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@ -210,8 +210,15 @@ struct whisper_vocab {
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};
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struct whisper_result {
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whisper_vocab::id id;
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int64_t t;
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whisper_token id;
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};
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struct whisper_segment {
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int64_t t0;
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int64_t t1;
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std::string text;
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};
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// medium
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@ -395,6 +402,9 @@ struct whisper_context {
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std::vector<float> probs;
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std::vector<float> logits;
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std::vector<whisper_result> result_cur;
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std::vector<whisper_segment> result_all;
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};
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// load the model from a ggml file
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@ -1946,8 +1956,8 @@ bool log_mel_spectrogram(
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const int n_fft = 1 + fft_size/2;
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printf("%s: n_samples = %d, n_len = %d\n", __func__, n_samples, mel.n_len);
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printf("%s: recording length: %f s\n", __func__, (float) n_samples/sample_rate);
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//printf("%s: n_samples = %d, n_len = %d\n", __func__, n_samples, mel.n_len);
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//printf("%s: recording length: %f s\n", __func__, (float) n_samples/sample_rate);
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std::vector<std::thread> workers(n_threads);
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for (int iw = 0; iw < n_threads; ++iw) {
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@ -2066,7 +2076,7 @@ void whisper_free(struct whisper_context * ctx) {
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int whisper_pcm_to_mel(struct whisper_context * ctx, const float * samples, int n_samples, int n_threads) {
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const int64_t t_start_us = ggml_time_us();
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if (!log_mel_spectrogram(samples, n_samples, SAMPLE_RATE, N_FFT, HOP_LENGTH, N_MEL, n_threads, ctx->model.filters, ctx->mel)) {
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if (!log_mel_spectrogram(samples, n_samples, WHISPER_SAMPLE_RATE, WHISPER_N_FFT, WHISPER_HOP_LENGTH, WHISPER_N_MEL, n_threads, ctx->model.filters, ctx->mel)) {
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fprintf(stderr, "%s: failed to compute mel spectrogram\n", __func__);
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return -1;
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}
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@ -2081,8 +2091,8 @@ int whisper_set_mel(
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const float * data,
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int n_len,
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int n_mel) {
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if (n_mel != N_MEL) {
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fprintf(stderr, "%s: invalid number of mel bands: %d (expected %d)\n", __func__, n_mel, N_MEL);
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if (n_mel != WHISPER_N_MEL) {
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fprintf(stderr, "%s: invalid number of mel bands: %d (expected %d)\n", __func__, n_mel, WHISPER_N_MEL);
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return -1;
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}
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@ -2219,3 +2229,247 @@ void whisper_print_timings(struct whisper_context * ctx) {
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printf("%s: decode time = %8.2f ms / %.2f ms per layer\n", __func__, ctx->t_decode_us/1000.0f, ctx->t_decode_us/1000.0f/ctx->model.hparams.n_text_layer);
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printf("%s: total time = %8.2f ms\n", __func__, (t_end_us - ctx->t_start_us)/1000.0f);
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}
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////////////////////////////////////////////////////////////////////////////
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struct whisper_full_params whisper_full_default_params(enum whisper_decode_strategy strategy) {
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struct whisper_full_params result;
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switch (strategy) {
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case WHISPER_DECODE_GREEDY:
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{
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result = (struct whisper_full_params) {
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.strategy = WHISPER_DECODE_GREEDY,
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.n_threads = std::min(4, (int32_t) std::thread::hardware_concurrency()),
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.translate = false,
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.print_special_tokens = false,
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.print_progress = true,
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.language = "en",
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.greedy = {
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.n_past = 0,
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},
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};
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} break;
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case WHISPER_DECODE_BEAM_SEARCH:
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{
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result = (struct whisper_full_params) {
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.strategy = WHISPER_DECODE_GREEDY,
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.n_threads = std::min(4, (int32_t) std::thread::hardware_concurrency()),
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.translate = false,
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.print_special_tokens = false,
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.print_progress = true,
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.language = "en",
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.beam_search = {
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.n_past = 0,
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.beam_width = 10,
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.n_best = 5,
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},
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};
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} break;
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}
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return result;
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}
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int whisper_full(
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struct whisper_context * ctx,
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struct whisper_full_params params,
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const float * samples,
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int n_samples) {
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// compute log mel spectrogram
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if (whisper_pcm_to_mel(ctx, samples, n_samples, params.n_threads) != 0) {
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fprintf(stderr, "%s: failed to compute log mel spectrogram\n", __func__);
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return -1;
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}
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// the accumulated text context so far
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std::vector<whisper_token> prompt_past = { };
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// these tokens determine the task that will be performed
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std::vector<whisper_token> prompt_init = { whisper_token_sot(ctx) };
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if (whisper_is_multilingual(ctx)) {
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prompt_init.push_back(whisper_token_sot(ctx) + 1 + whisper_lang_id(params.language));
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if (params.translate) {
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prompt_init.push_back(whisper_token_translate());
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} else {
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prompt_init.push_back(whisper_token_transcribe());
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}
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}
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auto & result_all = ctx->result_all;
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auto & result_cur = ctx->result_cur;
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result_all.clear();
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int progress_prev = 0;
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int progress_step = 5;
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// main loop
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int seek = 0;
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while (true) {
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int progress_cur = (100*seek)/whisper_n_len(ctx);
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while (progress_cur >= progress_prev + progress_step) {
