Type Tunnel pattern

In computer programming, a Type Tunnel pattern is where a group of physically unrelated types may be tunneled through an extensible adaptation layer and presented in unified form to an underlying layer for manipulation as a whole. It consists of the following:

a generic, extensible interface layer, used in client code, which can interact with heterogeneous types, and
a tunnel mechanism, which translates between the heterogeneous types expressed in the client code into the type understood by
a concrete API layer, which manipulates a single concrete type.

Tunnel mechanism include Shims and conversion constructors.

Examples

C++

Example that uses Shims as tunnel mechanism.

// 1. Interface layer
template <typename S> 
void foo(S s) 
{    
    bar(to_cstr_ptr(s)); 
}

// 2. Tunnel mechanism: Shim
char const* to_cstr_ptr(int) { ... }
char const* to_cstr_ptr(char const*) { ... }
char const* to_cstr_ptr(std::string) { ... }

// 3. Concrete API layer
void bar(char const*) { ... }

// Usage
int main() 
{
    foo(123); 
    foo("a C string"); 
    foo(std::string("a std::string")); 
}

References

Wilson, Matthew (August 2003), "Generalized String Manipulation: Access Shims and Type Tunneling", C/C++ Users Journal, 21 (8)
Wilson, Matthew. "Breaking Up The Monolith: Advanced C++ Design without Compromise". Retrieved 11 March 2010.

Software design patterns

Gang of Four
patterns

Creational	Abstract factory Builder Factory method Prototype Singleton

Structural	Adapter Bridge Composite Decorator Facade Flyweight Proxy

Behavioral	Chain of responsibility Command Interpreter Iterator Mediator Memento Observer State Strategy Template method Visitor

Concurrency
patterns

Architectural
patterns

Other
patterns

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Type Tunnel pattern

Examples

C++

See also

References