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

 /* -*-c-*- */

 /* SWIG pointer structure */

 #include <string.h>
 #include <assert.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 #define C_bool 0
 #define C_char 1
 #define C_uchar 2
 #define C_short 3
 #define C_ushort 4
 #define C_int 5
 #define C_uint 6
 #define C_int32 7
 #define C_int64 8
 #define C_float 9
 #define C_double 10
 #define C_ptr 11
 #define C_array 12
 #define C_list 13
 #define C_obj 14
 #define C_string 15
 #define C_enum 16
 #define C_director_core 17


 /* Cast a pointer if possible; returns 1 if successful */

     SWIGSTATIC int
     SWIG_Cast (void *source, swig_type_info *source_type,
 	       void **ptr, swig_type_info *dest_type)
     {
 	if( !source ) { // Special case for NULL.  This is a popular question
 	    // for other modules on the list, so I want an easy way out...
 	    *ptr = 0;
 	    return 0;
 	}

 #ifdef TYPE_CAST_VERBOSE
 	fprintf( stderr, "Trying to cast %s to %s\n",
 		 source_type ? source_type->str : "<none>",
 		 dest_type ? dest_type->str : "<none>" );
 #endif
 	if (dest_type != source_type) {
 	    /* We have a type mismatch.  Will have to look through our type
 	       mapping table to figure out whether or not we can accept this
 	       datatype.
 	       --
 	       Ignore typechecks for void *.  Allow any conversion. */
 	    if( !dest_type || !source_type ||
 		!strcmp(dest_type->name,"_p_void") ||
 		!strcmp(source_type->name,"_p_void") ) {
 		*ptr = source;
 		return 0;
 	    } else {
 		swig_cast_info *tc =
 		    SWIG_TypeCheckStruct(source_type, dest_type );
 #ifdef TYPE_CAST_VERBOSE
 		fprintf( stderr, "Typecheck -> %s\n",
 			 tc ? tc->str : "<none>" );
 #endif
 		if( tc ) {
 		    int newmemory = 0;
 		    *ptr = SWIG_TypeCast(tc, source, &newmemory);
 		    assert(!newmemory); /* newmemory handling not yet implemented */
 		    return 0;
 		} else
 		    return -1;
 	    }
 	} else {
 	    *ptr = source;
 	    return 0;
 	}
     }

 /* Return 0 if successful. */
     SWIGSTATIC int
     SWIG_GetPtr(void *inptr, void **outptr,
 		swig_type_info *intype, swig_type_info *outtype) {
 	if (intype) {
 	    return SWIG_Cast(inptr, intype,
 			     outptr, outtype) == -1;
 	} else {
 	    *outptr = inptr;
 	    return 0;
 	}
     }

     SWIGSTATIC void caml_print_list( CAML_VALUE v );

     SWIGSTATIC void caml_print_val( CAML_VALUE v ) {
 	switch( SWIG_Tag_val(v) ) {
 	case C_bool:
 	    if( Bool_val(SWIG_Field(v,0)) ) fprintf( stderr, "true " );
 	    else fprintf( stderr, "false " );
 	    break;
 	case C_char:
 	case C_uchar:
 	    fprintf( stderr, "'%c' (\\%03d) ",
 		     (Int_val(SWIG_Field(v,0)) >= ' ' &&
 		      Int_val(SWIG_Field(v,0)) < 127) ? Int_val(SWIG_Field(v,0)) : '.',
 		     Int_val(SWIG_Field(v,0)) );
 	    break;
 	case C_short:
 	case C_ushort:
 	case C_int:
 	    fprintf( stderr, "%d ", (int)caml_long_val(v) );
 	    break;

 	case C_uint:
 	case C_int32:
 	    fprintf( stderr, "%ud ", (unsigned int)caml_long_val(v) );
 	    break;
 	case C_int64:
 	    fprintf( stderr, "%ld ", caml_long_val(v) );
 	    break;
 	case C_float:
 	case C_double:
 	    fprintf( stderr, "%f ", caml_double_val(v) );
 	    break;

 	case C_ptr:
 	{
 	    void *vout = 0;
 	    swig_type_info *ty = (swig_type_info *)(long)SWIG_Int64_val(SWIG_Field(v,1));
 	    caml_ptr_val_internal(v,&vout,0);
 	    fprintf( stderr, "PTR(%p,%s) ",
 		     vout,
 		     ty ? ty->name : "(null)" );
 	}
 	break;
 	case C_array:
 	{
 	    unsigned int i;
 	    for( i = 0; i < Wosize_val( SWIG_Field(v,0) ); i++ )
 		caml_print_val( SWIG_Field(SWIG_Field(v,0),i) );
 	}
 	break;
 	case C_list:
 	    caml_print_list( SWIG_Field(v,0) );
 	    break;
 	case C_obj:
 	    fprintf( stderr, "OBJ(%p) ", (void *)SWIG_Field(v,0) );
 	    break;
 	case C_string:
 	{
 	    void *cout;
 	    caml_ptr_val_internal(v,&cout,0);
 	    fprintf( stderr, "'%s' ", (char *)cout );
 	}
 	break;
 	}
     }

