tools/aapt2/StringPool.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 "StringPool.h"

 #include <algorithm>
 #include <memory>
 #include <string>

 #include "android-base/logging.h"
 #include "androidfw/ResourceTypes.h"
 #include "androidfw/StringPiece.h"

 #include "util/BigBuffer.h"
 #include "util/Util.h"

 using ::android::StringPiece;

 namespace aapt {

 StringPool::Ref::Ref() : entry_(nullptr) {}

 StringPool::Ref::Ref(const StringPool::Ref& rhs) : entry_(rhs.entry_) {
   if (entry_ != nullptr) {
     entry_->ref_++;
   }
 }

 StringPool::Ref::Ref(StringPool::Entry* entry) : entry_(entry) {
   if (entry_ != nullptr) {
     entry_->ref_++;
   }
 }

 StringPool::Ref::~Ref() {
   if (entry_ != nullptr) {
     entry_->ref_--;
   }
 }

 StringPool::Ref& StringPool::Ref::operator=(const StringPool::Ref& rhs) {
   if (rhs.entry_ != nullptr) {
     rhs.entry_->ref_++;
   }

   if (entry_ != nullptr) {
     entry_->ref_--;
   }
   entry_ = rhs.entry_;
   return *this;
 }

 bool StringPool::Ref::operator==(const Ref& rhs) const {
   return entry_->value == rhs.entry_->value;
 }

 bool StringPool::Ref::operator!=(const Ref& rhs) const {
   return entry_->value != rhs.entry_->value;
 }

 const std::string* StringPool::Ref::operator->() const {
   return &entry_->value;
 }

 const std::string& StringPool::Ref::operator*() const {
   return entry_->value;
 }

 size_t StringPool::Ref::index() const {
   // Account for the styles, which *always* come first.
   return entry_->pool_->styles_.size() + entry_->index_;
 }

 const StringPool::Context& StringPool::Ref::GetContext() const {
   return entry_->context;
 }

 StringPool::StyleRef::StyleRef() : entry_(nullptr) {}

 StringPool::StyleRef::StyleRef(const StringPool::StyleRef& rhs)
     : entry_(rhs.entry_) {
   if (entry_ != nullptr) {
     entry_->ref_++;
   }
 }

 StringPool::StyleRef::StyleRef(StringPool::StyleEntry* entry) : entry_(entry) {
   if (entry_ != nullptr) {
     entry_->ref_++;
   }
 }

 StringPool::StyleRef::~StyleRef() {
   if (entry_ != nullptr) {
     entry_->ref_--;
   }
 }

 StringPool::StyleRef& StringPool::StyleRef::operator=(const StringPool::StyleRef& rhs) {
   if (rhs.entry_ != nullptr) {
     rhs.entry_->ref_++;
   }

   if (entry_ != nullptr) {
     entry_->ref_--;
   }
   entry_ = rhs.entry_;
   return *this;
 }

 bool StringPool::StyleRef::operator==(const StyleRef& rhs) const {
   if (entry_->value != rhs.entry_->value) {
     return false;
   }

   if (entry_->spans.size() != rhs.entry_->spans.size()) {
     return false;
   }

   auto rhs_iter = rhs.entry_->spans.begin();
   for (const Span& span : entry_->spans) {
     const Span& rhs_span = *rhs_iter;
     if (span.first_char != rhs_span.first_char || span.last_char != rhs_span.last_char ||
         span.name != rhs_span.name) {
       return false;
     }
   }
   return true;
 }

 bool StringPool::StyleRef::operator!=(const StyleRef& rhs) const {
   return !operator==(rhs);
 }

 const StringPool::StyleEntry* StringPool::StyleRef::operator->() const {
   return entry_;
 }

 const StringPool::StyleEntry& StringPool::StyleRef::operator*() const {
   return *entry_;
 }

 size_t StringPool::StyleRef::index() const {
   return entry_->index_;
 }

 const StringPool::Context& StringPool::StyleRef::GetContext() const {
   return entry_->context;
 }

 StringPool::Ref StringPool::MakeRef(const StringPiece& str) {
   return MakeRefImpl(str, Context{}, true);
 }

 StringPool::Ref StringPool::MakeRef(const StringPiece& str, const Context& context) {
   return MakeRefImpl(str, context, true);
 }

