native/actions/actions-suggestions.h - platform/external/libtextclassifier - Git at Google

 /*
  * Copyright (C) 2018 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.
  */

 #ifndef LIBTEXTCLASSIFIER_ACTIONS_ACTIONS_SUGGESTIONS_H_
 #define LIBTEXTCLASSIFIER_ACTIONS_ACTIONS_SUGGESTIONS_H_

 #include <map>
 #include <memory>
 #include <string>
 #include <unordered_map>
 #include <unordered_set>
 #include <vector>

 #include "actions/actions_model_generated.h"
 #include "actions/conversation_intent_detection/conversation-intent-detection.h"
 #include "actions/feature-processor.h"
 #include "actions/grammar-actions.h"
 #include "actions/ranker.h"
 #include "actions/regex-actions.h"
 #include "actions/sensitive-classifier-base.h"
 #include "actions/types.h"
 #include "annotator/annotator.h"
 #include "annotator/model-executor.h"
 #include "annotator/types.h"
 #include "utils/flatbuffers/flatbuffers.h"
 #include "utils/flatbuffers/mutable.h"
 #include "utils/i18n/locale.h"
 #include "utils/memory/mmap.h"
 #include "utils/tflite-model-executor.h"
 #include "utils/utf8/unilib.h"
 #include "utils/variant.h"
 #include "utils/zlib/zlib.h"
 #include "absl/container/flat_hash_map.h"
 #include "absl/container/flat_hash_set.h"
 #include "absl/random/random.h"

 namespace libtextclassifier3 {

 // Class for predicting actions following a conversation.
 class ActionsSuggestions {
  public:
   // Creates ActionsSuggestions from given data buffer with model.
   static std::unique_ptr<ActionsSuggestions> FromUnownedBuffer(
       const uint8_t* buffer, const int size, const UniLib* unilib = nullptr,
       const std::string& triggering_preconditions_overlay = "");

   // Creates ActionsSuggestions from model in the ScopedMmap object and takes
   // ownership of it.
   static std::unique_ptr<ActionsSuggestions> FromScopedMmap(
       std::unique_ptr<libtextclassifier3::ScopedMmap> mmap,
       const UniLib* unilib = nullptr,
       const std::string& triggering_preconditions_overlay = "");
   // Same as above, but also takes ownership of the unilib.
   static std::unique_ptr<ActionsSuggestions> FromScopedMmap(
       std::unique_ptr<libtextclassifier3::ScopedMmap> mmap,
       std::unique_ptr<UniLib> unilib,
       const std::string& triggering_preconditions_overlay);

   // Creates ActionsSuggestions from model given as a file descriptor, offset
   // and size in it. If offset and size are less than 0, will ignore them and
   // will just use the fd.
   static std::unique_ptr<ActionsSuggestions> FromFileDescriptor(
       const int fd, const int offset, const int size,
       const UniLib* unilib = nullptr,
       const std::string& triggering_preconditions_overlay = "");
   // Same as above, but also takes ownership of the unilib.
   static std::unique_ptr<ActionsSuggestions> FromFileDescriptor(
       const int fd, const int offset, const int size,
       std::unique_ptr<UniLib> unilib,
       const std::string& triggering_preconditions_overlay = "");

   // Creates ActionsSuggestions from model given as a file descriptor.
   static std::unique_ptr<ActionsSuggestions> FromFileDescriptor(
       const int fd, const UniLib* unilib = nullptr,
       const std::string& triggering_preconditions_overlay = "");
   // Same as above, but also takes ownership of the unilib.
   static std::unique_ptr<ActionsSuggestions> FromFileDescriptor(
       const int fd, std::unique_ptr<UniLib> unilib,
       const std::string& triggering_preconditions_overlay);

