blob: 82918629f1f4aaca21b780467e866a677d183faa [file] [log] [blame]
/*
* Copyright (C) 2015 The Android Open Source Project
*
* 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.
*/
#include "format/binary/BinaryResourceParser.h"
#include <algorithm>
#include <map>
#include <optional>
#include <string>
#include "ResourceTable.h"
#include "ResourceUtils.h"
#include "ResourceValues.h"
#include "ValueVisitor.h"
#include "android-base/logging.h"
#include "android-base/macros.h"
#include "android-base/stringprintf.h"
#include "androidfw/ResourceTypes.h"
#include "androidfw/Source.h"
#include "androidfw/TypeWrappers.h"
#include "format/binary/ResChunkPullParser.h"
#include "util/Util.h"
using namespace android;
using ::android::base::StringPrintf;
namespace aapt {
namespace {
static std::u16string strcpy16_dtoh(const char16_t* src, size_t len) {
size_t utf16_len = strnlen16(src, len);
if (utf16_len == 0) {
return {};
}
std::u16string dst;
dst.resize(utf16_len);
for (size_t i = 0; i < utf16_len; i++) {
dst[i] = android::util::DeviceToHost16(src[i]);
}
return dst;
}
// Visitor that converts a reference's resource ID to a resource name, given a mapping from
// resource ID to resource name.
class ReferenceIdToNameVisitor : public DescendingValueVisitor {
public:
using DescendingValueVisitor::Visit;
explicit ReferenceIdToNameVisitor(const std::map<ResourceId, ResourceName>* mapping)
: mapping_(mapping) {
CHECK(mapping_ != nullptr);
}
void Visit(Reference* reference) override {
if (!reference->id || !reference->id.value().is_valid()) {
return;
}
ResourceId id = reference->id.value();
auto cache_iter = mapping_->find(id);
if (cache_iter != mapping_->end()) {
reference->name = cache_iter->second;
}
}
private:
DISALLOW_COPY_AND_ASSIGN(ReferenceIdToNameVisitor);
const std::map<ResourceId, ResourceName>* mapping_;
};
} // namespace
BinaryResourceParser::BinaryResourceParser(IDiagnostics* diag, ResourceTable* table,
const android::Source& source, const void* data,
size_t len, io::IFileCollection* files)
: diag_(diag), table_(table), source_(source), data_(data), data_len_(len), files_(files) {
}
bool BinaryResourceParser::Parse() {
ResChunkPullParser parser(data_, data_len_);
if (!ResChunkPullParser::IsGoodEvent(parser.Next())) {
diag_->Error(android::DiagMessage(source_) << "corrupt resources.arsc: " << parser.error());
return false;
}
if (parser.chunk()->type != android::RES_TABLE_TYPE) {
diag_->Error(android::DiagMessage(source_) << StringPrintf(
"unknown chunk of type 0x%02x", static_cast<int>(parser.chunk()->type)));
return false;
}
if (!ParseTable(parser.chunk())) {
return false;
}
if (parser.Next() != ResChunkPullParser::Event::kEndDocument) {
if (parser.event() == ResChunkPullParser::Event::kBadDocument) {
diag_->Warn(android::DiagMessage(source_)
<< "invalid chunk trailing RES_TABLE_TYPE: " << parser.error());
} else {
diag_->Warn(android::DiagMessage(source_)
<< StringPrintf("unexpected chunk of type 0x%02x trailing RES_TABLE_TYPE",
static_cast<int>(parser.chunk()->type)));
}
}
if (!staged_entries_to_remove_.empty()) {
diag_->Error(android::DiagMessage(source_) << "didn't find " << staged_entries_to_remove_.size()
<< " original staged resources");
return false;
}
return true;
}
// Parses the resource table, which contains all the packages, types, and entries.
bool BinaryResourceParser::ParseTable(const ResChunk_header* chunk) {
const ResTable_header* table_header = ConvertTo<ResTable_header>(chunk);
if (!table_header) {
diag_->Error(android::DiagMessage(source_) << "corrupt ResTable_header chunk");
return false;
}
ResChunkPullParser parser(GetChunkData(&table_header->header),
GetChunkDataLen(&table_header->header));
while (ResChunkPullParser::IsGoodEvent(parser.Next())) {
switch (android::util::DeviceToHost16(parser.chunk()->type)) {
case android::RES_STRING_POOL_TYPE:
if (value_pool_.getError() == NO_INIT) {
status_t err = value_pool_.setTo(parser.chunk(),
android::util::DeviceToHost32(parser.chunk()->size));
if (err != NO_ERROR) {
diag_->Error(android::DiagMessage(source_)
<< "corrupt string pool in ResTable: " << value_pool_.getError());
return false;
}
// Reserve some space for the strings we are going to add.
