function freeConfig(config, Module) { if ('buffer' in config) { Module._free(config.buffer); } if ('config' in config) { freeConfig(config.config, Module) } if ('transducer' in config) { freeConfig(config.transducer, Module) } if ('paraformer' in config) { freeConfig(config.paraformer, Module) } if ('ctc' in config) { freeConfig(config.ctc, Module) } if ('feat' in config) { freeConfig(config.feat, Module) } if ('model' in config) { freeConfig(config.model, Module) } if ('nemoCtc' in config) { freeConfig(config.nemoCtc, Module) } if ('whisper' in config) { freeConfig(config.whisper, Module) } if ('tdnn' in config) { freeConfig(config.tdnn, Module) } if ('senseVoice' in config) { freeConfig(config.senseVoice, Module) } if ('lm' in config) { freeConfig(config.lm, Module) } if ('ctcFstDecoder' in config) { freeConfig(config.ctcFstDecoder, Module) } Module._free(config.ptr); } // The user should free the returned pointers function initSherpaOnnxOnlineTransducerModelConfig(config, Module) { const encoderLen = Module.lengthBytesUTF8(config.encoder || '') + 1; const decoderLen = Module.lengthBytesUTF8(config.decoder || '') + 1; const joinerLen = Module.lengthBytesUTF8(config.joiner || '') + 1; const n = encoderLen + decoderLen + joinerLen; const buffer = Module._malloc(n); const len = 3 * 4; // 3 pointers const ptr = Module._malloc(len); let offset = 0; Module.stringToUTF8(config.encoder || '', buffer + offset, encoderLen); offset += encoderLen; Module.stringToUTF8(config.decoder || '', buffer + offset, decoderLen); offset += decoderLen; Module.stringToUTF8(config.joiner || '', buffer + offset, joinerLen); offset = 0; Module.setValue(ptr, buffer + offset, 'i8*'); offset += encoderLen; Module.setValue(ptr + 4, buffer + offset, 'i8*'); offset += decoderLen; Module.setValue(ptr + 8, buffer + offset, 'i8*'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOnlineParaformerModelConfig(config, Module) { const encoderLen = Module.lengthBytesUTF8(config.encoder || '') + 1; const decoderLen = Module.lengthBytesUTF8(config.decoder || '') + 1; const n = encoderLen + decoderLen; const buffer = Module._malloc(n); const len = 2 * 4; // 2 pointers const ptr = Module._malloc(len); let offset = 0; Module.stringToUTF8(config.encoder || '', buffer + offset, encoderLen); offset += encoderLen; Module.stringToUTF8(config.decoder || '', buffer + offset, decoderLen); offset = 0; Module.setValue(ptr, buffer + offset, 'i8*'); offset += encoderLen; Module.setValue(ptr + 4, buffer + offset, 'i8*'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOnlineZipformer2CtcModelConfig(config, Module) { const n = Module.lengthBytesUTF8(config.model || '') + 1; const buffer = Module._malloc(n); const len = 1 * 4; // 1 pointer const ptr = Module._malloc(len); Module.stringToUTF8(config.model || '', buffer, n); Module.setValue(ptr, buffer, 'i8*'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOnlineModelConfig(config, Module) { if (!('transducer' in config)) { config.transducer = { encoder: '', decoder: '', joiner: '', }; } if (!('paraformer' in config)) { config.paraformer = { encoder: '', decoder: '', }; } if (!('zipformer2Ctc' in config)) { config.zipformer2Ctc = { model: '', }; } if (!('tokensBuf' in config)) { config.tokensBuf = ''; } if (!