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SmallVector and SmallPtrSet allocations now power-of-two aligned.

This time tested on both OSX and Linux.

llvm-svn: 178377
This commit is contained in:
Jean-Luc Duprat 2013-03-29 22:07:12 +00:00
parent 04c7342f29
commit 7776961622
4 changed files with 81 additions and 33 deletions

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@ -54,8 +54,6 @@ protected:
/// then the set is in 'small mode'.
const void **CurArray;
/// CurArraySize - The allocated size of CurArray, always a power of two.
/// Note that CurArray points to an array that has CurArraySize+1 elements in
/// it, so that the end iterator actually points to valid memory.
unsigned CurArraySize;
// If small, this is # elts allocated consecutively
@ -68,9 +66,6 @@ protected:
SmallArray(SmallStorage), CurArray(SmallStorage), CurArraySize(SmallSize) {
assert(SmallSize && (SmallSize & (SmallSize-1)) == 0 &&
"Initial size must be a power of two!");
// The end pointer, always valid, is set to a valid element to help the
// iterator.
CurArray[SmallSize] = 0;
clear();
}
~SmallPtrSetImpl();
@ -147,8 +142,10 @@ protected:
class SmallPtrSetIteratorImpl {
protected:
const void *const *Bucket;
const void *const *End;
public:
explicit SmallPtrSetIteratorImpl(const void *const *BP) : Bucket(BP) {
explicit SmallPtrSetIteratorImpl(const void *const *BP, const void*const *E)
: Bucket(BP), End(E) {
AdvanceIfNotValid();
}
@ -164,8 +161,10 @@ protected:
/// that is. This is guaranteed to stop because the end() bucket is marked
/// valid.
void AdvanceIfNotValid() {
while (*Bucket == SmallPtrSetImpl::getEmptyMarker() ||
*Bucket == SmallPtrSetImpl::getTombstoneMarker())
assert(Bucket <= End);
while (Bucket != End &&
(*Bucket == SmallPtrSetImpl::getEmptyMarker() ||
*Bucket == SmallPtrSetImpl::getTombstoneMarker()))
++Bucket;
}
};
@ -182,12 +181,13 @@ public:
typedef std::ptrdiff_t difference_type;
typedef std::forward_iterator_tag iterator_category;
explicit SmallPtrSetIterator(const void *const *BP)
: SmallPtrSetIteratorImpl(BP) {}
explicit SmallPtrSetIterator(const void *const *BP, const void *const *E)
: SmallPtrSetIteratorImpl(BP, E) {}
// Most methods provided by baseclass.
const PtrTy operator*() const {
assert(Bucket < End);
return PtrTraits::getFromVoidPointer(const_cast<void*>(*Bucket));
}
@ -236,9 +236,8 @@ template<class PtrType, unsigned SmallSize>
class SmallPtrSet : public SmallPtrSetImpl {
// Make sure that SmallSize is a power of two, round up if not.
enum { SmallSizePowTwo = RoundUpToPowerOfTwo<SmallSize>::Val };
/// SmallStorage - Fixed size storage used in 'small mode'. The extra element
/// ensures that the end iterator actually points to valid memory.
const void *SmallStorage[SmallSizePowTwo+1];
/// SmallStorage - Fixed size storage used in 'small mode'.
const void *SmallStorage[SmallSizePowTwo];
typedef PointerLikeTypeTraits<PtrType> PtrTraits;
public:
SmallPtrSet() : SmallPtrSetImpl(SmallStorage, SmallSizePowTwo) {}
@ -275,10 +274,10 @@ public:
typedef SmallPtrSetIterator<PtrType> iterator;
typedef SmallPtrSetIterator<PtrType> const_iterator;
inline iterator begin() const {
return iterator(CurArray);
return iterator(CurArray, CurArray+CurArraySize);
}
inline iterator end() const {
return iterator(CurArray+CurArraySize);
return iterator(CurArray+CurArraySize, CurArray+CurArraySize);
}
// Allow assignment from any smallptrset with the same element type even if it

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@ -16,6 +16,7 @@
#include "llvm/Support/AlignOf.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/MathExtras.h"
#include "llvm/Support/type_traits.h"
#include <algorithm>
#include <cassert>
@ -267,7 +268,8 @@ template <typename T, bool isPodLike>
void SmallVectorTemplateBase<T, isPodLike>::grow(size_t MinSize) {
size_t CurCapacity = this->capacity();
size_t CurSize = this->size();
size_t NewCapacity = 2*CurCapacity + 1; // Always grow, even from zero.
// Always grow, even from zero.
size_t NewCapacity = size_t(NextPowerOf2(CurCapacity+2));
if (NewCapacity < MinSize)
NewCapacity = MinSize;
T *NewElts = static_cast<T*>(malloc(NewCapacity*sizeof(T)));

