tools/aapt2/TableFlattener.cpp - platform/frameworks/base - Git at Google

 /*
  * 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 "BigBuffer.h"
 #include "ConfigDescription.h"
 #include "Logger.h"
 #include "ResourceTable.h"
 #include "ResourceTypeExtensions.h"
 #include "ResourceValues.h"
 #include "StringPool.h"
 #include "TableFlattener.h"
 #include "Util.h"

 #include <algorithm>
 #include <androidfw/ResourceTypes.h>
 #include <sstream>

 namespace aapt {

 struct FlatEntry {
     const ResourceEntry* entry;
     const Value* value;
     uint32_t entryKey;
     uint32_t sourcePathKey;
     uint32_t sourceLine;
 };

 /**
  * Visitor that knows how to encode Map values.
  */
 class MapFlattener : public ConstValueVisitor {
 public:
     MapFlattener(BigBuffer* out, const FlatEntry& flatEntry, SymbolEntryVector* symbols) :
             mOut(out), mSymbols(symbols) {
         mMap = mOut->nextBlock<android::ResTable_map_entry>();
         mMap->key.index = flatEntry.entryKey;
         mMap->flags = android::ResTable_entry::FLAG_COMPLEX;
         if (flatEntry.entry->publicStatus.isPublic) {
             mMap->flags |= android::ResTable_entry::FLAG_PUBLIC;
         }
         if (flatEntry.value->isWeak()) {
             mMap->flags |= android::ResTable_entry::FLAG_WEAK;
         }

         ResTable_entry_source* sourceBlock = mOut->nextBlock<ResTable_entry_source>();
         sourceBlock->pathIndex = flatEntry.sourcePathKey;
         sourceBlock->line = flatEntry.sourceLine;

         mMap->size = sizeof(*mMap) + sizeof(*sourceBlock);
     }

     void flattenParent(const Reference& ref) {
         if (!ref.id.isValid()) {
             mSymbols->push_back({
                     ResourceNameRef(ref.name),
                     (mOut->size() - mMap->size) + sizeof(*mMap) - sizeof(android::ResTable_entry)
             });
         }
         mMap->parent.ident = ref.id.id;
     }

     void flattenEntry(const Reference& key, const Item& value) {
         mMap->count++;

         android::ResTable_map* outMapEntry = mOut->nextBlock<android::ResTable_map>();

         // Write the key.
         if (!Res_INTERNALID(key.id.id) && !key.id.isValid()) {
             assert(!key.name.entry.empty());
             mSymbols->push_back(std::make_pair(ResourceNameRef(key.name),
                     mOut->size() - sizeof(*outMapEntry)));
         }
         outMapEntry->name.ident = key.id.id;

         // Write the value.
         value.flatten(outMapEntry->value);

         if (outMapEntry->value.data == 0x0) {
             visitFunc<Reference>(value, [&](const Reference& reference) {
                 mSymbols->push_back(std::make_pair(ResourceNameRef(reference.name),
                         mOut->size() - sizeof(outMapEntry->value.data)));
             });
         }
         outMapEntry->value.size = sizeof(outMapEntry->value);
     }

     void flattenValueOnly(const Item& value) {
         mMap->count++;

         android::ResTable_map* outMapEntry = mOut->nextBlock<android::ResTable_map>();

         // Write the value.
         value.flatten(outMapEntry->value);

         if (outMapEntry->value.data == 0x0) {
             visitFunc<Reference>(value, [&](const Reference& reference) {
                 mSymbols->push_back(std::make_pair(ResourceNameRef(reference.name),
                         mOut->size() - sizeof(outMapEntry->value.data)));
             });
         }
         outMapEntry->value.size = sizeof(outMapEntry->value);
     }

     static bool compareStyleEntries(const Style::Entry* lhs, const Style::Entry* rhs) {
         return lhs->key.id < rhs->key.id;
     }

     void visit(const Style& style, ValueVisitorArgs&) override {
         if (style.parent.name.isValid()) {
             flattenParent(style.parent);
         }

         // First sort the entries by ID.
         std::vector<const Style::Entry*> sortedEntries;
         for (const auto& styleEntry : style.entries) {
             auto iter = std::lower_bound(sortedEntries.begin(), sortedEntries.end(),
                     &styleEntry, compareStyleEntries);
             sortedEntries.insert(iter, &styleEntry);
         }

         for (const Style::Entry* styleEntry : sortedEntries) {
             flattenEntry(styleEntry->key, *styleEntry->value);
         }
     }

     void visit(const Attribute& attr, ValueVisitorArgs&) override {
         android::Res_value tempVal;
         tempVal.dataType = android::Res_value::TYPE_INT_DEC;
         tempVal.data = attr.typeMask;
         flattenEntry(Reference(ResourceId{android::ResTable_map::ATTR_TYPE}),
                 BinaryPrimitive(tempVal));

         for (const auto& symbol : attr.symbols) {
             tempVal.data = symbol.value;
             flattenEntry(symbol.symbol, BinaryPrimitive(tempVal));
         }
     }

     void visit(const Styleable& styleable, ValueVisitorArgs&) override {
         for (const auto& attr : styleable.entries) {
             flattenEntry(attr, BinaryPrimitive(android::Res_value{}));
         }
     }

     void visit(const Array& array, ValueVisitorArgs&) override {
         for (const auto& item : array.items) {
             flattenValueOnly(*item);
         }
     }

     void visit(const Plural& plural, ValueVisitorArgs&) override {
         const size_t count = plural.values.size();
         for (size_t i = 0; i < count; i++) {
             if (!plural.values[i]) {
                 continue;
             }

