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attribute.i
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carrays.i
35
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cmalloc.i
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Code Editor : std_vector.i
/* ----------------------------------------------------------------------------- * std_vector.i * ----------------------------------------------------------------------------- */ %include <std_common.i> // ------------------------------------------------------------------------ // std::vector // // The aim of all that follows would be to integrate std::vector with // Tcl as much as possible, namely, to allow the user to pass and // be returned Tcl lists. // const declarations are used to guess the intent of the function being // exported; therefore, the following rationale is applied: // // -- f(std::vector< T >), f(const std::vector< T >&), f(const std::vector< T >*): // the parameter being read-only, either a Tcl list or a // previously wrapped std::vector< T > can be passed. // -- f(std::vector< T >&), f(std::vector< T >*): // the parameter must be modified; therefore, only a wrapped std::vector // can be passed. // -- std::vector< T > f(): // the vector is returned by copy; therefore, a Tcl list of T:s // is returned which is most easily used in other Tcl functions procs // -- std::vector< T >& f(), std::vector< T >* f(), const std::vector< T >& f(), // const std::vector< T >* f(): // the vector is returned by reference; therefore, a wrapped std::vector // is returned // ------------------------------------------------------------------------ %fragment("<string>"); %fragment("<stdexcept>"); %fragment("<algorithm>"); %{ #include <vector> Tcl_Obj* SwigString_FromString(const std::string &s) { return Tcl_NewStringObj(s.data(), (int)s.length()); } int Tcl_GetBoolFromObj(Tcl_Interp *interp, Tcl_Obj *o, bool *val) { int v; int res = Tcl_GetBooleanFromObj(interp, o, &v); if (res == TCL_OK) { *val = v ? true : false; } return res; } int SwigString_AsString(Tcl_Interp *interp, Tcl_Obj *o, std::string *val) { int len; const char* temp = Tcl_GetStringFromObj(o, &len); if (temp == NULL) return TCL_ERROR; val->assign(temp, len); return TCL_OK; } // behaviour of this is such as the real Tcl_GetIntFromObj template <typename Type> int SwigInt_As(Tcl_Interp *interp, Tcl_Obj *o, Type *val) { int temp_val, return_val; return_val = Tcl_GetIntFromObj(interp, o, &temp_val); *val = (Type) temp_val; return return_val; } // behaviour of this is such as the real Tcl_GetDoubleFromObj template <typename Type> int SwigDouble_As(Tcl_Interp *interp, Tcl_Obj *o, Type *val) { int return_val; double temp_val; return_val = Tcl_GetDoubleFromObj(interp, o, &temp_val); *val = (Type) temp_val; return return_val; } %} // exported class namespace std { template<class T> class vector { %typemap(in) vector< T > (std::vector< T > *v) { Tcl_Obj **listobjv; int nitems; int i; T* temp; if (SWIG_ConvertPtr($input, (void **) &v, \ $&1_descriptor, 0) == 0){ $1 = *v; } else { // It isn't a vector< T > so it should be a list of T's if(Tcl_ListObjGetElements(interp, $input, \ &nitems, &listobjv) == TCL_ERROR) return TCL_ERROR; $1 = std::vector< T >(); for (i = 0; i < nitems; i++) { if ((SWIG_ConvertPtr(listobjv[i],(void **) &temp, $descriptor(T *),0)) != 0) { char message[] = "list of " #T " expected"; Tcl_SetResult(interp, message, TCL_VOLATILE); return TCL_ERROR; } $1.push_back(*temp); } } } %typemap(in) const vector< T >* (std::vector< T > *v, std::vector< T > w), const vector< T >& (std::vector< T > *v, std::vector< T > w) { Tcl_Obj **listobjv; int nitems; int i; T* temp; if(SWIG_ConvertPtr($input, (void **) &v, \ $&1_descriptor, 0) == 0) { $1 = v; } else { // It isn't a vector< T > so it should be a list of T's if(Tcl_ListObjGetElements(interp, $input, &nitems, &listobjv) == TCL_ERROR) return TCL_ERROR; w = std::vector< T >(); for (i = 0; i < nitems; i++) { if ((SWIG_ConvertPtr(listobjv[i],(void **) &temp, $descriptor(T *),0)) != 0) { char message[] = "list of " #T " expected"; Tcl_SetResult(interp, message, TCL_VOLATILE); return TCL_ERROR; } w.push_back(*temp); } $1 = &w; } } %typemap(out) vector< T > { for (unsigned int i=0; i<$1.size(); i++) { T* ptr = new T((($1_type &)$1)[i]); Tcl_ListObjAppendElement(interp, $result, \ SWIG_NewInstanceObj(ptr, $descriptor(T *), 0)); } } %typecheck(SWIG_TYPECHECK_VECTOR) vector< T > { Tcl_Obj **listobjv; int nitems; T* temp; std::vector< T > *v; if(SWIG_ConvertPtr($input, (void **) &v, \ $&1_descriptor, 0) == 0) { /* wrapped vector */ $1 = 1; } else { // It isn't a vector< T > so it should be a list of T's if(Tcl_ListObjGetElements(interp, $input, &nitems, &listobjv) == TCL_ERROR) $1 = 0; else if (nitems == 0) $1 = 1; //check the first value to see if it is of correct type else if ((SWIG_ConvertPtr(listobjv[0], (void **) &temp, $descriptor(T *),0)) != 0) $1 = 0; else $1 = 1; } } %typecheck(SWIG_TYPECHECK_VECTOR) const vector< T >&, const vector< T >* { Tcl_Obj **listobjv; int nitems; T* temp; std::vector< T > *v; if(SWIG_ConvertPtr($input, (void **) &v, \ $1_descriptor, 0) == 0){ /* wrapped vector */ $1 = 1; } else { // It isn't a vector< T > so it should be a list of T's if(Tcl_ListObjGetElements(interp, $input, &nitems, &listobjv) == TCL_ERROR) $1 = 0; else if (nitems == 0) $1 = 1; //check the first value to see if it is of correct type else if ((SWIG_ConvertPtr(listobjv[0], (void **) &temp, $descriptor(T *),0)) != 0) $1 = 0; else $1 = 1; } } public: typedef size_t size_type; typedef ptrdiff_t difference_type; typedef T value_type; typedef value_type* pointer; typedef const value_type* const_pointer; typedef value_type& reference; typedef const value_type& const_reference; vector(unsigned int size = 0); vector(unsigned int size, const T& value); vector(const vector& other); unsigned int size() const; bool empty() const; void clear(); %rename(push) push_back; void push_back(const T& x); %extend { T pop() throw (std::out_of_range) { if (self->size() == 0) throw std::out_of_range("pop from empty vector"); T x = self->back(); self->pop_back(); return x; } T& get(int i) throw (std::out_of_range) { int size = int(self->size()); if (i<0) i += size; if (i>=0 && i<size) return (*self)[i]; else throw std::out_of_range("vector index out of range"); } void set(int i, const T& x) throw (std::out_of_range) { int size = int(self->size()); if (i<0) i+= size; if (i>=0 && i<size) (*self)[i] = x; else throw std::out_of_range("vector index out of range"); } } }; // specializations for built-ins %define specialize_std_vector(T, CONVERT_FROM, CONVERT_TO) template<> class vector< T > { %typemap(in) vector< T > (std::vector< T > *v){ Tcl_Obj **listobjv; int nitems; int i; T temp; if(SWIG_ConvertPtr($input, (void **) &v, \ $&1_descriptor, 0) == 0) { $1 = *v; } else { // It isn't a vector< T > so it should be a list of T's if(Tcl_ListObjGetElements(interp, $input, &nitems, &listobjv) == TCL_ERROR) return TCL_ERROR; $1 = std::vector< T >(); for (i = 0; i < nitems; i++) { if (CONVERT_FROM(interp, listobjv[i], &temp) == TCL_ERROR) return TCL_ERROR; $1.push_back(temp); } } } %typemap(in) const vector< T >& (std::vector< T > *v,std::vector< T > w), const vector< T >* (std::vector< T > *v,std::vector< T > w) { Tcl_Obj **listobjv; int nitems; int i; T temp; if(SWIG_ConvertPtr($input, (void **) &v, \ $1_descriptor, 0) == 0) { $1 = v; } else { // It isn't a vector< T > so it should be a list of T's if(Tcl_ListObjGetElements(interp, $input, &nitems, &listobjv) == TCL_ERROR) return TCL_ERROR; w = std::vector< T >(); for (i = 0; i < nitems; i++) { if (CONVERT_FROM(interp, listobjv[i], &temp) == TCL_ERROR) return TCL_ERROR; w.push_back(temp); } $1 = &w; } } %typemap(out) vector< T > { for (unsigned int i=0; i<$1.size(); i++) { Tcl_ListObjAppendElement(interp, $result, \ CONVERT_TO((($1_type &)$1)[i])); } } %typecheck(SWIG_TYPECHECK_VECTOR) vector< T > { Tcl_Obj **listobjv; int nitems; T temp; std::vector< T > *v; if(SWIG_ConvertPtr($input, (void **) &v, \ $&1_descriptor, 0) == 0){ /* wrapped vector */ $1 = 1; } else { // It isn't a vector< T > so it should be a list of T's if(Tcl_ListObjGetElements(interp, $input, &nitems, &listobjv) == TCL_ERROR) $1 = 0; else if (nitems == 0) $1 = 1; //check the first value to see if it is of correct type if (CONVERT_FROM(interp, listobjv[0], &temp) == TCL_ERROR) $1 = 0; else $1 = 1; } } %typecheck(SWIG_TYPECHECK_VECTOR) const vector< T >&, const vector< T >*{ Tcl_Obj **listobjv; int nitems; T temp; std::vector< T > *v; if(SWIG_ConvertPtr($input, (void **) &v, \ $1_descriptor, 0) == 0){ /* wrapped vector */ $1 = 1; } else { // It isn't a vector< T > so it should be a list of T's if(Tcl_ListObjGetElements(interp, $input, &nitems, &listobjv) == TCL_ERROR) $1 = 0; else if (nitems == 0) $1 = 1; //check the first value to see if it is of correct type if (CONVERT_FROM(interp, listobjv[0], &temp) == TCL_ERROR) $1 = 0; else $1 = 1; } } public: typedef size_t size_type; typedef ptrdiff_t difference_type; typedef T value_type; typedef value_type* pointer; typedef const value_type* const_pointer; typedef value_type& reference; typedef const value_type& const_reference; vector(unsigned int size = 0); vector(unsigned int size, const T& value); vector(const vector& other); unsigned int size() const; bool empty() const; void clear(); %rename(push) push_back; void push_back(T x); %extend { T pop() throw (std::out_of_range) { if (self->size() == 0) throw std::out_of_range("pop from empty vector"); T x = self->back(); self->pop_back(); return x; } T get(int i) throw (std::out_of_range) { int size = int(self->size()); if (i<0) i += size; if (i>=0 && i<size) return (*self)[i]; else throw std::out_of_range("vector index out of range"); } void set(int i, T x) throw (std::out_of_range) { int size = int(self->size()); if (i<0) i+= size; if (i>=0 && i<size) (*self)[i] = x; else throw std::out_of_range("vector index out of range"); } } }; %enddef specialize_std_vector(bool, Tcl_GetBoolFromObj, Tcl_NewBooleanObj); specialize_std_vector(char, SwigInt_As<char>,Tcl_NewIntObj); specialize_std_vector(int, Tcl_GetIntFromObj,Tcl_NewIntObj); specialize_std_vector(short, SwigInt_As<short>, Tcl_NewIntObj); specialize_std_vector(long, SwigInt_As<long>, Tcl_NewIntObj); specialize_std_vector(unsigned char, SwigInt_As<unsigned char>, Tcl_NewIntObj); specialize_std_vector(unsigned int, SwigInt_As<unsigned int>, Tcl_NewIntObj); specialize_std_vector(unsigned short, SwigInt_As<unsigned short>, Tcl_NewIntObj); specialize_std_vector(unsigned long, SwigInt_As<unsigned long>, Tcl_NewIntObj); specialize_std_vector(double, Tcl_GetDoubleFromObj, Tcl_NewDoubleObj); specialize_std_vector(float, SwigDouble_As<float>, Tcl_NewDoubleObj); specialize_std_vector(std::string, SwigString_AsString, SwigString_FromString); }
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