ObjFW  Check-in [f1f934186e]

Overview
Comment:Revert ea28728a

This is not necessary (as it can be solved via -mbaserel32 instead) and
was accidentally pushed.

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Files: files | file ages | folders
SHA3-256: f1f934186e5f6e40b54ce4895170d0a801abe12ead5e0a0f272369f50be1d410
User & Date: js on 2017-06-11 00:55:38
Other Links: manifest | tags
Context
2017-06-11
01:24
runtime: Fix initialization of static instances check-in: 9027e1ab8d user: js tags: trunk
00:55
Revert ea28728a check-in: f1f934186e user: js tags: trunk
2017-06-10
22:54
OFFileManager: Fix wrong exception check-in: ffcd588fc4 user: js tags: trunk
Changes

Modified src/runtime/arc.m from [d1270d3d56] to [a8a136e91e].

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#import "OFBlock.h"

struct weak_ref {
	id **locations;
	size_t count;
};

#import "globals.h"
#define weak_refs objc_globals.weak_refs
#define weak_refs_lock objc_globals.weak_refs_lock


static uint32_t
obj_hash(const void *obj)
{
	return (uint32_t)(uintptr_t)obj;
}

static bool
obj_equal(const void *obj1, const void *obj2)
{
	return (obj1 == obj2);
}

OF_CONSTRUCTOR()
{
	weak_refs = objc_hashtable_new(obj_hash, obj_equal, 2);

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_new(&weak_refs_lock))
		OBJC_ERROR("Failed to create spinlock!")
#endif
}

id
objc_retain(id object)
{







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#import "OFBlock.h"

struct weak_ref {
	id **locations;
	size_t count;
};

static struct objc_hashtable *hashtable;
#ifdef OF_HAVE_THREADS
static of_spinlock_t spinlock;
#endif

static uint32_t
obj_hash(const void *obj)
{
	return (uint32_t)(uintptr_t)obj;
}

static bool
obj_equal(const void *obj1, const void *obj2)
{
	return (obj1 == obj2);
}

OF_CONSTRUCTOR()
{
	hashtable = objc_hashtable_new(obj_hash, obj_equal, 2);

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_new(&spinlock))
		OBJC_ERROR("Failed to create spinlock!")
#endif
}

id
objc_retain(id object)
{
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id
objc_storeWeak(id *object, id value)
{
	struct weak_ref *old;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_lock(&weak_refs_lock))
		OBJC_ERROR("Failed to lock spinlock!")
#endif

	if (*object != nil &&
	    (old = objc_hashtable_get(weak_refs, *object)) != NULL) {
		for (size_t i = 0; i < old->count; i++) {
			if (old->locations[i] == object) {
				if (--old->count == 0) {
					objc_hashtable_delete(weak_refs,
					    *object);
					free(old->locations);
					free(old);
				} else {
					id **locations;

					old->locations[i] =







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id
objc_storeWeak(id *object, id value)
{
	struct weak_ref *old;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_lock(&spinlock))
		OBJC_ERROR("Failed to lock spinlock!")
#endif

	if (*object != nil &&
	    (old = objc_hashtable_get(hashtable, *object)) != NULL) {
		for (size_t i = 0; i < old->count; i++) {
			if (old->locations[i] == object) {
				if (--old->count == 0) {
					objc_hashtable_delete(hashtable,
					    *object);
					free(old->locations);
					free(old);
				} else {
					id **locations;

					old->locations[i] =
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				break;
			}
		}
	}

	if (value != nil && class_respondsToSelector(object_getClass(value),
	    @selector(allowsWeakReference)) && [value allowsWeakReference]) {
		struct weak_ref *ref = objc_hashtable_get(weak_refs, value);

		if (ref == NULL) {
			if ((ref = calloc(1, sizeof(*ref))) == NULL)
				OBJC_ERROR("Not enough memory to allocate weak "
				    "reference!");

			objc_hashtable_set(weak_refs, value, ref);
		}

		if ((ref->locations = realloc(ref->locations,
		    (ref->count + 1) * sizeof(id *))) == NULL)
			OBJC_ERROR("Not enough memory to allocate weak "
			    "reference!")

		ref->locations[ref->count++] = object;
	} else
		value = nil;

	*object = value;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_unlock(&weak_refs_lock))
		OBJC_ERROR("Failed to unlock spinlock!")
#endif

	return value;
}

id
objc_loadWeakRetained(id *object)
{
	id value = nil;
	struct weak_ref *ref;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_lock(&weak_refs_lock))
		OBJC_ERROR("Failed to lock spinlock!")
#endif

	if ((ref = objc_hashtable_get(weak_refs, *object)) != NULL)
		value = *object;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_unlock(&weak_refs_lock))
		OBJC_ERROR("Failed to unlock spinlock!")
#endif

	if (class_respondsToSelector(object_getClass(value),
	    @selector(retainWeakReference)) && [value retainWeakReference])
		return value;








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				break;
			}
		}
	}

	if (value != nil && class_respondsToSelector(object_getClass(value),
	    @selector(allowsWeakReference)) && [value allowsWeakReference]) {
		struct weak_ref *ref = objc_hashtable_get(hashtable, value);

		if (ref == NULL) {
			if ((ref = calloc(1, sizeof(*ref))) == NULL)
				OBJC_ERROR("Not enough memory to allocate weak "
				    "reference!");

			objc_hashtable_set(hashtable, value, ref);
		}

		if ((ref->locations = realloc(ref->locations,
		    (ref->count + 1) * sizeof(id *))) == NULL)
			OBJC_ERROR("Not enough memory to allocate weak "
			    "reference!")