             ResourceId q;
             switch (i) {
                 case Plural::Zero:
                     q.id = android::ResTable_map::ATTR_ZERO;
                     break;

                 case Plural::One:
                     q.id = android::ResTable_map::ATTR_ONE;
                     break;

                 case Plural::Two:
                     q.id = android::ResTable_map::ATTR_TWO;
                     break;

                 case Plural::Few:
                     q.id = android::ResTable_map::ATTR_FEW;
                     break;

                 case Plural::Many:
                     q.id = android::ResTable_map::ATTR_MANY;
                     break;

                 case Plural::Other:
                     q.id = android::ResTable_map::ATTR_OTHER;
                     break;

                 default:
                     assert(false);
                     break;
             }

             flattenEntry(Reference(q), *plural.values[i]);
         }
     }

 private:
     BigBuffer* mOut;
     SymbolEntryVector* mSymbols;
     android::ResTable_map_entry* mMap;
 };

 /**
  * Flattens a value, with special handling for References.
  */
 struct ValueFlattener : ConstValueVisitor {
     ValueFlattener(BigBuffer* out, SymbolEntryVector* symbols) :
             result(false), mOut(out), mOutValue(nullptr), mSymbols(symbols) {
         mOutValue = mOut->nextBlock<android::Res_value>();
     }

     virtual void visit(const Reference& ref, ValueVisitorArgs& a) override {
         visitItem(ref, a);
         if (mOutValue->data == 0x0) {
             mSymbols->push_back({
                     ResourceNameRef(ref.name),
                     mOut->size() - sizeof(mOutValue->data)});
         }
     }

     virtual void visitItem(const Item& item, ValueVisitorArgs&) override {
         result = item.flatten(*mOutValue);
         mOutValue->res0 = 0;
         mOutValue->size = sizeof(*mOutValue);
     }

     bool result;

 private:
     BigBuffer* mOut;
     android::Res_value* mOutValue;
     SymbolEntryVector* mSymbols;
 };

 TableFlattener::TableFlattener(Options options)
 : mOptions(options) {
 }

 bool TableFlattener::flattenValue(BigBuffer* out, const FlatEntry& flatEntry,
                                   SymbolEntryVector* symbols) {
     if (flatEntry.value->isItem()) {
         android::ResTable_entry* entry = out->nextBlock<android::ResTable_entry>();

         if (flatEntry.entry->publicStatus.isPublic) {
             entry->flags |= android::ResTable_entry::FLAG_PUBLIC;
         }

         if (flatEntry.value->isWeak()) {
             entry->flags |= android::ResTable_entry::FLAG_WEAK;
         }

         entry->key.index = flatEntry.entryKey;
         entry->size = sizeof(*entry);

         if (mOptions.useExtendedChunks) {
             // Write the extra source block. This will be ignored by
             // the Android runtime.
             ResTable_entry_source* sourceBlock = out->nextBlock<ResTable_entry_source>();
             sourceBlock->pathIndex = flatEntry.sourcePathKey;
             sourceBlock->line = flatEntry.sourceLine;
             entry->size += sizeof(*sourceBlock);
         }

         const Item* item = static_cast<const Item*>(flatEntry.value);
         ValueFlattener flattener(out, symbols);
         item->accept(flattener, {});
         return flattener.result;
     }

     MapFlattener flattener(out, flatEntry, symbols);
     flatEntry.value->accept(flattener, {});
     return true;
 }

 bool TableFlattener::flatten(BigBuffer* out, const ResourceTable& table) {
     const size_t beginning = out->size();

     if (table.getPackageId() == ResourceTable::kUnsetPackageId) {
         Logger::error()
                 << "ResourceTable has no package ID set."
                 << std::endl;
         return false;
     }

     SymbolEntryVector symbolEntries;

     StringPool typePool;
     StringPool keyPool;
     StringPool sourcePool;

     // Sort the types by their IDs. They will be inserted into the StringPool
     // in this order.
     std::vector<ResourceTableType*> sortedTypes;
     for (const auto& type : table) {
         if (type->type == ResourceType::kStyleable && !mOptions.useExtendedChunks) {
             continue;
         }

         auto iter = std::lower_bound(std::begin(sortedTypes), std::end(sortedTypes), type.get(),
                 [](const ResourceTableType* lhs, const ResourceTableType* rhs) -> bool {
                     return lhs->typeId < rhs->typeId;
                 });
         sortedTypes.insert(iter, type.get());
     }