table_->string_pool.HintWillAdd(value_pool_.size(), value_pool_.styleCount());
} else {
diag_->Warn(android::DiagMessage(source_) << "unexpected string pool in ResTable");
}
break;
case android::RES_TABLE_PACKAGE_TYPE:
if (!ParsePackage(parser.chunk())) {
return false;
}
break;
default:
diag_->Warn(android::DiagMessage(source_)
<< "unexpected chunk type "
<< static_cast<int>(android::util::DeviceToHost16(parser.chunk()->type)));
break;
}
}
if (parser.event() == ResChunkPullParser::Event::kBadDocument) {
diag_->Error(android::DiagMessage(source_) << "corrupt resource table: " << parser.error());
return false;
}
return true;
}
bool BinaryResourceParser::ParsePackage(const ResChunk_header* chunk) {
constexpr size_t kMinPackageSize =
sizeof(ResTable_package) - sizeof(ResTable_package::typeIdOffset);
const ResTable_package* package_header = ConvertTo<ResTable_package, kMinPackageSize>(chunk);
if (!package_header) {
diag_->Error(android::DiagMessage(source_) << "corrupt ResTable_package chunk");
return false;
}
uint32_t package_id = android::util::DeviceToHost32(package_header->id);
if (package_id > std::numeric_limits<uint8_t>::max()) {
diag_->Error(android::DiagMessage(source_) << "package ID is too big (" << package_id << ")");
return false;
}
// Extract the package name.
std::u16string package_name = strcpy16_dtoh((const char16_t*)package_header->name,
arraysize(package_header->name));
ResourceTablePackage* package =
table_->FindOrCreatePackage(android::util::Utf16ToUtf8(package_name));
if (!package) {
diag_->Error(android::DiagMessage(source_)
<< "incompatible package '" << package_name << "' with ID " << package_id);
return false;
}
// There can be multiple packages in a table, so
// clear the type and key pool in case they were set from a previous package.
type_pool_.uninit();
key_pool_.uninit();
ResChunkPullParser parser(GetChunkData(&package_header->header),
GetChunkDataLen(&package_header->header));
while (ResChunkPullParser::IsGoodEvent(parser.Next())) {
switch (android::util::DeviceToHost16(parser.chunk()->type)) {
case android::RES_STRING_POOL_TYPE:
if (type_pool_.getError() == NO_INIT) {
status_t err =
type_pool_.setTo(parser.chunk(), android::util::DeviceToHost32(parser.chunk()->size));
if (err != NO_ERROR) {
diag_->Error(android::DiagMessage(source_)
<< "corrupt type string pool in "
<< "ResTable_package: " << type_pool_.getError());
return false;
}
} else if (key_pool_.getError() == NO_INIT) {
status_t err =
key_pool_.setTo(parser.chunk(), android::util::DeviceToHost32(parser.chunk()->size));
if (err != NO_ERROR) {
diag_->Error(android::DiagMessage(source_)
<< "corrupt key string pool in "
<< "ResTable_package: " << key_pool_.getError());
return false;
}
} else {
diag_->Warn(android::DiagMessage(source_) << "unexpected string pool");
}
break;
case android::RES_TABLE_TYPE_SPEC_TYPE:
if (!ParseTypeSpec(package, parser.chunk(), package_id)) {
return false;
}
break;
case android::RES_TABLE_TYPE_TYPE:
if (!ParseType(package, parser.chunk(), package_id)) {
return false;
}
break;
case android::RES_TABLE_LIBRARY_TYPE:
if (!ParseLibrary(parser.chunk())) {
return false;
}
break;
case android::RES_TABLE_OVERLAYABLE_TYPE:
if (!ParseOverlayable(parser.chunk())) {
return false;
}
break;
case android::RES_TABLE_STAGED_ALIAS_TYPE:
if (!ParseStagedAliases(parser.chunk())) {
return false;
}
break;
default:
diag_->Warn(android::DiagMessage(source_)
<< "unexpected chunk type "
<< static_cast<int>(android::util::DeviceToHost16(parser.chunk()->type)));
break;
}
}
if (parser.event() == ResChunkPullParser::Event::kBadDocument) {
diag_->Error(android::DiagMessage(source_) << "corrupt ResTable_package: " << parser.error());
return false;
}
// Now go through the table and change local resource ID references to
// symbolic references.
