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#pragma once
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//===-- ScopedPrinter.h ----------------------------------------*- 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
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_SUPPORT_SCOPEDPRINTER_H
#define LLVM_SUPPORT_SCOPEDPRINTER_H
#include "llvm/ADT/APSInt.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/DataTypes.h"
#include "llvm/Support/Endian.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
namespace llvm {
template <typename T> struct EnumEntry {
StringRef Name;
// While Name suffices in most of the cases, in certain cases
// GNU style and LLVM style of ELFDumper do not
// display same string for same enum. The AltName if initialized appropriately
// will hold the string that GNU style emits.
// Example:
// "EM_X86_64" string on LLVM style for Elf_Ehdr->e_machine corresponds to
// "Advanced Micro Devices X86-64" on GNU style
StringRef AltName;
T Value;
EnumEntry(StringRef N, StringRef A, T V) : Name(N), AltName(A), Value(V) {}
EnumEntry(StringRef N, T V) : Name(N), AltName(N), Value(V) {}
};
struct HexNumber {
// To avoid sign-extension we have to explicitly cast to the appropriate
// unsigned type. The overloads are here so that every type that is implicitly
// convertible to an integer (including enums and endian helpers) can be used
// without requiring type traits or call-site changes.
HexNumber(char Value) : Value(static_cast<unsigned char>(Value)) {}
HexNumber(signed char Value) : Value(static_cast<unsigned char>(Value)) {}
HexNumber(signed short Value) : Value(static_cast<unsigned short>(Value)) {}
HexNumber(signed int Value) : Value(static_cast<unsigned int>(Value)) {}
HexNumber(signed long Value) : Value(static_cast<unsigned long>(Value)) {}
HexNumber(signed long long Value)
: Value(static_cast<unsigned long long>(Value)) {}
HexNumber(unsigned char Value) : Value(Value) {}
HexNumber(unsigned short Value) : Value(Value) {}
HexNumber(unsigned int Value) : Value(Value) {}
HexNumber(unsigned long Value) : Value(Value) {}
HexNumber(unsigned long long Value) : Value(Value) {}
uint64_t Value;
};
raw_ostream &operator<<(raw_ostream &OS, const HexNumber &Value);
const std::string to_hexString(uint64_t Value, bool UpperCase = true);
template <class T> const std::string to_string(const T &Value) {
std::string number;
llvm::raw_string_ostream stream(number);
stream << Value;
return stream.str();
}
class ScopedPrinter {
public:
ScopedPrinter(raw_ostream &OS) : OS(OS), IndentLevel(0) {}
void flush() { OS.flush(); }
void indent(int Levels = 1) { IndentLevel += Levels; }
void unindent(int Levels = 1) {
IndentLevel = std::max(0, IndentLevel - Levels);
}
void resetIndent() { IndentLevel = 0; }
int getIndentLevel() { return IndentLevel; }
void setPrefix(StringRef P) { Prefix = P; }
void printIndent() {
OS << Prefix;
for (int i = 0; i < IndentLevel; ++i)
OS << " ";
}
template <typename T> HexNumber hex(T Value) { return HexNumber(Value); }
template <typename T, typename TEnum>
void printEnum(StringRef Label, T Value,
ArrayRef<EnumEntry<TEnum>> EnumValues) {
StringRef Name;
bool Found = false;
for (const auto &EnumItem : EnumValues) {
if (EnumItem.Value == Value) {
Name = EnumItem.Name;
Found = true;
break;
}
}
if (Found) {
startLine() << Label << ": " << Name << " (" << hex(Value) << ")\n";
} else {
startLine() << Label << ": " << hex(Value) << "\n";
}
}
