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path: root/cmd/dolmetschctld/statemachine.go
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//
//  dolmetschctl
//
//
//  Copyright (C) 2019 Christian Pointner <equinox@spreadspace.org>
//
//  This file is part of dolmetschctl.
//
//  dolmetschctl is free software: you can redistribute it and/or modify
//  it under the terms of the GNU General Public License as published by
//  the Free Software Foundation, either version 3 of the License, or
//  any later version.
//
//  dolmetschctl is distributed in the hope that it will be useful,
//  but WITHOUT ANY WARRANTY; without even the implied warranty of
//  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
//  GNU General Public License for more details.
//
//  You should have received a copy of the GNU General Public License
//  along with dolmetschctl. If not, see <http://www.gnu.org/licenses/>.
//

package main

import (
	"container/list"
	"fmt"
	"log"
	"time"

	"spreadspace.org/dolmetschctl/pkg/mixer"
	"spreadspace.org/dolmetschctl/pkg/types"
)

type MixerChannelState struct {
	level mixer.FaderLevel
	mute  mixer.Mute
}

type MixerChannel struct {
	num     mixer.Channel
	target  MixerChannelState
	current MixerChannelState
}

type MixerChannels struct {
	original    MixerChannel
	interpreter MixerChannel
}

type setLanguageReq struct {
	lang  types.Language
	resCh chan error
}

type getLanguageReq struct {
	resCh chan types.Language
}

type getLanguagesReq struct {
	resCh chan []types.Language
}

type setOriginal2InterpreterRatioReq struct {
	ratio float32
	resCh chan error
}

type getOriginal2InterpreterRatioReq struct {
	resCh chan float32
}

type getStateRes struct {
	types.FullState
}

type getStateReq struct {
	resCh chan getStateRes
}

type subscribeStateReq struct {
	ch    chan<- types.FullState
	resCh chan error
}

type StateMachine struct {
	mixer *mixer.Mixer

	setLanguageCh                  chan setLanguageReq
	getLanguageCh                  chan getLanguageReq
	getLanguagesCh                 chan getLanguagesReq
	setOriginal2InterpreterRatioCh chan setOriginal2InterpreterRatioReq
	getOriginal2InterpreterRatioCh chan getOriginal2InterpreterRatioReq
	getStateCh                     chan getStateReq
	subscribeStateCh               chan subscribeStateReq
	quitCh                         chan bool
	exitedCh                       chan struct{}
	mixerEventCh                   chan mixer.Event

	languages    map[types.Language]*MixerChannels
	channel2lang map[mixer.Channel]types.Language

	state                     types.State
	original2InterpreterRatio float32
	language                  types.Language

	stateSubscribers list.List
}

func (sm *StateMachine) publishState() {
	var next *list.Element
	for sub := sm.stateSubscribers.Front(); sub != nil; sub = next {
		next = sub.Next()

		ch, ok := (sub.Value).(chan<- types.FullState)
		if !ok {
			panic(fmt.Sprintf("statemachine: subscriber list element value has wrong type: %T", sub.Value))
		}

		select {
		case ch <- types.FullState{sm.state, sm.original2InterpreterRatio, sm.language}:
		default:
			// subscriber is not responding...
			// log.Printf("statemachine: removing subscriber '%v', because it is not responding", ch)
			close(ch)
			sm.stateSubscribers.Remove(sub)
		}
	}
}

func (sm *StateMachine) subscribeState(out chan<- types.FullState) error {
	// log.Printf("statemachine: %v subscribed to state changes", out)
	sm.stateSubscribers.PushBack(out)
	return nil
}

func (sm *StateMachine) handleMixerEvent(ev mixer.Event) {
	lang, exists := sm.channel2lang[ev.Channel]
	if !exists {
		// TODO: make this panic?
		log.Printf("got mixer-event for unknown channel: %s", ev)
		return
	}

	mcs, exists := sm.languages[lang]
	if !exists {
		panic(fmt.Sprintf("channel2lang map contains unknown language entries!"))
	}

	var mc *MixerChannel
	switch ev.Channel {
	case mcs.original.num:
		mc = &mcs.original
	case mcs.interpreter.num:
		mc = &mcs.interpreter
	default:
		panic(fmt.Sprintf("channel2lang points to language that does not use the channel!"))
	}

	switch ev.Type {
	case mixer.EventFaderChange:
		mc.current.level = ev.Level
	case mixer.EventMute:
		mc.current.mute = ev.Mute
	}
}

