Ruby  2.0.0p247(2013-06-27revision41674)
ext/dl/cfunc.c
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00001 /* -*- C -*-
00002  * $Id: cfunc.c 36281 2012-07-03 03:10:02Z usa $
00003  */
00004 
00005 #include <ruby/ruby.h>
00006 #include <ruby/util.h>
00007 #include <errno.h>
00008 #include "dl.h"
00009 
00010 VALUE rb_cDLCFunc;
00011 
00012 static ID id_last_error;
00013 
00014 static VALUE
00015 rb_dl_get_last_error(VALUE self)
00016 {
00017     return rb_thread_local_aref(rb_thread_current(), id_last_error);
00018 }
00019 
00020 static VALUE
00021 rb_dl_set_last_error(VALUE self, VALUE val)
00022 {
00023     rb_thread_local_aset(rb_thread_current(), id_last_error, val);
00024     return Qnil;
00025 }
00026 
00027 #if defined(_WIN32)
00028 #include <windows.h>
00029 static ID id_win32_last_error;
00030 
00031 static VALUE
00032 rb_dl_get_win32_last_error(VALUE self)
00033 {
00034     return rb_thread_local_aref(rb_thread_current(), id_win32_last_error);
00035 }
00036 
00037 static VALUE
00038 rb_dl_set_win32_last_error(VALUE self, VALUE val)
00039 {
00040     rb_thread_local_aset(rb_thread_current(), id_win32_last_error, val);
00041     return Qnil;
00042 }
00043 #endif
00044 
00045 static void
00046 dlcfunc_mark(void *ptr)
00047 {
00048     struct cfunc_data *data = ptr;
00049     if (data->wrap) {
00050         rb_gc_mark(data->wrap);
00051     }
00052 }
00053 
00054 static void
00055 dlcfunc_free(void *ptr)
00056 {
00057     struct cfunc_data *data = ptr;
00058     if( data->name ){
00059         xfree(data->name);
00060     }
00061     xfree(data);
00062 }
00063 
00064 static size_t
00065 dlcfunc_memsize(const void *ptr)
00066 {
00067     const struct cfunc_data *data = ptr;
00068     size_t size = 0;
00069     if( data ){
00070         size += sizeof(*data);
00071         if( data->name ){
00072             size += strlen(data->name) + 1;
00073         }
00074     }
00075     return size;
00076 }
00077 
00078 const rb_data_type_t dlcfunc_data_type = {
00079     "dl/cfunc",
00080     {dlcfunc_mark, dlcfunc_free, dlcfunc_memsize,},
00081 };
00082 
00083 VALUE
00084 rb_dlcfunc_new(void (*func)(), int type, const char *name, ID calltype)
00085 {
00086     VALUE val;
00087     struct cfunc_data *data;
00088 
00089     rb_secure(4);
00090     if( func ){
00091         val = TypedData_Make_Struct(rb_cDLCFunc, struct cfunc_data, &dlcfunc_data_type, data);
00092         data->ptr  = (void *)(VALUE)func;
00093         data->name = name ? strdup(name) : NULL;
00094         data->type = type;
00095         data->calltype = calltype;
00096     }
00097     else{
00098         val = Qnil;
00099     }
00100 
00101     return val;
00102 }
00103 
00104 void *
00105 rb_dlcfunc2ptr(VALUE val)
00106 {
00107     struct cfunc_data *data;
00108     void * func;
00109 
00110     if( rb_typeddata_is_kind_of(val, &dlcfunc_data_type) ){
00111         data = DATA_PTR(val);
00112         func = data->ptr;
00113     }
00114     else if( val == Qnil ){
00115         func = NULL;
00116     }
00117     else{
00118         rb_raise(rb_eTypeError, "DL::CFunc was expected");
00119     }
00120 
00121     return func;
00122 }
00123 
00124 static VALUE
00125 rb_dlcfunc_s_allocate(VALUE klass)
00126 {
00127     VALUE obj;
00128     struct cfunc_data *data;
00129 
00130     obj = TypedData_Make_Struct(klass, struct cfunc_data, &dlcfunc_data_type, data);
00131     data->ptr  = 0;
00132     data->name = 0;
00133     data->type = 0;
00134     data->calltype = CFUNC_CDECL;
00135 
00136     return obj;
00137 }
00138 
00139 int
00140 rb_dlcfunc_kind_p(VALUE func)
00141 {
00142     return rb_typeddata_is_kind_of(func, &dlcfunc_data_type);
00143 }
00144 
00145 /*
00146  * call-seq:
00147  *    DL::CFunc.new(address, type=DL::TYPE_VOID, name=nil, calltype=:cdecl)
00148  *
00149  * Create a new function that points to +address+ with an optional return type
00150  * of +type+, a name of +name+ and a calltype of +calltype+.
