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https://github.com/c64scene-ar/llvm-6502.git
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e160c53fbe
Tombstones and full hash collisions are rare, mark the "empty" and "no collision" paths as likely. The bug in simplifycfg that prevented the hints from being picked during selfhost up was fixed recently :) git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@162874 91177308-0d34-0410-b5e6-96231b3b80d8
239 lines
8.3 KiB
C++
239 lines
8.3 KiB
C++
//===--- StringMap.cpp - String Hash table map implementation -------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the StringMap class.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ADT/StringMap.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/Support/Compiler.h"
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#include <cassert>
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using namespace llvm;
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StringMapImpl::StringMapImpl(unsigned InitSize, unsigned itemSize) {
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ItemSize = itemSize;
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// If a size is specified, initialize the table with that many buckets.
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if (InitSize) {
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init(InitSize);
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return;
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}
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// Otherwise, initialize it with zero buckets to avoid the allocation.
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TheTable = 0;
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NumBuckets = 0;
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NumItems = 0;
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NumTombstones = 0;
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}
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void StringMapImpl::init(unsigned InitSize) {
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assert((InitSize & (InitSize-1)) == 0 &&
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"Init Size must be a power of 2 or zero!");
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NumBuckets = InitSize ? InitSize : 16;
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NumItems = 0;
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NumTombstones = 0;
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TheTable = (StringMapEntryBase **)calloc(NumBuckets+1,
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sizeof(StringMapEntryBase **) +
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sizeof(unsigned));
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// Allocate one extra bucket, set it to look filled so the iterators stop at
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// end.
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TheTable[NumBuckets] = (StringMapEntryBase*)2;
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}
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/// LookupBucketFor - Look up the bucket that the specified string should end
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/// up in. If it already exists as a key in the map, the Item pointer for the
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/// specified bucket will be non-null. Otherwise, it will be null. In either
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/// case, the FullHashValue field of the bucket will be set to the hash value
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/// of the string.
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unsigned StringMapImpl::LookupBucketFor(StringRef Name) {
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unsigned HTSize = NumBuckets;
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if (HTSize == 0) { // Hash table unallocated so far?
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init(16);
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HTSize = NumBuckets;
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}
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unsigned FullHashValue = HashString(Name);
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unsigned BucketNo = FullHashValue & (HTSize-1);
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unsigned *HashTable = (unsigned *)(TheTable + NumBuckets + 1);
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unsigned ProbeAmt = 1;
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int FirstTombstone = -1;
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while (1) {
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StringMapEntryBase *BucketItem = TheTable[BucketNo];
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// If we found an empty bucket, this key isn't in the table yet, return it.
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if (LLVM_LIKELY(BucketItem == 0)) {
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// If we found a tombstone, we want to reuse the tombstone instead of an
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// empty bucket. This reduces probing.
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if (FirstTombstone != -1) {
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HashTable[FirstTombstone] = FullHashValue;
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return FirstTombstone;
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}
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HashTable[BucketNo] = FullHashValue;
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return BucketNo;
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}
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if (BucketItem == getTombstoneVal()) {
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// Skip over tombstones. However, remember the first one we see.
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if (FirstTombstone == -1) FirstTombstone = BucketNo;
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} else if (LLVM_LIKELY(HashTable[BucketNo] == FullHashValue)) {
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// If the full hash value matches, check deeply for a match. The common
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// case here is that we are only looking at the buckets (for item info
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// being non-null and for the full hash value) not at the items. This
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// is important for cache locality.
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// Do the comparison like this because Name isn't necessarily
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// null-terminated!
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char *ItemStr = (char*)BucketItem+ItemSize;
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if (Name == StringRef(ItemStr, BucketItem->getKeyLength())) {
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// We found a match!
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return BucketNo;
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}
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}
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// Okay, we didn't find the item. Probe to the next bucket.
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BucketNo = (BucketNo+ProbeAmt) & (HTSize-1);
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// Use quadratic probing, it has fewer clumping artifacts than linear
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// probing and has good cache behavior in the common case.
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++ProbeAmt;
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}
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}
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/// FindKey - Look up the bucket that contains the specified key. If it exists
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/// in the map, return the bucket number of the key. Otherwise return -1.
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/// This does not modify the map.
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int StringMapImpl::FindKey(StringRef Key) const {
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unsigned HTSize = NumBuckets;
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if (HTSize == 0) return -1; // Really empty table?