     BigBuffer typeBlock(1024);
     size_t expectedTypeId = 1;
     for (const ResourceTableType* type : sortedTypes) {
         if (type->typeId == ResourceTableType::kUnsetTypeId
                 || type->typeId == 0) {
             Logger::error()
                     << "resource type '"
                     << type->type
                     << "' from package '"
                     << table.getPackage()
                     << "' has no ID."
                     << std::endl;
             return false;
         }

         // If there is a gap in the type IDs, fill in the StringPool
         // with empty values until we reach the ID we expect.
         while (type->typeId > expectedTypeId) {
             std::u16string typeName(u"?");
             typeName += expectedTypeId;
             typePool.makeRef(typeName);
             expectedTypeId++;
         }
         expectedTypeId++;
         typePool.makeRef(toString(type->type));

         android::ResTable_typeSpec* spec = typeBlock.nextBlock<android::ResTable_typeSpec>();
         spec->header.type = android::RES_TABLE_TYPE_SPEC_TYPE;
         spec->header.headerSize = sizeof(*spec);
         spec->header.size = spec->header.headerSize + (type->entries.size() * sizeof(uint32_t));
         spec->id = type->typeId;
         spec->entryCount = type->entries.size();

         if (type->entries.empty()) {
             continue;
         }

         // Reserve space for the masks of each resource in this type. These
         // show for which configuration axis the resource changes.
         uint32_t* configMasks = typeBlock.nextBlock<uint32_t>(type->entries.size());

         // Sort the entries by entry ID and write their configuration masks.
         std::vector<ResourceEntry*> entries;
         const size_t entryCount = type->entries.size();
         for (size_t entryIndex = 0; entryIndex < entryCount; entryIndex++) {
             const auto& entry = type->entries[entryIndex];

             if (entry->entryId == ResourceEntry::kUnsetEntryId) {
                 Logger::error()
                         << "resource '"
                         << ResourceName{ table.getPackage(), type->type, entry->name }
                         << "' has no ID."
                         << std::endl;
                 return false;
             }

             auto iter = std::lower_bound(std::begin(entries), std::end(entries), entry.get(),
                     [](const ResourceEntry* lhs, const ResourceEntry* rhs) -> bool {
                         return lhs->entryId < rhs->entryId;
                     });
             entries.insert(iter, entry.get());

             // Populate the config masks for this entry.
             if (entry->publicStatus.isPublic) {
                 configMasks[entry->entryId] |= android::ResTable_typeSpec::SPEC_PUBLIC;
             }

             const size_t configCount = entry->values.size();
             for (size_t i = 0; i < configCount; i++) {
                 const ConfigDescription& config = entry->values[i].config;
                 for (size_t j = i + 1; j < configCount; j++) {
                     configMasks[entry->entryId] |= config.diff(entry->values[j].config);
                 }
             }
         }

         const size_t beforePublicHeader = typeBlock.size();
         Public_header* publicHeader = nullptr;
         if (mOptions.useExtendedChunks) {
             publicHeader = typeBlock.nextBlock<Public_header>();
             publicHeader->header.type = RES_TABLE_PUBLIC_TYPE;
             publicHeader->header.headerSize = sizeof(*publicHeader);
             publicHeader->typeId = type->typeId;
         }

         // The binary resource table lists resource entries for each configuration.
         // We store them inverted, where a resource entry lists the values for each
         // configuration available. Here we reverse this to match the binary table.
         std::map<ConfigDescription, std::vector<FlatEntry>> data;
         for (const ResourceEntry* entry : entries) {
             size_t keyIndex = keyPool.makeRef(entry->name).getIndex();

             if (keyIndex > std::numeric_limits<uint32_t>::max()) {
                 Logger::error()
                         << "resource key string pool exceeded max size."
                         << std::endl;
                 return false;
             }

             if (publicHeader && entry->publicStatus.isPublic) {
                 // Write the public status of this entry.
                 Public_entry* publicEntry = typeBlock.nextBlock<Public_entry>();
                 publicEntry->entryId = static_cast<uint32_t>(entry->entryId);
                 publicEntry->key.index = static_cast<uint32_t>(keyIndex);
                 publicEntry->source.index = static_cast<uint32_t>(sourcePool.makeRef(
                             util::utf8ToUtf16(entry->publicStatus.source.path)).getIndex());
                 publicEntry->sourceLine = static_cast<uint32_t>(entry->publicStatus.source.line);
                 publicHeader->count += 1;
             }

             for (const auto& configValue : entry->values) {
                 data[configValue.config].push_back(FlatEntry{
                         entry,
                         configValue.value.get(),
                         static_cast<uint32_t>(keyIndex),
                         static_cast<uint32_t>(sourcePool.makeRef(util::utf8ToUtf16(
                                     configValue.source.path)).getIndex()),
                         static_cast<uint32_t>(configValue.source.line)
                 });
             }
         }

         if (publicHeader) {
             typeBlock.align4();
             publicHeader->header.size =
                     static_cast<uint32_t>(typeBlock.size() - beforePublicHeader);
         }