 StringPool::Ref StringPool::MakeRefImpl(const StringPiece& str, const Context& context,
                                         bool unique) {
   if (unique) {
     auto iter = indexed_strings_.find(str);
     if (iter != std::end(indexed_strings_)) {
       return Ref(iter->second);
     }
   }

   std::unique_ptr<Entry> entry(new Entry());
   entry->value = str.to_string();
   entry->context = context;
   entry->index_ = strings_.size();
   entry->ref_ = 0;
   entry->pool_ = this;

   Entry* borrow = entry.get();
   strings_.emplace_back(std::move(entry));
   indexed_strings_.insert(std::make_pair(StringPiece(borrow->value), borrow));
   return Ref(borrow);
 }

 StringPool::Ref StringPool::MakeRef(const Ref& ref) {
   if (ref.entry_->pool_ == this) {
     return ref;
   }
   return MakeRef(ref.entry_->value, ref.entry_->context);
 }

 StringPool::StyleRef StringPool::MakeRef(const StyleString& str) {
   return MakeRef(str, Context{});
 }

 StringPool::StyleRef StringPool::MakeRef(const StyleString& str, const Context& context) {
   std::unique_ptr<StyleEntry> entry(new StyleEntry());
   entry->value = str.str;
   entry->context = context;
   entry->index_ = styles_.size();
   entry->ref_ = 0;
   for (const aapt::Span& span : str.spans) {
     entry->spans.emplace_back(Span{MakeRef(span.name), span.first_char, span.last_char});
   }

   StyleEntry* borrow = entry.get();
   styles_.emplace_back(std::move(entry));
   return StyleRef(borrow);
 }

 StringPool::StyleRef StringPool::MakeRef(const StyleRef& ref) {
   std::unique_ptr<StyleEntry> entry(new StyleEntry());
   entry->value = ref.entry_->value;
   entry->context = ref.entry_->context;
   entry->index_ = styles_.size();
   entry->ref_ = 0;
   for (const Span& span : ref.entry_->spans) {
     entry->spans.emplace_back(Span{MakeRef(*span.name), span.first_char, span.last_char});
   }

   StyleEntry* borrow = entry.get();
   styles_.emplace_back(std::move(entry));
   return StyleRef(borrow);
 }

 void StringPool::ReAssignIndices() {
   // Assign the style indices.
   const size_t style_len = styles_.size();
   for (size_t index = 0; index < style_len; index++) {
     styles_[index]->index_ = index;
   }

   // Assign the string indices.
   const size_t string_len = strings_.size();
   for (size_t index = 0; index < string_len; index++) {
     strings_[index]->index_ = index;
   }
 }

 void StringPool::Merge(StringPool&& pool) {
   // First, change the owning pool for the incoming strings.
   for (std::unique_ptr<Entry>& entry : pool.strings_) {
     entry->pool_ = this;
   }

   // Now move the styles, strings, and indices over.
   std::move(pool.styles_.begin(), pool.styles_.end(), std::back_inserter(styles_));
   pool.styles_.clear();
   std::move(pool.strings_.begin(), pool.strings_.end(), std::back_inserter(strings_));
   pool.strings_.clear();
   indexed_strings_.insert(pool.indexed_strings_.begin(), pool.indexed_strings_.end());
   pool.indexed_strings_.clear();

   ReAssignIndices();
 }

 void StringPool::HintWillAdd(size_t string_count, size_t style_count) {
   strings_.reserve(strings_.size() + string_count);
   styles_.reserve(styles_.size() + style_count);
 }

 void StringPool::Prune() {
   const auto iter_end = indexed_strings_.end();
   auto index_iter = indexed_strings_.begin();
   while (index_iter != iter_end) {
     if (index_iter->second->ref_ <= 0) {
       index_iter = indexed_strings_.erase(index_iter);
     } else {
       ++index_iter;
     }
   }

   auto end_iter2 =
       std::remove_if(strings_.begin(), strings_.end(),
                      [](const std::unique_ptr<Entry>& entry) -> bool { return entry->ref_ <= 0; });
   auto end_iter3 = std::remove_if(
       styles_.begin(), styles_.end(),
       [](const std::unique_ptr<StyleEntry>& entry) -> bool { return entry->ref_ <= 0; });

   // Remove the entries at the end or else we'll be accessing a deleted string from the StyleEntry.
   strings_.erase(end_iter2, strings_.end());
   styles_.erase(end_iter3, styles_.end());

