// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef CHROME_BROWSER_SPEECH_TTS_CONTROLLER_H_ #define CHROME_BROWSER_SPEECH_TTS_CONTROLLER_H_ #include #include #include #include #include #include "base/memory/singleton.h" #include "base/memory/weak_ptr.h" #include "url/gurl.h" class Utterance; class TtsPlatformImpl; namespace base { class Value; } namespace content { class BrowserContext; } // Events sent back from the TTS engine indicating the progress. enum TtsEventType { TTS_EVENT_START, TTS_EVENT_END, TTS_EVENT_WORD, TTS_EVENT_SENTENCE, TTS_EVENT_MARKER, TTS_EVENT_INTERRUPTED, TTS_EVENT_CANCELLED, TTS_EVENT_ERROR, TTS_EVENT_PAUSE, TTS_EVENT_RESUME }; enum TtsGenderType { TTS_GENDER_NONE, TTS_GENDER_MALE, TTS_GENDER_FEMALE }; // Returns true if this event type is one that indicates an utterance // is finished and can be destroyed. bool IsFinalTtsEventType(TtsEventType event_type); // The continuous parameters that apply to a given utterance. struct UtteranceContinuousParameters { UtteranceContinuousParameters(); double rate; double pitch; double volume; }; // Information about one voice. struct VoiceData { VoiceData(); ~VoiceData(); std::string name; std::string lang; TtsGenderType gender; std::string extension_id; std::set events; // If true, the synthesis engine is a remote network resource. // It may be higher latency and may incur bandwidth costs. bool remote; // If true, this is implemented by this platform's subclass of // TtsPlatformImpl. If false, this is implemented by an extension. bool native; std::string native_voice_identifier; }; // Interface that delegates TTS requests to user-installed extensions. class TtsEngineDelegate { public: virtual ~TtsEngineDelegate() {} // Return a list of all available voices registered. virtual void GetVoices(content::BrowserContext* browser_context, std::vector* out_voices) = 0; // Speak the given utterance by sending an event to the given TTS engine. virtual void Speak(Utterance* utterance, const VoiceData& voice) = 0; // Stop speaking the given utterance by sending an event to the target // associated with this utterance. virtual void Stop(Utterance* utterance) = 0; // Pause in the middle of speaking this utterance. virtual void Pause(Utterance* utterance) = 0; // Resume speaking this utterance. virtual void Resume(Utterance* utterance) = 0; // Load the built-in component extension for ChromeOS. virtual bool LoadBuiltInTtsExtension( content::BrowserContext* browser_context) = 0; }; // Class that wants to receive events on utterances. class UtteranceEventDelegate { public: virtual ~UtteranceEventDelegate() {} virtual void OnTtsEvent(Utterance* utterance, TtsEventType event_type, int char_index, const std::string& error_message) = 0; }; // Class that wants to be notified when the set of // voices has changed. class VoicesChangedDelegate { public: virtual ~VoicesChangedDelegate() {} virtual void OnVoicesChanged() = 0; }; // One speech utterance. class Utterance { public: // Construct an utterance given a profile and a completion task to call // when the utterance is done speaking. Before speaking this utterance, // its other parameters like text, rate, pitch, etc. should all be set. explicit Utterance(content::BrowserContext* browser_context); ~Utterance(); // Sends an event to the delegate. If the event type is TTS_EVENT_END // or TTS_EVENT_ERROR, deletes the utterance. If |char_index| is -1, // uses the last good value. void OnTtsEvent(TtsEventType event_type, int char_index, const std::string& error_message); // Finish an utterance without sending an event to the delegate. void Finish(); // Getters and setters for the text to speak and other speech options. void set_text(const std::string& text) { text_ = text; } const std::string& text() const { return text_; } void set_options(const base::Value* options); const base::Value* options() const { return options_.get(); } void set_src_extension_id(const std::string& src_extension_id) { src_extension_id_ = src_extension_id; } const std::string& src_extension_id() { return src_extension_id_; } void set_src_id(int src_id) { src_id_ = src_id; } int src_id() { return src_id_; } void set_src_url(const GURL& src_url) { src_url_ = src_url; } const GURL& src_url() { return src_url_; } void set_voice_name(const std::string& voice_name) { voice_name_ = voice_name; } const std::string& voice_name() const { return voice_name_; } void set_lang(const std::string& lang) { lang_ = lang; } const std::string& lang() const { return lang_; } void set_gender(TtsGenderType gender) { gender_ = gender; } TtsGenderType gender() const { return gender_; } void set_continuous_parameters(const UtteranceContinuousParameters& params) { continuous_parameters_ = params; } const UtteranceContinuousParameters& continuous_parameters() { return continuous_parameters_; } void set_can_enqueue(bool