:

    for(unsigned i=0; i<modules.size(); i++)
         delete modules[i];
share|improve this question
Why did you decide to use std::vector<module*> instead of std::vector<module> ? – LihO Feb 17 '13 at 22:14
@LihO I assume he is using virtual functions. – Lalaland Feb 17 '13 at 22:14
@Adam27X My immediate guess is that you are double deleting your modules. Use a private copy constructor to ban copies. – Lalaland Feb 17 '13 at 22:17
@Lalaland My immediate thought as well except that in that case, shouldn't he be getting a double free/heap corruption error? At least in gcc those are different from a seg fault. – Matt Phillips Feb 17 '13 at 22:21
Have you looked at this using gdb? Where does it die? – RageD Feb 17 '13 at 22:22

1 Answer 1

up vote 2 down vote accepted

That depends on how you want to handle ownership and if a partition is going to have value semantics. Think about what should happen if you copy a partition:

Is the copy of the partition going to share the modules with the original. Are changes in a module to be shared between the partitions?

If yes, you should use a std::shared_ptr for your partitions. All pain is gone.

If not, implement a copy-constructor and assignment operator for your partition that performs a deep-copy of the modules list. Implement a destructor that deletes each module in the list. This is safe, because each partition has its own module objects.

In general, I favor the second approach. If you don't want to implement the deep-copy, just make partition noncopyable or move-only and use std::unique_ptr to handle the deletion.

share|improve this answer
I do pass an instance of the partition class to another class package. An instance of the package class is then passed to some number of threads that work with the modules within. Each partition has its own set of modules, so the second approach seems relevant. Do I need a deep copy for the package class as well for this case? – Adam27X Feb 17 '13 at 22:37
@Adam27X Are the module objects thread-safe (i.e. more than a single thread can use the same module object)? – WhozCraig Feb 17 '13 at 22:41
@WhozCraig Yes. A given module itself is never accessed by more than one thread, but in the current state of my code, each thread does have access to all modules, even if it will only ever use its particular subset of them. – Adam27X Feb 17 '13 at 22:46
it will actually be easier if each thread has access to all modules in a partition, and only uses the ones it needs. how you setup that mutual exclusion is another task entirely. but the copy-nature of a partition (and thus the module table it is hoisting around) may well be better served by shared_ptr rather than unique_ptr (assuming I understand the problem correctly). Either way, pmr's answer (this one) is accurate. – WhozCraig Feb 17 '13 at 22:52
@WhozCraig Much of it depends if you think about a module as a value or an object and how changes in one module should be propagated. In any case: One deep-copy in the hierarchy is enough. – pmr Feb 17 '13 at 23:25

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