block_allocator
is a custom STL allocator for use with STL as implemented in Microsoft VC++. Rather than doing allocations on a per-node basis, block_allocator
allocates memory in fixed sized chunks, and delivers portions of these chunks as requested. Typical speed improvements of 40% have been obtained with respect to the default allocator. The size of the chunks, set by the user, should not be too little (reduced speed improvements) nor too large (memory wasted). Experiment and see what sizes fit best to your application.
block_allocator
can substitute for the default allocator in the following containers:
list
, set
, multiset
, map
, multimap
, and WON'T work with other containers such as vector
or queue
. Note however that vector
and queue
already perform allocation in chunks. The usage of block_allocator
is fairly simple, for instance:
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// block allocated list of ints with chunks of 1024 elements std::list > l;
Normal containers and block allocated containers can coexist without problems.
Due to limitations of the standard library provided with these compilers, the mode of usage explained above does not work here. To circumvent this problem one must proceed as follows: For each of the containers supported, there's an associated block allocated container derived from it thru use of block_allocator
. You have to define an activating macro for each container to be defined prior to the inclusion of blockallocator.h:
list -> block_allocated_list
(macro DEFINE_BLOCK_ALLOCATED_LIST
), set -> block_allocated_set
(macro DEFINE_BLOCK_ALLOCATED_SET
), multiset -> block_allocated_multiset
(macro DEFINE_BLOCK_ALLOCATED_MULTISET
), map -> block_allocated_map
(macro DEFINE_BLOCK_ALLOCATED_MAP
), multimap -> block_allocated_multimap
(macro DEFINE_BLOCK_ALLOCATED_MULTIMAP
), To use block allocation based STL in your application, define the corresponding activating macro, include blockallocator.h and then change your declarations as follows:
list -> block_allocated_list
set -> block_allocated_set
multiset -> block_allocated_multiset
map -> block_allocated_map
multimap -> block_allocated_multimap
where chunk_size
is the size of the chunks. You can enter too the other optional template parameters (see MSVC++ STL docs for more info).
The MSVC++ 6.0/7.0 compatibility mode can also be used in MSVC++ 7.1, so you need not modify your block_allocator
-related code when porting legacy code to 7.1.
Each block allocated container instance uses its own block_allocator
, so no multithreading problems should arise as long as your program conveniently protects their containers for concurrent access (or if no two threads access the same container instance). This is the same scenario posed by regular STL classes (remember operations on containers are not guarded by CRITICAL_SECTION
s or anything similar), so the moral of it all is: If your program was multithread safe without block_allocator
, it'll continue to be with it.
operator==
and operator!=
. The lack of these caused linking errors when invoking list::swap()
and similar methods. The funny thing about it is that no one ever reported this seemingly important bug, so either swap()
is not that much used or not that many people use block_allocator
! block_allocator
now works with MSVC++ 7.1 and 8.0. Thanks to James May for helping with testing this new version of the code. typedef
s incorrectly made private
in block_allocated_list
, block_allocated_set
, etc. This article, along with any associated source code and files, is licensed under The Code Project Open License (CPOL)
Joaquín M López Muñoz
Member