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Code Editor : octcontainer.swg
/* ----------------------------------------------------------------------------- * octcontainer.swg * * Octave cell <-> C++ container wrapper * * This wrapper, and its iterator, allows a general use (and reuse) of * the mapping between C++ and Octave, thanks to the C++ templates. * * Of course, it needs the C++ compiler to support templates, but * since we will use this wrapper with the STL containers, that should * be the case. * ----------------------------------------------------------------------------- */ %{ #include <climits> #include <iostream> %} #if !defined(SWIG_NO_EXPORT_ITERATOR_METHODS) # if !defined(SWIG_EXPORT_ITERATOR_METHODS) # define SWIG_EXPORT_ITERATOR_METHODS SWIG_EXPORT_ITERATOR_METHODS # endif #endif %include <octiterators.swg> // The Octave C++ Wrap %fragment("<stdexcept>"); %include <std_except.i> %fragment(SWIG_Traits_frag(octave_value),"header",fragment="StdTraits") { namespace swig { template <> struct traits<octave_value > { typedef value_category category; static const char* type_name() { return "octave_value"; } }; template <> struct traits_from<octave_value> { typedef octave_value value_type; static octave_value from(const value_type& val) { return val; } }; template <> struct traits_check<octave_value, value_category> { static bool check(const octave_value&) { return true; } }; template <> struct traits_asval<octave_value > { typedef octave_value value_type; static int asval(const octave_value& obj, value_type *val) { if (val) *val = obj; return SWIG_OK; } }; } } %fragment("OctSequence_Base","header",fragment="<stddef.h>") { %#include <functional> namespace std { template <> struct less <octave_value> { bool operator()(const octave_value& v, const octave_value& w) const { octave_value res = do_binary_op(octave_value::op_le,v,w); return res.is_true(); } }; } namespace swig { inline size_t check_index(ptrdiff_t i, size_t size, bool insert = false) { if ( i < 0 ) { if ((size_t) (-i) <= size) return (size_t) (i + size); } else if ( (size_t) i < size ) { return (size_t) i; } else if (insert && ((size_t) i == size)) { return size; } throw std::out_of_range("index out of range"); } inline size_t slice_index(ptrdiff_t i, size_t size) { if ( i < 0 ) { if ((size_t) (-i) <= size) { return (size_t) (i + size); } else { throw std::out_of_range("index out of range"); } } else { return ( (size_t) i < size ) ? ((size_t) i) : size; } } template <class Sequence, class Difference> inline typename Sequence::iterator getpos(Sequence* self, Difference i) { typename Sequence::iterator pos = self->begin(); std::advance(pos, check_index(i,self->size())); return pos; } template <class Sequence, class Difference> inline typename Sequence::const_iterator cgetpos(const Sequence* self, Difference i) { typename Sequence::const_iterator pos = self->begin(); std::advance(pos, check_index(i,self->size())); return pos; } template <class Sequence, class Difference> inline Sequence* getslice(const Sequence* self, Difference i, Difference j) { typename Sequence::size_type size = self->size(); typename Sequence::size_type ii = swig::check_index(i, size); typename Sequence::size_type jj = swig::slice_index(j, size); if (jj > ii) { typename Sequence::const_iterator vb = self->begin(); typename Sequence::const_iterator ve = self->begin(); std::advance(vb,ii); std::advance(ve,jj); return new Sequence(vb, ve); } else { return new Sequence(); } } template <class Sequence, class Difference, class InputSeq> inline void setslice(Sequence* self, Difference i, Difference j, const