		ref->locations[ref->count++] = object;
	} else
		value = nil;

	*object = value;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_unlock(&spinlock))
		OBJC_ERROR("Failed to unlock spinlock!")
#endif

	return value;
}

id
objc_loadWeakRetained(id *object)
{
	id value = nil;
	struct weak_ref *ref;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_lock(&spinlock))
		OBJC_ERROR("Failed to lock spinlock!")
#endif

	if ((ref = objc_hashtable_get(hashtable, *object)) != NULL)
		value = *object;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_unlock(&spinlock))
		OBJC_ERROR("Failed to unlock spinlock!")
#endif

	if (class_respondsToSelector(object_getClass(value),
	    @selector(retainWeakReference)) && [value retainWeakReference])
		return value;

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void
objc_moveWeak(id *dest, id *src)
{
	struct weak_ref *ref;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_lock(&weak_refs_lock))
		OBJC_ERROR("Failed to lock spinlock!")
#endif

	if ((ref = objc_hashtable_get(weak_refs, *src)) != NULL) {
		for (size_t i = 0; i < ref->count; i++) {
			if (ref->locations[i] == src) {
				ref->locations[i] = dest;
				break;
			}
		}
	}

	*dest = *src;
	*src = nil;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_unlock(&weak_refs_lock))
		OBJC_ERROR("Failed to unlock spinlock!")
#endif
}

void
objc_zero_weak_references(id value)
{
	struct weak_ref *ref;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_lock(&weak_refs_lock))
		OBJC_ERROR("Failed to lock spinlock!")
#endif

	if ((ref = objc_hashtable_get(weak_refs, value)) != NULL) {
		for (size_t i = 0; i < ref->count; i++)
			*ref->locations[i] = nil;

		objc_hashtable_delete(weak_refs, value);
		free(ref->locations);
		free(ref);
	}

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_unlock(&weak_refs_lock))
		OBJC_ERROR("Failed to unlock spinlock!")
#endif
}







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void
objc_moveWeak(id *dest, id *src)
{
	struct weak_ref *ref;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_lock(&spinlock))
		OBJC_ERROR("Failed to lock spinlock!")
#endif

	if ((ref = objc_hashtable_get(hashtable, *src)) != NULL) {
		for (size_t i = 0; i < ref->count; i++) {
			if (ref->locations[i] == src) {
				ref->locations[i] = dest;
				break;
			}
		}
	}

	*dest = *src;
	*src = nil;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_unlock(&spinlock))
		OBJC_ERROR("Failed to unlock spinlock!")
#endif
}

void
objc_zero_weak_references(id value)
{
	struct weak_ref *ref;

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_lock(&spinlock))
		OBJC_ERROR("Failed to lock spinlock!")
#endif

	if ((ref = objc_hashtable_get(hashtable, value)) != NULL) {
		for (size_t i = 0; i < ref->count; i++)
			*ref->locations[i] = nil;

		objc_hashtable_delete(hashtable, value);
		free(ref->locations);
		free(ref);
	}

#ifdef OF_HAVE_THREADS
	if (!of_spinlock_unlock(&spinlock))
		OBJC_ERROR("Failed to unlock spinlock!")
#endif
}

Modified src/runtime/category.m from [84e94f572f] to [768ffeb962].

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#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#import "runtime.h"
#import "runtime-private.h"

#import "globals.h"
#define categories objc_globals.categories

static void
register_selectors(struct objc_abi_category *cat)
{
	for (struct objc_abi_method_list *ml = cat->instance_methods;
	    ml != NULL; ml = ml->next)
		for (unsigned int i = 0; i < ml->count; i++)







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#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#import "runtime.h"
#import "runtime-private.h"


static struct objc_hashtable *categories = NULL;

static void
register_selectors(struct objc_abi_category *cat)
{
	for (struct objc_abi_method_list *ml = cat->instance_methods;
	    ml != NULL; ml = ml->next)
		for (unsigned int i = 0; i < ml->count; i++)

Modified src/runtime/class.m from [de3e6ed813] to [aedf6b0f5f].

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#include <limits.h>

#include <assert.h>

#import "runtime.h"
#import "runtime-private.h"

#import "globals.h"
#define classes objc_globals.classes
#define classes_cnt objc_globals.classes_cnt
#define load_queue objc_globals.load_queue
#define load_queue_cnt objc_globals.load_queue_cnt
#define empty_dtable objc_globals.empty_dtable
#define lookups_till_fast_path objc_globals.lookups_till_fast_path
#define fast_path objc_globals.fast_path

static void
register_class(struct objc_abi_class *cls)
{
	if (classes == NULL)
		classes = objc_hashtable_new(
		    objc_hash_string, objc_equal_string, 2);







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#include <limits.h>

#include <assert.h>

#import "runtime.h"
#import "runtime-private.h"


static struct objc_hashtable *classes = NULL;
static unsigned classes_cnt = 0;
static Class *load_queue = NULL;
static size_t load_queue_cnt = 0;
static struct objc_dtable *empty_dtable = NULL;
static unsigned lookups_till_fast_path = 128;
static struct objc_sparsearray *fast_path = NULL;

static void
register_class(struct objc_abi_class *cls)
{
	if (classes == NULL)
		classes = objc_hashtable_new(
		    objc_hash_string, objc_equal_string, 2);

Modified src/runtime/dtable.m from [da0a13a473] to [6f5c36ea25].