// make sure that our state and the mixer are in sync
func (sm *StateMachine) initMixer() {
	for _, mcs := range sm.languages {
		sm.mixer.SetLevel(mcs.original.num, mixer.FaderLevel0db-1)
		sm.mixer.SetLevel(mcs.original.num, mixer.FaderLevel0db)
		mcs.original.target.level = mixer.FaderLevel0db

		sm.mixer.SetLevel(mcs.interpreter.num, mixer.FaderLevelOff+1)
		sm.mixer.SetLevel(mcs.interpreter.num, mixer.FaderLevelOff)
		mcs.interpreter.target.level = mixer.FaderLevelOff
	}
	sm.language = ""
	sm.state = types.StateSettled
}

func (sm *StateMachine) getLanguages() (langs []types.Language) {
	langs = append(langs, "none")
	for lang, _ := range sm.languages {
		langs = append(langs, lang)
	}
	return
}

// the "current language" is what is currently spoken on stage
func (sm *StateMachine) setLanguage(l types.Language) error {
	if l == "none" {
		l = ""
	}
	if l != "" {
		if _, exists := sm.languages[l]; !exists {
			return fmt.Errorf("language '%s' does not exist", l)
		}
	}
	sm.language = l
	log.Printf("new target language: '%s'", sm.language)
	return nil
}

func (sm *StateMachine) setOriginal2InterpreterRatio(r float32) error {
	if r < 0.0 || r > 1.0 {
		return fmt.Errorf("original-interpreter ratio '%1.3f' is invalid, must be between 0.0 and 1.0", r)
	}
	sm.original2InterpreterRatio = r
	log.Printf("new original-interpreter ratio: '%1.3f'", r)
	return nil
}

func calcNextLevel(target, current mixer.FaderLevel) mixer.FaderLevel {
	next := target
	if current != mixer.FaderLevelUnknown {
		if next > current {
			next = current + 1
		} else {
			next = current - 1
		}
	}
	return next
}

func (sm *StateMachine) reconcile(ticker bool) {
	for lang, mcs := range sm.languages {
		if sm.language == "" || lang == sm.language || mcs.interpreter.current.mute == mixer.MuteMuted {
			mcs.original.target.level = mixer.FaderLevel0db
			mcs.interpreter.target.level = mixer.FaderLevelOff
		} else {
			mcs.original.target.level = mixer.FaderLevel(float32(mixer.FaderLevel0db) * sm.original2InterpreterRatio)
			if mcs.original.target.level > mixer.FaderLevelMax {
				mcs.original.target.level = mixer.FaderLevelMax
			}
			mcs.interpreter.target.level = mixer.FaderLevel0db
		}
	}

	if sm.state != types.StateSettled && !ticker {
		return
	}
	sm.state = types.StateSettled
	for _, mcs := range sm.languages {
		if mcs.original.target.level != mcs.original.current.level {
			sm.mixer.SetLevel(mcs.original.num, calcNextLevel(mcs.original.target.level, mcs.original.current.level))
			sm.state = types.StateSettling
		}
		if mcs.interpreter.target.level != mcs.interpreter.current.level {
			sm.mixer.SetLevel(mcs.interpreter.num, calcNextLevel(mcs.interpreter.target.level, mcs.interpreter.current.level))
			sm.state = types.StateSettling
		}
	}
}

func (sm *StateMachine) run() {
	defer close(sm.exitedCh)

	sm.initMixer()
	t := time.NewTicker(10 * time.Millisecond)
	for {
		oldState := sm.state
		oldOriginal2InterpreterRadio := sm.original2InterpreterRatio
		oldLanguage := sm.language

		select {
		case <-t.C:
			if sm.state == types.StateSettling {
				sm.reconcile(true)
			}
		case req := <-sm.setLanguageCh:
			req.resCh <- sm.setLanguage(req.lang)
			sm.reconcile(false)
		case req := <-sm.getLanguageCh:
			req.resCh <- sm.language
		case req := <-sm.getLanguagesCh:
			req.resCh <- sm.getLanguages()
		case req := <-sm.setOriginal2InterpreterRatioCh:
			req.resCh <- sm.setOriginal2InterpreterRatio(req.ratio)
			sm.reconcile(false)
		case req := <-sm.getOriginal2InterpreterRatioCh:
			req.resCh <- sm.original2InterpreterRatio
		case req := <-sm.getStateCh:
			req.resCh <- getStateRes{types.FullState{sm.state, sm.original2InterpreterRatio, sm.language}}
		case req := <-sm.subscribeStateCh:
			req.resCh <- sm.subscribeState(req.ch)
		case ev := <-sm.mixerEventCh:
			sm.handleMixerEvent(ev)
			sm.reconcile(false)
		case <-sm.quitCh:
			return
		}

