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libs-base/Source/NSValue.m
theraven ceba92a265 Lots of little fixes to make -base compile with -Werror (now builds without warnings). 
Richard: I'm unsure about three of these, which were fixes in memset() calls in:
- NSConcreteMapTable.m
- NSConcreteHashTable.m
- Additions/NSData+GNUstepBase.m

Please can you check them?  I think they are intended to zero the entire object
(rather than the first word), but the lack of comments makes me unsure.

Most changes were just tweaks to variable types.  I've also removed some dead code from NSInvocation.  This was small group of things that were marked for internal use only, but not actually referenced in the code anywhere.

Other improvements:

- NSArray / NSDictionary fixed up to use the 10.7 (ARC-friendly) prototypes.
- getObjects:andKeys: implemented for NSDictionary (10.5 method)
- NSPointerArray and NSHashTable now properly support weak objects.
- Tests for weak objects in collections.



git-svn-id: svn+ssh://svn.gna.org/svn/gnustep/libs/base/trunk@33621 72102866-910b-0410-8b05-ffd578937521
2011-07-24 13:09:22 +00:00

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/** NSValue.m - Object encapsulation for C types.
Copyright (C) 1993, 1994, 1996, 1999 Free Software Foundation, Inc.
Written by: Adam Fedor <fedor@boulder.colorado.edu>
Date: Mar 1995
Updated by: Richard Frith-Macdonald <rfm@gnu.org>
Date: Jan 2001
This file is part of the GNUstep Base Library.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free
Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02111 USA.
<title>NSValue class reference</title>
$Date$ $Revision$
*/
#import "common.h"
#import "Foundation/NSValue.h"
#import "Foundation/NSCoder.h"
#import "Foundation/NSDictionary.h"
#import "Foundation/NSException.h"
#import "Foundation/NSMapTable.h"
#import "Foundation/NSLock.h"
#import "Foundation/NSData.h"
#import "GNUstepBase/NSObject+GNUstepBase.h"
@interface GSPlaceholderValue : NSValue
@end
@class GSValue;
@interface GSValue : NSObject // Help the compiler
@end
@class GSNonretainedObjectValue;
@interface GSNonretainedObjectValue : NSObject // Help the compiler
@end
@class GSPointValue;
@interface GSPointValue : NSObject // Help the compiler
@end
@class GSPointerValue;
@interface GSPointerValue : NSObject // Help the compiler
@end
@class GSRangeValue;
@interface GSRangeValue : NSObject // Help the compiler
@end
@class GSRectValue;
@interface GSRectValue : NSObject // Help the compiler
@end
@class GSSizeValue;
@interface GSSizeValue : NSObject // Help the compiler
@end
@class NSDataStatic; // Needed for decoding.
@interface NSDataStatic : NSData // Help the compiler
@end
static Class abstractClass;
static Class concreteClass;
static Class nonretainedObjectValueClass;
static Class pointValueClass;
static Class pointerValueClass;
static Class rangeValueClass;
static Class rectValueClass;
static Class sizeValueClass;
static Class GSPlaceholderValueClass;
static GSPlaceholderValue *defaultPlaceholderValue;
static NSMapTable *placeholderMap;
static NSLock *placeholderLock;
@implementation NSValue
+ (void) initialize
{
if (self == [NSValue class])
{
abstractClass = self;
[abstractClass setVersion: 3]; // Version 3
concreteClass = [GSValue class];
nonretainedObjectValueClass = [GSNonretainedObjectValue class];
pointValueClass = [GSPointValue class];
pointerValueClass = [GSPointerValue class];
rangeValueClass = [GSRangeValue class];
rectValueClass = [GSRectValue class];
sizeValueClass = [GSSizeValue class];
GSPlaceholderValueClass = [GSPlaceholderValue class];
/*
* Set up infrastructure for placeholder values.
