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I am currently trying to fix a few weaknesses in our code base by introducing the use of smart pointers. The code base is very large, and interlinked like a spider who's had one to many coffee's.

I was wondering if people had tried the before and what their approach was.

My first step has been to typedef classes, as follows.

    #define USE_SMART_POINTERS 0

    #include <boost/smart_ptr.hpp>

namespace ProductX
    // forward decleration
    class CTObject;

        typedef boost::shared_ptr<CTObject> CTObjectPtr;
        typedef CTObject* CObjectPtr;

Now I realise this will lead to a wealth of compile areas, things like

CTObjectPtr i = NULL;

Will completly bork when smart pointers are enabled.

I was wondering if there was anything I could do at this early stage to reduce the mass of compile errors, or is it as I suspect just take things on a case by case basis.

Cheers Rich

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4 Answers 4

up vote 9 down vote accepted

Don't do this: the typedefs I mean.

Presumably the old code has at least some delete calls in it? Which would certainly fail in the case of a smart pointer.

Smart pointer certain things or not, i.e. chase a specific instance through the code base. Make it work, then move on. Good Luck!

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Looking at the wealth of code I'm starting to think you're right. Thank you for stopping me going on a crazy code cull. –  Rich Feb 24 '10 at 17:20

Instead of trying to introduce smart pointers everywhere you could use the Boehm-Demers-Weiser garbage collector and leave your code base intact.

It will also take care of cyclic references.

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+1: it is important the remark about cyclic references. That is something that must be taken care of if using smart pointers (using weak_ptr to break cycles) –  David Rodríguez - dribeas Feb 24 '10 at 16:42
An important point about the Boehm collecter is that it's conservative -- it's not guaranteed to clean up all garbage. Nor is it deterministic, like all non-reference counted collectors. –  Joel Feb 24 '10 at 16:46

There is no easy way to do this. As you've found out, boost::shared_ptrs and standard pointers are not interchangeable. What you are doing here is refactoring code, and unfortunately refactoring takes a long time and can be very tedious.

As sdg said, typedefing pointers for shared_ptrs is not a good idea, and just increases the amount of code you have to write.

First, I would identify the pointers that actually need to be changed to shared_ptrs. Obviously you don't want to be changing all pointers to shared_ptrs. Most would probably be better off as std::auto_ptrs or boost::scoped_ptrs and some would be better as boost::weak_ptr, and finally some might just be fine as plain C-style pointers.

Just go through each pointer that needs changing one-by-one, find all references to it, and make the necessary adjustments (e.g. removing calls to delete).

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Probably the easiest way to start such a conversion (if you're sure a particular type should always be either a shared_ptr or a weak_ptr) is to use the self-factory pattern -- make a static shared_ptr<X> X::create(...) method, and change the constructor to private or protected. Now fix all the compiler errors. Only do one type at a time! (Well, you might need to do derived classes at the same time.) –  Miral Feb 14 '12 at 3:15

I would be very restrictive in introducing shared_ptr into an existing large codebase. If you really want to use smart-pointers to fix errors I suggest using scoped pointers and other than that I would refactor code and design clear ownership.

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