swig/Lib/r/std_vector.i

// R specific swig components
/*
  Vectors
*/

%fragment("StdVectorTraits","header",fragment="StdSequenceTraits")
%{
  namespace swig {
    // vectors of doubles
    template <>
      struct traits_from_ptr<std::vector<double> > {
      static SEXP from (std::vector<double > *val, int owner = 0) {
        SEXP result;
        PROTECT(result = Rf_allocVector(REALSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            NUMERIC_POINTER(result)[pos] = ((*val)[pos]);
          }
        UNPROTECT(1);
        return(result);
      }
    };
    // vectors of floats
    template <>
      struct traits_from_ptr<std::vector<float> > {
      static SEXP from (std::vector<float > *val, int owner = 0) {
        SEXP result;
        PROTECT(result = Rf_allocVector(REALSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            NUMERIC_POINTER(result)[pos] = ((*val)[pos]);
          }
        UNPROTECT(1);
        return(result);
      }
    };
    // vectors of unsigned int
    template <>
      struct traits_from_ptr<std::vector<unsigned int> > {
      static SEXP from (std::vector<unsigned int > *val, int owner = 0) {
        SEXP result;
        PROTECT(result = Rf_allocVector(INTSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            INTEGER_POINTER(result)[pos] = ((*val)[pos]);
          }
        UNPROTECT(1);
        return(result);
      }
    };
    // vectors of int
    template <>
      struct traits_from_ptr<std::vector<int> > {
      static SEXP from (std::vector<int > *val, int owner = 0) {
        SEXP result;
        PROTECT(result = Rf_allocVector(INTSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            INTEGER_POINTER(result)[pos] = ((*val)[pos]);
          }
        UNPROTECT(1);
        return(result);
      }
    };

    // vectors of bool
    template <>
      struct traits_from_ptr<std::vector<bool> > {
      static SEXP from (std::vector<bool> *val, int owner = 0) {
        SEXP result;
        PROTECT(result = Rf_allocVector(LGLSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            LOGICAL_POINTER(result)[pos] = ((*val)[pos]);
          }
        UNPROTECT(1);
        return(result);
        //return SWIG_R_NewPointerObj(val, type_info< std::vector<T > >(), owner);
      }
    };
    // vectors of strings
    template <>
      struct traits_from_ptr<std::vector<std::basic_string<char> > > {
      static SEXP from (std::vector<std::basic_string<char> > *val, int owner = 0) {
        SEXP result;
         PROTECT(result = Rf_allocVector(STRSXP, val->size()));
         for (unsigned pos = 0; pos < val->size(); pos++)
           {
             CHARACTER_POINTER(result)[pos] = Rf_mkChar(((*val)[pos]).c_str());
           }
        UNPROTECT(1);
        return(result);
        //return SWIG_R_NewPointerObj(val, type_info< std::vector<T > >(), owner);
      }
    };

    // catch all that does everything with vectors
    template <typename T>
      struct traits_from_ptr< std::vector< T > > {
      static SEXP from (std::vector< T > *val, int owner = 0) {
        return SWIG_R_NewPointerObj(val, type_info< std::vector< T >  >(), owner);
      }
    };

    template <>
  struct traits_asptr < std::vector<double> > {
    static int asptr(SEXP obj, std::vector<double> **val) {
      std::vector<double> *p;
      // not sure how to check the size of the SEXP obj is correct
      unsigned int sexpsz = Rf_length(obj);
      p = new std::vector<double>(sexpsz);
      double *S = NUMERIC_POINTER(obj);
      for (unsigned pos = 0; pos < p->size(); pos++)
        {
          (*p)[pos] = static_cast<double>(S[pos]);
        }
      int res = SWIG_OK;
      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      return res;
    }
  };

    template <>
  struct traits_asptr < std::vector<float> > {
    static int asptr(SEXP obj, std::vector<float> **val) {
      std::vector<float> *p;
      // not sure how to check the size of the SEXP obj is correct
      unsigned int sexpsz = Rf_length(obj);
      p = new std::vector<float>(sexpsz);
      double *S = NUMERIC_POINTER(obj);
      for (unsigned pos = 0; pos < p->size(); pos++)
        {
          (*p)[pos] = static_cast<double>(S[pos]);
        }
      int res = SWIG_OK;
      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      return res;
    }
  };