*/
defaultPlaceholderValue = (GSPlaceholderValue*)
NSAllocateObject(GSPlaceholderValueClass, 0, NSDefaultMallocZone());
[[NSObject leakAt: (id*)&defaultPlaceholderValue] release];
placeholderMap = NSCreateMapTable(NSNonOwnedPointerMapKeyCallBacks,
NSNonRetainedObjectMapValueCallBacks, 0);
[[NSObject leakAt: (id*)&placeholderMap] release];
placeholderLock = [NSLock new];
[[NSObject leakAt: (id*)&placeholderLock] release];
}
}
+ (id) allocWithZone: (NSZone*)z
{
if (self == abstractClass)
{
if (z == NSDefaultMallocZone() || z == 0)
{
/*
* As a special case, we can return a placeholder for a value
* in the default malloc zone extremely efficiently.
*/
return defaultPlaceholderValue;
}
else
{
id obj;
/*
* For anything other than the default zone, we need to
* locate the correct placeholder in the (lock protected)
* table of placeholders.
*/
[placeholderLock lock];
obj = (id)NSMapGet(placeholderMap, (void*)z);
if (obj == nil)
{
/*
* There is no placeholder object for this zone, so we
* create a new one and use that.
*/
obj = (id)NSAllocateObject(GSPlaceholderValueClass, 0, z);
NSMapInsert(placeholderMap, (void*)z, (void*)obj);
}
[placeholderLock unlock];
return obj;
}
}
else
{
return NSAllocateObject(self, 0, z);
}
}
// NSCopying - always a simple retain.
- (id) copy
{
return RETAIN(self);
}
- (id) copyWithZone: (NSZone *)zone
{
return RETAIN(self);
}
/* Returns the concrete class associated with the type encoding */
+ (Class) valueClassWithObjCType: (const char *)type
{
Class theClass = concreteClass;
/* Let someone else deal with this error */
if (!type)
return theClass;
if (strcmp(@encode(id), type) == 0)
theClass = nonretainedObjectValueClass;
else if (strcmp(@encode(NSPoint), type) == 0)
theClass = pointValueClass;
else if (strcmp(@encode(void *), type) == 0)
theClass = pointerValueClass;
else if (strcmp(@encode(NSRange), type) == 0)
theClass = rangeValueClass;
else if (strcmp(@encode(NSRect), type) == 0)
theClass = rectValueClass;
else if (strcmp(@encode(NSSize), type) == 0)
theClass = sizeValueClass;
return theClass;
}
// Allocating and Initializing
+ (NSValue*) value: (const void *)value
withObjCType: (const char *)type
{
Class theClass = [self valueClassWithObjCType: type];
NSValue *theObj;
theObj = [theClass allocWithZone: NSDefaultMallocZone()];
theObj = [theObj initWithBytes: value objCType: type];
return AUTORELEASE(theObj);
}
+ (NSValue*) valueWithBytes: (const void *)value
objCType: (const char *)type
{
Class theClass = [self valueClassWithObjCType: type];
NSValue *theObj;
theObj = [theClass allocWithZone: NSDefaultMallocZone()];
theObj = [theObj initWithBytes: value objCType: type];
return AUTORELEASE(theObj);
}
+ (NSValue*) valueWithNonretainedObject: (id)anObject
{
NSValue *theObj;
theObj = [nonretainedObjectValueClass allocWithZone: NSDefaultMallocZone()];
theObj = [theObj initWithBytes: &anObject objCType: @encode(id)];
return AUTORELEASE(theObj);
}
+ (NSValue*) valueWithPoint: (NSPoint)point
{
NSValue *theObj;
theObj = [pointValueClass allocWithZone: NSDefaultMallocZone()];
theObj = [theObj initWithBytes: &point objCType: @encode(NSPoint)];
return AUTORELEASE(theObj);
}
+ (NSValue*) valueWithPointer: (const void *)pointer
{
NSValue *theObj;
theObj = [pointerValueClass allocWithZone: NSDefaultMallocZone()];
theObj = [theObj initWithBytes: &pointer objCType: @encode(void*)];
return AUTORELEASE(theObj);
}
+ (NSValue*) valueWithRange: (NSRange)range
{
NSValue *theObj;
theObj = [rangeValueClass allocWithZone: NSDefaultMallocZone()];