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#include <stdio.h>
#include <stdlib.h>

#import "runtime.h"
#import "runtime-private.h"

#import "globals.h"
#define empty_dtable_level2 objc_globals.empty_dtable_level2

#define empty_dtable_level3 objc_globals.empty_dtable_level3


static void
init(void)
{
	empty_dtable_level2 = malloc(sizeof(struct objc_dtable_level2));
	if (empty_dtable_level2 == NULL)
		OBJC_ERROR("Not enough memory to allocate dtable!");

#ifdef OF_SELUID24
	empty_dtable_level3 = malloc(sizeof(struct objc_dtable_level3));
	if (empty_dtable_level3 == NULL)
		OBJC_ERROR("Not enough memory to allocate dtable!");
#endif

#ifdef OF_SELUID24
	for (uint_fast16_t i = 0; i < 256; i++) {
		empty_dtable_level2->buckets[i] = empty_dtable_level3;
		empty_dtable_level3->buckets[i] = (IMP)0;
	}
#else
	for (uint_fast16_t i = 0; i < 256; i++)
		empty_dtable_level2->buckets[i] = (IMP)0;
#endif
}

struct objc_dtable *
objc_dtable_new(void)
{
	struct objc_dtable *dtable;

#ifdef OF_SELUID24
	if (empty_dtable_level2 == NULL || empty_dtable_level3 == NULL)
		init();
#else
	if (empty_dtable_level2 == NULL)
		init();
#endif

	if ((dtable = malloc(sizeof(struct objc_dtable))) == NULL)
		OBJC_ERROR("Not enough memory to allocate dtable!");

	for (uint_fast16_t i = 0; i < 256; i++)
		dtable->buckets[i] = empty_dtable_level2;

	return dtable;
}

void
objc_dtable_copy(struct objc_dtable *dst, struct objc_dtable *src)
{
	for (uint_fast16_t i = 0; i < 256; i++) {
		if (src->buckets[i] == empty_dtable_level2)
			continue;

#ifdef OF_SELUID24
		for (uint_fast16_t j = 0; j < 256; j++) {
			if (src->buckets[i]->buckets[j] == empty_dtable_level3)
				continue;

			for (uint_fast16_t k = 0; k < 256; k++) {
				IMP obj;
				uint32_t idx;

				obj = src->buckets[i]->buckets[j]->buckets[k];







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#include <stdio.h>
#include <stdlib.h>

#import "runtime.h"
#import "runtime-private.h"


static struct objc_dtable_level2 *empty_level2 = NULL;
#ifdef OF_SELUID24
static struct objc_dtable_level3 *empty_level3 = NULL;
#endif

static void
init(void)
{
	empty_level2 = malloc(sizeof(struct objc_dtable_level2));
	if (empty_level2 == NULL)
		OBJC_ERROR("Not enough memory to allocate dtable!");

#ifdef OF_SELUID24
	empty_level3 = malloc(sizeof(struct objc_dtable_level3));
	if (empty_level3 == NULL)
		OBJC_ERROR("Not enough memory to allocate dtable!");
#endif

#ifdef OF_SELUID24
	for (uint_fast16_t i = 0; i < 256; i++) {
		empty_level2->buckets[i] = empty_level3;
		empty_level3->buckets[i] = (IMP)0;
	}
#else
	for (uint_fast16_t i = 0; i < 256; i++)
		empty_level2->buckets[i] = (IMP)0;
#endif
}

struct objc_dtable *
objc_dtable_new(void)
{
	struct objc_dtable *dtable;

#ifdef OF_SELUID24
	if (empty_level2 == NULL || empty_level3 == NULL)
		init();
#else
	if (empty_level2 == NULL)
		init();
#endif

	if ((dtable = malloc(sizeof(struct objc_dtable))) == NULL)
		OBJC_ERROR("Not enough memory to allocate dtable!");

	for (uint_fast16_t i = 0; i < 256; i++)
		dtable->buckets[i] = empty_level2;

	return dtable;
}

void
objc_dtable_copy(struct objc_dtable *dst, struct objc_dtable *src)
{
	for (uint_fast16_t i = 0; i < 256; i++) {
		if (src->buckets[i] == empty_level2)
			continue;

#ifdef OF_SELUID24
		for (uint_fast16_t j = 0; j < 256; j++) {
			if (src->buckets[i]->buckets[j] == empty_level3)
				continue;

			for (uint_fast16_t k = 0; k < 256; k++) {
				IMP obj;
				uint32_t idx;

				obj = src->buckets[i]->buckets[j]->buckets[k];
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	uint8_t j = idx >> 8;
	uint8_t k = idx;
#else
	uint8_t i = idx >> 8;
	uint8_t j = idx;
#endif

	if (dtable->buckets[i] == empty_dtable_level2) {
		struct objc_dtable_level2 *level2 =
		    malloc(sizeof(struct objc_dtable_level2));

		if (level2 == NULL)
			OBJC_ERROR("Not enough memory to insert into dtable!");

		for (uint_fast16_t l = 0; l < 256; l++)
#ifdef OF_SELUID24
			level2->buckets[l] = empty_dtable_level3;
#else
			level2->buckets[l] = (IMP)0;
#endif

		dtable->buckets[i] = level2;
	}

#ifdef OF_SELUID24
	if (dtable->buckets[i]->buckets[j] == empty_dtable_level3) {
		struct objc_dtable_level3 *level3 =
		    malloc(sizeof(struct objc_dtable_level3));

		if (level3 == NULL)
			OBJC_ERROR("Not enough memory to insert into dtable!");

		for (uint_fast16_t l = 0; l < 256; l++)