   ReAssignIndices();
 }

 template <typename E>
 static void SortEntries(
     std::vector<std::unique_ptr<E>>& entries,
     const std::function<int(const StringPool::Context&, const StringPool::Context&)>& cmp) {
   using UEntry = std::unique_ptr<E>;

   if (cmp != nullptr) {
     std::sort(entries.begin(), entries.end(), [&cmp](const UEntry& a, const UEntry& b) -> bool {
       int r = cmp(a->context, b->context);
       if (r == 0) {
         r = a->value.compare(b->value);
       }
       return r < 0;
     });
   } else {
     std::sort(entries.begin(), entries.end(),
               [](const UEntry& a, const UEntry& b) -> bool { return a->value < b->value; });
   }
 }

 void StringPool::Sort(const std::function<int(const Context&, const Context&)>& cmp) {
   SortEntries(styles_, cmp);
   SortEntries(strings_, cmp);
   ReAssignIndices();
 }

 template <typename T>
 static T* EncodeLength(T* data, size_t length) {
   static_assert(std::is_integral<T>::value, "wat.");

   constexpr size_t kMask = 1 << ((sizeof(T) * 8) - 1);
   constexpr size_t kMaxSize = kMask - 1;
   if (length > kMaxSize) {
     *data++ = kMask | (kMaxSize & (length >> (sizeof(T) * 8)));
   }
   *data++ = length;
   return data;
 }

 template <typename T>
 static size_t EncodedLengthUnits(size_t length) {
   static_assert(std::is_integral<T>::value, "wat.");

   constexpr size_t kMask = 1 << ((sizeof(T) * 8) - 1);
   constexpr size_t kMaxSize = kMask - 1;
   return length > kMaxSize ? 2 : 1;
 }

 static void EncodeString(const std::string& str, const bool utf8, BigBuffer* out) {
   if (utf8) {
     const std::string& encoded = str;
     const ssize_t utf16_length =
         utf8_to_utf16_length(reinterpret_cast<const uint8_t*>(str.data()), str.size());
     CHECK(utf16_length >= 0);

     const size_t total_size = EncodedLengthUnits<char>(utf16_length) +
                               EncodedLengthUnits<char>(encoded.length()) + encoded.size() + 1;

     char* data = out->NextBlock<char>(total_size);

     // First encode the UTF16 string length.
     data = EncodeLength(data, utf16_length);

     // Now encode the size of the real UTF8 string.
     data = EncodeLength(data, encoded.length());
     strncpy(data, encoded.data(), encoded.size());

     } else {
       const std::u16string encoded = util::Utf8ToUtf16(str);
       const ssize_t utf16_length = encoded.size();

       // Total number of 16-bit words to write.
       const size_t total_size = EncodedLengthUnits<char16_t>(utf16_length) + encoded.size() + 1;

       char16_t* data = out->NextBlock<char16_t>(total_size);

       // Encode the actual UTF16 string length.
       data = EncodeLength(data, utf16_length);
       const size_t byte_length = encoded.size() * sizeof(char16_t);

       // NOTE: For some reason, strncpy16(data, entry->value.data(),
       // entry->value.size()) truncates the string.
       memcpy(data, encoded.data(), byte_length);

       // The null-terminating character is already here due to the block of data
       // being set to 0s on allocation.
     }
 }

 bool StringPool::Flatten(BigBuffer* out, const StringPool& pool, bool utf8) {
   const size_t start_index = out->size();
   android::ResStringPool_header* header = out->NextBlock<android::ResStringPool_header>();
   header->header.type = util::HostToDevice16(android::RES_STRING_POOL_TYPE);
   header->header.headerSize = util::HostToDevice16(sizeof(*header));
   header->stringCount = util::HostToDevice32(pool.size());
   header->styleCount = util::HostToDevice32(pool.styles_.size());
   if (utf8) {
     header->flags |= android::ResStringPool_header::UTF8_FLAG;
   }

   uint32_t* indices = pool.size() != 0 ? out->NextBlock<uint32_t>(pool.size()) : nullptr;
   uint32_t* style_indices =
       pool.styles_.size() != 0 ? out->NextBlock<uint32_t>(pool.styles_.size()) : nullptr;

   const size_t before_strings_index = out->size();
   header->stringsStart = before_strings_index - start_index;