     SWIGSTATIC void caml_print_list( CAML_VALUE v ) {
 	CAMLparam1(v);
 	while( v && Is_block(v) ) {
 	    fprintf( stderr, "[ " );
 	    caml_print_val( SWIG_Field(v,0) );
 	    fprintf( stderr, "]\n" );
 	    v = SWIG_Field(v,1);
 	}
 	CAMLreturn0;
     }

     SWIGSTATIC CAML_VALUE caml_list_nth( CAML_VALUE lst, int n ) {
 	CAMLparam1(lst);
 	int i = 0;
 	while( i < n && lst && Is_block(lst) ) {
 	    i++; lst = SWIG_Field(lst,1);
 	}
 	if( lst == Val_unit ) CAMLreturn(Val_unit);
 	else CAMLreturn(SWIG_Field(lst,0));
     }

     SWIGSTATIC CAML_VALUE caml_list_append( CAML_VALUE lst, CAML_VALUE elt ) {
 	CAMLparam2(lst,elt);
 	SWIG_CAMLlocal3(v,vt,lh);
 	lh = Val_unit;
 	v = Val_unit;

 	/* Appending C_void should have no effect */
 	if( !Is_block(elt) ) return lst;

 	while( lst && Is_block(lst) ) {
 	    if( v && v != Val_unit ) {
 		vt = alloc_tuple(2);
 		SWIG_Store_field(v,1,vt);
 		v = vt;
 	    } else {
 		v = lh = alloc_tuple(2);
 	    }
 	    SWIG_Store_field(v,0,SWIG_Field(lst,0));
 	    lst = SWIG_Field(lst,1);
 	}

 	if( v && Is_block(v) ) {
 	    vt = alloc_tuple(2);
 	    SWIG_Store_field(v,1,vt);
 	    v = vt;
 	} else {
 	    v = lh = alloc_tuple(2);
 	}
 	SWIG_Store_field(v,0,elt);
 	SWIG_Store_field(v,1,Val_unit);

 	CAMLreturn(lh);
     }

     SWIGSTATIC int caml_list_length( CAML_VALUE lst ) {
 	CAMLparam1(lst);
 	int i = 0;
 	while( lst && Is_block(lst) ) { i++; lst = SWIG_Field(lst,1); }
 	CAMLreturn(i);
     }

     SWIGSTATIC void caml_array_set( CAML_VALUE arr, int n, CAML_VALUE item ) {
 	CAMLparam2(arr,item);
 	SWIG_Store_field(SWIG_Field(arr,0),n,item);
 	CAMLreturn0;
     }

     SWIGSTATIC value caml_array_nth( CAML_VALUE arr, int n ) {
 	CAMLparam1(arr);
 	if( SWIG_Tag_val(arr) == C_array )
 	    CAMLreturn(SWIG_Field(SWIG_Field(arr,0),n));
 	else if( SWIG_Tag_val(arr) == C_list )
 	    CAMLreturn(caml_list_nth(arr,0));
 	else
 	    failwith("Need array or list");
     }

     SWIGSTATIC int caml_array_len( CAML_VALUE arr ) {
 	CAMLparam1(arr);
 	if( SWIG_Tag_val(arr) == C_array )
 	    CAMLreturn(Wosize_val(SWIG_Field(arr,0)));
 	else if( SWIG_Tag_val(arr) == C_list )
 	    CAMLreturn(caml_list_length(arr));
 	else
 	    failwith("Need array or list");
     }

     SWIGSTATIC CAML_VALUE caml_swig_alloc(int x,int y) {
 	return caml_alloc(x,y);
     }

     SWIGSTATIC value caml_array_new( int n ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(vv);
 	vv = caml_swig_alloc(1,C_array);
 	SWIG_Store_field(vv,0,alloc_tuple(n));
 	CAMLreturn(vv);
     }

     SWIGSTATIC CAML_VALUE caml_val_bool( int b ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(bv);
 	bv = caml_swig_alloc(1,C_bool);
 	SWIG_Store_field(bv,0,Val_bool(b));
 	CAMLreturn(bv);
     }

     SWIGSTATIC CAML_VALUE caml_val_char( char c ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(cv);
 	cv = caml_swig_alloc(1,C_char);
 	SWIG_Store_field(cv,0,Val_int(c));
 	CAMLreturn(cv);
     }

     SWIGSTATIC CAML_VALUE caml_val_uchar( unsigned char uc ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(ucv);
 	ucv = caml_swig_alloc(1,C_uchar);
 	SWIG_Store_field(ucv,0,Val_int(uc));
 	CAMLreturn(ucv);
     }

     SWIGSTATIC CAML_VALUE caml_val_short( short s ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(sv);
 	sv = caml_swig_alloc(1,C_short);
 	SWIG_Store_field(sv,0,Val_int(s));
 	CAMLreturn(sv);
     }

     SWIGSTATIC CAML_VALUE caml_val_ushort( unsigned short us ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(usv);
 	usv = caml_swig_alloc(1,C_ushort);
 	SWIG_Store_field(usv,0,Val_int(us));
 	CAMLreturn(usv);
     }

