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I'm looking for the fastest way to send CGAL's geometry between processes (C++). Lets assume, that we have 2 processes - A and B. Process A is generating geometry and process B is displaying it. I want to connect them in the fastest awailable way. The geometry is of CGALs Polyhedron type.

I know I can use shared memory, but then I've got some problems:

  1. When I want to copy geometry from process A to shared memory I can use streaming Polyhedron to/from OFF format, but I’m not interested in it, because conversion to this format is too slow for my purpose.
  2. I can create shared memory and use "placement new" to create my object in shared memory and overcome the overhead of streaming and conversion, but then I have no further control of memory allocation by internal Polyhedron functions. (For example when adding new vertex with Polyhedron_incremental_builder_3 I can’t specify where exactly in the memory it should be placed – I can just call B.add_vertex( Point( 0, 0, 0)); and memory allocation is handled in that method internally)

Is there any way to create object in a specific place in shared memory and ensure, that it and its dynamic structures will "live" in this memory?

Or maybe there’s another fast way of sharing dynamic data (ie. Halfedge structures) between two processes?

share|improve this question
I think you can instantiate HalfedgeDS class and provide your custom allocator as template argument. As far as I know it's also possible to rebind default CGAL_ALLOCATOR(int) with your own. Unfortunately, I don't have more knowledge on it. I would be thankful if somebody could tell more in this matter.. – user1913403 Oct 3 '12 at 11:06

I have no further control of memory allocation by internal Polyhedron functions.

You actually do have control.

The reference manual says:

The class Polygon_2 implements polygons. The Polygon_2 is parameterized by a traits class and a container class. The latter can be any class that fulfills the requirements for an STL container. It defaults to the vector class.

In addition to using placement new for the polygon itself, you need a container that you can place in the shared memory. You can try to use boost::interprocess::vector, or roll your own container class.

If you use boost::interprocess::vector, you will need to create a wrapper class for it, because unlike an STL container, its constructor requires an allocator object. Polygon_2 will not be able to construct it correctly. So you will have to get your shared memory allocator object from some kind of global variable. For example:

using namespace boost::interprocess;
typedef allocator<int, managed_shared_memory::segment_manager>  ShmemAllocator;
ShmemAllocator some_global_shmem_allocator;
template <typename T>
class my_shared_memory_vector : vector<T, ShmemAllocator>
  my_shared_memory_vector() : vector(some_global_shmem_allocator) {}

Disclaimer: I have not actually done any of this myself. If your computer catches flame as a result of doing this and your house burns down, don't hold me responsible. It would be wise to double-check (by looking at the GCAL source) that any memory Polygon_2 allocates is actually managed by the container.

Edit: I have misread the question, it asks about Polyhedra, not Polygons. See comment below.

share|improve this answer
Hi, I'm also interested in this topic but your solution is suitable only for 2D geometry processing. Do you know any other solution which works with 3D? – remdezx Oct 2 '12 at 14:03
I think I have misread the original question (Polygons instead of Polyhedras). CGAL::Polyhedron_3 is in fact somewhat similar to the Polygon_2 in that it is also using a user-supplied container, however, in the case of Polyhedron_3 it is a rather complex HalfedgeDS template and not a simple container. The library supplies both vector-like and list-like implementations of HalfedgeDS. It should be possible to implement and use a shared-memory-based variant of HalfedgeDS, however, it probably will be very non-trivial. – n.m. Oct 2 '12 at 20:22
Thank you for yours answer. It would be great though if somebody could help me with solving this problem :) – Wojciech Danilo Oct 3 '12 at 11:08

Of course, the most obvious thing to do would be to use threads instead of processes. That would solve the whole problem with no effort at all.

Other than that, short of hacking the runtime library of your compiler to replace its memory management, you can actually override "operator new" for a class, and/or you can provide a global one. This will let you replace "new" calls with your own memory allocation code. You could use a global flag that you set before making CGAL calls and reset afterwards, to tell the memory allocator what memory heap you want to use (you will obviously have to make some form of heap management for the shared memory).

Overriding the new operator will only work for "new" calls, of course. Anything that gets allocated e.g. through malloc() or some system call isn't going to go through your code. You could try to provide your own malloc() and free() calls (functions contained in object files are preferred over functions from libraries) to see if this can work, but these would probably have to deal with the operating system for the memory management since you loose the library functions. It's definitely going to be messy.

share|improve this answer
It's not always possible or best solution to use threads instead of processes, look at chrome for example. Each tab uses a different process and they all use the same global settings and plugins. You can argue about that, but it gives quite good stability and ease you in anything that have to do with writing thread-safe code. – user1708860 Sep 29 '12 at 23:09
@user1708860 You neglect the reality that hardware isolation (the UNIX process) comes at a significant (or at least nontrivial) cost. If you share nothing (ideal for Chrome), it's very low. If you share a lot, like the OP would like, it's a problem often better solved with threads. – Andres Jaan Tack Sep 29 '12 at 23:57
Please note that this answer does not comply with the assumptions. In my case it is impossible to use threads, because process B is an existing application and process A is my application. Of course in such situations there could be exceptions allowing for making my application a plug-in for B and consequently use threads, but currently that is not what I want. – Wojciech Danilo Sep 30 '12 at 8:25

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