can_enqueue) { can_enqueue_ = can_enqueue; } bool can_enqueue() const { return can_enqueue_; } void set_required_event_types(const std::set& types) { required_event_types_ = types; } const std::set& required_event_types() const { return required_event_types_; } void set_desired_event_types(const std::set& types) { desired_event_types_ = types; } const std::set& desired_event_types() const { return desired_event_types_; } const std::string& extension_id() const { return extension_id_; } void set_extension_id(const std::string& extension_id) { extension_id_ = extension_id; } UtteranceEventDelegate* event_delegate() const { return event_delegate_.get(); } void set_event_delegate( base::WeakPtr event_delegate) { event_delegate_ = event_delegate; } // Getters and setters for internal state. content::BrowserContext* browser_context() const { return browser_context_; } int id() const { return id_; } bool finished() const { return finished_; } private: // The BrowserContext that initiated this utterance. content::BrowserContext* browser_context_; // The extension ID of the extension providing TTS for this utterance, or // empty if native TTS is being used. std::string extension_id_; // The unique ID of this utterance, used to associate callback functions // with utterances. int id_; // The id of the next utterance, so we can associate requests with // responses. static int next_utterance_id_; // The text to speak. std::string text_; // The full options arg passed to tts.speak, which may include fields // other than the ones we explicitly parse, below. std::unique_ptr options_; // The extension ID of the extension that called speak() and should // receive events. std::string src_extension_id_; // The source extension's ID of this utterance, so that it can associate // events with the appropriate callback. int src_id_; // The URL of the page where the source extension called speak. GURL src_url_; // The delegate to be called when an utterance event is fired. base::WeakPtr event_delegate_; // The parsed options. std::string voice_name_; std::string lang_; TtsGenderType gender_; UtteranceContinuousParameters continuous_parameters_; bool can_enqueue_; std::set required_event_types_; std::set desired_event_types_; // The index of the current char being spoken. int char_index_; // True if this utterance received an event indicating it's done. bool finished_; }; // Singleton class that manages text-to-speech for the TTS and TTS engine // extension APIs, maintaining a queue of pending utterances and keeping // track of all state. class TtsController { public: // Get the single instance of this class. static TtsController* GetInstance(); // Returns true if we're currently speaking an utterance. virtual bool IsSpeaking() = 0; // Speak the given utterance. If the utterance's can_enqueue flag is true // and another utterance is in progress, adds it to the end of the queue. // Otherwise, interrupts any current utterance and speaks this one // immediately. virtual void SpeakOrEnqueue(Utterance* utterance) = 0; // Stop all utterances and flush the queue. Implies leaving pause mode // as well. virtual void Stop() = 0; // Pause the speech queue. Some engines may support pausing in the middle // of an utterance. virtual void Pause() = 0; // Resume speaking. virtual void Resume() = 0; // Handle events received from the speech engine. Events are forwarded to // the callback function, and in addition, completion and error events // trigger finishing the current utterance and starting the next one, if // any. virtual void OnTtsEvent(int utterance_id, TtsEventType event_type, int char_index, const std::string& error_message) = 0; // Return a list of all available voices, including the native voice, // if supported, and all voices registered by extensions. virtual void GetVoices(content::BrowserContext* browser_context, std::vector* out_voices) = 0; // Called by the extension system or platform implementation when the // list of voices may have changed and should be re-queried. virtual void VoicesChanged() = 0; // Add a delegate that wants to be notified when the set of voices changes. virtual void AddVoicesChangedDelegate(VoicesChangedDelegate* delegate) = 0; // Remove delegate that wants to be notified when the set of voices changes. virtual void RemoveVoicesChangedDelegate(VoicesChangedDelegate* delegate) = 0; // Set the delegate that processes TTS requests with user-installed // extensions. virtual void SetTtsEngineDelegate(TtsEngineDelegate* delegate) = 0; // Get the delegate that processes TTS requests with user-installed // extensions. virtual TtsEngineDelegate* GetTtsEngineDelegate() = 0; // For unit testing. virtual void SetPlatformImpl(TtsPlatformImpl* platform_impl) = 0; virtual int QueueSize() = 0; protected: virtual ~TtsController() {} }; #endif // CHROME_BROWSER_SPEECH_TTS_CONTROLLER_H_