template <typename T, typename TFlag>
void printFlags(StringRef Label, T Value, ArrayRef<EnumEntry<TFlag>> Flags,
TFlag EnumMask1 = {}, TFlag EnumMask2 = {},
TFlag EnumMask3 = {}) {
typedef EnumEntry<TFlag> FlagEntry;
typedef SmallVector<FlagEntry, 10> FlagVector;
FlagVector SetFlags;
for (const auto &Flag : Flags) {
if (Flag.Value == 0)
continue;
TFlag EnumMask{};
if (Flag.Value & EnumMask1)
EnumMask = EnumMask1;
else if (Flag.Value & EnumMask2)
EnumMask = EnumMask2;
else if (Flag.Value & EnumMask3)
EnumMask = EnumMask3;
bool IsEnum = (Flag.Value & EnumMask) != 0;
if ((!IsEnum && (Value & Flag.Value) == Flag.Value) ||
(IsEnum && (Value & EnumMask) == Flag.Value)) {
SetFlags.push_back(Flag);
}
}
llvm::sort(SetFlags, &flagName<TFlag>);
startLine() << Label << " [ (" << hex(Value) << ")\n";
for (const auto &Flag : SetFlags) {
startLine() << " " << Flag.Name << " (" << hex(Flag.Value) << ")\n";
}
startLine() << "]\n";
}
template <typename T> void printFlags(StringRef Label, T Value) {
startLine() << Label << " [ (" << hex(Value) << ")\n";
uint64_t Flag = 1;
uint64_t Curr = Value;
while (Curr > 0) {
if (Curr & 1)
startLine() << " " << hex(Flag) << "\n";
Curr >>= 1;
Flag <<= 1;
}
startLine() << "]\n";
}
void printNumber(StringRef Label, uint64_t Value) {
startLine() << Label << ": " << Value << "\n";
}
void printNumber(StringRef Label, uint32_t Value) {
startLine() << Label << ": " << Value << "\n";
}
void printNumber(StringRef Label, uint16_t Value) {
startLine() << Label << ": " << Value << "\n";
}
void printNumber(StringRef Label, uint8_t Value) {
startLine() << Label << ": " << unsigned(Value) << "\n";
}
void printNumber(StringRef Label, int64_t Value) {
startLine() << Label << ": " << Value << "\n";
}
void printNumber(StringRef Label, int32_t Value) {
startLine() << Label << ": " << Value << "\n";
}
void printNumber(StringRef Label, int16_t Value) {
startLine() << Label << ": " << Value << "\n";
}
void printNumber(StringRef Label, int8_t Value) {
startLine() << Label << ": " << int(Value) << "\n";
}
void printNumber(StringRef Label, const APSInt &Value) {
startLine() << Label << ": " << Value << "\n";
}
void printBoolean(StringRef Label, bool Value) {
startLine() << Label << ": " << (Value ? "Yes" : "No") << '\n';
}
template <typename... T> void printVersion(StringRef Label, T... Version) {
startLine() << Label << ": ";
printVersionInternal(Version...);
getOStream() << "\n";
}
template <typename T> void printList(StringRef Label, const T &List) {
startLine() << Label << ": [";
bool Comma = false;
for (const auto &Item : List) {
if (Comma)
OS << ", ";
OS << Item;
Comma = true;
}
OS << "]\n";
}
template <typename T, typename U>
void printList(StringRef Label, const T &List, const U &Printer) {
startLine() << Label << ": [";
bool Comma = false;
for (const auto &Item : List) {
if (Comma)
OS << ", ";
Printer(OS, Item);
Comma = true;
}
OS << "]\n";
}
template <typename T> void printHexList(StringRef Label, const T &List) {
startLine() << Label << ": [";
bool Comma = false;
for (const auto &Item : List) {
if (Comma)
OS << ", ";
OS << hex(Item);
Comma = true;
}
OS << "]\n";
}
template <typename T> void printHex(StringRef Label, T Value) {
startLine() << Label << ": " << hex(Value) << "\n";
}
template <typename T> void printHex(StringRef Label, StringRef Str, T Value) {
startLine() << Label << ": " << Str << " (" << hex(Value) << ")\n";
}
template <typename T>
void printSymbolOffset(StringRef Label, StringRef Symbol, T Value) {