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	uint8_t j = idx >> 8;
	uint8_t k = idx;
#else
	uint8_t i = idx >> 8;
	uint8_t j = idx;
#endif

	if (dtable->buckets[i] == empty_level2) {
		struct objc_dtable_level2 *level2 =
		    malloc(sizeof(struct objc_dtable_level2));

		if (level2 == NULL)
			OBJC_ERROR("Not enough memory to insert into dtable!");

		for (uint_fast16_t l = 0; l < 256; l++)
#ifdef OF_SELUID24
			level2->buckets[l] = empty_level3;
#else
			level2->buckets[l] = (IMP)0;
#endif

		dtable->buckets[i] = level2;
	}

#ifdef OF_SELUID24
	if (dtable->buckets[i]->buckets[j] == empty_level3) {
		struct objc_dtable_level3 *level3 =
		    malloc(sizeof(struct objc_dtable_level3));

		if (level3 == NULL)
			OBJC_ERROR("Not enough memory to insert into dtable!");

		for (uint_fast16_t l = 0; l < 256; l++)
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#endif
}

void
objc_dtable_free(struct objc_dtable *dtable)
{
	for (uint_fast16_t i = 0; i < 256; i++) {
		if (dtable->buckets[i] == empty_dtable_level2)
			continue;

#ifdef OF_SELUID24
		for (uint_fast16_t j = 0; j < 256; j++)
			if (dtable->buckets[i]->buckets[j] !=
			    empty_dtable_level3)
				free(dtable->buckets[i]->buckets[j]);
#endif

		free(dtable->buckets[i]);
	}

	free(dtable);
}

void
objc_dtable_cleanup(void)
{
	if (empty_dtable_level2 != NULL)
		free(empty_dtable_level2);
#ifdef OF_SELUID24
	if (empty_dtable_level3 != NULL)
		free(empty_dtable_level3);
#endif

	empty_dtable_level2 = NULL;
#ifdef OF_SELUID24
	empty_dtable_level3 = NULL;
#endif
}







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#endif
}

void
objc_dtable_free(struct objc_dtable *dtable)
{
	for (uint_fast16_t i = 0; i < 256; i++) {
		if (dtable->buckets[i] == empty_level2)
			continue;

#ifdef OF_SELUID24
		for (uint_fast16_t j = 0; j < 256; j++)
			if (dtable->buckets[i]->buckets[j] != empty_level3)

				free(dtable->buckets[i]->buckets[j]);
#endif

		free(dtable->buckets[i]);
	}

	free(dtable);
}

void
objc_dtable_cleanup(void)
{
	if (empty_level2 != NULL)
		free(empty_level2);
#ifdef OF_SELUID24
	if (empty_level3 != NULL)
		free(empty_level3);
#endif

	empty_level2 = NULL;
#ifdef OF_SELUID24
	empty_level3 = NULL;
#endif
}

Deleted src/runtime/globals.h version [4d94664fb8].

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/*
 * Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017
 *   Jonathan Schleifer <js@heap.zone>
 *
 * All rights reserved.
 *
 * This file is part of ObjFW. It may be distributed under the terms of the
 * Q Public License 1.0, which can be found in the file LICENSE.QPL included in
 * the packaging of this file.
 *
 * Alternatively, it may be distributed under the terms of the GNU General
 * Public License, either version 2 or 3, which can be found in the file
 * LICENSE.GPLv2 or LICENSE.GPLv3 respectively included in the packaging of this
 * file.
 */

#include "config.h"

#import "runtime-private.h"

#ifdef OF_HAVE_THREADS
# import "threading.h"
#endif

/* All globals used by the runtime */
struct objc_globals {
	/* arc.m */
	struct objc_hashtable *weak_refs;
#ifdef OF_HAVE_THREADS
	of_spinlock_t weak_refs_lock;
#endif

	/* category.m */
	struct objc_hashtable *categories;

	/* class.m */
	struct objc_hashtable *classes;
	unsigned classes_cnt;
	Class *load_queue;
	size_t load_queue_cnt;
	struct objc_dtable *empty_dtable;
	unsigned lookups_till_fast_path;
	struct objc_sparsearray *fast_path;

	/* dtable.m */
	struct objc_dtable_level2 *empty_dtable_level2;
#ifdef OF_SELUID24
	struct objc_dtable_level3 *empty_dtable_level3;
#endif

	/* lookup.m */
	IMP forward_handler;
	IMP forward_handler_stret;

	/* misc.m */
	objc_enumeration_mutation_handler enumeration_mutation_handler;

	/* property.m */
#ifdef OF_HAVE_THREADS
# define NUM_PROPERTY_LOCKS 8	/* needs to be a power of 2 */
	of_spinlock_t property_locks[NUM_PROPERTY_LOCKS];
#endif

	/* selector.m */
	struct objc_hashtable *selectors;
	uint32_t selectors_cnt;
	struct objc_sparsearray *selector_names;
	void **ptrs_to_free;
	size_t ptrs_to_free_cnt;

	/* static-instances.m */
	struct objc_abi_static_instances **static_instances;
	size_t static_instances_cnt;

	/* synchronized.m */
#ifdef OF_HAVE_THREADS
	struct synchronized_lock {
		id object;
		int count;
		of_rmutex_t rmutex;
		struct synchronized_lock *next;
	} *synchronized_locks;
	of_mutex_t synchronized_locks_lock;
#endif

	/* threading.m */
#ifdef OF_HAVE_THREADS
	of_rmutex_t global_mutex;
	of_once_t global_once_control;
#endif
};

extern struct objc_globals objc_globals;
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Modified src/runtime/init.m from [631c262625] to [56c8216488].

