/* ----------------------------------------------------------------------------- * chicken.swg * * CHICKEN configuration module. * ----------------------------------------------------------------------------- */ /* chicken.h has to appear first. */ %insert(runtime) %{ #include #include %} %insert(runtime) "swigrun.swg"; // Common C API type-checking code %insert(runtime) "chickenrun.swg"; // CHICKEN run-time code /* ----------------------------------------------------------------------------- * standard typemaps * ----------------------------------------------------------------------------- */ /* CHICKEN: C ---------- fixnum: int, short, unsigned int, unsigned short, unsigned char, signed char char: char bool: bool flonum: float, double, long, long long, unsigned long, unsigned long long */ /* --- Primitive types --- */ %define SIMPLE_TYPEMAP(type_, from_scheme, to_scheme, checker, convtype, storage_) %typemap(in) type_ %{ if (!checker ($input)) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "Argument #$argnum is not of type 'type_'"); } $1 = ($1_ltype) from_scheme ($input); %} /* Const primitive references. Passed by value */ %typemap(in) const type_ & ($*1_ltype temp) %{ if (!checker ($input)) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "Argument #$argnum is not of type 'type_'"); } temp = ($*1_ltype) from_scheme ($input); $1 = &temp; %} /* --- Variable input --- */ %typemap(varin) type_ %{ if (!checker ($input)) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "Cannot use '$1_ltype' for variable '$name' of type 'type_'"); } $1 = ($1_ltype) from_scheme ($input); %} #if "storage_" == "0" %typemap(out) type_ %{ $result = to_scheme (convtype ($1)); %} /* References to primitive types. Return by value */ %typemap(out) const type_ & %{ $result = to_scheme (convtype (*$1)); %} /* --- Variable output --- */ %typemap(varout) type_ %{ $result = to_scheme (convtype ($varname)); %} %typemap(throws) type_ %{ SWIG_Chicken_ThrowException(to_scheme ( convtype ($1))); %} #else %typemap(out) type_ %{ { C_word *space = C_alloc(storage_); $result = to_scheme (&space, convtype ($1)); } %} /* References to primitive types. Return by value */ %typemap(out) const type_ & %{ { C_word *space = C_alloc(storage_); $result = to_scheme (&space, convtype (*$1)); } %} /* --- Variable output --- */ %typemap(varout) type_ %{ { C_word *space = C_alloc(storage_); $result = to_scheme (&space, convtype ($varname)); } %} %typemap(throws) type_ %{ { C_word *space = C_alloc(storage_); SWIG_Chicken_ThrowException(to_scheme (&space, convtype ($1))); } %} #endif /* --- Constants --- */ %typemap(constcode) type_ "static const $1_type $result = $value;" %enddef SIMPLE_TYPEMAP(int, C_num_to_int, C_fix, C_swig_is_number, (int), 0); //SIMPLE_TYPEMAP(enum SWIGTYPE, C_unfix, C_fix, C_swig_is_fixnum, (int), 0); SIMPLE_TYPEMAP(short, C_num_to_int, C_fix, C_swig_is_number, (int), 0); SIMPLE_TYPEMAP(long, C_num_to_long, C_long_to_num, C_swig_is_long, (long), C_SIZEOF_FLONUM); SIMPLE_TYPEMAP(long long, C_num_to_long, C_long_to_num, C_swig_is_long, (long), C_SIZEOF_FLONUM); SIMPLE_TYPEMAP(unsigned int, C_num_to_unsigned_int, C_unsigned_int_to_num, C_swig_is_number, (unsigned int), C_SIZEOF_FLONUM); SIMPLE_TYPEMAP(unsigned short, C_num_to_unsigned_int, C_fix, C_swig_is_number, (unsigned int), 0); SIMPLE_TYPEMAP(unsigned long, C_num_to_unsigned_long, C_unsigned_long_to_num, C_swig_is_long, (unsigned long), C_SIZEOF_FLONUM); SIMPLE_TYPEMAP(unsigned long