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RegexKitLite.m
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RegexKitLite.m
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//
// RegexKitLite.m
// http://regexkit.sourceforge.net/
// Licensed under the terms of the BSD License, as specified below.
//
/*
Copyright (c) 2008-2010, John Engelhart
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
* Neither the name of the Zang Industries nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <CoreFoundation/CFBase.h>
#include <CoreFoundation/CFArray.h>
#include <CoreFoundation/CFString.h>
#import <Foundation/NSArray.h>
#import <Foundation/NSDictionary.h>
#import <Foundation/NSError.h>
#import <Foundation/NSException.h>
#import <Foundation/NSNotification.h>
#import <Foundation/NSRunLoop.h>
#ifdef __OBJC_GC__
#import <Foundation/NSGarbageCollector.h>
#define RKL_STRONG_REF __strong
#define RKL_GC_VOLATILE volatile
#else // __OBJC_GC__
#define RKL_STRONG_REF
#define RKL_GC_VOLATILE
#endif // __OBJC_GC__
#if (defined(TARGET_OS_EMBEDDED) && (TARGET_OS_EMBEDDED != 0)) || (defined(TARGET_OS_IPHONE) && (TARGET_OS_IPHONE != 0)) || (defined(MAC_OS_X_VERSION_MIN_REQUIRED) && (MAC_OS_X_VERSION_MIN_REQUIRED >= 1050))
#include <objc/runtime.h>
#else
#include <objc/objc-runtime.h>
#endif
#include <libkern/OSAtomic.h>
#include <mach-o/loader.h>
#include <AvailabilityMacros.h>
#include <dlfcn.h>
#include <string.h>
#include <stdarg.h>
#include <stdlib.h>
#include <stdio.h>
#import "RegexKitLite.h"
// If the gcc flag -mmacosx-version-min is used with, for example, '=10.2', give a warning that the libicucore.dylib is only available on >= 10.3.
// If you are reading this comment because of this warning, this is to let you know that linking to /usr/lib/libicucore.dylib will cause your executable to fail on < 10.3.
// You will need to build your own version of the ICU library and link to that in order for RegexKitLite to work successfully on < 10.3. This is not simple.
#if MAC_OS_X_VERSION_MIN_REQUIRED < 1030
#warning The ICU dynamic shared library, /usr/lib/libicucore.dylib, is only available on Mac OS X 10.3 and later.
#warning You will need to supply a version of the ICU library to use RegexKitLite on Mac OS X 10.2 and earlier.
#endif
////////////
#pragma mark Compile time tunables
#ifndef RKL_CACHE_SIZE
#define RKL_CACHE_SIZE (13UL)
#endif
#if RKL_CACHE_SIZE < 1
#error RKL_CACHE_SIZE must be a non-negative number greater than 0.
#endif // RKL_CACHE_SIZE < 1
#ifndef RKL_FIXED_LENGTH
#define RKL_FIXED_LENGTH (2048UL)
#endif
#if RKL_FIXED_LENGTH < 1
#error RKL_FIXED_LENGTH must be a non-negative number greater than 0.
#endif // RKL_FIXED_LENGTH < 1
#ifndef RKL_STACK_LIMIT
#define RKL_STACK_LIMIT (128UL * 1024UL)
#endif
#if RKL_STACK_LIMIT < 0
#error RKL_STACK_LIMIT must be a non-negative number.
#endif // RKL_STACK_LIMIT < 0
#ifdef RKL_APPEND_TO_ICU_FUNCTIONS
#define RKL_ICU_FUNCTION_APPEND(x) _RKL_CONCAT(x, RKL_APPEND_TO_ICU_FUNCTIONS)
#else // RKL_APPEND_TO_ICU_FUNCTIONS
#define RKL_ICU_FUNCTION_APPEND(x) x
#endif // RKL_APPEND_TO_ICU_FUNCTIONS
#if defined(RKL_DTRACE) && (RKL_DTRACE != 0)
#define _RKL_DTRACE_ENABLED 1
#endif // defined(RKL_DTRACE) && (RKL_DTRACE != 0)
// These are internal, non-public tunables.
#define _RKL_FIXED_LENGTH ((NSUInteger)RKL_FIXED_LENGTH)
#define _RKL_STACK_LIMIT ((NSUInteger)RKL_STACK_LIMIT)
#define _RKL_SCRATCH_BUFFERS (5UL)
#if _RKL_SCRATCH_BUFFERS != 5
#error _RKL_SCRATCH_BUFFERS is not tunable, it must be set to 5.
#endif // _RKL_SCRATCH_BUFFERS != 5
#define _RKL_PREFETCH_SIZE (64UL)
#define _RKL_DTRACE_REGEXUTF8_SIZE (64UL)
// A LRU Cache Set holds 4 lines, and the LRU algorithm uses 4 bits per line.
// A LRU Cache Set has a type of RKLLRUCacheSet_t and is 16 bits wide (4 lines * 4 bits per line).
// RKLLRUCacheSet_t must be initialized to a value of 0x0137 in order to work correctly.
typedef uint16_t RKLLRUCacheSet_t;
#define _RKL_LRU_CACHE_SET_INIT ((RKLLRUCacheSet_t)0x0137U)
#define _RKL_LRU_CACHE_SET_WAYS (4UL)
#if _RKL_LRU_CACHE_SET_WAYS != 4
#error _RKL_LRU_CACHE_SET_WAYS is not tunable, it must be set to 4.
#endif // _RKL_LRU_CACHE_SET_WAYS != 4
#define _RKL_REGEX_LRU_CACHE_SETS ((NSUInteger)(RKL_CACHE_SIZE))
#define _RKL_REGEX_CACHE_LINES ((NSUInteger)((NSUInteger)(_RKL_REGEX_LRU_CACHE_SETS) * (NSUInteger)(_RKL_LRU_CACHE_SET_WAYS)))
// Regex String Lookaside Cache parameters.
#define _RKL_REGEX_LOOKASIDE_CACHE_BITS (6UL)
#if _RKL_REGEX_LOOKASIDE_CACHE_BITS < 0
#error _RKL_REGEX_LOOKASIDE_CACHE_BITS must be a non-negative number and is not intended to be user tunable.
#endif // _RKL_REGEX_LOOKASIDE_CACHE_BITS < 0
#define _RKL_REGEX_LOOKASIDE_CACHE_SIZE (1LU << _RKL_REGEX_LOOKASIDE_CACHE_BITS)
#define _RKL_REGEX_LOOKASIDE_CACHE_MASK ((1LU << _RKL_REGEX_LOOKASIDE_CACHE_BITS) - 1LU)
// RKLLookasideCache_t should be large enough to to hold the maximum number of cached regexes, or (RKL_CACHE_SIZE * _RKL_LRU_CACHE_SET_WAYS).
#if (RKL_CACHE_SIZE * _RKL_LRU_CACHE_SET_WAYS) <= (1 << 8)
typedef uint8_t RKLLookasideCache_t;
#elif (RKL_CACHE_SIZE * _RKL_LRU_CACHE_SET_WAYS) <= (1 << 16)
typedef uint16_t RKLLookasideCache_t;
#else // (RKL_CACHE_SIZE * _RKL_LRU_CACHE_SET_WAYS) > (1 << 16)
typedef uint32_t RKLLookasideCache_t;
#endif // (RKL_CACHE_SIZE * _RKL_LRU_CACHE_SET_WAYS)
//////////////
#pragma mark -
#pragma mark GCC / Compiler macros
#if defined (__GNUC__) && (__GNUC__ >= 4)
#define RKL_ATTRIBUTES(attr, ...) __attribute__((attr, ##__VA_ARGS__))
#define RKL_EXPECTED(cond, expect) __builtin_expect((long)(cond), (expect))
#define RKL_PREFETCH(ptr) __builtin_prefetch(ptr)
#define RKL_PREFETCH_UNICHAR(ptr, off) { const char *p = ((const char *)(ptr)) + ((off) * sizeof(UniChar)) + _RKL_PREFETCH_SIZE; RKL_PREFETCH(p); RKL_PREFETCH(p + _RKL_PREFETCH_SIZE); }
#define RKL_HAVE_CLEANUP
#define RKL_CLEANUP(func) RKL_ATTRIBUTES(cleanup(func))
#else // defined (__GNUC__) && (__GNUC__ >= 4)
#define RKL_ATTRIBUTES(attr, ...)
#define RKL_EXPECTED(cond, expect) (cond)
#define RKL_PREFETCH(ptr)
#define RKL_PREFETCH_UNICHAR(ptr, off)
#define RKL_CLEANUP(func)
#endif // defined (__GNUC__) && (__GNUC__ >= 4)
#define RKL_STATIC_INLINE static __inline__ RKL_ATTRIBUTES(always_inline)
#define RKL_ALIGNED(arg) RKL_ATTRIBUTES(aligned(arg))
#define RKL_UNUSED_ARG RKL_ATTRIBUTES(unused)
#define RKL_WARN_UNUSED RKL_ATTRIBUTES(warn_unused_result)
#define RKL_WARN_UNUSED_CONST RKL_ATTRIBUTES(warn_unused_result, const)
#define RKL_WARN_UNUSED_PURE RKL_ATTRIBUTES(warn_unused_result, pure)
#define RKL_WARN_UNUSED_SENTINEL RKL_ATTRIBUTES(warn_unused_result, sentinel)
#define RKL_NONNULL_ARGS(arg, ...) RKL_ATTRIBUTES(nonnull(arg, ##__VA_ARGS__))
#define RKL_WARN_UNUSED_NONNULL_ARGS(arg, ...) RKL_ATTRIBUTES(warn_unused_result, nonnull(arg, ##__VA_ARGS__))
#define RKL_WARN_UNUSED_CONST_NONNULL_ARGS(arg, ...) RKL_ATTRIBUTES(warn_unused_result, const, nonnull(arg, ##__VA_ARGS__))
#define RKL_WARN_UNUSED_PURE_NONNULL_ARGS(arg, ...) RKL_ATTRIBUTES(warn_unused_result, pure, nonnull(arg, ##__VA_ARGS__))
#if defined (__GNUC__) && (__GNUC__ >= 4) && (__GNUC_MINOR__ >= 3)
#define RKL_ALLOC_SIZE_NON_NULL_ARGS_WARN_UNUSED(as, nn, ...) RKL_ATTRIBUTES(warn_unused_result, nonnull(nn, ##__VA_ARGS__), alloc_size(as))
#else // defined (__GNUC__) && (__GNUC__ >= 4) && (__GNUC_MINOR__ >= 3)
#define RKL_ALLOC_SIZE_NON_NULL_ARGS_WARN_UNUSED(as, nn, ...) RKL_ATTRIBUTES(warn_unused_result, nonnull(nn, ##__VA_ARGS__))
#endif // defined (__GNUC__) && (__GNUC__ >= 4) && (__GNUC_MINOR__ >= 3)
#ifdef _RKL_DTRACE_ENABLED
#define RKL_UNUSED_DTRACE_ARG
#else // _RKL_DTRACE_ENABLED
#define RKL_UNUSED_DTRACE_ARG RKL_ATTRIBUTES(unused)
#endif // _RKL_DTRACE_ENABLED
////////////
#pragma mark -
#pragma mark Assertion macros
// These macros are nearly identical to their NSCParameterAssert siblings.
// This is required because nearly everything is done while rkl_cacheSpinLock is locked.
// We need to safely unlock before throwing any of these exceptions.
// @try {} @finally {} significantly slows things down so it's not used.