     SWIGSTATIC CAML_VALUE caml_val_int( int i ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(iv);
 	iv = caml_swig_alloc(1,C_int);
 	SWIG_Store_field(iv,0,Val_int(i));
 	CAMLreturn(iv);
     }

     SWIGSTATIC CAML_VALUE caml_val_uint( unsigned int ui ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(uiv);
 	uiv = caml_swig_alloc(1,C_int);
 	SWIG_Store_field(uiv,0,Val_int(ui));
 	CAMLreturn(uiv);
     }

     SWIGSTATIC CAML_VALUE caml_val_long( long l ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(lv);
 	lv = caml_swig_alloc(1,C_int64);
 	SWIG_Store_field(lv,0,copy_int64(l));
 	CAMLreturn(lv);
     }

     SWIGSTATIC CAML_VALUE caml_val_ulong( unsigned long ul ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(ulv);
 	ulv = caml_swig_alloc(1,C_int64);
 	SWIG_Store_field(ulv,0,copy_int64(ul));
 	CAMLreturn(ulv);
     }

     SWIGSTATIC CAML_VALUE caml_val_float( float f ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(fv);
 	fv = caml_swig_alloc(1,C_float);
 	SWIG_Store_field(fv,0,copy_double((double)f));
 	CAMLreturn(fv);
     }

     SWIGSTATIC CAML_VALUE caml_val_double( double d ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(fv);
 	fv = caml_swig_alloc(1,C_double);
 	SWIG_Store_field(fv,0,copy_double(d));
 	CAMLreturn(fv);
     }

     SWIGSTATIC CAML_VALUE caml_val_ptr( void *p, swig_type_info *info ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(vv);
 	vv = caml_swig_alloc(2,C_ptr);
 	SWIG_Store_field(vv,0,copy_int64((long)p));
 	SWIG_Store_field(vv,1,copy_int64((long)info));
 	CAMLreturn(vv);
     }

     SWIGSTATIC CAML_VALUE caml_val_string( const char *p ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(vv);
 	if( !p ) CAMLreturn(caml_val_ptr( (void *)p, 0 ));
 	vv = caml_swig_alloc(1,C_string);
 	SWIG_Store_field(vv,0,copy_string(p));
 	CAMLreturn(vv);
     }

     SWIGSTATIC CAML_VALUE caml_val_string_len( const char *p, int len ) {
 	CAMLparam0();
 	SWIG_CAMLlocal1(vv);
 	if( !p || len < 0 ) CAMLreturn(caml_val_ptr( (void *)p, 0 ));
 	vv = caml_swig_alloc(1,C_string);
 	SWIG_Store_field(vv,0,alloc_string(len));
 	memcpy(String_val(SWIG_Field(vv,0)),p,len);
 	CAMLreturn(vv);
     }

     #define caml_val_obj(v, name) caml_val_obj_helper(v, SWIG_TypeQuery((name)), name)
     SWIGSTATIC CAML_VALUE caml_val_obj_helper( void *v, swig_type_info *type, char *name) {
 	CAMLparam0();
 	CAMLreturn(callback2(*caml_named_value("caml_create_object_fn"),
 			     caml_val_ptr(v,type),
 			     copy_string(name)));
     }

     SWIGSTATIC long caml_long_val_full( CAML_VALUE v, char *name ) {
 	CAMLparam1(v);
 	if( !Is_block(v) ) return 0;

 	switch( SWIG_Tag_val(v) ) {
 	case C_bool:
 	case C_char:
 	case C_uchar:
 	case C_short:
 	case C_ushort:
 	case C_int:
 	    CAMLreturn(Int_val(SWIG_Field(v,0)));
 	case C_uint:
 	case C_int32:
 	    CAMLreturn(Int32_val(SWIG_Field(v,0)));
 	case C_int64:
 	    CAMLreturn((long)SWIG_Int64_val(SWIG_Field(v,0)));
 	case C_float:
 	case C_double:
 	    CAMLreturn((long)Double_val(SWIG_Field(v,0)));
 	case C_string:
 	    CAMLreturn((long)String_val(SWIG_Field(v,0)));
 	case C_ptr:
 	    CAMLreturn((long)SWIG_Int64_val(SWIG_Field(SWIG_Field(v,0),0)));
 	case C_enum: {
 	    SWIG_CAMLlocal1(ret);
 	    CAML_VALUE *enum_to_int = caml_named_value(SWIG_MODULE "_enum_to_int");
 	    if( !name ) failwith( "Not an enum conversion" );
 	    ret = callback2(*enum_to_int,*caml_named_value(name),v);
 	    CAMLreturn(caml_long_val(ret));
 	}
 	default:
 	    failwith("No conversion to int");
 	}
     }

     SWIGSTATIC long caml_long_val( CAML_VALUE v ) {
 	return caml_long_val_full(v,0);
     }

