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selector_table.c
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selector_table.c
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/**
* Handle selector uniquing.
*
* When building, you may define TYPE_DEPENDENT_DISPATCH to enable message
* sends to depend on their types.
*/
#include <string.h>
#include <stdio.h>
#include <assert.h>
#include <ctype.h>
#include "lock.h"
#include "sarray2.h"
#include "objc/runtime.h"
#include "method_list.h"
#include "class.h"
#include "selector.h"
#include "visibility.h"
#ifdef TYPE_DEPENDENT_DISPATCH
# define TDD(x) x
#else
# define TDD(x)
#endif
#define fprintf(...)
// Define the pool allocator for selectors. This is a simple bump-the-pointer
// allocator for low-overhead allocation.
#define POOL_NAME selector
#define POOL_TYPE struct objc_selector
#include "pool.h"
/**
* The number of selectors currently registered. When a selector is
* registered, its name field is replaced with its index in the selector_list
* array.
*/
static uint32_t selector_count = 1;
/**
* Mapping from selector numbers to selector names.
*/
PRIVATE SparseArray *selector_list = NULL;
// Get the functions for string hashing
#include "string_hash.h"
PRIVATE inline BOOL isSelRegistered(SEL sel)
{
if ((uintptr_t)sel->name < (uintptr_t)selector_count)
{
return YES;
}
return NO;
}
static const char *sel_getNameNonUnique(SEL sel)
{
const char *name = sel->name;
if (isSelRegistered(sel))
{
struct sel_type_list * list =
SparseArrayLookup(selector_list, sel->index);
name = (list == NULL) ? NULL : list->value;
}
if (NULL == name)
{
name = "";
}
return name;
}
/**
* Skip anything in a type encoding that is irrelevant to the comparison
* between selectors, including type qualifiers and argframe info.
*/
static const char *skip_irrelevant_type_info(const char *t)
{
switch (*t)
{
default: return t;
case 'r': case 'n': case 'N': case 'o': case 'O': case 'R':
case 'V': case '!': case '0'...'9':
return skip_irrelevant_type_info(t+1);
}
}
static BOOL selector_types_equal(const char *t1, const char *t2)
{
if (t1 == NULL || t2 == NULL) { return t1 == t2; }
while (('\0' != *t1) && ('\0' != *t1))
{
t1 = skip_irrelevant_type_info(t1);
t2 = skip_irrelevant_type_info(t2);
// This is a really ugly hack. For some stupid reason, the people
// designing Objective-C type encodings decided to allow * as a
// shorthand for char*, because strings are 'special'. Unfortunately,
// FSF GCC generates "*" for @encode(BOOL*), while Clang and Apple GCC
// generate "^c" or "^C" (depending on whether BOOL is declared
// unsigned).
//
// The correct fix is to remove * completely from type encodings, but
// unfortunately my time machine is broken so I can't travel to 1986
// and apply a cluebat to those responsible.
if ((*t1 == '*') && (*t2 != '*'))
{
if (*t2 == '^' && (((*(t2+1) == 'C') || (*(t2+2) == 'c'))))
{
t2++;
}
else
{
return NO;
}
}
else if ((*t2 == '*') && (*t1 != '*'))
{
if (*t1 == '^' && (((*(t1+1) == 'C') || (*(t1+1) == 'c'))))
{
t1++;
}
else
{
return NO;
}
}
else if (*t1 != *t2)
{
return NO;
}
if ('\0' != *t1) { t1++; }
if ('\0' != *t2) { t2++; }
}
return YES;
}
#ifdef TYPE_DEPENDENT_DISPATCH
static BOOL selector_types_equivalent(const char *t1, const char *t2)
{
// We always treat untyped selectors as having the same type as typed
// selectors, for dispatch purposes.
if (t1 == NULL || t2 == NULL) { return YES; }
return selector_types_equal(t1, t2);
}
#endif
/**
* Compare whether two selectors are identical.
*/
static int selector_identical(const void *k,
const SEL value)
{
SEL key = (SEL)k;
fprintf(stderr, "Comparing %s %s, %s %s\n", sel_getNameNonUnique(key), sel_getNameNonUnique(value), sel_getType_np(key), sel_getType_np(value));
return string_compare(sel_getNameNonUnique(key), sel_getNameNonUnique(value)) &&
selector_types_equal(sel_getType_np(key), sel_getType_np(value));
}
/**
* Compare selectors based on whether they are treated as equivalent for the
* purpose of dispatch.
