#include "log.h" #include #include #include #include #include #include #include int gpt_log_verbosity_thold = LOG_DEFAULT_LLAMA; void gpt_log_set_verbosity_thold(int verbosity) { gpt_log_verbosity_thold = verbosity; } #define LOG_COL_DEFAULT "\033[0m" #define LOG_COL_BOLD "\033[1m" #define LOG_COL_RED "\033[31m" #define LOG_COL_GREEN "\033[32m" #define LOG_COL_YELLOW "\033[33m" #define LOG_COL_BLUE "\033[34m" #define LOG_COL_MAGENTA "\033[35m" #define LOG_COL_CYAN "\033[36m" #define LOG_COL_WHITE "\033[37m" static int64_t t_us() { return std::chrono::duration_cast(std::chrono::system_clock::now().time_since_epoch()).count(); } // colors enum gpt_log_col : int { GPT_LOG_COL_DEFAULT = 0, GPT_LOG_COL_BOLD, GPT_LOG_COL_RED, GPT_LOG_COL_GREEN, GPT_LOG_COL_YELLOW, GPT_LOG_COL_BLUE, GPT_LOG_COL_MAGENTA, GPT_LOG_COL_CYAN, GPT_LOG_COL_WHITE, }; // disable colors by default static std::vector g_col = { "", "", "", "", "", "", "", "", "", }; struct gpt_log_entry { enum ggml_log_level level; int64_t timestamp; std::vector msg; // signals the worker thread to stop bool is_end; void print(FILE * file = nullptr) const { FILE * fcur = file; if (!fcur) { // stderr displays DBG messages only when the verbosity is high // these messages can still be logged to a file if (level == GGML_LOG_LEVEL_DEBUG && gpt_log_verbosity_thold < LOG_DEFAULT_DEBUG) { return; } fcur = stdout; if (level != GGML_LOG_LEVEL_NONE) { fcur = stderr; } } if (level != GGML_LOG_LEVEL_NONE) { if (timestamp) { // [M.s.ms.us] fprintf(fcur, "%s%d.%02d.%03d.%03d%s ", g_col[GPT_LOG_COL_BLUE], (int) (timestamp / 1000000 / 60), (int) (timestamp / 1000000 % 60), (int) (timestamp / 1000 % 1000), (int) (timestamp % 1000), g_col[GPT_LOG_COL_DEFAULT]); } switch (level) { case GGML_LOG_LEVEL_INFO: fprintf(fcur, "%sI %s", g_col[GPT_LOG_COL_GREEN], g_col[GPT_LOG_COL_DEFAULT]); break; case GGML_LOG_LEVEL_WARN: fprintf(fcur, "%sW %s", g_col[GPT_LOG_COL_MAGENTA], "" ); break; case GGML_LOG_LEVEL_ERROR: fprintf(fcur, "%sE %s", g_col[GPT_LOG_COL_RED], "" ); break; case GGML_LOG_LEVEL_DEBUG: fprintf(fcur, "%sD %s", g_col[GPT_LOG_COL_YELLOW], "" ); break; default: break; } } fprintf(fcur, "%s", msg.data()); if (level == GGML_LOG_LEVEL_WARN || level == GGML_LOG_LEVEL_ERROR || level == GGML_LOG_LEVEL_DEBUG) { fprintf(fcur, "%s", g_col[GPT_LOG_COL_DEFAULT]); } fflush(fcur); } }; struct gpt_log { gpt_log(size_t capacity) { file = nullptr; timestamps = false; running = false; t_start = t_us(); entries.resize(capacity); for (auto & entry : entries) { entry.msg.resize(256); } head = 0; tail = 0; resume(); } ~gpt_log() { pause(); if (file) { fclose(file); } } private: std::mutex mtx; std::thread thrd; std::condition_variable cv; FILE * file; bool timestamps; bool running; int64_t t_start; // ring buffer of entries std::vector entries; size_t head; size_t tail; // worker thread copies into this gpt_log_entry cur; public: void add(enum ggml_log_level level, const char * fmt, va_list args) { std::lock_guard lock(mtx); if (!running) { return; } auto & entry = entries[tail]; { // cannot use args twice, so make a copy in case we need to expand the buffer va_list args_copy; va_copy(args_copy, args); #if 1 const size_t n = vsnprintf(entry.msg.data(), entry.msg.size(), fmt, args); if (n >= entry.msg.size()) { entry.msg.resize(n + 1); vsnprintf(entry.msg.data(), entry.msg.size(), fmt, args_copy); } #else // hack for bolding arguments std::stringstream ss; for (int i = 0; fmt[i] != 0; i++) { if (fmt[i] == '%') { ss << LOG_COL_BOLD; while (fmt[i] != ' ' && fmt[i] != ')' && fmt[i] != ']' && fmt[i] != 0) ss << fmt[i++]; ss << LOG_COL_DEFAULT; if (fmt[i] == 0) break; } ss << fmt[i]; } const size_t n = vsnprintf(entry.msg.data(), entry.msg.size(), ss.str().c_str(), args); if (n >= entry.msg.size()) { entry.msg.resize(n + 1); vsnprintf(entry.msg.data(), entry.msg.size(), ss.str().c_str(), args_copy); } #endif } entry.level = level; entry.timestamp = 0; if (timestamps) { entry.timestamp = t_us() - t_start; } entry.is_end = false; tail = (tail + 1) % entries.size(); if (tail == head) { // expand the buffer std::vector new_entries(2*entries.size()); size_t new_tail = 0; do { new_entries[new_tail] = std::move(entries[head]); head = (head + 1) % entries.size(); new_tail = (new_tail + 1); } while (head != tail); head = 0; tail = new_tail; for (size_t i = tail; i < new_entries.size(); i++) { new_entries[i].msg.resize(256); } entries = std::move(new_entries); } cv.notify_one(); } void resume() { std::lock_guard lock(mtx); if (running) { return; } running = true; thrd = std::thread([this]() { while (true) { { std::unique_lock lock(mtx); cv.wait(lock, [this]() { return head != tail; }); cur = entries[head]; head = (head + 1) % entries.size(); } if (cur.is_end) { break; } cur.print(); // stdout and stderr if (file) { cur.print(file); } } }); } void pause() { { std::lock_guard lock(mtx); if (!running) { return; } running = false; auto & entry = entries[tail]; entry.is_end = true; tail = (tail + 1) % entries.size(); cv.notify_one(); } thrd.join(); } void set_file(const char * path) { pause(); if (file) { fclose(file); } if (path) { file = fopen(path, "w"); } else { file = nullptr; } resume(); } void set_colors(bool colors) { pause(); if (colors) { g_col[GPT_LOG_COL_DEFAULT] = LOG_COL_DEFAULT; g_col[GPT_LOG_COL_BOLD] = LOG_COL_BOLD; g_col[GPT_LOG_COL_RED] = LOG_COL_RED; g_col[GPT_LOG_COL_GREEN] = LOG_COL_GREEN; g_col[GPT_LOG_COL_YELLOW] = LOG_COL_YELLOW; g_col[GPT_LOG_COL_BLUE] = LOG_COL_BLUE; g_col[GPT_LOG_COL_MAGENTA] = LOG_COL_MAGENTA; g_col[GPT_LOG_COL_CYAN] = LOG_COL_CYAN; g_col[GPT_LOG_COL_WHITE] = LOG_COL_WHITE; } else { for (size_t i = 0; i < g_col.size(); i++) { g_col[i] = ""; } } resume(); } void set_timestamps(bool timestamps) { std::lock_guard lock(mtx); this->timestamps = timestamps; } }; struct gpt_log * gpt_log_init() { return new gpt_log{256}; } struct gpt_log * gpt_log_main() { static struct gpt_log log{256}; return &log; } void gpt_log_pause(struct gpt_log * log) { log->pause(); } void gpt_log_resume(struct gpt_log * log) { log->resume(); } void gpt_log_free(struct gpt_log * log) { delete log; } void gpt_log_add(struct gpt_log * log, enum ggml_log_level level, const char * fmt, ...) { va_list args; va_start(args, fmt); log->add(level, fmt, args); va_end(args); } void gpt_log_set_file(struct gpt_log * log, const char * file) { log->set_file(file); } void gpt_log_set_colors(struct gpt_log * log, bool colors) { log->set_colors(colors); } void gpt_log_set_timestamps(struct gpt_log * log, bool timestamps) { log->set_timestamps(timestamps); }