blob: e8f8e5aa62c9f49e0d3eb29782040500a27f2c3b [file] [log] [blame]
//===- PrettyTypeDumper.cpp - PDBSymDumper type dumper *------------ C++ *-===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "PrettyTypeDumper.h"
#include "LinePrinter.h"
#include "PrettyBuiltinDumper.h"
#include "PrettyClassDefinitionDumper.h"
#include "PrettyEnumDumper.h"
#include "PrettyFunctionDumper.h"
#include "PrettyTypedefDumper.h"
#include "llvm-pdbutil.h"
#include "llvm/DebugInfo/PDB/IPDBSession.h"
#include "llvm/DebugInfo/PDB/PDBSymbolExe.h"
#include "llvm/DebugInfo/PDB/PDBSymbolTypeArray.h"
#include "llvm/DebugInfo/PDB/PDBSymbolTypeBuiltin.h"
#include "llvm/DebugInfo/PDB/PDBSymbolTypeEnum.h"
#include "llvm/DebugInfo/PDB/PDBSymbolTypeFunctionSig.h"
#include "llvm/DebugInfo/PDB/PDBSymbolTypePointer.h"
#include "llvm/DebugInfo/PDB/PDBSymbolTypeTypedef.h"
#include "llvm/DebugInfo/PDB/PDBSymbolTypeUDT.h"
#include "llvm/DebugInfo/PDB/UDTLayout.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/FormatVariadic.h"
using namespace llvm;
using namespace llvm::pdb;
using LayoutPtr = std::unique_ptr<ClassLayout>;
typedef bool (*CompareFunc)(const LayoutPtr &S1, const LayoutPtr &S2);
static bool CompareNames(const LayoutPtr &S1, const LayoutPtr &S2) {
return S1->getName() < S2->getName();
}
static bool CompareSizes(const LayoutPtr &S1, const LayoutPtr &S2) {
return S1->getSize() < S2->getSize();
}
static bool ComparePadding(const LayoutPtr &S1, const LayoutPtr &S2) {
return S1->deepPaddingSize() < S2->deepPaddingSize();
}
static bool ComparePaddingPct(const LayoutPtr &S1, const LayoutPtr &S2) {
double Pct1 = (double)S1->deepPaddingSize() / (double)S1->getSize();
double Pct2 = (double)S2->deepPaddingSize() / (double)S2->getSize();
return Pct1 < Pct2;
}
static bool ComparePaddingImmediate(const LayoutPtr &S1, const LayoutPtr &S2) {
return S1->immediatePadding() < S2->immediatePadding();
}
static bool ComparePaddingPctImmediate(const LayoutPtr &S1,
const LayoutPtr &S2) {
double Pct1 = (double)S1->immediatePadding() / (double)S1->getSize();
double Pct2 = (double)S2->immediatePadding() / (double)S2->getSize();
return Pct1 < Pct2;
}
static CompareFunc getComparisonFunc(opts::pretty::ClassSortMode Mode) {
switch (Mode) {
case opts::pretty::ClassSortMode::Name:
return CompareNames;
case opts::pretty::ClassSortMode::Size:
return CompareSizes;
case opts::pretty::ClassSortMode::Padding:
return ComparePadding;
case opts::pretty::ClassSortMode::PaddingPct:
return ComparePaddingPct;
case opts::pretty::ClassSortMode::PaddingImmediate:
return ComparePaddingImmediate;
case opts::pretty::ClassSortMode::PaddingPctImmediate:
return ComparePaddingPctImmediate;
default:
return nullptr;
}
}
template <typename Enumerator>
static std::vector<std::unique_ptr<ClassLayout>>
filterAndSortClassDefs(LinePrinter &Printer, Enumerator &E,
uint32_t UnfilteredCount) {
std::vector<std::unique_ptr<ClassLayout>> Filtered;
Filtered.reserve(UnfilteredCount);
CompareFunc Comp = getComparisonFunc(opts::pretty::ClassOrder);
if (UnfilteredCount > 10000) {
errs() << formatv("Filtering and sorting {0} types", UnfilteredCount);
errs().flush();
}
uint32_t Examined = 0;
uint32_t Discarded = 0;
while (auto Class = E.getNext()) {
++Examined;
if (Examined % 10000 == 0) {
errs() << formatv("Examined {0}/{1} items. {2} items discarded\n",
Examined, UnfilteredCount, Discarded);
errs().flush();
}
if (Class->getUnmodifiedTypeId() != 0) {
++Discarded;
continue;
}
if (Printer.IsTypeExcluded(Class->getName(), Class->getLength())) {
++Discarded;
continue;
}
auto Layout = llvm::make_unique<ClassLayout>(std::move(Class));
if (Layout->deepPaddingSize() < opts::pretty::PaddingThreshold) {
++Discarded;
continue;
}
if (Layout->immediatePadding() < opts::pretty::ImmediatePaddingThreshold) {
++Discarded;
continue;
}
Filtered.push_back(std::move(Layout));
}
if (Comp)
llvm::sort(Filtered, Comp);
return Filtered;
}
TypeDumper::TypeDumper(LinePrinter &P) : PDBSymDumper(true), Printer(P) {}
template <typename T>
static bool isTypeExcluded(LinePrinter &Printer, const T &Symbol) {
return false;
}
static bool isTypeExcluded(LinePrinter &Printer,
const PDBSymbolTypeEnum &Enum) {
if (Printer.IsTypeExcluded(Enum.getName(), Enum.getLength()))
return true;
// Dump member enums when dumping their class definition.