ReferenceIdToNameVisitor visitor(&id_index_);
VisitAllValuesInTable(table_, &visitor);
return true;
}
bool BinaryResourceParser::ParseTypeSpec(const ResourceTablePackage* package,
const ResChunk_header* chunk, uint8_t package_id) {
if (type_pool_.getError() != NO_ERROR) {
diag_->Error(android::DiagMessage(source_) << "missing type string pool");
return false;
}
const ResTable_typeSpec* type_spec = ConvertTo<ResTable_typeSpec>(chunk);
if (!type_spec) {
diag_->Error(android::DiagMessage(source_) << "corrupt ResTable_typeSpec chunk");
return false;
}
if (type_spec->id == 0) {
diag_->Error(android::DiagMessage(source_)
<< "ResTable_typeSpec has invalid id: " << type_spec->id);
return false;
}
// The data portion of this chunk contains entry_count 32bit entries,
// each one representing a set of flags.
const size_t entry_count = dtohl(type_spec->entryCount);
// There can only be 2^16 entries in a type, because that is the ID
// space for entries (EEEE) in the resource ID 0xPPTTEEEE.
if (entry_count > std::numeric_limits<uint16_t>::max()) {
diag_->Error(android::DiagMessage(source_)
<< "ResTable_typeSpec has too many entries (" << entry_count << ")");
return false;
}
const size_t data_size = android::util::DeviceToHost32(type_spec->header.size) -
android::util::DeviceToHost16(type_spec->header.headerSize);
if (entry_count * sizeof(uint32_t) > data_size) {
diag_->Error(android::DiagMessage(source_) << "ResTable_typeSpec too small to hold entries.");
return false;
}
// Record the type_spec_flags for later. We don't know resource names yet, and we need those
// to mark resources as overlayable.
const uint32_t* type_spec_flags = reinterpret_cast<const uint32_t*>(
reinterpret_cast<uintptr_t>(type_spec) +
android::util::DeviceToHost16(type_spec->header.headerSize));
for (size_t i = 0; i < entry_count; i++) {
ResourceId id(package_id, type_spec->id, static_cast<size_t>(i));
entry_type_spec_flags_[id] = android::util::DeviceToHost32(type_spec_flags[i]);
}
return true;
}
bool BinaryResourceParser::ParseType(const ResourceTablePackage* package,
const ResChunk_header* chunk, uint8_t package_id) {
if (type_pool_.getError() != NO_ERROR) {
diag_->Error(android::DiagMessage(source_) << "missing type string pool");
return false;
}
if (key_pool_.getError() != NO_ERROR) {
diag_->Error(android::DiagMessage(source_) << "missing key string pool");
return false;
}
// Specify a manual size, because ResTable_type contains ResTable_config, which changes
// a lot and has its own code to handle variable size.
const ResTable_type* type = ConvertTo<ResTable_type, kResTableTypeMinSize>(chunk);
if (!type) {
diag_->Error(android::DiagMessage(source_) << "corrupt ResTable_type chunk");
return false;
}
if (type->id == 0) {
diag_->Error(android::DiagMessage(source_)
<< "ResTable_type has invalid id: " << (int)type->id);
return false;
}
ConfigDescription config;
config.copyFromDtoH(type->config);
const std::string type_str = android::util::GetString(type_pool_, type->id - 1);
std::optional<ResourceNamedTypeRef> parsed_type = ParseResourceNamedType(type_str);
if (!parsed_type) {
diag_->Warn(android::DiagMessage(source_)
<< "invalid type name '" << type_str << "' for type with ID " << type->id);
return true;
}
TypeVariant tv(type);
for (auto it = tv.beginEntries(); it != tv.endEntries(); ++it) {
const ResTable_entry* entry = *it;
if (!entry) {
continue;
}
const ResourceName name(package->name, *parsed_type,
android::util::GetString(key_pool_, entry->key()));
const ResourceId res_id(package_id, type->id, static_cast<uint16_t>(it.index()));
std::unique_ptr<Value> resource_value;
if (auto mapEntry = entry->map_entry()) {
// TODO(adamlesinski): Check that the entry count is valid.
