Implementing a logging system in C++17
$begingroup$
So, I've been programming for what is a probably a little bit and made a very simple logging system for my personal projects. While it works out fairly well so far, I would like advice on how to make it perform better and stuff I can do to make it more usable in general.
Main questions include:
Is my code thread safe? If not, how do I make it thread safe?
Is there a way to make the interface a bit cleaner for use? Right now
# define
feels a bit hacky.
Is there a way to avoid the use of a global
unique_ptr
?
Should I just make it a header only library? Is there any benefits in doing so?
In addition to this I would appreciate any other advice on how to improve the system.
Code as it is now:
HPP:
#pragma once
/*
Use it by including this header in every file required, and in your main function start a new log.
Logger::startLog("Log.txt");
Use the various error levels by naming them and simply passing the info and what you want to output.
Logger::log(ERROR, "Something went wrong.");
*/
// For the unique pointers.
#include <memory>
// Filestream.
#include <fstream>
// String class for names and parameters passed around.
#include <string>
#define FATAL Logger::Level::Fatal
#define ERROR Logger::Level::Error
#define WARNING Logger::Level::Warning
#define INFO Logger::Level::Info
#define DEBUG Logger::Level::Debug
namespace Logger {
// Severity level enum.
enum class Level {
Fatal,
Error,
Warning,
Info,
Debug
};
// Initialize the log.
void startLog(const std::string& filepath);
// Log a message.
void log(Level s, const std::string& msg);
// Logging class.
class Log {
public:
Log(const std::string& filepath);
void addLog(Level s, const std::string& msg);
~Log();
private:
// File for logging.
std::ofstream m_logfile;
std::string levels[5] = {"Fatal", "Error", "Warning", "Info", "Debug"};
};
}
CPP:
#include "Log.hpp"
namespace Logger {
// Global Logging Object.
std::unique_ptr<Log> g_log;
// Initalize our logging object.
void startLog(const std::string& filepath) {
g_log = std::make_unique<Log>(filepath);
Logger::log(Level::Info, "Started logging system.");
}
// Method which logs.
void log(Level s, const std::string& msg) {
g_log->addLog(s, msg);
}
// Create our global logging object.
Log::Log(const std::string& filepath) : m_logfile{} {
m_logfile.open(filepath);
}
// Add a message to our log.
void Log::addLog(Level s, const std::string& msg) {
if (m_logfile.is_open()) {
m_logfile << levels[static_cast<int>(s)] << ": " << msg << std::endl;
}
}
Log::~Log() {
addLog(Level::Info, "Stopped logging system.");
m_logfile.close();
}
}
Thanks!
c++ c++17
New contributor
$endgroup$
add a comment |
$begingroup$
So, I've been programming for what is a probably a little bit and made a very simple logging system for my personal projects. While it works out fairly well so far, I would like advice on how to make it perform better and stuff I can do to make it more usable in general.
Main questions include:
Is my code thread safe? If not, how do I make it thread safe?
Is there a way to make the interface a bit cleaner for use? Right now
# define
feels a bit hacky.
Is there a way to avoid the use of a global
unique_ptr
?
Should I just make it a header only library? Is there any benefits in doing so?
In addition to this I would appreciate any other advice on how to improve the system.
Code as it is now:
HPP:
#pragma once
/*
Use it by including this header in every file required, and in your main function start a new log.
Logger::startLog("Log.txt");
Use the various error levels by naming them and simply passing the info and what you want to output.
Logger::log(ERROR, "Something went wrong.");
*/
// For the unique pointers.
#include <memory>
// Filestream.
#include <fstream>
// String class for names and parameters passed around.
