const CiderAudioRenderer = { context: null, source: null, audioNodes: { gainNode: null, spatialNode: null, audioBands: null, vibrantbassNode: null, llpw: null, recorderNode: null, intelliGainComp: null, atmosphereRealizer2: null, atmosphereRealizer1: null, opportunisticCorrection: null, }, off: function () { CiderAudioRenderer.hierarchical_unloading(); try { CiderAudioRenderer.audioNodes = { gainNode: null, spatialNode: null, audioBands: null, vibrantbassNode: null, llpw: null, recorderNode: null, intelliGainComp: null, atmosphereRealizer2: null, atmosphereRealizer1: null, opportunisticCorrection: null, }; } catch (e) {} }, init: function ( cb = function () { console.log("CARenderer init"); } ) { CiderAudioRenderer.context = new OfflineAudioContext({ numberOfChannels: 2, length: 96000 * 8, sampleRate: 96000, }); CiderAudioRenderer.audioNodes.gainNode = CiderAudioRenderer.context.createGain(); CiderAudioRenderer.audioNodes.gainNode.gain.value = 1; CiderAudioRenderer.audioNodes.intelliGainComp = CiderAudioRenderer.context.createGain(); CiderAudioRenderer.audioNodes.intelliGainComp.gain.value = 1; CiderAudioRenderer.audioNodes.intelliGainComp.connect(CiderAudioRenderer.audioNodes.gainNode); CiderAudioRenderer.hierarchical_loading(); cb(); }, optimizerProfile: [ { id: "dirac32_96", file: "./cideraudio/impulses/OptimizerDirac32_96.wav", bitDepth: 32, sampleRate: 96000, container: "WAV", }, ], spatial_ninf: function () { CiderAudioRenderer.audioNodes.spatialNode = null; CiderAudioRenderer.audioNodes.spatialNode = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.spatialNode.normalize = false; let spatialProfile = CiderAudio.spatialProfiles.find(function (profile) { return profile.id === app.cfg.audio.maikiwiAudio.spatialProfile; }); if (spatialProfile === undefined) { spatialProfile = CiderAudio.spatialProfiles[0]; } fetch(spatialProfile.file).then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.spatialNode.buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); // Always destination CiderAudioRenderer.audioNodes.spatialNode.connect(CiderAudioRenderer.context.destination); }, spatialOff: function () { CiderAudioRenderer.hierarchical_loading(); }, intelliGainComp_n0_0: async function () { let filters = []; const precisionHz = 12; // Biquad calculation if (CiderAudioRenderer.audioNodes.audioBands !== null) { filters = filters.concat(CiderAudioRenderer.audioNodes.audioBands); } if (CiderAudioRenderer.audioNodes.vibrantbassNode !== null) { filters = filters.concat(CiderAudioRenderer.audioNodes.vibrantbassNode); } if (CiderAudioRenderer.audioNodes.llpw !== null && CiderAudioRenderer.audioNodes.llpw.length > 2) { filters = filters.concat(CiderAudioRenderer.audioNodes.llpw); } if (!filters || filters.length === 0) { let filterlessGain = 1; // Impulse Calculation if (CiderAudioRenderer.audioNodes.llpw !== null && CiderAudioRenderer.audioNodes.llpw.length <= 2) { filterlessGain = filterlessGain * 1.109174815262401; } if (app.cfg.audio.maikiwiAudio.atmosphereRealizer2 === true) { filterlessGain = filterlessGain * 1.096478196143185; } if (app.cfg.audio.maikiwiAudio.atmosphereRealizer1 === true) { filterlessGain = filterlessGain * 1.096478196143185; } if (app.cfg.audio.maikiwiAudio.spatial == true) { let spatialProfile = CiderAudio.spatialProfiles.find(function (profile) { return profile.id === app.cfg.audio.maikiwiAudio.spatialProfile; }); if (spatialProfile === undefined) { spatialProfile = CiderAudio.spatialProfiles[0]; } filterlessGain = filterlessGain * spatialProfile.gainComp; } filterlessGain = Math.pow(10, (-1 * (20 * Math.log10(filterlessGain))) / 20).toFixed(4); filterlessGain > 1.0 ? (CiderAudioRenderer.audioNodes.intelliGainComp.gain.value = 1) : (CiderAudioRenderer.audioNodes.intelliGainComp.gain.value = filterlessGain); console.debug(`[Cider][Audio] IntelliGainComp: ${filterlessGain > 1.0 ? 0 : (20 * Math.log10(filterlessGain)).toFixed(2)} dB (${filterlessGain > 1.0 ? 