   // Creates ActionsSuggestions from model given as a POSIX path.
   static std::unique_ptr<ActionsSuggestions> FromPath(
       const std::string& path, const UniLib* unilib = nullptr,
       const std::string& triggering_preconditions_overlay = "");
   // Same as above, but also takes ownership of unilib.
   static std::unique_ptr<ActionsSuggestions> FromPath(
       const std::string& path, std::unique_ptr<UniLib> unilib,
       const std::string& triggering_preconditions_overlay);

   ActionsSuggestionsResponse SuggestActions(
       const Conversation& conversation,
       const ActionSuggestionOptions& options = ActionSuggestionOptions()) const;

   ActionsSuggestionsResponse SuggestActions(
       const Conversation& conversation, const Annotator* annotator,
       const ActionSuggestionOptions& options = ActionSuggestionOptions()) const;

   bool InitializeConversationIntentDetection(
       const std::string& serialized_config);

   const ActionsModel* model() const;
   const reflection::Schema* entity_data_schema() const;

   static constexpr int kLocalUserId = 0;

  protected:
   // Exposed for testing.
   bool EmbedTokenId(const int32 token_id, std::vector<float>* embedding) const;

   // Embeds the tokens per message separately. Each message is padded to the
   // maximum length with the padding token.
   bool EmbedTokensPerMessage(const std::vector<std::vector<Token>>& tokens,
                              std::vector<float>* embeddings,
                              int* max_num_tokens_per_message) const;

   // Concatenates the embedded message tokens - separated by start and end
   // token between messages.
   // If the total token count is greater than the maximum length, tokens at the
   // start are dropped to fit into the limit.
   // If the total token count is smaller than the minimum length, padding tokens
   // are added to the end.
   // Messages are assumed to be ordered by recency - most recent is last.
   bool EmbedAndFlattenTokens(const std::vector<std::vector<Token>>& tokens,
                              std::vector<float>* embeddings,
                              int* total_token_count) const;

   const ActionsModel* model_;

   // Feature extractor and options.
   std::unique_ptr<const ActionsFeatureProcessor> feature_processor_;
   std::unique_ptr<const EmbeddingExecutor> embedding_executor_;
   std::vector<float> embedded_padding_token_;
   std::vector<float> embedded_start_token_;
   std::vector<float> embedded_end_token_;
   int token_embedding_size_;

  private:
   // Checks that model contains all required fields, and initializes internal
   // datastructures.
   bool ValidateAndInitialize();

   void SetOrCreateUnilib(const UniLib* unilib);

   // Prepare preconditions.
   // Takes values from flag provided data, but falls back to model provided
   // values for parameters that are not explicitly provided.
   bool InitializeTriggeringPreconditions();

   // Tokenizes a conversation and produces the tokens per message.
   std::vector<std::vector<Token>> Tokenize(
       const std::vector<std::string>& context) const;

   bool AllocateInput(const int conversation_length, const int max_tokens,
                      const int total_token_count,
                      tflite::Interpreter* interpreter) const;

   bool SetupModelInput(const std::vector<std::string>& context,
                        const std::vector<int>& user_ids,
                        const std::vector<float>& time_diffs,
                        const int num_suggestions,
                        const ActionSuggestionOptions& options,
                        tflite::Interpreter* interpreter) const;

   void FillSuggestionFromSpecWithEntityData(const ActionSuggestionSpec* spec,
                                             ActionSuggestion* suggestion) const;

   void PopulateTextReplies(
       const tflite::Interpreter* interpreter, int suggestion_index,
       int score_index, const std::string& type, float priority_score,
       const absl::flat_hash_set<std::string>& blocklist,
       const absl::flat_hash_map<std::string, std::vector<std::string>>&
           concept_mappings,
       ActionsSuggestionsResponse* response) const;

   void PopulateIntentTriggering(const tflite::Interpreter* interpreter,
                                 int suggestion_index, int score_index,
                                 const ActionSuggestionSpec* task_spec,
                                 ActionsSuggestionsResponse* response) const;

   bool ReadModelOutput(tflite::Interpreter* interpreter,
                        const ActionSuggestionOptions& options,
                        ActionsSuggestionsResponse* response) const;

   bool SuggestActionsFromModel(
       const Conversation& conversation, const int num_messages,
       const ActionSuggestionOptions& options,
       ActionsSuggestionsResponse* response,
       std::unique_ptr<tflite::Interpreter>* interpreter) const;

