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| //===-- ExpressionVariable.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 liblldb_ExpressionVariable_h_
#define liblldb_ExpressionVariable_h_
#include <memory>
#include <vector>
#include "llvm/ADT/DenseMap.h"
#include "lldb/Core/ValueObject.h"
#include "lldb/Utility/ConstString.h"
#include "lldb/lldb-public.h"
namespace lldb_private {
class ExpressionVariable
: public std::enable_shared_from_this<ExpressionVariable> {
public:
// See TypeSystem.h for how to add subclasses to this.
enum LLVMCastKind { eKindClang, eKindSwift, eKindGo, kNumKinds };
LLVMCastKind getKind() const { return m_kind; }
ExpressionVariable(LLVMCastKind kind) : m_flags(0), m_kind(kind) {}
virtual ~ExpressionVariable();
size_t GetByteSize() { return m_frozen_sp->GetByteSize(); }
ConstString GetName() { return m_frozen_sp->GetName(); }
lldb::ValueObjectSP GetValueObject() { return m_frozen_sp; }
uint8_t *GetValueBytes();
void ValueUpdated() { m_frozen_sp->ValueUpdated(); }
RegisterInfo *GetRegisterInfo() {
return m_frozen_sp->GetValue().GetRegisterInfo();
}
void SetRegisterInfo(const RegisterInfo *reg_info) {
return m_frozen_sp->GetValue().SetContext(
Value::eContextTypeRegisterInfo, const_cast<RegisterInfo *>(reg_info));
}
CompilerType GetCompilerType() { return m_frozen_sp->GetCompilerType(); }
void SetCompilerType(const CompilerType &compiler_type) {
m_frozen_sp->GetValue().SetCompilerType(compiler_type);
}
void SetName(ConstString name) { m_frozen_sp->SetName(name); }
// this function is used to copy the address-of m_live_sp into m_frozen_sp
// this is necessary because the results of certain cast and pointer-
// arithmetic operations (such as those described in bugzilla issues 11588
// and 11618) generate frozen objects that do not have a valid address-of,
// which can be troublesome when using synthetic children providers.
// Transferring the address-of the live object solves these issues and
// provides the expected user-level behavior
void TransferAddress(bool force = false) {
if (m_live_sp.get() == nullptr)
return;
if (m_frozen_sp.get() == nullptr)
return;
if (force || (m_frozen_sp->GetLiveAddress() == LLDB_INVALID_ADDRESS))
m_frozen_sp->SetLiveAddress(m_live_sp->GetLiveAddress());
}
enum Flags {
EVNone = 0,
EVIsLLDBAllocated = 1 << 0, ///< This variable is resident in a location
///specifically allocated for it by LLDB in the
///target process
EVIsProgramReference = 1 << 1, ///< This variable is a reference to a
///(possibly invalid) area managed by the
///target program
EVNeedsAllocation = 1 << 2, ///< Space for this variable has yet to be
///allocated in the target process
EVIsFreezeDried = 1 << 3, ///< This variable's authoritative version is in
///m_frozen_sp (for example, for
///statically-computed results)
EVNeedsFreezeDry =
1 << 4, ///< Copy from m_live_sp to m_frozen_sp during dematerialization
EVKeepInTarget = 1 << 5, ///< Keep the allocation after the expression is
///complete rather than freeze drying its contents
///and freeing it
EVTypeIsReference = 1 << 6, ///< The original type of this variable is a
///reference, so materialize the value rather
///than the location
EVUnknownType = 1 << 7, ///< This is a symbol of unknown type, and the type
///must be resolved after parsing is complete
EVBareRegister = 1 << 8 ///< This variable is a direct reference to $pc or
///some other entity.
};
typedef uint16_t FlagType;
FlagType m_flags; // takes elements of Flags
// these should be private
lldb::ValueObjectSP m_frozen_sp;
lldb::ValueObjectSP m_live_sp;
LLVMCastKind m_kind;
};
/// \class ExpressionVariableList ExpressionVariable.h
/// "lldb/Expression/ExpressionVariable.h"
/// A list of variable references.