00151  */
00152 static VALUE
00153 rb_dlcfunc_initialize(int argc, VALUE argv[], VALUE self)
00154 {
00155     VALUE addr, name, type, calltype, addrnum;
00156     struct cfunc_data *data;
00157     void *saddr;
00158     const char *sname;
00159 
00160     rb_scan_args(argc, argv, "13", &addr, &type, &name, &calltype);
00161 
00162     addrnum = rb_Integer(addr);
00163     saddr = (void*)(NUM2PTR(addrnum));
00164     sname = NIL_P(name) ? NULL : StringValuePtr(name);
00165 
00166     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, data);
00167     if( data->name ) xfree(data->name);
00168     data->ptr  = saddr;
00169     data->name = sname ? strdup(sname) : 0;
00170     data->type = NIL_P(type) ? DLTYPE_VOID : NUM2INT(type);
00171     data->calltype = NIL_P(calltype) ? CFUNC_CDECL : SYM2ID(calltype);
00172     data->wrap = (addrnum == addr) ? 0 : addr;
00173 
00174     return Qnil;
00175 }
00176 
00177 /*
00178  * call-seq:
00179  *    name  => str
00180  *
00181  * Get the name of this function
00182  */
00183 static VALUE
00184 rb_dlcfunc_name(VALUE self)
00185 {
00186     struct cfunc_data *cfunc;
00187 
00188     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00189     return cfunc->name ? rb_tainted_str_new2(cfunc->name) : Qnil;
00190 }
00191 
00192 /*
00193  * call-seq:
00194  *    cfunc.ctype   => num
00195  *
00196  * Get the C function return value type.  See DL for a list of constants
00197  * corresponding to this method's return value.
00198  */
00199 static VALUE
00200 rb_dlcfunc_ctype(VALUE self)
00201 {
00202     struct cfunc_data *cfunc;
00203 
00204     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00205     return INT2NUM(cfunc->type);
00206 }
00207 
00208 /*
00209  * call-seq:
00210  *    cfunc.ctype = type
00211  *
00212  * Set the C function return value type to +type+.
00213  */
00214 static VALUE
00215 rb_dlcfunc_set_ctype(VALUE self, VALUE ctype)
00216 {
00217     struct cfunc_data *cfunc;
00218 
00219     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00220     cfunc->type = NUM2INT(ctype);
00221     return ctype;
00222 }
00223 
00224 /*
00225  * call-seq:
00226  *    cfunc.calltype    => symbol
00227  *
00228  * Get the call type of this function.
00229  */
00230 static VALUE
00231 rb_dlcfunc_calltype(VALUE self)
00232 {
00233     struct cfunc_data *cfunc;
00234 
00235     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00236     return ID2SYM(cfunc->calltype);
00237 }
00238 
00239 /*
00240  * call-seq:
00241  *    cfunc.calltype = symbol
00242  *
00243  * Set the call type for this function.
00244  */
00245 static VALUE
00246 rb_dlcfunc_set_calltype(VALUE self, VALUE sym)
00247 {
00248     struct cfunc_data *cfunc;
00249 
00250     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00251     cfunc->calltype = SYM2ID(sym);
00252     return sym;
00253 }
00254 
00255 /*
00256  * call-seq:
00257  *    cfunc.ptr
00258  *
00259  * Get the underlying function pointer as a DL::CPtr object.
00260  */
00261 static VALUE
00262 rb_dlcfunc_ptr(VALUE self)
00263 {
00264     struct cfunc_data *cfunc;
00265 
00266     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00267     return PTR2NUM(cfunc->ptr);
00268 }
00269 
00270 /*
00271  * call-seq:
00272  *    cfunc.ptr = pointer
00273  *
00274  * Set the underlying function pointer to a DL::CPtr named +pointer+.
