/* * Copyright 2014 Google Inc. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define IN_FRUIT_CPP_FILE 1 #include <algorithm> #include <cstdlib> #include <fruit/impl/util/type_info.h> #include <iostream> #include <memory> #include <vector> #include <fruit/impl/data_structures/semistatic_graph.templates.h> #include <fruit/impl/injector/injector_storage.h> #include <fruit/impl/normalized_component_storage/binding_normalization.h> #include <fruit/impl/normalized_component_storage/binding_normalization.templates.h> #include <fruit/impl/normalized_component_storage/normalized_component_storage.h> using std::cout; using std::endl; using namespace fruit::impl; namespace fruit { namespace impl { void BindingNormalization::printLazyComponentInstallationLoop( const std::vector<ComponentStorageEntry, ArenaAllocator<ComponentStorageEntry>>& entries_to_process, const ComponentStorageEntry& last_entry) { std::cerr << "Found a loop while expanding components passed to PartialComponent::install()." << std::endl; std::cerr << "Component installation trace (from top-level to the most deeply-nested):" << std::endl; for (const ComponentStorageEntry& entry : entries_to_process) { switch (entry.kind) { case ComponentStorageEntry::Kind::COMPONENT_WITH_ARGS_END_MARKER: if (entry.type_id == last_entry.type_id && last_entry.kind == ComponentStorageEntry::Kind::LAZY_COMPONENT_WITH_ARGS && *entry.lazy_component_with_args.component == *last_entry.lazy_component_with_args.component) { std::cerr << "<-- The loop starts here" << std::endl; } std::cerr << std::string(entry.lazy_component_with_args.component->getFunTypeId()) << std::endl; break; case ComponentStorageEntry::Kind::COMPONENT_WITHOUT_ARGS_END_MARKER: if (entry.type_id == last_entry.type_id && last_entry.kind == ComponentStorageEntry::Kind::LAZY_COMPONENT_WITH_NO_ARGS && entry.lazy_component_with_no_args.erased_fun == last_entry.lazy_component_with_no_args.erased_fun) { std::cerr << "<-- The loop starts here" << std::endl; } std::cerr << std::string(entry.type_id) << std::endl; break; default: break; } } switch (last_entry.kind) { // LCOV_EXCL_BR_LINE case ComponentStorageEntry::Kind::LAZY_COMPONENT_WITH_ARGS: std::cerr << std::string(last_entry.lazy_component_with_args.component->getFunTypeId()) << std::endl; break; case ComponentStorageEntry::Kind::LAZY_COMPONENT_WITH_NO_ARGS: std::cerr << std::string(last_entry.type_id) << std::endl; break; default: FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } exit(1); } void BindingNormalization::printMultipleBindingsError(TypeId type) { std::cerr << "Fatal injection error: the type " << type.type_info->name() << " was provided more than once, with different bindings." << std::endl << "This was not caught at compile time because at least one of the involved components bound this type " << "but didn't expose it in the component signature." << std::endl << "If the type has a default constructor or an Inject annotation, this problem may arise even if this " << "type is bound/provided by only one component (and then hidden), if this type is auto-injected in " << "another component." << std::endl << "If the source of the problem is unclear, try exposing this type in all the component signatures where " << "it's bound; if no component hides it this can't happen." << std::endl; exit(1); } void BindingNormalization::printIncompatibleComponentReplacementsError( const ComponentStorageEntry& replaced_component_entry, const ComponentStorageEntry& replacement_component_entry1, const ComponentStorageEntry& replacement_component_entry2) { using fun_t = void (*)(); fun_t replaced_fun_address; switch (replaced_component_entry.kind) { case ComponentStorageEntry::Kind::REPLACED_LAZY_COMPONENT_WITH_ARGS: replaced_fun_address = replaced_component_entry.lazy_component_with_args.component->erased_fun; break; case ComponentStorageEntry::Kind::REPLACED_LAZY_COMPONENT_WITH_NO_ARGS: replaced_fun_address = replaced_component_entry.lazy_component_with_no_args.erased_fun; break; default: FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } fun_t replacement_fun_address1; switch (replacement_component_entry1.kind) { case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_ARGS: replacement_fun_address1 = replacement_component_entry1.lazy_component_with_args.component->erased_fun; break; case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_NO_ARGS: replacement_fun_address1 = replacement_component_entry1.lazy_component_with_no_args.erased_fun; break; default: FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } fun_t replacement_fun_address2; switch (replacement_component_entry2.kind) { case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_ARGS: replacement_fun_address2 = replacement_component_entry2.lazy_component_with_args.component->erased_fun; break; case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_NO_ARGS: replacement_fun_address2 = replacement_component_entry2.lazy_component_with_no_args.erased_fun; break; default: FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } constexpr static bool function_pointers_have_same_size = sizeof(void*) == sizeof(fun_t); if (function_pointers_have_same_size) { std::cerr << "Fatal injection error: the component function at " << reinterpret_cast<void*>(replaced_fun_address) << " with signature " << std::string(replaced_component_entry.type_id) << " was replaced (using .replace(...).with(...)) with both the component function at " << reinterpret_cast<void*>(replacement_fun_address1) << " with signature " << std::string(replacement_component_entry1.type_id) << " and the component function at " << reinterpret_cast<void*>(replacement_fun_address2) << " with signature " << std::string(replacement_component_entry2.type_id) << " ." << std::endl; } else { std::cerr << "Fatal injection error: a component function with signature " << std::string(replaced_component_entry.type_id) << " was replaced (using .replace(...).with(...)) with both a component function with signature " << std::string(replacement_component_entry1.type_id) << " and another component function with signature " << std::string(replacement_component_entry2.type_id) << " ." << std::endl; } exit(1); } void BindingNormalization::printComponentReplacementFailedBecauseTargetAlreadyExpanded( const ComponentStorageEntry& replaced_component_entry, const ComponentStorageEntry& replacement_component_entry) { using fun_t = void (*)(); fun_t replaced_fun_address; switch (replaced_component_entry.kind) { case ComponentStorageEntry::Kind::REPLACED_LAZY_COMPONENT_WITH_ARGS: replaced_fun_address = replaced_component_entry.lazy_component_with_args.component->erased_fun; break; case ComponentStorageEntry::Kind::REPLACED_LAZY_COMPONENT_WITH_NO_ARGS: replaced_fun_address = replaced_component_entry.lazy_component_with_no_args.erased_fun; break; default: FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } fun_t replacement_fun_address1; switch (replacement_component_entry.kind) { case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_ARGS: replacement_fun_address1 = replacement_component_entry.lazy_component_with_args.component->erased_fun; break; case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_NO_ARGS: replacement_fun_address1 = replacement_component_entry.lazy_component_with_no_args.erased_fun; break; default: FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } constexpr static bool function_pointers_have_same_size = sizeof(void*) == sizeof(fun_t); if (function_pointers_have_same_size) { std::cerr << "Fatal injection error: unable to replace (using .replace(...).with(...)) the component function at " << reinterpret_cast<void*>(replaced_fun_address) << " with signature " << std::string(replaced_component_entry.type_id) << " with the component function at " << reinterpret_cast<void*>(replacement_fun_address1) << " with signature " << std::string(replacement_component_entry.type_id) << " because the former component function was installed before the .replace(...).with(...)