///
/// This class stores variables internally, acting as the permanent store.
class ExpressionVariableList {
public:
/// Implementation of methods in ExpressionVariableListBase
size_t GetSize() { return m_variables.size(); }
lldb::ExpressionVariableSP GetVariableAtIndex(size_t index) {
lldb::ExpressionVariableSP var_sp;
if (index < m_variables.size())
var_sp = m_variables[index];
return var_sp;
}
size_t AddVariable(const lldb::ExpressionVariableSP &var_sp) {
m_variables.push_back(var_sp);
return m_variables.size() - 1;
}
lldb::ExpressionVariableSP
AddNewlyConstructedVariable(ExpressionVariable *var) {
lldb::ExpressionVariableSP var_sp(var);
m_variables.push_back(var_sp);
return m_variables.back();
}
bool ContainsVariable(const lldb::ExpressionVariableSP &var_sp) {
const size_t size = m_variables.size();
for (size_t index = 0; index < size; ++index) {
if (m_variables[index].get() == var_sp.get())
return true;
}
return false;
}
/// Finds a variable by name in the list.
///
/// \param[in] name
/// The name of the requested variable.
///
/// \return
/// The variable requested, or nullptr if that variable is not in the
/// list.
lldb::ExpressionVariableSP GetVariable(ConstString name) {
lldb::ExpressionVariableSP var_sp;
for (size_t index = 0, size = GetSize(); index < size; ++index) {
var_sp = GetVariableAtIndex(index);
if (var_sp->GetName() == name)
return var_sp;
}
var_sp.reset();
return var_sp;
}
lldb::ExpressionVariableSP GetVariable(llvm::StringRef name) {
if (name.empty())
return nullptr;
for (size_t index = 0, size = GetSize(); index < size; ++index) {
auto var_sp = GetVariableAtIndex(index);
llvm::StringRef var_name_str = var_sp->GetName().GetStringRef();
if (var_name_str == name)
return var_sp;
}
return nullptr;
}
void RemoveVariable(lldb::ExpressionVariableSP var_sp) {
for (std::vector<lldb::ExpressionVariableSP>::iterator
vi = m_variables.begin(),
ve = m_variables.end();
vi != ve; ++vi) {
if (vi->get() == var_sp.get()) {
m_variables.erase(vi);
return;
}
}
}
void Clear() { m_variables.clear(); }
private:
std::vector<lldb::ExpressionVariableSP> m_variables;
};
class PersistentExpressionState : public ExpressionVariableList {
public:
// See TypeSystem.h for how to add subclasses to this.
enum LLVMCastKind { eKindClang, eKindSwift, eKindGo, kNumKinds };
LLVMCastKind getKind() const { return m_kind; }
PersistentExpressionState(LLVMCastKind kind) : m_kind(kind) {}
virtual ~PersistentExpressionState();
virtual lldb::ExpressionVariableSP
CreatePersistentVariable(const lldb::ValueObjectSP &valobj_sp) = 0;
virtual lldb::ExpressionVariableSP
CreatePersistentVariable(ExecutionContextScope *exe_scope,
ConstString name, const CompilerType &type,
lldb::ByteOrder byte_order,
uint32_t addr_byte_size) = 0;
/// Return a new persistent variable name with the specified prefix.
ConstString GetNextPersistentVariableName(Target &target,
llvm::StringRef prefix);
virtual llvm::StringRef
GetPersistentVariablePrefix(bool is_error = false) const = 0;
virtual void
RemovePersistentVariable(lldb::ExpressionVariableSP variable) = 0;
virtual llvm::Optional<CompilerType>
GetCompilerTypeFromPersistentDecl(ConstString type_name) = 0;
virtual lldb::addr_t LookupSymbol(ConstString name);
void RegisterExecutionUnit(lldb::IRExecutionUnitSP &execution_unit_sp);
private:
LLVMCastKind m_kind;
typedef std::set<lldb::IRExecutionUnitSP> ExecutionUnitSet;
ExecutionUnitSet
m_execution_units; ///< The execution units that contain valuable symbols.
typedef llvm::DenseMap<const char *, lldb::addr_t> SymbolMap;
SymbolMap
m_symbol_map; ///< The addresses of the symbols in m_execution_units.
};
} // namespace lldb_private
#endif // liblldb_ExpressionVariable_h_
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