         // Begin flattening a configuration for the current type.
         for (const auto& entry : data) {
             const size_t typeHeaderStart = typeBlock.size();
             android::ResTable_type* typeHeader = typeBlock.nextBlock<android::ResTable_type>();
             typeHeader->header.type = android::RES_TABLE_TYPE_TYPE;
             typeHeader->header.headerSize = sizeof(*typeHeader);
             typeHeader->id = type->typeId;
             typeHeader->entryCount = type->entries.size();
             typeHeader->entriesStart = typeHeader->header.headerSize
                     + (sizeof(uint32_t) * type->entries.size());
             typeHeader->config = entry.first;

             uint32_t* indices = typeBlock.nextBlock<uint32_t>(type->entries.size());
             memset(indices, 0xff, type->entries.size() * sizeof(uint32_t));

             const size_t entryStart = typeBlock.size();
             for (const FlatEntry& flatEntry : entry.second) {
                 assert(flatEntry.entry->entryId < type->entries.size());
                 indices[flatEntry.entry->entryId] = typeBlock.size() - entryStart;
                 if (!flattenValue(&typeBlock, flatEntry, &symbolEntries)) {
                     Logger::error()
                             << "failed to flatten resource '"
                             << ResourceNameRef {
                                     table.getPackage(), type->type, flatEntry.entry->name }
                             << "' for configuration '"
                             << entry.first
                             << "'."
                             << std::endl;
                     return false;
                 }
             }

             typeBlock.align4();
             typeHeader->header.size = typeBlock.size() - typeHeaderStart;
         }
     }

     const size_t beforeTable = out->size();
     android::ResTable_header* header = out->nextBlock<android::ResTable_header>();
     header->header.type = android::RES_TABLE_TYPE;
     header->header.headerSize = sizeof(*header);
     header->packageCount = 1;

     SymbolTable_entry* symbolEntryData = nullptr;
     if (!symbolEntries.empty() && mOptions.useExtendedChunks) {
         const size_t beforeSymbolTable = out->size();
         StringPool symbolPool;
         SymbolTable_header* symbolHeader = out->nextBlock<SymbolTable_header>();
         symbolHeader->header.type = RES_TABLE_SYMBOL_TABLE_TYPE;
         symbolHeader->header.headerSize = sizeof(*symbolHeader);
         symbolHeader->count = symbolEntries.size();

         symbolEntryData = out->nextBlock<SymbolTable_entry>(symbolHeader->count);

         size_t i = 0;
         for (const auto& entry : symbolEntries) {
             symbolEntryData[i].offset = entry.second;
             StringPool::Ref ref = symbolPool.makeRef(
                     entry.first.package.toString() + u":" +
                     toString(entry.first.type).toString() + u"/" +
                     entry.first.entry.toString());
             symbolEntryData[i].stringIndex = ref.getIndex();
             i++;
         }

         StringPool::flattenUtf8(out, symbolPool);
         out->align4();
         symbolHeader->header.size = out->size() - beforeSymbolTable;
     }

     if (sourcePool.size() > 0 && mOptions.useExtendedChunks) {
         const size_t beforeSourcePool = out->size();
         android::ResChunk_header* sourceHeader = out->nextBlock<android::ResChunk_header>();
         sourceHeader->type = RES_TABLE_SOURCE_POOL_TYPE;
         sourceHeader->headerSize = sizeof(*sourceHeader);
         StringPool::flattenUtf8(out, sourcePool);
         out->align4();
         sourceHeader->size = out->size() - beforeSourcePool;
     }

     StringPool::flattenUtf8(out, table.getValueStringPool());

     const size_t beforePackageIndex = out->size();
     android::ResTable_package* package = out->nextBlock<android::ResTable_package>();
     package->header.type = android::RES_TABLE_PACKAGE_TYPE;
     package->header.headerSize = sizeof(*package);

     if (table.getPackageId() > std::numeric_limits<uint8_t>::max()) {
         Logger::error()
                 << "package ID 0x'"
                 << std::hex << table.getPackageId() << std::dec
                 << "' is invalid."
                 << std::endl;
         return false;
     }
     package->id = table.getPackageId();

     if (table.getPackage().size() >= sizeof(package->name) / sizeof(package->name[0])) {
         Logger::error()
                 << "package name '"
                 << table.getPackage()
                 << "' is too long."
                 << std::endl;
         return false;
     }
     memcpy(package->name, reinterpret_cast<const uint16_t*>(table.getPackage().data()),
             table.getPackage().length() * sizeof(char16_t));
     package->name[table.getPackage().length()] = 0;

     package->typeStrings = package->header.headerSize;
     StringPool::flattenUtf16(out, typePool);
     package->keyStrings = out->size() - beforePackageIndex;
     StringPool::flattenUtf16(out, keyPool);

     if (symbolEntryData != nullptr) {
         for (size_t i = 0; i < symbolEntries.size(); i++) {
             symbolEntryData[i].offset += out->size() - beginning;
         }
     }

     out->appendBuffer(std::move(typeBlock));

     package->header.size = out->size() - beforePackageIndex;
     header->header.size = out->size() - beforeTable;
     return true;
 }