('tokensBufSize' in config)) { config.tokensBufSize = 0; } const transducer = initSherpaOnnxOnlineTransducerModelConfig(config.transducer, Module); const paraformer = initSherpaOnnxOnlineParaformerModelConfig(config.paraformer, Module); const ctc = initSherpaOnnxOnlineZipformer2CtcModelConfig( config.zipformer2Ctc, Module); const len = transducer.len + paraformer.len + ctc.len + 9 * 4; const ptr = Module._malloc(len); let offset = 0; Module._CopyHeap(transducer.ptr, transducer.len, ptr + offset); offset += transducer.len; Module._CopyHeap(paraformer.ptr, paraformer.len, ptr + offset); offset += paraformer.len; Module._CopyHeap(ctc.ptr, ctc.len, ptr + offset); offset += ctc.len; const tokensLen = Module.lengthBytesUTF8(config.tokens || '') + 1; const providerLen = Module.lengthBytesUTF8(config.provider || 'cpu') + 1; const modelTypeLen = Module.lengthBytesUTF8(config.modelType || '') + 1; const modelingUnitLen = Module.lengthBytesUTF8(config.modelingUnit || '') + 1; const bpeVocabLen = Module.lengthBytesUTF8(config.bpeVocab || '') + 1; const tokensBufLen = Module.lengthBytesUTF8(config.tokensBuf || '') + 1; const bufferLen = tokensLen + providerLen + modelTypeLen + modelingUnitLen + bpeVocabLen + tokensBufLen; const buffer = Module._malloc(bufferLen); offset = 0; Module.stringToUTF8(config.tokens || '', buffer, tokensLen); offset += tokensLen; Module.stringToUTF8(config.provider || 'cpu', buffer + offset, providerLen); offset += providerLen; Module.stringToUTF8(config.modelType || '', buffer + offset, modelTypeLen); offset += modelTypeLen; Module.stringToUTF8( config.modelingUnit || '', buffer + offset, modelingUnitLen); offset += modelingUnitLen; Module.stringToUTF8(config.bpeVocab || '', buffer + offset, bpeVocabLen); offset += bpeVocabLen; Module.stringToUTF8(config.tokensBuf || '', buffer + offset, tokensBufLen); offset += tokensBufLen; offset = transducer.len + paraformer.len + ctc.len; Module.setValue(ptr + offset, buffer, 'i8*'); // tokens offset += 4; Module.setValue(ptr + offset, config.numThreads || 1, 'i32'); offset += 4; Module.setValue(ptr + offset, buffer + tokensLen, 'i8*'); // provider offset += 4; Module.setValue(ptr + offset, config.debug || 0, 'i32'); offset += 4; Module.setValue( ptr + offset, buffer + tokensLen + providerLen, 'i8*'); // modelType offset += 4; Module.setValue( ptr + offset, buffer + tokensLen + providerLen + modelTypeLen, 'i8*'); // modelingUnit offset += 4; Module.setValue( ptr + offset, buffer + tokensLen + providerLen + modelTypeLen + modelingUnitLen, 'i8*'); // bpeVocab offset += 4; Module.setValue( ptr + offset, buffer + tokensLen + providerLen + modelTypeLen + modelingUnitLen + bpeVocabLen, 'i8*'); // tokens_buf offset += 4; Module.setValue(ptr + offset, config.tokensBufSize || 0, 'i32'); offset += 4; return { buffer: buffer, ptr: ptr, len: len, transducer: transducer, paraformer: paraformer, ctc: ctc } } function initSherpaOnnxFeatureConfig(config, Module) { const len = 2 * 4; // 2 pointers const ptr = Module._malloc(len); Module.setValue(ptr, config.sampleRate || 16000, 'i32'); Module.setValue(ptr + 4, config.featureDim || 80, 'i32'); return {ptr: ptr, len: len}; } function initSherpaOnnxOnlineCtcFstDecoderConfig(config, Module) { const len = 2 * 4; const ptr = Module._malloc(len); const graphLen = Module.lengthBytesUTF8(config.graph || '') + 1; const buffer = Module._malloc(graphLen); Module.stringToUTF8(config.graph, buffer, graphLen); Module.setValue(ptr, buffer, 'i8*'); Module.setValue(ptr + 4, config.maxActive || 3000, 'i32'); return {ptr: ptr, len: len, buffer: buffer}; } function initSherpaOnnxOnlineRecognizerConfig(config, Module) { if (!('featConfig' in config)) { config.featConfig = { sampleRate: 16000, featureDim: 80, }; } if (!('ctcFstDecoderConfig' in config)) { config.ctcFstDecoderConfig = { graph: '', maxActive: 3000, }; } if (!('hotwordsBuf' in config)) { config.hotwordsBuf = ''; } if (!