share/swig/2.0.11/r/rtype.swg - platform/prebuilts/swig/darwin-x86 - Git at Google


 /* These map the primitive C types to the appropriate R type
    for use in class representations.
  */

 %typemap("rtype") int, int *, int &      "integer";
 %typemap("rtype") long, long *, long &      "integer";
 %typemap("rtype") float, float*, float & "numeric";
 %typemap("rtype") double, double*, double & "numeric";
 %typemap("rtype") char *, char ** "character";
 %typemap("rtype") char            "character";
 %typemap("rtype") string, string *, string & "character";
 %typemap("rtype") std::string, std::string *, std::string & "character";
 %typemap("rtype") bool, bool *    "logical";
 %typemap("rtype") enum SWIGTYPE   "character";
 %typemap("rtype") enum SWIGTYPE *   "character";
 %typemap("rtype") enum SWIGTYPE *const   "character";
 %typemap("rtype") enum SWIGTYPE &  "character";
 %typemap("rtype") SWIGTYPE * "$R_class";
 %typemap("rtype") SWIGTYPE *const "$R_class";
 %typemap("rtype") SWIGTYPE & "$R_class";
 %typemap("rtype") SWIGTYPE "$&R_class";

 %typemap("rtypecheck") int, int &, long, long &
   %{ (is.integer($arg) || is.numeric($arg)) && length($arg) == 1 %}
 %typemap("rtypecheck") int *, long *
   %{ is.integer($arg) || is.numeric($arg) %}


 %typemap("rtypecheck") float, double
   %{ is.numeric($arg) && length($arg) == 1 %}
 %typemap("rtypecheck") float *, double *
   %{ is.numeric($arg) %}

 %typemap("rtypecheck") bool, bool &
   %{ is.logical($arg) && length($arg) == 1 %}
 %typemap("rtypecheck") bool *
   %{ is.logical($arg) %}

 /*
   Set up type checks to insure overloading precedence.
   We would like non pointer items to shadow pointer items, so that
   they get called if length = 1
 */

 %typecheck(SWIG_TYPECHECK_BOOL) bool {}
 %typecheck(SWIG_TYPECHECK_UINT32) unsigned int {}
 %typecheck(SWIG_TYPECHECK_INTEGER) int {}
 %typecheck(SWIG_TYPECHECK_FLOAT) float {}
 %typecheck(SWIG_TYPECHECK_DOUBLE) double {}

 %typecheck(SWIG_TYPECHECK_BOOL_PTR) bool * {}
 %typecheck(SWIG_TYPECHECK_INT32_PTR) int * {}
 %typecheck(SWIG_TYPECHECK_FLOAT_PTR) float * {}
 %typecheck(SWIG_TYPECHECK_DOUBLE_PTR) double * {}
 %typecheck(SWIG_TYPECHECK_CHAR_PTR) char * {}

 %typecheck(SWIG_TYPECHECK_INT32_ARRAY) int[ANY] {}
 %typecheck(SWIG_TYPECHECK_FLOAT_ARRAY) float[ANY] {}
 %typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY) double [ANY] {}

 /* Have to be careful that as(x, "numeric") is different from as.numeric(x).
    The latter makes a REALSXP, whereas the former leaves an INTSXP as an
    INTSXP.
 */

 /* Force coercion of integer, since by default R sets all constants to
    numeric, which means that you can't directly call a function with an
    integer using an R numercal literal */

 %typemap(scoercein) int, int *, int &
   %{  $input = as.integer($input);     %}
 %typemap(scoercein) long, long *, long &
   %{  $input = as.integer($input);     %}
 %typemap(scoercein) float, float*, float &,
   double, double *, double &
   %{ %}
 %typemap(scoercein) char, char *, char &
   %{  $input = as($input, "character");     %}
 %typemap(scoercein) string, string *, string &
   %{  $input = as($input, "character");     %}
 %typemap(scoercein) std::string, std::string *, std::string &
   %{  $input = as($input, "character");     %}
 %typemap(scoercein) enum SWIGTYPE
   %{  $input = enumToInteger($input, "$R_class"); %}
 %typemap(scoercein) enum SWIGTYPE &
   %{  $input = enumToInteger($input, "$R_class"); %}
 %typemap(scoercein) enum SWIGTYPE *
   %{  $input = enumToInteger($input, "$R_class"); %}
 %typemap(scoercein) enum SWIGTYPE *const
   %{  $input = enumToInteger($input, "$R_class"); %}