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unsigned FullHashValue = HashString(Key);
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unsigned BucketNo = FullHashValue & (HTSize-1);
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unsigned *HashTable = (unsigned *)(TheTable + NumBuckets + 1);
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unsigned ProbeAmt = 1;
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while (1) {
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StringMapEntryBase *BucketItem = TheTable[BucketNo];
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// If we found an empty bucket, this key isn't in the table yet, return.
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if (LLVM_LIKELY(BucketItem == 0))
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return -1;
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if (BucketItem == getTombstoneVal()) {
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// Ignore tombstones.
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} else if (LLVM_LIKELY(HashTable[BucketNo] == FullHashValue)) {
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// If the full hash value matches, check deeply for a match. The common
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// case here is that we are only looking at the buckets (for item info
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// being non-null and for the full hash value) not at the items. This
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// is important for cache locality.
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// Do the comparison like this because NameStart isn't necessarily
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// null-terminated!
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char *ItemStr = (char*)BucketItem+ItemSize;
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if (Key == StringRef(ItemStr, BucketItem->getKeyLength())) {
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// We found a match!
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return BucketNo;
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}
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}
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// Okay, we didn't find the item. Probe to the next bucket.
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BucketNo = (BucketNo+ProbeAmt) & (HTSize-1);
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// Use quadratic probing, it has fewer clumping artifacts than linear
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// probing and has good cache behavior in the common case.
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++ProbeAmt;
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}
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}
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/// RemoveKey - Remove the specified StringMapEntry from the table, but do not
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/// delete it. This aborts if the value isn't in the table.
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void StringMapImpl::RemoveKey(StringMapEntryBase *V) {
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const char *VStr = (char*)V + ItemSize;
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StringMapEntryBase *V2 = RemoveKey(StringRef(VStr, V->getKeyLength()));
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(void)V2;
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assert(V == V2 && "Didn't find key?");
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}
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/// RemoveKey - Remove the StringMapEntry for the specified key from the
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/// table, returning it. If the key is not in the table, this returns null.
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StringMapEntryBase *StringMapImpl::RemoveKey(StringRef Key) {
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int Bucket = FindKey(Key);
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if (Bucket == -1) return 0;
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StringMapEntryBase *Result = TheTable[Bucket];
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TheTable[Bucket] = getTombstoneVal();
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--NumItems;
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++NumTombstones;
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assert(NumItems + NumTombstones <= NumBuckets);
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return Result;
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}
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/// RehashTable - Grow the table, redistributing values into the buckets with
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/// the appropriate mod-of-hashtable-size.
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void StringMapImpl::RehashTable() {
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unsigned NewSize;
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unsigned *HashTable = (unsigned *)(TheTable + NumBuckets + 1);
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// If the hash table is now more than 3/4 full, or if fewer than 1/8 of
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// the buckets are empty (meaning that many are filled with tombstones),
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// grow/rehash the table.
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if (NumItems*4 > NumBuckets*3) {
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NewSize = NumBuckets*2;
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} else if (NumBuckets-(NumItems+NumTombstones) <= NumBuckets/8) {
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NewSize = NumBuckets;
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} else {
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return;
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}
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// Allocate one extra bucket which will always be non-empty. This allows the
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// iterators to stop at end.
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StringMapEntryBase **NewTableArray =
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(StringMapEntryBase **)calloc(NewSize+1, sizeof(StringMapEntryBase *) +
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sizeof(unsigned));
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unsigned *NewHashArray = (unsigned *)(NewTableArray + NewSize + 1);
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NewTableArray[NewSize] = (StringMapEntryBase*)2;
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// Rehash all the items into their new buckets. Luckily :) we already have
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// the hash values available, so we don't have to rehash any strings.
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for (unsigned I = 0, E = NumBuckets; I != E; ++I) {
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StringMapEntryBase *Bucket = TheTable[I];
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if (Bucket && Bucket != getTombstoneVal()) {
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// Fast case, bucket available.
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unsigned FullHash = HashTable[I];
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unsigned NewBucket = FullHash & (NewSize-1);
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if (NewTableArray[NewBucket] == 0) {
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NewTableArray[FullHash & (NewSize-1)] = Bucket;
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NewHashArray[FullHash & (NewSize-1)] = FullHash;
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continue;
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}
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// Otherwise probe for a spot.
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unsigned ProbeSize = 1;
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do {
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NewBucket = (NewBucket + ProbeSize++) & (NewSize-1);
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} while (NewTableArray[NewBucket]);
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// Finally found a slot. Fill it in.
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NewTableArray[NewBucket] = Bucket;
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NewHashArray[NewBucket] = FullHash;
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}
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}
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free(TheTable);
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TheTable = NewTableArray;
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NumBuckets = NewSize;
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NumTombstones = 0;
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}
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