#include <string>
#define FATAL Logger::Level::Fatal
#define ERROR Logger::Level::Error
#define WARNING Logger::Level::Warning
#define INFO Logger::Level::Info
#define DEBUG Logger::Level::Debug
namespace Logger {
// Severity level enum.
enum class Level {
Fatal,
Error,
Warning,
Info,
Debug
};
// Initialize the log.
void startLog(const std::string& filepath);
// Log a message.
void log(Level s, const std::string& msg);
// Logging class.
class Log {
public:
Log(const std::string& filepath);
void addLog(Level s, const std::string& msg);
~Log();
private:
// File for logging.
std::ofstream m_logfile;
std::string levels[5] = {"Fatal", "Error", "Warning", "Info", "Debug"};
};
}
CPP:
#include "Log.hpp"
namespace Logger {
// Global Logging Object.
std::unique_ptr<Log> g_log;
// Initalize our logging object.
void startLog(const std::string& filepath) {
g_log = std::make_unique<Log>(filepath);
Logger::log(Level::Info, "Started logging system.");
}
// Method which logs.
void log(Level s, const std::string& msg) {
g_log->addLog(s, msg);
}
// Create our global logging object.
Log::Log(const std::string& filepath) : m_logfile{} {
m_logfile.open(filepath);
}
// Add a message to our log.
void Log::addLog(Level s, const std::string& msg) {
if (m_logfile.is_open()) {
m_logfile << levels[static_cast<int>(s)] << ": " << msg << std::endl;
}
}
Log::~Log() {
addLog(Level::Info, "Stopped logging system.");
m_logfile.close();
}
}
Thanks!
c++ c++17
New contributor
$endgroup$
add a comment |
$begingroup$
So, I've been programming for what is a probably a little bit and made a very simple logging system for my personal projects. While it works out fairly well so far, I would like advice on how to make it perform better and stuff I can do to make it more usable in general.
Main questions include:
Is my code thread safe? If not, how do I make it thread safe?
Is there a way to make the interface a bit cleaner for use? Right now
# define
feels a bit hacky.
Is there a way to avoid the use of a global
unique_ptr
?
Should I just make it a header only library? Is there any benefits in doing so?
In addition to this I would appreciate any other advice on how to improve the system.
Code as it is now:
HPP:
#pragma once
/*
Use it by including this header in every file required, and in your main function start a new log.
Logger::startLog("Log.txt");
Use the various error levels by naming them and simply passing the info and what you want to output.
Logger::log(ERROR, "Something went wrong.");
*/
// For the unique pointers.
#include <memory>
// Filestream.
#include <fstream>
// String class for names and parameters passed around.
#include <string>
#define FATAL Logger::Level::Fatal
#define ERROR Logger::Level::Error
#define WARNING Logger::Level::Warning
#define INFO Logger::Level::Info
#define DEBUG Logger::Level::Debug
namespace Logger {
// Severity level enum.
enum class Level {
Fatal,
Error,
Warning,
Info,
Debug
};
// Initialize the log.
void startLog(const std::string& filepath);
// Log a message.
void log(Level s, const std::string& msg);
// Logging class.
class Log {
public:
Log(const std::string& filepath);
void addLog(Level s, const std::string& msg);
~Log();
private:
// File for logging.
std::ofstream m_logfile;
std::string levels[5] = {"Fatal", "Error", "Warning", "Info", "Debug"};
};
}
CPP:
#include "Log.hpp"
namespace Logger {
// Global Logging Object.
std::unique_ptr<Log> g_log;
// Initalize our logging object.
void startLog(const std::string& filepath) {
g_log = std::make_unique<Log>(filepath);
Logger::log(Level::Info, "Started logging system.");
}
// Method which logs.
void log(Level s, const std::string& msg) {
g_log->addLog(s, msg);
}
// Create our global logging object.
Log::Log(const std::string& filepath) : m_logfile{} {
m_logfile.open(filepath);
}
// Add a message to our log.
void Log::addLog(Level s, const std::string& msg) {
if (m_logfile.is_open()) {
m_logfile << levels[static_cast<int>(s)] << ": " << msg << std::endl;
}
}
Log::~Log() {
addLog(Level::Info, "Stopped logging system.");
m_logfile.close();
}
}
Thanks!
c++ c++17
New contributor
$endgroup$
So, I've been programming for what is a probably a little bit and made a very simple logging system for my personal projects. While it works out fairly well so far, I would like advice on how to make it perform better and stuff I can do to make it more usable in general.
Main questions include:
Is my code thread safe? If not, how do I make it thread safe?
Is there a way to make the interface a bit cleaner for use? Right now
# define
feels a bit hacky.
Is there a way to avoid the use of a global
unique_ptr
?