long, C_num_to_unsigned_long, C_unsigned_long_to_num, C_swig_is_long, (unsigned long), C_SIZEOF_FLONUM); SIMPLE_TYPEMAP(unsigned char, C_character_code, C_make_character, C_swig_is_char, (unsigned int), 0); SIMPLE_TYPEMAP(signed char, C_character_code, C_make_character, C_swig_is_char, (int), 0); SIMPLE_TYPEMAP(char, C_character_code, C_make_character, C_swig_is_char, (char), 0); SIMPLE_TYPEMAP(bool, C_truep, C_mk_bool, C_swig_is_bool, (bool), 0); SIMPLE_TYPEMAP(float, C_c_double, C_flonum, C_swig_is_number, (double), C_SIZEOF_FLONUM); SIMPLE_TYPEMAP(double, C_c_double, C_flonum, C_swig_is_number, (double), C_SIZEOF_FLONUM); /* enum SWIGTYPE */ %apply int { enum SWIGTYPE }; %apply const int& { const enum SWIGTYPE& }; %typemap(varin) enum SWIGTYPE { if (!C_swig_is_fixnum($input) && sizeof(int) != sizeof($1)) { swig_barf(SWIG_BARF1_BAD_ARGUMENT_TYPE, "enum variable '$name' can not be set"); } *((int *)(void *)&$1) = C_unfix($input); } /* --- Input arguments --- */ /* Strings */ %typemap(in) char * { if ($input == C_SCHEME_FALSE) { $1 = NULL; } else { if (!C_swig_is_string ($input)) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "Argument #$argnum is not of type 'char *'"); } $1 = ($ltype) SWIG_MakeString ($input); } } %typemap(freearg) char * "if ($1 != NULL) { free ($1); }" /* Pointers, references, and arrays */ %typemap(in,closcode="(slot-ref $input 'swig-this)") SWIGTYPE *, SWIGTYPE [], SWIGTYPE & { $1 = ($1_ltype)SWIG_MustGetPtr($input, $descriptor, $argnum, $disown); } %typemap(in,closcode="(slot-ref $input 'swig-this)") SWIGTYPE *DISOWN { $1 = ($1_ltype)SWIG_MustGetPtr($input, $descriptor, $argnum, SWIG_POINTER_DISOWN); } /* Void pointer. Accepts any kind of pointer */ %typemap(in) void * { $1 = ($1_ltype)SWIG_MustGetPtr($input, NULL, $argnum, 0); } %typemap(varin,closcode="(slot-ref $input 'swig-this)") SWIGTYPE * { $1 = ($1_ltype)SWIG_MustGetPtr($input, $descriptor, 1, SWIG_POINTER_DISOWN); } %typemap(varin,closcode="(slot-ref $input 'swig-this)") SWIGTYPE & { $1 = *(($1_ltype)SWIG_MustGetPtr($input, $descriptor, 1, 0)); } %typemap(varin) SWIGTYPE [] { SWIG_Chicken_Barf(SWIG_BARF1_BAD_ARGUMENT_TYPE, "Type error"); } %typemap(varin) SWIGTYPE [ANY] { void *temp; int ii; $1_basetype *b = 0; temp = SWIG_MustGetPtr($input, $1_descriptor, 1, 0); b = ($1_basetype *) $1; for (ii = 0; ii < $1_size; ii++) b[ii] = *(($1_basetype *) temp + ii); } %typemap(varin) void * { $1 = SWIG_MustGetPtr($input, NULL, 1, 0); } %typemap(out) SWIGTYPE *, SWIGTYPE &, SWIGTYPE [] { C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); $result = SWIG_NewPointerObj($1, $descriptor, $owner); } %typemap(out) SWIGTYPE *DYNAMIC, SWIGTYPE &DYNAMIC { C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); swig_type_info *ty = SWIG_TypeDynamicCast($1_descriptor,(void **) &$1); $result = SWIG_NewPointerObj($1, ty, $owner); } %typemap(varout) SWIGTYPE *, SWIGTYPE [] { C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); $result = SWIG_NewPointerObj($varname, $descriptor, 0); } %typemap(varout) SWIGTYPE & { C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); $result = SWIG_NewPointerObj((void *) &$varname, $1_descriptor, 0); } /* special typemaps for class pointers */ %typemap(in) SWIGTYPE (CLASS::*) { char err_msg[256]; if (C_swig_is_pair($input)) { /* try and convert pointer object */ void *result; if (!SWIG_ConvertPtr(C_block_item($input,1), &result, $descriptor, 0)) { C_word ptr = C_block_item($input,0); if (C_swig_is_string(ptr)) { SWIG_UnpackData(C_c_string(ptr), (void *) &$1, sizeof($type)); } else { snprintf(err_msg, sizeof(err_msg), "Type error in argument #%i: expected %s", $argnum, ($descriptor->str ? $descriptor->str : $descriptor->name)); SWIG_Chicken_Barf(SWIG_BARF1_BAD_ARGUMENT_TYPE, err_msg); } } else { snprintf(err_msg, sizeof(err_msg), "Type error in argument #%i: expected %s", $argnum, ($descriptor->str ? $descriptor->str : $descriptor->name)); SWIG_Chicken_Barf(SWIG_BARF1_BAD_ARGUMENT_TYPE, err_msg); } } else { snprintf(err_msg, sizeof(err_msg), "Type error in argument #%i: expected %s", $argnum, ($descriptor->str ? $descriptor->str : $descriptor->name)); SWIG_Chicken_Barf(SWIG_BARF1_BAD_ARGUMENT_TYPE, err_msg); } } %typemap(out) SWIGTYPE (CLASS::*) { size_t ptr_size = sizeof($type); C_word *known_space = C_alloc(C_SIZEOF_PAIR + C_SIZEOF_STRING(2*ptr_size) + C_SIZEOF_SWIG_POINTER); char *temp = (char *)malloc(2*ptr_size); C_word ptr = SWIG_NewPointerObj((void *) known_space, $descriptor, 0); SWIG_PackData(temp, (void *) &$1, ptr_size); $result = C_pair(&known_space, C_string(&known_space, 2*ptr_size, temp), ptr); free(temp); } %typemap(varin) SWIGTYPE (CLASS::*) { char err_msg[256]; if (C_swig_is_pair($input)) { /* try and convert pointer object */ void *result; if (!SWIG_ConvertPtr(C_block_item($input,1), &result, $descriptor, 0)) { C_word ptr = C_block_item($input,0); if (C_swig_is_string(ptr)) { SWIG_UnpackData(C_c_string(ptr), (void *) &$1, sizeof($type)); } else { snprintf(err_msg, sizeof(err_msg), "Type error in argument #%i: expected %s", 1, ($descriptor->str ? $descriptor->str : $descriptor->name)); SWIG_Chicken_Barf(SWIG_BARF1_BAD_ARGUMENT_TYPE, err_msg); } } else { snprintf(err_msg, sizeof(err_msg), "Type error in argument #%i: expected %s", 1, ($descriptor->str ? $descriptor->str : $descriptor->name)); SWIG_Chicken_Barf(SWIG_BARF1_BAD_ARGUMENT_TYPE, err_msg); } } else { snprintf(err_msg, sizeof(err_msg), "Type error in argument #%i: expected %s", 1, ($descriptor->str ? $descriptor->str : $descriptor->name)); SWIG_Chicken_Barf(SWIG_BARF1_BAD_ARGUMENT_TYPE, err_msg); } } %typemap(varout) SWIGTYPE (CLASS::*) { size_t ptr_size = sizeof($type); C_word *known_space = C_alloc(C_SIZEOF_PAIR + C_SIZEOF_STRING(2*ptr_size) + C_SIZEOF_SWIG_POINTER); char *temp = (char *)malloc(2*ptr_size); C_word ptr = SWIG_NewPointerObj((void *) known_space, $descriptor, 0); SWIG_PackData(temp, (void *) &$varname, ptr_size); $result = C_pair(&known_space, C_string(&known_space, 2*ptr_size, temp), ptr); free(temp); } /* Pass-by-value */ %typemap(in,closcode="(slot-ref $input 'swig-this)") SWIGTYPE($&1_ltype argp) { argp = ($&1_ltype)SWIG_MustGetPtr($input, $&1_descriptor, $argnum, 0); $1 = *argp; } %typemap(varin,closcode="(slot-ref $input 'swig-this)") SWIGTYPE { $&1_ltype argp; argp = ($&1_ltype)SWIG_MustGetPtr($input, $&1_descriptor, 1, 0); $1 = *argp; } %typemap(out) SWIGTYPE #ifdef __cplusplus { $&1_ltype resultptr; C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); resultptr = new $1_ltype((const $1_ltype &) $1); $result = SWIG_NewPointerObj(resultptr, $&1_descriptor, 1); } #else { $&1_ltype resultptr; C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); resultptr = ($&1_ltype) malloc(sizeof($1_type)); memmove(resultptr, &$1, sizeof($1_type)); $result = SWIG_NewPointerObj(resultptr, $&1_descriptor, 1); } #endif %typemap(varout) SWIGTYPE #ifdef __cplusplus { $&1_ltype resultptr; C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); resultptr = new $1_ltype((const $1_ltype&) $1); $result = SWIG_NewPointerObj(resultptr, $&1_descriptor, 0); } #else { $&1_ltype resultptr; C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); resultptr = ($&1_ltype) malloc(sizeof($1_type)); memmove(resultptr, &$1, sizeof($1_type)); $result = SWIG_NewPointerObj(resultptr, $&1_descriptor, 0); } #endif /* --- Output values --- */ /* Strings */ %typemap(out) char * { char *s = (char*) $1; if ($1 == NULL) { $result = C_SCHEME_FALSE; } else { int string_len = strlen ((char *) ($1)); C_word *string_space = C_alloc (C_SIZEOF_STRING (string_len)); $result = C_string (&string_space, string_len, s); } } %typemap(varout) char * { char *s = (char*) $varname; if ($varname == NULL) { $result = C_SCHEME_FALSE; } else { int string_len = strlen ($varname); C_word *string_space = C_alloc (C_SIZEOF_STRING (string_len)); $result = C_string (&string_space, string_len, s); } } %typemap(throws) char * { if ($1 == NULL) { SWIG_Chicken_ThrowException(C_SCHEME_FALSE); } else { int string_len = strlen($1); C_word *string_space = C_alloc(C_SIZEOF_STRING(string_len)); SWIG_Chicken_ThrowException(C_string(&string_space, string_len, (char *) $1)); } } /* Void */ %typemap(out) void %{ $result = C_SCHEME_UNDEFINED; %} /* Special typemap for character array return values */ %typemap(out) char [ANY], const char [ANY] %{ if ($1 == NULL) { $result = C_SCHEME_FALSE; } else { const int string_len = strlen ($1); C_word *string_space = C_alloc (C_SIZEOF_STRING (string_len)); $result = C_string (&string_space, string_len, $1); } %} /* Primitive types--return by value */ /* --- Variable input --- */ /* A string */ #ifdef __cplusplus %typemap(varin) char * { if ($input == C_SCHEME_FALSE) { $1 = NULL; } else if (!C_swig_is_string ($input)) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "C variable '$name ($1_ltype)'"); } else { char *temp = C_c_string ($input); int len = C_header_size ($input); if ($1) delete [] $1; $1 = ($type) new char[len+1]; strncpy((char*)$1, temp, len); ((char*)$1) [len] = 0; } } %typemap(varin,warning="451:Setting const char * variable may leak memory") const char * { if ($input == C_SCHEME_FALSE) { $1 = NULL; } else if (!C_swig_is_string ($input)) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "C variable '$name ($1_ltype)'"); } else { char *temp = C_c_string ($input); int len = C_header_size ($input); $1 = ($type) new char[len+1]; strncpy((char*)$1,temp,len); ((char*)$1) [len] = 0; } } #else %typemap(varin) char * { if ($input == C_SCHEME_FALSE) { $1 = NULL; } else if (!C_swig_is_string ($input)) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "C variable '$name ($1_ltype)'"); } else { char *temp = C_c_string ($input); int len = C_header_size ($input); if ($1) free((char*) $1); $1 = ($type) malloc(len+1); strncpy((char*)$1,temp,len); ((char*)$1) [len] = 0; } } %typemap(varin,warning="451:Setting const char * variable may leak memory") const char * { if ($input == C_SCHEME_FALSE) { $1 = NULL; } else if (!C_swig_is_string ($input)) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "C variable '$name ($1_ltype)'"); } else { char *temp = C_c_string ($input); int len = C_header_size ($input); $1 = ($type) malloc(len+1); strncpy((char*)$1,temp,len); ((char*)$1) [len] = 0; } } #endif %typemap(varin) char [] { swig_barf(SWIG_BARF1_BAD_ARGUMENT_TYPE, "C/C++ variable '$name' is read-only"); } /* Special case for string array variables */ %typemap(varin) char [ANY] { if ($input == C_SCHEME_FALSE) { memset($1,0,$1_dim0*sizeof(char)); } else