#define RKLCHardAbortAssert(c) do { int _c=(c); if(RKL_EXPECTED(!_c, 0L)) { NSLog(@"%@:%ld: Invalid parameter not satisfying: %s\n", [NSString stringWithUTF8String:__FILE__], (long)__LINE__, #c); abort(); } } while(0)
#define RKLCAssertDictionary(d, ...) rkl_makeAssertDictionary(__PRETTY_FUNCTION__, __FILE__, __LINE__, (d), ##__VA_ARGS__)
#define RKLCDelayedHardAssert(c, e, g) do { id *_e=(e); int _c=(c); if(RKL_EXPECTED(_e == NULL, 0L) || RKL_EXPECTED(*_e != NULL, 0L)) { goto g; } if(RKL_EXPECTED(!_c, 0L)) { *_e = RKLCAssertDictionary(@"Invalid parameter not satisfying: %s", #c); goto g; } } while(0)
#ifdef NS_BLOCK_ASSERTIONS
#define RKLCAbortAssert(c)
#define RKLCDelayedAssert(c, e, g)
#define RKL_UNUSED_ASSERTION_ARG RKL_ATTRIBUTES(unused)
#else // NS_BLOCK_ASSERTIONS
#define RKLCAbortAssert(c) RKLCHardAbortAssert(c)
#define RKLCDelayedAssert(c, e, g) RKLCDelayedHardAssert(c, e, g)
#define RKL_UNUSED_ASSERTION_ARG
#endif // NS_BLOCK_ASSERTIONS
#define RKL_EXCEPTION(e, f, ...) [NSException exceptionWithName:(e) reason:rkl_stringFromClassAndMethod((self), (_cmd), (f), ##__VA_ARGS__) userInfo:NULL]
#define RKL_RAISE_EXCEPTION(e, f, ...) [RKL_EXCEPTION(e, f, ##__VA_ARGS__) raise]
////////////
#pragma mark -
#pragma mark Utility functions and macros
RKL_STATIC_INLINE BOOL NSRangeInsideRange(NSRange cin, NSRange win) RKL_WARN_UNUSED;
RKL_STATIC_INLINE BOOL NSRangeInsideRange(NSRange cin, NSRange win) { return((((cin.location - win.location) <= win.length) && ((NSMaxRange(cin) - win.location) <= win.length)) ? YES : NO); }
#define NSMakeRange(loc, len) ((NSRange){.location=(NSUInteger)(loc), .length=(NSUInteger)(len)})
#define CFMakeRange(loc, len) ((CFRange){.location= (CFIndex)(loc), .length= (CFIndex)(len)})
#define NSNotFoundRange ((NSRange){.location=(NSUInteger)NSNotFound, .length= 0UL})
#define NSMaxiumRange ((NSRange){.location= 0UL, .length= NSUIntegerMax})
// These values are used to help tickle improper usage.
#define RKLIllegalRange ((NSRange){.location= NSIntegerMax, .length= NSIntegerMax})
#define RKLIllegalPointer ((void * RKL_GC_VOLATILE)0xBAD0C0DE)
////////////
#pragma mark -
#pragma mark Exported NSString symbols for exception names, error domains, error keys, etc
NSString * const RKLICURegexException = @"RKLICURegexException";
NSString * const RKLICURegexErrorDomain = @"RKLICURegexErrorDomain";
NSString * const RKLICURegexEnumerationOptionsErrorKey = @"RKLICURegexEnumerationOptions";
NSString * const RKLICURegexErrorCodeErrorKey = @"RKLICURegexErrorCode";
NSString * const RKLICURegexErrorNameErrorKey = @"RKLICURegexErrorName";
NSString * const RKLICURegexLineErrorKey = @"RKLICURegexLine";
NSString * const RKLICURegexOffsetErrorKey = @"RKLICURegexOffset";
NSString * const RKLICURegexPreContextErrorKey = @"RKLICURegexPreContext";
NSString * const RKLICURegexPostContextErrorKey = @"RKLICURegexPostContext";
NSString * const RKLICURegexRegexErrorKey = @"RKLICURegexRegex";
NSString * const RKLICURegexRegexOptionsErrorKey = @"RKLICURegexRegexOptions";
NSString * const RKLICURegexReplacedCountErrorKey = @"RKLICURegexReplacedCount";
NSString * const RKLICURegexReplacedStringErrorKey = @"RKLICURegexReplacedString";
NSString * const RKLICURegexReplacementStringErrorKey = @"RKLICURegexReplacementString";
NSString * const RKLICURegexSubjectRangeErrorKey = @"RKLICURegexSubjectRange";
NSString * const RKLICURegexSubjectStringErrorKey = @"RKLICURegexSubjectString";
// Used internally by rkl_userInfoDictionary to specify which arguments should be set in the NSError userInfo dictionary.
enum {
RKLUserInfoNone = 0UL,
RKLUserInfoSubjectRange = 1UL << 0,
RKLUserInfoReplacedCount = 1UL << 1,
RKLUserInfoRegexEnumerationOptions = 1UL << 2,
};
typedef NSUInteger RKLUserInfoOptions;
////////////
#pragma mark -
#pragma mark Type / struct definitions
// In general, the ICU bits and pieces here must exactly match the definition in the ICU sources.
#define U_STRING_NOT_TERMINATED_WARNING -124
#define U_ZERO_ERROR 0
#define U_INDEX_OUTOFBOUNDS_ERROR 8
#define U_BUFFER_OVERFLOW_ERROR 15
#define U_PARSE_CONTEXT_LEN 16
typedef struct uregex uregex; // Opaque ICU regex type.
typedef struct UParseError { // This must be exactly the same as the 'real' ICU declaration.
int32_t line;
int32_t offset;
UniChar preContext[U_PARSE_CONTEXT_LEN];
UniChar postContext[U_PARSE_CONTEXT_LEN];
} UParseError;
// For use with GCC's cleanup() __attribute__.
enum {
RKLLockedCacheSpinLock = 1UL << 0,
RKLUnlockedCacheSpinLock = 1UL << 1,
};
enum {
RKLSplitOp = 1UL,
RKLReplaceOp = 2UL,
RKLRangeOp = 3UL,
RKLArrayOfStringsOp = 4UL,
RKLArrayOfCapturesOp = 5UL,
RKLCapturesArrayOp = 6UL,
RKLDictionaryOfCapturesOp = 7UL,
RKLArrayOfDictionariesOfCapturesOp = 8UL,
RKLMaskOp = 0xFUL,
RKLReplaceMutable = 1UL << 4,
RKLSubcapturesArray = 1UL << 5,
};
typedef NSUInteger RKLRegexOp;
enum {
RKLBlockEnumerationMatchOp = 1UL,
RKLBlockEnumerationReplaceOp = 2UL,
};
typedef NSUInteger RKLBlockEnumerationOp;
typedef struct {
RKL_STRONG_REF NSRange * RKL_GC_VOLATILE ranges;
NSRange findInRange, remainingRange;
NSInteger capacity, found, findUpTo, capture, addedSplitRanges;
size_t size, stackUsed;
RKL_STRONG_REF void ** RKL_GC_VOLATILE rangesScratchBuffer;
RKL_STRONG_REF void ** RKL_GC_VOLATILE stringsScratchBuffer;
RKL_STRONG_REF void ** RKL_GC_VOLATILE arraysScratchBuffer;
RKL_STRONG_REF void ** RKL_GC_VOLATILE dictionariesScratchBuffer;
RKL_STRONG_REF void ** RKL_GC_VOLATILE keysScratchBuffer;
} RKLFindAll;
typedef struct {
CFStringRef string;
CFHashCode hash;
CFIndex length;
RKL_STRONG_REF UniChar * RKL_GC_VOLATILE uniChar;
} RKLBuffer;
typedef struct {
CFStringRef regexString;
CFHashCode regexHash;
RKLRegexOptions options;
uregex *icu_regex;
NSInteger captureCount;
CFStringRef setToString;
CFHashCode setToHash;
CFIndex setToLength;
NSUInteger setToIsImmutable:1;
NSUInteger setToNeedsConversion:1;
RKL_STRONG_REF const UniChar * RKL_GC_VOLATILE setToUniChar;
NSRange setToRange, lastFindRange, lastMatchRange;
RKLBuffer *buffer;
} RKLCachedRegex;
////////////
#pragma mark -
#pragma mark Translation unit scope global variables
static RKLLRUCacheSet_t rkl_lruFixedBufferCacheSet = _RKL_LRU_CACHE_SET_INIT, rkl_lruDynamicBufferCacheSet = _RKL_LRU_CACHE_SET_INIT;
static RKLBuffer rkl_lruDynamicBuffer[_RKL_LRU_CACHE_SET_WAYS];
static UniChar rkl_lruFixedUniChar[_RKL_LRU_CACHE_SET_WAYS][_RKL_FIXED_LENGTH]; // This is the fixed sized UTF-16 conversion buffer.
static RKLBuffer rkl_lruFixedBuffer[_RKL_LRU_CACHE_SET_WAYS] = {{NULL, 0UL, 0L, &rkl_lruFixedUniChar[0][0]}, {NULL, 0UL, 0L, &rkl_lruFixedUniChar[1][0]}, {NULL, 0UL, 0L, &rkl_lruFixedUniChar[2][0]}, {NULL, 0UL, 0L, &rkl_lruFixedUniChar[3][0]}};
static RKLCachedRegex rkl_cachedRegexes[_RKL_REGEX_CACHE_LINES];
#if defined(__GNUC__) && (__GNUC__ == 4) && defined(__GNUC_MINOR__) && (__GNUC_MINOR__ == 2)
static RKLCachedRegex * volatile rkl_lastCachedRegex; // XXX This is a work around for what appears to be a optimizer code generation bug in GCC 4.2.
#else
static RKLCachedRegex *rkl_lastCachedRegex;
#endif // defined(__GNUC__) && (__GNUC__ == 4) && defined(__GNUC_MINOR__) && (__GNUC_MINOR__ == 2)
static RKLLRUCacheSet_t rkl_cachedRegexCacheSets[_RKL_REGEX_LRU_CACHE_SETS] = { [0 ... (_RKL_REGEX_LRU_CACHE_SETS - 1UL)] = _RKL_LRU_CACHE_SET_INIT };
static RKLLookasideCache_t rkl_regexLookasideCache[_RKL_REGEX_LOOKASIDE_CACHE_SIZE] RKL_ALIGNED(64);
static OSSpinLock rkl_cacheSpinLock = OS_SPINLOCK_INIT;
static const UniChar rkl_emptyUniCharString[1]; // For safety, icu_regexes are 'set' to this when the string they were searched is cleared.
static RKL_STRONG_REF void * RKL_GC_VOLATILE rkl_scratchBuffer[_RKL_SCRATCH_BUFFERS]; // Used to hold temporary allocations that are allocated via reallocf().
////////////
#pragma mark -
#pragma mark CFArray and CFDictionary call backs
// These are used when running under manual memory management for the array that rkl_splitArray creates.
// The split strings are created, but not autoreleased. The (immutable) array is created using these callbacks, which skips the CFRetain() call, effectively transferring ownership to the CFArray object.