Should I just make it a header only library? Is there any benefits in doing so?
In addition to this I would appreciate any other advice on how to improve the system.
Code as it is now:
HPP:
#pragma once
/*
Use it by including this header in every file required, and in your main function start a new log.
Logger::startLog("Log.txt");
Use the various error levels by naming them and simply passing the info and what you want to output.
Logger::log(ERROR, "Something went wrong.");
*/
// For the unique pointers.
#include <memory>
// Filestream.
#include <fstream>
// String class for names and parameters passed around.
#include <string>
#define FATAL Logger::Level::Fatal
#define ERROR Logger::Level::Error
#define WARNING Logger::Level::Warning
#define INFO Logger::Level::Info
#define DEBUG Logger::Level::Debug
namespace Logger {
// Severity level enum.
enum class Level {
Fatal,
Error,
Warning,
Info,
Debug
};
// Initialize the log.
void startLog(const std::string& filepath);
// Log a message.
void log(Level s, const std::string& msg);
// Logging class.
class Log {
public:
Log(const std::string& filepath);
void addLog(Level s, const std::string& msg);
~Log();
private:
// File for logging.
std::ofstream m_logfile;
std::string levels[5] = {"Fatal", "Error", "Warning", "Info", "Debug"};
};
}
CPP:
#include "Log.hpp"
namespace Logger {
// Global Logging Object.
std::unique_ptr<Log> g_log;
// Initalize our logging object.
void startLog(const std::string& filepath) {
g_log = std::make_unique<Log>(filepath);
Logger::log(Level::Info, "Started logging system.");
}
// Method which logs.
void log(Level s, const std::string& msg) {
g_log->addLog(s, msg);
}
// Create our global logging object.
Log::Log(const std::string& filepath) : m_logfile{} {
m_logfile.open(filepath);
}
// Add a message to our log.
void Log::addLog(Level s, const std::string& msg) {
if (m_logfile.is_open()) {
m_logfile << levels[static_cast<int>(s)] << ": " << msg << std::endl;
}
}
Log::~Log() {
addLog(Level::Info, "Stopped logging system.");
m_logfile.close();
}
}
Thanks!
c++ c++17
c++ c++17
New contributor
New contributor
New contributor
asked 4 hours ago
RiettyRietty
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112
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2 Answers
2
active
oldest
votes
$begingroup$
- Is my code thread safe? If not, how do I make it thread safe?
No, of course it's not thread-safe. You don't do anything to make it thread-safe.
A more nuanced answer would be: It's thread-safe as long as you don't use it in an unsafe way. For example, calling Logger::log(FATAL, "hello world")
from two different threads concurrently would of course be unsafe. But if your program has only one thread... :)
If you want to allow calling Logger::log
from two threads concurrently, you'll have to do something to eliminate the data race on m_logfile
which is caused by the two threads' both calling m_logfile << levels[static_cast<int>(s)]
at the same time. For example, you could throw a mutex lock around addLog
.
- Is there a way to make the interface a bit cleaner for use? Right now
#define
feels a bit hacky.
The only place you use #define
is in #define FATAL Logger::Level::Fatal
and so on. (By the way, technically #define ERROR ...
triggers undefined behavior, because all macros of the form EXXXX
are reserved for use by POSIX error codes.) My question is, if you wanted these values to be referred to as FATAL
, ERROR
, etc., why didn't you just declare them that way?
inline constexpr int FATAL = 0;
inline constexpr int ERROR = 1;
inline constexpr int WARNING = 2;
// ...
Or, probably better:
namespace Logger {
enum Level {
FATAL, ERROR, WARNING, // ...
};
}
Making this an enum
(rather than an enum class
) allows your user to refer to the enumerators without needing to redundantly name the enum type: just Logger::FATAL
, Logger::ERROR
, et cetera.
Personally, I would consider writing convenience functions to eliminate the boilerplate:
namespace Logger {
void log_fatal(const std::string& msg) { log(FATAL, msg); }
void log_error(const std::string& msg) { log(ERROR, msg); }
// ...
}
By the way, I think your numbering scheme is backwards. "Level" represents the severity of the message, right? Some messages have higher severity than others? So how would I test whether one message had a higher severity than another? Well, I think I'd write:
if (one_severity > another_severity) ...