 } // namespace aapt
	/*
	* 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 "BigBuffer.h"
	#include "ConfigDescription.h"
	#include "Logger.h"
	#include "ResourceTable.h"
	#include "ResourceTypeExtensions.h"
	#include "ResourceValues.h"
	#include "StringPool.h"
	#include "TableFlattener.h"
	#include "Util.h"

	#include <algorithm>
	#include <androidfw/ResourceTypes.h>
	#include <sstream>

	namespace aapt {

	struct FlatEntry {
	const ResourceEntry* entry;
	const Value* value;
	uint32_t entryKey;
	uint32_t sourcePathKey;
	uint32_t sourceLine;
	};

	/**
	* Visitor that knows how to encode Map values.
	*/
	class MapFlattener : public ConstValueVisitor {
	public:
	MapFlattener(BigBuffer* out, const FlatEntry& flatEntry, SymbolEntryVector* symbols) :
	mOut(out), mSymbols(symbols) {
	mMap = mOut->nextBlock<android::ResTable_map_entry>();
	mMap->key.index = flatEntry.entryKey;
	mMap->flags = android::ResTable_entry::FLAG_COMPLEX;
	if (flatEntry.entry->publicStatus.isPublic) {
	mMap->flags \|= android::ResTable_entry::FLAG_PUBLIC;
	}
	if (flatEntry.value->isWeak()) {
	mMap->flags \|= android::ResTable_entry::FLAG_WEAK;
	}

	ResTable_entry_source* sourceBlock = mOut->nextBlock<ResTable_entry_source>();
	sourceBlock->pathIndex = flatEntry.sourcePathKey;
	sourceBlock->line = flatEntry.sourceLine;

	mMap->size = sizeof(mMap) + sizeof(sourceBlock);
	}

	void flattenParent(const Reference& ref) {
	if (!ref.id.isValid()) {
	mSymbols->push_back({
	ResourceNameRef(ref.name),
	(mOut->size() - mMap->size) + sizeof(*mMap) - sizeof(android::ResTable_entry)
	});
	}
	mMap->parent.ident = ref.id.id;
	}

	void flattenEntry(const Reference& key, const Item& value) {
	mMap->count++;

	android::ResTable_map* outMapEntry = mOut->nextBlock<android::ResTable_map>();

	// Write the key.
	if (!Res_INTERNALID(key.id.id) && !key.id.isValid()) {
	assert(!key.name.entry.empty());
	mSymbols->push_back(std::make_pair(ResourceNameRef(key.name),
	mOut->size() - sizeof(*outMapEntry)));
	}
	outMapEntry->name.ident = key.id.id;

	// Write the value.
	value.flatten(outMapEntry->value);

	if (outMapEntry->value.data == 0x0) {
	visitFunc<Reference>(value, [&](const Reference& reference) {
	mSymbols->push_back(std::make_pair(ResourceNameRef(reference.name),
	mOut->size() - sizeof(outMapEntry->value.data)));
	});
	}
	outMapEntry->value.size = sizeof(outMapEntry->value);
	}

	void flattenValueOnly(const Item& value) {
	mMap->count++;

	android::ResTable_map* outMapEntry = mOut->nextBlock<android::ResTable_map>();

	// Write the value.
	value.flatten(outMapEntry->value);

	if (outMapEntry->value.data == 0x0) {
	visitFunc<Reference>(value, [&](const Reference& reference) {
	mSymbols->push_back(std::make_pair(ResourceNameRef(reference.name),
	mOut->size() - sizeof(outMapEntry->value.data)));
	});
	}
	outMapEntry->value.size = sizeof(outMapEntry->value);
	}

	static bool compareStyleEntries(const Style::Entry* lhs, const Style::Entry* rhs) {
	return lhs->key.id < rhs->key.id;
	}

	void visit(const Style& style, ValueVisitorArgs&) override {
	if (style.parent.name.isValid()) {
	flattenParent(style.parent);
	}

	// First sort the entries by ID.
	std::vector<const Style::Entry*> sortedEntries;
	for (const auto& styleEntry : style.entries) {
	auto iter = std::lower_bound(sortedEntries.begin(), sortedEntries.end(),
	&styleEntry, compareStyleEntries);
	sortedEntries.insert(iter, &styleEntry);
	}

	for (const Style::Entry* styleEntry : sortedEntries) {
	flattenEntry(styleEntry->key, *styleEntry->value);
	}
	}

	void visit(const Attribute& attr, ValueVisitorArgs&) override {
	android::Res_value tempVal;
	tempVal.dataType = android::Res_value::TYPE_INT_DEC;
	tempVal.data = attr.typeMask;
	flattenEntry(Reference(ResourceId{android::ResTable_map::ATTR_TYPE}),
	BinaryPrimitive(tempVal));

	for (const auto& symbol : attr.symbols) {
	tempVal.data = symbol.value;
	flattenEntry(symbol.symbol, BinaryPrimitive(tempVal));
	}
	}

	void visit(const Styleable& styleable, ValueVisitorArgs&) override {
	for (const auto& attr : styleable.entries) {
	flattenEntry(attr, BinaryPrimitive(android::Res_value{}));
	}
	}

	void visit(const Array& array, ValueVisitorArgs&) override {
	for (const auto& item : array.items) {
	flattenValueOnly(*item);
	}
	}

	void visit(const Plural& plural, ValueVisitorArgs&) override {
	const size_t count = plural.values.size();
	for (size_t i = 0; i < count; i++) {
	if (!plural.values[i]) {
	continue;
	}