00275  */
00276 static VALUE
00277 rb_dlcfunc_set_ptr(VALUE self, VALUE addr)
00278 {
00279     struct cfunc_data *cfunc;
00280 
00281     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00282     cfunc->ptr = NUM2PTR(addr);
00283 
00284     return Qnil;
00285 }
00286 
00287 /*
00288  * call-seq: inspect
00289  *
00290  * Returns a string formatted with an easily readable representation of the
00291  * internal state of the DL::CFunc
00292  */
00293 static VALUE
00294 rb_dlcfunc_inspect(VALUE self)
00295 {
00296     VALUE val;
00297     struct cfunc_data *cfunc;
00298 
00299     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00300 
00301     val = rb_sprintf("#<DL::CFunc:%p ptr=%p type=%d name='%s'>",
00302              cfunc,
00303              cfunc->ptr,
00304              cfunc->type,
00305              cfunc->name ? cfunc->name : "");
00306     OBJ_TAINT(val);
00307     return val;
00308 }
00309 
00310 
00311 # define DECL_FUNC_CDECL(f,ret,args,val) \
00312     ret (FUNC_CDECL(*(f)))(args) = (ret (FUNC_CDECL(*))(args))(VALUE)(val)
00313 #ifdef FUNC_STDCALL
00314 # define DECL_FUNC_STDCALL(f,ret,args,val) \
00315     ret (FUNC_STDCALL(*(f)))(args) = (ret (FUNC_STDCALL(*))(args))(VALUE)(val)
00316 #endif
00317 
00318 #define CALL_CASE switch( RARRAY_LEN(ary) ){ \
00319   CASE(0); break; \
00320   CASE(1); break; CASE(2); break; CASE(3); break; CASE(4); break; CASE(5); break; \
00321   CASE(6); break; CASE(7); break; CASE(8); break; CASE(9); break; CASE(10);break; \
00322   CASE(11);break; CASE(12);break; CASE(13);break; CASE(14);break; CASE(15);break; \
00323   CASE(16);break; CASE(17);break; CASE(18);break; CASE(19);break; CASE(20);break; \
00324   default: rb_raise(rb_eArgError, "too many arguments"); \
00325 }
00326 
00327 
00328 #if defined(_MSC_VER) && defined(_M_AMD64) && _MSC_VER >= 1400 && _MSC_VER < 1600
00329 # pragma optimize("", off)
00330 #endif
00331 /*
00332  * call-seq:
00333  *    dlcfunc.call(ary)   => some_value
00334  *    dlcfunc[ary]        => some_value
00335  *
00336  * Calls the function pointer passing in +ary+ as values to the underlying
00337  * C function.  The return value depends on the ctype.
00338  */
00339 static VALUE
00340 rb_dlcfunc_call(VALUE self, VALUE ary)
00341 {
00342     struct cfunc_data *cfunc;
00343     int i;
00344     DLSTACK_TYPE stack[DLSTACK_SIZE];
00345     VALUE result = Qnil;
00346 
00347     rb_secure_update(self);
00348 
00349     memset(stack, 0, sizeof(DLSTACK_TYPE) * DLSTACK_SIZE);
00350     Check_Type(ary, T_ARRAY);
00351 
00352     TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00353 
00354     if( cfunc->ptr == 0 ){
00355         rb_raise(rb_eDLError, "can't call null-function");
00356         return Qnil;
00357     }
00358 
00359     for( i = 0; i < RARRAY_LEN(ary); i++ ){
00360         VALUE arg;
00361         if( i >= DLSTACK_SIZE ){
00362             rb_raise(rb_eDLError, "too many arguments (stack overflow)");
00363         }
00364         arg = rb_to_int(RARRAY_PTR(ary)[i]);
00365         rb_check_safe_obj(arg);
00366         if (FIXNUM_P(arg)) {
00367             stack[i] = (DLSTACK_TYPE)FIX2LONG(arg);
00368         }
00369         else if (RB_TYPE_P(arg, T_BIGNUM)) {
00370 #if SIZEOF_VOIDP == SIZEOF_LONG
00371             stack[i] = (DLSTACK_TYPE)rb_big2ulong_pack(arg);
00372 #else
00373             stack[i] = (DLSTACK_TYPE)rb_big2ull(arg);
00374 #endif
00375         }
00376         else {
00377             Check_Type(arg, T_FIXNUM);
00378         }
00379     }
00380 
00381     /* calltype == CFUNC_CDECL */
00382     if( cfunc->calltype == CFUNC_CDECL
00383 #ifndef FUNC_STDCALL
00384         || cfunc->calltype == CFUNC_STDCALL
00385 #endif
00386         ){
00387         switch( cfunc->type ){
00388         case DLTYPE_VOID:
00389 #define CASE(n) case n: { \