theObj = [theObj initWithBytes: &range objCType: @encode(NSRange)];
return AUTORELEASE(theObj);
}
+ (NSValue*) valueWithRect: (NSRect)rect
{
NSValue *theObj;
theObj = [rectValueClass allocWithZone: NSDefaultMallocZone()];
theObj = [theObj initWithBytes: &rect objCType: @encode(NSRect)];
return AUTORELEASE(theObj);
}
+ (NSValue*) valueWithSize: (NSSize)size
{
NSValue *theObj;
theObj = [sizeValueClass allocWithZone: NSDefaultMallocZone()];
theObj = [theObj initWithBytes: &size objCType: @encode(NSSize)];
return AUTORELEASE(theObj);
}
+ (NSValue*) valueFromString: (NSString *)string
{
NSDictionary *dict = [string propertyList];
if (dict == nil)
return nil;
if ([dict objectForKey: @"location"])
{
NSRange range;
range = NSMakeRange([[dict objectForKey: @"location"] intValue],
[[dict objectForKey: @"length"] intValue]);
return [abstractClass valueWithRange: range];
}
else if ([dict objectForKey: @"width"] && [dict objectForKey: @"x"])
{
NSRect rect;
rect = NSMakeRect([[dict objectForKey: @"x"] floatValue],
[[dict objectForKey: @"y"] floatValue],
[[dict objectForKey: @"width"] floatValue],
[[dict objectForKey: @"height"] floatValue]);
return [abstractClass valueWithRect: rect];
}
else if ([dict objectForKey: @"width"])
{
NSSize size;
size = NSMakeSize([[dict objectForKey: @"width"] floatValue],
[[dict objectForKey: @"height"] floatValue]);
return [abstractClass valueWithSize: size];
}
else if ([dict objectForKey: @"x"])
{
NSPoint point;
point = NSMakePoint([[dict objectForKey: @"x"] floatValue],
[[dict objectForKey: @"y"] floatValue]);
return [abstractClass valueWithPoint: point];
}
return nil;
}
- (id) initWithBytes: (const void*)data objCType: (const char*)type
{
[self subclassResponsibility: _cmd];
return nil;
}
// Accessing Data
/* All the rest of these methods must be implemented by a subclass */
- (void) getValue: (void *)value
{
[self subclassResponsibility: _cmd];
}
- (BOOL) isEqual: (id)other
{
if ([other isKindOfClass: [self class]])
{
return [self isEqualToValue: other];
}
return NO;
}
- (BOOL) isEqualToValue: (NSValue*)other
{
[self subclassResponsibility: _cmd];
return NO;
}
- (const char *) objCType
{
[self subclassResponsibility: _cmd];
return 0;
}
- (id) nonretainedObjectValue
{
[self subclassResponsibility: _cmd];
return 0;
}
- (void *) pointerValue
{
[self subclassResponsibility: _cmd];
return 0;
}
- (NSRange) rangeValue
{
[self subclassResponsibility: _cmd];
return NSMakeRange(0,0);
}
- (NSRect) rectValue
{
[self subclassResponsibility: _cmd];
return NSMakeRect(0,0,0,0);
}
- (NSSize) sizeValue
{
[self subclassResponsibility: _cmd];
return NSMakeSize(0,0);
}
- (NSPoint) pointValue
{
[self subclassResponsibility: _cmd];
return NSMakePoint(0,0);
}
- (Class) classForCoder
{
return abstractClass;
}
- (void) encodeWithCoder: (NSCoder *)coder
{
NSUInteger tsize;
unsigned size;
const char *data;
const char *objctype = [self objCType];
NSMutableData *d;
size = strlen(objctype)+1;
[coder encodeValueOfObjCType: @encode(unsigned) at: &size];
[coder encodeArrayOfObjCType: @encode(signed char) count: size at: objctype];
if (strncmp("{_NSSize=", objctype, 9) == 0)
{
NSSize v = [self sizeValue];
[coder encodeValueOfObjCType: objctype at: &v];
return;
}
else if (strncmp("{_NSPoint=", objctype, 10) == 0)
{
NSPoint v = [self pointValue];
[coder encodeValueOfObjCType: objctype at: &v];
return;
}
else if (strncmp("{_NSRect=", objctype, 9) == 0)
{
NSRect v = [self rectValue];
[coder encodeValueOfObjCType: objctype at: &v];
return;
}
else if (strncmp("{_NSRange=", objctype, 10) == 0)
{
