const generateBtn = document.getElementById('generateBtn'); const hint = document.getElementById('hint'); const speakerIdLabel = document.getElementById('speakerIdLabel'); const speakerIdInput = document.getElementById('speakerId'); const speedInput = document.getElementById('speed'); const speedValue = document.getElementById('speedValue'); const textArea = document.getElementById('text'); const soundClips = document.getElementById('sound-clips'); speedValue.innerHTML = speedInput.value; let index = 0; let tts = null; let audioCtx = null; Module = {}; Module.onRuntimeInitialized = function() { console.log('Model files downloaded!'); console.log('Initializing tts ......'); tts = createOfflineTts(Module) if (tts.numSpeakers > 1) { speakerIdLabel.innerHTML = `Speaker ID (0 - ${tts.numSpeakers - 1}):`; } hint.innerText = 'Initialized! Please enter text and click the Generate button.'; generateBtn.disabled = false; }; speedInput.oninput = function() { speedValue.innerHTML = this.value; }; generateBtn.onclick = function() { let speakerId = speakerIdInput.value; if (speakerId.trim().length == 0) { alert('Please input a speakerId'); return; } if (!speakerId.match(/^\d+$/)) { alert(`Input speakerID ${ speakerId} is not a number.\nPlease enter a number between 0 and ${ tts.numSpeakers - 1}`); return; } speakerId = parseInt(speakerId, 10); if (speakerId > tts.numSpeakers - 1) { alert(`Pleaser enter a number between 0 and ${tts.numSpeakers - 1}`); return; } let text = textArea.value.trim(); if (text.length == 0) { alert('Please input a non-blank text'); return; } console.log('speakerId', speakerId); console.log('speed', speedInput.value); console.log('text', text); let audio = tts.generate({text: text, sid: speakerId, speed: speedInput.value}); console.log(audio.samples.length, audio.sampleRate); if (!audioCtx) { audioCtx = new AudioContext({sampleRate: tts.sampleRate}); } const buffer = audioCtx.createBuffer(1, audio.samples.length, tts.sampleRate); const ptr = buffer.getChannelData(0); for (let i = 0; i < audio.samples.length; i++) { ptr[i] = audio.samples[i]; } const source = audioCtx.createBufferSource(); source.buffer = buffer; source.connect(audioCtx.destination); source.start(); createAudioTag(audio); }; function createAudioTag(generateAudio) { const blob = toWav(generateAudio.samples, generateAudio.sampleRate); const text = textArea.value.trim().substring(0, 100); const clipName = `${index} ${text} ...`; index += 1; const clipContainer = document.createElement('article'); const clipLabel = document.createElement('p'); const audio = document.createElement('audio'); const deleteButton = document.createElement('button'); clipContainer.classList.add('clip'); audio.setAttribute('controls', ''); deleteButton.textContent = 'Delete'; deleteButton.className = 'delete'; clipLabel.textContent = clipName; clipContainer.appendChild(audio); clipContainer.appendChild(clipLabel); clipContainer.appendChild(deleteButton); soundClips.appendChild(clipContainer); audio.controls = true; const audioURL = window.URL.createObjectURL(blob); audio.src = audioURL; deleteButton.onclick = function(e) { let evtTgt = e.target; evtTgt.parentNode.parentNode.removeChild(evtTgt.parentNode); }; clipLabel.onclick = function() { const existingName = clipLabel.textContent; const newClipName = prompt('Enter a new name for your sound clip?'); if (newClipName === null) { clipLabel.textContent = existingName; } else { clipLabel.textContent = newClipName; } }; } // this function is copied/modified from // https://gist.github.com/meziantou/edb7217fddfbb70e899e function toWav(floatSamples, sampleRate) { let samples = new Int16Array(floatSamples.length); for (let i = 0; i < samples.length; ++i) { let s = floatSamples[i]; if (s >= 1) s = 1; else if (s <= -1) s = -1; samples[i] = s * 32767; } let buf = new ArrayBuffer(44 + samples.length * 2); var view = new DataView(buf); // http://soundfile.sapp.org/doc/WaveFormat/ // F F I R view.setUint32(0, 0x46464952, true); // chunkID view.setUint32(4, 36 + samples.length * 2, true); // chunkSize // E V A W view.setUint32(8, 0x45564157, true); // format // // t m f view.setUint32(12, 0x20746d66, true); // subchunk1ID view.setUint32(16, 16, true); // subchunk1Size, 16 for PCM view.setUint32(20, 1, true); // audioFormat, 1 for PCM view.setUint16(22, 1, true); // numChannels: 1 channel view.setUint32(24, sampleRate, true); // sampleRate view.setUint32(28, sampleRate * 2, true); // byteRate view.setUint16(32, 2, true); // blockAlign view.setUint16(34, 16, true); // bitsPerSample view.setUint32(36, 0x61746164, true); // Subchunk2ID view.setUint32(40, samples.length * 2, true); // subchunk2Size let offset = 44; for (let i = 0; i < samples.length; ++i) { view.setInt16(offset, samples[i], true); offset += 2; } return new Blob([view], {type: 'audio/wav'}); }