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 */

#include "config.h"

#import "runtime.h"
#import "runtime-private.h"

#import "globals.h"

struct objc_globals objc_globals = {
#ifdef OF_HAVE_THREADS
	.global_once_control = OF_ONCE_INIT,
#endif
	.lookups_till_fast_path = 128
};

void
__objc_exec_class(void *module_)
{
	struct objc_abi_module *module = module_;

	objc_global_mutex_lock();








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 */

#include "config.h"

#import "runtime.h"
#import "runtime-private.h"










void
__objc_exec_class(void *module_)
{
	struct objc_abi_module *module = module_;

	objc_global_mutex_lock();

Modified src/runtime/lookup.m from [5175096ba7] to [b142ca0e6c].

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	Class isa;
}

+ (BOOL)resolveClassMethod: (SEL)selector;
+ (BOOL)resolveInstanceMethod: (SEL)selector;
@end

#import "globals.h"
#define forward_handler objc_globals.forward_handler
#define forward_handler_stret objc_globals.forward_handler_stret

static IMP
common_method_not_found(id obj, SEL sel, IMP (*lookup)(id, SEL), IMP forward)
{
	/*
	 * obj might be a dummy object (see class_getMethodImplementation), so
	 * don't access obj directly unless it's a class!







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	Class isa;
}

+ (BOOL)resolveClassMethod: (SEL)selector;
+ (BOOL)resolveInstanceMethod: (SEL)selector;
@end


static IMP forward_handler = (IMP)0;
static IMP forward_handler_stret = (IMP)0;

static IMP
common_method_not_found(id obj, SEL sel, IMP (*lookup)(id, SEL), IMP forward)
{
	/*
	 * obj might be a dummy object (see class_getMethodImplementation), so
	 * don't access obj directly unless it's a class!

Modified src/runtime/misc.m from [14423bcc6c] to [8f9e858d65].

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#include <stdio.h>
#include <stdlib.h>

#include "runtime.h"
#include "runtime-private.h"

#import "globals.h"
#define enumeration_mutation_handler objc_globals.enumeration_mutation_handler

void
objc_enumerationMutation(id obj)
{
	if (enumeration_mutation_handler != NULL)
		enumeration_mutation_handler(obj);
	else







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#include <stdio.h>
#include <stdlib.h>

#include "runtime.h"
#include "runtime-private.h"


static objc_enumeration_mutation_handler enumeration_mutation_handler = NULL;

void
objc_enumerationMutation(id obj)
{
	if (enumeration_mutation_handler != NULL)
		enumeration_mutation_handler(obj);
	else

Modified src/runtime/property.m from [63a32b597a] to [f610db3f7e].

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#include <string.h>

#import "runtime.h"
#import "runtime-private.h"

#import "OFObject.h"

#import "globals.h"
#define property_locks objc_globals.property_locks

#ifdef OF_HAVE_THREADS
# import "threading.h"

# define SPINLOCK_HASH(p) \
    ((unsigned)((uintptr_t)p >> 4) & (NUM_PROPERTY_LOCKS - 1))



OF_CONSTRUCTOR()
{
	for (size_t i = 0; i < NUM_PROPERTY_LOCKS; i++)
		if (!of_spinlock_new(&property_locks[i]))
			OBJC_ERROR("Failed to initialize spinlocks!")
}
#endif

id
objc_getProperty(id self, SEL _cmd, ptrdiff_t offset, BOOL atomic)
{
	if (atomic) {
		id *ptr = (id *)(void *)((char *)self + offset);
#ifdef OF_HAVE_THREADS
		unsigned hash = SPINLOCK_HASH(ptr);

		OF_ENSURE(of_spinlock_lock(&property_locks[hash]));
		@try {
			return [[*ptr retain] autorelease];
		} @finally {
			OF_ENSURE(of_spinlock_unlock(&property_locks[hash]));
		}
#else
		return [[*ptr retain] autorelease];
#endif
	}

	return *(id *)(void *)((char *)self + offset);
}

void
objc_setProperty(id self, SEL _cmd, ptrdiff_t offset, id value, BOOL atomic,
    signed char copy)
{
	if (atomic) {
		id *ptr = (id *)(void *)((char *)self + offset);
#ifdef OF_HAVE_THREADS
		unsigned hash = SPINLOCK_HASH(ptr);

		OF_ENSURE(of_spinlock_lock(&property_locks[hash]));
		@try {
#endif
			id old = *ptr;

			switch (copy) {
			case 0:
				*ptr = [value retain];
				break;
			case 2:
				*ptr = [value mutableCopy];
				break;
			default:
				*ptr = [value copy];
			}

			[old release];
#ifdef OF_HAVE_THREADS
		} @finally {
			OF_ENSURE(of_spinlock_unlock(&property_locks[hash]));
		}
#endif

		return;
	}

	id *ptr = (id *)(void *)((char *)self + offset);