    template <>
  struct traits_asptr < std::vector<unsigned int> > {
    static int asptr(SEXP obj, std::vector<unsigned int> **val) {
      std::vector<unsigned int> *p;
      unsigned int sexpsz = Rf_length(obj);
      p = new std::vector<unsigned int>(sexpsz);
      SEXP coerced;
      PROTECT(coerced = Rf_coerceVector(obj, INTSXP));
      int *S = INTEGER_POINTER(coerced);
      for (unsigned pos = 0; pos < p->size(); pos++)
        {
          (*p)[pos] = static_cast<unsigned int>(S[pos]);
        }
      int res = SWIG_OK;
      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      UNPROTECT(1);
      return res;
    }
  };

    template <>
  struct traits_asptr < std::vector<int> > {
    static int asptr(SEXP obj, std::vector<int> **val) {
      std::vector<int> *p;
      // not sure how to check the size of the SEXP obj is correct
      int sexpsz = Rf_length(obj);
      p = new std::vector<int>(sexpsz);
      SEXP coerced;
      PROTECT(coerced = Rf_coerceVector(obj, INTSXP));
      int *S = INTEGER_POINTER(coerced);
      for (unsigned pos = 0; pos < p->size(); pos++)
        {
          (*p)[pos] = static_cast<int>(S[pos]);
        }
      int res = SWIG_OK;
      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      UNPROTECT(1);
      return res;
    }
  };

    template <>
  struct traits_asptr < std::vector<bool> > {
    static int asptr(SEXP obj, std::vector<bool> **val) {
      std::vector<bool> *p;
      // not sure how to check the size of the SEXP obj is correct
      int sexpsz = Rf_length(obj);
      p = new std::vector<bool>(sexpsz);
      SEXP coerced;
      PROTECT(coerced = Rf_coerceVector(obj, LGLSXP));
      int *S = LOGICAL_POINTER(coerced);
      for (unsigned pos = 0; pos < p->size(); pos++)
        {
          (*p)[pos] = static_cast<bool>(S[pos]);
        }
      int res = SWIG_OK;
      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      UNPROTECT(1);
      return res;
    }
  };

    // catchall for R to vector conversion
  template <typename T>
  struct traits_asptr < std::vector<T> > {
    static int asptr(SEXP obj, std::vector<T> **val) {
      std::vector<T> *p;
      Rprintf("my asptr\n");
     int res = SWIG_R_ConvertPtr(obj, (void**)&p, type_info< std::vector<T> >(), 0);
      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      return res;
    }
  };

  // now for vectors of vectors. These will be represented as lists of vectors on the
  // catch all that does everything with vectors
  template <>
    struct traits_from_ptr<std::vector<std::vector<unsigned int> > > {
      static SEXP from (std::vector< std::vector<unsigned int > > *val, int owner = 0) {
        SEXP result;
        // allocate the R list
        PROTECT(result = Rf_allocVector(VECSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            // allocate the R vector
            SET_VECTOR_ELT(result, pos, Rf_allocVector(INTSXP, val->at(pos).size()));
            // Fill the R vector
            for (unsigned vpos = 0; vpos < val->at(pos).size(); ++vpos)
              {
                INTEGER_POINTER(VECTOR_ELT(result, pos))[vpos] = static_cast<int>(val->at(pos).at(vpos));
              }
          }
        UNPROTECT(1);
        return(result);
      }
    };

  template <>
    struct traits_from_ptr<std::vector<std::vector<int> > > {
      static SEXP from (std::vector< std::vector<int > > *val, int owner = 0) {
        SEXP result;
        // allocate the R list
        PROTECT(result = Rf_allocVector(VECSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            // allocate the R vector
            SET_VECTOR_ELT(result, pos, Rf_allocVector(INTSXP, val->at(pos).size()));
            // Fill the R vector
            for (unsigned vpos = 0; vpos < val->at(pos).size(); ++vpos)
              {
                INTEGER_POINTER(VECTOR_ELT(result, pos))[vpos] = static_cast<int>(val->at(pos).at(vpos));
              }
          }
        UNPROTECT(1);
        return(result);
      }
    };

  template <>
    struct traits_from_ptr<std::vector<std::vector<float> > > {
      static SEXP from (std::vector< std::vector<float > > *val, int owner = 0) {
        SEXP result;
        // allocate the R list
        PROTECT(result = Rf_allocVector(VECSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            // allocate the R vector
            SET_VECTOR_ELT(result, pos, Rf_allocVector(REALSXP, val->at(pos).size()));
            // Fill the R vector
            for (unsigned vpos = 0; vpos < val->at(pos).size(); ++vpos)
              {
                NUMERIC_POINTER(VECTOR_ELT(result, pos))[vpos] = static_cast<double>(val->at(pos).at(vpos));
              }
          }
        UNPROTECT(1);
        return(result);
      }
    };