     SWIGSTATIC double caml_double_val( CAML_VALUE v ) {
 	CAMLparam1(v);
 	if( !Is_block(v) ) return 0.0;
 	switch( SWIG_Tag_val(v) ) {
 	case C_bool:
 	case C_char:
 	case C_uchar:
 	case C_short:
 	case C_ushort:
 	case C_int:
 	    CAMLreturn_type(Int_val(SWIG_Field(v,0)));
 	case C_uint:
 	case C_int32:
 	    CAMLreturn_type(Int32_val(SWIG_Field(v,0)));
 	case C_int64:
 	    CAMLreturn_type(SWIG_Int64_val(SWIG_Field(v,0)));
 	case C_float:
 	case C_double:
 	    CAMLreturn_type(Double_val(SWIG_Field(v,0)));
 	default:
 	    fprintf( stderr, "Unknown block tag %d\n", SWIG_Tag_val(v) );
 	    failwith("No conversion to double");
 	}
     }

     SWIGSTATIC int caml_ptr_val_internal( CAML_VALUE v, void **out,
 					  swig_type_info *descriptor ) {
 	CAMLparam1(v);
 	void *outptr = NULL;
         swig_type_info *outdescr = NULL;

 	if( v == Val_unit ) {
 	    *out = 0;
 	    CAMLreturn(0);
 	}
 	if( !Is_block(v) ) return -1;
 	switch( SWIG_Tag_val(v) ) {
 	case C_int:
 	    if( !caml_long_val( v ) ) {
 		*out = 0;
 		CAMLreturn(0);
 	    } else {
 		*out = 0;
 		CAMLreturn(1);
 	    }
 	    break;
 	case C_obj:
 	    CAMLreturn
 		(caml_ptr_val_internal
 		 (callback(*caml_named_value("caml_obj_ptr"),v),
 		  out,descriptor));
 	case C_string:
 	    outptr = (void *)String_val(SWIG_Field(v,0));
 	    break;
 	case C_ptr:
 	    outptr = (void *)(long)SWIG_Int64_val(SWIG_Field(v,0));
             outdescr = (swig_type_info *)(long)SWIG_Int64_val(SWIG_Field(v,1));
 	    break;
 	default:
 	    *out = 0;
 	    CAMLreturn(1);
 	    break;
 	}

 	CAMLreturn(SWIG_GetPtr(outptr,out,outdescr,descriptor));
     }

     SWIGSTATIC void *caml_ptr_val( CAML_VALUE v, swig_type_info *descriptor ) {
         CAMLparam0();
 #ifdef TYPE_CAST_VERBOSE
 	caml_print_val( v );
 #endif
 	void *out = NULL;
 	if( !caml_ptr_val_internal( v, &out, descriptor ) )
 	    CAMLreturn_type(out);
 	else
 	    failwith( "No appropriate conversion found." );
     }

     SWIGSTATIC char *caml_string_val( CAML_VALUE v ) {
 	return (char *)caml_ptr_val( v, 0 );
     }

     SWIGSTATIC int caml_string_len( CAML_VALUE v ) {
 	switch( SWIG_Tag_val(v) ) {
 	case C_string:
 	    return string_length(SWIG_Field(v,0));
 	default:
 	    return strlen((char *)caml_ptr_val(v,0));
 	}
     }

     SWIGSTATIC int caml_bool_check( CAML_VALUE v ) {
 	CAMLparam1(v);

 	if( !Is_block(v) ) return 0;

 	switch( SWIG_Tag_val(v) ) {
 	case C_bool:
 	case C_ptr:
 	case C_string:
 	    CAMLreturn(1);
 	default:
 	    CAMLreturn(0);
 	}
     }

     SWIGSTATIC int caml_int_check( CAML_VALUE v ) {
 	CAMLparam1(v);

 	if( !Is_block(v) ) return 0;

 	switch( SWIG_Tag_val(v) ) {
 	case C_char:
 	case C_uchar:
 	case C_short:
 	case C_ushort:
 	case C_int:
 	case C_uint:
 	case C_int32:
 	case C_int64:
 	    CAMLreturn(1);

 	default:
 	    CAMLreturn(0);
 	}
     }

     SWIGSTATIC int caml_float_check( CAML_VALUE v ) {
 	CAMLparam1(v);
 	if( !Is_block(v) ) return 0;

 	switch( SWIG_Tag_val(v) ) {
 	case C_float:
 	case C_double:
 	    CAMLreturn(1);

 	default:
 	    CAMLreturn(0);
 	}
     }

     SWIGSTATIC int caml_ptr_check( CAML_VALUE v ) {
 	CAMLparam1(v);
 	if( !Is_block(v) ) return 0;

 	switch( SWIG_Tag_val(v) ) {
 	case C_string:
 	case C_ptr:
 	case C_int64:
 	    CAMLreturn(1);

 	default:
 	    CAMLreturn(0);
 	}
     }

     static swig_module_info *SWIG_Ocaml_GetModule(void *SWIGUNUSEDPARM(clientdata)) {
       CAML_VALUE pointer;

       pointer = callback(*caml_named_value("swig_find_type_info"), caml_val_int(0));
       if (Is_block(pointer) && SWIG_Tag_val(pointer) == C_ptr) {
         return (swig_module_info *)(void *)(long)SWIG_Int64_val(SWIG_Field(pointer,0));
       }
       return 0;
     }

     static void SWIG_Ocaml_SetModule(swig_module_info *pointer) {
       CAML_VALUE mod_pointer;

       mod_pointer = caml_val_ptr(pointer, NULL);
       callback(*caml_named_value("swig_set_type_info"), mod_pointer);
     }