1 : filterlessGain})`); return; } filters.shift(); let steps = Math.ceil(96000 / precisionHz); // Generate input array for getFrequencyResponse method let frequencies = new Float32Array(steps); for (let i = 0; i < steps; i++) { frequencies[i] = (i + 1) * precisionHz; } // Here we will store combined amplitude response let totalAmplitudeResp = new Float32Array(steps); for (let i = 0; i < steps; i++) { totalAmplitudeResp[i] = 1; } // Temporary container for every filter response let amplitudeResp = new Float32Array(steps), phaseResp = new Float32Array(steps); for (let i = filters.length - 1; i >= 0; i--) { let filter = filters[i]; // Get filter response and convolve it with existing response filter.getFrequencyResponse(frequencies, amplitudeResp, phaseResp); for (let j = 0; j < steps; j++) { totalAmplitudeResp[j] *= amplitudeResp[j]; } } // Find max gain let maxGain = -120; for (let i = 0; i < steps; i++) { let gain = totalAmplitudeResp[i]; if (gain > maxGain) maxGain = gain; } // Impulse Calculation if (CiderAudioRenderer.audioNodes.llpw !== null && CiderAudioRenderer.audioNodes.llpw.length <= 2) { maxGain = maxGain * 1.109174815262401; } if (app.cfg.audio.maikiwiAudio.atmosphereRealizer2 === true) { maxGain = maxGain * 1.096478196143185; } if (app.cfg.audio.maikiwiAudio.atmosphereRealizer1 === true) { maxGain = maxGain * 1.096478196143185; } if (app.cfg.audio.maikiwiAudio.spatial == true) { let spatialProfile = CiderAudio.spatialProfiles.find(function (profile) { return profile.id === app.cfg.audio.maikiwiAudio.spatialProfile; }); if (spatialProfile === undefined) { spatialProfile = CiderAudio.spatialProfiles[0]; } maxGain = maxGain * spatialProfile.gainComp; } maxGain = Math.pow(10, (-1 * (20 * Math.log10(maxGain))) / 20).toFixed(4); maxGain > 1.0 ? CiderAudioRenderer.audioNodes.intelliGainComp.gain.exponentialRampToValueAtTime(1.0, CiderAudioRenderer.context.currentTime + 0.3) : CiderAudioRenderer.audioNodes.intelliGainComp.gain.exponentialRampToValueAtTime(maxGain, CiderAudioRenderer.context.currentTime + 0.3); console.debug(`[Cider][Audio] IntelliGainComp: ${maxGain > 1.0 ? 0 : (20 * Math.log10(maxGain)).toFixed(2)} dB (${maxGain > 1.0 ? 1 : maxGain})`); }, atmosphereRealizer2_n6: function (status, destination) { if (status === true) { CiderAudioRenderer.audioNodes.atmosphereRealizer2 = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.atmosphereRealizer2.normalize = false; let atmosphereRealizerProfile = CiderAudio.atmosphereRealizerProfiles.find(function (profile) { return profile.id === app.cfg.audio.maikiwiAudio.atmosphereRealizer2_value; }); if (atmosphereRealizerProfile === undefined) { atmosphereRealizerProfile = CiderAudio.atmosphereRealizerProfiles[0]; } fetch(atmosphereRealizerProfile.file).then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.atmosphereRealizer2.buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); switch (destination) { case "spatial": try { CiderAudioRenderer.audioNodes.atmosphereRealizer2.connect(CiderAudioRenderer.audioNodes.spatialNode); console.debug("[Cider][Audio] atmosphereRealizer2_n6 -> Spatial"); } catch (e) {} break; case "n6": try { CiderAudioRenderer.audioNodes.atmosphereRealizer2.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer2); console.debug("[Cider][Audio] atmosphereRealizer2_n6 -> atmosphereRealizer2"); } catch (e) {} break; case "n5": try { CiderAudioRenderer.audioNodes.atmosphereRealizer2.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer1); console.debug("[Cider][Audio] atmosphereRealizer2_n6 -> atmosphereRealizer1"); } catch (e) {} break; case "n4": try { CiderAudioRenderer.audioNodes.atmosphereRealizer2.connect(CiderAudioRenderer.audioNodes.vibrantbassNode[0]); console.debug("[Cider][Audio] atmosphereRealizer2_n6 -> vibrantbassNode"); } catch (e) {} break; case "n3": try { CiderAudioRenderer.audioNodes.atmosphereRealizer2.connect(CiderAudioRenderer.audioNodes.audioBands[0]); console.debug("[Cider][Audio] atmosphereRealizer2_n6 -> audioBands"); } catch (e) {} break; case "n2": try { CiderAudioRenderer.audioNodes.atmosphereRealizer2.connect(CiderAudioRenderer.audioNodes.opportunisticCorrection); console.debug("[Cider][Audio] atmosphereRealizer2_n6 -> opportunisticCorrection"); } catch (e) {} break; case "n1": try { CiderAudioRenderer.audioNodes.atmosphereRealizer2.connect(CiderAudioRenderer.audioNodes.llpw[0]); console.debug("[Cider][Audio] atmosphereRealizer2_n6 -> llpw"); } catch (e) {} break; case "n0": try { CiderAudioRenderer.audioNodes.atmosphereRealizer2.connect(CiderAudioRenderer.context.destination); console.debug("[Cider][Audio] atmosphereRealizer2_n6 -> destination"); } catch (e) {} break; } } }, atmosphereRealizer1_n5: function (status, destination) { if (status === true) { CiderAudioRenderer.audioNodes.atmosphereRealizer1 = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.atmosphereRealizer1.normalize = false; let atmosphereRealizerProfile = CiderAudio.atmosphereRealizerProfiles.find(function (profile) { return profile.id === app.cfg.audio.maikiwiAudio.atmosphereRealizer1_value; }); if (atmosphereRealizerProfile === undefined) { atmosphereRealizerProfile = CiderAudio.atmosphereRealizerProfiles[0]; } fetch(atmosphereRealizerProfile.file).then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.atmosphereRealizer1.buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); switch (destination) { case "spatial": try { CiderAudioRenderer.audioNodes.atmosphereRealizer1.connect(CiderAudioRenderer.audioNodes.spatialNode); console.debug("[Cider][Audio] atmosphereRealizer1_n5 -> Spatial"); } catch (e) {} break; case "n6": try { CiderAudioRenderer.audioNodes.atmosphereRealizer1.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer2); console.debug("[Cider][Audio] atmosphereRealizer1_n5 -> atmosphereRealizer2"); } catch (e) {} break; case "n5": try { CiderAudioRenderer.audioNodes.atmosphereRealizer1.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer1); console.debug("[Cider][Audio] atmosphereRealizer1_n5 -> atmosphereRealizer1"); } catch (e) {} break; case "n4": try { CiderAudioRenderer.audioNodes.atmosphereRealizer1.connect(CiderAudioRenderer.audioNodes.vibrantbassNode[0]); console.debug("[Cider][Audio] atmosphereRealizer1_n5 -> vibrantbassNode"); } catch (e) {} break; case "n3": try { CiderAudioRenderer.audioNodes.atmosphereRealizer1.connect(CiderAudioRenderer.audioNodes.audioBands[0]); console.debug("[Cider][Audio] atmosphereRealizer1_n5 -> audioBands"); } catch (e) {} break; case "n2": try { CiderAudioRenderer.audioNodes.atmosphereRealizer1.connect(CiderAudioRenderer.audioNodes.opportunisticCorrection); console.debug("[Cider][Audio] atmosphereRealizer1_n5 -> opportunisticCorrection"); } catch (e) {} break; case "n1": try { CiderAudioRenderer.audioNodes.atmosphereRealizer1.connect(CiderAudioRenderer.audioNodes.llpw[0]); console.debug("[Cider][Audio] atmosphereRealizer1_n5 -> llpw"); } catch (e) {} break; case "n0": try { CiderAudioRenderer.audioNodes.atmosphereRealizer1.connect(CiderAudioRenderer.context.destination); console.debug("[Cider][Audio] atmosphereRealizer1_n5 -> destination"); } catch (e) {} break; } } }, opportunisticCorrection_n2: function (status, destination) { if (status === true) { CiderAudioRenderer.audioNodes.opportunisticCorrection = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.opportunisticCorrection.normalize = false; let opportunisticCorrectionProfile = CiderAudio.opportunisticCorrectionProfiles.find(function (profile) { return profile.id === app.cfg.audio.maikiwiAudio.opportunisticCorrection_state; }); if (opportunisticCorrectionProfile === undefined) { opportunisticCorrectionProfile = CiderAudio.opportunisticCorrectionProfiles[0]; } fetch(opportunisticCorrectionProfile.file).then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.opportunisticCorrection.buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); switch (destination) { case "spatial": try { CiderAudioRenderer.audioNodes.opportunisticCorrection.connect(CiderAudioRenderer.audioNodes.spatialNode); console.debug("[Cider][Audio] opportunisticCorrection_n2 -> Spatial"); } catch (e) {} break; case "n6": try { CiderAudioRenderer.audioNodes.opportunisticCorrection.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer2); console.debug("[Cider][Audio] opportunisticCorrection_n2 -> atmosphereRealizer2"); } catch (e) {} break; case "n5": try { CiderAudioRenderer.audioNodes.opportunisticCorrection.