  template <>
    struct traits_from_ptr<std::vector<std::vector<double> > > {
      static SEXP from (std::vector< std::vector<double > > *val, int owner = 0) {
        SEXP result;
        // allocate the R list
        PROTECT(result = Rf_allocVector(VECSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            // allocate the R vector
            SET_VECTOR_ELT(result, pos, Rf_allocVector(REALSXP, val->at(pos).size()));
            // Fill the R vector
            for (unsigned vpos = 0; vpos < val->at(pos).size(); ++vpos)
              {
                NUMERIC_POINTER(VECTOR_ELT(result, pos))[vpos] = static_cast<double>(val->at(pos).at(vpos));
              }
          }
        UNPROTECT(1);
        return(result);
      }
    };

  template <>
    struct traits_from_ptr<std::vector<std::vector<bool> > > {
      static SEXP from (std::vector< std::vector<bool> > *val, int owner = 0) {
        SEXP result;
        // allocate the R list
        PROTECT(result = Rf_allocVector(VECSXP, val->size()));
        for (unsigned pos = 0; pos < val->size(); pos++)
          {
            // allocate the R vector
            SET_VECTOR_ELT(result, pos, Rf_allocVector(LGLSXP, val->at(pos).size()));
            // Fill the R vector
            for (unsigned vpos = 0; vpos < val->at(pos).size(); ++vpos)
              {
                LOGICAL_POINTER(VECTOR_ELT(result, pos))[vpos] = (val->at(pos).at(vpos));
              }
          }
        UNPROTECT(1);
        return(result);
      }
    };

  template <typename T>
    struct traits_from_ptr< std::vector < std::vector< T > > > {
    static SEXP from (std::vector < std::vector< T > > *val, int owner = 0) {
      return SWIG_R_NewPointerObj(val, type_info< std::vector < std::vector< T > > >(), owner);
    }
  };

  // R side
  template <>
    struct traits_asptr < std::vector< std::vector<unsigned int> > > {
    static int asptr(SEXP obj, std::vector< std::vector<unsigned int> > **val) {
      std::vector <std::vector<unsigned int> > *p;
      // this is the length of the list
      unsigned int sexpsz = Rf_length(obj);
      p = new std::vector< std::vector<unsigned int> > (sexpsz);

      for (unsigned listpos = 0; listpos < sexpsz; ++listpos)
        {
          unsigned vecsize = Rf_length(VECTOR_ELT(obj, listpos));
          for (unsigned vpos = 0; vpos < vecsize; ++vpos)
            {
              (*p)[listpos].push_back(static_cast<int>(INTEGER_POINTER(VECTOR_ELT(obj, listpos))[vpos]));
            }
        }

      int res = SWIG_OK;

      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      return res;
    }
  };

  template <>
    struct traits_asptr < std::vector< std::vector< int> > > {
    static int asptr(SEXP obj, std::vector< std::vector< int> > **val) {
      std::vector <std::vector< int> > *p;
      // this is the length of the list
      unsigned int sexpsz = Rf_length(obj);
      p = new std::vector< std::vector< int> > (sexpsz);

      for (unsigned listpos = 0; listpos < sexpsz; ++listpos)
        {
          unsigned vecsize = Rf_length(VECTOR_ELT(obj, listpos));
          for (unsigned vpos = 0; vpos < vecsize; ++vpos)
            {
              (*p)[listpos].push_back(static_cast<int>(INTEGER_POINTER(VECTOR_ELT(obj, listpos))[vpos]));
            }
        }

      int res = SWIG_OK;

      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      return res;
    }
  };

  template <>
    struct traits_asptr < std::vector< std::vector< float> > > {
    static int asptr(SEXP obj, std::vector< std::vector< float> > **val) {
      std::vector <std::vector< float> > *p;
      // this is the length of the list
      unsigned int sexpsz = Rf_length(obj);
      p = new std::vector< std::vector< float> > (sexpsz);

      for (unsigned listpos = 0; listpos < sexpsz; ++listpos)
        {
          unsigned vecsize = Rf_length(VECTOR_ELT(obj, listpos));
          for (unsigned vpos = 0; vpos < vecsize; ++vpos)
            {
              (*p)[listpos].push_back(static_cast<float>(NUMERIC_POINTER(VECTOR_ELT(obj, listpos))[vpos]));
            }
        }

      int res = SWIG_OK;