 #ifdef __cplusplus
 }
 #endif
 #undef value
	/* --c-- */

	/* SWIG pointer structure */

	#include <string.h>
	#include <assert.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	#define C_bool 0
	#define C_char 1
	#define C_uchar 2
	#define C_short 3
	#define C_ushort 4
	#define C_int 5
	#define C_uint 6
	#define C_int32 7
	#define C_int64 8
	#define C_float 9
	#define C_double 10
	#define C_ptr 11
	#define C_array 12
	#define C_list 13
	#define C_obj 14
	#define C_string 15
	#define C_enum 16
	#define C_director_core 17


	/* Cast a pointer if possible; returns 1 if successful */

	SWIGSTATIC int
	SWIG_Cast (void source, swig_type_info source_type,
	void *ptr, swig_type_info dest_type)
	{
	if( !source ) { // Special case for NULL. This is a popular question
	// for other modules on the list, so I want an easy way out...
	*ptr = 0;
	return 0;
	}

	#ifdef TYPE_CAST_VERBOSE
	fprintf( stderr, "Trying to cast %s to %s\n",
	source_type ? source_type->str : "<none>",
	dest_type ? dest_type->str : "<none>" );
	#endif
	if (dest_type != source_type) {
	/* We have a type mismatch. Will have to look through our type
	mapping table to figure out whether or not we can accept this
	datatype.
	--
	Ignore typechecks for void . Allow any conversion. /
	if( !dest_type \|\| !source_type \|\|
	!strcmp(dest_type->name,"_p_void") \|\|
	!strcmp(source_type->name,"_p_void") ) {
	*ptr = source;
	return 0;
	} else {
	swig_cast_info *tc =
	SWIG_TypeCheckStruct(source_type, dest_type );
	#ifdef TYPE_CAST_VERBOSE
	fprintf( stderr, "Typecheck -> %s\n",
	tc ? tc->str : "<none>" );
	#endif
	if( tc ) {
	int newmemory = 0;
	*ptr = SWIG_TypeCast(tc, source, &newmemory);
	assert(!newmemory); /* newmemory handling not yet implemented */
	return 0;
	} else
	return -1;
	}
	} else {
	*ptr = source;
	return 0;
	}
	}

	/* Return 0 if successful. */
	SWIGSTATIC int
	SWIG_GetPtr(void inptr, void *outptr,
	swig_type_info intype, swig_type_info outtype) {
	if (intype) {
	return SWIG_Cast(inptr, intype,
	outptr, outtype) == -1;
	} else {
	*outptr = inptr;
	return 0;
	}
	}

	SWIGSTATIC void caml_print_list( CAML_VALUE v );

	SWIGSTATIC void caml_print_val( CAML_VALUE v ) {
	switch( SWIG_Tag_val(v) ) {
	case C_bool:
	if( Bool_val(SWIG_Field(v,0)) ) fprintf( stderr, "true " );
	else fprintf( stderr, "false " );
	break;
	case C_char:
	case C_uchar:
	fprintf( stderr, "'%c' (\\%03d) ",
	(Int_val(SWIG_Field(v,0)) >= ' ' &&
	Int_val(SWIG_Field(v,0)) < 127) ? Int_val(SWIG_Field(v,0)) : '.',
	Int_val(SWIG_Field(v,0)) );
	break;
	case C_short:
	case C_ushort:
	case C_int:
	fprintf( stderr, "%d ", (int)caml_long_val(v) );
	break;

	case C_uint:
	case C_int32:
	fprintf( stderr, "%ud ", (unsigned int)caml_long_val(v) );
	break;
	case C_int64:
	fprintf( stderr, "%ld ", caml_long_val(v) );
	break;
	case C_float:
	case C_double:
	fprintf( stderr, "%f ", caml_double_val(v) );
	break;

	case C_ptr:
	{
	void *vout = 0;
	swig_type_info ty = (swig_type_info )(long)SWIG_Int64_val(SWIG_Field(v,1));
	caml_ptr_val_internal(v,&vout,0);
	fprintf( stderr, "PTR(%p,%s) ",
	vout,
	ty ? ty->name : "(null)" );
	}
	break;
	case C_array:
	{
	unsigned int i;
	for( i = 0; i < Wosize_val( SWIG_Field(v,0) ); i++ )
	caml_print_val( SWIG_Field(SWIG_Field(v,0),i) );
	}
	break;
	case C_list:
	caml_print_list( SWIG_Field(v,0) );
	break;
	case C_obj:
	fprintf( stderr, "OBJ(%p) ", (void *)SWIG_Field(v,0) );
	break;
	case C_string:
	{
	void *cout;
	caml_ptr_val_internal(v,&cout,0);
	fprintf( stderr, "'%s' ", (char *)cout );
	}
	break;
	}
	}

	SWIGSTATIC void caml_print_list( CAML_VALUE v ) {
	CAMLparam1(v);
	while( v && Is_block(v) ) {
	fprintf( stderr, "[ " );
	caml_print_val( SWIG_Field(v,0) );
	fprintf( stderr, "]\n" );
	v = SWIG_Field(v,1);
	}
	CAMLreturn0;
	}

