signalsmith-stretch/web/release/SignalsmithStretch.js

var SignalsmithStretch = (() => {
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async function(moduleArg = {}) {
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";function getBinarySync(file){if(file==wasmBinaryFile&&wasmBinary){return new Uint8Array(wasmBinary)}var binary=tryParseAsDataURI(file);if(binary){return binary}if(readBinary){return readBinary(file)}throw"both async and sync fetching of the wasm failed"}async function getWasmBinary(binaryFile){return getBinarySync(binaryFile)}async function instantiateArrayBuffer(binaryFile,imports){try{var binary=await getWasmBinary(binaryFile);var instance=await WebAssembly.instantiate(binary,imports);return instance}catch(reason){err(`failed to asynchronously prepare wasm: ${reason}`);abort(reason)}}async function instantiateAsync(binary,binaryFile,imports){return instantiateArrayBuffer(binaryFile,imports)}function getWasmImports(){return{a:wasmImports}}async function createWasm(){function receiveInstance(instance,module){wasmExports=instance.exports;wasmMemory=wasmExports["d"];updateMemoryViews();removeRunDependency("wasm-instantiate");return wasmExports}addRunDependency("wasm-instantiate");function receiveInstantiationResult(result){return receiveInstance(result["instance"])}var info=getWasmImports();try{var result=await instantiateAsync(wasmBinary,wasmBinaryFile,info);var exports=receiveInstantiationResult(result);return exports}catch(e){readyPromiseReject(e);return Promise.reject(e)}}class ExitStatus{name="ExitStatus";constructor(status){this.message=`Program terminated with exit(${status})`;this.status=status}}var base64Decode=b64=>{var b1,b2,i=0,j=0,bLength=b64.length;var output=new Uint8Array((bLength*3>>2)-(b64[bLength-2]=="=")-(b64[bLength-1]=="="));for(;i<bLength;i+=4,j+=3){b1=base64ReverseLookup[b64.charCodeAt(i+1)];b2=base64ReverseLookup[b64.charCodeAt(i+2)];output[j]=base64ReverseLookup[b64.charCodeAt(i)]<<2|b1>>4;output[j+1]=b1<<4|b2>>2;output[j+2]=b2<<6|base64ReverseLookup[b64.charCodeAt(i+3)]}return output};var isDataURI=filename=>filename.startsWith(dataURIPrefix);var dataURIPrefix="data:application/octet-stream;base64,";var tryParseAsDataURI=filename=>{if(isDataURI(filename)){return base64Decode(filename.slice(dataURIPrefix.length))}};var __abort_js=()=>abort("");var getHeapMax=()=>2147483648;var alignMemory=(size,alignment)=>Math.ceil(size/alignment)*alignment;var abortOnCannotGrowMemory=requestedSize=>{abort("OOM")};var growMemory=size=>{var b=wasmMemory.buffer;var pages=(size-b.byteLength+65535)/65536|0;try{wasmMemory.grow(pages);updateMemoryViews();return 1}catch(e){}};var _emscripten_resize_heap=requestedSize=>{var oldSize=HEAPU8.length;requestedSize>>>=0;var maxHeapSize=getHeapMax();if(requestedSize>maxHeapSize){abortOnCannotGrowMemory(requestedSize)}for(var cutDown=1;cutDown<=4;cutDown*=2){var overGrownHeapSize=oldSize*(1+.5/cutDown);overGrownHeapSize=Math.min(overGrownHeapSize,requestedSize+100663296);var newSize=Math.min(maxHeapSize,alignMemory(Math.max(requestedSize,overGrownHeapSize),65536));var replacement=growMemory(newSize);if(replacement){return