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llvm-project/lldb/source/Symbol/PostfixExpression.cpp
Raphael Isemann 808142876c [lldb][NFC] Fix all formatting errors in .cpp file headers 
Summary:
A *.cpp file header in LLDB (and in LLDB) should like this:
```
//===-- TestUtilities.cpp -------------------------------------------------===//
```
However in LLDB most of our source files have arbitrary changes to this format and
these changes are spreading through LLDB as folks usually just use the existing
source files as templates for their new files (most notably the unnecessary
editor language indicator `-*- C++ -*-` is spreading and in every review
someone is pointing out that this is wrong, resulting in people pointing out that this
is done in the same way in other files).

This patch removes most of these inconsistencies including the editor language indicators,
all the different missing/additional '-' characters, files that center the file name, missing
trailing `===//` (mostly caused by clang-format breaking the line).

Reviewers: aprantl, espindola, jfb, shafik, JDevlieghere

Reviewed By: JDevlieghere

Subscribers: dexonsmith, wuzish, emaste, sdardis, nemanjai, kbarton, MaskRay, atanasyan, arphaman, jfb, abidh, jsji, JDevlieghere, usaxena95, lldb-commits

Tags: #lldb

Differential Revision: https://reviews.llvm.org/D73258
2020-01-24 08:52:55 +01:00