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#include <string.h>

#import "runtime.h"
#import "runtime-private.h"

#import "OFObject.h"




#ifdef OF_HAVE_THREADS
# import "threading.h"
# define NUM_SPINLOCKS 8	/* needs to be a power of 2 */
# define SPINLOCK_HASH(p) ((unsigned)((uintptr_t)p >> 4) & (NUM_SPINLOCKS - 1))
static of_spinlock_t spinlocks[NUM_SPINLOCKS];
#endif

#ifdef OF_HAVE_THREADS
OF_CONSTRUCTOR()
{
	for (size_t i = 0; i < NUM_SPINLOCKS; i++)
		if (!of_spinlock_new(&spinlocks[i]))
			OBJC_ERROR("Failed to initialize spinlocks!")
}
#endif

id
objc_getProperty(id self, SEL _cmd, ptrdiff_t offset, BOOL atomic)
{
	if (atomic) {
		id *ptr = (id *)(void *)((char *)self + offset);
#ifdef OF_HAVE_THREADS
		unsigned hash = SPINLOCK_HASH(ptr);

		OF_ENSURE(of_spinlock_lock(&spinlocks[hash]));
		@try {
			return [[*ptr retain] autorelease];
		} @finally {
			OF_ENSURE(of_spinlock_unlock(&spinlocks[hash]));
		}
#else
		return [[*ptr retain] autorelease];
#endif
	}

	return *(id *)(void *)((char *)self + offset);
}

void
objc_setProperty(id self, SEL _cmd, ptrdiff_t offset, id value, BOOL atomic,
    signed char copy)
{
	if (atomic) {
		id *ptr = (id *)(void *)((char *)self + offset);
#ifdef OF_HAVE_THREADS
		unsigned hash = SPINLOCK_HASH(ptr);

		OF_ENSURE(of_spinlock_lock(&spinlocks[hash]));
		@try {
#endif
			id old = *ptr;

			switch (copy) {
			case 0:
				*ptr = [value retain];
				break;
			case 2:
				*ptr = [value mutableCopy];
				break;
			default:
				*ptr = [value copy];
			}

			[old release];
#ifdef OF_HAVE_THREADS
		} @finally {
			OF_ENSURE(of_spinlock_unlock(&spinlocks[hash]));
		}
#endif

		return;
	}

	id *ptr = (id *)(void *)((char *)self + offset);
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objc_getPropertyStruct(void *dest, const void *src, ptrdiff_t size, BOOL atomic,
    BOOL strong)
{
	if (atomic) {
#ifdef OF_HAVE_THREADS
		unsigned hash = SPINLOCK_HASH(src);

		OF_ENSURE(of_spinlock_lock(&property_locks[hash]));
#endif
		memcpy(dest, src, size);
#ifdef OF_HAVE_THREADS
		OF_ENSURE(of_spinlock_unlock(&property_locks[hash]));
#endif

		return;
	}

	memcpy(dest, src, size);
}

void
objc_setPropertyStruct(void *dest, const void *src, ptrdiff_t size, BOOL atomic,
    BOOL strong)
{
	if (atomic) {
#ifdef OF_HAVE_THREADS
		unsigned hash = SPINLOCK_HASH(src);

		OF_ENSURE(of_spinlock_lock(&property_locks[hash]));
#endif
		memcpy(dest, src, size);
#ifdef OF_HAVE_THREADS
		OF_ENSURE(of_spinlock_unlock(&property_locks[hash]));
#endif

		return;
	}

	memcpy(dest, src, size);
}







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objc_getPropertyStruct(void *dest, const void *src, ptrdiff_t size, BOOL atomic,
    BOOL strong)
{
	if (atomic) {
#ifdef OF_HAVE_THREADS
		unsigned hash = SPINLOCK_HASH(src);

		OF_ENSURE(of_spinlock_lock(&spinlocks[hash]));
#endif
		memcpy(dest, src, size);
#ifdef OF_HAVE_THREADS
		OF_ENSURE(of_spinlock_unlock(&spinlocks[hash]));
#endif

		return;
	}

	memcpy(dest, src, size);
}

void
objc_setPropertyStruct(void *dest, const void *src, ptrdiff_t size, BOOL atomic,
    BOOL strong)
{
	if (atomic) {
#ifdef OF_HAVE_THREADS
		unsigned hash = SPINLOCK_HASH(src);

		OF_ENSURE(of_spinlock_lock(&spinlocks[hash]));
#endif
		memcpy(dest, src, size);
#ifdef OF_HAVE_THREADS
		OF_ENSURE(of_spinlock_unlock(&spinlocks[hash]));
#endif

		return;
	}

	memcpy(dest, src, size);
}

Modified src/runtime/selector.m from [f5a125315c] to [57debffc40].