00390             DECL_FUNC_CDECL(f,void,DLSTACK_PROTO##n,cfunc->ptr); \
00391             f(DLSTACK_ARGS##n(stack)); \
00392             result = Qnil; \
00393 }
00394             CALL_CASE;
00395 #undef CASE
00396             break;
00397         case DLTYPE_VOIDP:
00398 #define CASE(n) case n: { \
00399             DECL_FUNC_CDECL(f,void*,DLSTACK_PROTO##n,cfunc->ptr); \
00400             void * ret; \
00401             ret = f(DLSTACK_ARGS##n(stack)); \
00402             result = PTR2NUM(ret); \
00403 }
00404             CALL_CASE;
00405 #undef CASE
00406             break;
00407         case DLTYPE_CHAR:
00408 #define CASE(n) case n: { \
00409             DECL_FUNC_CDECL(f,char,DLSTACK_PROTO##n,cfunc->ptr); \
00410             char ret; \
00411             ret = f(DLSTACK_ARGS##n(stack)); \
00412             result = CHR2FIX(ret); \
00413 }
00414             CALL_CASE;
00415 #undef CASE
00416             break;
00417         case DLTYPE_SHORT:
00418 #define CASE(n) case n: { \
00419             DECL_FUNC_CDECL(f,short,DLSTACK_PROTO##n,cfunc->ptr); \
00420             short ret; \
00421             ret = f(DLSTACK_ARGS##n(stack)); \
00422             result = INT2NUM((int)ret); \
00423 }
00424             CALL_CASE;
00425 #undef CASE
00426             break;
00427         case DLTYPE_INT:
00428 #define CASE(n) case n: { \
00429             DECL_FUNC_CDECL(f,int,DLSTACK_PROTO##n,cfunc->ptr); \
00430             int ret; \
00431             ret = f(DLSTACK_ARGS##n(stack)); \
00432             result = INT2NUM(ret); \
00433 }
00434             CALL_CASE;
00435 #undef CASE
00436             break;
00437         case DLTYPE_LONG:
00438 #define CASE(n) case n: { \
00439             DECL_FUNC_CDECL(f,long,DLSTACK_PROTO##n,cfunc->ptr); \
00440             long ret; \
00441             ret = f(DLSTACK_ARGS##n(stack)); \
00442             result = LONG2NUM(ret); \
00443 }
00444             CALL_CASE;
00445 #undef CASE
00446             break;
00447 #if HAVE_LONG_LONG  /* used in ruby.h */
00448         case DLTYPE_LONG_LONG:
00449 #define CASE(n) case n: { \
00450             DECL_FUNC_CDECL(f,LONG_LONG,DLSTACK_PROTO##n,cfunc->ptr); \
00451             LONG_LONG ret; \
00452             ret = f(DLSTACK_ARGS##n(stack)); \
00453             result = LL2NUM(ret); \
00454 }
00455             CALL_CASE;
00456 #undef CASE
00457             break;
00458 #endif
00459         case DLTYPE_FLOAT:
00460 #define CASE(n) case n: { \
00461             DECL_FUNC_CDECL(f,float,DLSTACK_PROTO##n,cfunc->ptr); \
00462             float ret; \
00463             ret = f(DLSTACK_ARGS##n(stack)); \
00464             result = rb_float_new(ret); \
00465 }
00466             CALL_CASE;
00467 #undef CASE
00468             break;
00469         case DLTYPE_DOUBLE:
00470 #define CASE(n) case n: { \
00471             DECL_FUNC_CDECL(f,double,DLSTACK_PROTO##n,cfunc->ptr); \
00472             double ret; \
00473             ret = f(DLSTACK_ARGS##n(stack)); \
00474             result = rb_float_new(ret); \
00475 }
00476             CALL_CASE;
00477 #undef CASE
00478             break;
00479         default:
00480             rb_raise(rb_eDLTypeError, "unknown type %d", cfunc->type);
00481         }
00482     }
00483 #ifdef FUNC_STDCALL
00484     else if( cfunc->calltype == CFUNC_STDCALL ){
00485         /* calltype == CFUNC_STDCALL */
00486         switch( cfunc->type ){
00487         case DLTYPE_VOID:
00488 #define CASE(n) case n: { \
00489             DECL_FUNC_STDCALL(f,void,DLSTACK_PROTO##n##_,cfunc->ptr); \
00490             f(DLSTACK_ARGS##n(stack)); \
00491             result = Qnil; \
00492 }
00493             CALL_CASE;
00494 #undef CASE
00495             break;
00496         case DLTYPE_VOIDP:
00497 #define CASE(n) case n: { \
00498             DECL_FUNC_STDCALL(f,void*,DLSTACK_PROTO##n##_,cfunc->ptr); \
