mmpSearch/assets/js/creations/pattern/pattern_state.js

// js/pattern_state.js
import * as Tone from "https://esm.sh/tone";
import { TripleOscillator } from "../../audio/plugins/TripleOscillator.js";
import { Kicker } from "../../audio/plugins/Kicker.js";
import { Lb302 } from "../../audio/plugins/Lb302.js";
import { Nes } from "../../audio/plugins/Nes.js";
import { SuperSaw } from "../../audio/plugins/SuperSaw.js";

import { appState } from "../state.js";
import { DEFAULT_VOLUME, DEFAULT_PAN } from "../config.js";
import { getMainGainNode } from "../audio.js";
import { getTotalSteps } from "../utils.js";

export function initializePatternState() {
  appState.pattern.tracks.forEach(track => {
    try { track.player?.dispose(); } catch {}
    try { track.buffer?.dispose?.(); } catch {}
    try { track.instrument?.dispose(); } catch {} 
  });

  appState.pattern.tracks = [];
  appState.pattern.activeTrackId = null;
  appState.pattern.activePatternIndex = 0;
}

export async function loadAudioForTrack(track) {
  // 1. Garante a criação dos nós de Volume e Pan
  try {
    if (!track.volumeNode) {
      track.volumeNode = new Tone.Volume(
        track.volume === 0 ? -Infinity : Tone.gainToDb(track.volume)
      );
    } else {
      track.volumeNode.volume.value =
        track.volume === 0 ? -Infinity : Tone.gainToDb(track.volume);
    }

    if (!track.pannerNode) {
      track.pannerNode = new Tone.Panner(track.pan ?? 0);
    } else {
      track.pannerNode.pan.value = track.pan ?? 0;
    }

    try { track.instrument?.disconnect(); } catch {} 
    try { track.player?.disconnect(); } catch {}     
    try { track.volumeNode.disconnect(); } catch {}
    try { track.pannerNode.disconnect(); } catch {}
    
    track.volumeNode.connect(track.pannerNode);
    track.pannerNode.connect(getMainGainNode());

  } catch (e) {
    console.error("Erro ao criar nós de áudio base:", e);
  }

  // --- DETECÇÃO DE TIPO DE ARQUIVO ---
  // Verifica se é um formato de áudio que o navegador suporta
  // Verifica tipo de arquivo
  const isStandardAudio = track.samplePath && /\.(wav|mp3|ogg|flac|m4a)$/i.test(track.samplePath);
  const isDrumSynth = track.samplePath && /\.ds$/i.test(track.samplePath);
  
  // Se não for áudio (ou for .ds/.xpf), é Plugin
  if (!track.samplePath || !isStandardAudio) {
    try {
      if (track.instrument) { try { track.instrument.dispose(); } catch {} }

      let synth;
      const name = (track.instrumentName || "").toLowerCase();
      
      // DADOS DO PLUGIN (Tenta parsear XML se for string, ou usa vazio)
      // Dica: O ideal seria ter um parser real aqui, mas vamos passar {} por enquanto
      const pluginData = {}; 

      // SELETOR DE PLUGINS
      switch (name) {
        case "tripleoscillator":
        case "3osc":
            synth = new TripleOscillator(Tone.getContext(), pluginData);
            break;
            
        case "kicker":
            synth = new Kicker(Tone.getContext(), pluginData);
            break;
            
        case "lb302":
            synth = new Lb302(Tone.getContext(), pluginData);
            break;
            
        case "nes":
        case "freeboy": // Freeboy é parecido com NES
        case "papu":    // Papu também é Gameboy
        case "sid":     // SID é 8-bit também, usaremos NES como fallback por enquanto
            synth = new Nes(Tone.getContext(), pluginData);
            break;

        // --- PACOTE SUPER SAW ---
        case "zynaddsubfx": // O clássico
        case "watsyn":      // Wavetable Synth
        case "monstro":     // 3 Osciladores monstruosos
        case "vibedstrings": // Strings vibrantes (fatsaw funciona bem como base)
        case "SuperSaw":
             synth = new SuperSaw(Tone.getContext(), pluginData);
             break;
            
        case "organic": // Fallback simples para Organic (Additive)
             synth = new Tone.PolySynth(Tone.Synth, {
                 oscillator: { type: "sine", count: 8, spread: 20 }
             });
             break;

        case "zynaddsubfx": // O monstro!
             // Zyn é impossível de clonar rápido. Vamos usar um "SuperSaw" gordo como placeholder
             synth = new Tone.PolySynth(Tone.Synth, {
                 oscillator: { type: "fatsawtooth", count: 3, spread: 30 },
                 envelope: { attack: 0.1, decay: 0.3, sustain: 0.8, release: 1 }
             });
             break;

        default:
            console.warn(`Plugin ${name} desconhecido, usando fallback.`);
            // Fallback genérico
            synth = new Tone.PolySynth(Tone.Synth, { oscillator: { type: "triangle" } });
      }