	SWIGSTATIC CAML_VALUE caml_list_nth( CAML_VALUE lst, int n ) {
	CAMLparam1(lst);
	int i = 0;
	while( i < n && lst && Is_block(lst) ) {
	i++; lst = SWIG_Field(lst,1);
	}
	if( lst == Val_unit ) CAMLreturn(Val_unit);
	else CAMLreturn(SWIG_Field(lst,0));
	}

	SWIGSTATIC CAML_VALUE caml_list_append( CAML_VALUE lst, CAML_VALUE elt ) {
	CAMLparam2(lst,elt);
	SWIG_CAMLlocal3(v,vt,lh);
	lh = Val_unit;
	v = Val_unit;

	/* Appending C_void should have no effect */
	if( !Is_block(elt) ) return lst;

	while( lst && Is_block(lst) ) {
	if( v && v != Val_unit ) {
	vt = alloc_tuple(2);
	SWIG_Store_field(v,1,vt);
	v = vt;
	} else {
	v = lh = alloc_tuple(2);
	}
	SWIG_Store_field(v,0,SWIG_Field(lst,0));
	lst = SWIG_Field(lst,1);
	}

	if( v && Is_block(v) ) {
	vt = alloc_tuple(2);
	SWIG_Store_field(v,1,vt);
	v = vt;
	} else {
	v = lh = alloc_tuple(2);
	}
	SWIG_Store_field(v,0,elt);
	SWIG_Store_field(v,1,Val_unit);

	CAMLreturn(lh);
	}

	SWIGSTATIC int caml_list_length( CAML_VALUE lst ) {
	CAMLparam1(lst);
	int i = 0;
	while( lst && Is_block(lst) ) { i++; lst = SWIG_Field(lst,1); }
	CAMLreturn(i);
	}

	SWIGSTATIC void caml_array_set( CAML_VALUE arr, int n, CAML_VALUE item ) {
	CAMLparam2(arr,item);
	SWIG_Store_field(SWIG_Field(arr,0),n,item);
	CAMLreturn0;
	}

	SWIGSTATIC value caml_array_nth( CAML_VALUE arr, int n ) {
	CAMLparam1(arr);
	if( SWIG_Tag_val(arr) == C_array )
	CAMLreturn(SWIG_Field(SWIG_Field(arr,0),n));
	else if( SWIG_Tag_val(arr) == C_list )
	CAMLreturn(caml_list_nth(arr,0));
	else
	failwith("Need array or list");
	}

	SWIGSTATIC int caml_array_len( CAML_VALUE arr ) {
	CAMLparam1(arr);
	if( SWIG_Tag_val(arr) == C_array )
	CAMLreturn(Wosize_val(SWIG_Field(arr,0)));
	else if( SWIG_Tag_val(arr) == C_list )
	CAMLreturn(caml_list_length(arr));
	else
	failwith("Need array or list");
	}

	SWIGSTATIC CAML_VALUE caml_swig_alloc(int x,int y) {
	return caml_alloc(x,y);
	}

	SWIGSTATIC value caml_array_new( int n ) {
	CAMLparam0();
	SWIG_CAMLlocal1(vv);
	vv = caml_swig_alloc(1,C_array);
	SWIG_Store_field(vv,0,alloc_tuple(n));
	CAMLreturn(vv);
	}

	SWIGSTATIC CAML_VALUE caml_val_bool( int b ) {
	CAMLparam0();
	SWIG_CAMLlocal1(bv);
	bv = caml_swig_alloc(1,C_bool);
	SWIG_Store_field(bv,0,Val_bool(b));
	CAMLreturn(bv);
	}

	SWIGSTATIC CAML_VALUE caml_val_char( char c ) {
	CAMLparam0();
	SWIG_CAMLlocal1(cv);
	cv = caml_swig_alloc(1,C_char);
	SWIG_Store_field(cv,0,Val_int(c));
	CAMLreturn(cv);
	}

	SWIGSTATIC CAML_VALUE caml_val_uchar( unsigned char uc ) {
	CAMLparam0();
	SWIG_CAMLlocal1(ucv);
	ucv = caml_swig_alloc(1,C_uchar);
	SWIG_Store_field(ucv,0,Val_int(uc));
	CAMLreturn(ucv);
	}

	SWIGSTATIC CAML_VALUE caml_val_short( short s ) {
	CAMLparam0();
	SWIG_CAMLlocal1(sv);
	sv = caml_swig_alloc(1,C_short);
	SWIG_Store_field(sv,0,Val_int(s));
	CAMLreturn(sv);
	}

	SWIGSTATIC CAML_VALUE caml_val_ushort( unsigned short us ) {
	CAMLparam0();
	SWIG_CAMLlocal1(usv);
	usv = caml_swig_alloc(1,C_ushort);
	SWIG_Store_field(usv,0,Val_int(us));
	CAMLreturn(usv);
	}

	SWIGSTATIC CAML_VALUE caml_val_int( int i ) {
	CAMLparam0();
	SWIG_CAMLlocal1(iv);
	iv = caml_swig_alloc(1,C_int);
	SWIG_Store_field(iv,0,Val_int(i));
	CAMLreturn(iv);
	}

