// 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. #include #include #include "base/command_line.h" #include "base/debug/leak_annotations.h" #include "base/memory/scoped_ptr.h" #include "base/memory/singleton.h" #include "base/synchronization/lock.h" #include "chrome/browser/speech/tts_platform.h" #include "content/public/browser/browser_thread.h" #include "content/public/common/content_switches.h" #include "library_loaders/libspeechd.h" using content::BrowserThread; namespace { const char kNotSupportedError[] = "Native speech synthesis not supported on this platform."; struct SPDChromeVoice { std::string name; std::string module; }; } // namespace class TtsPlatformImplLinux : public TtsPlatformImpl { public: bool PlatformImplAvailable() override; bool Speak(int utterance_id, const std::string& utterance, const std::string& lang, const VoiceData& voice, const UtteranceContinuousParameters& params) override; bool StopSpeaking() override; void Pause() override; void Resume() override; bool IsSpeaking() override; void GetVoices(std::vector* out_voices) override; void OnSpeechEvent(SPDNotificationType type); // Get the single instance of this class. static TtsPlatformImplLinux* GetInstance(); private: TtsPlatformImplLinux(); ~TtsPlatformImplLinux() override; // Initiate the connection with the speech dispatcher. void Initialize(); // Resets the connection with speech dispatcher. void Reset(); static void NotificationCallback(size_t msg_id, size_t client_id, SPDNotificationType type); static void IndexMarkCallback(size_t msg_id, size_t client_id, SPDNotificationType state, char* index_mark); static SPDNotificationType current_notification_; base::Lock initialization_lock_; LibSpeechdLoader libspeechd_loader_; SPDConnection* conn_; // These apply to the current utterance only. std::string utterance_; int utterance_id_; // Map a string composed of a voicename and module to the voicename. Used to // uniquely identify a voice across all available modules. std::unique_ptr > all_native_voices_; friend struct base::DefaultSingletonTraits; DISALLOW_COPY_AND_ASSIGN(TtsPlatformImplLinux); }; // static SPDNotificationType TtsPlatformImplLinux::current_notification_ = SPD_EVENT_END; TtsPlatformImplLinux::TtsPlatformImplLinux() : utterance_id_(0) { const base::CommandLine& command_line = *base::CommandLine::ForCurrentProcess(); if (!command_line.HasSwitch(switches::kEnableSpeechDispatcher)) return; BrowserThread::PostTask(BrowserThread::FILE, FROM_HERE, base::Bind(&TtsPlatformImplLinux::Initialize, base::Unretained(this))); } void TtsPlatformImplLinux::Initialize() { base::AutoLock lock(initialization_lock_); if (!libspeechd_loader_.Load("libspeechd.so.2")) return; { // spd_open has memory leaks which are hard to suppress. // http://crbug.com/317360 ANNOTATE_SCOPED_MEMORY_LEAK; conn_ = libspeechd_loader_.spd_open( "chrome", "extension_api", NULL, SPD_MODE_THREADED); } if (!conn_) return; // Register callbacks for all events. conn_->callback_begin = conn_->callback_end = conn_->callback_cancel = conn_->callback_pause = conn_->callback_resume = &NotificationCallback; conn_->callback_im = &IndexMarkCallback; libspeechd_loader_.spd_set_notification_on(conn_, SPD_BEGIN); libspeechd_loader_.spd_set_notification_on(conn_, SPD_END); libspeechd_loader_.spd_set_notification_on(conn_, SPD_CANCEL); libspeechd_loader_.spd_set_notification_on(conn_, SPD_PAUSE); libspeechd_loader_.spd_set_notification_on(conn_, SPD_RESUME); } TtsPlatformImplLinux::~TtsPlatformImplLinux() { base::AutoLock lock(initialization_lock_); if (conn_) { libspeechd_loader_.spd_close(conn_); conn_ = NULL; } } void TtsPlatformImplLinux::Reset() { base::AutoLock lock(initialization_lock_); if (conn_) libspeechd_loader_.spd_close(conn_); conn_ = libspeechd_loader_.spd_open( "chrome", "extension_api", NULL, SPD_MODE_THREADED); } bool TtsPlatformImplLinux::PlatformImplAvailable() { if (!initialization_lock_.Try()) return false; bool result = libspeechd_loader_.loaded() && (conn_ != NULL); initialization_lock_.Release(); return result; } bool TtsPlatformImplLinux::Speak( int utterance_id, const std::string& utterance, const std::string& lang, const VoiceData& voice, const UtteranceContinuousParameters& params) { if (!PlatformImplAvailable()) { error_ = kNotSupportedError; return false; } // Speech dispatcher's speech params are around 3x at either limit. float rate = params.rate > 3 ? 3 : params.rate; rate = params.rate < 0.334 ? 0.334 : rate; float pitch = params.pitch > 3 ? 3 : params.pitch; pitch = params.pitch < 0.334 ? 