true}}abortOnCannotGrowMemory(requestedSize)};var initRandomFill=()=>view=>crypto.getRandomValues(view);var randomFill=view=>{(randomFill=initRandomFill())(view)};var _random_get=(buffer,size)=>{randomFill(HEAPU8.subarray(buffer,buffer+size));return 0};var keepRuntimeAlive=()=>true;var _proc_exit=code=>{EXITSTATUS=code;if(!keepRuntimeAlive()){ABORT=true}quit_(code,new ExitStatus(code))};var exitJS=(status,implicit)=>{EXITSTATUS=status;_proc_exit(status)};var handleException=e=>{if(e instanceof ExitStatus||e=="unwind"){return EXITSTATUS}quit_(1,e)};var UTF8Decoder=typeof TextDecoder!="undefined"?new TextDecoder:undefined;var UTF8ArrayToString=(heapOrArray,idx=0,maxBytesToRead=NaN)=>{var endIdx=idx+maxBytesToRead;var endPtr=idx;while(heapOrArray[endPtr]&&!(endPtr>=endIdx))++endPtr;if(endPtr-idx>16&&heapOrArray.buffer&&UTF8Decoder){return UTF8Decoder.decode(heapOrArray.subarray(idx,endPtr))}var str="";while(idx<endPtr){var u0=heapOrArray[idx++];if(!(u0&128)){str+=String.fromCharCode(u0);continue}var u1=heapOrArray[idx++]&63;if((u0&224)==192){str+=String.fromCharCode((u0&31)<<6|u1);continue}var u2=heapOrArray[idx++]&63;if((u0&240)==224){u0=(u0&15)<<12|u1<<6|u2}else{u0=(u0&7)<<18|u1<<12|u2<<6|heapOrArray[idx++]&63}if(u0<65536){str+=String.fromCharCode(u0)}else{var ch=u0-65536;str+=String.fromCharCode(55296|ch>>10,56320|ch&1023)}}return str};var UTF8ToString=(ptr,maxBytesToRead)=>ptr?UTF8ArrayToString(HEAPU8,ptr,maxBytesToRead):"";for(var base64ReverseLookup=new Uint8Array(123),i=25;i>=0;--i){base64ReverseLookup[48+i]=52+i;base64ReverseLookup[65+i]=i;base64ReverseLookup[97+i]=26+i}base64ReverseLookup[43]=62;base64ReverseLookup[47]=63;var wasmImports={c:__abort_js,b:_emscripten_resize_heap,a:_random_get};var wasmExports=await createWasm();var ___wasm_call_ctors=wasmExports["e"];var _setBuffers=Module["_setBuffers"]=wasmExports["g"];var _blockSamples=Module["_blockSamples"]=wasmExports["h"];var _intervalSamples=Module["_intervalSamples"]=wasmExports["i"];var _inputLatency=Module["_inputLatency"]=wasmExports["j"];var _outputLatency=Module["_outputLatency"]=wasmExports["k"];var _reset=Module["_reset"]=wasmExports["l"];var _presetDefault=Module["_presetDefault"]=wasmExports["m"];var _presetCheaper=Module["_presetCheaper"]=wasmExports["n"];var _configure=Module["_configure"]=wasmExports["o"];var _setTransposeFactor=Module["_setTransposeFactor"]=wasmExports["p"];var _setTransposeSemitones=Module["_setTransposeSemitones"]=wasmExports["q"];var _seek=Module["_seek"]=wasmExports["r"];var _process=Module["_process"]=wasmExports["s"];var _flush=Module["_flush"]=wasmExports["t"];var _main=Module["_main"]=wasmExports["u"];Module["UTF8ToString"]=UTF8ToString;function callMain(){var entryFunction=_main;var argc=0;var argv=0;try{var ret=entryFunction(argc,argv);exitJS(ret,true);return ret}catch(e){return handleException(e)}}function run(){if(runDependencies>0){dependenciesFulfilled=run;return}preRun();if(runDependencies>0){dependenciesFulfilled=run;return}function doRun(){Module["calledRun"]=true;if(ABORT)return;initRuntime();preMain();readyPromiseResolve(Module);var noInitialRun;if(!noInitialRun)callMain();postRun()}{doRun()}}run();moduleRtn=readyPromise;