if (nullptr != Enum.getClassParent())
return true;
return false;
}
static bool isTypeExcluded(LinePrinter &Printer,
const PDBSymbolTypeTypedef &Typedef) {
return Printer.IsTypeExcluded(Typedef.getName(), Typedef.getLength());
}
template <typename SymbolT>
static void dumpSymbolCategory(LinePrinter &Printer, const PDBSymbolExe &Exe,
TypeDumper &TD, StringRef Label) {
if (auto Children = Exe.findAllChildren<SymbolT>()) {
Printer.NewLine();
WithColor(Printer, PDB_ColorItem::Identifier).get() << Label;
Printer << ": (" << Children->getChildCount() << " items)";
Printer.Indent();
while (auto Child = Children->getNext()) {
if (isTypeExcluded(Printer, *Child))
continue;
Printer.NewLine();
Child->dump(TD);
}
Printer.Unindent();
}
}
static void printClassDecl(LinePrinter &Printer,
const PDBSymbolTypeUDT &Class) {
if (Class.getUnmodifiedTypeId() != 0) {
if (Class.isConstType())
WithColor(Printer, PDB_ColorItem::Keyword).get() << "const ";
if (Class.isVolatileType())
WithColor(Printer, PDB_ColorItem::Keyword).get() << "volatile ";
if (Class.isUnalignedType())
WithColor(Printer, PDB_ColorItem::Keyword).get() << "unaligned ";
}
WithColor(Printer, PDB_ColorItem::Keyword).get() << Class.getUdtKind() << " ";
WithColor(Printer, PDB_ColorItem::Type).get() << Class.getName();
}
void TypeDumper::start(const PDBSymbolExe &Exe) {
if (opts::pretty::Enums)
dumpSymbolCategory<PDBSymbolTypeEnum>(Printer, Exe, *this, "Enums");
if (opts::pretty::Funcsigs)
dumpSymbolCategory<PDBSymbolTypeFunctionSig>(Printer, Exe, *this,
"Function Signatures");
if (opts::pretty::Typedefs)
dumpSymbolCategory<PDBSymbolTypeTypedef>(Printer, Exe, *this, "Typedefs");
if (opts::pretty::Arrays)
dumpSymbolCategory<PDBSymbolTypeArray>(Printer, Exe, *this, "Arrays");
if (opts::pretty::Pointers)
dumpSymbolCategory<PDBSymbolTypePointer>(Printer, Exe, *this, "Pointers");
if (opts::pretty::VTShapes)
dumpSymbolCategory<PDBSymbolTypeVTableShape>(Printer, Exe, *this,
"VFTable Shapes");
if (opts::pretty::Classes) {
if (auto Classes = Exe.findAllChildren<PDBSymbolTypeUDT>()) {
uint32_t All = Classes->getChildCount();
Printer.NewLine();
WithColor(Printer, PDB_ColorItem::Identifier).get() << "Classes";
bool Precompute = false;
Precompute =
(opts::pretty::ClassOrder != opts::pretty::ClassSortMode::None);
// If we're using no sort mode, then we can start getting immediate output
// from the tool by just filtering as we go, rather than processing
// everything up front so that we can sort it. This makes the tool more
// responsive. So only precompute the filtered/sorted set of classes if
// necessary due to the specified options.
