//===-- ValueObjectConstResultImpl.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/ValueObjectConstResultImpl.h" #include "lldb/Core/Value.h" #include "lldb/Core/ValueObject.h" #include "lldb/Core/ValueObjectConstResult.h" #include "lldb/Core/ValueObjectConstResultCast.h" #include "lldb/Core/ValueObjectConstResultChild.h" #include "lldb/Symbol/CompilerType.h" #include "lldb/Target/ExecutionContext.h" #include "lldb/Utility/DataBufferHeap.h" #include "lldb/Utility/Endian.h" #include "lldb/Utility/Scalar.h" #include "lldb/Utility/SharingPtr.h" #include namespace lldb_private { class DataExtractor; } namespace lldb_private { class Status; } using namespace lldb; using namespace lldb_private; ValueObjectConstResultImpl::ValueObjectConstResultImpl( ValueObject *valobj, lldb::addr_t live_address) : m_impl_backend(valobj), m_live_address(live_address), m_live_address_type(eAddressTypeLoad), m_load_addr_backend(), m_address_of_backend() {} lldb::ValueObjectSP ValueObjectConstResultImpl::Dereference(Status &error) { if (m_impl_backend == NULL) return lldb::ValueObjectSP(); return m_impl_backend->ValueObject::Dereference(error); } ValueObject *ValueObjectConstResultImpl::CreateChildAtIndex( size_t idx, bool synthetic_array_member, int32_t synthetic_index) { if (m_impl_backend == NULL) return NULL; m_impl_backend->UpdateValueIfNeeded(false); ValueObjectConstResultChild *valobj = NULL; bool omit_empty_base_classes = true; bool ignore_array_bounds = synthetic_array_member; std::string child_name_str; uint32_t child_byte_size = 0; int32_t child_byte_offset = 0; uint32_t child_bitfield_bit_size = 0; uint32_t child_bitfield_bit_offset = 0; bool child_is_base_class = false; bool child_is_deref_of_parent = false; uint64_t language_flags; const bool transparent_pointers = !synthetic_array_member; CompilerType compiler_type = m_impl_backend->GetCompilerType(); CompilerType child_compiler_type; ExecutionContext exe_ctx(m_impl_backend->GetExecutionContextRef()); child_compiler_type = compiler_type.GetChildCompilerTypeAtIndex( &exe_ctx, idx, transparent_pointers, omit_empty_base_classes, ignore_array_bounds, child_name_str, child_byte_size, child_byte_offset, child_bitfield_bit_size, child_bitfield_bit_offset, child_is_base_class, child_is_deref_of_parent, m_impl_backend, language_flags); // One might think we should check that the size of the children // is always strictly positive, hence we could avoid creating a // ValueObject if that's not the case, but it turns out there // are languages out there which allow zero-size types with // children (e.g. Swift). if (child_compiler_type) { if (synthetic_index) child_byte_offset += child_byte_size * synthetic_index; ConstString child_name; if (!child_name_str.empty()) child_name.SetCString(child_name_str.c_str()); valobj = new ValueObjectConstResultChild( *m_impl_backend, child_compiler_type, child_name, child_byte_size, child_byte_offset, child_bitfield_bit_size, child_bitfield_bit_offset, child_is_base_class, child_is_deref_of_parent, m_live_address == LLDB_INVALID_ADDRESS ? m_live_address : m_live_address + child_byte_offset, language_flags); } return valobj; } lldb::ValueObjectSP ValueObjectConstResultImpl::GetSyntheticChildAtOffset( uint32_t offset, const CompilerType &type, bool can_create, ConstString name_const_str) { if (m_impl_backend == NULL) return lldb::ValueObjectSP(); return m_impl_backend->ValueObject::GetSyntheticChildAtOffset( offset, type, can_create, name_const_str); } lldb::ValueObjectSP ValueObjectConstResultImpl::AddressOf(Status &error) { if (m_address_of_backend.get() != NULL) return m_address_of_backend; if (m_impl_backend == NULL) return lldb::ValueObjectSP(); if (m_live_address != LLDB_INVALID_ADDRESS) { CompilerType compiler_type(m_impl_backend->GetCompilerType()); lldb::DataBufferSP buffer(new lldb_private::DataBufferHeap( &m_live_address, sizeof(lldb::addr_t))); std::string new_name("&"); new_name.append(m_impl_backend->GetName().AsCString("")); ExecutionContext exe_ctx(m_impl_backend->GetExecutionContextRef()); m_address_of_backend = ValueObjectConstResult::Create( exe_ctx.GetBestExecutionContextScope(), compiler_type.GetPointerType(), ConstString(new_name.c_str()), buffer, endian::InlHostByteOrder(), exe_ctx.GetAddressByteSize()); m_address_of_backend->GetValue().SetValueType(Value::eValueTypeScalar); m_address_of_backend->GetValue().GetScalar() = m_live_address; return m_address_of_backend; } else return m_impl_backend->ValueObject::AddressOf(error); } lldb::ValueObjectSP ValueObjectConstResultImpl::Cast(const CompilerType &compiler_type) { if (m_impl_backend == NULL) return lldb::ValueObjectSP(); ValueObjectConstResultCast *result_cast = new ValueObjectConstResultCast(*m_impl_backend, m_impl_backend->GetName(), compiler_type, m_live_address); return result_cast->GetSP(); } lldb::addr_t ValueObjectConstResultImpl::GetAddressOf(bool scalar_is_load_address, AddressType *address_type) { if (m_impl_backend == NULL) return 0; if (m_live_address == LLDB_INVALID_ADDRESS) { return m_impl_backend->ValueObject::GetAddressOf(scalar_is_load_address, address_type); } if (address_type) *address_type = m_live_address_type; return m_live_address; } size_t ValueObjectConstResultImpl::GetPointeeData(DataExtractor &data, uint32_t item_idx, uint32_t item_count) { if (m_impl_backend == NULL) return 0; return m_impl_backend->ValueObject::GetPointeeData(data, item_idx, item_count); }