  return moduleRtn;
}
);
})();
function registerWorkletProcessor(Module, audioNodeKey) {
	class WasmProcessor extends AudioWorkletProcessor {
		constructor(options) {
			super(options);
			this.wasmReady = false;
			this.wasmModule = null;
			this.channels = 0;
			this.buffersIn = [];
			this.buffersOut = [];
			
			this.audioBuffers = []; // list of (multi-channel) audio buffers
			this.audioBuffersStart = 0; // time-stamp for the first audio buffer
			this.audioBuffersEnd = 0; // just to be helpful
			
			this.timeIntervalSamples = sampleRate*0.1;
			this.timeIntervalCounter = 0;
			
			this.timeMap = [{
				active: false,
				input: 0,
				output: 0,
				rate: 1,
				semitones: 0,
				loopStart: 0,
				loopEnd: 0
			}];
			
			let remoteMethods = {
				configure: config => {
					let blockChanged = (config.blockMs != this.config.blockMs || config.intervalMs != this.config.intervalMs);
					Object.assign(this.config, config);
					if (config.blockMs && blockChanged) this.configure();
				},
				setUpdateInterval: seconds => {
					this.timeIntervalSamples = sampleRate*seconds;
				},
				stop: when => {
					if (typeof when !== 'number') when = currentTime;
					return remoteMethods.schedule({active: false, output: when});
				},
				start: (when, offset, duration, rate, semitones) => {
					if (typeof when === 'object') {
						if (!('active' in when)) when.active = true;
						return remoteMethods.schedule(when);
					}
					
					let obj = {active: true, input: 0, output: currentTime + this.outputLatencySeconds};
					if (typeof when === 'number') obj.output = when;
					if (typeof offset === 'number') obj.input = offset;
					if (typeof rate === 'number') obj.rate = rate;
					if (typeof semitones === 'number') obj.semitones = semitones;
					let result = remoteMethods.schedule(obj);
					if (typeof duration === 'number') {
						remoteMethods.stop(obj.output + duration);
						obj.output += duration;
						obj.active = false;
						remoteMethods.schedule(obj);
					}
					return result;
				},
				schedule: (objIn, adjustPrevious) => {
					let outputTime = ('outputTime' in objIn) ? objIn.outputTime : currentTime;

					let latestSegment = this.timeMap[this.timeMap.length - 1];
					while (this.timeMap.length && this.timeMap[this.timeMap.length - 1].output >= outputTime) {
						latestSegment = this.timeMap.pop();
					}

					let obj = {
						active: latestSegment.active,
						input: null,
						output: outputTime,
						rate: latestSegment.rate,
						semitones: latestSegment.semitones,
						loopStart: latestSegment.loopStart,
						loopEnd: latestSegment.loopEnd
					};
					Object.assign(obj, objIn);
					if (obj.input === null) {
						let rate = (latestSegment.active ? latestSegment.rate : 0);
						obj.input = latestSegment.input + (obj.output - latestSegment.output)*rate;
					}
					this.timeMap.push(obj);

					if (adjustPrevious && this.timeMap.length > 1) {
						let previous = this.timeMap[this.timeMap.length - 2];
						if (previous.output < currentTime) {
							let rate = (previous.active ? previous.rate : 0);
							previous.input += (currentTime - previous.output)*rate;
							previous.output = currentTime;
						}
						previous.rate = (obj.input - previous.input)/(obj.output - previous.output);
					}
	
					let currentMapSegment = this.timeMap[0];
					while (this.timeMap.length > 1 && this.timeMap[1].output <= outputTime) {
						this.timeMap.shift();
						currentMapSegment = this.timeMap[0];
					}
					let rate = (currentMapSegment.active ? currentMapSegment.rate : 0);
					let inputTime = currentMapSegment.input + (outputTime - currentMapSegment.output)*rate;
					this.timeIntervalCounter = this.timeIntervalSamples;
					this.port.postMessage(['time', inputTime]);
					
