emsApplication/sdk/include/spdlog/logger-inl.h

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2024-05-24 12:29:09 +08:00
// Copyright(c) 2015-present, Gabi Melman & spdlog contributors.
// Distributed under the MIT License (http://opensource.org/licenses/MIT)
#pragma once
#ifndef SPDLOG_HEADER_ONLY
#include <spdlog/logger.h>
#endif
#include <spdlog/details/backtracer.h>
#include <spdlog/pattern_formatter.h>
#include <spdlog/sinks/sink.h>
#include <cstdio>
namespace spdlog {
// public methods
SPDLOG_INLINE logger::logger(const logger &other)
: name_(other.name_),
sinks_(other.sinks_),
level_(other.level_.load(std::memory_order_relaxed)),
flush_level_(other.flush_level_.load(std::memory_order_relaxed)),
custom_err_handler_(other.custom_err_handler_),
tracer_(other.tracer_) {}
SPDLOG_INLINE logger::logger(logger &&other) SPDLOG_NOEXCEPT
: name_(std::move(other.name_)),
sinks_(std::move(other.sinks_)),
level_(other.level_.load(std::memory_order_relaxed)),
flush_level_(other.flush_level_.load(std::memory_order_relaxed)),
custom_err_handler_(std::move(other.custom_err_handler_)),
tracer_(std::move(other.tracer_))
{}
SPDLOG_INLINE logger &logger::operator=(logger other) SPDLOG_NOEXCEPT {
this->swap(other);
return *this;
}
SPDLOG_INLINE void logger::swap(spdlog::logger &other) SPDLOG_NOEXCEPT {
name_.swap(other.name_);
sinks_.swap(other.sinks_);
// swap level_
auto other_level = other.level_.load();
auto my_level = level_.exchange(other_level);
other.level_.store(my_level);
// swap flush level_
other_level = other.flush_level_.load();
my_level = flush_level_.exchange(other_level);
other.flush_level_.store(my_level);
custom_err_handler_.swap(other.custom_err_handler_);
std::swap(tracer_, other.tracer_);
}
SPDLOG_INLINE void swap(logger &a, logger &b) { a.swap(b); }
SPDLOG_INLINE void logger::set_level(level::level_enum log_level) { level_.store(log_level); }
SPDLOG_INLINE level::level_enum logger::level() const {
return static_cast<level::level_enum>(level_.load(std::memory_order_relaxed));
}
SPDLOG_INLINE const std::string &logger::name() const { return name_; }
// set formatting for the sinks in this logger.
// each sink will get a separate instance of the formatter object.
SPDLOG_INLINE void logger::set_formatter(std::unique_ptr<formatter> f) {
for (auto it = sinks_.begin(); it != sinks_.end(); ++it) {
if (std::next(it) == sinks_.end()) {
// last element - we can be move it.
(*it)->set_formatter(std::move(f));
break; // to prevent clang-tidy warning
} else {
(*it)->set_formatter(f->clone());
}
}
}
SPDLOG_INLINE void logger::set_pattern(std::string pattern, pattern_time_type time_type) {
auto new_formatter = details::make_unique<pattern_formatter>(std::move(pattern), time_type);
set_formatter(std::move(new_formatter));
}
// create new backtrace sink and move to it all our child sinks
SPDLOG_INLINE void logger::enable_backtrace(size_t n_messages) { tracer_.enable(n_messages); }
// restore orig sinks and level and delete the backtrace sink
SPDLOG_INLINE void logger::disable_backtrace() { tracer_.disable(); }
SPDLOG_INLINE void logger::dump_backtrace() { dump_backtrace_(); }
// flush functions
SPDLOG_INLINE void logger::flush() { flush_(); }
SPDLOG_INLINE void logger::flush_on(level::level_enum log_level) { flush_level_.store(log_level); }
SPDLOG_INLINE level::level_enum logger::flush_level() const {
return static_cast<level::level_enum>(flush_level_.load(std::memory_order_relaxed));
}
// sinks
SPDLOG_INLINE const std::vector<sink_ptr> &logger::sinks() const { return sinks_; }
SPDLOG_INLINE std::vector<sink_ptr> &logger::sinks() { return sinks_; }
// error handler
SPDLOG_INLINE void logger::set_error_handler(err_handler handler) {
custom_err_handler_ = std::move(handler);
}
// create new logger with same sinks and configuration.
SPDLOG_INLINE std::shared_ptr<logger> logger::clone(std::string logger_name) {
auto cloned = std::make_shared<logger>(*this);
cloned->name_ = std::move(logger_name);
return cloned;
}
// protected methods
SPDLOG_INLINE void logger::log_it_(const spdlog::details::log_msg &log_msg,
bool log_enabled,
bool traceback_enabled) {
if (log_enabled) {
sink_it_(log_msg);
}
if (traceback_enabled) {
tracer_.push_back(log_msg);
}
}
SPDLOG_INLINE void logger::sink_it_(const details::log_msg &msg) {
for (auto &sink : sinks_) {
if (sink->should_log(msg.level)) {
SPDLOG_TRY { sink->log(msg); }
SPDLOG_LOGGER_CATCH(msg.source)
}
}
if (should_flush_(msg)) {
flush_();
}
}
SPDLOG_INLINE void logger::flush_() {
for (auto &sink : sinks_) {
SPDLOG_TRY { sink->flush(); }
SPDLOG_LOGGER_CATCH(source_loc())
}
}
SPDLOG_INLINE void logger::dump_backtrace_() {
using details::log_msg;
if (tracer_.enabled() && !tracer_.empty()) {
sink_it_(
log_msg{name(), level::info, "****************** Backtrace Start ******************"});
tracer_.foreach_pop([this](const log_msg &msg) { this->sink_it_(msg); });
sink_it_(
log_msg{name(), level::info, "****************** Backtrace End ********************"});
}
}
SPDLOG_INLINE bool logger::should_flush_(const details::log_msg &msg) {
auto flush_level = flush_level_.load(std::memory_order_relaxed);
return (msg.level >= flush_level) && (msg.level != level::off);
}
SPDLOG_INLINE void logger::err_handler_(const std::string &msg) {
if (custom_err_handler_) {
custom_err_handler_(msg);
} else {
using std::chrono::system_clock;
static std::mutex mutex;
static std::chrono::system_clock::time_point last_report_time;
static size_t err_counter = 0;
std::lock_guard<std::mutex> lk{mutex};
auto now = system_clock::now();
err_counter++;
if (now - last_report_time < std::chrono::seconds(1)) {
return;
}
last_report_time = now;
auto tm_time = details::os::localtime(system_clock::to_time_t(now));
char date_buf[64];
std::strftime(date_buf, sizeof(date_buf), "%Y-%m-%d %H:%M:%S", &tm_time);
#if defined(USING_R) && defined(R_R_H) // if in R environment
REprintf("[*** LOG ERROR #%04zu ***] [%s] [%s] %s\n", err_counter, date_buf, name().c_str(),
msg.c_str());
#else
std::fprintf(stderr, "[*** LOG ERROR #%04zu ***] [%s] [%s] %s\n", err_counter, date_buf,
name().c_str(), msg.c_str());
#endif
}
}
} // namespace spdlog