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# define SEL_MAX 0xFFFFFF
# define SEL_SIZE 3
#else
# define SEL_MAX 0xFFFF
# define SEL_SIZE 2
#endif

#import "globals.h"
#define selectors objc_globals.selectors
#define selectors_cnt objc_globals.selectors_cnt
#define selector_names objc_globals.selector_names
#define ptrs_to_free objc_globals.ptrs_to_free
#define ptrs_to_free_cnt objc_globals.ptrs_to_free_cnt

void
objc_register_selector(struct objc_abi_selector *sel)
{
	struct objc_selector *rsel;
	const char *name;








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# define SEL_MAX 0xFFFFFF
# define SEL_SIZE 3
#else
# define SEL_MAX 0xFFFF
# define SEL_SIZE 2
#endif


static struct objc_hashtable *selectors = NULL;
static uint32_t selectors_cnt = 0;
static struct objc_sparsearray *selector_names = NULL;
static void **free_list = NULL;
static size_t free_list_cnt = 0;

void
objc_register_selector(struct objc_abi_selector *sel)
{
	struct objc_selector *rsel;
	const char *name;

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		OBJC_ERROR("Not enough memory to allocate selector!");

	if ((sel->name = of_strdup(name)) == NULL)
		OBJC_ERROR("Not enough memory to allocate selector!");

	sel->types = NULL;

	if ((ptrs_to_free = realloc(ptrs_to_free,
	    sizeof(void *) * (ptrs_to_free_cnt + 2))) == NULL)
		OBJC_ERROR("Not enough memory to allocate selector!");

	ptrs_to_free[ptrs_to_free_cnt++] = sel;
	ptrs_to_free[ptrs_to_free_cnt++] = (char *)sel->name;

	objc_register_selector(sel);

	objc_global_mutex_unlock();
	return (SEL)sel;
}








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		OBJC_ERROR("Not enough memory to allocate selector!");

	if ((sel->name = of_strdup(name)) == NULL)
		OBJC_ERROR("Not enough memory to allocate selector!");

	sel->types = NULL;

	if ((free_list = realloc(free_list,
	    sizeof(void *) * (free_list_cnt + 2))) == NULL)
		OBJC_ERROR("Not enough memory to allocate selector!");

	free_list[free_list_cnt++] = sel;
	free_list[free_list_cnt++] = (char *)sel->name;

	objc_register_selector(sel);

	objc_global_mutex_unlock();
	return (SEL)sel;
}

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void
objc_unregister_all_selectors(void)
{
	objc_hashtable_free(selectors);
	objc_sparsearray_free(selector_names);

	if (ptrs_to_free != NULL) {
		for (size_t i = 0; i < ptrs_to_free_cnt; i++)
			free(ptrs_to_free[i]);

		free(ptrs_to_free);
	}

	selectors = NULL;
	selectors_cnt = 0;
	selector_names = NULL;
	ptrs_to_free = NULL;
	ptrs_to_free_cnt = 0;
}







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void
objc_unregister_all_selectors(void)
{
	objc_hashtable_free(selectors);
	objc_sparsearray_free(selector_names);

	if (free_list != NULL) {
		for (size_t i = 0; i < free_list_cnt; i++)
			free(free_list[i]);

		free(free_list);
	}

	selectors = NULL;
	selectors_cnt = 0;
	selector_names = NULL;
	free_list = NULL;
	free_list_cnt = 0;
}

Modified src/runtime/static-instances.m from [f2156324ce] to [e637d2916b].

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#include <stdio.h>
#include <stdlib.h>

#import "runtime.h"
#import "runtime-private.h"

#import "globals.h"
#define static_instances objc_globals.static_instances
#define static_instances_cnt objc_globals.static_instances_cnt

void
objc_init_static_instances(struct objc_abi_symtab *symtab)
{
	struct objc_abi_static_instances **si;

	/* Check if the class for a static instance became available */







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#include <stdio.h>
#include <stdlib.h>

#import "runtime.h"
#import "runtime-private.h"


static struct objc_abi_static_instances **static_instances = NULL;
static size_t static_instances_cnt = 0;

void
objc_init_static_instances(struct objc_abi_symtab *symtab)
{
	struct objc_abi_static_instances **si;

	/* Check if the class for a static instance became available */

Modified src/runtime/synchronized.m from [aae42e3525] to [5afa8ac0c0].

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#include <stdio.h>
#include <stdlib.h>

#import "runtime.h"
#import "runtime-private.h"

#import "globals.h"
#define synchronized_locks objc_globals.synchronized_locks
#define synchronized_locks_lock objc_globals.synchronized_locks_lock

#ifdef OF_HAVE_THREADS
# import "threading.h"










OF_CONSTRUCTOR()
{
	if (!of_mutex_new(&synchronized_locks_lock))
		OBJC_ERROR("Failed to create mutex!")
}
#endif

int
objc_sync_enter(id object)
{
	if (object == nil)
		return 0;

#ifdef OF_HAVE_THREADS
	struct synchronized_lock *lock;

	if (!of_mutex_lock(&synchronized_locks_lock))
		OBJC_ERROR("Failed to lock mutex!");

	/* Look if we already have a lock */
	for (lock = synchronized_locks; lock != NULL; lock = lock->next) {
		if (lock->object != object)
			continue;

		lock->count++;

		if (!of_mutex_unlock(&synchronized_locks_lock))
			OBJC_ERROR("Failed to unlock mutex!");

		if (!of_rmutex_lock(&lock->rmutex))
			OBJC_ERROR("Failed to lock mutex!");

		return 0;
	}

	/* Create a new lock */
	if ((lock = malloc(sizeof(*lock))) == NULL)
		OBJC_ERROR("Failed to allocate memory for mutex!");

	if (!of_rmutex_new(&lock->rmutex))
		OBJC_ERROR("Failed to create mutex!");

	lock->object = object;
	lock->count = 1;
	lock->next = synchronized_locks;

	synchronized_locks = lock;

	if (!of_mutex_unlock(&synchronized_locks_lock))
		OBJC_ERROR("Failed to unlock mutex!");

	if (!of_rmutex_lock(&lock->rmutex))
		OBJC_ERROR("Failed to lock mutex!");
#endif

	return 0;
}

int
objc_sync_exit(id object)
{
	if (object == nil)
		return 0;