('hotwordsBufSize' in config)) { config.hotwordsBufSize = 0; } const feat = initSherpaOnnxFeatureConfig(config.featConfig, Module); const model = initSherpaOnnxOnlineModelConfig(config.modelConfig, Module); const ctcFstDecoder = initSherpaOnnxOnlineCtcFstDecoderConfig( config.ctcFstDecoderConfig, Module) const len = feat.len + model.len + 8 * 4 + ctcFstDecoder.len + 5 * 4; const ptr = Module._malloc(len); let offset = 0; Module._CopyHeap(feat.ptr, feat.len, ptr + offset); offset += feat.len; Module._CopyHeap(model.ptr, model.len, ptr + offset); offset += model.len; const decodingMethodLen = Module.lengthBytesUTF8(config.decodingMethod || 'greedy_search') + 1; const hotwordsFileLen = Module.lengthBytesUTF8(config.hotwordsFile || '') + 1; const ruleFstsFileLen = Module.lengthBytesUTF8(config.ruleFsts || '') + 1; const ruleFarsFileLen = Module.lengthBytesUTF8(config.ruleFars || '') + 1; const hotwordsBufLen = Module.lengthBytesUTF8(config.hotwordsBuf || '') + 1; const bufferLen = decodingMethodLen + hotwordsFileLen + ruleFstsFileLen + ruleFarsFileLen + hotwordsBufLen; const buffer = Module._malloc(bufferLen); offset = 0; Module.stringToUTF8( config.decodingMethod || 'greedy_search', buffer, decodingMethodLen); offset += decodingMethodLen; Module.stringToUTF8( config.hotwordsFile || '', buffer + offset, hotwordsFileLen); offset += hotwordsFileLen; Module.stringToUTF8(config.ruleFsts || '', buffer + offset, ruleFstsFileLen); offset += ruleFstsFileLen; Module.stringToUTF8(config.ruleFars || '', buffer + offset, ruleFarsFileLen); offset += ruleFarsFileLen; Module.stringToUTF8( config.hotwordsBuf || '', buffer + offset, hotwordsBufLen); offset += hotwordsBufLen; offset = feat.len + model.len; Module.setValue(ptr + offset, buffer, 'i8*'); // decoding method offset += 4; Module.setValue(ptr + offset, config.maxActivePaths || 4, 'i32'); offset += 4; Module.setValue(ptr + offset, config.enableEndpoint || 0, 'i32'); offset += 4; Module.setValue(ptr + offset, config.rule1MinTrailingSilence || 2.4, 'float'); offset += 4; Module.setValue(ptr + offset, config.rule2MinTrailingSilence || 1.2, 'float'); offset += 4; Module.setValue(ptr + offset, config.rule3MinUtteranceLength || 20, 'float'); offset += 4; Module.setValue(ptr + offset, buffer + decodingMethodLen, 'i8*'); offset += 4; Module.setValue(ptr + offset, config.hotwordsScore || 1.5, 'float'); offset += 4; Module._CopyHeap(ctcFstDecoder.ptr, ctcFstDecoder.len, ptr + offset); offset += ctcFstDecoder.len; Module.setValue( ptr + offset, buffer + decodingMethodLen + hotwordsFileLen, 'i8*'); offset += 4; Module.setValue( ptr + offset, buffer + decodingMethodLen + hotwordsFileLen + ruleFstsFileLen, 'i8*'); offset += 4; Module.setValue(ptr + offset, config.blankPenalty || 0, 'float'); offset += 4; Module.setValue( ptr + offset, buffer + decodingMethodLen + hotwordsFileLen + ruleFstsFileLen + ruleFarsFileLen, 'i8*'); offset += 4; Module.setValue(ptr + offset, config.hotwordsBufSize || 0, 'i32'); offset += 4; return { buffer: buffer, ptr: ptr, len: len, feat: feat, model: model, ctcFstDecoder: ctcFstDecoder } } function createOnlineRecognizer(Module, myConfig) { const onlineTransducerModelConfig = { encoder: '', decoder: '', joiner: '', }; const onlineParaformerModelConfig = { encoder: '', decoder: '', }; const onlineZipformer2CtcModelConfig = { model: '', }; let type = 0; switch (type) { case 0: // transducer onlineTransducerModelConfig.encoder = './encoder.onnx'; onlineTransducerModelConfig.decoder = './decoder.onnx'; onlineTransducerModelConfig.joiner = './joiner.onnx'; break; case 1: // paraformer onlineParaformerModelConfig.encoder = './encoder.onnx'; onlineParaformerModelConfig.decoder = './decoder.onnx'; break; case 2: // ctc onlineZipformer2CtcModelConfig.model = './encoder.onnx'; break; } const onlineModelConfig = { transducer: onlineTransducerModelConfig, paraformer: onlineParaformerModelConfig, zipformer2Ctc: onlineZipformer2CtcModelConfig, tokens: './tokens.txt', numThreads: 1, provider: 'cpu', debug: 1, modelType: '', modelingUnit: 'cjkchar', bpeVocab: '', }; const featureConfig = { sampleRate: 