// For each split string this saves the overhead of an autorelease, then an array retain, then an NSAutoreleasePool release. This is good for a ~30% speed increase.
static void rkl_CFCallbackRelease(CFAllocatorRef allocator RKL_UNUSED_ARG, const void *ptr) { CFRelease((CFTypeRef)ptr); }
static const CFArrayCallBacks rkl_transferOwnershipArrayCallBacks = { (CFIndex)0L, NULL, rkl_CFCallbackRelease, CFCopyDescription, CFEqual };
static const CFDictionaryKeyCallBacks rkl_transferOwnershipDictionaryKeyCallBacks = { (CFIndex)0L, NULL, rkl_CFCallbackRelease, CFCopyDescription, CFEqual, CFHash };
static const CFDictionaryValueCallBacks rkl_transferOwnershipDictionaryValueCallBacks = { (CFIndex)0L, NULL, rkl_CFCallbackRelease, CFCopyDescription, CFEqual };
#ifdef __OBJC_GC__
////////////
#pragma mark -
#pragma mark Low-level Garbage Collection aware memory/resource allocation utilities
// If compiled with Garbage Collection, we need to be able to do a few things slightly differently.
// The basic premiss is that under GC we use a trampoline function pointer which is set to a _start function to catch the first invocation.
// The _start function checks if GC is running and then overwrites the function pointer with the appropriate routine. Think of it as 'lazy linking'.
enum { RKLScannedOption = NSScannedOption };
// rkl_collectingEnabled uses objc_getClass() to get the NSGarbageCollector class, which doesn't exist on earlier systems.
// This allows for graceful failure should we find ourselves running on an earlier version of the OS without NSGarbageCollector.
static BOOL rkl_collectingEnabled_first (void);
static BOOL rkl_collectingEnabled_yes (void) { return(YES); }
static BOOL rkl_collectingEnabled_no (void) { return(NO); }
static BOOL(*rkl_collectingEnabled) (void) = rkl_collectingEnabled_first;
static BOOL rkl_collectingEnabled_first (void) {
BOOL gcEnabled = ([objc_getClass("NSGarbageCollector") defaultCollector] != NULL) ? YES : NO;
if(gcEnabled == YES) {
// This section of code is required due to what I consider to be a fundamental design flaw in Cocoas GC system.
// Earlier versions of "Garbage Collection Programming Guide" stated that (paraphrased) "all globals are automatically roots".
// Current versions of the guide now include the following warning:
// "You may pass addresses of strong globals or statics into routines expecting pointers to object pointers (such as id* or NSError**)
// only if they have first been assigned to directly, rather than through a pointer dereference."
// This is a surprisingly non-trivial condition to actually meet in practice and is a recipe for impossible to debug race condition bugs.
// We just happen to be very, very, very lucky in the fact that we can initialize our root set before the first use.
NSUInteger x = 0UL;
for(x = 0UL; x < _RKL_SCRATCH_BUFFERS; x++) { rkl_scratchBuffer[x] = NSAllocateCollectable(16UL, 0UL); rkl_scratchBuffer[x] = NULL; }
for(x = 0UL; x < _RKL_LRU_CACHE_SET_WAYS; x++) { rkl_lruDynamicBuffer[x].uniChar = NSAllocateCollectable(16UL, 0UL); rkl_lruDynamicBuffer[x].uniChar = NULL; }
}
return((rkl_collectingEnabled = (gcEnabled == YES) ? rkl_collectingEnabled_yes : rkl_collectingEnabled_no)());
}
// rkl_realloc()
static void *rkl_realloc_first (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr, size_t size, NSUInteger flags);
static void *rkl_realloc_std (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr, size_t size, NSUInteger flags RKL_UNUSED_ARG) { return((*ptr = reallocf(*ptr, size))); }
static void *rkl_realloc_gc (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr, size_t size, NSUInteger flags) { return((*ptr = NSReallocateCollectable(*ptr, (NSUInteger)size, flags))); }
static void *(*rkl_realloc) (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr, size_t size, NSUInteger flags) RKL_ALLOC_SIZE_NON_NULL_ARGS_WARN_UNUSED(2,1) = rkl_realloc_first;
static void *rkl_realloc_first (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr, size_t size, NSUInteger flags) { if(rkl_collectingEnabled()==YES) { rkl_realloc = rkl_realloc_gc; } else { rkl_realloc = rkl_realloc_std; } return(rkl_realloc(ptr, size, flags)); }
// rkl_free()
static void * rkl_free_first (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr);
static void * rkl_free_std (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr) { if(*ptr != NULL) { free(*ptr); *ptr = NULL; } return(NULL); }
static void * rkl_free_gc (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr) { if(*ptr != NULL) { *ptr = NULL; } return(NULL); }
static void *(*rkl_free) (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr) RKL_NONNULL_ARGS(1) = rkl_free_first;
static void *rkl_free_first (RKL_STRONG_REF void ** RKL_GC_VOLATILE ptr) { if(rkl_collectingEnabled()==YES) { rkl_free = rkl_free_gc; } else { rkl_free = rkl_free_std; } return(rkl_free(ptr)); }
// rkl_CFAutorelease()
static id rkl_CFAutorelease_first (CFTypeRef obj);
static id rkl_CFAutorelease_std (CFTypeRef obj) { return([(id)obj autorelease]); }
static id rkl_CFAutorelease_gc (CFTypeRef obj) { return(NSMakeCollectable(obj)); }
static id(*rkl_CFAutorelease) (CFTypeRef obj) = rkl_CFAutorelease_first;
static id rkl_CFAutorelease_first (CFTypeRef obj) { return((rkl_CFAutorelease = (rkl_collectingEnabled()==YES) ? rkl_CFAutorelease_gc : rkl_CFAutorelease_std)(obj)); }
// rkl_CreateStringWithSubstring()
static id rkl_CreateStringWithSubstring_first (id string, NSRange range);
static id rkl_CreateStringWithSubstring_std (id string, NSRange range) { return((id)CFStringCreateWithSubstring(NULL, (CFStringRef)string, CFMakeRange((CFIndex)range.location, (CFIndex)range.length))); }
static id rkl_CreateStringWithSubstring_gc (id string, NSRange range) { return([string substringWithRange:range]); }
static id(*rkl_CreateStringWithSubstring) (id string, NSRange range) RKL_WARN_UNUSED_NONNULL_ARGS(1) = rkl_CreateStringWithSubstring_first;
static id rkl_CreateStringWithSubstring_first (id string, NSRange range) { return((rkl_CreateStringWithSubstring = (rkl_collectingEnabled()==YES) ? rkl_CreateStringWithSubstring_gc : rkl_CreateStringWithSubstring_std)(string, range)); }
// rkl_ReleaseObject()
static id rkl_ReleaseObject_first (id obj);
static id rkl_ReleaseObject_std (id obj) { CFRelease((CFTypeRef)obj); return(NULL); }
static id rkl_ReleaseObject_gc (id obj RKL_UNUSED_ARG) { return(NULL); }
static id (*rkl_ReleaseObject) (id obj) RKL_NONNULL_ARGS(1) = rkl_ReleaseObject_first;
static id rkl_ReleaseObject_first (id obj) { return((rkl_ReleaseObject = (rkl_collectingEnabled()==YES) ? rkl_ReleaseObject_gc : rkl_ReleaseObject_std)(obj)); }
// rkl_CreateArrayWithObjects()
static id rkl_CreateArrayWithObjects_first (void **objects, NSUInteger count);
static id rkl_CreateArrayWithObjects_std (void **objects, NSUInteger count) { return((id)CFArrayCreate(NULL, (const void **)objects, (CFIndex)count, &rkl_transferOwnershipArrayCallBacks)); }
static id rkl_CreateArrayWithObjects_gc (void **objects, NSUInteger count) { return([NSArray arrayWithObjects:(const id *)objects count:count]); }
static id(*rkl_CreateArrayWithObjects) (void **objects, NSUInteger count) RKL_WARN_UNUSED_NONNULL_ARGS(1) = rkl_CreateArrayWithObjects_first;
static id rkl_CreateArrayWithObjects_first (void **objects, NSUInteger count) { return((rkl_CreateArrayWithObjects = (rkl_collectingEnabled()==YES) ? rkl_CreateArrayWithObjects_gc : rkl_CreateArrayWithObjects_std)(objects, count)); }
// rkl_CreateAutoreleasedArray()
static id rkl_CreateAutoreleasedArray_first (void **objects, NSUInteger count);
static id rkl_CreateAutoreleasedArray_std (void **objects, NSUInteger count) { return((id)rkl_CFAutorelease(rkl_CreateArrayWithObjects(objects, count))); }
static id rkl_CreateAutoreleasedArray_gc (void **objects, NSUInteger count) { return( rkl_CreateArrayWithObjects(objects, count) ); }
static id(*rkl_CreateAutoreleasedArray) (void **objects, NSUInteger count) RKL_WARN_UNUSED_NONNULL_ARGS(1) = rkl_CreateAutoreleasedArray_first;
static id rkl_CreateAutoreleasedArray_first (void **objects, NSUInteger count) { return((rkl_CreateAutoreleasedArray = (rkl_collectingEnabled()==YES) ? rkl_CreateAutoreleasedArray_gc : rkl_CreateAutoreleasedArray_std)(objects, count)); }
#else // __OBJC_GC__ not defined
////////////
#pragma mark -
#pragma mark Low-level explicit memory/resource allocation utilities
enum { RKLScannedOption = 0 };
#define rkl_collectingEnabled() (NO)
RKL_STATIC_INLINE void *rkl_realloc (void **ptr, size_t size, NSUInteger flags) RKL_ALLOC_SIZE_NON_NULL_ARGS_WARN_UNUSED(2,1);
RKL_STATIC_INLINE void *rkl_free (void **ptr) RKL_NONNULL_ARGS(1);
RKL_STATIC_INLINE id rkl_CFAutorelease (CFTypeRef obj) RKL_WARN_UNUSED_NONNULL_ARGS(1);
RKL_STATIC_INLINE id rkl_CreateAutoreleasedArray (void **objects, NSUInteger count) RKL_WARN_UNUSED_NONNULL_ARGS(1);
RKL_STATIC_INLINE id rkl_CreateArrayWithObjects (void **objects, NSUInteger count) RKL_WARN_UNUSED_NONNULL_ARGS(1);
RKL_STATIC_INLINE id rkl_CreateStringWithSubstring (id string, NSRange range) RKL_WARN_UNUSED_NONNULL_ARGS(1);
RKL_STATIC_INLINE id rkl_ReleaseObject (id obj) RKL_NONNULL_ARGS(1);
RKL_STATIC_INLINE void *rkl_realloc (void **ptr, size_t size, NSUInteger flags RKL_UNUSED_ARG) { return((*ptr = reallocf(*ptr, size))); }
RKL_STATIC_INLINE void *rkl_free (void **ptr) { if(*ptr != NULL) { free(*ptr); *ptr = NULL; } return(NULL); }
RKL_STATIC_INLINE id rkl_CFAutorelease (CFTypeRef obj) { return([(id)obj autorelease]); }
RKL_STATIC_INLINE id rkl_CreateArrayWithObjects (void **objects, NSUInteger count) { return((id)CFArrayCreate(NULL, (const void **)objects, (CFIndex)count, &rkl_transferOwnershipArrayCallBacks)); }
RKL_STATIC_INLINE id rkl_CreateAutoreleasedArray (void **objects, NSUInteger count) { return(rkl_CFAutorelease(rkl_CreateArrayWithObjects(objects, count))); }
RKL_STATIC_INLINE id rkl_CreateStringWithSubstring (id string, NSRange range) { return((id)CFStringCreateWithSubstring(NULL, (CFStringRef)string, CFMakeRange((CFIndex)range.location, (CFIndex)range.length))); }
RKL_STATIC_INLINE id rkl_ReleaseObject (id obj) { CFRelease((CFTypeRef)obj); return(NULL); }
#endif // __OBJC_GC__
////////////
#pragma mark -
#pragma mark ICU function prototypes
// ICU functions. See http://www.icu-project.org/apiref/icu4c/uregex_8h.html Tweaked slightly from the originals, but functionally identical.