." << std::endl << "You should change the order of installation of subcomponents so that .replace(...).with(...) is " << "processed before the installation of the component to replace."; } else { std::cerr << "Fatal injection error: unable to replace (using .replace(...).with(...)) a component function with " << "signature " << std::string(replaced_component_entry.type_id) << " with a component function at with signature " << std::string(replacement_component_entry.type_id) << " because the former component function was installed before the .replace(...).with(...)." << std::endl << "You should change the order of installation of subcomponents so that .replace(...).with(...) is " << "processed before the installation of the component to replace."; } exit(1); } void BindingNormalization::addMultibindings(std::unordered_map<TypeId, NormalizedMultibindingSet>& multibindings, FixedSizeAllocator::FixedSizeAllocatorData& fixed_size_allocator_data, const multibindings_vector_t& multibindingsVector) { #if FRUIT_EXTRA_DEBUG std::cout << "InjectorStorage: adding multibindings:" << std::endl; #endif // Now we must merge multiple bindings for the same type. for (auto i = multibindingsVector.begin(); i != multibindingsVector.end(); ++i) { const ComponentStorageEntry& multibinding_entry = i->first; const ComponentStorageEntry& multibinding_vector_creator_entry = i->second; FruitAssert(multibinding_entry.kind == ComponentStorageEntry::Kind::MULTIBINDING_FOR_OBJECT_TO_CONSTRUCT_THAT_NEEDS_NO_ALLOCATION || multibinding_entry.kind == ComponentStorageEntry::Kind::MULTIBINDING_FOR_OBJECT_TO_CONSTRUCT_THAT_NEEDS_ALLOCATION || multibinding_entry.kind == ComponentStorageEntry::Kind::MULTIBINDING_FOR_CONSTRUCTED_OBJECT); FruitAssert(multibinding_vector_creator_entry.kind == ComponentStorageEntry::Kind::MULTIBINDING_VECTOR_CREATOR); NormalizedMultibindingSet& b = multibindings[multibinding_entry.type_id]; // Might be set already, but we need to set it if there was no multibinding for this type. b.get_multibindings_vector = multibinding_vector_creator_entry.multibinding_vector_creator.get_multibindings_vector; switch (i->first.kind) { // LCOV_EXCL_BR_LINE case ComponentStorageEntry::Kind::MULTIBINDING_FOR_CONSTRUCTED_OBJECT: { NormalizedMultibinding normalized_multibinding; normalized_multibinding.is_constructed = true; normalized_multibinding.object = i->first.multibinding_for_constructed_object.object_ptr; b.elems.push_back(std::move(normalized_multibinding)); } break; case ComponentStorageEntry::Kind::MULTIBINDING_FOR_OBJECT_TO_CONSTRUCT_THAT_NEEDS_NO_ALLOCATION: { fixed_size_allocator_data.addExternallyAllocatedType(i->first.type_id); NormalizedMultibinding normalized_multibinding; normalized_multibinding.is_constructed = false; normalized_multibinding.create = i->first.multibinding_for_object_to_construct.create; b.elems.push_back(std::move(normalized_multibinding)); } break; case ComponentStorageEntry::Kind::MULTIBINDING_FOR_OBJECT_TO_CONSTRUCT_THAT_NEEDS_ALLOCATION: { fixed_size_allocator_data.addType(i->first.type_id); NormalizedMultibinding normalized_multibinding; normalized_multibinding.is_constructed = false; normalized_multibinding.create = i->first.multibinding_for_object_to_construct.create; b.elems.push_back(std::move(normalized_multibinding)); } break; default: #if FRUIT_EXTRA_DEBUG std::cerr << "Unexpected kind: " << (std::size_t)i->first.kind << std::endl; #endif FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } } } void BindingNormalization::normalizeBindingsWithUndoableBindingCompression( FixedSizeVector<ComponentStorageEntry>&& toplevel_entries, FixedSizeAllocator::FixedSizeAllocatorData& fixed_size_allocator_data, MemoryPool& memory_pool, MemoryPool& memory_pool_for_fully_expanded_components_maps, MemoryPool& memory_pool_for_component_replacements_maps, const