*/
static int selector_equal(const void *k,
const SEL value)
{
#ifdef TYPE_DEPENDENT_DISPATCH
return selector_identical(k, value);
#else
SEL key = (SEL)k;
return string_compare(sel_getNameNonUnique(key), sel_getNameNonUnique(value));
#endif
}
/**
* Hash a selector.
*/
static inline uint32_t hash_selector(const void *s)
{
SEL sel = (SEL)s;
uint32_t hash = 5381;
const char *str = sel_getNameNonUnique(sel);
uint32_t c;
while((c = (uint32_t)*str++))
{
hash = hash * 33 + c;
}
#ifdef TYPE_DEPENDENT_DISPATCH
// We can't use all of the values in the type encoding for the hash,
// because our equality test is a bit more complex than simple string
// encoding (for example, * and ^C have to be considered equivalent, since
// they are both used as encodings for C strings in different situations)
if ((str = sel_getType_np(sel)))
{
while((c = (uint32_t)*str++))
{
switch (c)
{
case '@': case 'i': case 'I': case 'l': case 'L':
case 'q': case 'Q': case 's': case 'S':
hash = hash * 33 + c;
}
}
}
#endif
return hash;
}
#define MAP_TABLE_NAME selector
#define MAP_TABLE_COMPARE_FUNCTION selector_identical
#define MAP_TABLE_HASH_KEY hash_selector
#define MAP_TABLE_HASH_VALUE hash_selector
#include "hash_table.h"
/**
* Table of registered selector. Maps from selector to selector.
*/
static selector_table *sel_table;
/**
* Lock protecting the selector table.
*/
mutex_t selector_table_lock;
/**
* Resizes the dtables to ensure that they can store as many selectors as
* exist.
*/
void objc_resize_dtables(uint32_t);
/**
* Create data structures to store selectors.
*/
PRIVATE void init_selector_tables()
{
selector_list = SparseArrayNew();
INIT_LOCK(selector_table_lock);
selector_initialize(&sel_table, 4096);
}
static SEL selector_lookup(const char *name, const char *types)
{
struct objc_selector sel = {{name}, types};
return selector_table_get(sel_table, &sel);
}
static inline void add_selector_to_table(SEL aSel, int32_t uid, uint32_t idx)
{
//fprintf(stderr, "Sel %s uid: %d, idx: %d, hash: %d\n", sel_getNameNonUnique(aSel), uid, idx, hash_selector(aSel));
struct sel_type_list *typeList =
(struct sel_type_list *)selector_pool_alloc();
typeList->value = aSel->name;
typeList->next = 0;
// Store the name.
SparseArrayInsert(selector_list, idx, typeList);
// Store the selector.
selector_insert(sel_table, aSel);
// Set the selector's name to the uid.
aSel->name = (const char*)(uintptr_t)uid;
}
/**
* Really registers a selector. Must be called with the selector table locked.
*/
static inline void register_selector_locked(SEL aSel)
{
uintptr_t idx = selector_count++;
if (NULL == aSel->types)
{
fprintf(stderr, "Registering selector %d %s\n", (int)idx, sel_getNameNonUnique(aSel));
add_selector_to_table(aSel, idx, idx);
objc_resize_dtables(selector_count);
return;
}
SEL untyped = selector_lookup(aSel->name, 0);
// If this has a type encoding, store the untyped version too.
if (untyped == NULL)
{
untyped = selector_pool_alloc();
untyped->name = aSel->name;
untyped->types = 0;
fprintf(stderr, "Registering selector %d %s\n", (int)idx, sel_getNameNonUnique(aSel));
add_selector_to_table(untyped, idx, idx);
// If we are in type dependent dispatch mode, the uid for the typed
// and untyped versions will be different
idx++; selector_count++;
}
else
{
// Make sure we only store one name
aSel->name = sel_getNameNonUnique(untyped);
}
uintptr_t uid = (uintptr_t)untyped->name;
TDD(uid = idx);
fprintf(stderr, "Registering typed selector %d %s %s\n", (int)uid, sel_getNameNonUnique(aSel), sel_getType_np(aSel));
add_selector_to_table(aSel, uid, idx);
// Add this set of types to the list.