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@ -29,13 +29,9 @@ void SmallPtrSetImpl::shrink_and_clear() {
NumElements = NumTombstones = 0;
// Install the new array. Clear all the buckets to empty.
CurArray = (const void**)malloc(sizeof(void*) * (CurArraySize+1));
CurArray = (const void**)malloc(sizeof(void*) * CurArraySize);
assert(CurArray && "Failed to allocate memory?");
memset(CurArray, -1, CurArraySize*sizeof(void*));
// The end pointer, always valid, is set to a valid element to help the
// iterator.
CurArray[CurArraySize] = 0;
}
bool SmallPtrSetImpl::insert_imp(const void * Ptr) {
@ -139,15 +135,11 @@ void SmallPtrSetImpl::Grow(unsigned NewSize) {
bool WasSmall = isSmall();
// Install the new array. Clear all the buckets to empty.
CurArray = (const void**)malloc(sizeof(void*) * (NewSize+1));
CurArray = (const void**)malloc(sizeof(void*) * NewSize);
assert(CurArray && "Failed to allocate memory?");
CurArraySize = NewSize;
memset(CurArray, -1, NewSize*sizeof(void*));
// The end pointer, always valid, is set to a valid element to help the
// iterator.
CurArray[NewSize] = 0;
// Copy over all the elements.
if (WasSmall) {
// Small sets store their elements in order.
@ -180,7 +172,7 @@ SmallPtrSetImpl::SmallPtrSetImpl(const void **SmallStorage,
CurArray = SmallArray;
// Otherwise, allocate new heap space (unless we were the same size)
} else {
CurArray = (const void**)malloc(sizeof(void*) * (that.CurArraySize+1));
CurArray = (const void**)malloc(sizeof(void*) * that.CurArraySize);
assert(CurArray && "Failed to allocate memory?");
}
@ -188,7 +180,7 @@ SmallPtrSetImpl::SmallPtrSetImpl(const void **SmallStorage,
CurArraySize = that.CurArraySize;
// Copy over the contents from the other set
memcpy(CurArray, that.CurArray, sizeof(void*)*(CurArraySize+1));
memcpy(CurArray, that.CurArray, sizeof(void*)*CurArraySize);
NumElements = that.NumElements;
NumTombstones = that.NumTombstones;
@ -209,9 +201,9 @@ void SmallPtrSetImpl::CopyFrom(const SmallPtrSetImpl &RHS) {
// Otherwise, allocate new heap space (unless we were the same size)
} else if (CurArraySize != RHS.CurArraySize) {
if (isSmall())
CurArray = (const void**)malloc(sizeof(void*) * (RHS.CurArraySize+1));
CurArray = (const void**)malloc(sizeof(void*) * RHS.CurArraySize);
else
CurArray = (const void**)realloc(CurArray, sizeof(void*)*(RHS.CurArraySize+1));
CurArray = (const void**)realloc(CurArray, sizeof(void*)*RHS.CurArraySize);
assert(CurArray && "Failed to allocate memory?");
}
@ -219,7 +211,7 @@ void SmallPtrSetImpl::CopyFrom(const SmallPtrSetImpl &RHS) {
CurArraySize = RHS.CurArraySize;
// Copy over the contents from the other set
memcpy(CurArray, RHS.CurArray, sizeof(void*)*(CurArraySize+1));
memcpy(CurArray, RHS.CurArray, sizeof(void*)*CurArraySize);
NumElements = RHS.NumElements;
NumTombstones = RHS.NumTombstones;

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@ -17,6 +17,61 @@
using namespace llvm;
// SmallPtrSet swapping test.
TEST(SmallPtrSetTest, GrowthTest) {
int i;
int buf[8];
for(i=0; i<8; ++i) buf[i]=0;
SmallPtrSet<int *, 4> s;
typedef SmallPtrSet<int *, 4>::iterator iter;
s.insert(&buf[0]);
s.insert(&buf[1]);
s.insert(&buf[2]);
s.insert(&buf[3]);
EXPECT_EQ(4U, s.size());
i = 0;
for(iter I=s.begin(), E=s.end(); I!=E; ++I, ++i)
(**I)++;
EXPECT_EQ(4, i);
for(i=0; i<8; ++i)
EXPECT_EQ(i<4?1:0,buf[i]);
s.insert(&buf[4]);
s.insert(&buf[5]);
s.insert(&buf[6]);
s.insert(&buf[7]);
i = 0;
for(iter I=s.begin(), E=s.end(); I!=E; ++I, ++i)
(**I)++;
EXPECT_EQ(8, i);
s.erase(&buf[4]);
s.erase(&buf[5]);
s.erase(&buf[6]);
s.erase(&buf[7]);
EXPECT_EQ(4U, s.size());
i = 0;
for(iter I=s.begin(), E=s.end(); I!=E; ++I, ++i)
(**I)++;
EXPECT_EQ(4, i);
for(i=0; i<8; ++i)
EXPECT_EQ(i<4?3:1,buf[i]);
s.clear();
for(i=0; i<8; ++i) buf[i]=0;
for(i=0; i<128; ++i) s.insert(&buf[i%8]); // test repeated entires
EXPECT_EQ(8U, s.size());
for(iter I=s.begin(), E=s.end(); I!=E; ++I, ++i)
(**I)++;
for(i=0; i<8; ++i)
EXPECT_EQ(1,buf[i]);
}
TEST(SmallPtrSetTest, SwapTest) {
int buf[10];