528 lines
15 KiB
C++
528 lines
15 KiB
C++
//===-- PDBFPOProgramToDWARFExpression.cpp ----------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "PdbFPOProgramToDWARFExpression.h"
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#include "CodeViewRegisterMapping.h"
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#include "lldb/Core/StreamBuffer.h"
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#include "lldb/Core/dwarf.h"
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#include "lldb/Utility/LLDBAssert.h"
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#include "lldb/Utility/Stream.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/DebugInfo/CodeView/CodeView.h"
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#include "llvm/DebugInfo/CodeView/EnumTables.h"
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using namespace lldb;
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using namespace lldb_private;
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namespace {
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class FPOProgramNode;
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class FPOProgramASTVisitor;
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class FPOProgramNode {
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public:
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enum Kind {
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Register,
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IntegerLiteral,
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BinaryOp,
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UnaryOp,
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};
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protected:
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FPOProgramNode(Kind kind) : m_token_kind(kind) {}
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public:
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virtual ~FPOProgramNode() = default;
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virtual void Accept(FPOProgramASTVisitor *visitor) = 0;
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Kind GetKind() const { return m_token_kind; }
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private:
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Kind m_token_kind;
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};
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class FPOProgramNodeRegisterRef : public FPOProgramNode {
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public:
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FPOProgramNodeRegisterRef(llvm::StringRef name)
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: FPOProgramNode(Register), m_name(name) {}
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void Accept(FPOProgramASTVisitor *visitor) override;
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llvm::StringRef GetName() const { return m_name; }
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uint32_t GetLLDBRegNum() const { return m_lldb_reg_num; }
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bool ResolveLLDBRegisterNum(llvm::Triple::ArchType arch_type);
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private:
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llvm::StringRef m_name;
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uint32_t m_lldb_reg_num = LLDB_INVALID_REGNUM;
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};
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bool FPOProgramNodeRegisterRef::ResolveLLDBRegisterNum(
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llvm::Triple::ArchType arch_type) {
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llvm::StringRef reg_name = m_name.slice(1, m_name.size());
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// lookup register name to get lldb register number
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llvm::ArrayRef<llvm::EnumEntry<uint16_t>> register_names =
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llvm::codeview::getRegisterNames();
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auto it = llvm::find_if(
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register_names,
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[®_name](const llvm::EnumEntry<uint16_t> ®ister_entry) {
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return reg_name.compare_lower(register_entry.Name) == 0;
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});
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if (it == register_names.end()) {
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return false;
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}
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auto reg_id = static_cast<llvm::codeview::RegisterId>(it->Value);
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m_lldb_reg_num = npdb::GetLLDBRegisterNumber(arch_type, reg_id);
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return m_lldb_reg_num != LLDB_INVALID_REGNUM;
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}
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class FPOProgramNodeIntegerLiteral : public FPOProgramNode {
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public:
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FPOProgramNodeIntegerLiteral(uint32_t value)
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: FPOProgramNode(IntegerLiteral), m_value(value) {}
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void Accept(FPOProgramASTVisitor *visitor) override;
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uint32_t GetValue() const { return m_value; }
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private:
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uint32_t m_value;
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};
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class FPOProgramNodeBinaryOp : public FPOProgramNode {
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public:
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enum OpType {
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Plus,
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Minus,
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Align,
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};
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FPOProgramNodeBinaryOp(OpType op_type, FPOProgramNode *left,
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FPOProgramNode *right)
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: FPOProgramNode(BinaryOp), m_op_type(op_type), m_left(left),
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m_right(right) {}
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void Accept(FPOProgramASTVisitor *visitor) override;
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OpType GetOpType() const { return m_op_type; }
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const FPOProgramNode *Left() const { return m_left; }
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FPOProgramNode *&Left() { return m_left; }
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const FPOProgramNode *Right() const { return m_right; }
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FPOProgramNode *&Right() { return m_right; }
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private:
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OpType m_op_type;
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FPOProgramNode *m_left;
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FPOProgramNode *m_right;
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};
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class FPOProgramNodeUnaryOp : public FPOProgramNode {
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public:
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enum OpType {
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Deref,
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};
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FPOProgramNodeUnaryOp(OpType op_type, FPOProgramNode *operand)
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: FPOProgramNode(UnaryOp), m_op_type(op_type), m_operand(operand) {}
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void Accept(FPOProgramASTVisitor *visitor) override;
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OpType GetOpType() const { return m_op_type; }
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const FPOProgramNode *Operand() const { return m_operand; }
