#include "WChess.h" #include "grammar-parser.h" #include "common.h" #include Chess::Chess(whisper_context * ctx, const whisper_full_params & wparams, StatusSetter status_setter, ISRunning running, AudioGetter audio, MovesSetter m_moveSetter) : m_ctx(ctx) , m_wparams(wparams) , m_status_setter(status_setter) , m_running(running) , m_audio(audio) , m_moveSetter( m_moveSetter) {} void Chess::set_status(const char * msg) { if (m_status_setter) (*m_status_setter)(msg); } void Chess::set_moves(const std::string& moves) { if (m_moveSetter) (*m_moveSetter)(moves); } bool Chess::check_running() { if (m_running) return (*m_running)(); return false; } void Chess::get_audio(int ms, std::vector& pcmf32) { if (m_audio) (*m_audio)(ms, pcmf32); } std::string Chess::stringifyBoard() { return m_board.stringifyBoard(); } void Chess::run() { set_status("loading data ..."); bool have_prompt = false; bool ask_prompt = true; bool print_energy = false; float logprob_min0 = 0.0f; float logprob_min = 0.0f; float logprob_sum0 = 0.0f; float logprob_sum = 0.0f; int n_tokens0 = 0; int n_tokens = 0; std::vector pcmf32_cur; std::vector pcmf32_prompt; // todo: grammar to be based on js input const std::string k_prompt = "rook to b4, f3,"; m_wparams.initial_prompt = "d4 d5 knight to c3, pawn to a1, bishop to b2 king e8,"; auto grammar_parsed = grammar_parser::parse( "\n" "root ::= init move move? move? \".\"\n" "prompt ::= init \".\"\n" "\n" "# leading space is very important!\n" "init ::= \" rook to b4, f3\"\n" "\n" "move ::= \", \" ((piece | pawn | king) \" \" \"to \"?)? [a-h] [1-8]\n" "\n" "piece ::= \"bishop\" | \"rook\" | \"knight\" | \"queen\"\n" "king ::= \"king\"\n" "pawn ::= \"pawn\"\n" "\n" ); auto grammar_rules = grammar_parsed.c_rules(); if (grammar_parsed.rules.empty()) { fprintf(stdout, "%s: Failed to parse grammar ...\n", __func__); } else { m_wparams.grammar_rules = grammar_rules.data(); m_wparams.n_grammar_rules = grammar_rules.size(); m_wparams.grammar_penalty = 100.0; } const int32_t vad_ms = 2000; const int32_t prompt_ms = 5000; const int32_t command_ms = 4000; const float vad_thold = 0.1f; const float freq_thold = -1.0f; while (check_running()) { // delay std::this_thread::sleep_for(std::chrono::milliseconds(100)); if (ask_prompt) { fprintf(stdout, "\n"); fprintf(stdout, "%s: Say the following phrase: '%s%s%s'\n", __func__, "\033[1m", k_prompt.c_str(), "\033[0m"); fprintf(stdout, "\n"); { char txt[1024]; snprintf(txt, sizeof(txt), "Say the following phrase: '%s'", k_prompt.c_str()); set_status(txt); } ask_prompt = false; } int64_t t_ms = 0; { get_audio(vad_ms, pcmf32_cur); if (::vad_simple(pcmf32_cur, WHISPER_SAMPLE_RATE, 1000, vad_thold, freq_thold, print_energy)) { fprintf(stdout, "%s: Speech detected! Processing ...\n", __func__); set_status("Speech detected! Processing ..."); if (!have_prompt) { get_audio(prompt_ms, pcmf32_cur); m_wparams.i_start_rule = grammar_parsed.symbol_ids.at("prompt"); const auto txt = ::trim(transcribe(pcmf32_cur, logprob_min, logprob_sum, n_tokens, t_ms)); fprintf(stdout, "%s: Heard '%s%s%s', (t = %d ms)\n", __func__, "\033[1m", txt.c_str(), "\033[0m", (int) t_ms); const float sim = similarity(txt, k_prompt); if (txt.length() < 0.8*k_prompt.length() || txt.length() > 1.2*k_prompt.length() || sim < 0.8f) { fprintf(stdout, "%s: WARNING: prompt not recognized, try again\n", __func__); ask_prompt = true; } else { fprintf(stdout, "\n"); fprintf(stdout, "%s: The prompt has been recognized!\n", __func__); fprintf(stdout, "%s: Waiting for voice commands ...\n", __func__); fprintf(stdout, "\n"); { char txt[1024]; snprintf(txt, sizeof(txt), "Success! Waiting for voice commands ..."); set_status(txt); } // save the audio for the prompt pcmf32_prompt = pcmf32_cur; have_prompt = true; } } else { get_audio(command_ms, pcmf32_cur); // prepend 3 second of silence pcmf32_cur.insert(pcmf32_cur.begin(), 3*WHISPER_SAMPLE_RATE, 0.0f); // prepend the prompt audio pcmf32_cur.insert(pcmf32_cur.begin(), pcmf32_prompt.begin(), pcmf32_prompt.end()); m_wparams.i_start_rule = grammar_parsed.symbol_ids.at("root"); const auto txt = ::trim(transcribe(pcmf32_cur, logprob_min, logprob_sum, n_tokens, t_ms)); const float p = 100.0f * std::exp(logprob_min); fprintf(stdout, "%s: heard '%s'\n", __func__, txt.c_str()); // find the prompt in the text float best_sim = 0.0f; size_t best_len = 0; for (int n = 0.8*k_prompt.size(); n <= 1.2*k_prompt.size(); ++n) { if (n >= int(txt.size())) { break; } const auto prompt = txt.substr(0, n); const float sim = similarity(prompt, k_prompt); //fprintf(stderr, "%s: prompt = '%s', sim = %f\n", __func__, prompt.c_str(), sim); if (sim > best_sim) { best_sim = sim; best_len = n; } } fprintf(stdout, "%s: DEBUG: txt = '%s', prob = %.2f%%\n", __func__, txt.c_str(), p); std::string command = ::trim(txt.substr(best_len)); fprintf(stdout, "%s: Command '%s%s%s', (t = %d ms)\n", __func__, "\033[1m", command.c_str(), "\033[0m", (int) t_ms); fprintf(stdout, "\n"); { char txt[1024]; snprintf(txt, sizeof(txt), "Command '%s', (t = %d ms)", command.c_str(), (int) t_ms); set_status(txt); } if (!command.empty()) { set_moves(m_board.processTranscription(command)); } } } } } } std::string Chess::transcribe( const std::vector & pcmf32, float & logprob_min, float & logprob_sum, int & n_tokens, int64_t & t_ms) { const auto t_start = std::chrono::high_resolution_clock::now(); logprob_min = 0.0f; logprob_sum = 0.0f; n_tokens = 0; t_ms = 0; if (whisper_full(m_ctx, m_wparams, pcmf32.data(), pcmf32.size()) != 0) { return ""; } std::string result; const int n_segments = whisper_full_n_segments(m_ctx); for (int i = 0; i < n_segments; ++i) { const char * text = whisper_full_get_segment_text(m_ctx, i); result += text; const int n = whisper_full_n_tokens(m_ctx, i); for (int j = 0; j < n; ++j) { const auto token = whisper_full_get_token_data(m_ctx, i, j); if(token.plog > 0.0f) return {}; logprob_min = std::min(logprob_min, token.plog); logprob_sum += token.plog; ++n_tokens; } } const auto t_end = std::chrono::high_resolution_clock::now(); t_ms = std::chrono::duration_cast(t_end - t_start).count(); return result; }