16000, featureDim: 80, }; let recognizerConfig = { featConfig: featureConfig, modelConfig: onlineModelConfig, decodingMethod: 'greedy_search', maxActivePaths: 4, enableEndpoint: 1, rule1MinTrailingSilence: 2.4, rule2MinTrailingSilence: 1.2, rule3MinUtteranceLength: 20, hotwordsFile: '', hotwordsScore: 1.5, ctcFstDecoderConfig: { graph: '', maxActive: 3000, }, ruleFsts: '', ruleFars: '', }; if (myConfig) { recognizerConfig = myConfig; } return new OnlineRecognizer(recognizerConfig, Module); } function initSherpaOnnxOfflineTransducerModelConfig(config, Module) { const encoderLen = Module.lengthBytesUTF8(config.encoder || '') + 1; const decoderLen = Module.lengthBytesUTF8(config.decoder || '') + 1; const joinerLen = Module.lengthBytesUTF8(config.joiner || '') + 1; const n = encoderLen + decoderLen + joinerLen; const buffer = Module._malloc(n); const len = 3 * 4; // 3 pointers const ptr = Module._malloc(len); let offset = 0; Module.stringToUTF8(config.encoder || '', buffer + offset, encoderLen); offset += encoderLen; Module.stringToUTF8(config.decoder || '', buffer + offset, decoderLen); offset += decoderLen; Module.stringToUTF8(config.joiner || '', buffer + offset, joinerLen); offset = 0; Module.setValue(ptr, buffer + offset, 'i8*'); offset += encoderLen; Module.setValue(ptr + 4, buffer + offset, 'i8*'); offset += decoderLen; Module.setValue(ptr + 8, buffer + offset, 'i8*'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOfflineParaformerModelConfig(config, Module) { const n = Module.lengthBytesUTF8(config.model || '') + 1; const buffer = Module._malloc(n); const len = 1 * 4; // 1 pointer const ptr = Module._malloc(len); Module.stringToUTF8(config.model || '', buffer, n); Module.setValue(ptr, buffer, 'i8*'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOfflineNemoEncDecCtcModelConfig(config, Module) { const n = Module.lengthBytesUTF8(config.model || '') + 1; const buffer = Module._malloc(n); const len = 1 * 4; // 1 pointer const ptr = Module._malloc(len); Module.stringToUTF8(config.model || '', buffer, n); Module.setValue(ptr, buffer, 'i8*'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOfflineWhisperModelConfig(config, Module) { const encoderLen = Module.lengthBytesUTF8(config.encoder || '') + 1; const decoderLen = Module.lengthBytesUTF8(config.decoder || '') + 1; const languageLen = Module.lengthBytesUTF8(config.language || '') + 1; const taskLen = Module.lengthBytesUTF8(config.task || '') + 1; const n = encoderLen + decoderLen + languageLen + taskLen; const buffer = Module._malloc(n); const len = 5 * 4; // 4 pointers const ptr = Module._malloc(len); let offset = 0; Module.stringToUTF8(config.encoder || '', buffer + offset, encoderLen); offset += encoderLen; Module.stringToUTF8(config.decoder || '', buffer + offset, decoderLen); offset += decoderLen; Module.stringToUTF8(config.language || '', buffer + offset, languageLen); offset += languageLen; Module.stringToUTF8(config.task || '', buffer + offset, taskLen); offset = 0; Module.setValue(ptr, buffer + offset, 'i8*'); offset += encoderLen; Module.setValue(ptr + 4, buffer + offset, 'i8*'); offset += decoderLen; Module.setValue(ptr + 8, buffer + offset, 'i8*'); offset += languageLen; Module.setValue(ptr + 12, buffer + offset, 'i8*'); offset += taskLen; Module.setValue(ptr + 16, config.tailPaddings || 2000, 'i32'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOfflineTdnnModelConfig(config, Module) { const n = Module.lengthBytesUTF8(config.model || '') + 1; const buffer = Module._malloc(n); const len = 1 * 4; // 1 pointer const ptr = Module._malloc(len); Module.stringToUTF8(config.model || '', buffer, n); Module.setValue(ptr, buffer, 'i8*'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOfflineSenseVoiceModelConfig(config, Module) { const