 %typemap(scoercein) SWIGTYPE, SWIGTYPE *, SWIGTYPE *const, SWIGTYPE &
  %{ if (inherits($input, "ExternalReference")) $input = slot($input,"ref") %}

 /*
 %typemap(scoercein) SWIGTYPE *, SWIGTYPE *const
   %{ $input = coerceIfNotSubclass($input, "$R_class") %}

 %typemap(scoercein) SWIGTYPE &
   %{ $input = coerceIfNotSubclass($input, "$R_class") %}

 %typemap(scoercein) SWIGTYPE
   %{ $input = coerceIfNotSubclass($input, "$&R_class") %}
 */

 %typemap(scoercein) SWIGTYPE[ANY]
  %{
     if(is.list($input))
       assert(all(sapply($input, class) == "$R_class"));
  %}


 /* **************************************************************** */

 %typemap(scoercein) bool, bool *, bool &
 		    "$input = as.logical($input);";
 %typemap(scoercein) int,
                     int *,
 		    int &,
 		    long,
 		    long *,
 		    long &
   "$input = as.integer($input);";

 %typemap(scoercein) char *, string, std::string,
 string &, std::string &
 %{  $input = as($input, "character"); %}

 %typemap(scoerceout) enum SWIGTYPE
   %{  $result = enumFromInteger($result, "$R_class"); %}

 %typemap(scoerceout) enum SWIGTYPE &
   %{  $result = enumFromInteger($result, "$R_class"); %}

 %typemap(scoerceout) enum SWIGTYPE *
   %{  $result = enumToInteger($result, "$R_class"); %}

 %typemap(scoerceout) enum SWIGTYPE *const
   %{  $result = enumToInteger($result, "$R_class"); %}

 #%typemap(scoerceout) SWIGTYPE
 #  %{ class($result) <- "$&R_class"; %}

 #%typemap(scoerceout) SWIGTYPE &
 #  %{ class($result) <- "$R_class"; %}

 #%typemap(scoerceout) SWIGTYPE *
 #  %{ class($result) <- "$R_class"; %}

 #%typemap(scoerceout) SWIGTYPE *const
 #  %{ class($result) <- "$R_class"; %}

  %typemap(scoerceout) SEXP %{ %}

  %typemap(scoerceout) SWIGTYPE
  %{ $result <- new("$&R_class", ref=$result); %}

  %typemap(scoerceout) SWIGTYPE &
  %{ $result <- new("$R_class", ref=$result) ; %}

  %typemap(scoerceout) SWIGTYPE *
  %{ $result <- new("$R_class", ref=$result) ; %}

  %typemap(scoerceout) SWIGTYPE *const
  %{ $result <- new("$R_class", ref=$result) ; %}


 /* Override the SWIGTYPE * above. */
 %typemap(scoerceout) char,
 		     char *,
 		     char &,
                      float,
 		     double,
 		     float*,
 		     double*,
 		     float &,
 		     double &,
                      int,
 		     int &,
 		     long,
 		     long &,
                      bool,
 		     bool &,
 		     string,
 		     std::string,
 		     string &,
 		     std::string &,
 		     void,
 		     signed int,
 		     signed int &,
 		     unsigned int,
 		     unsigned int &,
 		     short,
 		     short &,
 		     unsigned short,
 		     unsigned short &,
 		     long long,
 		     signed long long,
 		     signed long long &,
 		     unsigned long long,
 		     unsigned long long &,
 		     signed long,
 		     signed long &,
 		     unsigned long,
 		     unsigned long &,
 		     signed char,
 		     signed char &,
 		     unsigned char,
 		     unsigned char &
  %{    %}