startLine() << Label << ": " << Symbol << '+' << hex(Value) << '\n';
}
void printString(StringRef Value) { startLine() << Value << "\n"; }
void printString(StringRef Label, StringRef Value) {
startLine() << Label << ": " << Value << "\n";
}
void printString(StringRef Label, const std::string &Value) {
printString(Label, StringRef(Value));
}
void printString(StringRef Label, const char* Value) {
printString(Label, StringRef(Value));
}
template <typename T>
void printNumber(StringRef Label, StringRef Str, T Value) {
startLine() << Label << ": " << Str << " (" << Value << ")\n";
}
void printBinary(StringRef Label, StringRef Str, ArrayRef<uint8_t> Value) {
printBinaryImpl(Label, Str, Value, false);
}
void printBinary(StringRef Label, StringRef Str, ArrayRef<char> Value) {
auto V = makeArrayRef(reinterpret_cast<const uint8_t *>(Value.data()),
Value.size());
printBinaryImpl(Label, Str, V, false);
}
void printBinary(StringRef Label, ArrayRef<uint8_t> Value) {
printBinaryImpl(Label, StringRef(), Value, false);
}
void printBinary(StringRef Label, ArrayRef<char> Value) {
auto V = makeArrayRef(reinterpret_cast<const uint8_t *>(Value.data()),
Value.size());
printBinaryImpl(Label, StringRef(), V, false);
}
void printBinary(StringRef Label, StringRef Value) {
auto V = makeArrayRef(reinterpret_cast<const uint8_t *>(Value.data()),
Value.size());
printBinaryImpl(Label, StringRef(), V, false);
}
void printBinaryBlock(StringRef Label, ArrayRef<uint8_t> Value,
uint32_t StartOffset) {
printBinaryImpl(Label, StringRef(), Value, true, StartOffset);
}
void printBinaryBlock(StringRef Label, ArrayRef<uint8_t> Value) {
printBinaryImpl(Label, StringRef(), Value, true);
}
void printBinaryBlock(StringRef Label, StringRef Value) {
auto V = makeArrayRef(reinterpret_cast<const uint8_t *>(Value.data()),
Value.size());
printBinaryImpl(Label, StringRef(), V, true);
}
template <typename T> void printObject(StringRef Label, const T &Value) {
startLine() << Label << ": " << Value << "\n";
}
raw_ostream &startLine() {
printIndent();
return OS;
}
raw_ostream &getOStream() { return OS; }
private:
template <typename T> void printVersionInternal(T Value) {
getOStream() << Value;
}
template <typename S, typename T, typename... TArgs>
void printVersionInternal(S Value, T Value2, TArgs... Args) {
getOStream() << Value << ".";
printVersionInternal(Value2, Args...);
}
template <typename T>
static bool flagName(const EnumEntry<T> &lhs, const EnumEntry<T> &rhs) {
return lhs.Name < rhs.Name;
}
void printBinaryImpl(StringRef Label, StringRef Str, ArrayRef<uint8_t> Value,
bool Block, uint32_t StartOffset = 0);
raw_ostream &OS;
int IndentLevel;
StringRef Prefix;
};
template <>
inline void
ScopedPrinter::printHex<support::ulittle16_t>(StringRef Label,
support::ulittle16_t Value) {
startLine() << Label << ": " << hex(Value) << "\n";
}
template<char Open, char Close>
struct DelimitedScope {
explicit DelimitedScope(ScopedPrinter &W) : W(W) {
W.startLine() << Open << '\n';
W.indent();
}
DelimitedScope(ScopedPrinter &W, StringRef N) : W(W) {
W.startLine() << N;
if (!N.empty())
W.getOStream() << ' ';
W.getOStream() << Open << '\n';
W.indent();
}
~DelimitedScope() {
W.unindent();
W.startLine() << Close << '\n';
}
ScopedPrinter &W;
};
using DictScope = DelimitedScope<'{', '}'>;
using ListScope = DelimitedScope<'[', ']'>;
} // namespace llvm
#endif
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
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