   // Styles always come first.
   for (const std::unique_ptr<StyleEntry>& entry : pool.styles_) {
     *indices++ = out->size() - before_strings_index;
     EncodeString(entry->value, utf8, out);
   }

   for (const std::unique_ptr<Entry>& entry : pool.strings_) {
     *indices++ = out->size() - before_strings_index;
     EncodeString(entry->value, utf8, out);
   }

   out->Align4();

   if (style_indices != nullptr) {
     const size_t before_styles_index = out->size();
     header->stylesStart = util::HostToDevice32(before_styles_index - start_index);

     for (const std::unique_ptr<StyleEntry>& entry : pool.styles_) {
       *style_indices++ = out->size() - before_styles_index;

       if (!entry->spans.empty()) {
         android::ResStringPool_span* span =
             out->NextBlock<android::ResStringPool_span>(entry->spans.size());
         for (const Span& s : entry->spans) {
           span->name.index = util::HostToDevice32(s.name.index());
           span->firstChar = util::HostToDevice32(s.first_char);
           span->lastChar = util::HostToDevice32(s.last_char);
           span++;
         }
       }

       uint32_t* spanEnd = out->NextBlock<uint32_t>();
       *spanEnd = android::ResStringPool_span::END;
     }

     // The error checking code in the platform looks for an entire
     // ResStringPool_span structure worth of 0xFFFFFFFF at the end
     // of the style block, so fill in the remaining 2 32bit words
     // with 0xFFFFFFFF.
     const size_t padding_length = sizeof(android::ResStringPool_span) -
                                   sizeof(android::ResStringPool_span::name);
     uint8_t* padding = out->NextBlock<uint8_t>(padding_length);
     memset(padding, 0xff, padding_length);
     out->Align4();
   }
   header->header.size = util::HostToDevice32(out->size() - start_index);
   return true;
 }

 bool StringPool::FlattenUtf8(BigBuffer* out, const StringPool& pool) {
   return Flatten(out, pool, true);
 }

 bool StringPool::FlattenUtf16(BigBuffer* out, const StringPool& pool) {
   return Flatten(out, pool, false);
 }

 }  // 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 "StringPool.h"

	#include <algorithm>
	#include <memory>
	#include <string>

	#include "android-base/logging.h"
	#include "androidfw/ResourceTypes.h"
	#include "androidfw/StringPiece.h"

	#include "util/BigBuffer.h"
	#include "util/Util.h"

	using ::android::StringPiece;

	namespace aapt {

	StringPool::Ref::Ref() : entry_(nullptr) {}

	StringPool::Ref::Ref(const StringPool::Ref& rhs) : entry_(rhs.entry_) {
	if (entry_ != nullptr) {
	entry_->ref_++;
	}
	}

	StringPool::Ref::Ref(StringPool::Entry* entry) : entry_(entry) {
	if (entry_ != nullptr) {
	entry_->ref_++;
	}
	}

	StringPool::Ref::~Ref() {
	if (entry_ != nullptr) {
	entry_->ref_--;
	}
	}

	StringPool::Ref& StringPool::Ref::operator=(const StringPool::Ref& rhs) {
	if (rhs.entry_ != nullptr) {
	rhs.entry_->ref_++;
	}

	if (entry_ != nullptr) {
	entry_->ref_--;
	}
	entry_ = rhs.entry_;
	return *this;
	}

	bool StringPool::Ref::operator==(const Ref& rhs) const {
	return entry_->value == rhs.entry_->value;
	}

	bool StringPool::Ref::operator!=(const Ref& rhs) const {
	return entry_->value != rhs.entry_->value;
	}

	const std::string* StringPool::Ref::operator->() const {
	return &entry_->value;
	}

	const std::string& StringPool::Ref::operator*() const {
	return entry_->value;
	}

	size_t StringPool::Ref::index() const {
	// Account for the styles, which always come first.
	return entry_->pool_->styles_.size() + entry_->index_;
	}

	const StringPool::Context& StringPool::Ref::GetContext() const {
	return entry_->context;
	}

	StringPool::StyleRef::StyleRef() : entry_(nullptr) {}

	StringPool::StyleRef::StyleRef(const StringPool::StyleRef& rhs)
	: entry_(rhs.entry_) {
	if (entry_ != nullptr) {
	entry_->ref_++;
	}
	}