const char *RKL_ICU_FUNCTION_APPEND(u_errorName) ( int32_t status) RKL_WARN_UNUSED_PURE;
int32_t RKL_ICU_FUNCTION_APPEND(u_strlen) (const UniChar *s) RKL_WARN_UNUSED_PURE_NONNULL_ARGS(1);
int32_t RKL_ICU_FUNCTION_APPEND(uregex_appendReplacement) ( uregex *regexp, const UniChar *replacementText, int32_t replacementLength, UniChar **destBuf, int32_t *destCapacity, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,2,4,5,6);
int32_t RKL_ICU_FUNCTION_APPEND(uregex_appendTail) ( uregex *regexp, UniChar **destBuf, int32_t *destCapacity, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,2,3,4);
void RKL_ICU_FUNCTION_APPEND(uregex_close) ( uregex *regexp) RKL_NONNULL_ARGS(1);
int32_t RKL_ICU_FUNCTION_APPEND(uregex_end) ( uregex *regexp, int32_t groupNum, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,3);
BOOL RKL_ICU_FUNCTION_APPEND(uregex_find) ( uregex *regexp, int32_t location, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,3);
BOOL RKL_ICU_FUNCTION_APPEND(uregex_findNext) ( uregex *regexp, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,2);
int32_t RKL_ICU_FUNCTION_APPEND(uregex_groupCount) ( uregex *regexp, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,2);
uregex *RKL_ICU_FUNCTION_APPEND(uregex_open) (const UniChar *pattern, int32_t patternLength, RKLRegexOptions flags, UParseError *parseError, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,4,5);
void RKL_ICU_FUNCTION_APPEND(uregex_reset) ( uregex *regexp, int32_t newIndex, int32_t *status) RKL_NONNULL_ARGS(1,3);
void RKL_ICU_FUNCTION_APPEND(uregex_setText) ( uregex *regexp, const UniChar *text, int32_t textLength, int32_t *status) RKL_NONNULL_ARGS(1,2,4);
int32_t RKL_ICU_FUNCTION_APPEND(uregex_start) ( uregex *regexp, int32_t groupNum, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,3);
uregex *RKL_ICU_FUNCTION_APPEND(uregex_clone) (const uregex *regexp, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,2);
////////////
#pragma mark -
#pragma mark RegexKitLite internal, private function prototypes
// Functions used for managing the 4-way set associative LRU cache and regex string hash lookaside cache.
RKL_STATIC_INLINE NSUInteger rkl_leastRecentlyUsedWayInSet ( NSUInteger cacheSetsCount, const RKLLRUCacheSet_t cacheSetsArray[cacheSetsCount], NSUInteger set) RKL_WARN_UNUSED_NONNULL_ARGS(2);
RKL_STATIC_INLINE void rkl_accessCacheSetWay ( NSUInteger cacheSetsCount, RKLLRUCacheSet_t cacheSetsArray[cacheSetsCount], NSUInteger set, NSUInteger way) RKL_NONNULL_ARGS(2);
RKL_STATIC_INLINE NSUInteger rkl_regexLookasideCacheIndexForPointerAndOptions (const void *ptr, RKLRegexOptions options) RKL_WARN_UNUSED_NONNULL_ARGS(1);
RKL_STATIC_INLINE void rkl_setRegexLookasideCacheToCachedRegexForPointer (const RKLCachedRegex *cachedRegex, const void *ptr) RKL_NONNULL_ARGS(1,2);
RKL_STATIC_INLINE RKLCachedRegex *rkl_cachedRegexFromRegexLookasideCacheForString (const void *ptr, RKLRegexOptions options) RKL_WARN_UNUSED_NONNULL_ARGS(1);
RKL_STATIC_INLINE NSUInteger rkl_makeCacheSetHash ( CFHashCode regexHash, RKLRegexOptions options) RKL_WARN_UNUSED;
RKL_STATIC_INLINE NSUInteger rkl_cacheSetForRegexHashAndOptions ( CFHashCode regexHash, RKLRegexOptions options) RKL_WARN_UNUSED;
RKL_STATIC_INLINE NSUInteger rkl_cacheWayForCachedRegex (const RKLCachedRegex *cachedRegex) RKL_WARN_UNUSED_NONNULL_ARGS(1);
RKL_STATIC_INLINE NSUInteger rkl_cacheSetForCachedRegex (const RKLCachedRegex *cachedRegex) RKL_WARN_UNUSED_NONNULL_ARGS(1);
RKL_STATIC_INLINE RKLCachedRegex *rkl_cachedRegexForCacheSetAndWay ( NSUInteger cacheSet, NSUInteger cacheWay) RKL_WARN_UNUSED;
RKL_STATIC_INLINE RKLCachedRegex *rkl_cachedRegexForRegexHashAndOptionsAndWay ( CFHashCode regexHash, RKLRegexOptions options, NSUInteger cacheWay) RKL_WARN_UNUSED;
RKL_STATIC_INLINE void rkl_updateCachesWithCachedRegex ( RKLCachedRegex *cachedRegex, const void *ptr, int hitOrMiss RKL_UNUSED_DTRACE_ARG, int status RKL_UNUSED_DTRACE_ARG) RKL_NONNULL_ARGS(1,2);
RKL_STATIC_INLINE RKLCachedRegex *rkl_leastRecentlyUsedCachedRegexForRegexHashAndOptions ( CFHashCode regexHash, RKLRegexOptions options) RKL_WARN_UNUSED;
static RKLCachedRegex *rkl_getCachedRegex (NSString *regexString, RKLRegexOptions options, NSError **error, id *exception) RKL_WARN_UNUSED_NONNULL_ARGS(1,4);
static NSUInteger rkl_setCachedRegexToString (RKLCachedRegex *cachedRegex, const NSRange *range, int32_t *status, id *exception RKL_UNUSED_ASSERTION_ARG) RKL_WARN_UNUSED_NONNULL_ARGS(1,2,3,4);
static RKLCachedRegex *rkl_getCachedRegexSetToString (NSString *regexString, RKLRegexOptions options, NSString *matchString, NSUInteger *matchLengthPtr, NSRange *matchRange, NSError **error, id *exception, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,3,4,5,7,8);
static id rkl_performDictionaryVarArgsOp(id self, SEL _cmd, RKLRegexOp regexOp, NSString *regexString, RKLRegexOptions options, NSInteger capture, id matchString, NSRange *matchRange, NSString *replacementString, NSError **error, void *result, id firstKey, va_list varArgsList) RKL_NONNULL_ARGS(1,2);
static id rkl_performRegexOp (id self, SEL _cmd, RKLRegexOp regexOp, NSString *regexString, RKLRegexOptions options, NSInteger capture, id matchString, NSRange *matchRange, NSString *replacementString, NSError **error, void *result, NSUInteger captureKeysCount, id captureKeys[captureKeysCount], const int captureKeyIndexes[captureKeysCount]) RKL_NONNULL_ARGS(1,2);
static void rkl_handleDelayedAssert (id self, SEL _cmd, id exception) RKL_NONNULL_ARGS(3);
static NSUInteger rkl_search (RKLCachedRegex *cachedRegex, NSRange *searchRange, NSUInteger updateSearchRange, id *exception RKL_UNUSED_ASSERTION_ARG, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,2,4,5);
static BOOL rkl_findRanges (RKLCachedRegex *cachedRegex, RKLRegexOp regexOp, RKLFindAll *findAll, id *exception, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,3,4,5);
static NSUInteger rkl_growFindRanges (RKLCachedRegex *cachedRegex, NSUInteger lastLocation, RKLFindAll *findAll, id *exception RKL_UNUSED_ASSERTION_ARG) RKL_WARN_UNUSED_NONNULL_ARGS(1,3,4);
static NSArray *rkl_makeArray (RKLCachedRegex *cachedRegex, RKLRegexOp regexOp, RKLFindAll *findAll, id *exception RKL_UNUSED_ASSERTION_ARG) RKL_WARN_UNUSED_NONNULL_ARGS(1,3,4);
static id rkl_makeDictionary (RKLCachedRegex *cachedRegex, RKLRegexOp regexOp, RKLFindAll *findAll, NSUInteger captureKeysCount, id captureKeys[captureKeysCount], const int captureKeyIndexes[captureKeysCount], id *exception RKL_UNUSED_ASSERTION_ARG) RKL_WARN_UNUSED_NONNULL_ARGS(1,3,5,6);
static NSString *rkl_replaceString (RKLCachedRegex *cachedRegex, id searchString, NSUInteger searchU16Length, NSString *replacementString, NSUInteger replacementU16Length, NSInteger *replacedCount, NSUInteger replaceMutable, id *exception, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,2,4,8,9);
static int32_t rkl_replaceAll (RKLCachedRegex *cachedRegex, RKL_STRONG_REF const UniChar * RKL_GC_VOLATILE replacementUniChar, int32_t replacementU16Length, UniChar *replacedUniChar, int32_t replacedU16Capacity, NSInteger *replacedCount, int32_t *needU16Capacity, id *exception RKL_UNUSED_ASSERTION_ARG, int32_t *status) RKL_WARN_UNUSED_NONNULL_ARGS(1,2,4,6,7,8,9);
static NSUInteger rkl_isRegexValid (id self, SEL _cmd, NSString *regex, RKLRegexOptions options, NSInteger *captureCountPtr, NSError **error) RKL_NONNULL_ARGS(1,2);
static void rkl_clearStringCache (void);
static void rkl_clearBuffer (RKLBuffer *buffer, NSUInteger freeDynamicBuffer) RKL_NONNULL_ARGS(1);
static void rkl_clearCachedRegex (RKLCachedRegex *cachedRegex) RKL_NONNULL_ARGS(1);
static void rkl_clearCachedRegexSetTo (RKLCachedRegex *cachedRegex) RKL_NONNULL_ARGS(1);
static NSDictionary *rkl_userInfoDictionary (RKLUserInfoOptions userInfoOptions, NSString *regexString, RKLRegexOptions options, const UParseError *parseError, int32_t status, NSString *matchString, NSRange matchRange, NSString *replacementString, NSString *replacedString, NSInteger replacedCount, RKLRegexEnumerationOptions enumerationOptions, ...) RKL_WARN_UNUSED_SENTINEL;
static NSError *rkl_makeNSError (RKLUserInfoOptions userInfoOptions, NSString *regexString, RKLRegexOptions options, const UParseError *parseError, int32_t status, NSString *matchString, NSRange matchRange, NSString *replacementString, NSString *replacedString, NSInteger replacedCount, RKLRegexEnumerationOptions enumerationOptions, NSString *errorDescription) RKL_WARN_UNUSED;
static NSException *rkl_NSExceptionForRegex (NSString *regexString, RKLRegexOptions options, const UParseError *parseError, int32_t status) RKL_WARN_UNUSED_NONNULL_ARGS(1);
static NSDictionary *rkl_makeAssertDictionary (const char *function, const char *file, int line, NSString *format, ...) RKL_WARN_UNUSED_NONNULL_ARGS(1,2,4);
static NSString *rkl_stringFromClassAndMethod (id object, SEL selector, NSString *format, ...) RKL_WARN_UNUSED_NONNULL_ARGS(3);
RKL_STATIC_INLINE int32_t rkl_getRangeForCapture(RKLCachedRegex *cr, int32_t *s, int32_t c, NSRange *r) RKL_WARN_UNUSED_NONNULL_ARGS(1,2,4);
RKL_STATIC_INLINE int32_t rkl_getRangeForCapture(RKLCachedRegex *cr, int32_t *s, int32_t c, NSRange *r) { uregex *re = cr->icu_regex; int32_t start = RKL_ICU_FUNCTION_APPEND(uregex_start)(re, c, s); if(RKL_EXPECTED((*s > U_ZERO_ERROR), 0L) || (start == -1)) { *r = NSNotFoundRange; } else { r->location = (NSUInteger)start; r->length = (NSUInteger)RKL_ICU_FUNCTION_APPEND(uregex_end)(re, c, s) - r->location; r->location += cr->setToRange.location; } return(*s); }
RKL_STATIC_INLINE RKLFindAll rkl_makeFindAll(RKL_STRONG_REF NSRange * RKL_GC_VOLATILE r, NSRange fir, NSInteger c, size_t s, size_t su, RKL_STRONG_REF void ** RKL_GC_VOLATILE rsb, RKL_STRONG_REF void ** RKL_GC_VOLATILE ssb, RKL_STRONG_REF void ** RKL_GC_VOLATILE asb, RKL_STRONG_REF void ** RKL_GC_VOLATILE dsb, RKL_STRONG_REF void ** RKL_GC_VOLATILE ksb, NSInteger f, NSInteger cap, NSInteger fut) RKL_WARN_UNUSED_CONST;
RKL_STATIC_INLINE RKLFindAll rkl_makeFindAll(RKL_STRONG_REF NSRange * RKL_GC_VOLATILE r, NSRange fir, NSInteger c, size_t s, size_t su, RKL_STRONG_REF void ** RKL_GC_VOLATILE rsb, RKL_STRONG_REF void ** RKL_GC_VOLATILE ssb, RKL_STRONG_REF void ** RKL_GC_VOLATILE asb, RKL_STRONG_REF void ** RKL_GC_VOLATILE dsb, RKL_STRONG_REF void ** RKL_GC_VOLATILE ksb, NSInteger f, NSInteger cap, NSInteger fut) { return(((RKLFindAll){ .ranges=r, .findInRange=fir, .remainingRange=fir, .capacity=c, .found=f, .findUpTo=fut, .capture=cap, .addedSplitRanges=0L, .size=s, .stackUsed=su, .rangesScratchBuffer=rsb, .stringsScratchBuffer=ssb, .arraysScratchBuffer=asb, .dictionariesScratchBuffer=dsb, .keysScratchBuffer=ksb})); }
////////////
#pragma mark -
#pragma mark RKL_FAST_MUTABLE_CHECK implementation
#ifdef RKL_FAST_MUTABLE_CHECK
// We use a trampoline function pointer to check at run time if the function __CFStringIsMutable is available.