resource_value = ParseMapEntry(name, config, mapEntry);
} else {
resource_value = ParseValue(name, config, entry->value());
}
if (!resource_value) {
diag_->Error(android::DiagMessage(source_)
<< "failed to parse value for resource " << name << " (" << res_id
<< ") with configuration '" << config << "'");
return false;
}
if (const auto to_remove_it = staged_entries_to_remove_.find({name, res_id});
to_remove_it != staged_entries_to_remove_.end()) {
staged_entries_to_remove_.erase(to_remove_it);
continue;
}
NewResourceBuilder res_builder(name);
res_builder.SetValue(std::move(resource_value), config)
.SetId(res_id, OnIdConflict::CREATE_ENTRY)
.SetAllowMangled(true);
if (entry->flags() & ResTable_entry::FLAG_PUBLIC) {
Visibility visibility{Visibility::Level::kPublic};
auto spec_flags = entry_type_spec_flags_.find(res_id);
if (spec_flags != entry_type_spec_flags_.end() &&
spec_flags->second & ResTable_typeSpec::SPEC_STAGED_API) {
visibility.staged_api = true;
}
res_builder.SetVisibility(visibility);
// Erase the ID from the map once processed, so that we don't mark the same symbol more than
// once.
entry_type_spec_flags_.erase(res_id);
}
// Add this resource name->id mapping to the index so
// that we can resolve all ID references to name references.
auto cache_iter = id_index_.find(res_id);
if (cache_iter == id_index_.end()) {
id_index_.insert({res_id, name});
}
if (!table_->AddResource(res_builder.Build(), diag_)) {
return false;
}
}
return true;
}
bool BinaryResourceParser::ParseLibrary(const ResChunk_header* chunk) {
DynamicRefTable dynamic_ref_table;
if (dynamic_ref_table.load(reinterpret_cast<const ResTable_lib_header*>(chunk)) != NO_ERROR) {
return false;
}
const KeyedVector<String16, uint8_t>& entries = dynamic_ref_table.entries();
const size_t count = entries.size();
for (size_t i = 0; i < count; i++) {
table_->included_packages_[entries.valueAt(i)] =
android::util::Utf16ToUtf8(StringPiece16(entries.keyAt(i).string()));
}
return true;
}
bool BinaryResourceParser::ParseOverlayable(const ResChunk_header* chunk) {
const ResTable_overlayable_header* header = ConvertTo<ResTable_overlayable_header>(chunk);
if (!header) {
diag_->Error(android::DiagMessage(source_) << "corrupt ResTable_category_header chunk");
return false;
}
auto overlayable = std::make_shared<Overlayable>();
overlayable->name = android::util::Utf16ToUtf8(
strcpy16_dtoh((const char16_t*)header->name, arraysize(header->name)));
overlayable->actor = android::util::Utf16ToUtf8(
strcpy16_dtoh((const char16_t*)header->actor, arraysize(header->name)));
ResChunkPullParser parser(GetChunkData(chunk),
GetChunkDataLen(chunk));
while (ResChunkPullParser::IsGoodEvent(parser.Next())) {
if (android::util::DeviceToHost16(parser.chunk()->type) ==
android::RES_TABLE_OVERLAYABLE_POLICY_TYPE) {
const ResTable_overlayable_policy_header* policy_header =
ConvertTo<ResTable_overlayable_policy_header>(parser.chunk());
const ResTable_ref* const ref_begin = reinterpret_cast<const ResTable_ref*>(
((uint8_t*)policy_header) +
android::util::DeviceToHost32(policy_header->header.headerSize));
const ResTable_ref* const ref_end =
ref_begin + android::util::DeviceToHost32(policy_header->entry_count);
for (auto ref_iter = ref_begin; ref_iter != ref_end; ++ref_iter) {
ResourceId res_id(android::util::DeviceToHost32(ref_iter->ident));
const auto iter = id_index_.find(res_id);
// If the overlayable chunk comes before the type chunks, the resource ids and resource name
// pairing will not exist at this point.