	StringPool::StyleRef::StyleRef(StringPool::StyleEntry* entry) : entry_(entry) {
	if (entry_ != nullptr) {
	entry_->ref_++;
	}
	}

	StringPool::StyleRef::~StyleRef() {
	if (entry_ != nullptr) {
	entry_->ref_--;
	}
	}

	StringPool::StyleRef& StringPool::StyleRef::operator=(const StringPool::StyleRef& rhs) {
	if (rhs.entry_ != nullptr) {
	rhs.entry_->ref_++;
	}

	if (entry_ != nullptr) {
	entry_->ref_--;
	}
	entry_ = rhs.entry_;
	return *this;
	}

	bool StringPool::StyleRef::operator==(const StyleRef& rhs) const {
	if (entry_->value != rhs.entry_->value) {
	return false;
	}

	if (entry_->spans.size() != rhs.entry_->spans.size()) {
	return false;
	}

	auto rhs_iter = rhs.entry_->spans.begin();
	for (const Span& span : entry_->spans) {
	const Span& rhs_span = *rhs_iter;
	if (span.first_char != rhs_span.first_char \|\| span.last_char != rhs_span.last_char \|\|
	span.name != rhs_span.name) {
	return false;
	}
	}
	return true;
	}

	bool StringPool::StyleRef::operator!=(const StyleRef& rhs) const {
	return !operator==(rhs);
	}

	const StringPool::StyleEntry* StringPool::StyleRef::operator->() const {
	return entry_;
	}

	const StringPool::StyleEntry& StringPool::StyleRef::operator*() const {
	return *entry_;
	}

	size_t StringPool::StyleRef::index() const {
	return entry_->index_;
	}

	const StringPool::Context& StringPool::StyleRef::GetContext() const {
	return entry_->context;
	}

	StringPool::Ref StringPool::MakeRef(const StringPiece& str) {
	return MakeRefImpl(str, Context{}, true);
	}

	StringPool::Ref StringPool::MakeRef(const StringPiece& str, const Context& context) {
	return MakeRefImpl(str, context, true);
	}

	StringPool::Ref StringPool::MakeRefImpl(const StringPiece& str, const Context& context,
	bool unique) {
	if (unique) {
	auto iter = indexed_strings_.find(str);
	if (iter != std::end(indexed_strings_)) {
	return Ref(iter->second);
	}
	}

	std::unique_ptr<Entry> entry(new Entry());
	entry->value = str.to_string();
	entry->context = context;
	entry->index_ = strings_.size();
	entry->ref_ = 0;
	entry->pool_ = this;

	Entry* borrow = entry.get();
	strings_.emplace_back(std::move(entry));
	indexed_strings_.insert(std::make_pair(StringPiece(borrow->value), borrow));
	return Ref(borrow);
	}

	StringPool::Ref StringPool::MakeRef(const Ref& ref) {
	if (ref.entry_->pool_ == this) {
	return ref;
	}
	return MakeRef(ref.entry_->value, ref.entry_->context);
	}

	StringPool::StyleRef StringPool::MakeRef(const StyleString& str) {
	return MakeRef(str, Context{});
	}

	StringPool::StyleRef StringPool::MakeRef(const StyleString& str, const Context& context) {
	std::unique_ptr<StyleEntry> entry(new StyleEntry());
	entry->value = str.str;
	entry->context = context;
	entry->index_ = styles_.size();
	entry->ref_ = 0;
	for (const aapt::Span& span : str.spans) {
	entry->spans.emplace_back(Span{MakeRef(span.name), span.first_char, span.last_char});
	}

	StyleEntry* borrow = entry.get();
	styles_.emplace_back(std::move(entry));
	return StyleRef(borrow);
	}

	StringPool::StyleRef StringPool::MakeRef(const StyleRef& ref) {
	std::unique_ptr<StyleEntry> entry(new StyleEntry());
	entry->value = ref.entry_->value;
	entry->context = ref.entry_->context;
	entry->index_ = styles_.size();
	entry->ref_ = 0;
	for (const Span& span : ref.entry_->spans) {
	entry->spans.emplace_back(Span{MakeRef(*span.name), span.first_char, span.last_char});
	}

