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 ?
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.
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'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.
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.