Changes for Boost.1.39

[SVN r52033]

example/doc_node_allocator.cpp

@@ -18,46 +18,44 @@ using namespace boost::interprocess;
 
 int main ()
 {
-   shared_memory_object::remove("MySharedMemory");
+   //Remove shared memory on construction and destruction
+   struct shm_destroy
+   {
+      shm_destroy() { shared_memory_object::remove("MySharedMemory"); }
+      ~shm_destroy(){ shared_memory_object::remove("MySharedMemory"); }
+   } remover;
 
-   try{
-      //Create shared memory
-      managed_shared_memory segment(create_only, 
-                                    "MySharedMemory",  //segment name
-                                    65536);
+   //Create shared memory
+   managed_shared_memory segment(create_only, 
+                                 "MySharedMemory",  //segment name
+                                 65536);
 
-      //Create a node_allocator that allocates ints from the managed segment
-      //The number of chunks per segment is the default value
-      typedef node_allocator<int, managed_shared_memory::segment_manager>
-         node_allocator_t;
-      node_allocator_t allocator_instance(segment.get_segment_manager());
+   //Create a node_allocator that allocates ints from the managed segment
+   //The number of chunks per segment is the default value
+   typedef node_allocator<int, managed_shared_memory::segment_manager>
+      node_allocator_t;
+   node_allocator_t allocator_instance(segment.get_segment_manager());
 
-      //Create another node_allocator. Since the segment manager address
-      //is the same, this node_allocator will be
-      //attached to the same pool so "allocator_instance2" can deallocate
-      //nodes allocated by "allocator_instance"
-      node_allocator_t allocator_instance2(segment.get_segment_manager());
+   //Create another node_allocator. Since the segment manager address
+   //is the same, this node_allocator will be
+   //attached to the same pool so "allocator_instance2" can deallocate
+   //nodes allocated by "allocator_instance"
+   node_allocator_t allocator_instance2(segment.get_segment_manager());
 
-      //Create another node_allocator using copy-constructor. This
-      //node_allocator will also be attached to the same pool
-      node_allocator_t allocator_instance3(allocator_instance2);
+   //Create another node_allocator using copy-constructor. This
+   //node_allocator will also be attached to the same pool
+   node_allocator_t allocator_instance3(allocator_instance2);
 
-      //All allocators are equal
-      assert(allocator_instance == allocator_instance2);
-      assert(allocator_instance2 == allocator_instance3);
+   //All allocators are equal
+   assert(allocator_instance == allocator_instance2);
+   assert(allocator_instance2 == allocator_instance3);
 
-      //So memory allocated with one can be deallocated with another
-      allocator_instance2.deallocate(allocator_instance.allocate(1), 1);
-      allocator_instance3.deallocate(allocator_instance2.allocate(1), 1);
+   //So memory allocated with one can be deallocated with another
+   allocator_instance2.deallocate(allocator_instance.allocate(1), 1);
+   allocator_instance3.deallocate(allocator_instance2.allocate(1), 1);
 
-      //The common pool will be destroyed here, since no allocator is
-      //attached to the pool
-   }
-   catch(...){
-      shared_memory_object::remove("MySharedMemory");
-      throw;
-   }
-   shared_memory_object::remove("MySharedMemory");
+   //The common pool will be destroyed here, since no allocator is
+   //attached to the pool
    return 0;
 }
 //]