But with the values you gave your enumeration, this is actually going to be completely backwards! And so my code for testing severity levels is going to have a bug (or else I'll catch the bug, but then have to write unintuitive code that uses <
to mean "greater than"). So, I recommend switching the values around.
- Is there a way to avoid the use of a global
unique_ptr
?
Sure; declare it static
! And to make it really non-global, stick it in a function. It'll still have static lifetime, though. There's not much getting around that.
inline Log *get_glog() {
static std::unique_ptr<Log> glog = std::make_unique<Log>();
return glog.get();
}
void startLog(const std::string& filepath) {
Log *glog = get_glog();
glog->set_filepath_and_open(filepath);
}
- Should I just make it a header only library? Is there any benefits in doing so?
The big benefit of a header-only library is that it's super easy to incorporate into another project — the user just drops the header file into his include/
directory and he's good to go.
Single-header libraries are particularly nice because they can easily be dropped into Godbolt or Wandbox.
In your case, the tradeoff is that presumably this header is going to get included all over the place (because logging is ubiquitous), and so the bigger you make it, the more work you're forcing the compiler to do in every translation unit.
Since you said "C++17", consider rewriting all your void foo(const std::string& s)
signatures into void foo(std::string_view sv)
signatures. (Yes, pass string_view
by value.)
$endgroup$
add a comment |
$begingroup$
A couple of things. You can avoid the #defines with a using directive . You don't need to give the caller any knowledge of the Log class. It does not need to be in the header at all. What happens if I call start log more than once? There's no protection against that. Also, I know it probably works as is, but the static cast in add log scares me because you never defined an integer value for the enum class. It seems to be begging for a segfault.
Beyond that, how to improve the interface depends in what you want. Currently the code is not thread safe. You could use lock guards in your methods to accomplish this.
Do you want to have one central log? Or do you want each instantiation of the log to be isolated?
If you want one central, consider the singleton pattern and give out shared or weak pointers via a static factory, and make the ctor private. Then instead of having the function interface, you can keep a shared pointer to the logging object and give it references to it, people can then call the functions on the class.
If you want each installation of the log to be separate, just have the user construct a log class.
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2 Answers
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active
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2 Answers
2
active
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oldest
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$begingroup$
- Is my code thread safe? If not, how do I make it thread safe?
No, of course it's not thread-safe. You don't do anything to make it thread-safe.
A more nuanced answer would be: It's thread-safe as long as you don't use it in an unsafe way. For example, calling Logger::log(FATAL, "hello world")
from two different threads concurrently would of course be unsafe. But if your program has only one thread... :)
If you want to allow calling Logger::log
from two threads concurrently, you'll have to do something to eliminate the data race on m_logfile
which is caused by the two threads' both calling m_logfile << levels[static_cast<int>(s)]
at the same time. For example, you could throw a mutex lock around addLog
.
- Is there a way to make the interface a bit cleaner for use? Right now
#define
feels a bit hacky.
The only place you use #define
is in #define FATAL Logger::Level::Fatal
and so on. (By the way, technically #define ERROR ...
triggers undefined behavior, because all macros of the form EXXXX
are reserved for use by POSIX error codes.) My question is, if you wanted these values to be referred to as FATAL
, ERROR
, etc., why didn't you just declare them that way?
inline constexpr int FATAL = 0;
inline constexpr int ERROR = 1;
inline constexpr int WARNING = 2;
// ...
Or, probably better:
namespace Logger {
enum Level {
FATAL, ERROR, WARNING, // ...
};
}
Making this an enum
(rather than an enum class
) allows your user to refer to the enumerators without needing to redundantly name the enum type: just Logger::FATAL
, Logger::ERROR
, et cetera.
Personally, I would consider writing convenience functions to eliminate the boilerplate:
namespace Logger {
void log_fatal(const std::string& msg) { log(FATAL, msg); }
void log_error(const std::string& msg) { log(ERROR, msg); }
// ...
}
By the way, I think your numbering scheme is backwards. "Level" represents the severity of the message, right? Some messages have higher severity than others? So how would I test whether one message had a higher severity than another? Well, I think I'd write:
if (one_severity > another_severity) ...