   Status SuggestActionsFromConversationIntentDetection(
       const Conversation& conversation, const ActionSuggestionOptions& options,
       std::vector<ActionSuggestion>* actions) const;

   // Creates options for annotation of a message.
   AnnotationOptions AnnotationOptionsForMessage(
       const ConversationMessage& message) const;

   void SuggestActionsFromAnnotations(
       const Conversation& conversation,
       std::vector<ActionSuggestion>* actions) const;

   void SuggestActionsFromAnnotation(
       const int message_index, const ActionSuggestionAnnotation& annotation,
       std::vector<ActionSuggestion>* actions) const;

   // Run annotator on the messages of a conversation.
   Conversation AnnotateConversation(const Conversation& conversation,
                                     const Annotator* annotator) const;

   // Deduplicates equivalent annotations - annotations that have the same type
   // and same span text.
   // Returns the indices of the deduplicated annotations.
   std::vector<int> DeduplicateAnnotations(
       const std::vector<ActionSuggestionAnnotation>& annotations) const;

   bool SuggestActionsFromLua(
       const Conversation& conversation,
       const TfLiteModelExecutor* model_executor,
       const tflite::Interpreter* interpreter,
       const reflection::Schema* annotation_entity_data_schema,
       std::vector<ActionSuggestion>* actions) const;

   bool GatherActionsSuggestions(const Conversation& conversation,
                                 const Annotator* annotator,
                                 const ActionSuggestionOptions& options,
                                 ActionsSuggestionsResponse* response) const;

   std::unique_ptr<libtextclassifier3::ScopedMmap> mmap_;

   // Tensorflow Lite models.
   std::unique_ptr<const TfLiteModelExecutor> model_executor_;

   // Regex rules model.
   std::unique_ptr<RegexActions> regex_actions_;

   // The grammar rules model.
   std::unique_ptr<GrammarActions> grammar_actions_;

   std::unique_ptr<UniLib> owned_unilib_;
   const UniLib* unilib_;

   // Locales supported by the model.
   std::vector<Locale> locales_;

   // Annotation entities used by the model.
   std::unordered_set<std::string> annotation_entity_types_;

   // Builder for creating extra data.
   const reflection::Schema* entity_data_schema_;
   std::unique_ptr<MutableFlatbufferBuilder> entity_data_builder_;
   std::unique_ptr<ActionsSuggestionsRanker> ranker_;

   std::string lua_bytecode_;

   // Triggering preconditions. These parameters can be backed by the model and
   // (partially) be provided by flags.
   TriggeringPreconditionsT preconditions_;
   std::string triggering_preconditions_overlay_buffer_;
   const TriggeringPreconditions* triggering_preconditions_overlay_;

   // Low confidence input ngram classifier.
   std::unique_ptr<const SensitiveTopicModelBase> sensitive_model_;

   // Conversation intent detection model for additional actions.
   std::unique_ptr<const ConversationIntentDetection>
       conversation_intent_detection_;

   // Used for randomly selecting candidates.
   mutable absl::BitGen bit_gen_;
 };

 // Interprets the buffer as a Model flatbuffer and returns it for reading.
 const ActionsModel* ViewActionsModel(const void* buffer, int size);

