/* */ %insert("header") "swiglabels.swg" %insert("header") "swigerrors.swg" %insert("init") "swiginit.swg" %insert("runtime") "swigrun.swg" %insert("runtime") "rrun.swg" %init %{ SWIGEXPORT void SWIG_init(void) { %} %include #define %Rruntime %insert("s") #define SWIG_Object SEXP #define VOID_Object R_NilValue #define %append_output(obj) SET_VECTOR_ELT($result, $n, obj) %define %set_constant(name, obj) %begin_block SEXP _obj = obj; assign(name, _obj); %end_block %enddef %define %raise(obj,type,desc) return R_NilValue; %enddef %insert("sinit") "srun.swg" %insert("sinitroutine") %{ SWIG_init(); SWIG_InitializeModule(0); %} %include %typemap(in) (double *x, int len) %{ $1 = REAL(x); $2 = Rf_length(x); %} /* XXX Need to worry about inheritance, e.g. if B extends A and we are looking for an A[], then B elements are okay. */ %typemap(scheck) SWIGTYPE[ANY] %{ # assert(length($input) > $1_dim0) assert(all(sapply($input, class) == "$R_class")); %} %typemap(out) void ""; %typemap(in) int *, int[ANY], signed int *, signed int[ANY], unsigned int *, unsigned int[ANY], short *, short[ANY], signed short *, signed short[ANY], unsigned short *, unsigned short[ANY], long *, long[ANY], signed long *, signed long[ANY], unsigned long *, unsigned long[ANY], long long *, long long[ANY], signed long long *, signed long long[ANY], unsigned long long *, unsigned long long[ANY] { { int _rswigi; int _rswiglen = LENGTH($input); $1 = %static_cast(calloc(sizeof($1_basetype), _rswiglen), $1_ltype); for (_rswigi=0; _rswigi< _rswiglen; _rswigi++) { $1[_rswigi] = INTEGER($input)[_rswigi]; } } } %typemap(in) float *, float[ANY], double *, double[ANY] { { int _rswigi; int _rswiglen = LENGTH($input); $1 = %static_cast(calloc(sizeof($1_basetype), _rswiglen), $1_ltype); for (_rswigi=0; _rswigi<_rswiglen; _rswigi++) { $1[_rswigi] = REAL($input)[_rswigi]; } } } %typemap(freearg,noblock=1) int *, int[ANY], signed int *, signed int[ANY], unsigned int *, unsigned int[ANY], short *, short[ANY], signed short *, signed short[ANY], unsigned short *, unsigned short[ANY], long *, long[ANY], signed long *, signed long[ANY], unsigned long *, unsigned long[ANY], long long *, long long[ANY], signed long long *, signed long long[ANY], unsigned long long *, unsigned long long[ANY], float *, float[ANY], double *, double[ANY] %{ free($1); %} %typemap(freearg, noblock=1) int *OUTPUT, signed int *OUTPUT, unsigned int *OUTPUT, short *OUTPUT, signed short *OUTPUT, unsigned short *OUTPUT, long *OUTPUT, signed long *OUTPUT, unsigned long *OUTPUT, long long *OUTPUT, signed long long *OUTPUT, unsigned long long *OUTPUT, float *OUTPUT, double *OUTPUT, char *OUTPUT, signed char *OUTPUT, unsigned char *OUTPUT {} /* Should we recycle to make the length correct. And warn if length() > the dimension. */ %typemap(scheck) SWIGTYPE [ANY] %{ # assert(length($input) >= $1_dim0) %} /* Handling vector case to avoid warnings, although we just use the first one. */ %typemap(scheck) unsigned int %{ assert(length($input) == 1 && $input >= 0, "All values must be non-negative"); %} %typemap(scheck) int, long %{ if(length($input) > 1) { warning("using only the first element of $input"); }; %} %include %include %include %include %include %typemap(in,noblock=1) enum SWIGTYPE[ANY] { $1 = %reinterpret_cast(INTEGER($input), $1_ltype); } %typemap(in,noblock=1,fragment="SWIG_strdup") char * { $1 = %reinterpret_cast(SWIG_strdup(CHAR(STRING_ELT($input, 0))), $1_ltype); } %typemap(freearg,noblock=1) char * { free($1); } %typemap(in,noblock=1,fragment="SWIG_strdup") char *[ANY] { $1 = %reinterpret_cast(SWIG_strdup(CHAR(STRING_ELT($input, 0))), $1_ltype); } %typemap(freearg,noblock=1) char *[ANY] { free($1); } %typemap(in,noblock=1,fragment="SWIG_strdup") char[ANY] { $1 = SWIG_strdup(CHAR(STRING_ELT($input, 0))); } %typemap(freearg,noblock=1) char[ANY] { free($1); } %typemap(in,noblock=1,fragment="SWIG_strdup") char[] { $1 = SWIG_strdup(CHAR(STRING_ELT($input, 0))); } %typemap(freearg,noblock=1) char[] { free($1); } %typemap(memberin) char[] %{ if ($input) strcpy($1, $input); else strcpy($1, ""); %} %typemap(globalin) char[] %{ if ($input) strcpy($1, $input); else strcpy($1, ""); %} %typemap(out,noblock=1) char * { $result = $1 ? Rf_mkString(%reinterpret_cast($1,char *)) : R_NilValue; } %typemap(in,noblock=1) char { $1 = %static_cast(CHAR(STRING_ELT($input, 0))[0],$1_ltype); } %typemap(out) char { char tmp[2] = "x"; tmp[0] = $1; $result = Rf_mkString(tmp); } %typemap(in,noblock=1) int, long { $1 = %static_cast(INTEGER($input)[0], $1_ltype); } %typemap(out,noblock=1) int, long "$result = Rf_ScalarInteger($1);"; %typemap(in,noblock=1) bool "$1 = LOGICAL($input)[0] ? true : false;"; %typemap(out,noblock=1) bool "$result = Rf_ScalarLogical($1);"; %typemap(in,noblock=1) float, double { $1 = %static_cast(REAL($input)[0], $1_ltype); } /* Why is this here ? */ /* %typemap(out,noblock=1) unsigned int * "$result = ScalarReal(*($1));"; */ %Rruntime %{ setMethod('[', "ExternalReference", function(x,i,j, ..., drop=TRUE) if (!is.null(x$"__getitem__")) sapply(i, function(n) x$"__getitem__"(i=as.integer(n-1)))) setMethod('[<-' , "ExternalReference", function(x,i,j, ..., value) if (!is.null(x$"__setitem__")) { sapply(1:length(i), function(n) x$"__setitem__"(i=as.integer(i[n]-1), x=value[n])) x }) setAs('ExternalReference', 'character', function(from) {if (!is.null(from$"__str__")) from$"__str__"()}) suppressWarnings(setMethod('print', 'ExternalReference', function(x) {print(as(x, "character"))})) %}