00499             void * ret; \
00500             ret = f(DLSTACK_ARGS##n(stack)); \
00501             result = PTR2NUM(ret); \
00502 }
00503             CALL_CASE;
00504 #undef CASE
00505             break;
00506         case DLTYPE_CHAR:
00507 #define CASE(n) case n: { \
00508             DECL_FUNC_STDCALL(f,char,DLSTACK_PROTO##n##_,cfunc->ptr); \
00509             char ret; \
00510             ret = f(DLSTACK_ARGS##n(stack)); \
00511             result = CHR2FIX(ret); \
00512 }
00513             CALL_CASE;
00514 #undef CASE
00515             break;
00516         case DLTYPE_SHORT:
00517 #define CASE(n) case n: { \
00518             DECL_FUNC_STDCALL(f,short,DLSTACK_PROTO##n##_,cfunc->ptr); \
00519             short ret; \
00520             ret = f(DLSTACK_ARGS##n(stack)); \
00521             result = INT2NUM((int)ret); \
00522 }
00523             CALL_CASE;
00524 #undef CASE
00525             break;
00526         case DLTYPE_INT:
00527 #define CASE(n) case n: { \
00528             DECL_FUNC_STDCALL(f,int,DLSTACK_PROTO##n##_,cfunc->ptr); \
00529             int ret; \
00530             ret = f(DLSTACK_ARGS##n(stack)); \
00531             result = INT2NUM(ret); \
00532 }
00533             CALL_CASE;
00534 #undef CASE
00535             break;
00536         case DLTYPE_LONG:
00537 #define CASE(n) case n: { \
00538             DECL_FUNC_STDCALL(f,long,DLSTACK_PROTO##n##_,cfunc->ptr); \
00539             long ret; \
00540             ret = f(DLSTACK_ARGS##n(stack)); \
00541             result = LONG2NUM(ret); \
00542 }
00543             CALL_CASE;
00544 #undef CASE
00545             break;
00546 #if HAVE_LONG_LONG  /* used in ruby.h */
00547         case DLTYPE_LONG_LONG:
00548 #define CASE(n) case n: { \
00549             DECL_FUNC_STDCALL(f,LONG_LONG,DLSTACK_PROTO##n##_,cfunc->ptr); \
00550             LONG_LONG ret; \
00551             ret = f(DLSTACK_ARGS##n(stack)); \
00552             result = LL2NUM(ret); \
00553 }
00554             CALL_CASE;
00555 #undef CASE
00556             break;
00557 #endif
00558         case DLTYPE_FLOAT:
00559 #define CASE(n) case n: { \
00560             DECL_FUNC_STDCALL(f,float,DLSTACK_PROTO##n##_,cfunc->ptr); \
00561             float ret; \
00562             ret = f(DLSTACK_ARGS##n(stack)); \
00563             result = rb_float_new(ret); \
00564 }
00565             CALL_CASE;
00566 #undef CASE
00567             break;
00568         case DLTYPE_DOUBLE:
00569 #define CASE(n) case n: { \
00570             DECL_FUNC_STDCALL(f,double,DLSTACK_PROTO##n##_,cfunc->ptr); \
00571             double ret; \
00572             ret = f(DLSTACK_ARGS##n(stack)); \
00573             result = rb_float_new(ret); \
00574 }
00575             CALL_CASE;
00576 #undef CASE
00577             break;
00578         default:
00579             rb_raise(rb_eDLTypeError, "unknown type %d", cfunc->type);
00580         }
00581     }
00582 #endif
00583     else{
00584         const char *name = rb_id2name(cfunc->calltype);
00585         if( name ){
00586             rb_raise(rb_eDLError, "unsupported call type: %s",
00587                      name);
00588         }
00589         else{
00590             rb_raise(rb_eDLError, "unsupported call type: %"PRIxVALUE,
00591                      cfunc->calltype);
00592         }
00593     }
00594 
00595     rb_dl_set_last_error(self, INT2NUM(errno));
00596 #if defined(_WIN32)
00597     rb_dl_set_win32_last_error(self, INT2NUM(GetLastError()));
00598 #endif
00599 
00600     return result;
00601 }
00602 #if defined(_MSC_VER) && defined(_M_AMD64) && _MSC_VER >= 1400 && _MSC_VER < 1600
00603 # pragma optimize("", on)
00604 #endif
00605 
00606 /*
00607  * call-seq:
00608  *    dlfunc.to_i   => integer
00609  *
00610  * Returns the memory location of this function pointer as an integer.