NSRange v = [self rangeValue];
[coder encodeValueOfObjCType: objctype at: &v];
return;
}
NSGetSizeAndAlignment(objctype, 0, &tsize);
data = (void *)NSZoneMalloc([self zone], tsize);
[self getValue: (void*)data];
d = [NSMutableData new];
[d serializeDataAt: data ofObjCType: objctype context: nil];
size = [d length];
[coder encodeValueOfObjCType: @encode(unsigned) at: &size];
NSZoneFree(NSDefaultMallocZone(), (void*)data);
data = [d bytes];
[coder encodeArrayOfObjCType: @encode(unsigned char) count: size at: data];
RELEASE(d);
}
- (id) initWithCoder: (NSCoder *)coder
{
char type[64];
const char *objctype;
Class c;
id o;
NSUInteger tsize;
unsigned size;
int ver;
[coder decodeValueOfObjCType: @encode(unsigned) at: &size];
/*
* For almost all type encodings, we can use space on the stack,
* but to handle exceptionally large ones (possibly some huge structs)
* we have a strategy of allocating and deallocating heap space too.
*/
if (size <= 64)
{
objctype = type;
}
else
{
objctype = (void*)NSZoneMalloc(NSDefaultMallocZone(), size);
}
[coder decodeArrayOfObjCType: @encode(signed char)
count: size
at: (void*)objctype];
if (strncmp("{_NSSize=", objctype, 9) == 0)
c = [abstractClass valueClassWithObjCType: @encode(NSSize)];
else if (strncmp("{_NSPoint=", objctype, 10) == 0)
c = [abstractClass valueClassWithObjCType: @encode(NSPoint)];
else if (strncmp("{_NSRect=", objctype, 9) == 0)
c = [abstractClass valueClassWithObjCType: @encode(NSRect)];
else if (strncmp("{_NSRange=", objctype, 10) == 0)
c = [abstractClass valueClassWithObjCType: @encode(NSRange)];
else
c = [abstractClass valueClassWithObjCType: objctype];
o = [c allocWithZone: [coder objectZone]];
ver = [coder versionForClassName: @"NSValue"];
if (ver > 2)
{
if (c == pointValueClass)
{
NSPoint v;
[coder decodeValueOfObjCType: @encode(NSPoint) at: &v];
DESTROY(self);
return [o initWithBytes: &v objCType: @encode(NSPoint)];
}
else if (c == sizeValueClass)
{
NSSize v;
[coder decodeValueOfObjCType: @encode(NSSize) at: &v];
DESTROY(self);
return [o initWithBytes: &v objCType: @encode(NSSize)];
}
else if (c == rangeValueClass)
{
NSRange v;
[coder decodeValueOfObjCType: @encode(NSRange) at: &v];
DESTROY(self);
return [o initWithBytes: &v objCType: @encode(NSRange)];
}
else if (c == rectValueClass)
{
NSRect v;
[coder decodeValueOfObjCType: @encode(NSRect) at: &v];
DESTROY(self);
return [o initWithBytes: &v objCType: @encode(NSRect)];
}
}
if (ver < 2)
{
if (ver < 1)
{
if (c == pointValueClass)
{
NSPoint v;
[coder decodeValueOfObjCType: @encode(NSPoint) at: &v];
o = [o initWithBytes: &v objCType: @encode(NSPoint)];
}
else if (c == sizeValueClass)
{
NSSize v;
[coder decodeValueOfObjCType: @encode(NSSize) at: &v];
o = [o initWithBytes: &v objCType: @encode(NSSize)];
}
else if (c == rangeValueClass)
{
NSRange v;
[coder decodeValueOfObjCType: @encode(NSRange) at: &v];
o = [o initWithBytes: &v objCType: @encode(NSRange)];
}
else if (c == rectValueClass)
{
NSRect v;
[coder decodeValueOfObjCType: @encode(NSRect) at: &v];
o = [o initWithBytes: &v objCType: @encode(NSRect)];
}
else
{
unsigned char *data;
[coder decodeValueOfObjCType: @encode(unsigned) at: &size];
data = (void *)NSZoneMalloc(NSDefaultMallocZone(), size);
[coder decodeArrayOfObjCType: @encode(unsigned char)
count: size
at: (void*)data];
o = [o initWithBytes: data objCType: objctype];
NSZoneFree(NSDefaultMallocZone(), data);
}
}
else
{
NSData *d;
unsigned cursor = 0;
/*
* For performance, decode small values directly onto the stack,
* For larger values we allocate and deallocate heap space.
