What are the advantages of using boost.any library ? Could you please give me some real life examples ? Why the same functionality couldn't be achieved by having some generic type in the root of object's hierarchy and creating containers with that base type ?
I consider that Boost.Variant should always be preferred as it's non-intrusive and still calls for very structured programming.
But i guess the main idea behind boost.any is to provide the equivalent of java and c# object types. It's a way of saying "yes we can" ! :-)
boost::any will happily store ints and floats, types that clearly have no base classes. A real-life example where you can use it is a virtual machine for a high-level interpreted language. Your "function" objects will need an array of arguments. This can easily be implemented with a
std::list<boost::any> behind the scenes.
When I was first learning about Boost's any I found this article by Herb Sutter and Jim Hyslop in Dr. Dobbs. I found it helpful.
We've used it in a property map, (
std::map<std::string, boost::any>), to store a lot of things dynamically in a simple, flat dataspace.
Mostly we either stored smart-ptr-to-scriptable-objects or strings, but some entries where other types (floats, vec3f, matrices, and other non-standard objects).
It works pretty well for adding more dynamic capabilities to c++, or wherever you want some type-erasure to just add any type of data to an object.
Why the same functionality couldn't be achieved by having some generic type in the root of object's hierarchy and creating containers with that base type ?
That calls an object hierarchy -- a construct you are injecting in artificially in to the design for solving a peripheral problem. Further, such a construct is easy to get wrong and a wrong implementation can wreak havoc.
Boost.Any is a community reviewed safe, well-tested alternative.
Could you please give me some real life examples ?
What are the advantages of using boost.any library ?
I refer the introductory documentation.
We use boost.any as the carrier type for a type-safe tagged variadic container. Here's what that means:
We have a "raft" object, which travels through a set of filters. When a filter wants to add data to the raft, it can do something like this:
raft.addTaggedData<ETag1>(3.0); raft.addTaggedData<ETag2>("a string")`; std::string str = raft.getTaggedData<ETag2>(); int a = raft.getTaggedData<ETag1>(); // <-- Compile error
ETag2 are members of an enum, and we use a traits template to map tags to types.
The raft class is using a
pair<ETagType, boost::any> as a backing store. Boost.any saved us the pain of managing raw buffers for various types.