00611  */
00612 static VALUE
00613 rb_dlcfunc_to_i(VALUE self)
00614 {
00615   struct cfunc_data *cfunc;
00616 
00617   TypedData_Get_Struct(self, struct cfunc_data, &dlcfunc_data_type, cfunc);
00618   return PTR2NUM(cfunc->ptr);
00619 }
00620 
00621 void
00622 Init_dlcfunc(void)
00623 {
00624     id_last_error = rb_intern("__DL2_LAST_ERROR__");
00625 #if defined(_WIN32)
00626     id_win32_last_error = rb_intern("__DL2_WIN32_LAST_ERROR__");
00627 #endif
00628 
00629     /*
00630      * Document-class: DL::CFunc
00631      *
00632      * A direct accessor to a function in a C library
00633      *
00634      * == Example
00635      *
00636      *   libc_so = "/lib64/libc.so.6"
00637      *   => "/lib64/libc.so.6"
00638      *   libc = DL::dlopen(libc_so)
00639      *   => #<DL::Handle:0x00000000e05b00>
00640      *   @cfunc = DL::CFunc.new(libc,['strcpy'], DL::TYPE_VOIDP, 'strcpy')
00641      *   => #<DL::CFunc:0x000000012daec0 ptr=0x007f62ca5a8300 type=1 name='strcpy'>
00642      *
00643      */
00644     rb_cDLCFunc = rb_define_class_under(rb_mDL, "CFunc", rb_cObject);
00645     rb_define_alloc_func(rb_cDLCFunc, rb_dlcfunc_s_allocate);
00646 
00647     /*
00648      * Document-method: last_error
00649      *
00650      * Returns the last error for the current executing thread
00651      */
00652     rb_define_module_function(rb_cDLCFunc, "last_error", rb_dl_get_last_error, 0);
00653 #if defined(_WIN32)
00654 
00655     /*
00656      * Document-method: win32_last_error
00657      *
00658      * Returns the last win32 error for the current executing thread
00659      */
00660     rb_define_module_function(rb_cDLCFunc, "win32_last_error", rb_dl_get_win32_last_error, 0);
00661 #endif
00662     rb_define_method(rb_cDLCFunc, "initialize", rb_dlcfunc_initialize, -1);
00663     rb_define_method(rb_cDLCFunc, "call", rb_dlcfunc_call, 1);
00664     rb_define_method(rb_cDLCFunc, "[]",   rb_dlcfunc_call, 1);
00665     rb_define_method(rb_cDLCFunc, "name", rb_dlcfunc_name, 0);
00666     rb_define_method(rb_cDLCFunc, "ctype", rb_dlcfunc_ctype, 0);
00667     rb_define_method(rb_cDLCFunc, "ctype=", rb_dlcfunc_set_ctype, 1);
00668     rb_define_method(rb_cDLCFunc, "calltype", rb_dlcfunc_calltype, 0);
00669     rb_define_method(rb_cDLCFunc, "calltype=", rb_dlcfunc_set_calltype, 1);
00670     rb_define_method(rb_cDLCFunc, "ptr",  rb_dlcfunc_ptr, 0);
00671     rb_define_method(rb_cDLCFunc, "ptr=", rb_dlcfunc_set_ptr, 1);
00672     rb_define_method(rb_cDLCFunc, "inspect", rb_dlcfunc_inspect, 0);
00673     rb_define_method(rb_cDLCFunc, "to_s", rb_dlcfunc_inspect, 0);
00674     rb_define_method(rb_cDLCFunc, "to_i", rb_dlcfunc_to_i, 0);
00675 }
00676