/*! * a Text-To-Speech (TTS) library providing high-level interfaces to a variety of backends. * Currently supported backends are: * * [Speech Dispatcher](https://freebsoft.org/speechd) (Linux) * * Windows screen readers and SAPI via [Tolk](https://github.com/dkager/tolk/) * * WebAssembly */ use std::boxed::Box; use thiserror::Error; mod backends; pub enum Backends { #[cfg(target_os = "linux")] SpeechDispatcher, #[cfg(target_arch = "wasm32")] Web, #[cfg(windows)] Tolk, #[cfg(windows)] WinRT, } pub struct Features { pub stop: bool, pub rate: bool, pub pitch: bool, pub volume: bool, pub is_speaking: bool, } #[derive(Debug, Error)] pub enum Error { #[error("IO error: {0}")] IO(#[from] std::io::Error), #[error("Value not received")] NoneError, #[cfg(target_arch = "wasm32")] #[error("JavaScript error: [0])]")] JavaScriptError(wasm_bindgen::JsValue), #[cfg(windows)] #[error("WinRT error")] WinRT(winrt::Error), #[error("Unsupported feature")] UnsupportedFeature, #[error("Out of range")] OutOfRange, } pub trait Backend { fn supported_features(&self) -> Features; fn speak(&self, text: &str, interrupt: bool) -> Result<(), Error>; fn stop(&self) -> Result<(), Error>; fn min_rate(&self) -> f32; fn max_rate(&self) -> f32; fn normal_rate(&self) -> f32; fn get_rate(&self) -> Result; fn set_rate(&mut self, rate: f32) -> Result<(), Error>; fn min_pitch(&self) -> f32; fn max_pitch(&self) -> f32; fn normal_pitch(&self) -> f32; fn get_pitch(&self) -> Result; fn set_pitch(&mut self, pitch: f32) -> Result<(), Error>; fn min_volume(&self) -> f32; fn max_volume(&self) -> f32; fn normal_volume(&self) -> f32; fn get_volume(&self) -> Result; fn set_volume(&mut self, volume: f32) -> Result<(), Error>; fn is_speaking(&self) -> Result; } pub struct TTS(Box); unsafe impl std::marker::Send for TTS {} unsafe impl std::marker::Sync for TTS {} impl TTS { /** * Create a new `TTS` instance with the specified backend. */ pub fn new(backend: Backends) -> Result { match backend { #[cfg(target_os = "linux")] Backends::SpeechDispatcher => Ok(TTS(Box::new(backends::SpeechDispatcher::new()))), #[cfg(target_arch = "wasm32")] Backends::Web => { let tts = backends::Web::new()?; Ok(TTS(Box::new(tts))) } #[cfg(windows)] Backends::Tolk => { let tts = backends::Tolk::new(); if let Some(tts) = tts { Ok(TTS(Box::new(tts))) } else { Err(Error::NoneError) } } #[cfg(windows)] Backends::WinRT => { let tts = backends::winrt::WinRT::new()?; Ok(TTS(Box::new(tts))) } } } pub fn default() -> Result { #[cfg(target_os = "linux")] let tts = TTS::new(Backends::SpeechDispatcher); #[cfg(windows)] let tts = if let Some(tts) = TTS::new(Backends::Tolk).ok() { Ok(tts) } else { TTS::new(Backends::WinRT) }; #[cfg(target_arch = "wasm32")] let tts = TTS::new(Backends::Web); tts } /** * Returns the features supported by this TTS engine */ pub fn supported_features(&self) -> Features { self.0.supported_features() } /** * Speaks the specified text, optionally interrupting current speech. */ pub fn speak>(&self, text: S, interrupt: bool) -> Result<&Self, Error> { self.0.speak(text.into().as_str(), interrupt)?; Ok(self) } /** * Stops current speech. */ pub fn stop(&self) -> Result<&Self, Error> { let Features { stop, .. } = self.supported_features(); if stop { self.0.stop()?; Ok(self) } else { Err(Error::UnsupportedFeature) } } /** * Returns the minimum rate for this speech synthesizer. */ pub fn min_rate(&self) -> f32 { self.0.min_rate() } /** * Returns the maximum rate for this speech synthesizer. */ pub fn max_rate(&self) -> f32 { self.0.max_rate() } /** * Returns the normal rate for this speech synthesizer. */ pub fn normal_rate(&self) -> f32 { self.0.normal_rate() } /** * Gets the current speech rate. */ pub fn get_rate(&self) -> Result { let Features { rate, .. } = self.supported_features(); if rate { self.0.get_rate() } else { Err(Error::UnsupportedFeature) } } /** * Sets the desired speech rate. */ pub fn set_rate(&mut self, rate: f32) -> Result<&Self, Error> { let Features { rate: rate_feature, .. } = self.supported_features(); if rate_feature { if rate < self.0.min_rate() || rate > self.0.max_rate() { Err(Error::OutOfRange) } else { self.0.set_rate(rate)?; Ok(self) } } else { Err(Error::UnsupportedFeature) } } /** * Returns the minimum pitch for this speech synthesizer. */ pub fn min_pitch(&self) -> f32 { self.0.min_pitch() } /** * Returns the maximum pitch for this speech synthesizer. */ pub fn max_pitch(&self) -> f32 { self.0.max_pitch() } /** * Returns the normal pitch for this speech synthesizer. */ pub fn normal_pitch(&self) -> f32 { self.0.normal_pitch() } /** * Gets the current speech pitch. */ pub fn get_pitch(&self) -> Result { let Features { pitch, .. } = self.supported_features(); if pitch { self.0.get_pitch() } else { Err(Error::UnsupportedFeature) } } /** * Sets the desired speech pitch. */ pub fn set_pitch(&mut self, pitch: f32) -> Result<&Self, Error> { let Features { pitch: pitch_feature, .. } = self.supported_features(); if pitch_feature { if pitch < self.0.min_pitch() || pitch > self.0.max_pitch() { Err(Error::OutOfRange) } else { self.0.set_pitch(pitch)?; Ok(self) } } else { Err(Error::UnsupportedFeature) } } /** * Returns the minimum volume for this speech synthesizer. */ pub fn min_volume(&self) -> f32 { self.0.min_volume() } /** * Returns the maximum volume for this speech synthesizer. */ pub fn max_volume(&self) -> f32 { self.0.max_volume() } /** * Returns the normal volume for this speech synthesizer. */ pub fn normal_volume(&self) -> f32 { self.0.normal_volume() } /** * Gets the current speech volume. */ pub fn get_volume(&self) -> Result { let Features { volume, .. } = self.supported_features(); if volume { self.0.get_volume() } else { Err(Error::UnsupportedFeature) } } /** * Sets the desired speech volume. */ pub fn set_volume(&mut self, volume: f32) -> Result<&Self, Error> { let Features { volume: volume_feature, .. } = self.supported_features(); if volume_feature { if volume < self.0.min_volume() || volume > self.0.max_volume() { Err(Error::OutOfRange) } else { self.0.set_volume(volume)?; Ok(self) } } else { Err(Error::UnsupportedFeature) } } /** * Returns whether this speech synthesizer is speaking. */ pub fn is_speaking(&self) -> Result { let Features { is_speaking, .. } = self.supported_features(); if is_speaking { self.0.is_speaking() } else { Err(Error::UnsupportedFeature) } } }