std::vector<TypeId, ArenaAllocator<TypeId>>& exposed_types, std::vector<ComponentStorageEntry, ArenaAllocator<ComponentStorageEntry>>& bindings_vector, std::unordered_map<TypeId, NormalizedMultibindingSet>& multibindings, BindingCompressionInfoMap& bindingCompressionInfoMap, LazyComponentWithNoArgsSet& fully_expanded_components_with_no_args, LazyComponentWithArgsSet& fully_expanded_components_with_args, LazyComponentWithNoArgsReplacementMap& component_with_no_args_replacements, LazyComponentWithArgsReplacementMap& component_with_args_replacements) { FruitAssert(bindingCompressionInfoMap.empty()); normalizeBindingsWithBindingCompression( std::move(toplevel_entries), fixed_size_allocator_data, memory_pool, memory_pool_for_fully_expanded_components_maps, memory_pool_for_component_replacements_maps, exposed_types, bindings_vector, multibindings, [&bindingCompressionInfoMap](TypeId c_type_id, NormalizedComponentStorage::CompressedBindingUndoInfo undo_info) { bindingCompressionInfoMap[c_type_id] = undo_info; }, [&fully_expanded_components_with_no_args](LazyComponentWithNoArgsSet& fully_expanded_components) { fully_expanded_components_with_no_args = std::move(fully_expanded_components); fully_expanded_components.clear(); }, [&fully_expanded_components_with_args](LazyComponentWithArgsSet& fully_expanded_components) { fully_expanded_components_with_args = std::move(fully_expanded_components); fully_expanded_components.clear(); }, [&component_with_no_args_replacements](LazyComponentWithNoArgsReplacementMap& component_replacements) { component_with_no_args_replacements = std::move(component_replacements); component_replacements.clear(); }, [&component_with_args_replacements](LazyComponentWithArgsReplacementMap& component_replacements) { component_with_args_replacements = std::move(component_replacements); component_replacements.clear(); }); } void BindingNormalization::normalizeBindingsWithPermanentBindingCompression( FixedSizeVector<ComponentStorageEntry>&& toplevel_entries, FixedSizeAllocator::FixedSizeAllocatorData& fixed_size_allocator_data, MemoryPool& memory_pool, const std::vector<TypeId, ArenaAllocator<TypeId>>& exposed_types, std::vector<ComponentStorageEntry, ArenaAllocator<ComponentStorageEntry>>& bindings_vector, std::unordered_map<TypeId, NormalizedMultibindingSet>& multibindings) { normalizeBindingsWithBindingCompression( std::move(toplevel_entries), fixed_size_allocator_data, memory_pool, memory_pool, memory_pool, exposed_types, bindings_vector, multibindings, [](TypeId, NormalizedComponentStorage::CompressedBindingUndoInfo) {}, [](LazyComponentWithNoArgsSet&) {}, [](LazyComponentWithArgsSet&) {}, [](LazyComponentWithNoArgsReplacementMap&) {}, [](LazyComponentWithArgsReplacementMap&) {}); } void BindingNormalization::normalizeBindingsAndAddTo( FixedSizeVector<ComponentStorageEntry>&& toplevel_entries, MemoryPool& memory_pool, const NormalizedComponentStorage& base_normalized_component, FixedSizeAllocator::FixedSizeAllocatorData& fixed_size_allocator_data, std::vector<ComponentStorageEntry, ArenaAllocator<ComponentStorageEntry>>& new_bindings_vector, std::unordered_map<TypeId, NormalizedMultibindingSet>& multibindings) { multibindings = base_normalized_component.multibindings; fixed_size_allocator_data = base_normalized_component.fixed_size_allocator_data; multibindings_vector_t multibindings_vector = multibindings_vector_t(ArenaAllocator<multibindings_vector_elem_t>(memory_pool)); HashMapWithArenaAllocator<TypeId, ComponentStorageEntry> binding_data_map = createHashMapWithArenaAllocator<TypeId, ComponentStorageEntry>(20 /* capacity */, memory_pool); using Graph = NormalizedComponentStorage::Graph; normalizeBindings( std::move(toplevel_entries), fixed_size_allocator_data, memory_pool, memory_pool, memory_pool, binding_data_map, [](ComponentStorageEntry) {}, [&multibindings_vector](ComponentStorageEntry multibinding, ComponentStorageEntry multibinding_vector_creator) { multibindings_vector.emplace_back(multibinding, multibinding_vector_creator); }, [&base_normalized_component](TypeId type_id) { return base_normalized_component.bindings.find(type_id); }, [&base_normalized_component](Graph::const_node_iterator itr) { return !