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/* -*- mode: objc; coding: utf-8 -*- */
/* Toilet Lisp, a Common Lisp subset for the Étoilé runtime.
* Copyright (C) 2008, 2009 Matthias Andreas Benkard.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or (at
* your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#import "functions.h"
#import "globals.h"
#import "util.h"
#import "MLKCons.h"
#import "MLKCharacter.h"
#import "MLKInteger.h"
#import "MLKInterpretedClosure.h"
#import "MLKPackage.h"
#import "MLKSymbol.h"
#import "MLKRoot.h"
#import <Foundation/NSArray.h>
#import <Foundation/NSException.h>
#import <Foundation/NSString.h>
#include <string.h>
#include <stdarg.h>
#include <alloca.h>
NSString *MLKPrintToString (id object)
{
if (object == nil)
return @"()";
else if (MLKInstanceP (object))
return [object descriptionForLisp];
else if (MLKFixnumP (object))
return MLKPrintToString ([MLKInteger
integerWithIntptr_t:(MLKIntWithFixnum (object))]);
else
{
NSLog (@"MLKPrintToString: Encountered a really weird object at address %p",
object);
return @"<??\?>";
}
}
intptr_t MLKIntWithFixnum (id fixnum)
{
return ((intptr_t)fixnum >> 1);
}
id MLKFixnumWithInt (intptr_t value)
{
return (id)((value << 1) | 1);
}
intptr_t MLKIntWithInteger (id integer)
{
if (MLKFixnumP (integer))
return MLKIntWithFixnum (integer);
else
return [integer intValue];
}
id MLKIntegerWithInt (intptr_t value)
{
#ifndef NO_FIXNUMS
intptr_t maybeFixnum = (value << 1) | 1;
if (value == (maybeFixnum >> 1))
return (id)maybeFixnum;
else
#endif
return [MLKInteger integerWithIntptr_t:value];
}
BOOL MLKFixnumP (id thing)
{
return ((intptr_t)thing & 1);
}
BOOL MLKInstanceP (id thing)
{
return !((intptr_t)thing & 1);
}
id MLKCanoniseInteger (const MLKInteger *x)
{
if (MLKFixnumP (x))
{
return x;
}
else if (MLKInstanceP (x))
{
if ([x fitsIntoFixnum])
return [x fixnumValue];
else
return x;
}
else
{
NSLog (@"MLKCanoniseInteger: Encountered a really weird object at address %p",
x);
return 0;
}
}
id MLKAddFixnums (id x, id y)
{
intptr_t ix = MLKIntWithFixnum (x);
intptr_t iy = MLKIntWithFixnum (y);
intptr_t result = ix + iy;
return MLKIntegerWithInt (result);
}
id MLKSubtractFixnums (id x, id y)
{
intptr_t ix = MLKIntWithFixnum (x);
intptr_t iy = MLKIntWithFixnum (y);
intptr_t result = ix - iy;
return MLKIntegerWithInt (result);
}
id MLKIDivideFixnums (id x, id y)
{
intptr_t ix = MLKIntWithFixnum (x);
intptr_t iy = MLKIntWithFixnum (y);
intptr_t result = ix / iy;
return MLKIntegerWithInt (result);
}
id MLKMultiplyFixnums (id x, id y)
{
id ix = [MLKInteger integerWithFixnum:x];
id iy = [MLKInteger integerWithFixnum:y];
id result = [ix multiplyWith:iy];
return MLKCanoniseInteger (result);
}
static MLKSymbol *INT, *SHORT, *LONG, *VOID, *POINTER,
*UINT, *USHORT, *ULONG, *STRING, *ID, *BOOLEAN, *CLASS, *UNICHAR, *CHAR,
*ERROR;
static MLKSymbol *DECLARE;
static MLKPackage *keyword = nil, *cl = nil;
#define INTERN_KEYWORD(VAR, NAME) \
LASSIGN (VAR, [keyword intern:NAME])
static void init_symbols ()
{
if (keyword)
return;
cl = [MLKPackage findPackage:@"COMMON-LISP"];
keyword = [MLKPackage findPackage:@"KEYWORD"];
INTERN_KEYWORD (POINTER, @"POINTER");
INTERN_KEYWORD (SHORT, @"SHORT-INT");
INTERN_KEYWORD (USHORT, @"UNSIGNED-SHORT-INT");
INTERN_KEYWORD (INT, @"INT");
INTERN_KEYWORD (UINT, @"UNSIGNED-INT");
INTERN_KEYWORD (LONG, @"LONG-INT");
INTERN_KEYWORD (ULONG, @"UNSIGNED-LONG-INT");