	StyleEntry* borrow = entry.get();
	styles_.emplace_back(std::move(entry));
	return StyleRef(borrow);
	}

	void StringPool::ReAssignIndices() {
	// Assign the style indices.
	const size_t style_len = styles_.size();
	for (size_t index = 0; index < style_len; index++) {
	styles_[index]->index_ = index;
	}

	// Assign the string indices.
	const size_t string_len = strings_.size();
	for (size_t index = 0; index < string_len; index++) {
	strings_[index]->index_ = index;
	}
	}

	void StringPool::Merge(StringPool&& pool) {
	// First, change the owning pool for the incoming strings.
	for (std::unique_ptr<Entry>& entry : pool.strings_) {
	entry->pool_ = this;
	}

	// Now move the styles, strings, and indices over.
	std::move(pool.styles_.begin(), pool.styles_.end(), std::back_inserter(styles_));
	pool.styles_.clear();
	std::move(pool.strings_.begin(), pool.strings_.end(), std::back_inserter(strings_));
	pool.strings_.clear();
	indexed_strings_.insert(pool.indexed_strings_.begin(), pool.indexed_strings_.end());
	pool.indexed_strings_.clear();

	ReAssignIndices();
	}

	void StringPool::HintWillAdd(size_t string_count, size_t style_count) {
	strings_.reserve(strings_.size() + string_count);
	styles_.reserve(styles_.size() + style_count);
	}

	void StringPool::Prune() {
	const auto iter_end = indexed_strings_.end();
	auto index_iter = indexed_strings_.begin();
	while (index_iter != iter_end) {
	if (index_iter->second->ref_ <= 0) {
	index_iter = indexed_strings_.erase(index_iter);
	} else {
	++index_iter;
	}
	}

	auto end_iter2 =
	std::remove_if(strings_.begin(), strings_.end(),
	[](const std::unique_ptr<Entry>& entry) -> bool { return entry->ref_ <= 0; });
	auto end_iter3 = std::remove_if(
	styles_.begin(), styles_.end(),
	[](const std::unique_ptr<StyleEntry>& entry) -> bool { return entry->ref_ <= 0; });

	// Remove the entries at the end or else we'll be accessing a deleted string from the StyleEntry.
	strings_.erase(end_iter2, strings_.end());
	styles_.erase(end_iter3, styles_.end());

	ReAssignIndices();
	}

	template <typename E>
	static void SortEntries(
	std::vector<std::unique_ptr<E>>& entries,
	const std::function<int(const StringPool::Context&, const StringPool::Context&)>& cmp) {
	using UEntry = std::unique_ptr<E>;

	if (cmp != nullptr) {
	std::sort(entries.begin(), entries.end(), [&cmp](const UEntry& a, const UEntry& b) -> bool {
	int r = cmp(a->context, b->context);
	if (r == 0) {
	r = a->value.compare(b->value);
	}
	return r < 0;
	});
	} else {
	std::sort(entries.begin(), entries.end(),
	[](const UEntry& a, const UEntry& b) -> bool { return a->value < b->value; });
	}
	}

	void StringPool::Sort(const std::function<int(const Context&, const Context&)>& cmp) {
	SortEntries(styles_, cmp);
	SortEntries(strings_, cmp);
	ReAssignIndices();
	}

	template <typename T>
	static T* EncodeLength(T* data, size_t length) {
	static_assert(std::is_integral<T>::value, "wat.");

	constexpr size_t kMask = 1 << ((sizeof(T) * 8) - 1);
	constexpr size_t kMaxSize = kMask - 1;
	if (length > kMaxSize) {
	data++ = kMask \| (kMaxSize & (length >> (sizeof(T) 8)));
	}
	*data++ = length;
	return data;
	}

	template <typename T>
	static size_t EncodedLengthUnits(size_t length) {
	static_assert(std::is_integral<T>::value, "wat.");

	constexpr size_t kMask = 1 << ((sizeof(T) * 8) - 1);
	constexpr size_t kMaxSize = kMask - 1;
	return length > kMaxSize ? 2 : 1;
	}

	static void EncodeString(const std::string& str, const bool utf8, BigBuffer* out) {
	if (utf8) {
	const std::string& encoded = str;
	const ssize_t utf16_length =
	utf8_to_utf16_length(reinterpret_cast<const uint8_t*>(str.data()), str.size());
	CHECK(utf16_length >= 0);

	const size_t total_size = EncodedLengthUnits<char>(utf16_length) +
	EncodedLengthUnits<char>(encoded.length()) + encoded.size() + 1;

	char* data = out->NextBlock<char>(total_size);