(itr == base_normalized_component.bindings.end()); }, [](Graph::const_node_iterator itr) { return itr.isTerminal(); }, [](Graph::const_node_iterator itr) { return itr.getNode().object; }, [](Graph::const_node_iterator itr) { return itr.getNode().create; }, [&base_normalized_component](const LazyComponentWithNoArgs& lazy_component) { return base_normalized_component.fully_expanded_components_with_no_args.count(lazy_component) != 0; }, [&base_normalized_component](const LazyComponentWithArgs& lazy_component) { return base_normalized_component.fully_expanded_components_with_args.count(lazy_component) != 0; }, [](LazyComponentWithNoArgsSet&) {}, [](LazyComponentWithArgsSet&) {}, [&base_normalized_component](const LazyComponentWithNoArgs& lazy_component) { return base_normalized_component.component_with_no_args_replacements.find(lazy_component); }, [&base_normalized_component](const LazyComponentWithArgs& lazy_component) { return base_normalized_component.component_with_args_replacements.find(lazy_component); }, [&base_normalized_component](typename LazyComponentWithNoArgsReplacementMap::const_iterator itr) { return itr != base_normalized_component.component_with_no_args_replacements.end(); }, [&base_normalized_component](typename LazyComponentWithArgsReplacementMap::const_iterator itr) { return itr != base_normalized_component.component_with_args_replacements.end(); }, [](typename LazyComponentWithNoArgsReplacementMap::const_iterator itr) { return itr->second; }, [](typename LazyComponentWithArgsReplacementMap::const_iterator itr) { return itr->second; }, [](LazyComponentWithNoArgsReplacementMap&) {}, [](LazyComponentWithArgsReplacementMap&) {}); // Copy the normalized bindings into the result vector. new_bindings_vector.clear(); new_bindings_vector.reserve(binding_data_map.size()); for (auto& p : binding_data_map) { new_bindings_vector.push_back(p.second); } // Determine what binding compressions must be undone. HashSetWithArenaAllocator<TypeId> binding_compressions_to_undo = createHashSetWithArenaAllocator<TypeId>(20 /* capacity */, memory_pool); for (const ComponentStorageEntry& entry : new_bindings_vector) { switch (entry.kind) { // LCOV_EXCL_BR_LINE case ComponentStorageEntry::Kind::BINDING_FOR_CONSTRUCTED_OBJECT: break; case ComponentStorageEntry::Kind::BINDING_FOR_OBJECT_TO_CONSTRUCT_THAT_NEEDS_NO_ALLOCATION: case ComponentStorageEntry::Kind::BINDING_FOR_OBJECT_TO_CONSTRUCT_THAT_NEEDS_ALLOCATION: case ComponentStorageEntry::Kind::BINDING_FOR_OBJECT_TO_CONSTRUCT_WITH_UNKNOWN_ALLOCATION: { const BindingDeps* entry_deps = entry.binding_for_object_to_construct.deps; for (std::size_t i = 0; i < entry_deps->num_deps; ++i) { auto binding_compression_itr = base_normalized_component.binding_compression_info_map.find(entry_deps->deps[i]); if (binding_compression_itr != base_normalized_component.binding_compression_info_map.end() && binding_compression_itr->second.i_type_id != entry.type_id) { // The binding compression for `p.second.getDeps()->deps[i]' must be undone because something // different from binding_compression_itr->iTypeId is now bound to it. binding_compressions_to_undo.insert(entry_deps->deps[i]); } } } break; default: #if FRUIT_EXTRA_DEBUG std::cerr << "Unexpected kind: " << (std::size_t)entry.kind << std::endl; #endif FRUIT_UNREACHABLE; // LCOV_EXCL_LINE break; } } // Step 3: undo any binding compressions that can no longer be applied. for (TypeId cTypeId : binding_compressions_to_undo) { auto binding_compression_itr = base_normalized_component.binding_compression_info_map.find(cTypeId); FruitAssert(binding_compression_itr != base_normalized_component.binding_compression_info_map.end()); FruitAssert(!