#ifdef OF_HAVE_THREADS
	struct synchronized_lock *lock, *last = NULL;

	if (!of_mutex_lock(&synchronized_locks_lock))
		OBJC_ERROR("Failed to lock mutex!");

	for (lock = synchronized_locks; lock != NULL; lock = lock->next) {
		if (lock->object != object) {
			last = lock;
			continue;
		}

		if (!of_rmutex_unlock(&lock->rmutex))
			OBJC_ERROR("Failed to unlock mutex!");

		if (--lock->count == 0) {
			if (!of_rmutex_free(&lock->rmutex))
				OBJC_ERROR("Failed to destroy mutex!");

			if (last != NULL)
				last->next = lock->next;
			if (synchronized_locks == lock)
				synchronized_locks = lock->next;

			free(lock);
		}

		if (!of_mutex_unlock(&synchronized_locks_lock))
			OBJC_ERROR("Failed to unlock mutex!");

		return 0;
	}

	OBJC_ERROR("objc_sync_exit() was called for an object not locked!");
#else
	return 0;
#endif
}







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#include <stdio.h>
#include <stdlib.h>

#import "runtime.h"
#import "runtime-private.h"





#ifdef OF_HAVE_THREADS
# import "threading.h"

static struct lock_s {
	id	      object;
	int	      count;
	of_rmutex_t   rmutex;
	struct lock_s *next;
} *locks = NULL;

static of_mutex_t mutex;

OF_CONSTRUCTOR()
{
	if (!of_mutex_new(&mutex))
		OBJC_ERROR("Failed to create mutex!")
}
#endif

int
objc_sync_enter(id object)
{
	if (object == nil)
		return 0;

#ifdef OF_HAVE_THREADS
	struct lock_s *lock;

	if (!of_mutex_lock(&mutex))
		OBJC_ERROR("Failed to lock mutex!");

	/* Look if we already have a lock */
	for (lock = locks; lock != NULL; lock = lock->next) {
		if (lock->object != object)
			continue;

		lock->count++;

		if (!of_mutex_unlock(&mutex))
			OBJC_ERROR("Failed to unlock mutex!");

		if (!of_rmutex_lock(&lock->rmutex))
			OBJC_ERROR("Failed to lock mutex!");

		return 0;
	}

	/* Create a new lock */
	if ((lock = malloc(sizeof(*lock))) == NULL)
		OBJC_ERROR("Failed to allocate memory for mutex!");

	if (!of_rmutex_new(&lock->rmutex))
		OBJC_ERROR("Failed to create mutex!");

	lock->object = object;
	lock->count = 1;
	lock->next = locks;

	locks = lock;

	if (!of_mutex_unlock(&mutex))
		OBJC_ERROR("Failed to unlock mutex!");

	if (!of_rmutex_lock(&lock->rmutex))
		OBJC_ERROR("Failed to lock mutex!");
#endif

	return 0;
}

int
objc_sync_exit(id object)
{
	if (object == nil)
		return 0;

#ifdef OF_HAVE_THREADS
	struct lock_s *lock, *last = NULL;

	if (!of_mutex_lock(&mutex))
		OBJC_ERROR("Failed to lock mutex!");

	for (lock = locks; lock != NULL; lock = lock->next) {
		if (lock->object != object) {
			last = lock;
			continue;
		}

		if (!of_rmutex_unlock(&lock->rmutex))
			OBJC_ERROR("Failed to unlock mutex!");

		if (--lock->count == 0) {
			if (!of_rmutex_free(&lock->rmutex))
				OBJC_ERROR("Failed to destroy mutex!");

			if (last != NULL)
				last->next = lock->next;
			if (locks == lock)
				locks = lock->next;

			free(lock);
		}

		if (!of_mutex_unlock(&mutex))
			OBJC_ERROR("Failed to unlock mutex!");

		return 0;
	}

	OBJC_ERROR("objc_sync_exit() was called for an object not locked!");
#else
	return 0;
#endif
}

Modified src/runtime/threading.m from [e057f37307] to [1fbcc9555d].

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#include <stdio.h>
#include <stdlib.h>

#import "runtime.h"
#import "runtime-private.h"
#import "threading.h"

#import "globals.h"
#define global_mutex objc_globals.global_mutex
#define global_once_control objc_globals.global_once_control

static void
init(void)
{
	if (!of_rmutex_new(&global_mutex))
		OBJC_ERROR("Failed to create global mutex!");
}

void
objc_global_mutex_lock(void)
{
	of_once(&global_once_control, init);

	if (!of_rmutex_lock(&global_mutex))
		OBJC_ERROR("Failed to lock global mutex!");
}

void
objc_global_mutex_unlock(void)







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#include <stdio.h>
#include <stdlib.h>

#import "runtime.h"
#import "runtime-private.h"
#import "threading.h"


static of_rmutex_t global_mutex;
static of_once_t once_control = OF_ONCE_INIT;

static void
init(void)
{
	if (!of_rmutex_new(&global_mutex))
		OBJC_ERROR("Failed to create global mutex!");
}

void
objc_global_mutex_lock(void)
{
	of_once(&once_control, init);

	if (!of_rmutex_lock(&global_mutex))
		OBJC_ERROR("Failed to lock global mutex!");
}

void
objc_global_mutex_unlock(void)