// [The "BSD licence"] // Copyright (c) 2006-2007 Kay Roepke 2010 Alan Condit // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // 1. Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // 2. 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. // 3. The name of the author may not be used to endorse or promote products // derived from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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. #import "ANTLRBitSet.h" @implementation ANTLRBitSet #pragma mark Class Methods + (ANTLRBitSet *) newBitSet { return [[ANTLRBitSet alloc] init]; } + (ANTLRBitSet *) newBitSetWithType:(TokenType)type { return [[ANTLRBitSet alloc] initWithType:type]; } /** Construct a ANTLRBitSet given the size * @param nbits The size of the ANTLRBitSet in bits */ + (ANTLRBitSet *) newBitSetWithNBits:(NSUInteger)nbits { return [[ANTLRBitSet alloc] initWithNBits:nbits]; } + (ANTLRBitSet *) newBitSetWithArray:(AMutableArray *)types { return [[ANTLRBitSet alloc] initWithArrayOfBits:types]; } + (ANTLRBitSet *) newBitSetWithBits:(const unsigned long long *)theBits Count:(NSUInteger)longCount { return [[ANTLRBitSet alloc] initWithBits:theBits Count:longCount]; } + (ANTLRBitSet *) of:(NSUInteger) el { ANTLRBitSet *s = [ANTLRBitSet newBitSetWithNBits:(el + 1)]; [s add:el]; return s; } + (ANTLRBitSet *) of:(NSUInteger) a And2:(NSUInteger) b { NSInteger c = (((a>b)?a:b)+1); ANTLRBitSet *s = [ANTLRBitSet newBitSetWithNBits:c]; [s add:a]; [s add:b]; return s; } + (ANTLRBitSet *) of:(NSUInteger)a And2:(NSUInteger)b And3:(NSUInteger)c { NSUInteger d = ((a>b)?a:b); d = ((c>d)?c:d)+1; ANTLRBitSet *s = [ANTLRBitSet newBitSetWithNBits:d]; [s add:a]; [s add:b]; [s add:c]; return s; } + (ANTLRBitSet *) of:(NSUInteger)a And2:(NSUInteger)b And3:(NSUInteger)c And4:(NSUInteger)d { NSUInteger e = ((a>b)?a:b); NSUInteger f = ((c>d)?c:d); e = ((e>f)?e:f)+1; ANTLRBitSet *s = [ANTLRBitSet newBitSetWithNBits:e]; [s add:a]; [s add:b]; [s add:c]; [s add:d]; return s; } // initializer #pragma mark Initializer - (ANTLRBitSet *) init { if ((self = [super init]) != nil) { bitVector = CFBitVectorCreateMutable(kCFAllocatorDefault,0); } return self; } - (ANTLRBitSet *) initWithType:(TokenType)type { if ((self = [super init]) != nil) { bitVector = CFBitVectorCreateMutable(kCFAllocatorDefault,0); if ((CFIndex)type >= CFBitVectorGetCount(bitVector)) CFBitVectorSetCount(bitVector, type+1); CFBitVectorSetBitAtIndex(bitVector, type, 1); } return self; } - (ANTLRBitSet *) initWithNBits:(NSUInteger)nbits { if ((self = [super init]) != nil) { bitVector = CFBitVectorCreateMutable(kCFAllocatorDefault,0); CFBitVectorSetCount( bitVector, nbits ); } return self; } - (ANTLRBitSet *) initWithBitVector:(CFMutableBitVectorRef)theBitVector { if ((self = [super init]) != nil) { bitVector = theBitVector; } return self; } // Initialize the bit vector with a constant array of ulonglongs like ANTLR generates. // Converts to big endian, because the underlying CFBitVector works like that. - (ANTLRBitSet *) initWithBits:(const unsigned long long *)theBits Count:(NSUInteger)longCount { if ((self = [super init]) != nil) { unsigned int longNo; // unsigned long long swappedBits = 0LL; CFIndex bitIdx; bitVector = CFBitVectorCreateMutable ( kCFAllocatorDefault, 0 ); CFBitVectorSetCount( bitVector, sizeof(unsigned long long)*8*longCount ); for (longNo = 0; longNo < longCount; longNo++) { for (bitIdx = 0; bitIdx < (CFIndex)sizeof(unsigned long long)*8; bitIdx++) { // swappedBits = CFSwapInt64HostToBig(theBits[longNo]); // if (swappedBits & (1LL << bitIdx)) { if (theBits[longNo] & (1LL << bitIdx)) { CFBitVectorSetBitAtIndex(bitVector, bitIdx+(longNo*(sizeof(unsigned long long)*8)), 1); } } } } return self; } // Initialize bit vector with an array of anything. Just test the boolValue and set the corresponding bit. // Note: This is big-endian! - (ANTLRBitSet *) initWithArrayOfBits:(NSArray *)theArray { if ((self = [super init]) != nil) { bitVector = CFBitVectorCreateMutable ( kCFAllocatorDefault, 0 ); id value; int bit = 0; for (value in theArray) { if ([value boolValue] == YES) { [self add:bit]; //CFBitVectorSetBitAtIndex(bitVector, bit, 1); } bit++; } } return self; } - (void)dealloc { #ifdef DEBUG_DEALLOC NSLog( @"called dealloc in ANTLRBitSet" ); #endif CFRelease(bitVector); [super dealloc]; } // operations #pragma mark Operations // return a copy of (self|aBitSet) - (ANTLRBitSet *) or:(ANTLRBitSet *) aBitSet { ANTLRBitSet *bitsetCopy = [self mutableCopyWithZone:nil]; [bitsetCopy orInPlace:aBitSet]; return bitsetCopy; } // perform a bitwise OR operation in place by changing underlying bit vector, growing it if necessary - (void) orInPlace:(ANTLRBitSet *) aBitSet { CFIndex selfCnt = CFBitVectorGetCount(bitVector); CFMutableBitVectorRef otherBitVector = [aBitSet _bitVector]; CFIndex otherCnt = CFBitVectorGetCount(otherBitVector); CFIndex maxBitCnt = selfCnt > otherCnt ? selfCnt : otherCnt; CFBitVectorSetCount(bitVector,maxBitCnt); // be sure to grow the CFBitVector manually! CFIndex currIdx; for (currIdx = 0; currIdx < maxBitCnt; currIdx++) { if (CFBitVectorGetBitAtIndex(bitVector, currIdx) | CFBitVectorGetBitAtIndex(otherBitVector, currIdx)) { CFBitVectorSetBitAtIndex(bitVector, currIdx, 1); } } } // set a bit, grow the bit vector if necessary - (void) add:(NSUInteger) bit { if ((CFIndex)bit >= CFBitVectorGetCount(bitVector)) CFBitVectorSetCount(bitVector, bit+1); CFBitVectorSetBitAtIndex(bitVector, bit, 1); } // unset a bit - (void) remove:(NSUInteger) bit { CFBitVectorSetBitAtIndex(bitVector, bit, 0); } - (void) setAllBits:(BOOL) aState { for( NSInteger bit=0; bit < CFBitVectorGetCount(bitVector); bit++ ) { CFBitVectorSetBitAtIndex(bitVector, bit, aState); } } // returns the number of bits in the bit vector. - (NSInteger) numBits { // return CFBitVectorGetCount(bitVector); return CFBitVectorGetCountOfBit(bitVector, CFRangeMake(0, CFBitVectorGetCount(bitVector)), 1); } // returns the number of bits in the bit vector. - (NSUInteger) size { return CFBitVectorGetCount(bitVector); } - (void) setSize:(NSUInteger) nBits { CFBitVectorSetCount( bitVector, nBits ); } #pragma mark Informational // return a bitmask representation of this bitvector for easy operations - (unsigned long long) bitMask:(NSUInteger) bitNumber { return 1LL << bitNumber; } // test a bit (no pun intended) - (BOOL) member:(NSUInteger) bitNumber { return CFBitVectorGetBitAtIndex(bitVector,bitNumber) ? YES : NO; } // are all bits off? - (BOOL) isNil { return ((CFBitVectorGetCountOfBit(bitVector, CFRangeMake(0,CFBitVectorGetCount(bitVector)), 1) == 0) ? YES : NO); } // debugging aid. GDB invokes this automagically // return a string representation of the bit vector, indicating by their bitnumber which bits are set - (NSString *) description { CFIndex length = CFBitVectorGetCount(bitVector); CFIndex currBit; NSMutableString *descString = [NSMutableString stringWithString:@"{"]; BOOL haveInsertedBit = NO; for (currBit = 0; currBit < length; currBit++) { if ( CFBitVectorGetBitAtIndex(bitVector, currBit) ) { if (haveInsertedBit) { [descString appendString:@","]; } [descString appendFormat:@"%d", currBit]; haveInsertedBit = YES; } } [descString appendString:@"}"]; return descString; } // return a string representation of the bit vector, indicating by their bitnumber which bits are set - (NSString *) toString { return [self description]; } // NSCopying #pragma mark NSCopying support - (id) mutableCopyWithZone:(NSZone *) theZone { ANTLRBitSet *newBitSet = [[ANTLRBitSet allocWithZone:theZone] initWithBitVector:CFBitVectorCreateMutableCopy(kCFAllocatorDefault,0,bitVector)]; return newBitSet; } - (CFMutableBitVectorRef) _bitVector { return bitVector; } @synthesize bitVector; @end NSInteger max(NSInteger a, NSInteger b) { return (a>b)?a:b; }