					return obj;
				},
				dropBuffers: toSeconds => {
					if (typeof toSeconds !== 'number') {
						let buffers = this.audioBuffers.flat(1).map(b => b.buffer);;
						this.audioBuffers = [];
						this.audioBuffersStart = this.audioBuffersEnd = 0;
						return {
							value: {start: 0, end: 0},
							transfer: buffers
						};
					}
					let transfer = [];
					while (this.audioBuffers.length) {
						let first = this.audioBuffers[0];
						let length = first[0].length;
						let endSamples = this.audioBuffersStart + length;
						let endSeconds = endSamples/sampleRate;
						if (endSeconds > toSeconds) break;

						this.audioBuffers.shift().forEach(b => transfer.push(b.buffer));
						this.audioBuffersStart += length;
					}
					return {
						value: {
							start: this.audioBuffersStart/sampleRate,
							end: this.audioBuffersEnd/sampleRate
						},
						transfer: transfer
					};
				},
				addBuffers: sampleBuffers => {
					sampleBuffers = [].concat(sampleBuffers);
					this.audioBuffers.push(sampleBuffers);
					let length = sampleBuffers[0].length;
					this.audioBuffersEnd += length;
					return this.audioBuffersEnd/sampleRate;
				}
			};

			let pendingMessages = [];
			this.port.onmessage = event => pendingMessages.push(event);

			Module().then(wasmModule => {
				this.wasmModule = wasmModule;
				this.wasmReady = true;

				wasmModule._main();

				this.channels = options.numberOfOutputs ? options.outputChannelCount[0] : 2; // stereo by default
				this.configure();

				this.port.onmessage = event => {
					let data = event.data;
					let messageId = data.shift();
					let method = data.shift();
					let result = remoteMethods[method](...data);
					if (result?.transfer) {
						this.port.postMessage([messageId, result.value], result.transfer);
					} else {
						this.port.postMessage([messageId, result]);
					}
				};
				let methodArgCounts = {};
				for (let key in remoteMethods) {
					methodArgCounts[key] = remoteMethods[key].length;
				}
				this.port.postMessage(['ready', methodArgCounts]);
				pendingMessages.forEach(this.port.onmessage);
				pendingMessages = null;
			});
		}
		
		config = {
			tonalityHz: 8000
		};
		configure() {
			if (this.config.blockMs) {
				let blockSamples = Math.round(this.config.blockMs/1000*sampleRate);
				let intervalSamples = Math.round((this.config.intervalMs || this.config.blockMs*0.25)/1000*sampleRate);
				this.wasmModule._configure(this.channels, blockSamples, intervalSamples);
				this.wasmModule._reset();
			} else {
				this.wasmModule._presetDefault(this.channels, sampleRate);
			}
			this.updateBuffers();
			this.inputLatencySeconds = this.wasmModule._inputLatency()/sampleRate;
			this.outputLatencySeconds = this.wasmModule._outputLatency()/sampleRate;
		}
		
		updateBuffers() {
			let wasmModule = this.wasmModule;
			// longer than one STFT block, so we can seek smoothly
			this.bufferLength = (wasmModule._inputLatency() + wasmModule._outputLatency());
			
			let lengthBytes = this.bufferLength*4;
			let bufferPointer = wasmModule._setBuffers(this.channels, this.bufferLength);
			this.buffersIn = [];
			this.buffersOut = [];
			for (let c = 0; c < this.channels; ++c) {
				this.buffersIn.push(bufferPointer + lengthBytes*c);
				this.buffersOut.push(bufferPointer + lengthBytes*(c + this.channels));
			}
		}

		process(inputList, outputList, parameters) {
			if (!this.wasmReady) {
				outputList.forEach(output => {
					output.forEach(channel => {
						channel.fill(0);
					});
				});
				return true;
			}
			if (!outputList[0]?.length) return false;

			let outputTime = currentTime + this.outputLatencySeconds;
			while (this.timeMap.length > 1 && this.timeMap[1].output <= outputTime) {
				this.timeMap.shift();
			}
			let currentMapSegment = this.timeMap[0];

			let wasmModule = this.wasmModule;
			wasmModule._setTransposeSemitones(currentMapSegment.semitones, this.config.tonalityHz/sampleRate)