 // Opens model from given path and runs a function, passing the loaded Model
 // flatbuffer as an argument.
 //
 // This is mainly useful if we don't want to pay the cost for the model
 // initialization because we'll be only reading some flatbuffer values from the
 // file.
 template <typename ReturnType, typename Func>
 ReturnType VisitActionsModel(const std::string& path, Func function) {
   ScopedMmap mmap(path);
   if (!mmap.handle().ok()) {
     function(/*model=*/nullptr);
   }
   const ActionsModel* model =
       ViewActionsModel(mmap.handle().start(), mmap.handle().num_bytes());
   return function(model);
 }

 class ActionsSuggestionsTypes {
  public:
   // Should be in sync with those defined in Android.
   // android/frameworks/base/core/java/android/view/textclassifier/ConversationActions.java
   static const std::string& ViewCalendar() {
     static const std::string& value =
         *[]() { return new std::string("view_calendar"); }();
     return value;
   }
   static const std::string& ViewMap() {
     static const std::string& value =
         *[]() { return new std::string("view_map"); }();
     return value;
   }
   static const std::string& TrackFlight() {
     static const std::string& value =
         *[]() { return new std::string("track_flight"); }();
     return value;
   }
   static const std::string& OpenUrl() {
     static const std::string& value =
         *[]() { return new std::string("open_url"); }();
     return value;
   }
   static const std::string& SendSms() {
     static const std::string& value =
         *[]() { return new std::string("send_sms"); }();
     return value;
   }
   static const std::string& CallPhone() {
     static const std::string& value =
         *[]() { return new std::string("call_phone"); }();
     return value;
   }
   static const std::string& SendEmail() {
     static const std::string& value =
         *[]() { return new std::string("send_email"); }();
     return value;
   }
   static const std::string& ShareLocation() {
     static const std::string& value =
         *[]() { return new std::string("share_location"); }();
     return value;
   }
   static const std::string& CreateReminder() {
     static const std::string& value =
         *[]() { return new std::string("create_reminder"); }();
     return value;
   }
   static const std::string& TextReply() {
     static const std::string& value =
         *[]() { return new std::string("text_reply"); }();
     return value;
   }
   static const std::string& AddContact() {
     static const std::string& value =
         *[]() { return new std::string("add_contact"); }();
     return value;
   }
   static const std::string& Copy() {
     static const std::string& value =
         *[]() { return new std::string("copy"); }();
     return value;
   }
 };

 }  // namespace libtextclassifier3

 #endif  // LIBTEXTCLASSIFIER_ACTIONS_ACTIONS_SUGGESTIONS_H_
	/*
	* Copyright (C) 2018 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.
	*/

	#ifndef LIBTEXTCLASSIFIER_ACTIONS_ACTIONS_SUGGESTIONS_H_
	#define LIBTEXTCLASSIFIER_ACTIONS_ACTIONS_SUGGESTIONS_H_

	#include <map>
	#include <memory>
	#include <string>
	#include <unordered_map>
	#include <unordered_set>
	#include <vector>

	#include "actions/actions_model_generated.h"
	#include "actions/conversation_intent_detection/conversation-intent-detection.h"
	#include "actions/feature-processor.h"
	#include "actions/grammar-actions.h"
	#include "actions/ranker.h"
	#include "actions/regex-actions.h"
	#include "actions/sensitive-classifier-base.h"
	#include "actions/types.h"
	#include "annotator/annotator.h"
	#include "annotator/model-executor.h"
	#include "annotator/types.h"
	#include "utils/flatbuffers/flatbuffers.h"
	#include "utils/flatbuffers/mutable.h"
	#include "utils/i18n/locale.h"
	#include "utils/memory/mmap.h"
	#include "utils/tflite-model-executor.h"
	#include "utils/utf8/unilib.h"
	#include "utils/variant.h"
	#include "utils/zlib/zlib.h"
	#include "absl/container/flat_hash_map.h"
	#include "absl/container/flat_hash_set.h"
	#include "absl/random/random.h"

	namespace libtextclassifier3 {

	// Class for predicting actions following a conversation.
	class ActionsSuggestions {
	public:
	// Creates ActionsSuggestions from given data buffer with model.
	static std::unique_ptr<ActionsSuggestions> FromUnownedBuffer(
	const uint8_t* buffer, const int size, const UniLib* unilib = nullptr,
	const std::string& triggering_preconditions_overlay = "");