INTERN_KEYWORD (STRING, @"STRING");
INTERN_KEYWORD (ID, @"ID");
INTERN_KEYWORD (BOOLEAN, @"BOOL");
INTERN_KEYWORD (CLASS, @"CLASS");
INTERN_KEYWORD (UNICHAR, @"UNICHAR");
INTERN_KEYWORD (CHAR, @"CHAR");
INTERN_KEYWORD (ERROR, @"ERROR");
INTERN_KEYWORD (VOID, @"VOID");
DECLARE = [cl intern:@"DECLARE"];
}
void MLKSplitDeclarationsDocAndForms (id *decls, id *doc, id *forms, id body, BOOL docp)
{
id declarations;
init_symbols ();
if (docp)
*doc = nil;
declarations = nil;
while (MLKInstanceP ([body car])
&& (([[body car] isKindOfClass:[MLKCons class]]
&& [[body car] car] == DECLARE)
|| (docp && [[body car] isKindOfClass:[NSString class]])))
{
id thing = [body car];
if ([thing isKindOfClass:[NSString class]])
{
if (*doc)
{
body = [body cdr];
break;
}
else
{
*doc = thing;
}
}
else
{
thing = [thing cdr];
if (declarations)
declarations = [declarations listByAppendingObject:thing];
else
declarations = thing;
}
body = [body cdr];
}
*decls = declarations;
*forms = body;
}
MLKForeignType MLKForeignTypeWithTypeDesignator (id typeDesignator)
{
#define DESIGNATOR_CASE(TYPE, FOREIGN_TYPE) \
if (typeDesignator == TYPE) return MLKT_ ## FOREIGN_TYPE;
init_symbols ();
DESIGNATOR_CASE (POINTER, PTR)
else DESIGNATOR_CASE (INT, INT)
else DESIGNATOR_CASE (UINT, UINT)
else DESIGNATOR_CASE (SHORT, SHORT)
else DESIGNATOR_CASE (LONG, LONG)
else DESIGNATOR_CASE (USHORT, USHORT)
else DESIGNATOR_CASE (ULONG, ULONG)
else DESIGNATOR_CASE (STRING, STRING)
else DESIGNATOR_CASE (VOID, VOID)
else DESIGNATOR_CASE (ID, ID)
else DESIGNATOR_CASE (BOOLEAN, BOOL)
else DESIGNATOR_CASE (CLASS, CLASS)
else DESIGNATOR_CASE (UNICHAR, UNICHAR)
else DESIGNATOR_CASE (CHAR, CHAR)
else DESIGNATOR_CASE (ERROR, ERROR)
else return MLKT_INVALID;
}
ffi_type *MLKFFITypeWithForeignType (MLKForeignType type)
{
#define FFI_TYPE_CASE(FOREIGN_TYPE, FFI_TYPE) \
case MLKT_ ## FOREIGN_TYPE: return &(ffi_type_ ## FFI_TYPE);
switch (type)
{
FFI_TYPE_CASE (PTR, pointer);
FFI_TYPE_CASE (INT, sint);
FFI_TYPE_CASE (UINT, uint);
FFI_TYPE_CASE (LONG, slong);
FFI_TYPE_CASE (ULONG, ulong);
FFI_TYPE_CASE (SHORT, sshort);
FFI_TYPE_CASE (USHORT, ushort);
FFI_TYPE_CASE (STRING, pointer);
FFI_TYPE_CASE (VOID, void);
FFI_TYPE_CASE (ID, pointer);
FFI_TYPE_CASE (BOOL, schar);
FFI_TYPE_CASE (CLASS, pointer);
FFI_TYPE_CASE (UNICHAR, sshort);
FFI_TYPE_CASE (CHAR, schar);
FFI_TYPE_CASE (ERROR, pointer);
case MLKT_INVALID: return NULL;
}
return NULL;
}
static id truify (BOOL value)
{
init_symbols ();
return (value ? (id) [cl intern:@"T"] : nil);
}
id MLKLispValueWithForeignValue (void *source, MLKForeignType type)
{
switch (type)
{
case MLKT_INT: return MLKIntegerWithInt(*(int*)source);
case MLKT_UINT: return MLKIntegerWithInt(*(unsigned*)source);
case MLKT_LONG: return MLKIntegerWithInt(*(long*)source);
case MLKT_ULONG: return MLKIntegerWithInt(*(unsigned long*)source);
case MLKT_SHORT: return MLKIntegerWithInt(*(short*)source);
case MLKT_USHORT: return MLKIntegerWithInt(*(unsigned short*)source);
case MLKT_PTR: return MLKIntegerWithInt(*(intptr_t*)source); //FIXME
case MLKT_STRING: return [NSString stringWithUTF8String:(*(char**)source)];
case MLKT_ID: return *(id*)source;
case MLKT_BOOL: return truify (*(BOOL*)source);
case MLKT_CLASS: return *(Class*)source;
case MLKT_UNICHAR: return [MLKCharacter characterWithUnichar:(*(unichar*)source)];
case MLKT_CHAR: return [MLKCharacter characterWithUnichar:(*(char*)source)];
