%module li_std_vector %include "std_string.i" %include "std_vector.i" %include "cpointer.i" %include "carrays.i" %{ #include #include #include %} namespace std { %template() vector; %template(IntVector) vector; %template(BoolVector) vector; %template() vector; } %template(DoubleVector) std::vector; %template(sizeVector) std::vector; %{ template struct Param { T val; Param(T v = 0): val(v) { } operator T() const { return val; } }; %} specialize_std_vector(Param,PyInt_Check,PyInt_AsLong,PyInt_FromLong); %template(PIntVector) std::vector >; %inline %{ typedef float Real; %} namespace std { %template(RealVector) vector; } %inline %{ double average(std::vector v) { return std::accumulate(v.begin(),v.end(),0.0)/v.size(); } std::vector half(const std::vector& v) { std::vector w(v); for (std::vector::size_type i=0; i& v) { std::transform(v.begin(),v.end(),v.begin(), std::bind2nd(std::divides(),2.0)); } %} %template(IntPtrVector) std::vector; // // %{ #include %} %inline %{ namespace Test { struct A { virtual ~A() {} virtual int f(const int i) const = 0; }; struct B : public A { int val; B(int i = 0) : val(i) { } int f(const int i) const { return i + val; } }; int vecAptr(const std::vector& v) { return v[0]->f(1); } } std::vector halfs(const std::vector& v) { std::vector w(v); for (std::vector::size_type i=0; i vecStr(std::vector v) { v[0] += v[1]; return v; } %} %template(VecB) std::vector; %template(VecA) std::vector; %pointer_class(int,PtrInt) %array_functions(int,ArrInt) %template(pyvector) std::vector; namespace std { %template(ConstIntVector) vector; }