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer1); console.debug("[Cider][Audio] opportunisticCorrection_n2 -> atmosphereRealizer1"); } catch (e) {} break; case "n4": try { CiderAudioRenderer.audioNodes.opportunisticCorrection.connect(CiderAudioRenderer.audioNodes.vibrantbassNode[0]); console.debug("[Cider][Audio] opportunisticCorrection_n2 -> vibrantbassNode"); } catch (e) {} break; case "n3": try { CiderAudioRenderer.audioNodes.opportunisticCorrection.connect(CiderAudioRenderer.audioNodes.audioBands[0]); console.debug("[Cider][Audio] opportunisticCorrection_n2 -> audioBands"); } catch (e) {} break; case "n2": try { CiderAudioRenderer.audioNodes.opportunisticCorrection.connect(CiderAudioRenderer.audioNodes.opportunisticCorrection); console.debug("[Cider][Audio] opportunisticCorrection_n2 -> opportunisticCorrection"); } catch (e) {} break; case "n1": try { CiderAudioRenderer.audioNodes.opportunisticCorrection.connect(CiderAudioRenderer.audioNodes.opportunisticCorrection[0]); console.debug("[Cider][Audio] opportunisticCorrection_n2 -> opportunisticCorrection"); } catch (e) {} break; case "n0": try { CiderAudioRenderer.audioNodes.opportunisticCorrection.connect(CiderAudioRenderer.context.destination); console.debug("[Cider][Audio] opportunisticCorrection_n2 -> destination"); } catch (e) {} break; } } }, llpw_n1: function (status, destination) { if (status === true) { let c_LLPW_Q = [1.25, 0.131, 10, 2.5, 2.293, 0.11, 14.14, 1.552, 28.28, 7.071, 2.847, 5, 0.625, 7.071, 3.856, 3.856, 20, 28.28, 20, 14.14, 2.102, 6.698, 3.536, 10]; let c_LLPW_GAIN = [-0.11, 0.27, -0.8, 0.57, 1.84, -0.38, 0.47, -1.56, 0.83, 1.58, -1.79, -0.45, 0.48, 1.22, -1.58, -1.59, -2.03, 2.56, -2.2, -2.48, 4.75, 10.5, 1.43, 3.76]; let c_LLPW_FREQUENCIES = [400.83, 5812.8, 8360, 10413, 10658, 12079, 12899, 13205, 14848, 15591, 15778, 15783, 16716, 16891, 17255, 17496, 18555, 18622, 19219, 19448, 19664, 21341, 21353, 22595]; let LLPW_Q = [5, 1, 3.536, 1.25, 8.409, 1.25, 14.14, 7.071, 5, 0.625, 16.82, 20, 20, 20, 28.28, 28.28, 28.28, 20, 33.64, 33.64, 10, 28.28, 7.071, 3.856]; let LLPW_GAIN = [0.38, -1.81, -0.23, -0.51, 0.4, 0.84, 0.36, -0.34, 0.27, -1.2, -0.42, -0.67, 0.81, 1.31, -0.71, 0.68, -1.04, 0.79, -0.73, -1.33, 1.17, 0.57, 0.35, 6.33]; let LLPW_FREQUENCIES = [16.452, 24.636, 37.134, 74.483, 159.54, 308.18, 670.21, 915.81, 1200.7, 2766.4, 2930.6, 4050.6, 4409.1, 5395.2, 5901.6, 6455.5, 7164.1, 7724.1, 8449, 10573, 12368, 14198, 17910, 18916]; CiderAudioRenderer.audioNodes.llpw = []; switch (app.cfg.audio.maikiwiAudio.ciderPPE_value) { case "MAIKIWI": try { switch (localStorage.getItem("playingBitrate")) { case "64": CiderAudioRenderer.audioNodes.llpw[0] = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.llpw[0].normalize = false; fetch("./cideraudio/impulses/CAP_64.wav").then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.llpw[0].buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); console.debug("[Cider][Audio] CAP Adaptive - 64kbps"); break; case "256": CiderAudioRenderer.audioNodes.llpw[0] = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.llpw[0].normalize = false; CiderAudioRenderer.audioNodes.llpw[1] = CiderAudioRenderer.context.createGain(); CiderAudioRenderer.audioNodes.llpw[1].gain.value = 2.37; // Post Gain Compensation CiderAudioRenderer.audioNodes.llpw[0].connect(CiderAudioRenderer.audioNodes.llpw[1]); fetch("./cideraudio/impulses/CAP_256_FINAL_48k.wav").then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.llpw[0].buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); console.debug("[Cider][Audio] CAP Adaptive - 256kbps"); break; default: CiderAudioRenderer.audioNodes.llpw[0] = CiderAudioRenderer.context.createGain(); CiderAudioRenderer.audioNodes.llpw[0].gain.value = 1; console.debug("[Cider][Audio] CAP Disabled (Passthrough) : Non-Lossy Bitrate."); break; } } catch (e) { CiderAudioRenderer.audioNodes.llpw[0] = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.llpw[0].normalize = false; CiderAudioRenderer.audioNodes.llpw[1] = CiderAudioRenderer.context.createGain(); CiderAudioRenderer.audioNodes.llpw[1].gain.value = 2.37; CiderAudioRenderer.audioNodes.llpw[0].connect(CiderAudioRenderer.audioNodes.llpw[1]); fetch("./cideraudio/impulses/CAP_256_FINAL_48k.wav").then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.llpw[0].buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); console.debug("[Cider][Audio] CAP Adaptive - (Error Fallback) 256kbps"); } break; case "MAIKIWI_LEGACY": CiderAudioRenderer.audioNodes.llpw[0] = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.llpw[0].normalize = false; fetch("./cideraudio/impulses/CAP_Maikiwi.wav").then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.llpw[0].buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); console.debug("[Cider][Audio] CAP - Maikiwi Signature Mode"); break; case "NATURAL": CiderAudioRenderer.audioNodes.llpw[0] = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.llpw[0].normalize = false; fetch("./cideraudio/impulses/CAP_Natural.wav").then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.llpw[0].buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); console.debug("[Cider][Audio] CAP - Natural Mode"); break; case "LEGACY": for (let i = 0; i < LLPW_FREQUENCIES.length; i++) { CiderAudioRenderer.audioNodes.llpw[i] = CiderAudioRenderer.context.createBiquadFilter(); CiderAudioRenderer.audioNodes.llpw[i].type = "peaking"; // 'peaking'; CiderAudioRenderer.audioNodes.llpw[i].frequency.value = LLPW_FREQUENCIES[i]; CiderAudioRenderer.audioNodes.llpw[i].Q.value = LLPW_Q[i]; CiderAudioRenderer.audioNodes.llpw[i].gain.value = LLPW_GAIN[i]; } for (let i = 1; i < LLPW_FREQUENCIES.length; i++) { CiderAudioRenderer.audioNodes.llpw[i - 1].connect(CiderAudioRenderer.audioNodes.llpw[i]); } console.debug("[Cider][Audio] CAP - Legacy Mode"); break; default: CiderAudioRenderer.audioNodes.llpw[0] = CiderAudioRenderer.context.createConvolver(); CiderAudioRenderer.audioNodes.llpw[0].normalize = false; CiderAudioRenderer.audioNodes.llpw[1] = CiderAudioRenderer.context.createGain(); CiderAudioRenderer.audioNodes.llpw[1].gain.value = 2.57; CiderAudioRenderer.audioNodes.llpw[0].connect(CiderAudioRenderer.audioNodes.llpw[1]); fetch("./cideraudio/impulses/CAP_256_FINAL_48k.wav").then(async (impulseData) => { let bufferedImpulse = await impulseData.arrayBuffer(); CiderAudioRenderer.audioNodes.llpw[0].buffer = await CiderAudioRenderer.context.decodeAudioData(bufferedImpulse); }); app.cfg.audio.maikiwiAudio.ciderPPE_value = "MAIKIWI"; console.debug("[Cider][Audio] CAP - Maikiwi Adaptive Mode (Defaulted from broki config)"); break; } switch (destination) { case "spatial": try { CiderAudioRenderer.audioNodes.llpw.at(-1).connect(CiderAudioRenderer.audioNodes.spatialNode); console.debug("[Cider][Audio] llpw_n1 -> Spatial"); } catch (e) {} break; case "n6": try { CiderAudioRenderer.audioNodes.llpw.at(-1).connect(CiderAudioRenderer.audioNodes.atmosphereRealizer2); console.debug("[Cider][Audio] llpw_n1 -> atmosphereRealizer2"); } catch (e) {} break; case "n5": try { CiderAudioRenderer.audioNodes.llpw.at(-1).connect(CiderAudioRenderer.audioNodes.atmosphereRealizer1); console.debug("[Cider][Audio] llpw_n1 -> atmosphereRealizer1"); } catch (e) {} break; case "n4": try { CiderAudioRenderer.audioNodes.llpw.at(-1).connect(CiderAudioRenderer.audioNodes.vibrantbassNode[0]); console.debug("[Cider][Audio] llpw_n1 -> vibrantbassNode"); } catch (e) {} break; case "n3": try { CiderAudioRenderer.audioNodes.llpw.at(-1).connect(CiderAudioRenderer.audioNodes.audioBands[0]); console.debug("[Cider][Audio] llpw_n1 -> audioBands"); } catch (e) {} break; case "n2": try { CiderAudioRenderer.audioNodes.llpw.at(-1).connect(CiderAudioRenderer.audioNodes.opportunisticCorrection); console.debug("[Cider][Audio] llpw_n1 -> opportunisticCorrection"); } catch (e) {} break; case "n1": try { CiderAudioRenderer.audioNodes.llpw.at(-1).connect(CiderAudioRenderer.audioNodes.llpw[0]); console.debug("[Cider][Audio] llpw_n1 -> llpw"); } catch (e) {} break; case "n0": try { CiderAudioRenderer.audioNodes.llpw.at(-1).connect(CiderAudioRenderer.context.destination); console.debug("[Cider][Audio] llpw_n1 -> destination"); } catch (e) {} break; } } }, vibrantbass_n4: function (status, destination) { if (status === true) { let VIBRANTBASSBANDS = app.cfg.audio.maikiwiAudio.vibrantBass.frequencies; let VIBRANTBASSGAIN = app.cfg.audio.maikiwiAudio.vibrantBass.gain; let VIBRANTBASSQ = app.cfg.audio.maikiwiAudio.vibrantBass.Q; CiderAudioRenderer.audioNodes.vibrantbassNode = []; for (let i = 0; i < VIBRANTBASSBANDS.length; i++) { CiderAudioRenderer.audioNodes.vibrantbassNode[i] = CiderAudioRenderer.context.createBiquadFilter(); CiderAudioRenderer.audioNodes.vibrantbassNode[i].type = "peaking"; // 'peaking'; CiderAudioRenderer.audioNodes.vibrantbassNode[i].frequency.value = VIBRANTBASSBANDS[i]; CiderAudioRenderer.audioNodes.vibrantbassNode[i].Q.value = VIBRANTBASSQ[i]; CiderAudioRenderer.audioNodes.vibrantbassNode[i].gain.value = VIBRANTBASSGAIN[i] * (app.cfg.audio.equalizer.vibrantBass / 10); } for (let i = 1; i < VIBRANTBASSBANDS.length; i++) { CiderAudioRenderer.audioNodes.vibrantbassNode[i - 1].connect(CiderAudioRenderer.audioNodes.vibrantbassNode[i]); } switch (destination) { case "spatial": try { CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).connect(CiderAudioRenderer.audioNodes.spatialNode); console.debug("[Cider][Audio] vibrantbass_n4 -> Spatial"); } catch (e) {} break; case "n6": try { CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).connect(CiderAudioRenderer.audioNodes.atmosphereRealizer2); console.debug("[Cider][Audio] vibrantbass_n4 -> atmosphereRealizer2"); } catch (e) {} break; case "n5": try { CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).connect(CiderAudioRenderer.audioNodes.atmosphereRealizer1); console.debug("[Cider][Audio] vibrantbass_n4 -> atmosphereRealizer1"); } catch (e) {} break; case "n4": try { CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).connect(CiderAudioRenderer.audioNodes.vibrantbassNode[0]); console.debug("[Cider][Audio] vibrantbass_n4 -> vibrantbassNode"); } catch (e) {} break; case "n3": try { CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).connect(CiderAudioRenderer.audioNodes.audioBands[0]); console.debug("[Cider][Audio] vibrantbass_n4 -> audioBands"); } catch (e) {} break; case "n2": try { CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).connect(CiderAudioRenderer.audioNodes.opportunisticCorrection); console.debug("[Cider][Audio] vibrantbass_n4 -> opportunisticCorrection"); } catch (e) {} break; case "n1": try { CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).connect(CiderAudioRenderer.audioNodes.llpw[0]); console.debug("[Cider][Audio] vibrantbass_n4 -> llpw"); } catch (e) {} break; case "n0": try { CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).connect(CiderAudioRenderer.context.destination); console.debug("[Cider][Audio] vibrantbass_n4 -> destination"); } catch (e) {} break; } } }, hierarchical_optimizer: async function () { await CiderAudioRenderer.intelliGainComp_n0_0(); // Calculate headroom for upcoming convolver // Render and return convolved buffer let optimizerProfile = CiderAudioRenderer.optimizerProfile.find(function (profile) { return profile.id === "dirac32_96"; // Hard code for now }); fetch(optimizerProfile.file) .then(async (response) => await response.arrayBuffer()) .then((arrayBuffer) => CiderAudio.context.decodeAudioData(arrayBuffer)) .then((decodedBuffer) => { const source = CiderAudioRenderer.context.createBufferSource(); source.buffer = decodedBuffer; source.connect(CiderAudioRenderer.audioNodes.intelliGainComp); switch (app.cfg.audio.maikiwiAudio.lastNode) { case "spatial": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.spatialNode); break; case "n6": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer2); break; case "n5": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer1); break; case "n4": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.vibrantbassNode[0]); break; case "n3": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.audioBands[0]); break; case "n2": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.opportunisticCorrection); break; case "n1": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.llpw[0]); break; } switch (app.cfg.audio.maikiwiAudio.firstNode) { case "spatial": CiderAudioRenderer.audioNodes.spatialNode.disconnect(); CiderAudioRenderer.audioNodes.spatialNode.connect(CiderAudioRenderer.destination); break; case "n6": CiderAudioRenderer.audioNodes.atmosphereRealizer2.disconnect(); CiderAudioRenderer.audioNodes.atmosphereRealizer2.connect(CiderAudioRenderer.destination); break; case "n5": CiderAudioRenderer.audioNodes.atmosphereRealizer1.disconnect(); CiderAudioRenderer.audioNodes.atmosphereRealizer1.connect(CiderAudioRenderer.destination); break; case "n4": CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).disconnect(); CiderAudioRenderer.audioNodes.vibrantbassNode.at(-1).connect(CiderAudioRenderer.destination); break; case "n3": CiderAudioRenderer.audioNodes.audioBands.at(-1).disconnect(); CiderAudioRenderer.audioNodes.audioBands.at(-1).connect(CiderAudioRenderer.destination); break; case "n2": CiderAudioRenderer.audioNodes.opportunisticCorrection.disconnect(); CiderAudioRenderer.audioNodes.opportunisticCorrection.connect(CiderAudioRenderer.destination); break; case "n1": CiderAudioRenderer.audioNodes.llpw.at(-1).disconnect(); CiderAudioRenderer.audioNodes.llpw.at(-1).connect(CiderAudioRenderer.destination); break; } source.start(); return CiderAudioRenderer.context.startRendering().then(function (res) { return res; }); }); }, hierarchical_unloading: function () { try { CiderAudioRenderer.audioNodes.spatialNode.disconnect(); CiderAudioRenderer.audioNodes.spatialNode = null; } catch (e) {} try { CiderAudioRenderer.audioNodes.gainNode.disconnect(); } catch (e) {} try { CiderAudioRenderer.audioNodes.atmosphereRealizer2.disconnect(); CiderAudioRenderer.audioNodes.atmosphereRealizer2 = null; } catch (e) {} try { CiderAudioRenderer.audioNodes.atmosphereRealizer1.disconnect(); CiderAudioRenderer.audioNodes.atmosphereRealizer1 = null; } catch (e) {} try { for (var i of CiderAudioRenderer.audioNodes.llpw) { i.disconnect(); } CiderAudioRenderer.audioNodes.llpw = null; } catch (e) {} try { for (var i of CiderAudioRenderer.audioNodes.vibrantbassNode) { i.disconnect(); } CiderAudioRenderer.audioNodes.vibrantbassNode = null; } catch (e) {} try { for (var i of CiderAudioRenderer.audioNodes.audioBands) { i.disconnect(); } CiderAudioRenderer.audioNodes.vibrantbassNode = null; } catch (e) {} try { CiderAudioRenderer.audioNodes.opportunisticCorrection.disconnect(); CiderAudioRenderer.audioNodes.opportunisticCorrection = null; } catch (e) {} console.debug("[Cider][Audio] Finished hierarchical unloading"); }, hierarchical_loading: async function () { if (app.cfg.audio.maikiwiAudio.staticOptimizer.lock === true) { return; } // Do nothing if locked by optimizer. const configMap = new Map([ ["spatial", app.cfg.audio.maikiwiAudio.spatial === true], ["n6", app.cfg.audio.maikiwiAudio.atmosphereRealizer2 === true], ["n5", app.cfg.audio.maikiwiAudio.atmosphereRealizer1 === true], ["n4", app.cfg.audio.equalizer.vibrantBass != 0], ["n3", Math.max(...app.cfg.audio.equalizer.gain) != 0], ["n2", app.cfg.audio.maikiwiAudio.opportunisticCorrection_state !== "OFF"], ["n1", app.cfg.audio.maikiwiAudio.ciderPPE === true], ]); CiderAudioRenderer.hierarchical_unloading(); let lastNode = "n0"; let index = 0; let firstNode = "n0"; for (let [tier, value] of configMap.entries()) { if (value === true) { if (index === 0) { firstNode = tier; } switch (tier) { case "spatial": CiderAudioRenderer.spatial_ninf(); lastNode = "spatial"; break; case "n6": app.cfg.audio.normalization = true; CiderAudioRenderer.atmosphereRealizer2_n6(true, lastNode); lastNode = "n6"; break; case "n5": app.cfg.audio.normalization = true; CiderAudioRenderer.atmosphereRealizer1_n5(true, lastNode); lastNode = "n5"; break; case "n4": CiderAudioRenderer.vibrantbass_n4(true, lastNode); lastNode = "n4"; break; case "n3": CiderAudioRenderer.equalizer(true, lastNode); lastNode = "n3"; break; case "n2": CiderAudioRenderer.opportunisticCorrection_n2(true, lastNode); lastNode = "n2"; break; case "n1": app.cfg.audio.normalization = true; CiderAudioRenderer.llpw_n1(true, lastNode); lastNode = "n1"; break; } } } app.cfg.audio.maikiwiAudio.lastNode = lastNode; app.cfg.audio.maikiwiAudio.firstNode = firstNode; // Sync last node & first switch (lastNode) { case "spatial": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.spatialNode); console.debug("[Cider][Audio] gainNode -> Spatial"); break; case "n6": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer2); console.debug("[Cider][Audio] gainNode -> atmosphereRealizer2"); break; case "n5": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.atmosphereRealizer1); console.debug("[Cider][Audio] gainNode -> atmosphereRealizer1"); break; case "n4": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.vibrantbassNode[0]); console.debug("[Cider][Audio] gainNode -> vibrantbass"); break; case "n3": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.audioBands[0]); console.debug("[Cider][Audio] gainNode -> audioBands"); break; case "n2": try { CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.opportunisticCorrection); console.debug("[Cider][Audio] gainNode -> opportunisticCorrection"); } catch (e) {} break; case "n1": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.audioNodes.llpw[0]); console.debug("[Cider][Audio] gainNode -> llpw"); break; case "n0": CiderAudioRenderer.audioNodes.gainNode.connect(CiderAudioRenderer.context.destination); console.debug("[Cider][Audio] gainNode -> destination"); break; } console.debug("[Cider][Audio]\n" + [...configMap.entries()] + "\n lastNode: " + lastNode); CiderAudioRenderer.intelliGainComp_n0_0(); console.debug("[Cider][Audio] Finished hierarchical loading"); }, equalizer: function (status, destination) { // n3_1 if (status === true) { let BANDS = app.cfg.audio.equalizer.frequencies; let GAIN = app.cfg.audio.equalizer.gain; let Q = app.cfg.audio.equalizer.Q; CiderAudioRenderer.audioNodes.audioBands = []; for (let i = 0; i < BANDS.length; i++) { CiderAudioRenderer.audioNodes.audioBands[i] = CiderAudioRenderer.context.createBiquadFilter(); CiderAudioRenderer.audioNodes.audioBands[i].type = "peaking"; // 'peaking'; CiderAudioRenderer.audioNodes.audioBands[i].frequency.value = BANDS[i]; CiderAudioRenderer.audioNodes.audioBands[i].Q.value = Q[i]; CiderAudioRenderer.audioNodes.audioBands[i].gain.value = GAIN[i] * app.cfg.audio.equalizer.mix; } for (let i = 1; i < BANDS.length; i++) { CiderAudioRenderer.audioNodes.audioBands[i - 1].connect(CiderAudioRenderer.audioNodes.audioBands[i]); } switch (destination) { case "spatial": CiderAudioRenderer.audioNodes.audioBands.at(-1).connect(CiderAudioRenderer.audioNodes.spatialNode); console.debug("[Cider][Audio] Equalizer -> Spatial"); break; case "n6": try { CiderAudioRenderer.audioNodes.audioBands.at(-1).connect(CiderAudioRenderer.audioNodes.atmosphereRealizer2); console.debug("[Cider][Audio] Equalizer -> atmosphereRealizer2"); } catch (e) {} break; case "n5": try { CiderAudioRenderer.audioNodes.audioBands.at(-1).connect(CiderAudioRenderer.audioNodes.atmosphereRealizer1); console.debug("[Cider][Audio] Equalizer -> atmosphereRealizer1"); } catch (e) {} break; case "n4": try { CiderAudioRenderer.audioNodes.audioBands.at(-1).connect(CiderAudioRenderer.audioNodes.vibrantbassNode[0]); console.debug("[Cider][Audio] Equalizer -> vibrantbassNode"); } catch (e) {} break; case "n3": try { CiderAudioRenderer.audioNodes.audioBands.at(-1).connect(CiderAudioRenderer.audioNodes.audioBands[0]); console.debug("[Cider][Audio] Equalizer -> audioBands"); } catch (e) {} break; case "n2": try { CiderAudioRenderer.audioNodes.audioBands.at(-1).connect(CiderAudioRenderer.audioNodes.opportunisticCorrection); console.debug("[Cider][Audio] Equalizer -> opportunisticCorrection"); } catch (e) {} break; case "n1": try { CiderAudioRenderer.audioNodes.audioBands.at(-1).connect(CiderAudioRenderer.audioNodes.llpw[0]); console.debug("[Cider][Audio] Equalizer -> llpw"); } catch (e) {} break; case "n0": try { CiderAudioRenderer.audioNodes.audioBands.at(-1).connect(CiderAudioRenderer.context.destination); console.debug("[Cider][Audio] Equalizer -> destination"); } catch (e) {} break; } } }, }; export { CiderAudioRenderer };