0.334 : pitch; std::map::iterator it = all_native_voices_->find(voice.name); if (it != all_native_voices_->end()) { libspeechd_loader_.spd_set_output_module(conn_, it->second.module.c_str()); libspeechd_loader_.spd_set_synthesis_voice(conn_, it->second.name.c_str()); } // Map our multiplicative range to Speech Dispatcher's linear range. // .334 = -100. // 3 = 100. libspeechd_loader_.spd_set_voice_rate(conn_, 100 * log10(rate) / log10(3)); libspeechd_loader_.spd_set_voice_pitch(conn_, 100 * log10(pitch) / log10(3)); // Support languages other than the default if (!lang.empty()) libspeechd_loader_.spd_set_language(conn_, lang.c_str()); utterance_ = utterance; utterance_id_ = utterance_id; if (libspeechd_loader_.spd_say(conn_, SPD_TEXT, utterance.c_str()) == -1) { Reset(); return false; } return true; } bool TtsPlatformImplLinux::StopSpeaking() { if (!PlatformImplAvailable()) return false; if (libspeechd_loader_.spd_stop(conn_) == -1) { Reset(); return false; } return true; } void TtsPlatformImplLinux::Pause() { if (!PlatformImplAvailable()) return; libspeechd_loader_.spd_pause(conn_); } void TtsPlatformImplLinux::Resume() { if (!PlatformImplAvailable()) return; libspeechd_loader_.spd_resume(conn_); } bool TtsPlatformImplLinux::IsSpeaking() { return current_notification_ == SPD_EVENT_BEGIN; } void TtsPlatformImplLinux::GetVoices( std::vector* out_voices) { if (!all_native_voices_.get()) { all_native_voices_.reset(new std::map()); char** modules = libspeechd_loader_.spd_list_modules(conn_); if (!modules) return; for (int i = 0; modules[i]; i++) { char* module = modules[i]; libspeechd_loader_.spd_set_output_module(conn_, module); SPDVoice** native_voices = libspeechd_loader_.spd_list_synthesis_voices(conn_); if (!native_voices) { free(module); continue; } for (int j = 0; native_voices[j]; j++) { SPDVoice* native_voice = native_voices[j]; SPDChromeVoice native_data; native_data.name = native_voice->name; native_data.module = module; std::string key; key.append(native_data.name); key.append(" "); key.append(native_data.module); all_native_voices_->insert( std::pair(key, native_data)); free(native_voices[j]); } free(modules[i]); } } for (std::map::iterator it = all_native_voices_->begin(); it != all_native_voices_->end(); it++) { out_voices->push_back(VoiceData()); VoiceData& voice = out_voices->back(); voice.native = true; voice.name = it->first; voice.events.insert(TTS_EVENT_START); voice.events.insert(TTS_EVENT_END); voice.events.insert(TTS_EVENT_CANCELLED); voice.events.insert(TTS_EVENT_MARKER); voice.events.insert(TTS_EVENT_PAUSE); voice.events.insert(TTS_EVENT_RESUME); } } void TtsPlatformImplLinux::OnSpeechEvent(SPDNotificationType type) { TtsController* controller = TtsController::GetInstance(); switch (type) { case SPD_EVENT_BEGIN: controller->OnTtsEvent(utterance_id_, TTS_EVENT_START, 0, std::string()); break; case SPD_EVENT_RESUME: controller->OnTtsEvent(utterance_id_, TTS_EVENT_RESUME, 0, std::string()); break; case SPD_EVENT_END: controller->OnTtsEvent( utterance_id_, TTS_EVENT_END, utterance_.size(), std::string()); break; case SPD_EVENT_PAUSE: controller->OnTtsEvent( utterance_id_, TTS_EVENT_PAUSE, utterance_.size(), std::string()); break; case SPD_EVENT_CANCEL: controller->OnTtsEvent( utterance_id_, TTS_EVENT_CANCELLED, 0, std::string()); break; case SPD_EVENT_INDEX_MARK: controller->OnTtsEvent(utterance_id_, TTS_EVENT_MARKER, 0, std::string()); break; } } // static void TtsPlatformImplLinux::NotificationCallback( size_t msg_id, size_t client_id, SPDNotificationType type) { // We run Speech Dispatcher in threaded mode, so these callbacks should always // be in a separate thread. if (!BrowserThread::CurrentlyOn(BrowserThread::UI)) { current_notification_ = type; BrowserThread::PostTask( BrowserThread::UI, FROM_HERE, base::Bind(&TtsPlatformImplLinux::OnSpeechEvent, base::Unretained(TtsPlatformImplLinux::GetInstance()), type)); } } // static void TtsPlatformImplLinux::IndexMarkCallback(size_t msg_id, size_t client_id, SPDNotificationType state, char* index_mark) { // TODO(dtseng): index_mark appears to specify an index type supplied by a // client. Need to explore how this is used before hooking it up with existing // word, sentence events. // We run Speech Dispatcher in threaded mode, so these callbacks should always // be in a separate thread. if (!BrowserThread::CurrentlyOn(BrowserThread::UI)) { current_notification_ = state; BrowserThread::PostTask(BrowserThread::UI, FROM_HERE, base::Bind(&TtsPlatformImplLinux::OnSpeechEvent, base::Unretained(TtsPlatformImplLinux::GetInstance()), state)); } } // static TtsPlatformImplLinux* TtsPlatformImplLinux::GetInstance() { return base::Singleton< TtsPlatformImplLinux, base::LeakySingletonTraits>::get(); } // static TtsPlatformImpl* TtsPlatformImpl::GetInstance() { return TtsPlatformImplLinux::GetInstance(); }