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"));
}
See also
- Design patterns
- Duck typing
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.
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