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clang-p2996/lldb/source/Core/ValueObjectChild.cpp
Pavel Labath d821c997aa Move RegisterValue,Scalar,State from Core to Utility 
These three classes have no external dependencies, but they are used
from various low-level APIs. Moving them down to Utility improves
overall code layering (although it still does not break any particular
dependency completely).

The XCode project will need to be updated after this change.

Differential Revision: https://reviews.llvm.org/D49740

llvm-svn: 339127
2018-08-07 11:07:21 +00:00

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//===-- ValueObjectChild.cpp ------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "lldb/Core/ValueObjectChild.h"
#include "lldb/Core/Value.h" // for Value, Value::ValueType::e...
#include "lldb/Symbol/CompilerType.h"
#include "lldb/Target/ExecutionContext.h"
#include "lldb/Target/Process.h"
#include "lldb/Utility/Flags.h" // for Flags
#include "lldb/Utility/Scalar.h" // for Scalar
#include "lldb/Utility/Status.h" // for Status
#include "lldb/lldb-forward.h" // for ProcessSP, ModuleSP
#include <functional> // for _Func_impl<>::_Mybase
#include <memory> // for shared_ptr
#include <vector> // for vector
#include <stdio.h> // for snprintf, size_t
#include <string.h> // for strlen
using namespace lldb_private;
ValueObjectChild::ValueObjectChild(
ValueObject &parent, const CompilerType &compiler_type,
const ConstString &name, uint64_t byte_size, int32_t byte_offset,
uint32_t bitfield_bit_size, uint32_t bitfield_bit_offset,
bool is_base_class, bool is_deref_of_parent,
AddressType child_ptr_or_ref_addr_type, uint64_t language_flags)
: ValueObject(parent), m_compiler_type(compiler_type),
m_byte_size(byte_size), m_byte_offset(byte_offset),
m_bitfield_bit_size(bitfield_bit_size),
m_bitfield_bit_offset(bitfield_bit_offset),
m_is_base_class(is_base_class), m_is_deref_of_parent(is_deref_of_parent),
m_can_update_with_invalid_exe_ctx() {
m_name = name;
SetAddressTypeOfChildren(child_ptr_or_ref_addr_type);
SetLanguageFlags(language_flags);
}
ValueObjectChild::~ValueObjectChild() {}
lldb::ValueType ValueObjectChild::GetValueType() const {
return m_parent->GetValueType();
}
size_t ValueObjectChild::CalculateNumChildren(uint32_t max) {
auto children_count = GetCompilerType().GetNumChildren(true);
return children_count <= max ? children_count : max;
}
static void AdjustForBitfieldness(ConstString &name,
uint8_t bitfield_bit_size) {
if (name && bitfield_bit_size) {
const char *compiler_type_name = name.AsCString();
if (compiler_type_name) {
std::vector<char> bitfield_type_name(strlen(compiler_type_name) + 32, 0);
::snprintf(&bitfield_type_name.front(), bitfield_type_name.size(),
"%s:%u", compiler_type_name, bitfield_bit_size);
name.SetCString(&bitfield_type_name.front());
}
}
}
ConstString ValueObjectChild::GetTypeName() {
if (m_type_name.IsEmpty()) {
m_type_name = GetCompilerType().GetConstTypeName();
AdjustForBitfieldness(m_type_name, m_bitfield_bit_size);
}
return m_type_name;
}
ConstString ValueObjectChild::GetQualifiedTypeName() {
ConstString qualified_name = GetCompilerType().GetConstTypeName();
AdjustForBitfieldness(qualified_name, m_bitfield_bit_size);
return qualified_name;
}
ConstString ValueObjectChild::GetDisplayTypeName() {
ConstString display_name = GetCompilerType().GetDisplayTypeName();
AdjustForBitfieldness(display_name, m_bitfield_bit_size);
return display_name;
}
LazyBool ValueObjectChild::CanUpdateWithInvalidExecutionContext() {
if (m_can_update_with_invalid_exe_ctx.hasValue())
return m_can_update_with_invalid_exe_ctx.getValue();
if (m_parent) {
ValueObject *opinionated_parent =
m_parent->FollowParentChain([](ValueObject *valobj) -> bool {
return (valobj->CanUpdateWithInvalidExecutionContext() ==