 %apply int {size_t,
 std::size_t,
 ptrdiff_t,
 std::ptrdiff_t,
 signed int,
 unsigned int,
 short,
 unsigned short,
 signed char,
 unsigned char}

 %apply int* {size_t[],
 std::size_t[],
 ptrdiff_t[],
 std::ptrdiff_t[],
 signed int[],
 unsigned int[],
 short[],
 unsigned short[],
 signed char[],
 unsigned char[]}

 %apply int* {size_t[ANY],
 std::size_t[ANY],
 ptrdiff_t[ANY],
 std::ptrdiff_t[ANY],
 signed int[ANY],
 unsigned int[ANY],
 short[ANY],
 unsigned short[ANY],
 signed char[ANY],
 unsigned char[ANY]}

 %apply int* {size_t*,
 std::size_t*,
 ptrdiff_t*,
 std::ptrdiff_t*,
 signed int*,
 unsigned int*,
 short*,
 unsigned short*,
 signed char*,
 unsigned char*}

 %apply long {
        long long,
        signed long long,
        unsigned long long,
        signed long,
        unsigned long}

 %apply long* {
        long long*,
        signed long long*,
        unsigned long long*,
        signed long*,
        unsigned long*,
        long long[],
        signed long long[],
        unsigned long long[],
        signed long[],
        unsigned long[],
        long long[ANY],
        signed long long[ANY],
        unsigned long long[ANY],
        signed long[ANY],
        unsigned long[ANY]}

 %apply float* {
        float[],
        float[ANY]
 }
 %apply double * {
        double[],
        double[ANY]
 }

 %apply bool* {
        bool[],
        bool[ANY]
 }

 #if 0
  Just examining the values for a SWIGTYPE.

 %typemap(scoerceout) SWIGTYPE  %{

   name = $1_name
   type = $1_type
   ltype = $1_ltype

   mangle = $1_mangle
   descriptor = $1_descriptor

   pointer type = $*1_type
   pointer ltype = $*1_ltype

   pointer descriptor = $*1_descriptor
   basetype = $*_basetype

 %}
 #endif

	/* These map the primitive C types to the appropriate R type
	for use in class representations.
	*/

	%typemap("rtype") int, int *, int & "integer";
	%typemap("rtype") long, long *, long & "integer";
	%typemap("rtype") float, float*, float & "numeric";
	%typemap("rtype") double, double*, double & "numeric";
	%typemap("rtype") char , char * "character";
	%typemap("rtype") char "character";
	%typemap("rtype") string, string *, string & "character";
	%typemap("rtype") std::string, std::string *, std::string & "character";
	%typemap("rtype") bool, bool * "logical";
	%typemap("rtype") enum SWIGTYPE "character";
	%typemap("rtype") enum SWIGTYPE * "character";
	%typemap("rtype") enum SWIGTYPE *const "character";
	%typemap("rtype") enum SWIGTYPE & "character";
	%typemap("rtype") SWIGTYPE * "$R_class";
	%typemap("rtype") SWIGTYPE *const "$R_class";
	%typemap("rtype") SWIGTYPE & "$R_class";
	%typemap("rtype") SWIGTYPE "$&R_class";

	%typemap("rtypecheck") int, int &, long, long &
	%{ (is.integer($arg) \|\| is.numeric($arg)) && length($arg) == 1 %}
	%typemap("rtypecheck") int , long
	%{ is.integer($arg) \|\| is.numeric($arg) %}


	%typemap("rtypecheck") float, double
	%{ is.numeric($arg) && length($arg) == 1 %}
	%typemap("rtypecheck") float , double
	%{ is.numeric($arg) %}

	%typemap("rtypecheck") bool, bool &
	%{ is.logical($arg) && length($arg) == 1 %}
	%typemap("rtypecheck") bool *
	%{ is.logical($arg) %}

	/*
	Set up type checks to insure overloading precedence.
	We would like non pointer items to shadow pointer items, so that
	they get called if length = 1
	*/

