最近学习C++11的variadic template argument,终于可以摆脱用fpmacro模板来复制一大堆代码的做法了,好开心。这个例子的main函数用lambda写了一个斐波那契数列的递归计算函数。跟以往不同的是,在Y函数的帮助下,这个lambda表达是可以成功看到自己,然后递归调用。当然这仍然需要用普通的C++递归来实现,并不是λ-calculus那个高大上的Y Combinator。
#include <functional> #include <memory> #include <iostream> #include <string> using namespace std; template<typename TResult, typename ...TArgs> class YBuilder { private: function<TResult(function<TResult(TArgs...)>, TArgs...)> partialLambda; public: YBuilder(function<TResult(function<TResult(TArgs...)>, TArgs...)> _partialLambda) :partialLambda(_partialLambda) { } TResult operator()(TArgs ...args)const { return partialLambda( [this](TArgs ...args) { return this->operator()(args...); }, args...); } }; template<typename TMethod> struct PartialLambdaTypeRetriver { typedef void FunctionType; typedef void LambdaType; typedef void YBuilderType; }; template<typename TClass, typename TResult, typename ...TArgs> struct PartialLambdaTypeRetriver<TResult(__thiscall TClass::*)(function<TResult(TArgs...)>, TArgs...)> { typedef TResult FunctionType(TArgs...); typedef TResult LambdaType(function<TResult(TArgs...)>, TArgs...); typedef YBuilder<TResult, TArgs...> YBuilderType; }; template<typename TClass, typename TResult, typename ...TArgs> struct PartialLambdaTypeRetriver<TResult(__thiscall TClass::*)(function<TResult(TArgs...)>, TArgs...)const> { typedef TResult FunctionType(TArgs...); typedef TResult LambdaType(function<TResult(TArgs...)>, TArgs...); typedef YBuilder<TResult, TArgs...> YBuilderType; }; template<typename TLambda> function<typename PartialLambdaTypeRetriver<decltype(&TLambda::operator())>::FunctionType> Y(TLambda partialLambda) { return typename PartialLambdaTypeRetriver<decltype(&TLambda::operator())>::YBuilderType(partialLambda); } int _tmain(int argc, _TCHAR* argv[]) { auto fib = Y([](function<int(int)> self, int index) { return index<2 ?1 :self(index-1)+self(index-2); }); for (int i = 0; i < 10; i++) { cout << fib(i) << " "; } cout << endl; }