	// Creates ActionsSuggestions from model in the ScopedMmap object and takes
	// ownership of it.
	static std::unique_ptr<ActionsSuggestions> FromScopedMmap(
	std::unique_ptr<libtextclassifier3::ScopedMmap> mmap,
	const UniLib* unilib = nullptr,
	const std::string& triggering_preconditions_overlay = "");
	// Same as above, but also takes ownership of the unilib.
	static std::unique_ptr<ActionsSuggestions> FromScopedMmap(
	std::unique_ptr<libtextclassifier3::ScopedMmap> mmap,
	std::unique_ptr<UniLib> unilib,
	const std::string& triggering_preconditions_overlay);

	// Creates ActionsSuggestions from model given as a file descriptor, offset
	// and size in it. If offset and size are less than 0, will ignore them and
	// will just use the fd.
	static std::unique_ptr<ActionsSuggestions> FromFileDescriptor(
	const int fd, const int offset, const int size,
	const UniLib* unilib = nullptr,
	const std::string& triggering_preconditions_overlay = "");
	// Same as above, but also takes ownership of the unilib.
	static std::unique_ptr<ActionsSuggestions> FromFileDescriptor(
	const int fd, const int offset, const int size,
	std::unique_ptr<UniLib> unilib,
	const std::string& triggering_preconditions_overlay = "");

	// Creates ActionsSuggestions from model given as a file descriptor.
	static std::unique_ptr<ActionsSuggestions> FromFileDescriptor(
	const int fd, const UniLib* unilib = nullptr,
	const std::string& triggering_preconditions_overlay = "");
	// Same as above, but also takes ownership of the unilib.
	static std::unique_ptr<ActionsSuggestions> FromFileDescriptor(
	const int fd, std::unique_ptr<UniLib> unilib,
	const std::string& triggering_preconditions_overlay);

	// Creates ActionsSuggestions from model given as a POSIX path.
	static std::unique_ptr<ActionsSuggestions> FromPath(
	const std::string& path, const UniLib* unilib = nullptr,
	const std::string& triggering_preconditions_overlay = "");
	// Same as above, but also takes ownership of unilib.
	static std::unique_ptr<ActionsSuggestions> FromPath(
	const std::string& path, std::unique_ptr<UniLib> unilib,
	const std::string& triggering_preconditions_overlay);

	ActionsSuggestionsResponse SuggestActions(
	const Conversation& conversation,
	const ActionSuggestionOptions& options = ActionSuggestionOptions()) const;

	ActionsSuggestionsResponse SuggestActions(
	const Conversation& conversation, const Annotator* annotator,
	const ActionSuggestionOptions& options = ActionSuggestionOptions()) const;

	bool InitializeConversationIntentDetection(
	const std::string& serialized_config);

	const ActionsModel* model() const;
	const reflection::Schema* entity_data_schema() const;

	static constexpr int kLocalUserId = 0;

	protected:
	// Exposed for testing.
	bool EmbedTokenId(const int32 token_id, std::vector<float>* embedding) const;

	// Embeds the tokens per message separately. Each message is padded to the
	// maximum length with the padding token.
	bool EmbedTokensPerMessage(const std::vector<std::vector<Token>>& tokens,
	std::vector<float>* embeddings,
	int* max_num_tokens_per_message) const;

	// Concatenates the embedded message tokens - separated by start and end
	// token between messages.
	// If the total token count is greater than the maximum length, tokens at the
	// start are dropped to fit into the limit.
	// If the total token count is smaller than the minimum length, padding tokens
	// are added to the end.
	// Messages are assumed to be ordered by recency - most recent is last.
	bool EmbedAndFlattenTokens(const std::vector<std::vector<Token>>& tokens,
	std::vector<float>* embeddings,
	int* total_token_count) const;

	const ActionsModel* model_;