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//===-- PostfixExpression.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 file implements support for postfix expressions found in several symbol
// file formats, and their conversion to DWARF.
//
//===----------------------------------------------------------------------===//
#include "lldb/Symbol/PostfixExpression.h"
#include "lldb/Core/dwarf.h"
#include "lldb/Utility/Stream.h"
#include "llvm/ADT/StringExtras.h"
using namespace lldb_private;
using namespace lldb_private::postfix;
static llvm::Optional<BinaryOpNode::OpType>
GetBinaryOpType(llvm::StringRef token) {
if (token.size() != 1)
return llvm::None;
switch (token[0]) {
case '@':
return BinaryOpNode::Align;
case '-':
return BinaryOpNode::Minus;
case '+':
return BinaryOpNode::Plus;
}
return llvm::None;
}
static llvm::Optional<UnaryOpNode::OpType>
GetUnaryOpType(llvm::StringRef token) {
if (token == "^")
return UnaryOpNode::Deref;
return llvm::None;
}
Node *postfix::ParseOneExpression(llvm::StringRef expr,
llvm::BumpPtrAllocator &alloc) {
llvm::SmallVector<Node *, 4> stack;
llvm::StringRef token;
while (std::tie(token, expr) = getToken(expr), !token.empty()) {
if (auto op_type = GetBinaryOpType(token)) {
// token is binary operator
if (stack.size() < 2)
return nullptr;
Node *right = stack.pop_back_val();
Node *left = stack.pop_back_val();
stack.push_back(MakeNode<BinaryOpNode>(alloc, *op_type, *left, *right));
continue;
}
if (auto op_type = GetUnaryOpType(token)) {
// token is unary operator
if (stack.empty())
return nullptr;
Node *operand = stack.pop_back_val();
stack.push_back(MakeNode<UnaryOpNode>(alloc, *op_type, *operand));
continue;
}
int64_t value;
if (to_integer(token, value, 10)) {
// token is integer literal
stack.push_back(MakeNode<IntegerNode>(alloc, value));
continue;
}
stack.push_back(MakeNode<SymbolNode>(alloc, token));
}
if (stack.size() != 1)
return nullptr;
return stack.back();
}
std::vector<std::pair<llvm::StringRef, Node *>>
postfix::ParseFPOProgram(llvm::StringRef prog, llvm::BumpPtrAllocator &alloc) {
llvm::SmallVector<llvm::StringRef, 4> exprs;
prog.split(exprs, '=');
if (exprs.empty() || !exprs.back().trim().empty())
return {};
exprs.pop_back();
std::vector<std::pair<llvm::StringRef, Node *>> result;
for (llvm::StringRef expr : exprs) {
llvm::StringRef lhs;
std::tie(lhs, expr) = getToken(expr);
Node *rhs = ParseOneExpression(expr, alloc);
if (!rhs)
return {};
result.emplace_back(lhs, rhs);
}
return result;
}
namespace {
class SymbolResolver : public Visitor<bool> {
public:
SymbolResolver(llvm::function_ref<Node *(SymbolNode &symbol)> replacer)
: m_replacer(replacer) {}
using Visitor<bool>::Dispatch;
private:
bool Visit(BinaryOpNode &binary, Node *&) override {
return Dispatch(binary.Left()) && Dispatch(binary.Right());
}
bool Visit(InitialValueNode &, Node *&) override { return true; }
bool Visit(IntegerNode &, Node *&) override { return true; }
bool Visit(RegisterNode &, Node *&) override { return true; }
bool Visit(SymbolNode &symbol, Node *&ref) override {
if (Node *replacement = m_replacer(symbol)) {
ref = replacement;
if (replacement != &symbol)
return Dispatch(ref);
return true;
}
return false;
}
bool Visit(UnaryOpNode &unary, Node *&) override {
return Dispatch(unary.Operand());
}
llvm::function_ref<Node *(SymbolNode &symbol)> m_replacer;
};
class DWARFCodegen : public Visitor<> {
public:
DWARFCodegen(Stream &stream) : m_out_stream(stream) {}
using Visitor<>::Dispatch;
private:
void Visit(BinaryOpNode &binary, Node *&) override;
void Visit(InitialValueNode &val, Node *&) override;
void Visit(IntegerNode &integer, Node *&) override {
m_out_stream.PutHex8(DW_OP_consts);
m_out_stream.PutSLEB128(integer.GetValue());
++m_stack_depth;
}
void Visit(RegisterNode &reg, Node *&) override;
void Visit(SymbolNode &symbol, Node *&) override {
llvm_unreachable("Symbols should have been resolved by now!");
}
void Visit(UnaryOpNode &unary, Node *&) override;
Stream &m_out_stream;
/// The number keeping track of the evaluation stack depth at any given
/// moment. Used for implementing InitialValueNodes. We start with
/// m_stack_depth = 1, assuming that the initial value is already on the
/// stack. This initial value will be the value of all InitialValueNodes. If
/// the expression does not contain InitialValueNodes, then m_stack_depth is
/// not used, and the generated expression will run correctly even without an
/// initial value.
size_t m_stack_depth = 1;
};
} // namespace
void DWARFCodegen::Visit(BinaryOpNode &binary, Node *&) {
Dispatch(binary.Left());
Dispatch(binary.Right());
switch (binary.GetOpType()) {
case BinaryOpNode::Plus:
m_out_stream.PutHex8(DW_OP_plus);
// NOTE: can be optimized by using DW_OP_plus_uconst opcpode
// if right child node is constant value
break;
case BinaryOpNode::Minus:
m_out_stream.PutHex8(DW_OP_minus);
break;
case BinaryOpNode::Align:
// emit align operator a @ b as
// a & ~(b - 1)
// NOTE: implicitly assuming that b is power of 2
m_out_stream.PutHex8(DW_OP_lit1);
m_out_stream.PutHex8(DW_OP_minus);
m_out_stream.PutHex8(DW_OP_not);
m_out_stream.PutHex8(DW_OP_and);
break;
}
--m_stack_depth; // Two pops, one push.
}
void DWARFCodegen::Visit(InitialValueNode &, Node *&) {
// We never go below the initial stack, so we can pick the initial value from
// the bottom of the stack at any moment.
assert(m_stack_depth >= 1);
m_out_stream.PutHex8(DW_OP_pick);
m_out_stream.PutHex8(m_stack_depth - 1);
++m_stack_depth;
}
void DWARFCodegen::Visit(RegisterNode &reg, Node *&) {
uint32_t reg_num = reg.GetRegNum();
assert(reg_num != LLDB_INVALID_REGNUM);
if (reg_num > 31) {
m_out_stream.PutHex8(DW_OP_bregx);
m_out_stream.PutULEB128(reg_num);
} else
m_out_stream.PutHex8(DW_OP_breg0 + reg_num);
m_out_stream.PutSLEB128(0);
++m_stack_depth;
}
void DWARFCodegen::Visit(UnaryOpNode &unary, Node *&) {
Dispatch(unary.Operand());
switch (unary.GetOpType()) {
case UnaryOpNode::Deref:
m_out_stream.PutHex8(DW_OP_deref);
break;
}
// Stack depth unchanged.
}
bool postfix::ResolveSymbols(
Node *&node, llvm::function_ref<Node *(SymbolNode &)> replacer) {
return SymbolResolver(replacer).Dispatch(node);
}
void postfix::ToDWARF(Node &node, Stream &stream) {
Node *ptr = &node;
DWARFCodegen(stream).Dispatch(ptr);
}
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