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I'm working on a big project for embedded systems. The project is a library and some binaries that must be integrated into customer's code/solution. So, it must be as much OS/Platform independent as possible. We've been working on embedded linux so far without problems. However it is possible that non linux based platforms join the fun in the near future.

To ilustrate the kind of platform we are working with, they must be capable of running demanding modules such as a Java Virtual Machine.

I'm not sure which kind of platform may show up and what kind of compilers they may offer. So I'm a little worried about using advanced C++ futures or libraries that may cause a lot of trouble. Mainly I want to avoid the possibility of incompatibility due to that.

We are refactoring a few C++ modules of our solution. They are really tricky and smart pointers support would help a lot. At first, I thought about making a custom smart pointer package, but it seems a little risk to me (bugs here would cause a huge headache). So I thought about using boost's smart pointers.

Do you guys think I'm going to have trouble in the future if I use the boost's smart pointers?

I tried to extract the boost's smart pointer package using bcp, however a lot of other things come along with that. something like 4Mb of code. The extracted directories are:

config/compiler
config/stdlib
config/platform
config/abi
config/no_tr1
detail
smart_ptr
mpl (and subdirs)
preprocessor (and subdirs)
exception (and subdirs)
type_traits (and dubdirs)

That doesn't seem very portable to me (but I may be wrong about it).

What do you guys think about it?

Thanks very much for your help.

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Do you have an idea about the target system(s) where your application will be deployed? If not, you need to get an idea asap. Then, check out the available compiler(s) on each such platform. Check out if Boost (or part thereof) is supported on such a platform. Take the lowest common denominator. Unfortunately, without specifics, the question is a bit vague to address with any degree of certainty. –  dirkgently Jun 26 '12 at 14:57
    
std::shared_ptr has been part of C++ since the tr1 in 2005, so it should be fairly ubiquitous. Boost intrusive_ptr might be less heavy. –  jxh Jun 26 '12 at 15:08
    
What is your embedded platform? –  qehgt Jun 26 '12 at 15:45
    
I've already worked with ST SH4 platform (Linux), ARM (custom chip from client), MIPS (custom chip from client). It is not possible to know what new platforms it may be deployed. New clients may decide to work with us and the details about their platforms is not available publically (actually, it is very strategic for them). –  Marcus Jun 26 '12 at 16:19
    
I heard a lot about TR1. But I'm not aware whether it is well adopted among embedded platforms. Should I consider that a common denominator? –  Marcus Jun 26 '12 at 16:21

3 Answers 3

up vote 1 down vote accepted

Newer compilers include shared_ptr as C++11/TR1. If you have a reasonably modern compiler- which you really want to have, because of C++11- then it should not be problematic.

If you do not right now have a customer who cannot use TR1, then rock on with it. You can deal with future customers when they arrive- YAGNI applies here, and smart pointers are very important. As are C++11 features like move semantics.

However, if you were desperate, you could roll your own shared_ptr- the concept is not particularly complex.

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Agreed! TR1 is my choice. Thanks for your help. –  Marcus Jul 2 '12 at 14:00

Don't hesitate with using smart pointers. The smart pointer package you extracted should be portable to all decent compilers.

If it won't work with your compiler, you can replace conflicting parts of code manually. Boost code is more complicated, because it contains workarounds for various compiler bugs or missing functionalities. That's one of the reasons, why Boost.Preprocessor or Boost.Typetraits were added.

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Also, did you see: stackoverflow.com/questions/7792011/… –  Rafał Rawicki Jun 26 '12 at 15:33
    
Thanks for your answer. I've seen this post a while ago. It was one of my starting points for possible custom implementations. You mean I should use boost extracted smart pointers or not? Your first sentence encorages me of using it, but the rest of it sound like a "don't do it". Or you are saying that I should use TR1 available smart pointers? Thanks agian. –  Marcus Jun 26 '12 at 16:24
    
I mean you should use an extracted boost smart_ptr. What I meant in the second sentence is - Boost is big, because it support more possible use cases, including working around compiler bugs. However, that doesn't guarantee, that it will work on your compiler and it is possible, that you will have to replace some parts of the code. –  Rafał Rawicki Jun 27 '12 at 15:20
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This article comparing TR1, Boost and C++x11 smart pointer implementations may be useful. –  Clifford Jun 28 '12 at 5:05
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Clifford, great article. Thanks very much for that. –  Marcus Jul 2 '12 at 16:46

Boost is very portable; the source code size of the library is no indication of target image size; much of the library code will remain unused and will not be included in the target image.

Moreover, most common (and not so common and obsolete) 32bit platforms are supported by a "bare-metal" ports of GCC. However while GCC is portable without an OS, GNU libc targets POSIX compliant OS, so bare-metal and non-POSIX dependent ports usually use alternative libraries such as uClib or Newlib. On top of these GNU stdlibc++ will run happily and also many Boost libraries. Parts of Boost such as threads will need porting for unsupported targets, purely data structure related features such as smart pointers will have no target environment dependencies.

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The problem for me is expressions like "most common", "generally". The solution code is very big... If I need to remove boost for some reason, it would cause me a lot of trouble and testing. I'm going to stick with TR1 for now. Thanks very much for your answer. –  Marcus Jul 2 '12 at 13:50
    
My point was that GCC is more broadly cross-platform that any other compiler. Many proprietary compilers even support GCC extensions for compatibility with it. However as a subset of both Boost and C++x11 (albeit in a different namespace), TR1 is probably the safest bet. –  Clifford Jul 3 '12 at 19:46

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