if (!C_swig_is_string ($input)) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "C variable '$name ($1_ltype)'"); } else { char *temp = C_c_string ($input); strncpy($1,temp,$1_dim0*sizeof(char)); } } /* --- Variable output --- */ /* Void */ %typemap(varout) void "$result = C_SCHEME_UNDEFINED;"; /* Special typemap for character array return values */ %typemap(varout) char [ANY], const char [ANY] %{ if ($varname == NULL) { $result = C_SCHEME_FALSE; } else { const int string_len = strlen ($varname); C_word *string_space = C_alloc (C_SIZEOF_STRING (string_len)); $result = C_string (&string_space, string_len, (char *) $varname); } %} /* --- Constants --- */ %typemap(constcode) char * "static const char *$result = $value;" %typemap(constcode) SWIGTYPE *, SWIGTYPE &, SWIGTYPE [] "static const void *$result = (void*) $value;" /* ------------------------------------------------------------ * String & length * ------------------------------------------------------------ */ %typemap(in) (char *STRING, int LENGTH), (char *STRING, size_t LENGTH) { if ($input == C_SCHEME_FALSE) { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "Cannot use a null/#f string for a char*, int arguments"); } else if (C_swig_is_string ($input)) { $1 = ($1_ltype) C_c_string ($input); $2 = ($2_ltype) C_header_size ($input); } else { swig_barf (SWIG_BARF1_BAD_ARGUMENT_TYPE, "Argument #$argnum is not of type 'string'"); } } /* ------------------------------------------------------------ * CHICKEN types * ------------------------------------------------------------ */ %typemap(in) C_word "$1 = $input;"; %typemap(out) C_word "$result = $1;"; /* ------------------------------------------------------------ * Typechecking rules * ------------------------------------------------------------ */ %typecheck(SWIG_TYPECHECK_INTEGER) bool, const bool & { $1 = C_swig_is_bool ($input); } %typecheck(SWIG_TYPECHECK_INTEGER) int, short, unsigned int, unsigned short, signed char, unsigned char, const int &, const short &, const unsigned int &, const unsigned short &, enum SWIGTYPE { $1 = C_swig_is_fixnum ($input); } %typecheck(SWIG_TYPECHECK_INTEGER) long, unsigned long, long long, unsigned long long, const long &, const unsigned long &, const long long &, const unsigned long long & { $1 = (C_swig_is_bool ($input) || C_swig_is_fixnum ($input) || C_swig_is_flonum ($input)) ? 1 : 0; } %typecheck(SWIG_TYPECHECK_DOUBLE) float, double, const float &, const double & { $1 = C_swig_is_flonum ($input); } %typecheck(SWIG_TYPECHECK_CHAR) char { $1 = C_swig_is_string ($input); } %typecheck(SWIG_TYPECHECK_STRING) char * { $1 = C_swig_is_string ($input); } %typecheck(SWIG_TYPECHECK_POINTER) SWIGTYPE *, SWIGTYPE &, SWIGTYPE [] { void *ptr; $1 = !SWIG_ConvertPtr($input, &ptr, $1_descriptor, 0); } %typecheck(SWIG_TYPECHECK_VOIDPTR) void * { void *ptr; $1 = !SWIG_ConvertPtr($input, &ptr, 0, 0); } %typecheck(SWIG_TYPECHECK_POINTER) SWIGTYPE & { void *ptr = 0; if (SWIG_ConvertPtr($input, &ptr, $descriptor, 0)) { /* error */ $1 = 0; } else { $1 = (ptr != 0); } } %typecheck(SWIG_TYPECHECK_POINTER) SWIGTYPE { void *ptr = 0; if (SWIG_ConvertPtr($input, &ptr, $&descriptor, 0)) { /* error */ $1 = 0; } else { $1 = (ptr != 0); } } /* ------------------------------------------------------------ * Exception handling * ------------------------------------------------------------ */ /* ------------------------------------------------------------ * --- Exception handling --- * ------------------------------------------------------------ */ %typemap(throws) SWIGTYPE { $<ype temp = new $ltype($1); C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); C_word ptr = SWIG_NewPointerObj(temp, $&descriptor,1); SWIG_Chicken_ThrowException(ptr); } %typemap(throws) SWIGTYPE * { C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); C_word ptr = SWIG_NewPointerObj((void *) $1, $descriptor, 0); SWIG_Chicken_ThrowException(ptr); } %typemap(throws) SWIGTYPE [ANY] { C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); C_word ptr = SWIG_NewPointerObj((void *) $1, $descriptor, 0); SWIG_Chicken_ThrowException(ptr); } %typemap(throws) SWIGTYPE & { C_word *known_space = C_alloc(C_SIZEOF_SWIG_POINTER); C_word ptr = SWIG_NewPointerObj((void *)&($1),$descriptor,0); SWIG_Chicken_ThrowException(ptr); } /* ------------------------------------------------------------ * ANSI C typemaps * ------------------------------------------------------------ */ %apply unsigned long { size_t }; /* ------------------------------------------------------------ * Various * ------------------------------------------------------------ */ /* Array reference typemaps */ %apply SWIGTYPE & { SWIGTYPE ((&)[ANY]) } /* const pointers */ %apply SWIGTYPE * { SWIGTYPE *const } /* ------------------------------------------------------------ * Overloaded operator support * ------------------------------------------------------------ */ #ifdef __cplusplus %rename(__add__) *::operator+; %rename(__pos__) *::operator+(); %rename(__pos__) *::operator+() const; %rename(__sub__) *::operator-; %rename(__neg__) *::operator-(); %rename(__neg__) *::operator-() const; %rename(__mul__) *::operator*; %rename(__div__) *::operator/; %rename(__mod__) *::operator%; %rename(__lshift__) *::operator<<; %rename(__rshift__) *::operator>>; %rename(__and__) *::operator&; %rename(__or__) *::operator|; %rename(__xor__) *::operator^; %rename(__invert__) *::operator~; %rename(__iadd__) *::operator+=; %rename(__isub__) *::operator-=; %rename(__imul__) *::operator*=; %rename(__idiv__) *::operator/=; %rename(__imod__) *::operator%=; %rename(__ilshift__) *::operator<<=; %rename(__irshift__) *::operator>>=; %rename(__iand__) *::operator&=; %rename(__ior__) *::operator|=; %rename(__ixor__) *::operator^=; %rename(__lt__) *::operator<; %rename(__le__) *::operator<=; %rename(__gt__) *::operator>; %rename(__ge__) *::operator>=; %rename(__eq__) *::operator==; %rename(__ne__) *::operator!=; /* Special cases */ %rename(__call__) *::operator(); #endif /* Warnings for certain CHICKEN keywords */ %include /* TinyCLOS <--> Low-level CHICKEN */ %typemap("clos_in") SIMPLE_CLOS_OBJECT * "(slot-ref $input (quote this))" %typemap("clos_out") SIMPLE_CLOS_OBJECT * "(make $class (quote this) $1)" %insert(header) %{ #ifdef __cplusplus extern "C" { #endif /* Chicken initialization function */ SWIGEXPORT void SWIG_init(C_word, C_word, C_word) C_noret; #ifdef __cplusplus } #endif %} %insert(closprefix) "swigclosprefix.scm" %insert(init) "swiginit.swg" %insert(init) %{ /* CHICKEN initialization function */ #ifdef __cplusplus extern "C" { #endif SWIGEXPORT void SWIG_init(C_word argc, C_word closure, C_word continuation) { int i; C_word sym; C_word tmp; C_word *a; C_word ret; C_word *return_vec; SWIG_InitializeModule(0); SWIG_PropagateClientData(); ret = C_SCHEME_TRUE; #if $veclength return_vec = C_alloc(C_SIZEOF_VECTOR($veclength)); ret = (C_word) return_vec; *(return_vec++) = C_VECTOR_TYPE | $veclength; #endif a = C_alloc(2*$nummethods$symsize); %}