case MLKT_ERROR: return *(id*)source;
// case MLKT_: return (*(*)source);
case MLKT_INVALID: return nil;
case MLKT_VOID: return nil;
}
return nil;
}
void MLKSetForeignValueWithLispValue (void *destination, id value, MLKForeignType type)
{
switch (type)
{
case MLKT_INT: *(int *)destination = MLKIntWithInteger (value); break;
case MLKT_UINT: *(unsigned *)destination = MLKIntWithInteger (value); break;
case MLKT_LONG: *(long *)destination = MLKIntWithInteger (value); break;
case MLKT_ULONG: *(unsigned long *)destination = MLKIntWithInteger (value); break;
case MLKT_SHORT: *(short *)destination = MLKIntWithInteger (value); break;
case MLKT_USHORT: *(unsigned short *)destination = MLKIntWithInteger (value); break;
case MLKT_PTR: *(void **)destination = value; break;
case MLKT_STRING: *(const char **)destination = [value UTF8String]; break;
case MLKT_ID:
*(id*)destination = (MLKFixnumP (value)
? (id)[MLKInteger integerWithFixnum:value]
: (id)value);
break;
case MLKT_BOOL: *(BOOL*)destination = (value != nil); break;
case MLKT_CLASS: *(Class*)destination = (Class)value; break;
case MLKT_UNICHAR:
if (MLKFixnumP (value))
*(unichar*)destination = MLKIntWithFixnum (value);
else if ([value isKindOfClass:[MLKInteger class]])
*(unichar*)destination = [value intValue];
else
*(unichar*)destination = [value unicharValue];
break;
case MLKT_CHAR: *(char*)destination = [value unicharValue]; break;
case MLKT_ERROR: *(id*)destination = value; break;
// case MLKT_: *(*)destination = ; break;
case MLKT_INVALID: break;
case MLKT_VOID: break;
}
}
MLKForeignType MLKForeignTypeWithObjectiveCType (const char *typestring)
{
#define OBJC_TYPE_CASE(OBJCTYPE, TYPE) \
if (strcmp (typestring, @encode(OBJCTYPE)) == 0) return MLKT_ ## TYPE;
OBJC_TYPE_CASE (BOOL, BOOL)
else OBJC_TYPE_CASE (unichar, UNICHAR)
else OBJC_TYPE_CASE (char, CHAR)
else OBJC_TYPE_CASE (int, INT)
else OBJC_TYPE_CASE (short, SHORT)
else OBJC_TYPE_CASE (long, LONG)
else OBJC_TYPE_CASE (unsigned, UINT)
else OBJC_TYPE_CASE (unsigned short, USHORT)
else OBJC_TYPE_CASE (unsigned long, ULONG)
else OBJC_TYPE_CASE (void *, PTR)
else OBJC_TYPE_CASE (char *, STRING)
else OBJC_TYPE_CASE (id, ID)
else OBJC_TYPE_CASE (Class, CLASS)
else OBJC_TYPE_CASE (NSException *, ERROR)
else OBJC_TYPE_CASE (void, VOID)
else return MLKT_INVALID;
}
MLKForeignType MLKForeignTypeWithLispValue (id value);
ffi_type *MLKFFITypeWithObjectiveCType (const char *typestring);
ffi_type *MLKFFITypeWithLispValue (id value);
id MLKInterpretedFunctionTrampoline (void *target, ...)
{
// Our first argument is the fat pointer's closure data pointer. We
// simply treat it as a pointer to the MLKInterpretedClosure that we
// want to call, because that is what we put there when setting this
// trampoline up with a specific MLKInterpretedClosure.
// FIXME: Implement multiple-value return, or at least set the
// multiple-value return flag to 0 before doing anything else.
NSArray *values;
NSMutableArray *arguments = [NSMutableArray array];
MLKInterpretedClosure *closure = target;
id arg;
va_list ap;
va_start (ap, target);
while ((arg = va_arg (ap, id)) != MLKEndOfArgumentsMarker)
{
[arguments addObject:nullify(arg)];
}
va_end (ap);
values = [closure applyToArray:arguments];
if ([values count] > 0)
return denullify ([values objectAtIndex:0]);
else
return nil;
}
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