//===-- LibCxxVariant.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 // //===----------------------------------------------------------------------===// #include "LibCxxVariant.h" #include "LibCxx.h" #include "lldb/DataFormatters/FormattersHelpers.h" #include "lldb/Symbol/CompilerType.h" #include "lldb/Utility/LLDBAssert.h" #include "llvm/ADT/ScopeExit.h" #include using namespace lldb; using namespace lldb_private; // libc++ variant implementation contains two members that we care about both // are contained in the __impl member. // - __index which tells us which of the variadic template types is the active // type for the variant // - __data is a variadic union which recursively contains itself as member // which refers to the tailing variadic types. // - __head which refers to the leading non pack type // - __value refers to the actual value contained // - __tail which refers to the remaining pack types // // e.g. given std::variant v1 // // (lldb) frame var -R v1.__impl.__data //(... __union<... 0, int, double, char>) v1.__impl.__data = { // ... // __head = { // __value = ... // } // __tail = { // ... // __head = { // __value = ... // } // __tail = { // ... // __head = { // __value = ... // ... // // So given // - __index equal to 0 the active value is contained in // // __data.__head.__value // // - __index equal to 1 the active value is contained in // // __data.__tail.__head.__value // // - __index equal to 2 the active value is contained in // // __data.__tail.__tail.__head.__value // namespace { // libc++ std::variant index could have one of three states // 1) Valid, we can obtain it and its not variant_npos // 2) Invalid, we can't obtain it or it is not a type we expect // 3) NPos, its value is variant_npos which means the variant has no value enum class LibcxxVariantIndexValidity { Valid, Invalid, NPos }; uint64_t VariantNposValue(uint64_t index_byte_size) { switch (index_byte_size) { case 1: return static_cast(-1); case 2: return static_cast(-1); case 4: return static_cast(-1); } lldbassert(false && "Unknown index type size"); return static_cast(-1); // Fallback to stable ABI type. } LibcxxVariantIndexValidity LibcxxVariantGetIndexValidity(ValueObjectSP &impl_sp) { ValueObjectSP index_sp(impl_sp->GetChildMemberWithName("__index")); if (!index_sp) return LibcxxVariantIndexValidity::Invalid; // In the stable ABI, the type of __index is just int. // In the unstable ABI, where _LIBCPP_ABI_VARIANT_INDEX_TYPE_OPTIMIZATION is // enabled, the type can either be unsigned char/short/int depending on // how many variant types there are. // We only need to do this here when comparing against npos, because npos is // just `-1`, but that translates to different unsigned values depending on // the byte size. CompilerType index_type = index_sp->GetCompilerType(); std::optional index_type_bytes = index_type.GetByteSize(nullptr); if (!index_type_bytes) return LibcxxVariantIndexValidity::Invalid; uint64_t npos_value = VariantNposValue(*index_type_bytes); uint64_t index_value = index_sp->GetValueAsUnsigned(0); if (index_value == npos_value) return LibcxxVariantIndexValidity::NPos; return LibcxxVariantIndexValidity::Valid; } std::optional LibcxxVariantIndexValue(ValueObjectSP &impl_sp) { ValueObjectSP index_sp(impl_sp->GetChildMemberWithName("__index")); if (!index_sp) return {}; return {index_sp->GetValueAsUnsigned(0)}; } ValueObjectSP LibcxxVariantGetNthHead(ValueObjectSP &impl_sp, uint64_t index) { ValueObjectSP data_sp(impl_sp->GetChildMemberWithName("__data")); if (!data_sp) return ValueObjectSP{}; ValueObjectSP current_level = data_sp; for (uint64_t n = index; n != 0; --n) { ValueObjectSP tail_sp(current_level->GetChildMemberWithName("__tail")); if (!tail_sp) return ValueObjectSP{}; current_level = tail_sp; } return current_level->GetChildMemberWithName("__head"); } } // namespace namespace lldb_private { namespace formatters { bool LibcxxVariantSummaryProvider(ValueObject &valobj, Stream &stream, const TypeSummaryOptions &options) { ValueObjectSP valobj_sp(valobj.GetNonSyntheticValue()); if (!valobj_sp) return false; ValueObjectSP impl_sp = GetChildMemberWithName( *valobj_sp, {ConstString("__impl_"), ConstString("__impl")}); if (!impl_sp) return false; LibcxxVariantIndexValidity validity = LibcxxVariantGetIndexValidity(impl_sp); if (validity == LibcxxVariantIndexValidity::Invalid) return false; if (validity == LibcxxVariantIndexValidity::NPos) { stream.Printf(" No Value"); return true; } auto optional_index_value = LibcxxVariantIndexValue(impl_sp); if (!optional_index_value) return false; uint64_t index_value = *optional_index_value; ValueObjectSP nth_head = LibcxxVariantGetNthHead(impl_sp, index_value); if (!nth_head) return false; CompilerType head_type = nth_head->GetCompilerType(); if (!head_type) return false; CompilerType template_type = head_type.GetTypeTemplateArgument(1); if (!template_type) return false; stream << " Active Type = " << template_type.GetDisplayTypeName() << " "; return true; } } // namespace formatters } // namespace lldb_private namespace { class VariantFrontEnd : public SyntheticChildrenFrontEnd { public: VariantFrontEnd(ValueObject &valobj) : SyntheticChildrenFrontEnd(valobj) { Update(); } size_t GetIndexOfChildWithName(ConstString name) override { return formatters::ExtractIndexFromString(name.GetCString()); } bool MightHaveChildren() override { return true; } lldb::ChildCacheState Update() override; llvm::Expected CalculateNumChildren() override { return m_size; } ValueObjectSP GetChildAtIndex(uint32_t idx) override; private: size_t m_size = 0; }; } // namespace lldb::ChildCacheState VariantFrontEnd::Update() { m_size = 0; ValueObjectSP impl_sp = formatters::GetChildMemberWithName( m_backend, {ConstString("__impl_"), ConstString("__impl")}); if (!impl_sp) return lldb::ChildCacheState::eRefetch; LibcxxVariantIndexValidity validity = LibcxxVariantGetIndexValidity(impl_sp); if (validity == LibcxxVariantIndexValidity::Invalid) return lldb::ChildCacheState::eRefetch; if (validity == LibcxxVariantIndexValidity::NPos) return lldb::ChildCacheState::eReuse; m_size = 1; return lldb::ChildCacheState::eRefetch; } ValueObjectSP VariantFrontEnd::GetChildAtIndex(uint32_t idx) { if (idx >= m_size) return {}; ValueObjectSP impl_sp = formatters::GetChildMemberWithName( m_backend, {ConstString("__impl_"), ConstString("__impl")}); if (!impl_sp) return {}; auto optional_index_value = LibcxxVariantIndexValue(impl_sp); if (!optional_index_value) return {}; uint64_t index_value = *optional_index_value; ValueObjectSP nth_head = LibcxxVariantGetNthHead(impl_sp, index_value); if (!nth_head) return {}; CompilerType head_type = nth_head->GetCompilerType(); if (!head_type) return {}; CompilerType template_type = head_type.GetTypeTemplateArgument(1); if (!template_type) return {}; ValueObjectSP head_value(nth_head->GetChildMemberWithName("__value")); if (!head_value) return {}; return head_value->Clone(ConstString("Value")); } SyntheticChildrenFrontEnd * formatters::LibcxxVariantFrontEndCreator(CXXSyntheticChildren *, lldb::ValueObjectSP valobj_sp) { if (valobj_sp) return new VariantFrontEnd(*valobj_sp); return nullptr; }