// // typemaps for Ruby // // $Header: /cvsroot/SWIG/Lib/ruby/typemaps.i,v 1.6 2003/03/10 22:41:28 cheetah Exp $ // // Copyright (C) 2000 Network Applied Communication Laboratory, Inc. // Copyright (C) 2000 Information-technology Promotion Agency, Japan // // Masaki Fukushima // /* The SWIG typemap library provides a language independent mechanism for supporting output arguments, input values, and other C function calling mechanisms. The primary use of the library is to provide a better interface to certain C function--especially those involving pointers. */ // ------------------------------------------------------------------------ // Pointer handling // // These mappings provide support for input/output arguments and common // uses for C/C++ pointers. // ------------------------------------------------------------------------ // INPUT typemaps. // These remap a C pointer to be an "INPUT" value which is passed by value // instead of reference. /* The following methods can be applied to turn a pointer into a simple "input" value. That is, instead of passing a pointer to an object, you would use a real value instead. int *INPUT short *INPUT long *INPUT long long *INPUT unsigned int *INPUT unsigned short *INPUT unsigned long *INPUT unsigned long long *INPUT unsigned char *INPUT bool *INPUT float *INPUT double *INPUT To use these, suppose you had a C function like this : double fadd(double *a, double *b) { return *a+*b; } You could wrap it with SWIG as follows : %include typemaps.i double fadd(double *INPUT, double *INPUT); or you can use the %apply directive : %include typemaps.i %apply double *INPUT { double *a, double *b }; double fadd(double *a, double *b); */ %define INPUT_TYPEMAP(type, converter) %typemap(in) type *INPUT($*1_ltype temp), type &INPUT($*1_ltype temp) { temp = ($*1_ltype) converter($input); $1 = &temp; } %typemap(typecheck) type *INPUT = type; %typemap(typecheck) type &INPUT = type; %enddef INPUT_TYPEMAP(float, NUM2DBL); INPUT_TYPEMAP(double, NUM2DBL); INPUT_TYPEMAP(int, NUM2INT); INPUT_TYPEMAP(short, NUM2SHRT); INPUT_TYPEMAP(long, NUM2LONG); INPUT_TYPEMAP(long long, NUM2LL); INPUT_TYPEMAP(unsigned int, NUM2UINT); INPUT_TYPEMAP(unsigned short, NUM2USHRT); INPUT_TYPEMAP(unsigned long, NUM2ULONG); INPUT_TYPEMAP(unsigned long long, NUM2ULL); INPUT_TYPEMAP(unsigned char, NUM2UINT); INPUT_TYPEMAP(signed char, NUM2INT); INPUT_TYPEMAP(bool, RTEST); #undef INPUT_TYPEMAP // OUTPUT typemaps. These typemaps are used for parameters that // are output only. The output value is appended to the result as // a array element. /* The following methods can be applied to turn a pointer into an "output" value. When calling a function, no input value would be given for a parameter, but an output value would be returned. In the case of multiple output values, they are returned in the form of a Ruby Array. int *OUTPUT short *OUTPUT long *OUTPUT long long *OUTPUT unsigned int *OUTPUT unsigned short *OUTPUT unsigned long *OUTPUT unsigned long long *OUTPUT unsigned char *OUTPUT bool *OUTPUT float *OUTPUT double *OUTPUT For example, suppose you were trying to wrap the modf() function in the C math library which splits x into integral and fractional parts (and returns the integer part in one of its parameters).K: double modf(double x, double *ip); You could wrap it with SWIG as follows : %include typemaps.i double modf(double x, double *OUTPUT); or you can use the %apply directive : %include typemaps.i %apply double *OUTPUT { double *ip }; double modf(double x, double *ip); The Ruby output of the function would be a Array containing both output values. */ %include "fragments.i" %define OUTPUT_TYPEMAP(type, converter, convtype) %typemap(in,numinputs=0) type *OUTPUT($*1_ltype temp), type &OUTPUT($*1_ltype temp) "$1 = &temp;"; %typemap(argout, fragment="output_helper") type *OUTPUT, type &OUTPUT { VALUE o = converter(convtype (*$1)); $result = output_helper($result, o); } %enddef OUTPUT_TYPEMAP(int, INT2NUM, (int)); OUTPUT_TYPEMAP(short, INT2NUM, (int)); OUTPUT_TYPEMAP(long, INT2NUM, (int)); OUTPUT_TYPEMAP(long long, LL2NUM, (int)); OUTPUT_TYPEMAP(unsigned