	SWIGSTATIC CAML_VALUE caml_val_uint( unsigned int ui ) {
	CAMLparam0();
	SWIG_CAMLlocal1(uiv);
	uiv = caml_swig_alloc(1,C_int);
	SWIG_Store_field(uiv,0,Val_int(ui));
	CAMLreturn(uiv);
	}

	SWIGSTATIC CAML_VALUE caml_val_long( long l ) {
	CAMLparam0();
	SWIG_CAMLlocal1(lv);
	lv = caml_swig_alloc(1,C_int64);
	SWIG_Store_field(lv,0,copy_int64(l));
	CAMLreturn(lv);
	}

	SWIGSTATIC CAML_VALUE caml_val_ulong( unsigned long ul ) {
	CAMLparam0();
	SWIG_CAMLlocal1(ulv);
	ulv = caml_swig_alloc(1,C_int64);
	SWIG_Store_field(ulv,0,copy_int64(ul));
	CAMLreturn(ulv);
	}

	SWIGSTATIC CAML_VALUE caml_val_float( float f ) {
	CAMLparam0();
	SWIG_CAMLlocal1(fv);
	fv = caml_swig_alloc(1,C_float);
	SWIG_Store_field(fv,0,copy_double((double)f));
	CAMLreturn(fv);
	}

	SWIGSTATIC CAML_VALUE caml_val_double( double d ) {
	CAMLparam0();
	SWIG_CAMLlocal1(fv);
	fv = caml_swig_alloc(1,C_double);
	SWIG_Store_field(fv,0,copy_double(d));
	CAMLreturn(fv);
	}

	SWIGSTATIC CAML_VALUE caml_val_ptr( void p, swig_type_info info ) {
	CAMLparam0();
	SWIG_CAMLlocal1(vv);
	vv = caml_swig_alloc(2,C_ptr);
	SWIG_Store_field(vv,0,copy_int64((long)p));
	SWIG_Store_field(vv,1,copy_int64((long)info));
	CAMLreturn(vv);
	}

	SWIGSTATIC CAML_VALUE caml_val_string( const char *p ) {
	CAMLparam0();
	SWIG_CAMLlocal1(vv);
	if( !p ) CAMLreturn(caml_val_ptr( (void *)p, 0 ));
	vv = caml_swig_alloc(1,C_string);
	SWIG_Store_field(vv,0,copy_string(p));
	CAMLreturn(vv);
	}

	SWIGSTATIC CAML_VALUE caml_val_string_len( const char *p, int len ) {
	CAMLparam0();
	SWIG_CAMLlocal1(vv);
	if( !p \|\| len < 0 ) CAMLreturn(caml_val_ptr( (void *)p, 0 ));
	vv = caml_swig_alloc(1,C_string);
	SWIG_Store_field(vv,0,alloc_string(len));
	memcpy(String_val(SWIG_Field(vv,0)),p,len);
	CAMLreturn(vv);
	}

	#define caml_val_obj(v, name) caml_val_obj_helper(v, SWIG_TypeQuery((name)), name)
	SWIGSTATIC CAML_VALUE caml_val_obj_helper( void v, swig_type_info type, char *name) {
	CAMLparam0();
	CAMLreturn(callback2(*caml_named_value("caml_create_object_fn"),
	caml_val_ptr(v,type),
	copy_string(name)));
	}

	SWIGSTATIC long caml_long_val_full( CAML_VALUE v, char *name ) {
	CAMLparam1(v);
	if( !Is_block(v) ) return 0;

	switch( SWIG_Tag_val(v) ) {
	case C_bool:
	case C_char:
	case C_uchar:
	case C_short:
	case C_ushort:
	case C_int:
	CAMLreturn(Int_val(SWIG_Field(v,0)));
	case C_uint:
	case C_int32:
	CAMLreturn(Int32_val(SWIG_Field(v,0)));
	case C_int64:
	CAMLreturn((long)SWIG_Int64_val(SWIG_Field(v,0)));
	case C_float:
	case C_double:
	CAMLreturn((long)Double_val(SWIG_Field(v,0)));
	case C_string:
	CAMLreturn((long)String_val(SWIG_Field(v,0)));
	case C_ptr:
	CAMLreturn((long)SWIG_Int64_val(SWIG_Field(SWIG_Field(v,0),0)));
	case C_enum: {
	SWIG_CAMLlocal1(ret);
	CAML_VALUE *enum_to_int = caml_named_value(SWIG_MODULE "_enum_to_int");
	if( !name ) failwith( "Not an enum conversion" );
	ret = callback2(enum_to_int,caml_named_value(name),v);
	CAMLreturn(caml_long_val(ret));
	}
	default:
	failwith("No conversion to int");
	}
	}

	SWIGSTATIC long caml_long_val( CAML_VALUE v ) {
	return caml_long_val_full(v,0);
	}