(base_normalized_component.bindings.find(binding_compression_itr->second.i_type_id) == base_normalized_component.bindings.end())); ComponentStorageEntry c_binding; c_binding.type_id = cTypeId; c_binding.kind = ComponentStorageEntry::Kind::BINDING_FOR_OBJECT_TO_CONSTRUCT_WITH_UNKNOWN_ALLOCATION; c_binding.binding_for_object_to_construct = binding_compression_itr->second.c_binding; ComponentStorageEntry i_binding; i_binding.type_id = binding_compression_itr->second.i_type_id; i_binding.kind = ComponentStorageEntry::Kind::BINDING_FOR_OBJECT_TO_CONSTRUCT_THAT_NEEDS_NO_ALLOCATION; i_binding.binding_for_object_to_construct = binding_compression_itr->second.i_binding; new_bindings_vector.push_back(std::move(c_binding)); // This TypeId is already in normalized_component.bindings, we overwrite it here. new_bindings_vector.push_back(std::move(i_binding)); #if FRUIT_EXTRA_DEBUG std::cout << "InjectorStorage: undoing binding compression for: " << binding_compression_itr->second.i_type_id << "->" << cTypeId << std::endl; #endif } // Step 4: Add multibindings. BindingNormalization::addMultibindings(multibindings, fixed_size_allocator_data, multibindings_vector); } void BindingNormalization::handlePreexistingLazyComponentWithArgsReplacement( ComponentStorageEntry& replaced_component_entry, const ComponentStorageEntry& preexisting_replacement, ComponentStorageEntry& new_replacement) { switch (new_replacement.kind) { // LCOV_EXCL_BR_LINE case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_NO_ARGS: if (preexisting_replacement.kind != ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_NO_ARGS || preexisting_replacement.lazy_component_with_no_args.erased_fun != new_replacement.lazy_component_with_no_args.erased_fun) { printIncompatibleComponentReplacementsError(replaced_component_entry, new_replacement, preexisting_replacement); FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } // Duplicate but consistent replacement, we'll ignore it. replaced_component_entry.lazy_component_with_args.destroy(); break; case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_ARGS: if (preexisting_replacement.kind != ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_ARGS || !(*preexisting_replacement.lazy_component_with_args.component == *new_replacement.lazy_component_with_args.component)) { printIncompatibleComponentReplacementsError(replaced_component_entry, new_replacement, preexisting_replacement); FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } // Duplicate but consistent replacement, we'll ignore it. replaced_component_entry.lazy_component_with_args.destroy(); new_replacement.lazy_component_with_args.destroy(); break; default: FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } } void BindingNormalization::handlePreexistingLazyComponentWithNoArgsReplacement( ComponentStorageEntry& replaced_component_entry, const ComponentStorageEntry& preexisting_replacement, ComponentStorageEntry& new_replacement) { switch (new_replacement.kind) { // LCOV_EXCL_BR_LINE case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_NO_ARGS: if (preexisting_replacement.kind != ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_NO_ARGS || preexisting_replacement.lazy_component_with_no_args.erased_fun != new_replacement.lazy_component_with_no_args.erased_fun) { printIncompatibleComponentReplacementsError(replaced_component_entry, new_replacement, preexisting_replacement); FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } // Duplicate but consistent replacement, we'll ignore it. break; case ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_ARGS: if (new_replacement.kind != ComponentStorageEntry::Kind::REPLACEMENT_LAZY_COMPONENT_WITH_ARGS || !(*preexisting_replacement.lazy_component_with_args.component == *new_replacement.lazy_component_with_args.component)) { printIncompatibleComponentReplacementsError(replaced_component_entry, new_replacement, preexisting_replacement); FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } // Duplicate but consistent replacement, we'll ignore it. new_replacement.lazy_component_with_args.destroy(); break; default: FRUIT_UNREACHABLE; // LCOV_EXCL_LINE } } } // namespace impl // We need a LCOV_EXCL_BR_LINE below because for some reason gcov/lcov think there's a branch there. } // namespace fruit LCOV_EXCL_BR_LINE