	// First encode the UTF16 string length.
	data = EncodeLength(data, utf16_length);

	// Now encode the size of the real UTF8 string.
	data = EncodeLength(data, encoded.length());
	strncpy(data, encoded.data(), encoded.size());

	} else {
	const std::u16string encoded = util::Utf8ToUtf16(str);
	const ssize_t utf16_length = encoded.size();

	// Total number of 16-bit words to write.
	const size_t total_size = EncodedLengthUnits<char16_t>(utf16_length) + encoded.size() + 1;

	char16_t* data = out->NextBlock<char16_t>(total_size);

	// Encode the actual UTF16 string length.
	data = EncodeLength(data, utf16_length);
	const size_t byte_length = encoded.size() * sizeof(char16_t);

	// NOTE: For some reason, strncpy16(data, entry->value.data(),
	// entry->value.size()) truncates the string.
	memcpy(data, encoded.data(), byte_length);

	// The null-terminating character is already here due to the block of data
	// being set to 0s on allocation.
	}
	}

	bool StringPool::Flatten(BigBuffer* out, const StringPool& pool, bool utf8) {
	const size_t start_index = out->size();
	android::ResStringPool_header* header = out->NextBlock<android::ResStringPool_header>();
	header->header.type = util::HostToDevice16(android::RES_STRING_POOL_TYPE);
	header->header.headerSize = util::HostToDevice16(sizeof(*header));
	header->stringCount = util::HostToDevice32(pool.size());
	header->styleCount = util::HostToDevice32(pool.styles_.size());
	if (utf8) {
	header->flags \|= android::ResStringPool_header::UTF8_FLAG;
	}

	uint32_t* indices = pool.size() != 0 ? out->NextBlock<uint32_t>(pool.size()) : nullptr;
	uint32_t* style_indices =
	pool.styles_.size() != 0 ? out->NextBlock<uint32_t>(pool.styles_.size()) : nullptr;

	const size_t before_strings_index = out->size();
	header->stringsStart = before_strings_index - start_index;

	// Styles always come first.
	for (const std::unique_ptr<StyleEntry>& entry : pool.styles_) {
	*indices++ = out->size() - before_strings_index;
	EncodeString(entry->value, utf8, out);
	}

	for (const std::unique_ptr<Entry>& entry : pool.strings_) {
	*indices++ = out->size() - before_strings_index;
	EncodeString(entry->value, utf8, out);
	}

	out->Align4();

	if (style_indices != nullptr) {
	const size_t before_styles_index = out->size();
	header->stylesStart = util::HostToDevice32(before_styles_index - start_index);

	for (const std::unique_ptr<StyleEntry>& entry : pool.styles_) {
	*style_indices++ = out->size() - before_styles_index;

	if (!entry->spans.empty()) {
	android::ResStringPool_span* span =
	out->NextBlock<android::ResStringPool_span>(entry->spans.size());
	for (const Span& s : entry->spans) {
	span->name.index = util::HostToDevice32(s.name.index());
	span->firstChar = util::HostToDevice32(s.first_char);
	span->lastChar = util::HostToDevice32(s.last_char);
	span++;
	}
	}

	uint32_t* spanEnd = out->NextBlock<uint32_t>();
	*spanEnd = android::ResStringPool_span::END;
	}

	// The error checking code in the platform looks for an entire
	// ResStringPool_span structure worth of 0xFFFFFFFF at the end
	// of the style block, so fill in the remaining 2 32bit words
	// with 0xFFFFFFFF.
	const size_t padding_length = sizeof(android::ResStringPool_span) -
	sizeof(android::ResStringPool_span::name);
	uint8_t* padding = out->NextBlock<uint8_t>(padding_length);
	memset(padding, 0xff, padding_length);
	out->Align4();
	}
	header->header.size = util::HostToDevice32(out->size() - start_index);
	return true;
	}

	bool StringPool::FlattenUtf8(BigBuffer* out, const StringPool& pool) {
	return Flatten(out, pool, true);
	}

	bool StringPool::FlattenUtf16(BigBuffer* out, const StringPool& pool) {
	return Flatten(out, pool, false);
	}

	} // namespace aapt