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freebsd-skq/contrib/llvm/lib/DebugInfo/DWARFDebugAranges.cpp
dim a8b6bed223 Upgrade our copy of llvm/clang to 3.4 release. This version supports 
all of the features in the current working draft of the upcoming C++
standard, provisionally named C++1y.

The code generator's performance is greatly increased, and the loop
auto-vectorizer is now enabled at -Os and -O2 in addition to -O3.  The
PowerPC backend has made several major improvements to code generation
quality and compile time, and the X86, SPARC, ARM32, Aarch64 and SystemZ
backends have all seen major feature work.

Release notes for llvm and clang can be found here:
<http://llvm.org/releases/3.4/docs/ReleaseNotes.html>
<http://llvm.org/releases/3.4/tools/clang/docs/ReleaseNotes.html>

MFC after:	1 month
2014-02-16 19:44:07 +00:00

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//===-- DWARFDebugAranges.cpp -----------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "DWARFDebugAranges.h"
#include "DWARFCompileUnit.h"
#include "DWARFContext.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cassert>
using namespace llvm;
void DWARFDebugAranges::extract(DataExtractor DebugArangesData) {
if (!DebugArangesData.isValidOffset(0))
return;
uint32_t Offset = 0;
typedef std::vector<DWARFDebugArangeSet> RangeSetColl;
RangeSetColl Sets;
DWARFDebugArangeSet Set;
uint32_t TotalRanges = 0;
while (Set.extract(DebugArangesData, &Offset)) {
Sets.push_back(Set);
TotalRanges += Set.getNumDescriptors();
}
if (TotalRanges == 0)
return;
Aranges.reserve(TotalRanges);
for (RangeSetColl::const_iterator I = Sets.begin(), E = Sets.end(); I != E;
++I) {
uint32_t CUOffset = I->getCompileUnitDIEOffset();
for (uint32_t i = 0, n = I->getNumDescriptors(); i < n; ++i) {
const DWARFDebugArangeSet::Descriptor *ArangeDescPtr =
I->getDescriptor(i);
uint64_t LowPC = ArangeDescPtr->Address;
uint64_t HighPC = LowPC + ArangeDescPtr->Length;
appendRange(CUOffset, LowPC, HighPC);
}
}
}
void DWARFDebugAranges::generate(DWARFContext *CTX) {
clear();
if (!CTX)
return;
// Extract aranges from .debug_aranges section.
DataExtractor ArangesData(CTX->getARangeSection(), CTX->isLittleEndian(), 0);
extract(ArangesData);
// Generate aranges from DIEs: even if .debug_aranges section is present,
// it may describe only a small subset of compilation units, so we need to
// manually build aranges for the rest of them.
for (uint32_t i = 0, n = CTX->getNumCompileUnits(); i < n; ++i) {
if (DWARFCompileUnit *CU = CTX->getCompileUnitAtIndex(i)) {
uint32_t CUOffset = CU->getOffset();
if (ParsedCUOffsets.insert(CUOffset).second)
CU->buildAddressRangeTable(this, true, CUOffset);
}
}
sortAndMinimize();
}
void DWARFDebugAranges::appendRange(uint32_t CUOffset, uint64_t LowPC,
uint64_t HighPC) {
if (!Aranges.empty()) {
if (Aranges.back().CUOffset == CUOffset &&
Aranges.back().HighPC() == LowPC) {
Aranges.back().setHighPC(HighPC);
return;
}
}
Aranges.push_back(Range(LowPC, HighPC, CUOffset));
}
void DWARFDebugAranges::sortAndMinimize() {
const size_t orig_arange_size = Aranges.size();
// Size of one? If so, no sorting is needed
if (orig_arange_size <= 1)
return;
// Sort our address range entries
std::stable_sort(Aranges.begin(), Aranges.end());
// Most address ranges are contiguous from function to function
// so our new ranges will likely be smaller. We calculate the size
// of the new ranges since although std::vector objects can be resized,
// the will never reduce their allocated block size and free any excesss
// memory, so we might as well start a brand new collection so it is as
// small as possible.
// First calculate the size of the new minimal arange vector
// so we don't have to do a bunch of re-allocations as we
// copy the new minimal stuff over to the new collection.
size_t minimal_size = 1;
for (size_t i = 1; i < orig_arange_size; ++i) {
if (!Range::SortedOverlapCheck(Aranges[i-1], Aranges[i]))
++minimal_size;
}
// If the sizes are the same, then no consecutive aranges can be
// combined, we are done.
if (minimal_size == orig_arange_size)
return;
// Else, make a new RangeColl that _only_ contains what we need.
RangeColl minimal_aranges;
minimal_aranges.resize(minimal_size);
uint32_t j = 0;
minimal_aranges[j] = Aranges[0];
for (size_t i = 1; i < orig_arange_size; ++i) {
if (Range::SortedOverlapCheck(minimal_aranges[j], Aranges[i])) {
minimal_aranges[j].setHighPC(Aranges[i].HighPC());
} else {
// Only increment j if we aren't merging
minimal_aranges[++j] = Aranges[i];
}
}
assert(j+1 == minimal_size);
// Now swap our new minimal aranges into place. The local
// minimal_aranges will then contian the old big collection
// which will get freed.
minimal_aranges.swap(Aranges);
}
uint32_t DWARFDebugAranges::findAddress(uint64_t Address) const {
if (!Aranges.empty()) {
Range range(Address);
RangeCollIterator begin = Aranges.begin();
RangeCollIterator end = Aranges.end();
RangeCollIterator pos =
std::lower_bound(begin, end, range);
if (pos != end && pos->containsAddress(Address)) {
return pos->CUOffset;
} else if (pos != begin) {
--pos;
if (pos->containsAddress(Address))
return pos->CUOffset;
}
}
return -1U;
}
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