// If it is, the trampoline function pointer is replaced with the address of that function.
// Otherwise, we assume the worst case that every string is mutable.
// This hopefully helps to protect us since we're using an undocumented, non-public API call.
// We will keep on working if it ever does go away, just with a bit less performance due to the overhead of mutable checks.
static BOOL rkl_CFStringIsMutable_first (CFStringRef str);
static BOOL rkl_CFStringIsMutable_yes (CFStringRef str RKL_UNUSED_ARG) { return(YES); }
static BOOL(*rkl_CFStringIsMutable) (CFStringRef str) = rkl_CFStringIsMutable_first;
static BOOL rkl_CFStringIsMutable_first (CFStringRef str) { if((rkl_CFStringIsMutable = (BOOL(*)(CFStringRef))dlsym(RTLD_DEFAULT, "__CFStringIsMutable")) == NULL) { rkl_CFStringIsMutable = rkl_CFStringIsMutable_yes; } return(rkl_CFStringIsMutable(str)); }
#else // RKL_FAST_MUTABLE_CHECK is not defined. Assume that all strings are potentially mutable.
#define rkl_CFStringIsMutable(s) (YES)
#endif // RKL_FAST_MUTABLE_CHECK
////////////
#pragma mark -
#pragma mark iPhone / iPod touch low memory notification handler
#if defined(RKL_REGISTER_FOR_IPHONE_LOWMEM_NOTIFICATIONS) && (RKL_REGISTER_FOR_IPHONE_LOWMEM_NOTIFICATIONS == 1)
// The next few lines are specifically for the iPhone to catch low memory conditions.
// The basic idea is that rkl_RegisterForLowMemoryNotifications() is set to be run once by the linker at load time via __attribute((constructor)).
// rkl_RegisterForLowMemoryNotifications() tries to find the iPhone low memory notification symbol. If it can find it,
// it registers with the default NSNotificationCenter to call the RKLLowMemoryWarningObserver class method +lowMemoryWarning:.
// rkl_RegisterForLowMemoryNotifications() uses an atomic compare and swap to guarantee that it initializes exactly once.
// +lowMemoryWarning tries to acquire the cache lock. If it gets the lock, it clears the cache. If it can't, it calls performSelector:
// with a delay of half a second to try again. This will hopefully prevent any deadlocks, such as a RegexKitLite request for
// memory triggering a notification while the lock is held.
static void rkl_RegisterForLowMemoryNotifications(void) RKL_ATTRIBUTES(used);
@interface RKLLowMemoryWarningObserver : NSObject +(void)lowMemoryWarning:(id)notification; @end
@implementation RKLLowMemoryWarningObserver
+(void)lowMemoryWarning:(id)notification {
if(OSSpinLockTry(&rkl_cacheSpinLock)) { rkl_clearStringCache(); OSSpinLockUnlock(&rkl_cacheSpinLock); }
else { [[RKLLowMemoryWarningObserver class] performSelector:@selector(lowMemoryWarning:) withObject:notification afterDelay:(NSTimeInterval)0.1]; }
}
@end
static volatile int rkl_HaveRegisteredForLowMemoryNotifications = 0;
__attribute__((constructor)) static void rkl_RegisterForLowMemoryNotifications(void) {
_Bool didSwap = false;
void **memoryWarningNotification = NULL;
while((rkl_HaveRegisteredForLowMemoryNotifications == 0) && ((didSwap = OSAtomicCompareAndSwapIntBarrier(0, 1, &rkl_HaveRegisteredForLowMemoryNotifications)) == false)) { /* Allows for spurious CAS failures. */ }
if(didSwap == true) {
if((memoryWarningNotification = (void **)dlsym(RTLD_DEFAULT, "UIApplicationDidReceiveMemoryWarningNotification")) != NULL) {
[[NSNotificationCenter defaultCenter] addObserver:[RKLLowMemoryWarningObserver class] selector:@selector(lowMemoryWarning:) name:(NSString *)*memoryWarningNotification object:NULL];
}
}
}
#endif // defined(RKL_REGISTER_FOR_IPHONE_LOWMEM_NOTIFICATIONS) && (RKL_REGISTER_FOR_IPHONE_LOWMEM_NOTIFICATIONS == 1)
////////////
#pragma mark -
#pragma mark DTrace functionality
#ifdef _RKL_DTRACE_ENABLED
// compiledRegexCache(unsigned long eventID, const char *regexUTF8, int options, int captures, int hitMiss, int icuStatusCode, const char *icuErrorMessage, double *hitRate);
// utf16ConversionCache(unsigned long eventID, unsigned int lookupResultFlags, double *hitRate, const void *string, unsigned long NSRange.location, unsigned long NSRange.length, long length);
/*
provider RegexKitLite {
probe compiledRegexCache(unsigned long, const char *, unsigned int, int, int, int, const char *, double *);
probe utf16ConversionCache(unsigned long, unsigned int, double *, const void *, unsigned long, unsigned long, long);
};
#pragma D attributes Unstable/Unstable/Common provider RegexKitLite provider
#pragma D attributes Private/Private/Common provider RegexKitLite module
#pragma D attributes Private/Private/Common provider RegexKitLite function
#pragma D attributes Unstable/Unstable/Common provider RegexKitLite name
#pragma D attributes Unstable/Unstable/Common provider RegexKitLite args
*/
#define REGEXKITLITE_STABILITY "___dtrace_stability$RegexKitLite$v1$4_4_5_1_1_5_1_1_5_4_4_5_4_4_5"
#define REGEXKITLITE_TYPEDEFS "___dtrace_typedefs$RegexKitLite$v1"
#define REGEXKITLITE_COMPILEDREGEXCACHE(arg0, arg1, arg2, arg3, arg4, arg5, arg6, arg7) { __asm__ volatile(".reference " REGEXKITLITE_TYPEDEFS); __dtrace_probe$RegexKitLite$compiledRegexCache$v1$756e7369676e6564206c6f6e67$63686172202a$756e7369676e656420696e74$696e74$696e74$696e74$63686172202a$646f75626c65202a(arg0, arg1, arg2, arg3, arg4, arg5, arg6, arg7); __asm__ volatile(".reference " REGEXKITLITE_STABILITY); }
#define REGEXKITLITE_COMPILEDREGEXCACHE_ENABLED() __dtrace_isenabled$RegexKitLite$compiledRegexCache$v1()
#define REGEXKITLITE_CONVERTEDSTRINGU16CACHE(arg0, arg1, arg2, arg3, arg4, arg5, arg6) { __asm__ volatile(".reference " REGEXKITLITE_TYPEDEFS); __dtrace_probe$RegexKitLite$utf16ConversionCache$v1$756e7369676e6564206c6f6e67$756e7369676e656420696e74$646f75626c65202a$766f6964202a$756e7369676e6564206c6f6e67$756e7369676e6564206c6f6e67$6c6f6e67(arg0, arg1, arg2, arg3, arg4, arg5, arg6); __asm__ volatile(".reference " REGEXKITLITE_STABILITY); }
#define REGEXKITLITE_CONVERTEDSTRINGU16CACHE_ENABLED() __dtrace_isenabled$RegexKitLite$utf16ConversionCache$v1()
extern void __dtrace_probe$RegexKitLite$compiledRegexCache$v1$756e7369676e6564206c6f6e67$63686172202a$756e7369676e656420696e74$696e74$696e74$696e74$63686172202a$646f75626c65202a(unsigned long, const char *, unsigned int, int, int, int, const char *, double *);
extern int __dtrace_isenabled$RegexKitLite$compiledRegexCache$v1(void);
extern void __dtrace_probe$RegexKitLite$utf16ConversionCache$v1$756e7369676e6564206c6f6e67$756e7369676e656420696e74$646f75626c65202a$766f6964202a$756e7369676e6564206c6f6e67$756e7369676e6564206c6f6e67$6c6f6e67(unsigned long, unsigned int, double *, const void *, unsigned long, unsigned long, long);
extern int __dtrace_isenabled$RegexKitLite$utf16ConversionCache$v1(void);
////////////////////////////
enum {
RKLCacheHitLookupFlag = 1 << 0,
RKLConversionRequiredLookupFlag = 1 << 1,
RKLSetTextLookupFlag = 1 << 2,
RKLDynamicBufferLookupFlag = 1 << 3,
RKLErrorLookupFlag = 1 << 4,
RKLEnumerationBufferLookupFlag = 1 << 5,
};
#define rkl_dtrace_addLookupFlag(a,b) do { a |= (unsigned int)(b); } while(0)
static char rkl_dtrace_regexUTF8[_RKL_REGEX_CACHE_LINES + 1UL][_RKL_DTRACE_REGEXUTF8_SIZE];
static NSUInteger rkl_dtrace_eventID, rkl_dtrace_compiledCacheLookups, rkl_dtrace_compiledCacheHits, rkl_dtrace_conversionBufferLookups, rkl_dtrace_conversionBufferHits;
#define rkl_dtrace_incrementEventID() do { rkl_dtrace_eventID++; } while(0)
#define rkl_dtrace_incrementAndGetEventID(v) do { rkl_dtrace_eventID++; v = rkl_dtrace_eventID; } while(0)
#define rkl_dtrace_compiledRegexCache(a0, a1, a2, a3, a4, a5) do { int _a3 = (a3); rkl_dtrace_compiledCacheLookups++; if(_a3 == 1) { rkl_dtrace_compiledCacheHits++; } if(RKL_EXPECTED(REGEXKITLITE_COMPILEDREGEXCACHE_ENABLED(), 0L)) { double hitRate = 0.0; if(rkl_dtrace_compiledCacheLookups > 0UL) { hitRate = ((double)rkl_dtrace_compiledCacheHits / (double)rkl_dtrace_compiledCacheLookups) * 100.0; } REGEXKITLITE_COMPILEDREGEXCACHE(rkl_dtrace_eventID, a0, a1, a2, _a3, a4, a5, &hitRate); } } while(0)
#define rkl_dtrace_utf16ConversionCache(a0, a1, a2, a3, a4) do { unsigned int _a0 = (a0); if((_a0 & RKLConversionRequiredLookupFlag) != 0U) { rkl_dtrace_conversionBufferLookups++; if((_a0 & RKLCacheHitLookupFlag) != 0U) { rkl_dtrace_conversionBufferHits++; } } if(RKL_EXPECTED(REGEXKITLITE_CONVERTEDSTRINGU16CACHE_ENABLED(), 0L)) { double hitRate = 0.0; if(rkl_dtrace_conversionBufferLookups > 0UL) { hitRate = ((double)rkl_dtrace_conversionBufferHits / (double)rkl_dtrace_conversionBufferLookups) * 100.0; } REGEXKITLITE_CONVERTEDSTRINGU16CACHE(rkl_dtrace_eventID, _a0, &hitRate, a1, a2, a3, a4); } } while(0)
#define rkl_dtrace_utf16ConversionCacheWithEventID(c0, a0, a1, a2, a3, a4) do { unsigned int _a0 = (a0); if((_a0 & RKLConversionRequiredLookupFlag) != 0U) { rkl_dtrace_conversionBufferLookups++; if((_a0 & RKLCacheHitLookupFlag) != 0U) { rkl_dtrace_conversionBufferHits++; } } if(RKL_EXPECTED(REGEXKITLITE_CONVERTEDSTRINGU16CACHE_ENABLED(), 0L)) { double hitRate = 0.0; if(rkl_dtrace_conversionBufferLookups > 0UL) { hitRate = ((double)rkl_dtrace_conversionBufferHits / (double)rkl_dtrace_conversionBufferLookups) * 100.0; } REGEXKITLITE_CONVERTEDSTRINGU16CACHE(c0, _a0, &hitRate, a1, a2, a3, a4); } } while(0)
// \342\200\246 == UTF8 for HORIZONTAL ELLIPSIS, aka triple dots '...'