	%typecheck(SWIG_TYPECHECK_BOOL) bool {}
	%typecheck(SWIG_TYPECHECK_UINT32) unsigned int {}
	%typecheck(SWIG_TYPECHECK_INTEGER) int {}
	%typecheck(SWIG_TYPECHECK_FLOAT) float {}
	%typecheck(SWIG_TYPECHECK_DOUBLE) double {}

	%typecheck(SWIG_TYPECHECK_BOOL_PTR) bool * {}
	%typecheck(SWIG_TYPECHECK_INT32_PTR) int * {}
	%typecheck(SWIG_TYPECHECK_FLOAT_PTR) float * {}
	%typecheck(SWIG_TYPECHECK_DOUBLE_PTR) double * {}
	%typecheck(SWIG_TYPECHECK_CHAR_PTR) char * {}

	%typecheck(SWIG_TYPECHECK_INT32_ARRAY) int[ANY] {}
	%typecheck(SWIG_TYPECHECK_FLOAT_ARRAY) float[ANY] {}
	%typecheck(SWIG_TYPECHECK_DOUBLE_ARRAY) double [ANY] {}

	/* Have to be careful that as(x, "numeric") is different from as.numeric(x).
	The latter makes a REALSXP, whereas the former leaves an INTSXP as an
	INTSXP.
	*/

	/* Force coercion of integer, since by default R sets all constants to
	numeric, which means that you can't directly call a function with an
	integer using an R numercal literal */

	%typemap(scoercein) int, int *, int &
	%{ $input = as.integer($input); %}
	%typemap(scoercein) long, long *, long &
	%{ $input = as.integer($input); %}
	%typemap(scoercein) float, float*, float &,
	double, double *, double &
	%{ %}
	%typemap(scoercein) char, char *, char &
	%{ $input = as($input, "character"); %}
	%typemap(scoercein) string, string *, string &
	%{ $input = as($input, "character"); %}
	%typemap(scoercein) std::string, std::string *, std::string &
	%{ $input = as($input, "character"); %}
	%typemap(scoercein) enum SWIGTYPE
	%{ $input = enumToInteger($input, "$R_class"); %}
	%typemap(scoercein) enum SWIGTYPE &
	%{ $input = enumToInteger($input, "$R_class"); %}
	%typemap(scoercein) enum SWIGTYPE *
	%{ $input = enumToInteger($input, "$R_class"); %}
	%typemap(scoercein) enum SWIGTYPE *const
	%{ $input = enumToInteger($input, "$R_class"); %}

	%typemap(scoercein) SWIGTYPE, SWIGTYPE , SWIGTYPE const, SWIGTYPE &
	%{ if (inherits($input, "ExternalReference")) $input = slot($input,"ref") %}

	/*
	%typemap(scoercein) SWIGTYPE , SWIGTYPE const
	%{ $input = coerceIfNotSubclass($input, "$R_class") %}

	%typemap(scoercein) SWIGTYPE &
	%{ $input = coerceIfNotSubclass($input, "$R_class") %}

	%typemap(scoercein) SWIGTYPE
	%{ $input = coerceIfNotSubclass($input, "$&R_class") %}
	*/

	%typemap(scoercein) SWIGTYPE[ANY]
	%{
	if(is.list($input))
	assert(all(sapply($input, class) == "$R_class"));
	%}


	/* **************************************************************** */

	%typemap(scoercein) bool, bool *, bool &
	"$input = as.logical($input);";
	%typemap(scoercein) int,
	int *,
	int &,
	long,
	long *,
	long &
	"$input = as.integer($input);";

	%typemap(scoercein) char *, string, std::string,
	string &, std::string &
	%{ $input = as($input, "character"); %}

	%typemap(scoerceout) enum SWIGTYPE
	%{ $result = enumFromInteger($result, "$R_class"); %}

	%typemap(scoerceout) enum SWIGTYPE &
	%{ $result = enumFromInteger($result, "$R_class"); %}

