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llvm-project/llvm/lib/DebugInfo/LogicalView/Core/LVRange.cpp
Carlos Alberto Enciso 3c397c90c1 [llvm-debuginfo-analyzer] (04/09) - Locations and ranges 
llvm-debuginfo-analyzer is a command line tool that processes debug
info contained in a binary file and produces a debug information
format agnostic “Logical View”, which is a high-level semantic
representation of the debug info, independent of the low-level
format.

The code has been divided into the following patches:

1) Interval tree
2) Driver and documentation
3) Logical elements
4) Locations and ranges
5) Select elements
6) Warning and internal options
7) Compare elements
8) ELF Reader
9) CodeView Reader

Full details:
https://discourse.llvm.org/t/llvm-dev-rfc-llvm-dva-debug-information-visual-analyzer/62570

This patch:

Locations and ranges
- All functionality for logical debug locations and ranges:
  LVLocation, LVRanges.

Reviewed By: psamolysov, probinson

Differential Revision: https://reviews.llvm.org/D125779
2022-10-20 08:31:13 +01:00

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//===-- LVRange.cpp -------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This implements the LVRange class.
//
//===----------------------------------------------------------------------===//
#include "llvm/DebugInfo/LogicalView/Core/LVRange.h"
#include "llvm/DebugInfo/LogicalView/Core/LVLocation.h"
#include "llvm/DebugInfo/LogicalView/Core/LVOptions.h"
using namespace llvm;
using namespace llvm::logicalview;
#define DEBUG_TYPE "Range"
void LVRange::startSearch() {
RangesTree.clear();
LLVM_DEBUG({ dbgs() << "\nRanges Tree entries:\n"; });
// Traverse the ranges and store them into the interval tree.
for (LVRangeEntry &RangeEntry : RangeEntries) {
LLVM_DEBUG({
LVScope *Scope = RangeEntry.scope();
dbgs() << "Scope: " << format_decimal(Scope->getLevel(), 5) << " "
<< "Range: [" << hexValue(RangeEntry.lower()) << ":"
<< hexValue(RangeEntry.upper()) << "]\n";
});
RangesTree.insert(RangeEntry.lower(), RangeEntry.upper(),
RangeEntry.scope());
}
// Create the interval tree.
RangesTree.create();
LLVM_DEBUG({
dbgs() << "\nRanges Tree:\n";
RangesTree.print(dbgs());
});
}
// Add the pair in an ascending order, with the smallest ranges at the
// start; in that way, enclosing scopes ranges are at the end of the
// list; we assume that low <= high.
void LVRange::addEntry(LVScope *Scope, LVAddress LowerAddress,
LVAddress UpperAddress) {
// We assume the low <= high.
if (LowerAddress > UpperAddress)
std::swap(LowerAddress, UpperAddress);
// Record the lowest and highest seen addresses.
if (LowerAddress < Lower)
Lower = LowerAddress;
if (UpperAddress > Upper)
Upper = UpperAddress;
// Just add the scope and range pair, in no particular order.
RangeEntries.emplace_back(LowerAddress, UpperAddress, Scope);
}
void LVRange::addEntry(LVScope *Scope) {
assert(Scope && "Scope must not be nullptr");
// Traverse the ranges and update the ranges set only if the ranges
// values are not already recorded.
if (const LVLocations *Locations = Scope->getRanges())
for (const LVLocation *Location : *Locations) {
LVAddress LowPC = Location->getLowerAddress();
LVAddress HighPC = Location->getUpperAddress();
if (!hasEntry(LowPC, HighPC))
// Add the pair of addresses.
addEntry(Scope, LowPC, HighPC);
}
}
// Get the scope associated with the input address.
LVScope *LVRange::getEntry(LVAddress Address) const {
LLVM_DEBUG({ dbgs() << format("Searching: 0x%08x\nFound: ", Address); });
LVScope *Target = nullptr;
LVLevel TargetLevel = 0;
LVLevel Level = 0;
LVScope *Scope = nullptr;
for (LVRangesTree::find_iterator Iter = RangesTree.find(Address),
End = RangesTree.find_end();
Iter != End; ++Iter) {
LLVM_DEBUG(
{ dbgs() << format("[0x%08x,0x%08x] ", Iter->left(), Iter->right()); });
Scope = Iter->value();
Level = Scope->getLevel();
if (Level > TargetLevel) {
TargetLevel = Level;
Target = Scope;
}
}
LLVM_DEBUG({ dbgs() << (Scope ? "\n" : "None\n"); });
return Target;
}
// Find the associated Scope for the given ranges values.
LVScope *LVRange::getEntry(LVAddress LowerAddress,
LVAddress UpperAddress) const {
for (const LVRangeEntry &RangeEntry : RangeEntries)
if (LowerAddress >= RangeEntry.lower() && UpperAddress < RangeEntry.upper())
return RangeEntry.scope();
return nullptr;
}
// True if the range addresses contain the pair [LowerAddress, UpperAddress].
bool LVRange::hasEntry(LVAddress LowerAddress, LVAddress UpperAddress) const {
for (const LVRangeEntry &RangeEntry : RangeEntries)
if (LowerAddress == RangeEntry.lower() &&
UpperAddress == RangeEntry.upper())
return true;
return false;
}
// Sort the range elements for the whole Compile Unit.
void LVRange::sort() {
auto CompareRangeEntry = [](const LVRangeEntry &lhs,
const LVRangeEntry &rhs) -> bool {
if (lhs.lower() < rhs.lower())
return true;
// If the lower address is the same, use the upper address value in
// order to put first the smallest interval.
if (lhs.lower() == rhs.lower())
return lhs.upper() < rhs.upper();
return false;
};
// Sort the ranges using low address and range size.
std::stable_sort(RangeEntries.begin(), RangeEntries.end(), CompareRangeEntry);
}
void LVRange::print(raw_ostream &OS, bool Full) const {
size_t Indentation = 0;
for (const LVRangeEntry &RangeEntry : RangeEntries) {
LVScope *Scope = RangeEntry.scope();
Scope->printAttributes(OS, Full);
Indentation = options().indentationSize();
if (Indentation)
OS << " ";
OS << format("[0x%08x,0x%08x] ", RangeEntry.lower(), RangeEntry.upper())
<< formattedKind(Scope->kind()) << " " << formattedName(Scope->getName())
<< "\n";
}
printExtra(OS, Full);
}
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