			// Check the input/output channel counts
			if (outputList[0].length != this.channels) {
				this.channels = outputList[0]?.length || 0;
				configure();
			}
			let outputBlockSize = outputList[0][0].length;

			let memory = wasmModule.exports ? wasmModule.exports.memory.buffer : wasmModule.HEAP8.buffer;
			// Buffer list (one per channel)
			let inputs = inputList[0];
			if (!currentMapSegment.active) {
				outputList[0].forEach((_, c) => {
					let channelBuffer = inputs[c%inputs.length];
					let buffer = new Float32Array(memory, this.buffersIn[c], outputBlockSize);
					buffer.fill(0);
				});
				// Should detect silent input and skip processing
				wasmModule._process(outputBlockSize, outputBlockSize);
			} else if (inputs?.length) {
				// Live input
				outputList[0].forEach((_, c) => {
					let channelBuffer = inputs[c%inputs.length];
					let buffer = new Float32Array(memory, this.buffersIn[c], outputBlockSize);
					if (channelBuffer) {
						buffer.set(channelBuffer);
					} else {
						buffer.fill(0);
					}
				})
				wasmModule._process(outputBlockSize, outputBlockSize);
			} else {
				let inputTime = currentMapSegment.input + (outputTime - currentMapSegment.output)*currentMapSegment.rate;
				let loopLength = currentMapSegment.loopEnd - currentMapSegment.loopStart;
				if (loopLength > 0 && inputTime >= currentMapSegment.loopEnd) {
					currentMapSegment.input -= loopLength;
					inputTime -= loopLength;
				}
				
				inputTime += this.inputLatencySeconds;
				let inputSamplesEnd = Math.round(inputTime*sampleRate);

				// Fill the buffer with previous input
				let buffers = outputList[0].map((_, c) => new Float32Array(memory, this.buffersIn[c], this.bufferLength));

				let blockSamples = 0; // current write position in the temporary input buffer
				let audioBufferIndex = 0;
				let audioSamples = this.audioBuffersStart; // start of current audio buffer
				// zero-pad until the start of the audio data
				let inputSamples = inputSamplesEnd - this.bufferLength;
				if (inputSamples < audioSamples) {
					blockSamples = audioSamples - inputSamples;
					buffers.forEach(b => b.fill(0, 0, blockSamples));
					inputSamples = audioSamples;
				}
				while (audioBufferIndex < this.audioBuffers.length && audioSamples < inputSamplesEnd) {
					let audioBuffer = this.audioBuffers[audioBufferIndex];
					let startIndex = inputSamples - audioSamples; // start index within the audio buffer
					let bufferEnd = audioSamples + audioBuffer[0].length;
					// how many samples to copy: min(how many left in the buffer, how many more we need)
					let count = Math.min(audioBuffer[0].length - startIndex, inputSamplesEnd - inputSamples);
					if (count > 0) {
						buffers.forEach((buffer, c) => {
							let channelBuffer = audioBuffer[c%audioBuffer.length];
							buffer.subarray(blockSamples).set(channelBuffer.subarray(startIndex, startIndex + count));
						});
						audioSamples += count;
						blockSamples += count;
					} else { // we're already past this buffer - skip it
						audioSamples += audioBuffer[0].length;
					}
					++audioBufferIndex;
				}
				if (blockSamples < this.bufferLength) {
					buffers.forEach(buffer => buffer.subarray(blockSamples).fill(0));
				}

				// constantly seeking, so we don't have to worry about the input buffers needing to be a rate-dependent size
				wasmModule._seek(this.bufferLength, currentMapSegment.rate);
				wasmModule._process(0, outputBlockSize);

				this.timeIntervalCounter -= outputBlockSize;
				if (this.timeIntervalCounter <= 0) {
					this.timeIntervalCounter = this.timeIntervalSamples;
					this.port.postMessage(['time', inputTime]);
				}
			}
			