	// Feature extractor and options.
	std::unique_ptr<const ActionsFeatureProcessor> feature_processor_;
	std::unique_ptr<const EmbeddingExecutor> embedding_executor_;
	std::vector<float> embedded_padding_token_;
	std::vector<float> embedded_start_token_;
	std::vector<float> embedded_end_token_;
	int token_embedding_size_;

	private:
	// Checks that model contains all required fields, and initializes internal
	// datastructures.
	bool ValidateAndInitialize();

	void SetOrCreateUnilib(const UniLib* unilib);

	// Prepare preconditions.
	// Takes values from flag provided data, but falls back to model provided
	// values for parameters that are not explicitly provided.
	bool InitializeTriggeringPreconditions();

	// Tokenizes a conversation and produces the tokens per message.
	std::vector<std::vector<Token>> Tokenize(
	const std::vector<std::string>& context) const;

	bool AllocateInput(const int conversation_length, const int max_tokens,
	const int total_token_count,
	tflite::Interpreter* interpreter) const;

	bool SetupModelInput(const std::vector<std::string>& context,
	const std::vector<int>& user_ids,
	const std::vector<float>& time_diffs,
	const int num_suggestions,
	const ActionSuggestionOptions& options,
	tflite::Interpreter* interpreter) const;

	void FillSuggestionFromSpecWithEntityData(const ActionSuggestionSpec* spec,
	ActionSuggestion* suggestion) const;

	void PopulateTextReplies(
	const tflite::Interpreter* interpreter, int suggestion_index,
	int score_index, const std::string& type, float priority_score,
	const absl::flat_hash_set<std::string>& blocklist,
	const absl::flat_hash_map<std::string, std::vector<std::string>>&
	concept_mappings,
	ActionsSuggestionsResponse* response) const;

	void PopulateIntentTriggering(const tflite::Interpreter* interpreter,
	int suggestion_index, int score_index,
	const ActionSuggestionSpec* task_spec,
	ActionsSuggestionsResponse* response) const;

	bool ReadModelOutput(tflite::Interpreter* interpreter,
	const ActionSuggestionOptions& options,
	ActionsSuggestionsResponse* response) const;

	bool SuggestActionsFromModel(
	const Conversation& conversation, const int num_messages,
	const ActionSuggestionOptions& options,
	ActionsSuggestionsResponse* response,
	std::unique_ptr<tflite::Interpreter>* interpreter) const;

	Status SuggestActionsFromConversationIntentDetection(
	const Conversation& conversation, const ActionSuggestionOptions& options,
	std::vector<ActionSuggestion>* actions) const;

	// Creates options for annotation of a message.
	AnnotationOptions AnnotationOptionsForMessage(
	const ConversationMessage& message) const;

	void SuggestActionsFromAnnotations(
	const Conversation& conversation,
	std::vector<ActionSuggestion>* actions) const;

	void SuggestActionsFromAnnotation(
	const int message_index, const ActionSuggestionAnnotation& annotation,
	std::vector<ActionSuggestion>* actions) const;

	// Run annotator on the messages of a conversation.
	Conversation AnnotateConversation(const Conversation& conversation,
	const Annotator* annotator) const;

	// Deduplicates equivalent annotations - annotations that have the same type
	// and same span text.
	// Returns the indices of the deduplicated annotations.
	std::vector<int> DeduplicateAnnotations(
	const std::vector<ActionSuggestionAnnotation>& annotations) const;

	bool SuggestActionsFromLua(
	const Conversation& conversation,
	const TfLiteModelExecutor* model_executor,
	const tflite::Interpreter* interpreter,
	const reflection::Schema* annotation_entity_data_schema,
	std::vector<ActionSuggestion>* actions) const;

	bool GatherActionsSuggestions(const Conversation& conversation,
	const Annotator* annotator,
	const ActionSuggestionOptions& options,
	ActionsSuggestionsResponse* response) const;

	std::unique_ptr<libtextclassifier3::ScopedMmap> mmap_;

	// Tensorflow Lite models.
	std::unique_ptr<const TfLiteModelExecutor> model_executor_;

	// Regex rules model.
	std::unique_ptr<RegexActions> regex_actions_;