#define RKL_UTF8_ELLIPSE "\342\200\246"
// rkl_dtrace_getRegexUTF8 will copy the str argument to utf8Buffer using UTF8 as the string encoding.
// If the utf8 encoding would take up more bytes than the utf8Buffers length, then the unicode character 'HORIZONTAL ELLIPSIS' ('...') is appended to indicate truncation occurred.
static void rkl_dtrace_getRegexUTF8(CFStringRef str, char *utf8Buffer) RKL_NONNULL_ARGS(2);
static void rkl_dtrace_getRegexUTF8(CFStringRef str, char *utf8Buffer) {
if((str == NULL) || (utf8Buffer == NULL)) { return; }
CFIndex maxLength = ((CFIndex)_RKL_DTRACE_REGEXUTF8_SIZE - 2L), maxBytes = (maxLength - (CFIndex)sizeof(RKL_UTF8_ELLIPSE) - 1L), stringU16Length = CFStringGetLength(str), usedBytes = 0L;
CFStringGetBytes(str, CFMakeRange(0L, ((stringU16Length < maxLength) ? stringU16Length : maxLength)), kCFStringEncodingUTF8, (UInt8)'?', (Boolean)0, (UInt8 *)utf8Buffer, maxBytes, &usedBytes);
if(usedBytes == maxBytes) { strncpy(utf8Buffer + usedBytes, RKL_UTF8_ELLIPSE, ((size_t)_RKL_DTRACE_REGEXUTF8_SIZE - (size_t)usedBytes) - 2UL); } else { utf8Buffer[usedBytes] = (char)0; }
}
#else // _RKL_DTRACE_ENABLED
#define rkl_dtrace_incrementEventID()
#define rkl_dtrace_incrementAndGetEventID(v)
#define rkl_dtrace_compiledRegexCache(a0, a1, a2, a3, a4, a5)
#define rkl_dtrace_utf16ConversionCache(a0, a1, a2, a3, a4)
#define rkl_dtrace_utf16ConversionCacheWithEventID(c0, a0, a1, a2, a3, a4)
#define rkl_dtrace_getRegexUTF8(str, buf)
#define rkl_dtrace_addLookupFlag(a,b)
#endif // _RKL_DTRACE_ENABLED
////////////
#pragma mark -
#pragma mark RegexKitLite low-level internal functions
#pragma mark -
// The 4-way set associative LRU logic comes from Henry S. Warren Jr.'s Hacker's Delight, "revisions", 7-7 An LRU Algorithm:
// http://www.hackersdelight.org/revisions.pdf
// The functions rkl_leastRecentlyUsedWayInSet() and rkl_accessCacheSetWay() implement the cache functionality and are used
// from a number of different places that need to perform caching (i.e., cached regex, cached UTF16 conversions, etc)
#pragma mark 4-way set associative LRU functions
RKL_STATIC_INLINE NSUInteger rkl_leastRecentlyUsedWayInSet(NSUInteger cacheSetsCount, const RKLLRUCacheSet_t cacheSetsArray[cacheSetsCount], NSUInteger set) {
RKLCAbortAssert((cacheSetsArray != NULL) && ((NSInteger)cacheSetsCount > 0L) && (set < cacheSetsCount) && ((cacheSetsArray == rkl_cachedRegexCacheSets) ? set < _RKL_REGEX_LRU_CACHE_SETS : 1) && (((sizeof(unsigned int) - sizeof(RKLLRUCacheSet_t)) * 8) < (sizeof(unsigned int) * 8)));
unsigned int cacheSet = (((unsigned int)cacheSetsArray[set]) << ((sizeof(unsigned int) - sizeof(RKLLRUCacheSet_t)) * 8)); // __builtin_clz takes an 'unsigned int' argument. The rest is to ensure bit alignment regardless of 32/64/whatever.
NSUInteger leastRecentlyUsed = ((NSUInteger)(3LU - (NSUInteger)((__builtin_clz((~(((cacheSet & 0x77777777U) + 0x77777777U) | cacheSet | 0x77777777U))) ) >> 2)));
RKLCAbortAssert(leastRecentlyUsed < _RKL_LRU_CACHE_SET_WAYS);
return(leastRecentlyUsed);
}
RKL_STATIC_INLINE void rkl_accessCacheSetWay(NSUInteger cacheSetsCount, RKLLRUCacheSet_t cacheSetsArray[cacheSetsCount], NSUInteger cacheSet, NSUInteger cacheWay) {
RKLCAbortAssert((cacheSetsArray != NULL) && ((NSInteger)cacheSetsCount > 0L) && (cacheSet < cacheSetsCount) && (cacheWay < _RKL_LRU_CACHE_SET_WAYS) && ((cacheSetsArray == rkl_cachedRegexCacheSets) ? cacheSet < _RKL_REGEX_LRU_CACHE_SETS : 1));
cacheSetsArray[cacheSet] = (RKLLRUCacheSet_t)(((cacheSetsArray[cacheSet] & (RKLLRUCacheSet_t)0xFFFFU) | (((RKLLRUCacheSet_t)0xFU) << (cacheWay * 4U))) & (~(((RKLLRUCacheSet_t)0x1111U) << (3U - cacheWay))));
}
#pragma mark Common, macro'ish compiled regular expression cache logic
// These functions consolidate bits and pieces of code used to maintain, update, and access the 4-way set associative LRU cache and Regex Lookaside Cache.
RKL_STATIC_INLINE NSUInteger rkl_regexLookasideCacheIndexForPointerAndOptions (const void *ptr, RKLRegexOptions options) { return(((((NSUInteger)(ptr)) >> 4) + options + (options >> 4)) & _RKL_REGEX_LOOKASIDE_CACHE_MASK); }
RKL_STATIC_INLINE void rkl_setRegexLookasideCacheToCachedRegexForPointer (const RKLCachedRegex *cachedRegex, const void *ptr) { rkl_regexLookasideCache[rkl_regexLookasideCacheIndexForPointerAndOptions(ptr, cachedRegex->options)] = (cachedRegex - rkl_cachedRegexes); }
RKL_STATIC_INLINE RKLCachedRegex *rkl_cachedRegexFromRegexLookasideCacheForString (const void *ptr, RKLRegexOptions options) { return(&rkl_cachedRegexes[rkl_regexLookasideCache[rkl_regexLookasideCacheIndexForPointerAndOptions(ptr, options)]]); }
RKL_STATIC_INLINE NSUInteger rkl_makeCacheSetHash ( CFHashCode regexHash, RKLRegexOptions options) { return((NSUInteger)regexHash ^ (NSUInteger)options); }
RKL_STATIC_INLINE NSUInteger rkl_cacheSetForRegexHashAndOptions ( CFHashCode regexHash, RKLRegexOptions options) { return((rkl_makeCacheSetHash(regexHash, options) % _RKL_REGEX_LRU_CACHE_SETS)); }
RKL_STATIC_INLINE NSUInteger rkl_cacheWayForCachedRegex (const RKLCachedRegex *cachedRegex) { return((cachedRegex - rkl_cachedRegexes) % _RKL_LRU_CACHE_SET_WAYS); }
RKL_STATIC_INLINE NSUInteger rkl_cacheSetForCachedRegex (const RKLCachedRegex *cachedRegex) { return(rkl_cacheSetForRegexHashAndOptions(cachedRegex->regexHash, cachedRegex->options)); }
RKL_STATIC_INLINE RKLCachedRegex *rkl_cachedRegexForCacheSetAndWay ( NSUInteger cacheSet, NSUInteger cacheWay) { return(&rkl_cachedRegexes[((cacheSet * _RKL_LRU_CACHE_SET_WAYS) + cacheWay)]); }
RKL_STATIC_INLINE RKLCachedRegex *rkl_cachedRegexForRegexHashAndOptionsAndWay ( CFHashCode regexHash, RKLRegexOptions options, NSUInteger cacheWay) { return(rkl_cachedRegexForCacheSetAndWay(rkl_cacheSetForRegexHashAndOptions(regexHash, options), cacheWay)); }
RKL_STATIC_INLINE void rkl_updateCachesWithCachedRegex(RKLCachedRegex *cachedRegex, const void *ptr, int hitOrMiss RKL_UNUSED_DTRACE_ARG, int status RKL_UNUSED_DTRACE_ARG) {
rkl_lastCachedRegex = cachedRegex;
rkl_setRegexLookasideCacheToCachedRegexForPointer(cachedRegex, ptr);
rkl_accessCacheSetWay(_RKL_REGEX_LRU_CACHE_SETS, rkl_cachedRegexCacheSets, rkl_cacheSetForCachedRegex(cachedRegex), rkl_cacheWayForCachedRegex(cachedRegex)); // Set the matching line as the most recently used.
rkl_dtrace_compiledRegexCache(&rkl_dtrace_regexUTF8[(cachedRegex - rkl_cachedRegexes)][0], cachedRegex->options, (int)cachedRegex->captureCount, hitOrMiss, status, NULL);
}
RKL_STATIC_INLINE RKLCachedRegex *rkl_leastRecentlyUsedCachedRegexForRegexHashAndOptions(CFHashCode regexHash, RKLRegexOptions options) {
NSUInteger cacheSet = rkl_cacheSetForRegexHashAndOptions(regexHash, options);
return(rkl_cachedRegexForCacheSetAndWay(cacheSet, rkl_leastRecentlyUsedWayInSet(_RKL_REGEX_LRU_CACHE_SETS, rkl_cachedRegexCacheSets, cacheSet)));
}
#pragma mark Regular expression lookup function
// IMPORTANT! This code is critical path code. Because of this, it has been written for speed, not clarity.