*/
NSGetSizeAndAlignment(objctype, 0, &tsize);
if (tsize <= 64)
{
unsigned char data[tsize];
[coder decodeValueOfObjCType: @encode(id) at: &d];
[d deserializeDataAt: data
ofObjCType: objctype
atCursor: &cursor
context: nil];
o = [o initWithBytes: data objCType: objctype];
RELEASE(d);
}
else
{
unsigned char *data;
data = (void *)NSZoneMalloc(NSDefaultMallocZone(), tsize);
[coder decodeValueOfObjCType: @encode(id) at: &d];
[d deserializeDataAt: data
ofObjCType: objctype
atCursor: &cursor
context: nil];
o = [o initWithBytes: data objCType: objctype];
RELEASE(d);
NSZoneFree(NSDefaultMallocZone(), data);
}
}
}
else
{
static NSData *d = nil;
unsigned cursor = 0;
if (d == nil)
{
d = [NSDataStatic allocWithZone: NSDefaultMallocZone()];
}
/*
* For performance, decode small values directly onto the stack,
* For larger values we allocate and deallocate heap space.
*/
NSGetSizeAndAlignment(objctype, 0, &tsize);
if (tsize <= 64)
{
unsigned char data[tsize];
[coder decodeValueOfObjCType: @encode(unsigned) at: &size];
{
unsigned char serialized[size];
[coder decodeArrayOfObjCType: @encode(unsigned char)
count: size
at: (void*)serialized];
d = [d initWithBytesNoCopy: (void*)serialized length: size];
[d deserializeDataAt: data
ofObjCType: objctype
atCursor: &cursor
context: nil];
}
o = [o initWithBytes: data objCType: objctype];
}
else
{
void *data;
data = (void *)NSZoneMalloc(NSDefaultMallocZone(), tsize);
[coder decodeValueOfObjCType: @encode(unsigned) at: &size];
{
void *serialized;
serialized = (void *)NSZoneMalloc(NSDefaultMallocZone(), size);
[coder decodeArrayOfObjCType: @encode(unsigned char)
count: size
at: serialized];
d = [d initWithBytesNoCopy: serialized length: size];
[d deserializeDataAt: data
ofObjCType: objctype
atCursor: &cursor
context: nil];
NSZoneFree(NSDefaultMallocZone(), serialized);
}
o = [o initWithBytes: data objCType: objctype];
NSZoneFree(NSDefaultMallocZone(), data);
}
}
if (objctype != type)
{
NSZoneFree(NSDefaultMallocZone(), (void*)objctype);
}
DESTROY(self);
self = o;
return self;
}
@end
@implementation GSPlaceholderValue
- (id) autorelease
{
NSWarnLog(@"-autorelease sent to uninitialised value");
return self; // placeholders never get released.
}
- (void) dealloc
{
GSNOSUPERDEALLOC; // placeholders never get deallocated.
}
- (void) getValue: (void*)data
{
[NSException raise: NSInternalInconsistencyException
format: @"attempt to use uninitialised value"];
}
- (id) initWithBytes: (const void*)data objCType: (const char*)type
{
Class c = [abstractClass valueClassWithObjCType: type];
self = (id)NSAllocateObject(c, 0, [self zone]);
return [self initWithBytes: data objCType: type];
}
- (const char*) objCType
{
[NSException raise: NSInternalInconsistencyException
format: @"attempt to use uninitialised value"];
return 0;
}
- (void) release
{
return; // placeholders never get released.
}
- (id) retain
{
return self; // placeholders never get retained.
}
@end
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