n@407: /** n@407: * loundess.js n@407: * Loudness module for the Web Audio Evaluation Toolbox n@407: * Allows for automatic calculation of loudness of Web Audio API Buffer objects, n@407: * return gain values to correct for a target loudness or match loudness between n@407: * multiple objects n@407: */ n@407: n@408: var interval_cal_loudness_event = null; n@408: nicholas@438: if (typeof OfflineAudioContext == "undefined"){ nicholas@438: var OfflineAudioContext = webkitOfflineAudioContext; nicholas@438: } nicholas@438: n@408: function calculateLoudness(buffer, timescale, target, offlineContext) n@407: { n@408: // This function returns the EBU R 128 specification loudness model and sets the linear gain required to match -23 LUFS n@407: // buffer -> Web Audio API Buffer object n@407: // timescale -> M or Momentary (returns Array), S or Short (returns Array), n@407: // I or Integrated (default, returns number) n@408: // target -> default is -23 LUFS but can be any LUFS measurement. n@407: n@408: if (buffer == undefined) n@407: { n@407: return 0; n@407: } n@407: if (timescale == undefined) n@407: { n@407: timescale = "I"; n@407: } n@408: if (target == undefined) n@408: { n@408: target = -23; n@408: } n@407: if (offlineContext == undefined) n@407: { n@471: offlineContext = new OfflineAudioContext(buffer.buffer.numberOfChannels, buffer.buffer.length, buffer.buffer.sampleRate); n@407: } n@408: // Create the required filters n@407: var KFilter = offlineContext.createBiquadFilter(); n@407: KFilter.type = "highshelf"; n@407: KFilter.gain.value = 4; n@407: KFilter.frequency.value = 1480; n@407: n@407: var HPFilter = offlineContext.createBiquadFilter(); n@407: HPFilter.type = "highpass"; n@407: HPFilter.Q.value = 0.707; n@407: HPFilter.frequency.value = 60; n@407: // copy Data into the process buffer n@407: var processSource = offlineContext.createBufferSource(); n@471: processSource.buffer = buffer.buffer; n@407: n@407: processSource.connect(KFilter); n@407: KFilter.connect(HPFilter); n@407: HPFilter.connect(offlineContext.destination); n@407: processSource.start(); nicholas@438: offlineContext.oncomplete = function(renderedBuffer) { n@407: // Have the renderedBuffer information, now continue processing nicholas@438: if (typeof renderedBuffer.renderedBuffer == 'object') { nicholas@438: renderedBuffer = renderedBuffer.renderedBuffer; nicholas@438: } n@407: switch(timescale) n@407: { n@407: case "I": n@407: var blockEnergy = calculateProcessedLoudness(renderedBuffer, 400, 0.75); n@407: // Apply the absolute gate n@407: var loudness = calculateLoudnessFromChannelBlocks(blockEnergy); n@407: var absgatedEnergy = new Array(blockEnergy.length); n@407: for (var c=0; c= -70) n@407: { n@407: for (var c=0; c= relGateLevel) n@407: { n@407: for (var c=0; c= 4) {G = 1.41;} n@407: sigma += blockEnergy[channel][i]*G; n@407: } n@407: loudness[i] = -0.691 + 10*Math.log10(sigma); n@407: } n@407: return loudness; n@407: } n@407: function calculateOverallLoudnessFromChannelBlocks(blockEnergy) n@407: { n@407: // Loudness n@407: var summation = 0; n@407: for (var channel = 0; channel < blockEnergy.length; channel++) n@407: { n@407: var G = 1.0; n@407: if (channel >= 4) {G = 1.41;} n@407: var sigma = 0; n@407: for (var i=0; i