// IMPORTANT! Should only be called with rkl_cacheSpinLock already locked!
// ----------
static RKLCachedRegex *rkl_getCachedRegex(NSString *regexString, RKLRegexOptions options, NSError **error, id *exception) {
// ---------- vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
// IMPORTANT! This section of code is called almost every single time that any RegexKitLite functionality is used! It /MUST/ be very fast!
// ---------- vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
RKLCachedRegex *cachedRegex = NULL;
CFHashCode regexHash = 0UL;
int32_t status = 0;
RKLCDelayedAssert((rkl_cacheSpinLock != (OSSpinLock)0) && (regexString != NULL), exception, exitNow);
// Fast path the common case where this regex is exactly the same one used last time.
// The pointer equality test is valid under these circumstances since the cachedRegex->regexString is an immutable copy.
// If the regexString argument is mutable, this test will fail, and we'll use the the slow path cache check below.
if(RKL_EXPECTED(rkl_lastCachedRegex != NULL, 1L) && RKL_EXPECTED(rkl_lastCachedRegex->regexString == (CFStringRef)regexString, 1L) && RKL_EXPECTED(rkl_lastCachedRegex->options == options, 1L) && RKL_EXPECTED(rkl_lastCachedRegex->icu_regex != NULL, 1L)) {
rkl_dtrace_compiledRegexCache(&rkl_dtrace_regexUTF8[(rkl_lastCachedRegex - rkl_cachedRegexes)][0], rkl_lastCachedRegex->options, (int)rkl_lastCachedRegex->captureCount, 1, 0, NULL);
return(rkl_lastCachedRegex);
}
rkl_lastCachedRegex = NULL; // Make sure that rkl_lastCachedRegex is NULL in case there is some kind of error.
cachedRegex = rkl_cachedRegexFromRegexLookasideCacheForString(regexString, options); // Check the Regex Lookaside Cache to see if we can quickly find the correct Cached Regex for this regexString pointer + options.
if((RKL_EXPECTED(cachedRegex->regexString == (CFStringRef)regexString, 1L) || (RKL_EXPECTED(cachedRegex->regexString != NULL, 1L) && RKL_EXPECTED(CFEqual((CFTypeRef)regexString, (CFTypeRef)cachedRegex->regexString) == YES, 1L))) && RKL_EXPECTED(cachedRegex->options == options, 1L) && RKL_EXPECTED(cachedRegex->icu_regex != NULL, 1L)) { goto foundMatch; } // There was a Regex Lookaside Cache hit, jump to foundMatch: to quickly return the result. A Regex Lookaside Cache hit allows us to bypass calling CFHash(), which is a decent performance win.
else { cachedRegex = NULL; regexHash = CFHash((CFTypeRef)regexString); } // Regex Lookaside Cache miss. We need to call CFHash() to determine the cache set for this regex.
NSInteger cacheWay = 0L; // Check each way of the set that this regex belongs to.
for(cacheWay = ((NSInteger)_RKL_LRU_CACHE_SET_WAYS - 1L); cacheWay > 0L; cacheWay--) { // Checking the ways in reverse (3, 2, 1, 0) finds a match "sooner" on average.
cachedRegex = rkl_cachedRegexForRegexHashAndOptionsAndWay(regexHash, options, (NSUInteger)cacheWay);
// Return the cached entry if it's a match. If regexString is mutable, the pointer equality test will fail, and CFEqual() is used to determine true equality with the immutable cachedRegex copy. CFEqual() performs a slow character by character check.
if(RKL_EXPECTED(cachedRegex->regexHash == regexHash, 0UL) && ((cachedRegex->regexString == (CFStringRef)regexString) || (RKL_EXPECTED(cachedRegex->regexString != NULL, 1L) && RKL_EXPECTED(CFEqual((CFTypeRef)regexString, (CFTypeRef)cachedRegex->regexString) == YES, 1L))) && RKL_EXPECTED(cachedRegex->options == options, 1L) && RKL_EXPECTED(cachedRegex->icu_regex != NULL, 1L)) {
foundMatch: // Control can transfer here (from above) via a Regex Lookaside Cache hit.
rkl_updateCachesWithCachedRegex(cachedRegex, regexString, 1, 0);
return(cachedRegex);
}
}
// ---------- ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
// IMPORTANT! This section of code is called almost every single time that any RegexKitLite functionality is used! It /MUST/ be very fast!
// ---------- ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
// Code below this point is not as sensitive to speed since compiling a regular expression is an extremely expensive operation.
// The regex was not found in the cache. Get the cached regex for the least recently used line in the set, then clear the cached regex and create a new ICU regex in its place.
cachedRegex = rkl_leastRecentlyUsedCachedRegexForRegexHashAndOptions(regexHash, options);
rkl_clearCachedRegex(cachedRegex);
if(RKL_EXPECTED((cachedRegex->regexString = CFStringCreateCopy(NULL, (CFStringRef)regexString)) == NULL, 0L)) { goto exitNow; } ; // Get a cheap immutable copy.
rkl_dtrace_getRegexUTF8(cachedRegex->regexString, &rkl_dtrace_regexUTF8[(cachedRegex - rkl_cachedRegexes)][0]);
cachedRegex->regexHash = regexHash;
cachedRegex->options = options;
CFIndex regexStringU16Length = CFStringGetLength(cachedRegex->regexString); // In UTF16 code units.
UParseError parseError = (UParseError){-1, -1, {0}, {0}};
RKL_STRONG_REF const UniChar * RKL_GC_VOLATILE regexUniChar = NULL;
if(RKL_EXPECTED(regexStringU16Length >= (CFIndex)INT_MAX, 0L)) { *exception = [NSException exceptionWithName:NSRangeException reason:@"Regex string length exceeds INT_MAX" userInfo:NULL]; goto exitNow; }
// Try to quickly obtain regexString in UTF16 format.
if((regexUniChar = CFStringGetCharactersPtr(cachedRegex->regexString)) == NULL) { // We didn't get the UTF16 pointer quickly and need to perform a full conversion in a temp buffer.
RKL_STRONG_REF UniChar * RKL_GC_VOLATILE uniCharBuffer = NULL;
if(((size_t)regexStringU16Length * sizeof(UniChar)) < (size_t)_RKL_STACK_LIMIT) { if(RKL_EXPECTED((uniCharBuffer = (RKL_STRONG_REF UniChar * RKL_GC_VOLATILE)alloca( (size_t)regexStringU16Length * sizeof(UniChar) )) == NULL, 0L)) { goto exitNow; } } // Try to use the stack.
else { if(RKL_EXPECTED((uniCharBuffer = (RKL_STRONG_REF UniChar * RKL_GC_VOLATILE)rkl_realloc(&rkl_scratchBuffer[0], (size_t)regexStringU16Length * sizeof(UniChar), 0UL)) == NULL, 0L)) { goto exitNow; } } // Otherwise use the heap.
CFStringGetCharacters(cachedRegex->regexString, CFMakeRange(0L, regexStringU16Length), uniCharBuffer); // Convert regexString to UTF16.
regexUniChar = uniCharBuffer;
}
// Create the ICU regex.
if(RKL_EXPECTED((cachedRegex->icu_regex = RKL_ICU_FUNCTION_APPEND(uregex_open)(regexUniChar, (int32_t)regexStringU16Length, options, &parseError, &status)) == NULL, 0L)) { goto exitNow; }
if(RKL_EXPECTED(status <= U_ZERO_ERROR, 1L)) { cachedRegex->captureCount = (NSInteger)RKL_ICU_FUNCTION_APPEND(uregex_groupCount)(cachedRegex->icu_regex, &status); }
if(RKL_EXPECTED(status <= U_ZERO_ERROR, 1L)) { rkl_updateCachesWithCachedRegex(cachedRegex, regexString, 0, status); }
exitNow:
if(RKL_EXPECTED(rkl_scratchBuffer[0] != NULL, 0L)) { rkl_scratchBuffer[0] = rkl_free(&rkl_scratchBuffer[0]); }
if(RKL_EXPECTED(status > U_ZERO_ERROR, 0L)) { rkl_clearCachedRegex(cachedRegex); cachedRegex = rkl_lastCachedRegex = NULL; if(error != NULL) { *error = rkl_makeNSError((RKLUserInfoOptions)RKLUserInfoNone, regexString, options, &parseError, status, NULL, NSNotFoundRange, NULL, NULL, 0L, (RKLRegexEnumerationOptions)RKLRegexEnumerationNoOptions, @"There was an error compiling the regular expression."); } }
#ifdef _RKL_DTRACE_ENABLED
if(RKL_EXPECTED(cachedRegex == NULL, 1L)) { char regexUTF8[_RKL_DTRACE_REGEXUTF8_SIZE]; const char *err = NULL; if(status != U_ZERO_ERROR) { err = RKL_ICU_FUNCTION_APPEND(u_errorName)(status); } rkl_dtrace_getRegexUTF8((CFStringRef)regexString, regexUTF8); rkl_dtrace_compiledRegexCache(regexUTF8, options, -1, -1, status, err); }
#endif // _RKL_DTRACE_ENABLED
return(cachedRegex);
}
// IMPORTANT! This code is critical path code. Because of this, it has been written for speed, not clarity.
// IMPORTANT! Should only be called with rkl_cacheSpinLock already locked!
// ----------
#pragma mark Set a cached regular expression to a NSStrings UTF-16 text
static NSUInteger rkl_setCachedRegexToString(RKLCachedRegex *cachedRegex, const NSRange *range, int32_t *status, id *exception RKL_UNUSED_ASSERTION_ARG) {
// ---------- vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
// IMPORTANT! This section of code is called almost every single time that any RegexKitLite functionality is used! It /MUST/ be very fast!