if (iter == id_index_.cend()) {
diag_->Error(android::DiagMessage(source_)
<< "failed to find resource name for overlayable"
<< " resource " << res_id);
return false;
}
OverlayableItem overlayable_item(overlayable);
overlayable_item.policies = policy_header->policy_flags;
if (!table_->AddResource(NewResourceBuilder(iter->second)
.SetId(res_id, OnIdConflict::CREATE_ENTRY)
.SetOverlayable(std::move(overlayable_item))
.SetAllowMangled(true)
.Build(),
diag_)) {
return false;
}
}
}
}
return true;
}
bool BinaryResourceParser::ParseStagedAliases(const ResChunk_header* chunk) {
auto header = ConvertTo<ResTable_staged_alias_header>(chunk);
if (!header) {
diag_->Error(android::DiagMessage(source_) << "corrupt ResTable_staged_alias_header chunk");
return false;
}
const auto ref_begin = reinterpret_cast<const ResTable_staged_alias_entry*>(
((uint8_t*)header) + android::util::DeviceToHost32(header->header.headerSize));
const auto ref_end = ref_begin + android::util::DeviceToHost32(header->count);
for (auto ref_iter = ref_begin; ref_iter != ref_end; ++ref_iter) {
const auto staged_id = ResourceId(android::util::DeviceToHost32(ref_iter->stagedResId));
const auto finalized_id = ResourceId(android::util::DeviceToHost32(ref_iter->finalizedResId));
// If the staged alias chunk comes before the type chunks, the resource ids and resource name
// pairing will not exist at this point.
const auto iter = id_index_.find(finalized_id);
if (iter == id_index_.cend()) {
diag_->Error(android::DiagMessage(source_) << "failed to find resource name for finalized"
<< " resource ID " << finalized_id);
return false;
}
// Set the staged id of the finalized resource.
const auto& resource_name = iter->second;
const StagedId staged_id_def{.id = staged_id};
if (!table_->AddResource(NewResourceBuilder(resource_name)
.SetId(finalized_id, OnIdConflict::CREATE_ENTRY)
.SetStagedId(staged_id_def)
.SetAllowMangled(true)
.Build(),
diag_)) {
return false;
}
// Since a the finalized resource entry is cloned and added to the resource table under the
// staged resource id, remove the cloned resource entry from the table.
if (!table_->RemoveResource(resource_name, staged_id)) {
// If we haven't seen this resource yet let's add a record to skip it when parsing.
staged_entries_to_remove_.insert({resource_name, staged_id});
}
}
return true;
}
std::unique_ptr<Item> BinaryResourceParser::ParseValue(const ResourceNameRef& name,
const ConfigDescription& config,
const android::Res_value& value) {
std::unique_ptr<Item> item = ResourceUtils::ParseBinaryResValue(
name.type.type, config, value_pool_, value, &table_->string_pool);
if (files_ != nullptr) {
FileReference* file_ref = ValueCast<FileReference>(item.get());
if (file_ref != nullptr) {
file_ref->file = files_->FindFile(*file_ref->path);
if (file_ref->file == nullptr) {
diag_->Warn(android::DiagMessage() << "resource " << name << " for config '" << config
<< "' is a file reference to '" << *file_ref->path
<< "' but no such path exists");
}
}
}
return item;
}
std::unique_ptr<Value> BinaryResourceParser::ParseMapEntry(const ResourceNameRef& name,
const ConfigDescription& config,
const ResTable_map_entry* map) {
switch (name.type.type) {
case ResourceType::kStyle:
// fallthrough
case ResourceType::kConfigVarying: // legacy thing used in tests
return ParseStyle(name, config, map);
case ResourceType::kAttrPrivate:
// fallthrough
case ResourceType::kAttr:
return ParseAttr(name, config, map);
case ResourceType::kArray:
return ParseArray(name, config, map);
case ResourceType::kPlurals:
return ParsePlural(name, config, map);
case ResourceType::kId:
// Special case: An ID is not a bag, but some apps have defined the auto-generated
// IDs that come from declaring an enum value in an attribute as an empty map...