	SWIGSTATIC double caml_double_val( CAML_VALUE v ) {
	CAMLparam1(v);
	if( !Is_block(v) ) return 0.0;
	switch( SWIG_Tag_val(v) ) {
	case C_bool:
	case C_char:
	case C_uchar:
	case C_short:
	case C_ushort:
	case C_int:
	CAMLreturn_type(Int_val(SWIG_Field(v,0)));
	case C_uint:
	case C_int32:
	CAMLreturn_type(Int32_val(SWIG_Field(v,0)));
	case C_int64:
	CAMLreturn_type(SWIG_Int64_val(SWIG_Field(v,0)));
	case C_float:
	case C_double:
	CAMLreturn_type(Double_val(SWIG_Field(v,0)));
	default:
	fprintf( stderr, "Unknown block tag %d\n", SWIG_Tag_val(v) );
	failwith("No conversion to double");
	}
	}

	SWIGSTATIC int caml_ptr_val_internal( CAML_VALUE v, void **out,
	swig_type_info *descriptor ) {
	CAMLparam1(v);
	void *outptr = NULL;
	swig_type_info *outdescr = NULL;

	if( v == Val_unit ) {
	*out = 0;
	CAMLreturn(0);
	}
	if( !Is_block(v) ) return -1;
	switch( SWIG_Tag_val(v) ) {
	case C_int:
	if( !caml_long_val( v ) ) {
	*out = 0;
	CAMLreturn(0);
	} else {
	*out = 0;
	CAMLreturn(1);
	}
	break;
	case C_obj:
	CAMLreturn
	(caml_ptr_val_internal
	(callback(*caml_named_value("caml_obj_ptr"),v),
	out,descriptor));
	case C_string:
	outptr = (void *)String_val(SWIG_Field(v,0));
	break;
	case C_ptr:
	outptr = (void *)(long)SWIG_Int64_val(SWIG_Field(v,0));
	outdescr = (swig_type_info *)(long)SWIG_Int64_val(SWIG_Field(v,1));
	break;
	default:
	*out = 0;
	CAMLreturn(1);
	break;
	}

	CAMLreturn(SWIG_GetPtr(outptr,out,outdescr,descriptor));
	}

	SWIGSTATIC void caml_ptr_val( CAML_VALUE v, swig_type_info descriptor ) {
	CAMLparam0();
	#ifdef TYPE_CAST_VERBOSE
	caml_print_val( v );
	#endif
	void *out = NULL;
	if( !caml_ptr_val_internal( v, &out, descriptor ) )
	CAMLreturn_type(out);
	else
	failwith( "No appropriate conversion found." );
	}

	SWIGSTATIC char *caml_string_val( CAML_VALUE v ) {
	return (char *)caml_ptr_val( v, 0 );
	}

	SWIGSTATIC int caml_string_len( CAML_VALUE v ) {
	switch( SWIG_Tag_val(v) ) {
	case C_string:
	return string_length(SWIG_Field(v,0));
	default:
	return strlen((char *)caml_ptr_val(v,0));
	}
	}

	SWIGSTATIC int caml_bool_check( CAML_VALUE v ) {
	CAMLparam1(v);

	if( !Is_block(v) ) return 0;

	switch( SWIG_Tag_val(v) ) {
	case C_bool:
	case C_ptr:
	case C_string:
	CAMLreturn(1);
	default:
	CAMLreturn(0);
	}
	}

	SWIGSTATIC int caml_int_check( CAML_VALUE v ) {
	CAMLparam1(v);

	if( !Is_block(v) ) return 0;

	switch( SWIG_Tag_val(v) ) {
	case C_char:
	case C_uchar:
	case C_short:
	case C_ushort:
	case C_int:
	case C_uint:
	case C_int32:
	case C_int64:
	CAMLreturn(1);

	default:
	CAMLreturn(0);
	}
	}

	SWIGSTATIC int caml_float_check( CAML_VALUE v ) {
	CAMLparam1(v);
	if( !Is_block(v) ) return 0;

	switch( SWIG_Tag_val(v) ) {
	case C_float:
	case C_double:
	CAMLreturn(1);

	default:
	CAMLreturn(0);
	}
	}

	SWIGSTATIC int caml_ptr_check( CAML_VALUE v ) {
	CAMLparam1(v);
	if( !Is_block(v) ) return 0;

	switch( SWIG_Tag_val(v) ) {
	case C_string:
	case C_ptr:
	case C_int64:
	CAMLreturn(1);

	default:
	CAMLreturn(0);
	}
	}

	static swig_module_info SWIG_Ocaml_GetModule(void SWIGUNUSEDPARM(clientdata)) {
	CAML_VALUE pointer;

	pointer = callback(*caml_named_value("swig_find_type_info"), caml_val_int(0));
	if (Is_block(pointer) && SWIG_Tag_val(pointer) == C_ptr) {
	return (swig_module_info )(void )(long)SWIG_Int64_val(SWIG_Field(pointer,0));
	}
	return 0;
	}

	static void SWIG_Ocaml_SetModule(swig_module_info *pointer) {
	CAML_VALUE mod_pointer;

	mod_pointer = caml_val_ptr(pointer, NULL);
	callback(*caml_named_value("swig_set_type_info"), mod_pointer);
	}

	#ifdef __cplusplus
	}
	#endif
	#undef value