      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      return res;
    }
  };

  template <>
    struct traits_asptr < std::vector< std::vector< double> > > {
    static int asptr(SEXP obj, std::vector< std::vector< double> > **val) {
      std::vector <std::vector< double> > *p;
      // this is the length of the list
      unsigned int sexpsz = Rf_length(obj);
      p = new std::vector< std::vector< double> > (sexpsz);

      for (unsigned listpos = 0; listpos < sexpsz; ++listpos)
        {
          unsigned vecsize = Rf_length(VECTOR_ELT(obj, listpos));
          for (unsigned vpos = 0; vpos < vecsize; ++vpos)
            {
              (*p)[listpos].push_back(static_cast<double>(NUMERIC_POINTER(VECTOR_ELT(obj, listpos))[vpos]));
            }
        }

      int res = SWIG_OK;

      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      return res;
    }
  };

  template <>
    struct traits_asptr < std::vector< std::vector< bool > > > {
    static int asptr(SEXP obj, std::vector< std::vector< bool> > **val) {
      std::vector <std::vector< bool > > *p;
      // this is the length of the list
      unsigned int sexpsz = Rf_length(obj);
      p = new std::vector< std::vector< bool > > (sexpsz);

      for (unsigned listpos = 0; listpos < sexpsz; ++listpos)
        {
          unsigned vecsize = Rf_length(VECTOR_ELT(obj, listpos));
          for (unsigned vpos = 0; vpos < vecsize; ++vpos)
            {
              (*p)[listpos].push_back(static_cast<bool>(LOGICAL_POINTER(VECTOR_ELT(obj, listpos))[vpos]));
            }
        }

      int res = SWIG_OK;

      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      return res;
    }
  };

  //  catchall
  template <typename T>
    struct traits_asptr < std::vector< std::vector<T> > > {
    static int asptr(SEXP obj, std::vector< std::vector<T> > **val) {
      std::vector< std::vector<T> > *p;
      Rprintf("vector of vectors - unsupported content\n");
      int res = SWIG_R_ConvertPtr(obj, (void**)&p, type_info< std::vector< std::vector<T> > > (), 0);
      if (SWIG_IsOK(res)) {
        if (val) *val = p;
      }
      return res;
    }
  };

  }
%}

#define %swig_vector_methods(Type...) %swig_sequence_methods(Type)
#define %swig_vector_methods_val(Type...) %swig_sequence_methods_val(Type);

%define %traits_type_name(Type...)
%fragment(SWIG_Traits_frag(Type), "header",
          fragment="StdTraits",fragment="StdVectorTraits") {
  namespace swig {
    template <>  struct traits< Type > {
      typedef pointer_category category;
      static const char* type_name() {
        return #Type;
      }
    };
  }
 }
%enddef

%include <std/std_vector.i>

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<double>)
%traits_type_name(std::vector<double>)
%typemap("rtypecheck") std::vector<double>, std::vector<double> const, std::vector<double> const&
    %{ is.numeric($arg) %}
%typemap("rtype") std::vector<double> "numeric"
%typemap("scoercein") std::vector<double>, std::vector<double> const, std::vector<double> const& "";

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<float>)
%traits_type_name(std::vector<float>)
%typemap("rtypecheck") std::vector<float>, std::vector<float> const, std::vector<float> const&
   %{ is.numeric($arg) %}
%typemap("rtype") std::vector<float> "numeric"
%typemap("scoercein") std::vector<double>, std::vector<float> const, std::vector<float> const& "";

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<bool>);
%traits_type_name(std::vector<bool>);
%typemap("rtypecheck") std::vector<bool> , std::vector<bool> const, std::vector<bool> const&
   %{ is.logical($arg) %}
%typemap("rtype") std::vector<bool> "logical"
%typemap("scoercein") std::vector<bool> , std::vector<bool> const, std::vector<bool> const& "$input = as.logical($input);";

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<int>);
%traits_type_name(std::vector<int>);
%typemap("rtypecheck") std::vector<int> , std::vector<int> const, std::vector<int> const&
   %{ is.integer($arg) || is.numeric($arg) %}
%typemap("rtype") std::vector<int> "integer"
%typemap("scoercein") std::vector<int> , std::vector<int> const, std::vector<int> const& "$input = as.integer($input);";