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FPOProgramNode *&Operand() { return m_operand; }
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private:
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OpType m_op_type;
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FPOProgramNode *m_operand;
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};
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class FPOProgramASTVisitor {
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public:
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virtual ~FPOProgramASTVisitor() = default;
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virtual void Visit(FPOProgramNodeRegisterRef *node) {}
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virtual void Visit(FPOProgramNodeIntegerLiteral *node) {}
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virtual void Visit(FPOProgramNodeBinaryOp *node) {}
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virtual void Visit(FPOProgramNodeUnaryOp *node) {}
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};
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void FPOProgramNodeRegisterRef::Accept(FPOProgramASTVisitor *visitor) {
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visitor->Visit(this);
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}
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void FPOProgramNodeIntegerLiteral::Accept(FPOProgramASTVisitor *visitor) {
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visitor->Visit(this);
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}
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void FPOProgramNodeBinaryOp::Accept(FPOProgramASTVisitor *visitor) {
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visitor->Visit(this);
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}
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void FPOProgramNodeUnaryOp::Accept(FPOProgramASTVisitor *visitor) {
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visitor->Visit(this);
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}
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class FPOProgramASTVisitorMergeDependent : public FPOProgramASTVisitor {
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public:
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FPOProgramASTVisitorMergeDependent(
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const llvm::DenseMap<llvm::StringRef, FPOProgramNode *>
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&dependent_programs)
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: m_dependent_programs(dependent_programs) {}
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void Merge(FPOProgramNode *&node_ref);
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private:
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void Visit(FPOProgramNodeRegisterRef *node) override {}
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void Visit(FPOProgramNodeIntegerLiteral *node) override {}
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void Visit(FPOProgramNodeBinaryOp *node) override;
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void Visit(FPOProgramNodeUnaryOp *node) override;
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void TryReplace(FPOProgramNode *&node_ref) const;
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private:
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const llvm::DenseMap<llvm::StringRef, FPOProgramNode *> &m_dependent_programs;
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};
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void FPOProgramASTVisitorMergeDependent::Merge(FPOProgramNode *&node_ref) {
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TryReplace(node_ref);
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node_ref->Accept(this);
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}
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void FPOProgramASTVisitorMergeDependent::Visit(FPOProgramNodeBinaryOp *node) {
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Merge(node->Left());
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Merge(node->Right());
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}
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void FPOProgramASTVisitorMergeDependent::Visit(FPOProgramNodeUnaryOp *node) {
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Merge(node->Operand());
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}
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void FPOProgramASTVisitorMergeDependent::TryReplace(
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FPOProgramNode *&node_ref) const {
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while (node_ref->GetKind() == FPOProgramNode::Register) {
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auto *node_register_ref =
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static_cast<FPOProgramNodeRegisterRef *>(node_ref);
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auto it = m_dependent_programs.find(node_register_ref->GetName());
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if (it == m_dependent_programs.end()) {
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break;
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}
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node_ref = it->second;
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}
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}
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class FPOProgramASTVisitorResolveRegisterRefs : public FPOProgramASTVisitor {
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public:
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FPOProgramASTVisitorResolveRegisterRefs(
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const llvm::DenseMap<llvm::StringRef, FPOProgramNode *>
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&dependent_programs,
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llvm::Triple::ArchType arch_type)
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: m_dependent_programs(dependent_programs), m_arch_type(arch_type) {}
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bool Resolve(FPOProgramNode *program);
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private:
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void Visit(FPOProgramNodeRegisterRef *node) override;
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void Visit(FPOProgramNodeIntegerLiteral *node) override {}
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void Visit(FPOProgramNodeBinaryOp *node) override;
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void Visit(FPOProgramNodeUnaryOp *node) override;
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private:
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const llvm::DenseMap<llvm::StringRef, FPOProgramNode *> &m_dependent_programs;
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llvm::Triple::ArchType m_arch_type;
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bool m_no_error_flag = true;
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};
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bool FPOProgramASTVisitorResolveRegisterRefs::Resolve(FPOProgramNode *program) {
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program->Accept(this);
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return m_no_error_flag;
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}
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void FPOProgramASTVisitorResolveRegisterRefs::Visit(
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FPOProgramNodeRegisterRef *node) {
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// lookup register reference as lvalue in predecedent assignments
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auto it = m_dependent_programs.find(node->GetName());
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if (it != m_dependent_programs.end()) {
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// dependent programs are already resolved and valid
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return;
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}
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// try to resolve register reference as lldb register name
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m_no_error_flag = node->ResolveLLDBRegisterNum(m_arch_type);
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}
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void FPOProgramASTVisitorResolveRegisterRefs::Visit(