		if oldState != sm.state || oldOriginal2InterpreterRadio != sm.original2InterpreterRatio || oldLanguage != sm.language {
			sm.publishState()
		}
	}
}

func NewStateMachine(m *mixer.Mixer) (*StateMachine, error) {
	sm := &StateMachine{mixer: m}
	sm.setLanguageCh = make(chan setLanguageReq, 10)
	sm.getLanguageCh = make(chan getLanguageReq, 10)
	sm.getLanguagesCh = make(chan getLanguagesReq, 10)
	sm.setOriginal2InterpreterRatioCh = make(chan setOriginal2InterpreterRatioReq, 10)
	sm.getOriginal2InterpreterRatioCh = make(chan getOriginal2InterpreterRatioReq, 10)
	sm.getStateCh = make(chan getStateReq, 10)
	sm.subscribeStateCh = make(chan subscribeStateReq, 10)
	sm.quitCh = make(chan bool, 1)
	sm.exitedCh = make(chan struct{})
	sm.mixerEventCh = make(chan mixer.Event, 1000)

	sm.languages = make(map[types.Language]*MixerChannels)
	sm.channel2lang = make(map[mixer.Channel]types.Language)

	sm.state = types.StateNew
	sm.language = ""
	return sm, nil
}

// TODO: currently we can only deal with 2 languages...
func (sm *StateMachine) AddLanguage(name types.Language, original, interpreter mixer.Channel) error {
	if sm.state != types.StateNew {
		return fmt.Errorf("adding languages is only allowed during startup")
	}
	if name == "none" {
		return fmt.Errorf("language 'none' is reserved")
	}
	if _, exists := sm.languages[name]; exists {
		return fmt.Errorf("language '%s' already exists", name)
	}
	for ch := range []mixer.Channel{original, interpreter} {
		if _, exists := sm.languages[name]; exists {
			return fmt.Errorf("mixer channel %v is already in use by language '%s'", ch, name)
		}
	}

	unknown := MixerChannelState{level: mixer.FaderLevelUnknown, mute: mixer.MuteUnknown}
	chOriginal := MixerChannel{num: original, current: unknown, target: unknown}
	chInterpreter := MixerChannel{num: interpreter, current: unknown, target: unknown}

	sm.languages[name] = &MixerChannels{chOriginal, chInterpreter}
	sm.channel2lang[original] = name
	sm.channel2lang[interpreter] = name
	sm.mixer.Subscribe(original, sm.mixerEventCh)
	sm.mixer.Subscribe(interpreter, sm.mixerEventCh)

	sm.original2InterpreterRatio = 0.5 // TODO: hardcoded value

	return nil
}

func (sm *StateMachine) Start() {
	go sm.run()
}

func (sm *StateMachine) SetLanguage(l types.Language) error {
	resCh := make(chan error)
	sm.setLanguageCh <- setLanguageReq{l, resCh}
	return <-resCh
}

func (sm *StateMachine) GetLanguage() types.Language {
	resCh := make(chan types.Language)
	sm.getLanguageCh <- getLanguageReq{resCh}
	return <-resCh
}

func (sm *StateMachine) GetLanguages() []types.Language {
	resCh := make(chan []types.Language)
	sm.getLanguagesCh <- getLanguagesReq{resCh}
	return <-resCh
}

func (sm *StateMachine) SetOriginal2InterpreterRatio(r float32) error {
	resCh := make(chan error)
	sm.setOriginal2InterpreterRatioCh <- setOriginal2InterpreterRatioReq{r, resCh}
	return <-resCh
}

func (sm *StateMachine) GetOriginal2InterpreterRatio() float32 {
	resCh := make(chan float32)
	sm.getOriginal2InterpreterRatioCh <- getOriginal2InterpreterRatioReq{resCh}
	return <-resCh
}

func (sm *StateMachine) GetState() (types.State, float32, types.Language) {
	resCh := make(chan getStateRes)
	sm.getStateCh <- getStateReq{resCh}
	res := <-resCh
	return res.State, res.Ratio, res.Language
}

func (sm *StateMachine) SubscribeState(out chan<- types.FullState) error {
	resCh := make(chan error)
	sm.subscribeStateCh <- subscribeStateReq{out, resCh}
	return <-resCh
}

func (sm *StateMachine) Shutdown() {
	select {
	case sm.quitCh <- true:
	default:
	}
	<-sm.exitedCh
}