	%typemap(scoerceout) enum SWIGTYPE *
	%{ $result = enumToInteger($result, "$R_class"); %}

	%typemap(scoerceout) enum SWIGTYPE *const
	%{ $result = enumToInteger($result, "$R_class"); %}

	#%typemap(scoerceout) SWIGTYPE
	# %{ class($result) <- "$&R_class"; %}

	#%typemap(scoerceout) SWIGTYPE &
	# %{ class($result) <- "$R_class"; %}

	#%typemap(scoerceout) SWIGTYPE *
	# %{ class($result) <- "$R_class"; %}

	#%typemap(scoerceout) SWIGTYPE *const
	# %{ class($result) <- "$R_class"; %}

	%typemap(scoerceout) SEXP %{ %}

	%typemap(scoerceout) SWIGTYPE
	%{ $result <- new("$&R_class", ref=$result); %}

	%typemap(scoerceout) SWIGTYPE &
	%{ $result <- new("$R_class", ref=$result) ; %}

	%typemap(scoerceout) SWIGTYPE *
	%{ $result <- new("$R_class", ref=$result) ; %}

	%typemap(scoerceout) SWIGTYPE *const
	%{ $result <- new("$R_class", ref=$result) ; %}


	/* Override the SWIGTYPE * above. */
	%typemap(scoerceout) char,
	char *,
	char &,
	float,
	double,
	float*,
	double*,
	float &,
	double &,
	int,
	int &,
	long,
	long &,
	bool,
	bool &,
	string,
	std::string,
	string &,
	std::string &,
	void,
	signed int,
	signed int &,
	unsigned int,
	unsigned int &,
	short,
	short &,
	unsigned short,
	unsigned short &,
	long long,
	signed long long,
	signed long long &,
	unsigned long long,
	unsigned long long &,
	signed long,
	signed long &,
	unsigned long,
	unsigned long &,
	signed char,
	signed char &,
	unsigned char,
	unsigned char &
	%{ %}

	%apply int {size_t,
	std::size_t,
	ptrdiff_t,
	std::ptrdiff_t,
	signed int,
	unsigned int,
	short,
	unsigned short,
	signed char,
	unsigned char}

	%apply int* {size_t[],
	std::size_t[],
	ptrdiff_t[],
	std::ptrdiff_t[],
	signed int[],
	unsigned int[],
	short[],
	unsigned short[],
	signed char[],
	unsigned char[]}

	%apply int* {size_t[ANY],
	std::size_t[ANY],
	ptrdiff_t[ANY],
	std::ptrdiff_t[ANY],
	signed int[ANY],
	unsigned int[ANY],
	short[ANY],
	unsigned short[ANY],
	signed char[ANY],
	unsigned char[ANY]}

	%apply int* {size_t*,
	std::size_t*,
	ptrdiff_t*,
	std::ptrdiff_t*,
	signed int*,
	unsigned int*,
	short*,
	unsigned short*,
	signed char*,
	unsigned char*}

	%apply long {
	long long,
	signed long long,
	unsigned long long,
	signed long,
	unsigned long}

	%apply long* {
	long long*,
	signed long long*,
	unsigned long long*,
	signed long*,
	unsigned long*,
	long long[],
	signed long long[],
	unsigned long long[],
	signed long[],
	unsigned long[],
	long long[ANY],
	signed long long[ANY],
	unsigned long long[ANY],
	signed long[ANY],
	unsigned long[ANY]}

	%apply float* {
	float[],
	float[ANY]
	}
	%apply double * {
	double[],
	double[ANY]
	}

	%apply bool* {
	bool[],
	bool[ANY]
	}

	#if 0
	Just examining the values for a SWIGTYPE.

	%typemap(scoerceout) SWIGTYPE %{

	name = $1_name
	type = $1_type
	ltype = $1_ltype

	mangle = $1_mangle
	descriptor = $1_descriptor

	pointer type = $*1_type
	pointer ltype = $*1_ltype

	pointer descriptor = $*1_descriptor
	basetype = $*_basetype

	%}
	#endif