			// Re-fetch in case the memory changed (even though there *shouldn't* be any allocations)
			memory = wasmModule.exports ? wasmModule.exports.memory.buffer : wasmModule.HEAP8.buffer;
			outputList[0].forEach((channelBuffer, c) => {
				let buffer = new Float32Array(memory, this.buffersOut[c], outputBlockSize);
				channelBuffer.set(buffer);
			});
			
			return true;
		}
	}

	registerProcessor(audioNodeKey, WasmProcessor);
}

/**
	Creates a Stretch node
	@async
	@function SignalsmithStretch
	@param {AudioContext} audioContext
	@param {Object} options - channel configuration (as per [options]{@link https://developer.mozilla.org/en-US/docs/Web/API/AudioWorkletNode/AudioWorkletNode#options})
	@returns {Promise<StretchNode>}
*/
SignalsmithStretch = ((Module, audioNodeKey) => {
	if (typeof AudioWorkletProcessor === "function" && typeof registerProcessor === "function") {
		// AudioWorklet side
		registerWorkletProcessor(Module, audioNodeKey);
		return {};
	}
	let promiseKey = Symbol();
	let createNode = async function(audioContext, options) {
		/**
			@classdesc An `AudioWorkletNode` with Signalsmith Stretch extensions
			@name StretchNode
			@augments AudioWorkletNode
			@property {number} inputTime - the current playback (in seconds) within the input audio stored by the node
		 */
		let audioNode;
		options = options || {
			numberOfInputs: 1,
			numberOfOutputs: 1,
			outputChannelCount: [2]
		};
		try {
			audioNode = new AudioWorkletNode(audioContext, audioNodeKey, options);
		} catch (e) {
			if (!audioContext[promiseKey]) {
				let moduleUrl = createNode.moduleUrl;
				if (!moduleUrl) {
					let moduleCode = `(${registerWorkletProcessor})((_scriptName=>${Module})(),${JSON.stringify(audioNodeKey)})`;
					moduleUrl = URL.createObjectURL(new Blob([moduleCode], {type: 'text/javascript'}));
				}
				audioContext[promiseKey] = audioContext.audioWorklet.addModule(moduleUrl);
			}
			await audioContext[promiseKey];
			audioNode = new AudioWorkletNode(audioContext, audioNodeKey, options);
		}

		// messages with Promise responses
		let requestMap = {};
		let idCounter = 0;
		let timeUpdateCallback = null;
		let post = (transfer, ...data) => {
			let id = idCounter++;
			return new Promise(resolve => {
				requestMap[id] = resolve;
				audioNode.port.postMessage([id].concat(data), transfer);
			});
		};
		audioNode.inputTime = 0;
		audioNode.port.onmessage = (event) => {
			let data = event.data;
			let id = data[0], value = data[1];
			if (id == 'time') {
				audioNode.inputTime = value;
				if (timeUpdateCallback) timeUpdateCallback(value);
			}
			if (id in requestMap) {
				requestMap[id](value);
				delete requestMap[id];
			}
		};
		
		return new Promise(resolve => {
			requestMap['ready'] = remoteMethodKeys => {
				Object.keys(remoteMethodKeys).forEach(key => {
					let argCount = remoteMethodKeys[key];
					audioNode[key] = (...args) => {
						let transfer = null;
						if (args.length > argCount) {
							transfer = args.pop();
						}
						return post(transfer, key, ...args);
					}
				});
				/** @lends StretchNode.prototype
					@method setUpdateInterval
				*/
				audioNode.setUpdateInterval = (seconds, callback) => {
					timeUpdateCallback = callback;
					return post(null, 'setUpdateInterval', seconds);
				}
				resolve(audioNode);
			}
		});
	};
	return createNode;
})(SignalsmithStretch, "signalsmith-stretch");
// register as a CommonJS/AMD module
if (typeof exports === 'object' && typeof module === 'object') {
	module.exports = SignalsmithStretch;
} else if (typeof define === 'function' && define['amd']) {
	define([], () => SignalsmithStretch);
}