eLazyBoolCalculate);
});
if (opinionated_parent)
return (m_can_update_with_invalid_exe_ctx =
opinionated_parent->CanUpdateWithInvalidExecutionContext())
.getValue();
}
return (m_can_update_with_invalid_exe_ctx =
this->ValueObject::CanUpdateWithInvalidExecutionContext())
.getValue();
}
bool ValueObjectChild::UpdateValue() {
m_error.Clear();
SetValueIsValid(false);
ValueObject *parent = m_parent;
if (parent) {
if (parent->UpdateValueIfNeeded(false)) {
m_value.SetCompilerType(GetCompilerType());
CompilerType parent_type(parent->GetCompilerType());
// Copy the parent scalar value and the scalar value type
m_value.GetScalar() = parent->GetValue().GetScalar();
Value::ValueType value_type = parent->GetValue().GetValueType();
m_value.SetValueType(value_type);
Flags parent_type_flags(parent_type.GetTypeInfo());
const bool is_instance_ptr_base =
((m_is_base_class == true) &&
(parent_type_flags.AnySet(lldb::eTypeInstanceIsPointer)));
if (parent->GetCompilerType().ShouldTreatScalarValueAsAddress()) {
lldb::addr_t addr = parent->GetPointerValue();
m_value.GetScalar() = addr;
if (addr == LLDB_INVALID_ADDRESS) {
m_error.SetErrorString("parent address is invalid.");
} else if (addr == 0) {
m_error.SetErrorString("parent is NULL");
} else {
m_value.GetScalar() += m_byte_offset;
AddressType addr_type = parent->GetAddressTypeOfChildren();
switch (addr_type) {
case eAddressTypeFile: {
lldb::ProcessSP process_sp(GetProcessSP());
if (process_sp && process_sp->IsAlive() == true)
m_value.SetValueType(Value::eValueTypeLoadAddress);
else
m_value.SetValueType(Value::eValueTypeFileAddress);
} break;
case eAddressTypeLoad:
m_value.SetValueType(is_instance_ptr_base
? Value::eValueTypeScalar
: Value::eValueTypeLoadAddress);
break;
case eAddressTypeHost:
m_value.SetValueType(Value::eValueTypeHostAddress);
break;
case eAddressTypeInvalid:
// TODO: does this make sense?
m_value.SetValueType(Value::eValueTypeScalar);
break;
}
}
} else {
switch (value_type) {
case Value::eValueTypeLoadAddress:
case Value::eValueTypeFileAddress:
case Value::eValueTypeHostAddress: {
lldb::addr_t addr =
m_value.GetScalar().ULongLong(LLDB_INVALID_ADDRESS);
if (addr == LLDB_INVALID_ADDRESS) {
m_error.SetErrorString("parent address is invalid.");
} else if (addr == 0) {
m_error.SetErrorString("parent is NULL");
} else {
// Set this object's scalar value to the address of its value by
// adding its byte offset to the parent address
m_value.GetScalar() += GetByteOffset();
}
} break;
case Value::eValueTypeScalar:
// try to extract the child value from the parent's scalar value
{
Scalar scalar(m_value.GetScalar());
if (m_bitfield_bit_size)
scalar.ExtractBitfield(m_bitfield_bit_size,
m_bitfield_bit_offset);
else
scalar.ExtractBitfield(8 * m_byte_size, 8 * m_byte_offset);
m_value.GetScalar() = scalar;
}
break;
default:
m_error.SetErrorString("parent has invalid value.");
break;
}
}
if (m_error.Success()) {
const bool thread_and_frame_only_if_stopped = true;
ExecutionContext exe_ctx(
GetExecutionContextRef().Lock(thread_and_frame_only_if_stopped));
if (GetCompilerType().GetTypeInfo() & lldb::eTypeHasValue) {
if (!is_instance_ptr_base)
m_error =
m_value.GetValueAsData(&exe_ctx, m_data, 0, GetModule().get());
else
m_error = m_parent->GetValue().GetValueAsData(&exe_ctx, m_data, 0,
GetModule().get());
} else {
m_error.Clear(); // No value so nothing to read...
}
}
} else {
m_error.SetErrorStringWithFormat("parent failed to evaluate: %s",
parent->GetError().AsCString());
}
} else {
m_error.SetErrorString("ValueObjectChild has a NULL parent ValueObject.");
}
return m_error.Success();
}
bool ValueObjectChild::IsInScope() {
ValueObject *root(GetRoot());
if (root)
return root->IsInScope();
return false;
}
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