modelLen = Module.lengthBytesUTF8(config.model || '') + 1; const languageLen = Module.lengthBytesUTF8(config.language || '') + 1; // useItn is a integer with 4 bytes const n = modelLen + languageLen; const buffer = Module._malloc(n); const len = 3 * 4; // 2 pointers + 1 int const ptr = Module._malloc(len); let offset = 0; Module.stringToUTF8(config.model || '', buffer + offset, modelLen); offset += modelLen; Module.stringToUTF8(config.language || '', buffer + offset, languageLen); offset += languageLen; offset = 0; Module.setValue(ptr, buffer + offset, 'i8*'); offset += modelLen; Module.setValue(ptr + 4, buffer + offset, 'i8*'); offset += languageLen; Module.setValue(ptr + 8, config.useInverseTextNormalization || 0, 'i32'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOfflineLMConfig(config, Module) { const n = Module.lengthBytesUTF8(config.model || '') + 1; const buffer = Module._malloc(n); const len = 2 * 4; const ptr = Module._malloc(len); Module.stringToUTF8(config.model || '', buffer, n); Module.setValue(ptr, buffer, 'i8*'); Module.setValue(ptr + 4, config.scale || 1, 'float'); return { buffer: buffer, ptr: ptr, len: len, } } function initSherpaOnnxOfflineModelConfig(config, Module) { if (!('transducer' in config)) { config.transducer = { encoder: '', decoder: '', joiner: '', }; } if (!('paraformer' in config)) { config.paraformer = { model: '', }; } if (!('nemoCtc' in config)) { config.nemoCtc = { model: '', }; } if (!('whisper' in config)) { config.whisper = { encoder: '', decoder: '', language: '', task: '', tailPaddings: -1, }; } if (!('tdnn' in config)) { config.tdnn = { model: '', }; } if (!('senseVoice' in config)) { config.senseVoice = { model: '', language: '', useInverseTextNormalization: 0, }; } const transducer = initSherpaOnnxOfflineTransducerModelConfig(config.transducer, Module); const paraformer = initSherpaOnnxOfflineParaformerModelConfig(config.paraformer, Module); const nemoCtc = initSherpaOnnxOfflineNemoEncDecCtcModelConfig(config.nemoCtc, Module); const whisper = initSherpaOnnxOfflineWhisperModelConfig(config.whisper, Module); const tdnn = initSherpaOnnxOfflineTdnnModelConfig(config.tdnn, Module); const senseVoice = initSherpaOnnxOfflineSenseVoiceModelConfig(config.senseVoice, Module); const len = transducer.len + paraformer.len + nemoCtc.len + whisper.len + tdnn.len + 8 * 4 + senseVoice.len; const ptr = Module._malloc(len); let offset = 0; Module._CopyHeap(transducer.ptr, transducer.len, ptr + offset); offset += transducer.len; Module._CopyHeap(paraformer.ptr, paraformer.len, ptr + offset); offset += paraformer.len; Module._CopyHeap(nemoCtc.ptr, nemoCtc.len, ptr + offset); offset += nemoCtc.len; Module._CopyHeap(whisper.ptr, whisper.len, ptr + offset); offset += whisper.len; Module._CopyHeap(tdnn.ptr, tdnn.len, ptr + offset); offset += tdnn.len; const tokensLen = Module.lengthBytesUTF8(config.tokens || '') + 1; const providerLen = Module.lengthBytesUTF8(config.provider || 'cpu') + 1; const modelTypeLen = Module.lengthBytesUTF8(config.modelType || '') + 1; const modelingUnitLen = Module.lengthBytesUTF8(config.modelingUnit || '') + 1; const bpeVocabLen = Module.lengthBytesUTF8(config.bpeVocab || '') + 1; const teleSpeechCtcLen = Module.lengthBytesUTF8(config.teleSpeechCtc || '') + 1; const bufferLen = tokensLen + providerLen + modelTypeLen + modelingUnitLen + bpeVocabLen + teleSpeechCtcLen; const buffer = Module._malloc(bufferLen); offset = 0; Module.stringToUTF8(config.tokens, buffer, tokensLen); offset += tokensLen; Module.stringToUTF8(config.provider || 'cpu', buffer + offset, providerLen); offset += providerLen; Module.stringToUTF8(config.modelType || '', buffer + offset, modelTypeLen); offset += modelTypeLen; Module.stringToUTF8( config.modelingUnit || '', buffer + offset, modelingUnitLen); offset += modelingUnitLen; Module.stringToUTF8(config.bpeVocab || '', buffer + offset, bpeVocabLen); offset += bpeVocabLen; Module.stringToUTF8( config.teleSpeechCtc || '', buffer + offset, teleSpeechCtcLen); offset += teleSpeechCtcLen; offset = transducer.len + paraformer.len + nemoCtc.len + whisper.len + tdnn.len; Module.setValue(ptr + offset, buffer, 'i8*'); // tokens offset += 4; Module.setValue(ptr + offset, config.numThreads || 1, 'i32'); offset += 4; Module.setValue(ptr + offset, config.debug || 0, 'i32'); offset += 4; Module.setValue(ptr + offset, buffer + tokensLen, 'i8*'); // provider offset += 4; Module.setValue( ptr + offset, buffer + tokensLen + providerLen, 'i8*'); // modelType offset += 4; Module.setValue( ptr + offset, buffer + tokensLen + providerLen + modelTypeLen, 'i8*'); // modelingUnit offset += 4; Module.setValue( ptr + offset, buffer + tokensLen + providerLen + modelTypeLen + modelingUnitLen, 'i8*'); // bpeVocab offset += 4; Module.setValue( ptr + offset, buffer + tokensLen + providerLen + modelTypeLen + modelingUnitLen + bpeVocabLen, 'i8*'); // teleSpeechCtc offset += 4; Module._CopyHeap(senseVoice.ptr, senseVoice.len, ptr + offset); return { buffer: buffer, ptr: ptr, len: len, transducer: transducer, paraformer: paraformer, nemoCtc: nemoCtc, whisper: whisper, tdnn: tdnn, senseVoice: senseVoice, } } function initSherpaOnnxOfflineRecognizerConfig(config, Module) { if (!('featConfig' in config)) { config.featConfig = { sampleRate: 16000, featureDim: 80, }; } if (!('lmConfig' in config)) { config.lmConfig = { model: '', scale: 1.0, }; } const feat = initSherpaOnnxFeatureConfig(config.featConfig, Module); const model = initSherpaOnnxOfflineModelConfig(config.modelConfig, Module); const lm = initSherpaOnnxOfflineLMConfig(config.lmConfig, Module); const len = feat.len + model.len + lm.len + 7 * 4; const ptr = Module._malloc(len); let offset = 0; Module._CopyHeap(feat.ptr, feat.len, ptr + offset); offset += feat.len; Module._CopyHeap(model.ptr, model.len, ptr + offset); offset += model.len; Module._CopyHeap(lm.ptr, lm.len, ptr + offset); offset += lm.len; const decodingMethodLen = Module.lengthBytesUTF8(config.decodingMethod || 'greedy_search') + 1; const hotwordsFileLen = Module.lengthBytesUTF8(config.hotwordsFile || '') + 1; const ruleFstsLen = Module.lengthBytesUTF8(config.ruleFsts || '') + 1; const ruleFarsLen = Module.lengthBytesUTF8(config.ruleFars || '') + 1; const bufferLen = decodingMethodLen + hotwordsFileLen + ruleFstsLen + ruleFarsLen; const buffer = Module._malloc(bufferLen); offset = 0; Module.stringToUTF8( config.decodingMethod || 'greedy_search', buffer, decodingMethodLen); offset += decodingMethodLen; Module.stringToUTF8( config.hotwordsFile || '', buffer + offset, hotwordsFileLen); offset += hotwordsFileLen; Module.stringToUTF8(config.ruleFsts || '', buffer + offset, ruleFstsLen); offset += ruleFstsLen; Module.stringToUTF8(config.ruleFars || '', buffer + offset, ruleFarsLen); offset += ruleFarsLen; offset = feat.len + model.len + lm.len; Module.setValue(ptr + offset, buffer, 'i8*'); // decoding method offset += 4; Module.setValue(ptr + offset, config.maxActivePaths || 4, 'i32'); offset += 4; Module.setValue(ptr + offset, buffer + decodingMethodLen, 'i8*'); offset += 4; Module.setValue(ptr + offset, config.hotwordsScore || 1.5, 'float'); offset += 4; Module.setValue( ptr + offset, buffer + decodingMethodLen + hotwordsFileLen, 'i8*'); offset += 4; Module.setValue( ptr + offset, buffer + decodingMethodLen + hotwordsFileLen + ruleFstsLen, 'i8*'); offset += 4; Module.setValue(ptr + offset, config.blankPenalty || 0, 'float'); offset += 4; return { buffer: buffer, ptr: ptr, len: len, feat: feat, model: model, lm: lm } } class OfflineStream { constructor(handle, Module) { this.handle = handle; this.Module = Module; } free() { if (this.handle) { this.Module._SherpaOnnxDestroyOfflineStream(this.handle); this.handle = null; } } /** * @param sampleRate {Number} * @param samples {Float32Array} Containing samples in the range [-1, 1] */ acceptWaveform(sampleRate, samples) { const pointer = this.Module._malloc(samples.length * samples.BYTES_PER_ELEMENT); this.Module.HEAPF32.set(samples, pointer / samples.BYTES_PER_ELEMENT); this.Module._SherpaOnnxAcceptWaveformOffline( this.handle, sampleRate, pointer, samples.length); this.Module._free(pointer); } }; class OfflineRecognizer { constructor(configObj, Module) { this.config = configObj; const config = initSherpaOnnxOfflineRecognizerConfig(configObj, Module); const handle = Module._SherpaOnnxCreateOfflineRecognizer(config.ptr); freeConfig(config, Module); this.handle = handle; this.Module = Module; } free() { this.Module._SherpaOnnxDestroyOfflineRecognizer(this.handle); this.handle = 0 } createStream() { const handle = this.Module._SherpaOnnxCreateOfflineStream(this.handle); return new OfflineStream(handle, this.Module); } decode(stream) { this.Module._SherpaOnnxDecodeOfflineStream(this.handle, stream.handle); } getResult(stream) { const r = this.Module._SherpaOnnxGetOfflineStreamResultAsJson(stream.handle); const jsonStr = this.Module.UTF8ToString(r); const ans = JSON.parse(jsonStr); this.Module._SherpaOnnxDestroyOfflineStreamResultJson(r); return ans; } }; class OnlineStream { constructor(handle, Module) { this.handle = handle; this.pointer = null; // buffer this.n = 0; // buffer size this.Module = Module; } free() { if (this.handle) { this.Module._SherpaOnnxDestroyOnlineStream(this.handle); this.handle = null; this.Module._free(this.pointer); this.pointer = null; this.n = 0; } } /** * @param sampleRate {Number} * @param samples {Float32Array} Containing samples in the range [-1, 1] */ acceptWaveform(sampleRate, samples) { if (this.n < samples.length) { this.Module._free(this.pointer); this.pointer = this.Module._malloc(samples.length * samples.BYTES_PER_ELEMENT); this.n = samples.length } this.Module.HEAPF32.set(samples, this.pointer / samples.BYTES_PER_ELEMENT); this.Module._SherpaOnnxOnlineStreamAcceptWaveform( this.handle, sampleRate, this.pointer, samples.length); } inputFinished() { this.Module._SherpaOnnxOnlineStreamInputFinished(this.handle); } }; class OnlineRecognizer { constructor(configObj, Module) { this.config = configObj; const config = initSherpaOnnxOnlineRecognizerConfig(configObj, Module) const handle = Module._SherpaOnnxCreateOnlineRecognizer(config.ptr); freeConfig(config, Module); this.handle = handle; this.Module = Module; } free() { this.Module._SherpaOnnxDestroyOnlineRecognizer(this.handle); this.handle = 0 } createStream() { const handle = this.Module._SherpaOnnxCreateOnlineStream(this.handle); return new OnlineStream(handle, this.Module); } isReady(stream) { return this.Module._SherpaOnnxIsOnlineStreamReady( this.handle, stream.handle) == 1; } decode(stream) { this.Module._SherpaOnnxDecodeOnlineStream(this.handle, stream.handle); } isEndpoint(stream) { return this.Module._SherpaOnnxOnlineStreamIsEndpoint( this.handle, stream.handle) == 1; } reset(stream) { this.Module._SherpaOnnxOnlineStreamReset(this.handle, stream.handle); } getResult(stream) { const r = this.Module._SherpaOnnxGetOnlineStreamResultAsJson( this.handle, stream.handle); const jsonStr = this.Module.UTF8ToString(r); const ans = JSON.parse(jsonStr); this.Module._SherpaOnnxDestroyOnlineStreamResultJson(r); return ans; } } if (typeof process == 'object' && typeof process.versions == 'object' && typeof process.versions.node == 'string') { module.exports = { createOnlineRecognizer, OfflineRecognizer, }; }