// This is quite horrible. Most selectors will only have one type
// encoding, so we're wasting a lot of memory like this.
struct sel_type_list *typeListHead =
SparseArrayLookup(selector_list, untyped->index);
struct sel_type_list *typeList =
(struct sel_type_list *)selector_pool_alloc();
typeList->value = aSel->types;
typeList->next = typeListHead->next;
typeListHead->next = typeList;
objc_resize_dtables(selector_count);
}
/**
* Registers a selector. This assumes that the argument is never deallocated.
*/
PRIVATE SEL objc_register_selector(SEL aSel)
{
if (isSelRegistered(aSel))
{
return aSel;
}
// Check that this isn't already registered, before we try
SEL registered = selector_lookup(aSel->name, aSel->types);
if (NULL != registered && selector_equal(aSel, registered))
{
aSel->name = registered->name;
return registered;
}
LOCK(&selector_table_lock);
register_selector_locked(aSel);
UNLOCK(&selector_table_lock);
return aSel;
}
/**
* Registers a selector by copying the argument.
*/
static SEL objc_register_selector_copy(SEL aSel, BOOL copyArgs)
{
// If an identical selector is already registered, return it.
SEL copy = selector_lookup(aSel->name, aSel->types);
//fprintf(stderr, "Checking if old selector is registered: %d (%d)\n", NULL != copy ? selector_equal(aSel, copy) : 0, ((NULL != copy) && selector_equal(aSel, copy)));
if ((NULL != copy) && selector_identical(aSel, copy))
{
//fprintf(stderr, "Not adding new copy\n");
return copy;
}
LOCK_FOR_SCOPE(&selector_table_lock);
copy = selector_lookup(aSel->name, aSel->types);
if (NULL != copy && selector_identical(aSel, copy))
{
return copy;
}
// Create a copy of this selector.
copy = selector_pool_alloc();
copy->name = copyArgs ? strdup(aSel->name) : aSel->name;
copy->types = (NULL == aSel->types) ? NULL :
(copyArgs ? strdup(aSel->types) : aSel->types);
// Try to register the copy as the authoritative version
register_selector_locked(copy);
return copy;
}
PRIVATE uint32_t sel_nextTypeIndex(uint32_t untypedIdx, uint32_t idx)
{
struct sel_type_list *list =
SparseArrayLookup(selector_list, untypedIdx);
if (NULL == list) { return 0; }
const char *selName = list->value;
list = list->next;
BOOL found = untypedIdx == idx;
while (NULL != list)
{
SEL sel = selector_lookup(selName, list->value);
if (sel->index == untypedIdx) { return 0; }
if (found)
{
return sel->index;
}
found = (sel->index == idx);
}
return 0;
}
/**
* Public API functions.
*/
const char *sel_getName(SEL sel)
{
if (NULL == sel) { return "<null selector>"; }
const char *name = sel->name;
if (isSelRegistered(sel))
{
struct sel_type_list * list =
SparseArrayLookup(selector_list, sel->index);
name = (list == NULL) ? NULL : list->value;
}
else
{
SEL old = selector_lookup(sel->name, sel->types);
if (NULL != old)
{
return sel_getName(old);
}
}
if (NULL == name)
{
name = "";
}
return name;
}
SEL sel_getUid(const char *selName)
{
return sel_registerName(selName);
}
BOOL sel_isEqual(SEL sel1, SEL sel2)
{
if ((0 == sel1) || (0 == sel2))
{
return sel1 == sel2;
}
if (sel1->name == sel2->name)
{
return YES;
}
// Otherwise, do a slow compare
return string_compare(sel_getNameNonUnique(sel1), sel_getNameNonUnique(sel2)) TDD(&&
(sel1->types == NULL || sel2->types == NULL ||
selector_types_equivalent(sel_getType_np(sel1), sel_getType_np(sel2))));
}
SEL sel_registerName(const char *selName)
{
if (NULL == selName) { return NULL; }
struct objc_selector sel = {{selName}, 0};
return objc_register_selector_copy(&sel, YES);
}
SEL sel_registerTypedName_np(const char *selName, const char *types)
{
if (NULL == selName) { return NULL; }
struct objc_selector sel = {{selName}, types};
return objc_register_selector_copy(&sel, YES);
}
const char *sel_getType_np(SEL aSel)
{
if (NULL == aSel) { return NULL; }
return aSel->types;
}
unsigned sel_copyTypes_np(const char *selName, const char **types, unsigned count)
{
if (NULL == selName) { return 0; }
SEL untyped = selector_lookup(selName, 0);
if (untyped == NULL) { return 0; }
struct sel_type_list *l =
SparseArrayLookup(selector_list, (uint32_t)(uintptr_t)untyped->name);
// Skip the head, which just contains the name, not the types.