      // Se o plugin criou uma classe wrapper (nossas classes .js),
      // ele tem o método .connect. Se for Tone nativo (Organic/Zyn fallback), também tem.
      if (synth.output) {
          // Nossas classes customizadas
          synth.connect(track.volumeNode);
      } else {
          // Objetos Tone.js puros
          synth.connect(track.volumeNode);
      }

      track.instrument = synth;
      track.player = null; 
      track.type = 'plugin';
      
      console.log(`[Audio] Plugin carregado: ${name}`);

    } catch (e) {
      console.error("Erro ao carregar plugin:", name, e);
    }
    return track;
  }

  // 3. Lógica para SAMPLERS (Arquivos de Áudio Reais)
  try {
    try { track.player?.dispose(); } catch {}
    track.player = null;
    try { track.buffer?.dispose?.(); } catch {}
    track.buffer = null;
    
    if (track.instrument) {
        try { track.instrument.dispose(); } catch {}
        track.instrument = null;
    }

    const player = new Tone.Player({ url: track.samplePath, autostart: false });
    await player.load(track.samplePath); 

    player.connect(track.volumeNode);

    const buffer = new Tone.Buffer();
    await buffer.load(track.samplePath);

    track.player = player;
    track.buffer = buffer;
    track.type = 'sampler'; // Garante o tipo correto

  } catch (error) {
    console.error('Erro ao carregar sample:', track.samplePath);
    try { track.player?.dispose(); } catch {}
    try { track.buffer?.dispose?.(); } catch {}
    track.player = null;
    track.buffer = null;
  }
  return track;
}

export function addTrackToState() {
  const totalSteps = getTotalSteps();
  const referenceTrack = appState.pattern.tracks[0];

  const newTrack = {
    id: Date.now() + Math.random(),
    name: "novo instrumento",
    samplePath: null,
    type: 'plugin', // Padrão
    player: null,
    buffer: null,
    patterns: referenceTrack
      ? referenceTrack.patterns.map(p => ({
          name: p.name,
          steps: new Array(p.steps.length).fill(false),
          pos: p.pos
        }))
      : [{ name: "Pattern 1", steps: new Array(totalSteps).fill(false), pos: 0 }],
    activePatternIndex: 0,
    volume: DEFAULT_VOLUME,
    pan: DEFAULT_PAN,
    volumeNode: new Tone.Volume(Tone.gainToDb(DEFAULT_VOLUME)),
    pannerNode: new Tone.Panner(DEFAULT_PAN),
  };

  newTrack.volumeNode.connect(newTrack.pannerNode);
  newTrack.pannerNode.connect(getMainGainNode());
  
  loadAudioForTrack(newTrack);

  appState.pattern.tracks.push(newTrack);
  appState.pattern.activeTrackId = newTrack.id;
}

export function removeLastTrackFromState() {
  if (appState.pattern.tracks.length > 0) {
    const trackToRemove = appState.pattern.tracks[appState.pattern.tracks.length - 1];

    try { trackToRemove.player?.dispose(); } catch {}
    try { trackToRemove.buffer?.dispose?.(); } catch {}
    try { trackToRemove.instrument?.dispose(); } catch {}
    try { trackToRemove.pannerNode?.disconnect(); } catch {}
    try { trackToRemove.volumeNode?.disconnect(); } catch {}

    appState.pattern.tracks.pop();
    if (appState.pattern.activeTrackId === trackToRemove.id) {
      appState.pattern.activeTrackId = appState.pattern.tracks[0]?.id ?? null;
    }
  }
}

export async function updateTrackSample(trackIndex, samplePath) {
  const track = appState.pattern.tracks[trackIndex];
  if (track) {
    track.samplePath = samplePath;
    track.name = samplePath.split("/").pop();
    
    // Reseta o tipo baseado no novo arquivo
    const isAudio = /\.(wav|mp3|ogg|flac|m4a)$/i.test(samplePath);
    track.type = isAudio ? 'sampler' : 'plugin';

    await loadAudioForTrack(track);
  }
}

export function toggleStepState(trackIndex, stepIndex) {
  const track = appState.pattern.tracks[trackIndex];
  if (track && track.patterns && track.patterns.length > 0) {
    const activePattern = track.patterns[track.activePatternIndex];
    if (activePattern && activePattern.steps.length > stepIndex) {
      activePattern.steps[stepIndex] = !activePattern.steps[stepIndex];
    }
  }
}