std::vector<LayoutPtr> Filtered;
uint32_t Shown = All;
if (Precompute) {
Filtered = filterAndSortClassDefs(Printer, *Classes, All);
Shown = Filtered.size();
}
Printer << ": (Showing " << Shown << " items";
if (Shown < All)
Printer << ", " << (All - Shown) << " filtered";
Printer << ")";
Printer.Indent();
// If we pre-computed, iterate the filtered/sorted list, otherwise iterate
// the DIA enumerator and filter on the fly.
if (Precompute) {
for (auto &Class : Filtered)
dumpClassLayout(*Class);
} else {
while (auto Class = Classes->getNext()) {
if (Printer.IsTypeExcluded(Class->getName(), Class->getLength()))
continue;
// No point duplicating a full class layout. Just print the modified
// declaration and continue.
if (Class->getUnmodifiedTypeId() != 0) {
Printer.NewLine();
printClassDecl(Printer, *Class);
continue;
}
auto Layout = llvm::make_unique<ClassLayout>(std::move(Class));
if (Layout->deepPaddingSize() < opts::pretty::PaddingThreshold)
continue;
dumpClassLayout(*Layout);
}
}
Printer.Unindent();
}
}
}
void TypeDumper::dump(const PDBSymbolTypeEnum &Symbol) {
assert(opts::pretty::Enums);
EnumDumper Dumper(Printer);
Dumper.start(Symbol);
}
void TypeDumper::dump(const PDBSymbolTypeBuiltin &Symbol) {
BuiltinDumper BD(Printer);
BD.start(Symbol);
}
void TypeDumper::dump(const PDBSymbolTypeUDT &Symbol) {
printClassDecl(Printer, Symbol);
}
void TypeDumper::dump(const PDBSymbolTypeTypedef &Symbol) {
assert(opts::pretty::Typedefs);
TypedefDumper Dumper(Printer);
Dumper.start(Symbol);
}
void TypeDumper::dump(const PDBSymbolTypeArray &Symbol) {
auto ElementType = Symbol.getElementType();
ElementType->dump(*this);
Printer << "[";
WithColor(Printer, PDB_ColorItem::LiteralValue).get() << Symbol.getCount();
Printer << "]";
}
void TypeDumper::dump(const PDBSymbolTypeFunctionSig &Symbol) {
FunctionDumper Dumper(Printer);
Dumper.start(Symbol, nullptr, FunctionDumper::PointerType::None);
}
void TypeDumper::dump(const PDBSymbolTypePointer &Symbol) {
std::unique_ptr<PDBSymbol> P = Symbol.getPointeeType();
if (auto *FS = dyn_cast<PDBSymbolTypeFunctionSig>(P.get())) {
FunctionDumper Dumper(Printer);
FunctionDumper::PointerType PT =
Symbol.isReference() ? FunctionDumper::PointerType::Reference
: FunctionDumper::PointerType::Pointer;
Dumper.start(*FS, nullptr, PT);
return;
}
if (auto *UDT = dyn_cast<PDBSymbolTypeUDT>(P.get())) {
printClassDecl(Printer, *UDT);
} else if (P) {
P->dump(*this);
}
if (auto Parent = Symbol.getClassParent()) {
auto UDT = llvm::unique_dyn_cast<PDBSymbolTypeUDT>(std::move(Parent));
if (UDT)
Printer << " " << UDT->getName() << "::";
}
if (Symbol.isReference())
Printer << "&";
else if (Symbol.isRValueReference())
Printer << "&&";
else
Printer << "*";
}
void TypeDumper::dump(const PDBSymbolTypeVTableShape &Symbol) {
Printer.format("<vtshape ({0} methods)>", Symbol.getCount());
}
void TypeDumper::dumpClassLayout(const ClassLayout &Class) {
assert(opts::pretty::Classes);
if (opts::pretty::ClassFormat == opts::pretty::ClassDefinitionFormat::None) {
WithColor(Printer, PDB_ColorItem::Keyword).get()
<< Class.getClass().getUdtKind() << " ";
WithColor(Printer, PDB_ColorItem::Type).get() << Class.getName();
} else {
ClassDefinitionDumper Dumper(Printer);
Dumper.start(Class);
}
}