	ResourceId q;
	switch (i) {
	case Plural::Zero:
	q.id = android::ResTable_map::ATTR_ZERO;
	break;

	case Plural::One:
	q.id = android::ResTable_map::ATTR_ONE;
	break;

	case Plural::Two:
	q.id = android::ResTable_map::ATTR_TWO;
	break;

	case Plural::Few:
	q.id = android::ResTable_map::ATTR_FEW;
	break;

	case Plural::Many:
	q.id = android::ResTable_map::ATTR_MANY;
	break;

	case Plural::Other:
	q.id = android::ResTable_map::ATTR_OTHER;
	break;

	default:
	assert(false);
	break;
	}

	flattenEntry(Reference(q), *plural.values[i]);
	}
	}

	private:
	BigBuffer* mOut;
	SymbolEntryVector* mSymbols;
	android::ResTable_map_entry* mMap;
	};

	/**
	* Flattens a value, with special handling for References.
	*/
	struct ValueFlattener : ConstValueVisitor {
	ValueFlattener(BigBuffer* out, SymbolEntryVector* symbols) :
	result(false), mOut(out), mOutValue(nullptr), mSymbols(symbols) {
	mOutValue = mOut->nextBlock<android::Res_value>();
	}

	virtual void visit(const Reference& ref, ValueVisitorArgs& a) override {
	visitItem(ref, a);
	if (mOutValue->data == 0x0) {
	mSymbols->push_back({
	ResourceNameRef(ref.name),
	mOut->size() - sizeof(mOutValue->data)});
	}
	}

	virtual void visitItem(const Item& item, ValueVisitorArgs&) override {
	result = item.flatten(*mOutValue);
	mOutValue->res0 = 0;
	mOutValue->size = sizeof(*mOutValue);
	}

	bool result;

	private:
	BigBuffer* mOut;
	android::Res_value* mOutValue;
	SymbolEntryVector* mSymbols;
	};

	TableFlattener::TableFlattener(Options options)
	: mOptions(options) {
	}

	bool TableFlattener::flattenValue(BigBuffer* out, const FlatEntry& flatEntry,
	SymbolEntryVector* symbols) {
	if (flatEntry.value->isItem()) {
	android::ResTable_entry* entry = out->nextBlock<android::ResTable_entry>();

	if (flatEntry.entry->publicStatus.isPublic) {
	entry->flags \|= android::ResTable_entry::FLAG_PUBLIC;
	}

	if (flatEntry.value->isWeak()) {
	entry->flags \|= android::ResTable_entry::FLAG_WEAK;
	}

	entry->key.index = flatEntry.entryKey;
	entry->size = sizeof(*entry);

	if (mOptions.useExtendedChunks) {
	// Write the extra source block. This will be ignored by
	// the Android runtime.
	ResTable_entry_source* sourceBlock = out->nextBlock<ResTable_entry_source>();
	sourceBlock->pathIndex = flatEntry.sourcePathKey;
	sourceBlock->line = flatEntry.sourceLine;
	entry->size += sizeof(*sourceBlock);
	}

	const Item* item = static_cast<const Item*>(flatEntry.value);
	ValueFlattener flattener(out, symbols);
	item->accept(flattener, {});
	return flattener.result;
	}

	MapFlattener flattener(out, flatEntry, symbols);
	flatEntry.value->accept(flattener, {});
	return true;
	}

	bool TableFlattener::flatten(BigBuffer* out, const ResourceTable& table) {
	const size_t beginning = out->size();

	if (table.getPackageId() == ResourceTable::kUnsetPackageId) {
	Logger::error()
	<< "ResourceTable has no package ID set."
	<< std::endl;
	return false;
	}

	SymbolEntryVector symbolEntries;

	StringPool typePool;
	StringPool keyPool;
	StringPool sourcePool;

	// Sort the types by their IDs. They will be inserted into the StringPool
	// in this order.
	std::vector<ResourceTableType*> sortedTypes;
	for (const auto& type : table) {
	if (type->type == ResourceType::kStyleable && !mOptions.useExtendedChunks) {
	continue;
	}

	auto iter = std::lower_bound(std::begin(sortedTypes), std::end(sortedTypes), type.get(),
	[](const ResourceTableType* lhs, const ResourceTableType* rhs) -> bool {
	return lhs->typeId < rhs->typeId;
	});
	sortedTypes.insert(iter, type.get());
	}