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progress_prev += progress_step;
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if (params.print_progress) {
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printf("%s: progress = %3d%%\n", __func__, progress_prev);
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}
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}
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if (seek >= whisper_n_len(ctx)) {
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break;
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}
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// encode audio features starting at offset seek
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if (whisper_encode(ctx, seek, params.n_threads) != 0) {
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fprintf(stderr, "%s: failed to encode\n", __func__);
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return 7;
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}
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std::vector<whisper_token> prompt;
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int n_past = 0;
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// if we have already generated some text, use it as a prompt to condition the next generation
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if (prompt_past.size() > 0) {
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int n_take = std::min(whisper_n_text_ctx(ctx)/2, int(prompt_past.size()));
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prompt = { whisper_token_prev(ctx) };
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prompt.insert(prompt.begin() + 1, prompt_past.end() - n_take, prompt_past.end());
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prompt_past.clear();
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prompt_past.insert(prompt_past.end(), prompt.begin() + 1, prompt.end());
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}
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prompt.insert(prompt.end(), prompt_init.begin(), prompt_init.end());
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bool done = false;
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int seek_delta = 100*WHISPER_CHUNK_SIZE;
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whisper_token last_id = 0;
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// print the prompt
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//printf("\n\n");
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//for (int i = 0; i < prompt.size(); i++) {
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// printf("%s: prompt[%d] = %s\n", __func__, i, vocab.id_to_token[prompt[i]].c_str());
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//}
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//printf("\n\n");
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// the accumulated transcription in the current interation
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int result_len = 0;
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result_cur.clear();
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for (int i = 0; i < whisper_n_text_ctx(ctx)/2 - 4; ++i) {
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if (whisper_decode(ctx, prompt.data(), prompt.size(), n_past, params.n_threads) != 0) {
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fprintf(stderr, "%s: failed to decode\n", __func__);
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return 8;
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}
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n_past += prompt.size();
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prompt.clear();
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// very basic greedy sampling strategy:
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//
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// - always take the most probable token
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//
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// more sophisticated sampling strategies could be implemented here, but we keep it simple
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// feel free to experiment!
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//
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{
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const int n_vocab = whisper_n_vocab(ctx);
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whisper_token id = 0;
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whisper_token tid = whisper_token_beg(ctx);
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id = whisper_sample_best(ctx, result_len == 0);
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if (i > 0) {
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tid = whisper_sample_timestamp(ctx);
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}
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// update sliding window
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if (id > whisper_token_beg(ctx)) {
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seek_delta = 2*(id - whisper_token_beg(ctx));
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result_len = i + 1;
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}
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last_id = id;
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// add it to the context
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prompt.push_back(id);
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result_cur.push_back({ seek + 2*(tid - whisper_token_beg(ctx)), id });
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//printf("%s: %s\n", __func__, ctx->vocab.id_to_token[id].c_str());
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// end of text token
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if (id == whisper_token_eot(ctx)) {
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if (result_len == 0) {
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result_len = i + 1;
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}
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break;
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}
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}
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if (done) {
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break;
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}
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}
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result_cur.resize(result_len);
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for (const auto & r : result_cur) {
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prompt_past.push_back(r.id);
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}
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// store the text from this iteration
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if (result_cur.size() > 0) {
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auto t0 = result_cur.front().t;
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std::string text = "";
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for (int i = 0; i < result_cur.size(); i++) {
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if (params.print_special_tokens == false && result_cur[i].id >= whisper_token_eot(ctx)) {
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} else {
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text += whisper_token_to_str(ctx, result_cur[i].id);
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}
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if (result_cur[i].id > whisper_token_beg(ctx)) {
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const auto t1 = result_cur[i].t;
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if (!text.empty()) {
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result_all.push_back({ t0, t1, text });
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}
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text = "";
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while (result_cur[i].id > whisper_token_beg(ctx) && i < result_cur.size()) {
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i++;
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}
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i--;
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t0 = result_cur[i].t;
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}
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}
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if (!text.empty()) {
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result_all.push_back({ t0, seek + seek_delta, text });
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}
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}
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seek += seek_delta;
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}
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return 0;
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}
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int whisper_full_n_segments(struct whisper_context * ctx) {
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return ctx->result_all.size();
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}
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int64_t whisper_full_get_segment_t0(struct whisper_context * ctx, int i_segment) {
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return ctx->result_all[i_segment].t0;
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}
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int64_t whisper_full_get_segment_t1(struct whisper_context * ctx, int i_segment) {
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return ctx->result_all[i_segment].t1;
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}
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const char * whisper_full_get_segment_text(struct whisper_context * ctx, int i_segment) {
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return ctx->result_all[i_segment].text.c_str();
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}
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