InputSeq& v) { typename Sequence::size_type size = self->size(); typename Sequence::size_type ii = swig::check_index(i, size, true); typename Sequence::size_type jj = swig::slice_index(j, size); if (jj < ii) jj = ii; size_t ssize = jj - ii; if (ssize <= v.size()) { typename Sequence::iterator sb = self->begin(); typename InputSeq::const_iterator vmid = v.begin(); std::advance(sb,ii); std::advance(vmid, jj - ii); self->insert(std::copy(v.begin(), vmid, sb), vmid, v.end()); } else { typename Sequence::iterator sb = self->begin(); typename Sequence::iterator se = self->begin(); std::advance(sb,ii); std::advance(se,jj); self->erase(sb,se); self->insert(sb, v.begin(), v.end()); } } template <class Sequence, class Difference> inline void delslice(Sequence* self, Difference i, Difference j) { typename Sequence::size_type size = self->size(); typename Sequence::size_type ii = swig::check_index(i, size, true); typename Sequence::size_type jj = swig::slice_index(j, size); if (jj > ii) { typename Sequence::iterator sb = self->begin(); typename Sequence::iterator se = self->begin(); std::advance(sb,ii); std::advance(se,jj); self->erase(sb,se); } } } } %fragment("OctSequence_Cont","header", fragment="StdTraits", fragment="OctSequence_Base", fragment="OctSwigIterator_T") { namespace swig { template <class T> struct OctSequence_Ref // * octave can't support these, because of how assignment works { OctSequence_Ref(const octave_value& seq, int index) : _seq(seq), _index(index) { } operator T () const { // swig::SwigVar_PyObject item = OctSequence_GetItem(_seq, _index); octave_value item; // * todo try { return swig::as<T>(item); } catch (const std::exception& e) { char msg[1024]; sprintf(msg, "in sequence element %d ", _index); if (!Octave_Error_Occurred()) { %type_error(swig::type_name<T>()); } SWIG_Octave_AddErrorMsg(msg); SWIG_Octave_AddErrorMsg(e.what()); throw; } } OctSequence_Ref& operator=(const T& v) { // OctSequence_SetItem(_seq, _index, swig::from<T>(v)); // * todo return *this; } private: octave_value _seq; int _index; }; template <class T> struct OctSequence_ArrowProxy { OctSequence_ArrowProxy(const T& x): m_value(x) {} const T* operator->() const { return &m_value; } operator const T*() const { return &m_value; } T m_value; }; template <class T, class Reference > struct OctSequence_InputIterator { typedef OctSequence_InputIterator<T, Reference > self; typedef std::random_access_iterator_tag iterator_category; typedef Reference reference; typedef T value_type; typedef T* pointer; typedef int difference_type; OctSequence_InputIterator() { } OctSequence_InputIterator(const octave_value& seq, int index) : _seq(seq), _index(index) { } reference operator*() const { return reference(_seq, _index); } OctSequence_ArrowProxy<T> operator->() const { return OctSequence_ArrowProxy<T>(operator*()); } bool operator==(const self& ri) const { return (_index == ri._index); } bool operator!=(const self& ri) const { return !(operator==(ri)); } self& operator ++ () { ++_index; return *this; } self& operator -- () { --_index; return *this; } self& operator += (difference_type n) { _index += n; return *this; } self operator +(difference_type n) const { return self(_seq, _index + n); } self& operator -= (difference_type n) { _index -= n; return *this; } self operator -(difference_type n) const { return self(_seq, _index - n); } difference_type operator - (const self& ri) const { return _index - ri._index; } bool operator < (const self& ri) const { return _index < ri._index; } reference operator[](difference_type n) const { return reference(_seq, _index + n); } private: octave_value _seq; difference_type _index; }; template <class T> struct OctSequence_Cont { typedef OctSequence_Ref<T> reference; typedef const OctSequence_Ref<T> const_reference; typedef T value_type; typedef T* pointer; typedef int difference_type; typedef int size_type; typedef const pointer const_pointer; typedef OctSequence_InputIterator<T, reference> iterator; typedef OctSequence_InputIterator<T, const_reference> const_iterator; OctSequence_Cont(const octave_value& seq) : _seq(seq) { // * assert that we have map type etc. /* if (!OctSequence_Check(seq)) { throw std::invalid_argument("a sequence is expected"); } _seq = seq; Py_INCREF(_seq); */ } ~OctSequence_Cont() { } size_type size() const { // return static_cast<size_type>(OctSequence_Size(_seq)); return 0; // * todo } bool empty() const { return size() == 0; } iterator begin() { return iterator(_seq, 0); } const_iterator begin() const { return const_iterator(_seq, 0); } iterator end() { return iterator(_seq, size()); } const_iterator end() const { return const_iterator(_seq, size()); } reference operator[](difference_type n) { return reference(_seq, n); } const_reference operator[](difference_type n) const { return const_reference(_seq, n); } bool check() const { int s = size(); for (int i = 0; i < s; ++i) { // swig::SwigVar_PyObject item = OctSequence_GetItem(_seq, i); octave_value item; // * todo if (!swig::check<value_type>(item)) return false; } return true; } private: octave_value _seq; }; } } %define %swig_sequence_iterator(Sequence...) #if defined(SWIG_EXPORT_ITERATOR_METHODS) class iterator; class reverse_iterator; class const_iterator; class const_reverse_iterator; %typemap(out,noblock=1,fragment="OctSequence_Cont") iterator, reverse_iterator, const_iterator, const_reverse_iterator { $result = SWIG_NewPointerObj(swig::make_output_iterator(%static_cast($1,const $type &)), swig::OctSwigIterator::descriptor(),SWIG_POINTER_OWN); } %typemap(out,fragment="OctSequence_Cont") std::pair<iterator, iterator>, std::pair<const_iterator, const_iterator> { octave_value_list tmpc; tmpc.append(SWIG_NewPointerObj(swig::make_output_iterator(%static_cast($1,const $type &).first), swig::OctSwigIterator::descriptor(),SWIG_POINTER_OWN)); tmpc.append(SWIG_NewPointerObj(swig::make_output_iterator(%static_cast($1,const $type &).second), swig::OctSwigIterator::descriptor(),SWIG_POINTER_OWN)); $result = Cell(tmpc); } %fragment("SwigPyPairBoolOutputIterator","header",fragment=SWIG_From_frag(bool),fragment="OctSequence_Cont") {} %typemap(out,fragment="OctPairBoolOutputIterator") std::pair<iterator, bool>, std::pair<const_iterator, bool> { octave_value_list tmpc; tmpc.append(SWIG_NewPointerObj(swig::make_output_iterator(%static_cast($1,const $type &).first), swig::OctSwigIterator::descriptor(),SWIG_POINTER_OWN)); tmpc.append(SWIG_From(bool)(%static_cast($1,const $type &).second)); $result = Cell(tmpc); } %typemap(in,noblock=1,fragment="OctSequence_Cont") iterator(swig::OctSwigIterator *iter = 0, int res), reverse_iterator(swig::OctSwigIterator *iter = 0, int res), const_iterator(swig::OctSwigIterator *iter = 0, int res), const_reverse_iterator(swig::OctSwigIterator *iter = 0, int res) { res = SWIG_ConvertPtr($input, %as_voidptrptr(&iter), swig::OctSwigIterator::descriptor(), 0); if (!SWIG_IsOK(res) || !iter) { %argument_fail(SWIG_TypeError, "$type", $symname, $argnum); } else { swig::OctSwigIterator_T<$type > *iter_t = dynamic_cast<swig::OctSwigIterator_T<$type > *>(iter); if (iter_t) { $1 = iter_t->get_current(); } else { %argument_fail(SWIG_TypeError, "$type", $symname, $argnum); } } } %typecheck(%checkcode(ITERATOR),noblock=1,fragment="OctSequence_Cont") iterator, reverse_iterator, const_iterator, const_reverse_iterator { swig::OctSwigIterator *iter = 0; int res = SWIG_ConvertPtr($input, %as_voidptrptr(&iter), swig::OctSwigIterator::descriptor(), 0); $1 = (SWIG_IsOK(res) && iter && (dynamic_cast<swig::OctSwigIterator_T<$type > *>(iter) != 0)); } %fragment("OctSequence_Cont"); #endif //SWIG_EXPORT_ITERATOR_METHODS %enddef // The octave container methods %define %swig_container_methods(Container...) %enddef %define %swig_sequence_methods_common(Sequence...) %swig_sequence_iterator(%arg(Sequence)) %swig_container_methods(%arg(Sequence)) %fragment("OctSequence_Base"); %extend { value_type pop() throw (std::out_of_range) { if (self->size() == 0) throw std::out_of_range("pop from empty container"); Sequence::value_type x = self->back(); self->pop_back(); return x; } value_type __paren__(difference_type i) throw (std::out_of_range) { return *(swig::cgetpos(self, i)); } void __paren_asgn__(difference_type i, value_type x) throw (std::out_of_range) { *(swig::getpos(self,i)) = x; } void append(value_type x) { self->push_back(x); } } %enddef %define %swig_sequence_methods(Sequence...) %swig_sequence_methods_common(%arg(Sequence)) %enddef %define %swig_sequence_methods_val(Sequence...) %swig_sequence_methods_common(%arg(Sequence)) %enddef // // Common fragments // %fragment("StdSequenceTraits","header", fragment="StdTraits", fragment="OctSequence_Cont") { namespace swig { template <class OctSeq, class Seq> inline void assign(const OctSeq& octseq, Seq* seq) { %#ifdef SWIG_STD_NOASSIGN_STL typedef typename OctSeq::value_type value_type; typename OctSeq::const_iterator it = octseq.begin(); for (;it != octseq.end(); ++it) { seq->insert(seq->end(),(value_type)(*it)); } %#else seq->assign(octseq.begin(), octseq.end()); %#endif } template <class Seq, class T = typename Seq::value_type > struct traits_asptr_stdseq { typedef Seq sequence; typedef T value_type; static int asptr(const octave_value& obj, sequence **seq) { if (!obj.is_defined() || Swig::swig_value_deref(obj)) { sequence *p; swig_type_info *descriptor = swig::type_info<sequence>(); if (descriptor && SWIG_IsOK(SWIG_ConvertPtr(obj, (void **)&p, descriptor, 0))) { if (seq) *seq = p; return SWIG_OLDOBJ; } %#if SWIG_OCTAVE_PREREQ(4,4,0) } else if (obj.iscell()) { %#else } else if (obj.is_cell()) { %#endif try { OctSequence_Cont<value_type> octseq(obj); if (seq) { sequence *pseq = new sequence(); assign(octseq, pseq); *seq = pseq; return SWIG_NEWOBJ; } else { return octseq.check() ? SWIG_OK : SWIG_ERROR; } } catch (std::exception& e) { if (seq&&!error_state) error("swig type error: %s",e.what()); return SWIG_ERROR; } } return SWIG_ERROR; } }; template <class Seq, class T = typename Seq::value_type > struct traits_from_stdseq { typedef Seq sequence; typedef T value_type; typedef typename Seq::size_type size_type; typedef typename sequence::const_iterator const_iterator; static octave_value from(const sequence& seq) { #ifdef SWIG_OCTAVE_EXTRA_NATIVE_CONTAINERS swig_type_info *desc = swig::type_info<sequence>(); if (desc && desc->clientdata) { return SWIG_NewPointerObj(new sequence(seq), desc, SWIG_POINTER_OWN); } #endif size_type size = seq.size(); if (size <= (size_type)INT_MAX) { Cell c(size,1); int i = 0; for (const_iterator it = seq.begin(); it != seq.end(); ++it, ++i) { c(i) = swig::from<value_type>(*it); } return c; } else { error("swig overflow error: sequence size not valid in octave"); return octave_value(); } return octave_value(); } }; } }
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