// We can ignore the value here.
return util::make_unique<Id>();
default:
diag_->Error(android::DiagMessage()
<< "illegal map type '" << name.type << "' (" << (int)name.type.type << ")");
break;
}
return {};
}
std::unique_ptr<Style> BinaryResourceParser::ParseStyle(const ResourceNameRef& name,
const ConfigDescription& config,
const ResTable_map_entry* map) {
std::unique_ptr<Style> style = util::make_unique<Style>();
if (android::util::DeviceToHost32(map->parent.ident) != 0) {
// The parent is a regular reference to a resource.
style->parent = Reference(android::util::DeviceToHost32(map->parent.ident));
}
for (const ResTable_map& map_entry : map) {
if (Res_INTERNALID(android::util::DeviceToHost32(map_entry.name.ident))) {
continue;
}
Style::Entry style_entry;
style_entry.key = Reference(android::util::DeviceToHost32(map_entry.name.ident));
style_entry.value = ParseValue(name, config, map_entry.value);
if (!style_entry.value) {
return {};
}
style->entries.push_back(std::move(style_entry));
}
return style;
}
std::unique_ptr<Attribute> BinaryResourceParser::ParseAttr(const ResourceNameRef& name,
const ConfigDescription& config,
const ResTable_map_entry* map) {
std::unique_ptr<Attribute> attr = util::make_unique<Attribute>();
attr->SetWeak((android::util::DeviceToHost16(map->flags) & ResTable_entry::FLAG_WEAK) != 0);
// First we must discover what type of attribute this is. Find the type mask.
auto type_mask_iter = std::find_if(begin(map), end(map), [](const ResTable_map& entry) -> bool {
return android::util::DeviceToHost32(entry.name.ident) == ResTable_map::ATTR_TYPE;
});
if (type_mask_iter != end(map)) {
attr->type_mask = android::util::DeviceToHost32(type_mask_iter->value.data);
}
for (const ResTable_map& map_entry : map) {
if (Res_INTERNALID(android::util::DeviceToHost32(map_entry.name.ident))) {
switch (android::util::DeviceToHost32(map_entry.name.ident)) {
case ResTable_map::ATTR_MIN:
attr->min_int = static_cast<int32_t>(map_entry.value.data);
break;
case ResTable_map::ATTR_MAX:
attr->max_int = static_cast<int32_t>(map_entry.value.data);
break;
}
continue;
}
if (attr->type_mask & (ResTable_map::TYPE_ENUM | ResTable_map::TYPE_FLAGS)) {
Attribute::Symbol symbol;
symbol.value = android::util::DeviceToHost32(map_entry.value.data);
symbol.type = map_entry.value.dataType;
symbol.symbol = Reference(android::util::DeviceToHost32(map_entry.name.ident));
attr->symbols.push_back(std::move(symbol));
}
}
// TODO(adamlesinski): Find i80n, attributes.
return attr;
}
std::unique_ptr<Array> BinaryResourceParser::ParseArray(const ResourceNameRef& name,
const ConfigDescription& config,
const ResTable_map_entry* map) {
std::unique_ptr<Array> array = util::make_unique<Array>();
for (const ResTable_map& map_entry : map) {
array->elements.push_back(ParseValue(name, config, map_entry.value));
}
return array;
}
std::unique_ptr<Plural> BinaryResourceParser::ParsePlural(const ResourceNameRef& name,
const ConfigDescription& config,
const ResTable_map_entry* map) {
std::unique_ptr<Plural> plural = util::make_unique<Plural>();
for (const ResTable_map& map_entry : map) {
std::unique_ptr<Item> item = ParseValue(name, config, map_entry.value);
if (!item) {
return {};
}
switch (android::util::DeviceToHost32(map_entry.name.ident)) {
case ResTable_map::ATTR_ZERO:
plural->values[Plural::Zero] = std::move(item);
break;
case ResTable_map::ATTR_ONE:
plural->values[Plural::One] = std::move(item);
break;
case ResTable_map::ATTR_TWO:
plural->values[Plural::Two] = std::move(item);
break;
case ResTable_map::ATTR_FEW:
plural->values[Plural::Few] = std::move(item);
break;
case ResTable_map::ATTR_MANY:
plural->values[Plural::Many] = std::move(item);
break;
case ResTable_map::ATTR_OTHER:
plural->values[Plural::Other] = std::move(item);
break;
}
}
return plural;
}
} // namespace aapt