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<unsigned int>);
%traits_type_name(std::vector<unsigned int>);
%typemap("rtypecheck") std::vector<unsigned int>, std::vector<unsigned int> const, std::vector<unsigned int> const&
%{ is.integer($arg) || is.numeric($arg) %}
%typemap("rtype") std::vector<unsigned int> "integer"
%typemap("scoercein") std::vector<unsigned int>, std::vector<unsigned int> const, std::vector<unsigned int> const& "$input = as.integer($input);";

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<std::vector<unsigned int> >);
%traits_type_name(std::vector< std::vector<unsigned int> >);
%typemap("rtypecheck") std::vector<std::vector<unsigned int> >, std::vector<std::vector<unsigned int> > const, std::vector<std::vector<unsigned int> >const&
   %{ is.list($arg) && all(sapply($arg , is.integer) || sapply($arg, is.numeric)) %}
%typemap("rtype") std::vector<std::vector<unsigned int> > "list"
%typemap("scoercein") std::vector< std::vector<unsigned int> >, std::vector<std::vector<unsigned int> > const, std::vector<std::vector<unsigned int> >const& "$input = lapply($input, as.integer);";

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<std::vector<int> >);
%traits_type_name(std::vector< std::vector<int> >);
%typemap("rtypecheck") std::vector<std::vector<int> >, std::vector<std::vector<int> > const, std::vector<std::vector<int> >const&
   %{ is.list($arg) && all(sapply($arg , is.integer) || sapply($arg, is.numeric)) %}
%typemap("rtype") std::vector<std::vector<int> > "list"
%typemap("scoercein") std::vector< std::vector<int> >, std::vector<std::vector<int> > const, std::vector<std::vector<int> >const& "$input = lapply($input, as.integer);";

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<std::vector<float> >);
%traits_type_name(std::vector< std::vector<float> >);
%typemap("rtypecheck") std::vector<std::vector<float> >, std::vector<std::vector<float> > const, std::vector<std::vector<float> >const&
   %{ is.list($arg) && all(sapply($arg , is.integer) || sapply($arg, is.numeric)) %}
%typemap("rtype") std::vector<std::vector<float> > "list"
%typemap("scoercein") std::vector< std::vector<float> >, std::vector<std::vector<float> > const, std::vector<std::vector<float> >const& "$input = lapply($input, as.numeric);";

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<std::vector<double> >);
%traits_type_name(std::vector< std::vector<double> >);
%typemap("rtypecheck") std::vector<std::vector<double> >, std::vector<std::vector<double> > const, std::vector<std::vector<double> >const&
   %{ is.list($arg) && all(sapply($arg , is.integer) || sapply($arg, is.numeric)) %}
%typemap("rtype") std::vector<std::vector<double> > "list"
%typemap("scoercein") std::vector< std::vector<double> >, std::vector<std::vector<double> > const, std::vector<std::vector<double> >const&
 "$input = lapply($input, as.numeric);";

%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<std::vector<bool> >);
%traits_type_name(std::vector< std::vector<bool> >);
%typemap("rtypecheck") std::vector<std::vector<bool> >, std::vector<std::vector<bool> > const, std::vector<std::vector<bool> >const&
   %{ is.list($arg) && all(sapply($arg , is.integer) || sapply($arg, is.numeric)) %}
%typemap("rtype") std::vector<std::vector<bool> > "list"
%typemap("scoercein") std::vector< std::vector<bool> >, std::vector<std::vector<bool> > const, std::vector<std::vector<bool> >const& "$input = lapply($input, as.logical);";

// we don't want these to be given R classes as they
// have already been turned into R vectors.
%typemap(scoerceout) std::vector<double>,
   std::vector<double> *,
   std::vector<double> &,
   std::vector<bool>,
   std::vector<bool> *,
   std::vector<bool> &,
   std::vector<unsigned int>,
   std::vector<unsigned int> *,
   std::vector<unsigned int> &,
 // vectors of vectors
   std::vector< std::vector<unsigned int> >,
   std::vector< std::vector<unsigned int> >*,
   std::vector< std::vector<unsigned int> >&,
   std::vector< std::vector<int> >,
   std::vector< std::vector<int> >*,
   std::vector< std::vector<int> >&,
   std::vector< std::vector<float> >,
   std::vector< std::vector<float> >*,
   std::vector< std::vector<float> >&,
   std::vector< std::vector<double> >,
   std::vector< std::vector<double> >*,
   std::vector< std::vector<double> >&,
   std::vector< std::vector<bool> >,
   std::vector< std::vector<bool> >*,
   std::vector< std::vector<bool> >&


 %{    %}