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FPOProgramNodeBinaryOp *node) {
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m_no_error_flag = Resolve(node->Left()) && Resolve(node->Right());
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}
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void FPOProgramASTVisitorResolveRegisterRefs::Visit(
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FPOProgramNodeUnaryOp *node) {
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m_no_error_flag = Resolve(node->Operand());
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}
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class FPOProgramASTVisitorDWARFCodegen : public FPOProgramASTVisitor {
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public:
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FPOProgramASTVisitorDWARFCodegen(Stream &stream) : m_out_stream(stream) {}
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void Emit(FPOProgramNode *program);
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private:
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void Visit(FPOProgramNodeRegisterRef *node) override;
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void Visit(FPOProgramNodeIntegerLiteral *node) override;
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void Visit(FPOProgramNodeBinaryOp *node) override;
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void Visit(FPOProgramNodeUnaryOp *node) override;
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private:
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Stream &m_out_stream;
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};
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void FPOProgramASTVisitorDWARFCodegen::Emit(FPOProgramNode *program) {
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program->Accept(this);
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}
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void FPOProgramASTVisitorDWARFCodegen::Visit(FPOProgramNodeRegisterRef *node) {
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uint32_t reg_num = node->GetLLDBRegNum();
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lldbassert(reg_num != LLDB_INVALID_REGNUM);
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if (reg_num > 31) {
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m_out_stream.PutHex8(DW_OP_bregx);
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m_out_stream.PutULEB128(reg_num);
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} else
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m_out_stream.PutHex8(DW_OP_breg0 + reg_num);
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m_out_stream.PutSLEB128(0);
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}
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void FPOProgramASTVisitorDWARFCodegen::Visit(
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FPOProgramNodeIntegerLiteral *node) {
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uint32_t value = node->GetValue();
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m_out_stream.PutHex8(DW_OP_constu);
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m_out_stream.PutULEB128(value);
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}
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void FPOProgramASTVisitorDWARFCodegen::Visit(FPOProgramNodeBinaryOp *node) {
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Emit(node->Left());
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Emit(node->Right());
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switch (node->GetOpType()) {
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case FPOProgramNodeBinaryOp::Plus:
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m_out_stream.PutHex8(DW_OP_plus);
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// NOTE: can be optimized by using DW_OP_plus_uconst opcpode
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// if right child node is constant value
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break;
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case FPOProgramNodeBinaryOp::Minus:
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m_out_stream.PutHex8(DW_OP_minus);
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break;
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case FPOProgramNodeBinaryOp::Align:
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// emit align operator a @ b as
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// a & ~(b - 1)
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// NOTE: implicitly assuming that b is power of 2
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m_out_stream.PutHex8(DW_OP_lit1);
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m_out_stream.PutHex8(DW_OP_minus);
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m_out_stream.PutHex8(DW_OP_not);
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m_out_stream.PutHex8(DW_OP_and);
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break;
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}
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}
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void FPOProgramASTVisitorDWARFCodegen::Visit(FPOProgramNodeUnaryOp *node) {
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Emit(node->Operand());
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switch (node->GetOpType()) {
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case FPOProgramNodeUnaryOp::Deref:
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m_out_stream.PutHex8(DW_OP_deref);
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break;
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}
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}
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class NodeAllocator {
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public:
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template <typename T, typename... Args> T *makeNode(Args &&... args) {
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void *new_node_mem = m_alloc.Allocate(sizeof(T), alignof(T));
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return new (new_node_mem) T(std::forward<Args>(args)...);
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}
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private:
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llvm::BumpPtrAllocator m_alloc;
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};
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} // namespace
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static bool ParseFPOSingleAssignmentProgram(llvm::StringRef program,
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NodeAllocator &alloc,
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llvm::StringRef ®ister_name,
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FPOProgramNode *&ast) {
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llvm::SmallVector<llvm::StringRef, 16> tokens;
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llvm::SplitString(program, tokens, " ");
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if (tokens.empty())
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return false;
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llvm::SmallVector<FPOProgramNode *, 4> eval_stack;
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llvm::DenseMap<llvm::StringRef, FPOProgramNodeBinaryOp::OpType> ops_binary = {
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{"+", FPOProgramNodeBinaryOp::Plus},
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{"-", FPOProgramNodeBinaryOp::Minus},
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{"@", FPOProgramNodeBinaryOp::Align},
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};
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llvm::DenseMap<llvm::StringRef, FPOProgramNodeUnaryOp::OpType> ops_unary = {
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{"^", FPOProgramNodeUnaryOp::Deref},
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};
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constexpr llvm::StringLiteral ra_search_keyword = ".raSearch";
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// lvalue of assignment is always first token
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// rvalue program goes next
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for (size_t i = 1; i < tokens.size(); ++i) {
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llvm::StringRef cur = tokens[i];
