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Currently I am facing an issue where i am passing a buffer object over a pipe from x64 arch to x86 arch. The object also contains some pointer values, which is 8 bytes in x64 which the same pointer size on x86 is 4 bytes. Now when i am transmitting the object over pipe then size of it is bit more than what x86 platform was expecting for the same object (because pointer size in here is less). What i could understood from similar post in this forum that i might need to use serialization but i do not know how as i have never used serialization before. Will serialization will solve this problem? I am using C++ with GCC compiler. I want the product would work on all arch (ia64, x64 or x86).

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i don't think you can use something like memcpy(&obj, sizeof(obj), data, sizeof(obj)), then transfer data to another architecture where you doing memcpy(data, sizeof(obj), &obj, sizeof(obj)), its just wrong/ –  user928204 Sep 7 '11 at 7:41

3 Answers 3

up vote 2 down vote accepted

boost serialization is designed specifically to :

Here, we use the term "serialization" to mean the reversible deconstruction of an arbitrary set of C++ data structures to a sequence of bytes. Such a system can be used to reconstitute an equivalent structure in another program context. Depending on the context, this might used implement object persistence, remote parameter passing or other facility. In this system we use the term "archive" to refer to a specific rendering of this stream of bytes. This could be a file of binary data, text data, XML, or some other created by the user of this library.

By the way, use POD structures, and make sure to have use data types of a specific type. For that use predefined types (for example, take a look here)

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Well, i used POD structure and bit of cast to get around this issue. –  HokageSama Sep 8 '11 at 11:16

A pointer is an address to a memory location within your local running program*. It is useless to send it to another program, more useless to a program running on another machine, even more useless if the architecture of the other machine is different.

Using serialization in your context means sending the content of what is pointed to by the pointer instead of sending the meaningless pointer itself.

To achieve cross-architecture data sending, the easier is to use text for data transfers. Most if not all of widely used cross-architecture protocols use text: HTTP, IMAP, IRC ...

*: I use program instead of process.

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A thought for your first para.Lets say, i have two m/c which have restrictive computation limits, sys-1 need to do some very complex computation which will result a massive object that need to pass to sys-2. If i have one super-computer to work with then sys-1 can pass parameters to super-computer to perform computation and SC will stored that object within it self and just pass a pointer to sys-1. Sys-1 will send an object with this pointer to sys-2 and, in need sys-2 can query our SC for the outcome of computation and SC will return only relevant fields. Is this fantasy film makes any sense. –  HokageSama Sep 7 '11 at 8:51
    
This is not fantasy. This is very possible. The thing here, is that your design involves several computers. Therefore, when thinking pointer, you have to think to something like an URL instead of a traditional C pointer. Therefore, I could translate your scenario as "sys-1 send a request to SC for a computation, and tells sys-2 about the location of the result on SC. Then sys-2 can access the result." You definitively have to think out-of-the-C-box for this design. –  Didier Trosset Sep 7 '11 at 9:17
    
@HokageSama Take a look at mcs.anl.gov/research/projects/mpich2 or open-mpi.org –  istepura Sep 7 '11 at 12:58

http://code.google.com/apis/protocolbuffers/

Protocol buffers are Google's language-neutral, platform-neutral, extensible mechanism for serializing structured data – think XML, but smaller, faster, and simpler. You define how you want your data to be structured once, then you can use special generated source code to easily write and read your structured data to and from a variety of data streams and using a variety of languages – Java, C++, or Python.

Worked for me on x86/64, arm

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