int, UINT2NUM, (unsigned int)); OUTPUT_TYPEMAP(unsigned short, UINT2NUM, (unsigned int)); OUTPUT_TYPEMAP(unsigned long, UINT2NUM, (unsigned int)); OUTPUT_TYPEMAP(unsigned long long, ULL2NUM, (unsigned int)); OUTPUT_TYPEMAP(unsigned char, UINT2NUM, (unsigned int)); OUTPUT_TYPEMAP(signed char, INT2NUM, (int)); OUTPUT_TYPEMAP(float, rb_float_new, (double)); OUTPUT_TYPEMAP(double, rb_float_new, (double)); #undef OUTPUT_TYPEMAP %typemap(in,numinputs=0) bool *OUTPUT(bool temp), bool &OUTPUT(bool temp) "$1 = &temp;"; %typemap(argout, fragment="output_helper") bool *OUTPUT, bool &OUTPUT { VALUE o = (*$1) ? Qtrue : Qfalse; $result = output_helper($result, o); } // INOUT // Mappings for an argument that is both an input and output // parameter /* The following methods can be applied to make a function parameter both an input and output value. This combines the behavior of both the "INPUT" and "OUTPUT" methods described earlier. Output values are returned in the form of a Ruby array. int *INOUT short *INOUT long *INOUT long long *INOUT unsigned int *INOUT unsigned short *INOUT unsigned long *INOUT unsigned long long *INOUT unsigned char *INOUT bool *INOUT float *INOUT double *INOUT For example, suppose you were trying to wrap the following function : void neg(double *x) { *x = -(*x); } You could wrap it with SWIG as follows : %include typemaps.i void neg(double *INOUT); or you can use the %apply directive : %include typemaps.i %apply double *INOUT { double *x }; void neg(double *x); Unlike C, this mapping does not directly modify the input value (since this makes no sense in Ruby). Rather, the modified input value shows up as the return value of the function. Thus, to apply this function to a Ruby variable you might do this : x = neg(x) Note : previous versions of SWIG used the symbol 'BOTH' to mark input/output arguments. This is still supported, but will be slowly phased out in future releases. */ %typemap(in) int *INOUT = int *INPUT; %typemap(in) short *INOUT = short *INPUT; %typemap(in) long *INOUT = long *INPUT; %typemap(in) long long *INOUT = long long *INPUT; %typemap(in) unsigned *INOUT = unsigned *INPUT; %typemap(in) unsigned short *INOUT = unsigned short *INPUT; %typemap(in) unsigned long *INOUT = unsigned long *INPUT; %typemap(in) unsigned long long *INOUT = unsigned long long *INPUT; %typemap(in) unsigned char *INOUT = unsigned char *INPUT; %typemap(in) signed char *INOUT = signed char *INPUT; %typemap(in) bool *INOUT = bool *INPUT; %typemap(in) float *INOUT = float *INPUT; %typemap(in) double *INOUT = double *INPUT; %typemap(in) int &INOUT = int &INPUT; %typemap(in) short &INOUT = short &INPUT; %typemap(in) long &INOUT = long &INPUT; %typemap(in) long long &INOUT = long long &INPUT; %typemap(in) unsigned &INOUT = unsigned &INPUT; %typemap(in) unsigned short &INOUT = unsigned short &INPUT; %typemap(in) unsigned long &INOUT = unsigned long &INPUT; %typemap(in) unsigned long long &INOUT = unsigned long long &INPUT; %typemap(in) unsigned char &INOUT = unsigned char &INPUT; %typemap(in) signed char &INOUT = signed char &INPUT; %typemap(in) bool &INOUT = bool &INPUT; %typemap(in) float &INOUT = float &INPUT; %typemap(in) double &INOUT = double &INPUT; %typemap(argout) int *INOUT = int *OUTPUT; %typemap(argout) short *INOUT = short *OUTPUT; %typemap(argout) long *INOUT = long *OUTPUT; %typemap(argout) long long *INOUT = long long *OUTPUT; %typemap(argout) unsigned *INOUT = unsigned *OUTPUT; %typemap(argout) unsigned short *INOUT = unsigned short *OUTPUT; %typemap(argout) unsigned long *INOUT = unsigned long *OUTPUT; %typemap(argout) unsigned long long *INOUT = unsigned long long *OUTPUT; %typemap(argout) unsigned char *INOUT = unsigned char *OUTPUT; %typemap(argout) signed char *INOUT = signed char *OUTPUT; %typemap(argout) bool *INOUT = bool *OUTPUT; %typemap(argout) float *INOUT = float *OUTPUT; %typemap(argout) double *INOUT = double *OUTPUT; %typemap(argout) int &INOUT = int &OUTPUT; %typemap(argout) short &INOUT = short &OUTPUT; %typemap(argout) long &INOUT = long &OUTPUT; %typemap(argout) long long &INOUT = long long &OUTPUT; %typemap(argout) unsigned &INOUT = unsigned &OUTPUT; %typemap(argout) unsigned short &INOUT = unsigned short &OUTPUT; %typemap(argout) unsigned long &INOUT = unsigned long &OUTPUT; %typemap(argout) unsigned long long &INOUT = unsigned long long &OUTPUT; %typemap(argout) unsigned char &INOUT = unsigned char &OUTPUT; %typemap(argout) signed char &INOUT = signed char &OUTPUT; %typemap(argout) bool &INOUT = bool &OUTPUT; %typemap(argout) float &INOUT = float &OUTPUT; %typemap(argout) double &INOUT = double &OUTPUT; // -------------------------------------------------------------------- // Special types // -------------------------------------------------------------------- /* The typemaps.i library also provides the following mappings : struct timeval * time_t Ruby has builtin class Time. INPUT/OUTPUT typemap for timeval and time_t is provided. int PROG_ARGC char **PROG_ARGV Some C function receive argc and argv from C main function. This typemap provides ignore typemap which pass Ruby ARGV contents as argc and argv to C function. */ // struct timeval * %{ #ifdef __cplusplus extern "C" { #endif #ifdef HAVE_SYS_TIME_H # include struct timeval rb_time_timeval(VALUE); #endif #ifdef __cplusplus } #endif %} %typemap(in) struct timeval *INPUT (struct timeval temp) { if (NIL_P($input)) $1 = NULL; else { temp = rb_time_timeval($input); $1 = &temp; } } %typemap(in,numinputs=0) struct timeval *OUTPUT(struct timeval temp) { $1 = &temp; } %typemap(argout) struct timeval *OUTPUT { $result = rb_time_new($1->tv_sec, $1->tv_usec); } %typemap(out) struct timeval * { $result = rb_time_new($1->tv_sec, $1->tv_usec); } %typemap(out) struct timespec * { $result = rb_time_new($1->tv_sec, $1->tv_nsec / 1000); } // time_t %typemap(in) time_t { if (NIL_P($input)) $1 = (time_t)-1; else $1 = NUM2LONG(rb_funcall($input, rb_intern("tv_sec"), 0)); } %typemap(out) time_t { $result = rb_time_new($1, 0); } // argc and argv %typemap(in,numinputs=0) int PROG_ARGC { $1 = RARRAY(rb_argv)->len + 1; } %typemap(in,numinputs=0) char **PROG_ARGV { int i, n; VALUE ary = rb_eval_string("[$0] + ARGV"); n = RARRAY(ary)->len; $1 = (char **)malloc(n + 1); for (i = 0; i < n; i++) { VALUE v = rb_obj_as_string(RARRAY(ary)->ptr[i]); $1[i] = (char *)malloc(RSTRING(v)->len + 1); strcpy($1[i], RSTRING(v)->ptr); } } %typemap(freearg) char **PROG_ARGV { int i, n = RARRAY(rb_argv)->len + 1; for (i = 0; i < n; i++) free($1[i]); free($1); } // FILE * %{ #ifdef __cplusplus extern "C" { #endif #include "rubyio.h" #ifdef __cplusplus } #endif %} %typemap(in) FILE *READ { OpenFile *of; GetOpenFile($input, of); rb_io_check_readable(of); $1 = GetReadFile(of); rb_read_check($1); } %typemap(in) FILE *READ_NOCHECK { OpenFile *of; GetOpenFile($input, of); rb_io_check_readable(of); $1 = GetReadFile(of); } %typemap(in) FILE *WRITE { OpenFile *of; GetOpenFile($input, of); rb_io_check_writable(of); $1 = GetWriteFile(of); } /* Overloading information */ %typemap(typecheck) double *INOUT = double; %typemap(typecheck) signed char *INOUT = signed char; %typemap(typecheck) unsigned char *INOUT = unsigned char; %typemap(typecheck) unsigned long *INOUT = unsigned long; %typemap(typecheck) unsigned long long *INOUT = unsigned long long; %typemap(typecheck) unsigned short *INOUT = unsigned short; %typemap(typecheck) unsigned int *INOUT = unsigned int; %typemap(typecheck) long *INOUT = long; %typemap(typecheck) long long *INOUT = long long; %typemap(typecheck) short *INOUT = short; %typemap(typecheck) int *INOUT = int; %typemap(typecheck) float *INOUT = float; %typemap(typecheck) double &INOUT = double; %typemap(typecheck) signed char &INOUT = signed char; %typemap(typecheck) unsigned char &INOUT = unsigned char; %typemap(typecheck) unsigned long &INOUT = unsigned long; %typemap(typecheck) unsigned long long &INOUT = unsigned long long; %typemap(typecheck) unsigned short &INOUT = unsigned short; %typemap(typecheck) unsigned int &INOUT = unsigned int; %typemap(typecheck) long &INOUT = long; %typemap(typecheck) long long &INOUT = long long; %typemap(typecheck) short &INOUT = short; %typemap(typecheck) int &INOUT = int; %typemap(typecheck) float &INOUT = float;