	BigBuffer typeBlock(1024);
	size_t expectedTypeId = 1;
	for (const ResourceTableType* type : sortedTypes) {
	if (type->typeId == ResourceTableType::kUnsetTypeId
	\|\| type->typeId == 0) {
	Logger::error()
	<< "resource type '"
	<< type->type
	<< "' from package '"
	<< table.getPackage()
	<< "' has no ID."
	<< std::endl;
	return false;
	}

	// If there is a gap in the type IDs, fill in the StringPool
	// with empty values until we reach the ID we expect.
	while (type->typeId > expectedTypeId) {
	std::u16string typeName(u"?");
	typeName += expectedTypeId;
	typePool.makeRef(typeName);
	expectedTypeId++;
	}
	expectedTypeId++;
	typePool.makeRef(toString(type->type));

	android::ResTable_typeSpec* spec = typeBlock.nextBlock<android::ResTable_typeSpec>();
	spec->header.type = android::RES_TABLE_TYPE_SPEC_TYPE;
	spec->header.headerSize = sizeof(*spec);
	spec->header.size = spec->header.headerSize + (type->entries.size() * sizeof(uint32_t));
	spec->id = type->typeId;
	spec->entryCount = type->entries.size();

	if (type->entries.empty()) {
	continue;
	}

	// Reserve space for the masks of each resource in this type. These
	// show for which configuration axis the resource changes.
	uint32_t* configMasks = typeBlock.nextBlock<uint32_t>(type->entries.size());

	// Sort the entries by entry ID and write their configuration masks.
	std::vector<ResourceEntry*> entries;
	const size_t entryCount = type->entries.size();
	for (size_t entryIndex = 0; entryIndex < entryCount; entryIndex++) {
	const auto& entry = type->entries[entryIndex];

	if (entry->entryId == ResourceEntry::kUnsetEntryId) {
	Logger::error()
	<< "resource '"
	<< ResourceName{ table.getPackage(), type->type, entry->name }
	<< "' has no ID."
	<< std::endl;
	return false;
	}

	auto iter = std::lower_bound(std::begin(entries), std::end(entries), entry.get(),
	[](const ResourceEntry* lhs, const ResourceEntry* rhs) -> bool {
	return lhs->entryId < rhs->entryId;
	});
	entries.insert(iter, entry.get());

	// Populate the config masks for this entry.
	if (entry->publicStatus.isPublic) {
	configMasks[entry->entryId] \|= android::ResTable_typeSpec::SPEC_PUBLIC;
	}

	const size_t configCount = entry->values.size();
	for (size_t i = 0; i < configCount; i++) {
	const ConfigDescription& config = entry->values[i].config;
	for (size_t j = i + 1; j < configCount; j++) {
	configMasks[entry->entryId] \|= config.diff(entry->values[j].config);
	}
	}
	}

	const size_t beforePublicHeader = typeBlock.size();
	Public_header* publicHeader = nullptr;
	if (mOptions.useExtendedChunks) {
	publicHeader = typeBlock.nextBlock<Public_header>();
	publicHeader->header.type = RES_TABLE_PUBLIC_TYPE;
	publicHeader->header.headerSize = sizeof(*publicHeader);
	publicHeader->typeId = type->typeId;
	}

	// The binary resource table lists resource entries for each configuration.
	// We store them inverted, where a resource entry lists the values for each
	// configuration available. Here we reverse this to match the binary table.
	std::map<ConfigDescription, std::vector<FlatEntry>> data;
	for (const ResourceEntry* entry : entries) {
	size_t keyIndex = keyPool.makeRef(entry->name).getIndex();

	if (keyIndex > std::numeric_limits<uint32_t>::max()) {
	Logger::error()
	<< "resource key string pool exceeded max size."
	<< std::endl;
	return false;
	}

	if (publicHeader && entry->publicStatus.isPublic) {
	// Write the public status of this entry.
	Public_entry* publicEntry = typeBlock.nextBlock<Public_entry>();
	publicEntry->entryId = static_cast<uint32_t>(entry->entryId);
	publicEntry->key.index = static_cast<uint32_t>(keyIndex);
	publicEntry->source.index = static_cast<uint32_t>(sourcePool.makeRef(
	util::utf8ToUtf16(entry->publicStatus.source.path)).getIndex());
	publicEntry->sourceLine = static_cast<uint32_t>(entry->publicStatus.source.line);
	publicHeader->count += 1;
	}

	for (const auto& configValue : entry->values) {
	data[configValue.config].push_back(FlatEntry{
	entry,
	configValue.value.get(),
	static_cast<uint32_t>(keyIndex),
	static_cast<uint32_t>(sourcePool.makeRef(util::utf8ToUtf16(
	configValue.source.path)).getIndex()),
	static_cast<uint32_t>(configValue.source.line)
	});
	}
	}

	if (publicHeader) {
	typeBlock.align4();
	publicHeader->header.size =
	static_cast<uint32_t>(typeBlock.size() - beforePublicHeader);
	}