l = l->next;
if (count == 0)
{
while (NULL != l)
{
count++;
l = l->next;
}
return count;
}
unsigned found = 0;
while (NULL != l)
{
if (found<count)
{
types[found] = l->value;
}
found++;
l = l->next;
}
return found;
}
unsigned sel_copyTypedSelectors_np(const char *selName, SEL *const sels, unsigned count)
{
if (NULL == selName) { return 0; }
SEL untyped = selector_lookup(selName, 0);
if (untyped == NULL) { return 0; }
struct sel_type_list *l =
SparseArrayLookup(selector_list, (uint32_t)(uintptr_t)untyped->name);
// Skip the head, which just contains the name, not the types.
l = l->next;
if (count == 0)
{
while (NULL != l)
{
count++;
l = l->next;
}
return count;
}
unsigned found = 0;
while (NULL != l && found<count)
{
sels[found++] = selector_lookup(selName, l->value);
l = l->next;
}
return found;
}
PRIVATE void objc_register_selectors_from_list(struct objc_method_list *l)
{
for (int i=0 ; i<l->count ; i++)
{
Method m = &l->methods[i];
struct objc_selector sel = { {(const char*)m->selector}, m->types };
m->selector = objc_register_selector_copy(&sel, NO);
}
}
/**
* Register all of the (unregistered) selectors that are used in a class.
*/
PRIVATE void objc_register_selectors_from_class(Class class)
{
for (struct objc_method_list *l=class->methods ; NULL!=l ; l=l->next)
{
objc_register_selectors_from_list(l);
}
}
PRIVATE void objc_register_selector_array(SEL selectors, unsigned long count)
{
// GCC is broken and always sets the count to 0, so we ignore count until
// we can throw stupid and buggy compilers in the bin.
for (unsigned long i=0 ; (NULL != selectors[i].name) ; i++)
{
objc_register_selector(&selectors[i]);
}
}
/**
* Legacy GNU runtime compatibility.
*
* All of the functions in this section are deprecated and should not be used
* in new code.
*/
#ifndef NO_LEGACY
SEL sel_get_typed_uid (const char *name, const char *types)
{
if (NULL == name) { return NULL; }
SEL sel = selector_lookup(name, types);
if (NULL == sel) { return sel_registerTypedName_np(name, types); }
struct sel_type_list *l =
SparseArrayLookup(selector_list, (uint32_t)(uintptr_t)sel->name);
// Skip the head, which just contains the name, not the types.
l = l->next;
if (NULL != l)
{
sel = selector_lookup(name, l->value);
}
return sel;
}
SEL sel_get_any_typed_uid (const char *name)
{
if (NULL == name) { return NULL; }
SEL sel = selector_lookup(name, 0);
if (NULL == sel) { return sel_registerName(name); }
struct sel_type_list *l =
SparseArrayLookup(selector_list, (uint32_t)(uintptr_t)sel->name);
// Skip the head, which just contains the name, not the types.
l = l->next;
if (NULL != l)
{
sel = selector_lookup(name, l->value);
}
return sel;
}
SEL sel_get_any_uid (const char *name)
{
return selector_lookup(name, 0);
}
SEL sel_get_uid(const char *name)
{
return selector_lookup(name, 0);
}
const char *sel_get_name(SEL selector)
{
return sel_getNameNonUnique(selector);
}
BOOL sel_is_mapped(SEL selector)
{
return isSelRegistered(selector);
}
const char *sel_get_type(SEL selector)
{
return sel_getType_np(selector);
}
SEL sel_register_name(const char *name)
{
return sel_registerName(name);
}
SEL sel_register_typed_name(const char *name, const char *type)
{
return sel_registerTypedName_np(name, type);
}
BOOL sel_eq(SEL s1, SEL s2)
{
return sel_isEqual(s1, s2);
}
#endif // NO_LEGACY