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auto ops_binary_it = ops_binary.find(cur);
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if (ops_binary_it != ops_binary.end()) {
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// token is binary operator
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if (eval_stack.size() < 2) {
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return false;
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}
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FPOProgramNode *right = eval_stack.pop_back_val();
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FPOProgramNode *left = eval_stack.pop_back_val();
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FPOProgramNode *node = alloc.makeNode<FPOProgramNodeBinaryOp>(
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ops_binary_it->second, left, right);
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eval_stack.push_back(node);
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continue;
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}
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auto ops_unary_it = ops_unary.find(cur);
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if (ops_unary_it != ops_unary.end()) {
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// token is unary operator
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if (eval_stack.empty()) {
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return false;
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}
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FPOProgramNode *operand = eval_stack.pop_back_val();
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FPOProgramNode *node =
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alloc.makeNode<FPOProgramNodeUnaryOp>(ops_unary_it->second, operand);
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eval_stack.push_back(node);
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continue;
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}
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if (cur.startswith("$")) {
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// token is register ref
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eval_stack.push_back(alloc.makeNode<FPOProgramNodeRegisterRef>(cur));
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continue;
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}
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if (cur == ra_search_keyword) {
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// TODO: .raSearch is unsupported
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return false;
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}
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uint32_t value;
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if (!cur.getAsInteger(10, value)) {
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// token is integer literal
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eval_stack.push_back(alloc.makeNode<FPOProgramNodeIntegerLiteral>(value));
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continue;
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}
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// unexpected token
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return false;
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}
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if (eval_stack.size() != 1) {
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return false;
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}
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register_name = tokens[0];
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ast = eval_stack.pop_back_val();
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return true;
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}
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static FPOProgramNode *ParseFPOProgram(llvm::StringRef program,
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llvm::StringRef register_name,
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llvm::Triple::ArchType arch_type,
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NodeAllocator &alloc) {
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llvm::DenseMap<llvm::StringRef, FPOProgramNode *> dependent_programs;
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size_t cur = 0;
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while (true) {
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size_t assign_index = program.find('=', cur);
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if (assign_index == llvm::StringRef::npos) {
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llvm::StringRef tail = program.slice(cur, llvm::StringRef::npos);
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if (!tail.trim().empty()) {
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// missing assign operator
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return nullptr;
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}
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break;
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}
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llvm::StringRef assignment_program = program.slice(cur, assign_index);
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llvm::StringRef lvalue_name;
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FPOProgramNode *rvalue_ast = nullptr;
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if (!ParseFPOSingleAssignmentProgram(assignment_program, alloc, lvalue_name,
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rvalue_ast)) {
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return nullptr;
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}
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lldbassert(rvalue_ast);
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// check & resolve assignment program
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FPOProgramASTVisitorResolveRegisterRefs resolver(dependent_programs,
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arch_type);
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if (!resolver.Resolve(rvalue_ast)) {
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return nullptr;
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}
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if (lvalue_name == register_name) {
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// found target assignment program - no need to parse further
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// emplace valid dependent subtrees to make target assignment independent
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// from predecessors
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FPOProgramASTVisitorMergeDependent merger(dependent_programs);
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merger.Merge(rvalue_ast);
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return rvalue_ast;
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}
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dependent_programs[lvalue_name] = rvalue_ast;
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cur = assign_index + 1;
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}
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return nullptr;
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}
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bool lldb_private::npdb::TranslateFPOProgramToDWARFExpression(
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llvm::StringRef program, llvm::StringRef register_name,
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llvm::Triple::ArchType arch_type, Stream &stream) {
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NodeAllocator node_alloc;
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FPOProgramNode *target_program =
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ParseFPOProgram(program, register_name, arch_type, node_alloc);
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if (target_program == nullptr) {
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return false;
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}
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FPOProgramASTVisitorDWARFCodegen codegen(stream);
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codegen.Emit(target_program);
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return true;
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}
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