	// Begin flattening a configuration for the current type.
	for (const auto& entry : data) {
	const size_t typeHeaderStart = typeBlock.size();
	android::ResTable_type* typeHeader = typeBlock.nextBlock<android::ResTable_type>();
	typeHeader->header.type = android::RES_TABLE_TYPE_TYPE;
	typeHeader->header.headerSize = sizeof(*typeHeader);
	typeHeader->id = type->typeId;
	typeHeader->entryCount = type->entries.size();
	typeHeader->entriesStart = typeHeader->header.headerSize
	+ (sizeof(uint32_t) * type->entries.size());
	typeHeader->config = entry.first;

	uint32_t* indices = typeBlock.nextBlock<uint32_t>(type->entries.size());
	memset(indices, 0xff, type->entries.size() * sizeof(uint32_t));

	const size_t entryStart = typeBlock.size();
	for (const FlatEntry& flatEntry : entry.second) {
	assert(flatEntry.entry->entryId < type->entries.size());
	indices[flatEntry.entry->entryId] = typeBlock.size() - entryStart;
	if (!flattenValue(&typeBlock, flatEntry, &symbolEntries)) {
	Logger::error()
	<< "failed to flatten resource '"
	<< ResourceNameRef {
	table.getPackage(), type->type, flatEntry.entry->name }
	<< "' for configuration '"
	<< entry.first
	<< "'."
	<< std::endl;
	return false;
	}
	}

	typeBlock.align4();
	typeHeader->header.size = typeBlock.size() - typeHeaderStart;
	}
	}

	const size_t beforeTable = out->size();
	android::ResTable_header* header = out->nextBlock<android::ResTable_header>();
	header->header.type = android::RES_TABLE_TYPE;
	header->header.headerSize = sizeof(*header);
	header->packageCount = 1;

	SymbolTable_entry* symbolEntryData = nullptr;
	if (!symbolEntries.empty() && mOptions.useExtendedChunks) {
	const size_t beforeSymbolTable = out->size();
	StringPool symbolPool;
	SymbolTable_header* symbolHeader = out->nextBlock<SymbolTable_header>();
	symbolHeader->header.type = RES_TABLE_SYMBOL_TABLE_TYPE;
	symbolHeader->header.headerSize = sizeof(*symbolHeader);
	symbolHeader->count = symbolEntries.size();

	symbolEntryData = out->nextBlock<SymbolTable_entry>(symbolHeader->count);

	size_t i = 0;
	for (const auto& entry : symbolEntries) {
	symbolEntryData[i].offset = entry.second;
	StringPool::Ref ref = symbolPool.makeRef(
	entry.first.package.toString() + u":" +
	toString(entry.first.type).toString() + u"/" +
	entry.first.entry.toString());
	symbolEntryData[i].stringIndex = ref.getIndex();
	i++;
	}

	StringPool::flattenUtf8(out, symbolPool);
	out->align4();
	symbolHeader->header.size = out->size() - beforeSymbolTable;
	}

	if (sourcePool.size() > 0 && mOptions.useExtendedChunks) {
	const size_t beforeSourcePool = out->size();
	android::ResChunk_header* sourceHeader = out->nextBlock<android::ResChunk_header>();
	sourceHeader->type = RES_TABLE_SOURCE_POOL_TYPE;
	sourceHeader->headerSize = sizeof(*sourceHeader);
	StringPool::flattenUtf8(out, sourcePool);
	out->align4();
	sourceHeader->size = out->size() - beforeSourcePool;
	}

	StringPool::flattenUtf8(out, table.getValueStringPool());

	const size_t beforePackageIndex = out->size();
	android::ResTable_package* package = out->nextBlock<android::ResTable_package>();
	package->header.type = android::RES_TABLE_PACKAGE_TYPE;
	package->header.headerSize = sizeof(*package);

	if (table.getPackageId() > std::numeric_limits<uint8_t>::max()) {
	Logger::error()
	<< "package ID 0x'"
	<< std::hex << table.getPackageId() << std::dec
	<< "' is invalid."
	<< std::endl;
	return false;
	}
	package->id = table.getPackageId();

	if (table.getPackage().size() >= sizeof(package->name) / sizeof(package->name[0])) {
	Logger::error()
	<< "package name '"
	<< table.getPackage()
	<< "' is too long."
	<< std::endl;
	return false;
	}
	memcpy(package->name, reinterpret_cast<const uint16_t*>(table.getPackage().data()),
	table.getPackage().length() * sizeof(char16_t));
	package->name[table.getPackage().length()] = 0;

	package->typeStrings = package->header.headerSize;
	StringPool::flattenUtf16(out, typePool);
	package->keyStrings = out->size() - beforePackageIndex;
	StringPool::flattenUtf16(out, keyPool);

	if (symbolEntryData != nullptr) {
	for (size_t i = 0; i < symbolEntries.size(); i++) {
	symbolEntryData[i].offset += out->size() - beginning;
	}
	}

	out->appendBuffer(std::move(typeBlock));

	package->header.size = out->size() - beforePackageIndex;
	header->header.size = out->size() - beforeTable;
	return true;
	}

	} // namespace aapt