	// The grammar rules model.
	std::unique_ptr<GrammarActions> grammar_actions_;

	std::unique_ptr<UniLib> owned_unilib_;
	const UniLib* unilib_;

	// Locales supported by the model.
	std::vector<Locale> locales_;

	// Annotation entities used by the model.
	std::unordered_set<std::string> annotation_entity_types_;

	// Builder for creating extra data.
	const reflection::Schema* entity_data_schema_;
	std::unique_ptr<MutableFlatbufferBuilder> entity_data_builder_;
	std::unique_ptr<ActionsSuggestionsRanker> ranker_;

	std::string lua_bytecode_;

	// Triggering preconditions. These parameters can be backed by the model and
	// (partially) be provided by flags.
	TriggeringPreconditionsT preconditions_;
	std::string triggering_preconditions_overlay_buffer_;
	const TriggeringPreconditions* triggering_preconditions_overlay_;

	// Low confidence input ngram classifier.
	std::unique_ptr<const SensitiveTopicModelBase> sensitive_model_;

	// Conversation intent detection model for additional actions.
	std::unique_ptr<const ConversationIntentDetection>
	conversation_intent_detection_;

	// Used for randomly selecting candidates.
	mutable absl::BitGen bit_gen_;
	};

	// Interprets the buffer as a Model flatbuffer and returns it for reading.
	const ActionsModel* ViewActionsModel(const void* buffer, int size);

	// Opens model from given path and runs a function, passing the loaded Model
	// flatbuffer as an argument.
	//
	// This is mainly useful if we don't want to pay the cost for the model
	// initialization because we'll be only reading some flatbuffer values from the
	// file.
	template <typename ReturnType, typename Func>
	ReturnType VisitActionsModel(const std::string& path, Func function) {
	ScopedMmap mmap(path);
	if (!mmap.handle().ok()) {
	function(/model=/nullptr);
	}
	const ActionsModel* model =
	ViewActionsModel(mmap.handle().start(), mmap.handle().num_bytes());
	return function(model);
	}

	class ActionsSuggestionsTypes {
	public:
	// Should be in sync with those defined in Android.
	// android/frameworks/base/core/java/android/view/textclassifier/ConversationActions.java
	static const std::string& ViewCalendar() {
	static const std::string& value =
	*[]() { return new std::string("view_calendar"); }();
	return value;
	}
	static const std::string& ViewMap() {
	static const std::string& value =
	*[]() { return new std::string("view_map"); }();
	return value;
	}
	static const std::string& TrackFlight() {
	static const std::string& value =
	*[]() { return new std::string("track_flight"); }();
	return value;
	}
	static const std::string& OpenUrl() {
	static const std::string& value =
	*[]() { return new std::string("open_url"); }();
	return value;
	}
	static const std::string& SendSms() {
	static const std::string& value =
	*[]() { return new std::string("send_sms"); }();
	return value;
	}
	static const std::string& CallPhone() {
	static const std::string& value =
	*[]() { return new std::string("call_phone"); }();
	return value;
	}
	static const std::string& SendEmail() {
	static const std::string& value =
	*[]() { return new std::string("send_email"); }();
	return value;
	}
	static const std::string& ShareLocation() {
	static const std::string& value =
	*[]() { return new std::string("share_location"); }();
	return value;
	}
	static const std::string& CreateReminder() {
	static const std::string& value =
	*[]() { return new std::string("create_reminder"); }();
	return value;
	}
	static const std::string& TextReply() {
	static const std::string& value =
	*[]() { return new std::string("text_reply"); }();
	return value;
	}
	static const std::string& AddContact() {
	static const std::string& value =
	*[]() { return new std::string("add_contact"); }();
	return value;
	}
	static const std::string& Copy() {
	static const std::string& value =
	*[]() { return new std::string("copy"); }();
	return value;
	}
	};

	} // namespace libtextclassifier3

	#endif // LIBTEXTCLASSIFIER_ACTIONS_ACTIONS_SUGGESTIONS_H_