# Copyright: Ankitects Pty Ltd and contributors # License: GNU AGPL, version 3 or later; http://www.gnu.org/licenses/agpl.html """ Basic text to speech support. Users can use the following in their card template: {{tts en_US:Field}} or {{tts ja_JP voices=Kyoko,Otoya,Another_name:Field}} The first argument must be an underscored language code, eg en_US. If provided, voices is a comma-separated list of one or more voices that the user would prefer. Spaces must not be included. Underscores will be converted to spaces. AVPlayer decides which TTSPlayer to use based on the returned rank. In the default implementation, the TTS player is chosen based on the order of voices the user has specified. When adding new TTS players, your code can either expose the underlying names the TTS engine provides, or simply expose the name of the engine, which would mean the user could write {{tts en_AU voices=MyEngine}} to prioritize your engine. """ from __future__ import annotations import asyncio import os import re import subprocess import threading from concurrent.futures import Future from dataclasses import dataclass from operator import attrgetter from typing import Any, cast import anki import anki.template from anki import hooks from anki.sound import AVTag, TTSTag from anki.utils import checksum, is_win, tmpdir from aqt import gui_hooks from aqt.sound import OnDoneCallback, SimpleProcessPlayer from aqt.utils import tooltip, tr @dataclass class TTSVoice: name: str lang: str @dataclass class TTSVoiceMatch: voice: TTSVoice rank: int class TTSPlayer: default_rank = 0 _available_voices: list[TTSVoice] | None = None def get_available_voices(self) -> list[TTSVoice]: return [] def voices(self) -> list[TTSVoice]: if self._available_voices is None: self._available_voices = self.get_available_voices() return self._available_voices def voice_for_tag(self, tag: TTSTag) -> TTSVoiceMatch | None: avail_voices = self.voices() rank = self.default_rank # any requested voices match? for requested_voice in tag.voices: for avail in avail_voices: if avail.name == requested_voice and avail.lang == tag.lang: return TTSVoiceMatch(voice=avail, rank=rank) rank -= 1 # if no preferred voices match, we fall back on language # with a rank of -100 for avail in avail_voices: if avail.lang == tag.lang: return TTSVoiceMatch(voice=avail, rank=-100) return None def temp_file_for_tag_and_voice(self, tag: AVTag, voice: TTSVoice) -> str: """Return a hashed filename, to allow for caching generated files. No file extension is included.""" assert isinstance(tag, TTSTag) buf = f"{voice.name}-{voice.lang}-{tag.field_text}" return os.path.join(tmpdir(), f"tts-{checksum(buf)}") class TTSProcessPlayer(SimpleProcessPlayer, TTSPlayer): # mypy gets confused if rank_for_tag is defined in TTSPlayer def rank_for_tag(self, tag: AVTag) -> int | None: if not isinstance(tag, TTSTag): return None match = self.voice_for_tag(tag) if match: return match.rank else: return None # tts-voices filter ########################################################################## def all_tts_voices() -> list[TTSVoice]: from aqt.sound import av_player all_voices: list[TTSVoice] = [] for p in av_player.players: getter = getattr(p, "voices", None) if not getter: continue all_voices.extend(getter()) return all_voices def on_tts_voices( text: str, field: str, filter: str, ctx: anki.template.TemplateRenderContext ) -> str: if filter != "tts-voices": return text voices = all_tts_voices() voices.sort(key=attrgetter("name")) voices.sort(key=attrgetter("lang")) buf = "
TTS voices available:
" buf += "
".join( f"{{{{tts {v.lang} voices={v.name}}}}}" # pylint: disable=no-member for v in voices ) return f"{buf}
" hooks.field_filter.append(on_tts_voices) # Mac support ########################################################################## @dataclass class MacVoice(TTSVoice): original_name: str # pylint: disable=no-member class MacTTSPlayer(TTSProcessPlayer): "Invokes a process to play the audio in the background." VOICE_HELP_LINE_RE = re.compile(r"^(.+)\s+(\S+)\s+#.*$") def _play(self, tag: AVTag) -> None: assert isinstance(tag, TTSTag) match = self.voice_for_tag(tag) assert match voice = match.voice assert isinstance(voice, MacVoice) default_wpm = 170 words_per_min = str(int(default_wpm * tag.speed)) self._process = subprocess.Popen( ["say", "-v", voice.original_name, "-r", words_per_min, "-f", "-"], stdin=subprocess.PIPE, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, ) # write the input text to stdin self._process.stdin.write(tag.field_text.encode("utf8")) self._process.stdin.close() self._wait_for_termination(tag) def get_available_voices(self) -> list[TTSVoice]: cmd = subprocess.run( ["say", "-v", "?"], capture_output=True, check=True, encoding="utf8" ) voices = [] for line in cmd.stdout.splitlines(): voice = self._parse_voice_line(line) if voice: voices.append(voice) return voices def _parse_voice_line(self, line: str) -> TTSVoice | None: m = self.VOICE_HELP_LINE_RE.match(line) if not m: return None original_name = m.group(1).strip() tidy_name = f"Apple_{original_name.replace(' ', '_')}" return MacVoice(name=tidy_name, original_name=original_name, lang=m.group(2)) class MacTTSFilePlayer(MacTTSPlayer): "Generates an .aiff file, which is played using av_player." tmppath = os.path.join(tmpdir(), "tts.aiff") def _play(self, tag: AVTag) -> None: assert isinstance(tag, TTSTag) match = self.voice_for_tag(tag) assert match voice = match.voice assert isinstance(voice, MacVoice) default_wpm = 170 words_per_min = str(int(default_wpm * tag.speed)) self._process = subprocess.Popen( [ "say", "-v", voice.original_name, "-r", words_per_min, "-f", "-", "-o", self.tmppath, ], stdin=subprocess.PIPE, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, ) # write the input text to stdin self._process.stdin.write(tag.field_text.encode("utf8")) self._process.stdin.close() self._wait_for_termination(tag) def _on_done(self, ret: Future, cb: OnDoneCallback) -> None: ret.result() # inject file into the top of the audio queue from aqt.sound import av_player av_player.insert_file(self.tmppath) # then tell player to advance, which will cause the file to be played cb() # Windows support ########################################################################## @dataclass class WindowsVoice(TTSVoice): handle: Any if is_win: import win32com.client # pylint: disable=import-error # language ID map from https://github.com/sindresorhus/lcid/blob/master/lcid.json LCIDS = { "4": "zh_CHS", "1025": "ar_SA", "1026": "bg_BG", "1027": "ca_ES", "1028": "zh_TW", "1029": "cs_CZ", "1030": "da_DK", "1031": "de_DE", "1032": "el_GR", "1033": "en_US", "1034": "es_ES", "1035": "fi_FI", "1036": "fr_FR", "1037": "he_IL", "1038": "hu_HU", "1039": "is_IS", "1040": "it_IT", "1041": "ja_JP", "1042": "ko_KR", "1043": "nl_NL", "1044": "nb_NO", "1045": "pl_PL", "1046": "pt_BR", "1047": "rm_CH", "1048": "ro_RO", "1049": "ru_RU", "1050": "hr_HR", "1051": "sk_SK", "1052": "sq_AL", "1053": "sv_SE", "1054": "th_TH", "1055": "tr_TR", "1056": "ur_PK", "1057": "id_ID", "1058": "uk_UA", "1059": "be_BY", "1060": "sl_SI", "1061": "et_EE", "1062": "lv_LV", "1063": "lt_LT", "1064": "tg_TJ", "1065": "fa_IR", "1066": "vi_VN", "1067": "hy_AM", "1069": "eu_ES", "1070": "wen_DE", "1071": "mk_MK", "1074": "tn_ZA", "1076": "xh_ZA", "1077": "zu_ZA", "1078": "af_ZA", "1079": "ka_GE", "1080": "fo_FO", "1081": "hi_IN", "1082": "mt_MT", "1083": "se_NO", "1086": "ms_MY", "1087": "kk_KZ", "1088": "ky_KG", "1089": "sw_KE", "1090": "tk_TM", "1092": "tt_RU", "1093": "bn_IN", "1094": "pa_IN", "1095": "gu_IN", "1096": "or_IN", "1097": "ta_IN", "1098": "te_IN", "1099": "kn_IN", "1100": "ml_IN", "1101": "as_IN", "1102": "mr_IN", "1103": "sa_IN", "1104": "mn_MN", "1105": "bo_CN", "1106": "cy_GB", "1107": "kh_KH", "1108": "lo_LA", "1109": "my_MM", "1110": "gl_ES", "1111": "kok_IN", "1114": "syr_SY", "1115": "si_LK", "1118": "am_ET", "1121": "ne_NP", "1122": "fy_NL", "1123": "ps_AF", "1124": "fil_PH", "1125": "div_MV", "1128": "ha_NG", "1130": "yo_NG", "1131": "quz_BO", "1132": "ns_ZA", "1133": "ba_RU", "1134": "lb_LU", "1135": "kl_GL", "1144": "ii_CN", "1146": "arn_CL", "1148": "moh_CA", "1150": "br_FR", "1152": "ug_CN", "1153": "mi_NZ", "1154": "oc_FR", "1155": "co_FR", "1156": "gsw_FR", "1157": "sah_RU", "1158": "qut_GT", "1159": "rw_RW", "1160": "wo_SN", "1164": "gbz_AF", "2049": "ar_IQ", "2052": "zh_CN", "2055": "de_CH", "2057": "en_GB", "2058": "es_MX", "2060": "fr_BE", "2064": "it_CH", "2067": "nl_BE", "2068": "nn_NO", "2070": "pt_PT", "2077": "sv_FI", "2080": "ur_IN", "2092": "az_AZ", "2094": "dsb_DE", "2107": "se_SE", "2108": "ga_IE", "2110": "ms_BN", "2115": "uz_UZ", "2128": "mn_CN", "2129": "bo_BT", "2141": "iu_CA", "2143": "tmz_DZ", "2155": "quz_EC", "3073": "ar_EG", "3076": "zh_HK", "3079": "de_AT", "3081": "en_AU", "3082": "es_ES", "3084": "fr_CA", "3098": "sr_SP", "3131": "se_FI", "3179": "quz_PE", "4097": "ar_LY", "4100": "zh_SG", "4103": "de_LU", "4105": "en_CA", "4106": "es_GT", "4108": "fr_CH", "4122": "hr_BA", "4155": "smj_NO", "5121": "ar_DZ", "5124": "zh_MO", "5127": "de_LI", "5129": "en_NZ", "5130": "es_CR", "5132": "fr_LU", "5179": "smj_SE", "6145": "ar_MA", "6153": "en_IE", "6154": "es_PA", "6156": "fr_MC", "6203": "sma_NO", "7169": "ar_TN", "7177": "en_ZA", "7178": "es_DO", "7194": "sr_BA", "7227": "sma_SE", "8193": "ar_OM", "8201": "en_JA", "8202": "es_VE", "8218": "bs_BA", "8251": "sms_FI", "9217": "ar_YE", "9225": "en_CB", "9226": "es_CO", "9275": "smn_FI", "10241": "ar_SY", "10249": "en_BZ", "10250": "es_PE", "11265": "ar_JO", "11273": "en_TT", "11274": "es_AR", "12289": "ar_LB", "12297": "en_ZW", "12298": "es_EC", "13313": "ar_KW", "13321": "en_PH", "13322": "es_CL", "14337": "ar_AE", "14346": "es_UR", "15361": "ar_BH", "15370": "es_PY", "16385": "ar_QA", "16394": "es_BO", "17417": "en_MY", "17418": "es_SV", "18441": "en_IN", "18442": "es_HN", "19466": "es_NI", "20490": "es_PR", "21514": "es_US", "31748": "zh_CHT", } def lcid_hex_str_to_lang_codes(hex_codes: str) -> list[str]: return [ LCIDS.get(str(int(code, 16)), "unknown") for code in hex_codes.split(";") ] class WindowsTTSPlayer(TTSProcessPlayer): default_rank = -1 try: speaker = win32com.client.Dispatch("SAPI.SpVoice") except: speaker = None def get_available_voices(self) -> list[TTSVoice]: if self.speaker is None: return [] return [ obj for voice in self.speaker.GetVoices() for obj in self._voice_to_objects(voice) ] def _voice_to_objects(self, voice: Any) -> list[WindowsVoice]: try: langs = voice.GetAttribute("language") except: # no associated language; ignore return [] langs = lcid_hex_str_to_lang_codes(langs) try: name = voice.GetAttribute("name") except: # some voices may not have a name name = "unknown" name = self._tidy_name(name) return [WindowsVoice(name=name, lang=lang, handle=voice) for lang in langs] def _play(self, tag: AVTag) -> None: assert isinstance(tag, TTSTag) match = self.voice_for_tag(tag) assert match voice = cast(WindowsVoice, match.voice) try: native_voice = voice.handle self.speaker.Voice = native_voice self.speaker.Rate = self._rate_for_speed(tag.speed) self.speaker.Speak(tag.field_text, 1) gui_hooks.av_player_did_begin_playing(self, tag) # wait 100ms while not self.speaker.WaitUntilDone(100): if self._terminate_flag: # stop playing self.speaker.Skip("Sentence", 2**15) return finally: self._terminate_flag = False def _tidy_name(self, name: str) -> str: "eg. Microsoft Haruka Desktop -> Microsoft_Haruka." return re.sub(r"^Microsoft (.+) Desktop$", "Microsoft_\\1", name).replace( " ", "_" ) def _rate_for_speed(self, speed: float) -> int: "eg. 1.5 -> 15, 0.5 -> -5" speed = (speed * 10) - 10 return int(max(-10, min(10, speed))) @dataclass class WindowsRTVoice(TTSVoice): id: Any class WindowsRTTTSFilePlayer(TTSProcessPlayer): voice_list: list[Any] = [] tmppath = os.path.join(tmpdir(), "tts.wav") def import_voices(self) -> None: import winsdk.windows.media.speechsynthesis as speechsynthesis # type: ignore try: self.voice_list = speechsynthesis.SpeechSynthesizer.get_all_voices() # type: ignore except Exception as e: print("winsdk tts voices unavailable:", e) self.voice_list = [] def get_available_voices(self) -> list[TTSVoice]: t = threading.Thread(target=self.import_voices) t.start() t.join() return list(map(self._voice_to_object, self.voice_list)) def _voice_to_object(self, voice: Any) -> TTSVoice: return WindowsRTVoice( id=voice.id, name=voice.display_name.replace(" ", "_"), lang=voice.language.replace("-", "_"), ) def _play(self, tag: AVTag) -> None: assert isinstance(tag, TTSTag) match = self.voice_for_tag(tag) assert match voice = cast(WindowsRTVoice, match.voice) self._taskman.run_on_main( lambda: gui_hooks.av_player_did_begin_playing(self, tag) ) asyncio.run(self.speakText(tag, voice.id)) def _on_done(self, ret: Future, cb: OnDoneCallback) -> None: try: ret.result() except RuntimeError: tooltip(tr.errors_windows_tts_runtime_error()) return # inject file into the top of the audio queue from aqt.sound import av_player av_player.insert_file(self.tmppath) # then tell player to advance, which will cause the file to be played cb() async def speakText(self, tag: TTSTag, voice_id: Any) -> None: import winsdk.windows.media.speechsynthesis as speechsynthesis # type: ignore import winsdk.windows.storage.streams as streams # type: ignore synthesizer = speechsynthesis.SpeechSynthesizer() voices = speechsynthesis.SpeechSynthesizer.get_all_voices() # type: ignore voice_match = next(filter(lambda v: v.id == voice_id, voices)) assert voice_match synthesizer.voice = voice_match synthesizer.options.speaking_rate = tag.speed stream = await synthesizer.synthesize_text_to_stream_async(tag.field_text) inputStream = stream.get_input_stream_at(0) dataReader = streams.DataReader(inputStream) dataReader.load_async(stream.size) f = open(self.tmppath, "wb") for x in range(stream.size): f.write(bytes([dataReader.read_byte()])) f.close()