// ---------- vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
RKLCDelayedAssert((cachedRegex != NULL) && (cachedRegex->setToString != NULL) && ((range != NULL) && (NSEqualRanges(*range, NSNotFoundRange) == NO)) && (status != NULL), exception, exitNow);
RKL_STRONG_REF const UniChar * RKL_GC_VOLATILE stringUniChar = NULL;
#ifdef _RKL_DTRACE_ENABLED
unsigned int lookupResultFlags = 0U;
#endif
NSUInteger useFixedBuffer = (cachedRegex->setToLength < (CFIndex)_RKL_FIXED_LENGTH) ? 1UL : 0UL;
RKLBuffer *buffer = NULL;
if(cachedRegex->setToNeedsConversion == 0U) {
RKLCDelayedAssert((cachedRegex->setToUniChar != NULL) && (cachedRegex->buffer == NULL), exception, exitNow);
if(RKL_EXPECTED((stringUniChar = (RKL_STRONG_REF const UniChar * RKL_GC_VOLATILE)CFStringGetCharactersPtr(cachedRegex->setToString)) == NULL, 0L)) { cachedRegex->setToUniChar = NULL; cachedRegex->setToRange = NSNotFoundRange; cachedRegex->setToNeedsConversion = 1U; }
else { if(RKL_EXPECTED(cachedRegex->setToUniChar != stringUniChar, 0L)) { cachedRegex->setToRange = NSNotFoundRange; cachedRegex->setToUniChar = stringUniChar; } goto setRegexText; }
}
buffer = cachedRegex->buffer;
RKLCDelayedAssert((buffer == NULL) ? 1 : (((buffer == &rkl_lruFixedBuffer[0]) || (buffer == &rkl_lruFixedBuffer[1]) || (buffer == &rkl_lruFixedBuffer[2]) || (buffer == &rkl_lruFixedBuffer[3])) ||
((buffer == &rkl_lruDynamicBuffer[0]) || (buffer == &rkl_lruDynamicBuffer[1]) || (buffer == &rkl_lruDynamicBuffer[2]) || (buffer == &rkl_lruDynamicBuffer[3]))), exception, exitNow);
if((buffer != NULL) && RKL_EXPECTED(cachedRegex->setToString == buffer->string, 1L) && RKL_EXPECTED(cachedRegex->setToHash == buffer->hash, 1L) && RKL_EXPECTED(cachedRegex->setToLength == buffer->length, 1L)) {
RKLCDelayedAssert((buffer->uniChar != NULL), exception, exitNow);
rkl_dtrace_addLookupFlag(lookupResultFlags, RKLCacheHitLookupFlag | RKLConversionRequiredLookupFlag | (useFixedBuffer ? 0U : RKLDynamicBufferLookupFlag));
if(cachedRegex->setToUniChar != buffer->uniChar) { cachedRegex->setToRange = NSNotFoundRange; cachedRegex->setToUniChar = buffer->uniChar; }
goto setRegexText;
}
buffer = NULL;
cachedRegex->buffer = NULL;
NSInteger cacheWay = 0L;
for(cacheWay = ((NSInteger)_RKL_LRU_CACHE_SET_WAYS - 1L); cacheWay > 0L; cacheWay--) {
if(useFixedBuffer) { buffer = &rkl_lruFixedBuffer[cacheWay]; } else { buffer = &rkl_lruDynamicBuffer[cacheWay]; }
if(RKL_EXPECTED(cachedRegex->setToString == buffer->string, 1L) && RKL_EXPECTED(cachedRegex->setToHash == buffer->hash, 1L) && RKL_EXPECTED(cachedRegex->setToLength == buffer->length, 1L)) {
RKLCDelayedAssert((buffer->uniChar != NULL), exception, exitNow);
rkl_dtrace_addLookupFlag(lookupResultFlags, RKLCacheHitLookupFlag | RKLConversionRequiredLookupFlag | (useFixedBuffer ? 0U : RKLDynamicBufferLookupFlag));
if(cachedRegex->setToUniChar != buffer->uniChar) { cachedRegex->setToRange = NSNotFoundRange; cachedRegex->setToUniChar = buffer->uniChar; }
cachedRegex->buffer = buffer;
goto setRegexText;
}
}
buffer = NULL;
cachedRegex->setToUniChar = NULL;
cachedRegex->setToRange = NSNotFoundRange;
cachedRegex->buffer = NULL;
RKLCDelayedAssert((cachedRegex->setToNeedsConversion == 1U) && (cachedRegex->buffer == NULL), exception, exitNow);
if(RKL_EXPECTED(cachedRegex->setToNeedsConversion == 1U, 1L) && RKL_EXPECTED((cachedRegex->setToUniChar = (RKL_STRONG_REF const UniChar * RKL_GC_VOLATILE)CFStringGetCharactersPtr(cachedRegex->setToString)) != NULL, 0L)) { cachedRegex->setToNeedsConversion = 0U; cachedRegex->setToRange = NSNotFoundRange; goto setRegexText; }
rkl_dtrace_addLookupFlag(lookupResultFlags, RKLConversionRequiredLookupFlag | (useFixedBuffer ? 0U : RKLDynamicBufferLookupFlag));
if(useFixedBuffer) { buffer = &rkl_lruFixedBuffer [rkl_leastRecentlyUsedWayInSet(1UL, &rkl_lruFixedBufferCacheSet, 0UL)]; }
else { buffer = &rkl_lruDynamicBuffer[rkl_leastRecentlyUsedWayInSet(1UL, &rkl_lruDynamicBufferCacheSet, 0UL)]; }
RKLCDelayedAssert((useFixedBuffer) ? ((buffer == &rkl_lruFixedBuffer[0]) || (buffer == &rkl_lruFixedBuffer[1]) || (buffer == &rkl_lruFixedBuffer[2]) || (buffer == &rkl_lruFixedBuffer[3])) :
((buffer == &rkl_lruDynamicBuffer[0]) || (buffer == &rkl_lruDynamicBuffer[1]) || (buffer == &rkl_lruDynamicBuffer[2]) || (buffer == &rkl_lruDynamicBuffer[3])), exception, exitNow);
rkl_clearBuffer(buffer, 0UL);
RKLCDelayedAssert((buffer->string == NULL) && (cachedRegex->setToString != NULL), exception, exitNow);
if(RKL_EXPECTED((buffer->string = (CFStringRef)CFRetain((CFTypeRef)cachedRegex->setToString)) == NULL, 0L)) { goto exitNow; }
buffer->hash = cachedRegex->setToHash;
buffer->length = cachedRegex->setToLength;
if(useFixedBuffer == 0UL) {
RKL_STRONG_REF void * RKL_GC_VOLATILE p = (RKL_STRONG_REF void * RKL_GC_VOLATILE)buffer->uniChar;
if(RKL_EXPECTED((buffer->uniChar = (RKL_STRONG_REF UniChar * RKL_GC_VOLATILE)rkl_realloc(&p, ((size_t)buffer->length * sizeof(UniChar)), 0UL)) == NULL, 0L)) { goto exitNow; } // Resize the buffer.
}
RKLCDelayedAssert((buffer->string != NULL) && (buffer->uniChar != NULL), exception, exitNow);
CFStringGetCharacters(buffer->string, CFMakeRange(0L, buffer->length), (UniChar *)buffer->uniChar); // Convert to a UTF16 string.
cachedRegex->setToUniChar = buffer->uniChar;
cachedRegex->setToRange = NSNotFoundRange;
cachedRegex->buffer = buffer;
setRegexText:
if(buffer != NULL) { if(useFixedBuffer == 1UL) { rkl_accessCacheSetWay(1UL, &rkl_lruFixedBufferCacheSet, 0UL, (NSUInteger)(buffer - rkl_lruFixedBuffer)); } else { rkl_accessCacheSetWay(1UL, &rkl_lruDynamicBufferCacheSet, 0UL, (NSUInteger)(buffer - rkl_lruDynamicBuffer)); } }
if(NSEqualRanges(cachedRegex->setToRange, *range) == NO) {
RKLCDelayedAssert((cachedRegex->icu_regex != NULL) && (cachedRegex->setToUniChar != NULL) && (NSMaxRange(*range) <= (NSUInteger)cachedRegex->setToLength) && (cachedRegex->setToRange.length <= INT_MAX), exception, exitNow);
cachedRegex->lastFindRange = cachedRegex->lastMatchRange = NSNotFoundRange;
cachedRegex->setToRange = *range;
RKL_ICU_FUNCTION_APPEND(uregex_setText)(cachedRegex->icu_regex, cachedRegex->setToUniChar + cachedRegex->setToRange.location, (int32_t)cachedRegex->setToRange.length, status);
rkl_dtrace_addLookupFlag(lookupResultFlags, RKLSetTextLookupFlag);
if(RKL_EXPECTED(*status > U_ZERO_ERROR, 0L)) { rkl_dtrace_addLookupFlag(lookupResultFlags, RKLErrorLookupFlag); goto exitNow; }
}
rkl_dtrace_utf16ConversionCache(lookupResultFlags, cachedRegex->setToString, cachedRegex->setToRange.location, cachedRegex->setToRange.length, cachedRegex->setToLength);
return(1UL);
// ---------- ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
// IMPORTANT! This section of code is called almost every single time that any RegexKitLite functionality is used! It /MUST/ be very fast!
// ---------- ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
exitNow:
#ifdef _RKL_DTRACE_ENABLED
rkl_dtrace_addLookupFlag(lookupResultFlags, RKLErrorLookupFlag);
if(cachedRegex != NULL) { rkl_dtrace_utf16ConversionCache(lookupResultFlags, cachedRegex->setToString, cachedRegex->setToRange.location, cachedRegex->setToRange.length, cachedRegex->setToLength); }
#endif // _RKL_DTRACE_ENABLED
if(cachedRegex != NULL) { cachedRegex->buffer = NULL; cachedRegex->setToRange = NSNotFoundRange; cachedRegex->lastFindRange = NSNotFoundRange; cachedRegex->lastMatchRange = NSNotFoundRange; }
return(0UL);
}
// IMPORTANT! This code is critical path code. Because of this, it has been written for speed, not clarity.
// IMPORTANT! Should only be called with rkl_cacheSpinLock already locked!
// ----------
#pragma mark Get a regular expression and set it to a NSStrings UTF-16 text
static RKLCachedRegex *rkl_getCachedRegexSetToString(NSString *regexString, RKLRegexOptions options, NSString *matchString, NSUInteger *matchLengthPtr, NSRange *matchRange, NSError **error, id *exception, int32_t *status) {
// ---------- vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
// IMPORTANT! This section of code is called almost every single time that any RegexKitLite functionality is used! It /MUST/ be very fast!
// ---------- vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
RKLCachedRegex *cachedRegex = NULL;
RKLCDelayedAssert((regexString != NULL) && (matchString != NULL) && (exception != NULL) && (status != NULL) && (matchLengthPtr != NULL), exception, exitNow);
if(RKL_EXPECTED((cachedRegex = rkl_getCachedRegex(regexString, options, error, exception)) == NULL, 0L)) { goto exitNow; }
RKLCDelayedAssert(((cachedRegex >= rkl_cachedRegexes) && ((cachedRegex - rkl_cachedRegexes) < (ssize_t)_RKL_REGEX_CACHE_LINES)) && (cachedRegex != NULL) && (cachedRegex->icu_regex != NULL) && (cachedRegex->regexString != NULL) && (cachedRegex->captureCount >= 0L) && (cachedRegex == rkl_lastCachedRegex), exception, exitNow);
// Optimize the case where the string to search (matchString) is immutable and the setToString immutable copy is the same string with its reference count incremented.
NSUInteger isSetTo = ((cachedRegex->setToString == (CFStringRef)matchString)) ? 1UL : 0UL;
CFIndex matchLength = ((cachedRegex->setToIsImmutable == 1U) && (isSetTo == 1UL)) ? cachedRegex->setToLength : CFStringGetLength((CFStringRef)matchString);
*matchLengthPtr = (NSUInteger)matchLength;
if(matchRange->length == NSUIntegerMax) { matchRange->length = (NSUInteger)matchLength; } // For convenience, allow NSUIntegerMax == string length.
if(RKL_EXPECTED((NSUInteger)matchLength < NSMaxRange(*matchRange), 0L)) { goto exitNow; } // The match range is out of bounds for the string. performRegexOp will catch and report the problem.
RKLCDelayedAssert((isSetTo == 1UL) ? (cachedRegex->setToString != NULL) : 1, exception, exitNow);