But with the values you gave your enumeration, this is actually going to be completely backwards! And so my code for testing severity levels is going to have a bug (or else I'll catch the bug, but then have to write unintuitive code that uses <
to mean "greater than"). So, I recommend switching the values around.
- Is there a way to avoid the use of a global
unique_ptr
?
Sure; declare it static
! And to make it really non-global, stick it in a function. It'll still have static lifetime, though. There's not much getting around that.
inline Log *get_glog() {
static std::unique_ptr<Log> glog = std::make_unique<Log>();
return glog.get();
}
void startLog(const std::string& filepath) {
Log *glog = get_glog();
glog->set_filepath_and_open(filepath);
}
- Should I just make it a header only library? Is there any benefits in doing so?
The big benefit of a header-only library is that it's super easy to incorporate into another project — the user just drops the header file into his include/
directory and he's good to go.
Single-header libraries are particularly nice because they can easily be dropped into Godbolt or Wandbox.
In your case, the tradeoff is that presumably this header is going to get included all over the place (because logging is ubiquitous), and so the bigger you make it, the more work you're forcing the compiler to do in every translation unit.
Since you said "C++17", consider rewriting all your void foo(const std::string& s)
signatures into void foo(std::string_view sv)
signatures. (Yes, pass string_view
by value.)
$endgroup$
add a comment |
$begingroup$
- Is my code thread safe? If not, how do I make it thread safe?
No, of course it's not thread-safe. You don't do anything to make it thread-safe.
A more nuanced answer would be: It's thread-safe as long as you don't use it in an unsafe way. For example, calling Logger::log(FATAL, "hello world")
from two different threads concurrently would of course be unsafe. But if your program has only one thread... :)
If you want to allow calling Logger::log
from two threads concurrently, you'll have to do something to eliminate the data race on m_logfile
which is caused by the two threads' both calling m_logfile << levels[static_cast<int>(s)]
at the same time. For example, you could throw a mutex lock around addLog
.
- Is there a way to make the interface a bit cleaner for use? Right now
#define
feels a bit hacky.
The only place you use #define
is in #define FATAL Logger::Level::Fatal
and so on. (By the way, technically #define ERROR ...
triggers undefined behavior, because all macros of the form EXXXX
are reserved for use by POSIX error codes.) My question is, if you wanted these values to be referred to as FATAL
, ERROR
, etc., why didn't you just declare them that way?
inline constexpr int FATAL = 0;
inline constexpr int ERROR = 1;
inline constexpr int WARNING = 2;
// ...
Or, probably better:
namespace Logger {
enum Level {
FATAL, ERROR, WARNING, // ...
};
}
Making this an enum
(rather than an enum class
) allows your user to refer to the enumerators without needing to redundantly name the enum type: just Logger::FATAL
, Logger::ERROR
, et cetera.
Personally, I would consider writing convenience functions to eliminate the boilerplate:
namespace Logger {
void log_fatal(const std::string& msg) { log(FATAL, msg); }
void log_error(const std::string& msg) { log(ERROR, msg); }
// ...
}
By the way, I think your numbering scheme is backwards. "Level" represents the severity of the message, right? Some messages have higher severity than others? So how would I test whether one message had a higher severity than another? Well, I think I'd write:
if (one_severity > another_severity) ...
But with the values you gave your enumeration, this is actually going to be completely backwards! And so my code for testing severity levels is going to have a bug (or else I'll catch the bug, but then have to write unintuitive code that uses <
to mean "greater than"). So, I recommend switching the values around.
- Is there a way to avoid the use of a global
unique_ptr
?
Sure; declare it static
! And to make it really non-global, stick it in a function. It'll still have static lifetime, though. There's not much getting around that.
inline Log *get_glog() {
static std::unique_ptr<Log> glog = std::make_unique<Log>();
return glog.get();
}
void startLog(const std::string& filepath) {
Log *glog = get_glog();
glog->set_filepath_and_open(filepath);
}
- Should I just make it a header only library? Is there any benefits in doing so?
The big benefit of a header-only library is that it's super easy to incorporate into another project — the user just drops the header file into his include/
directory and he's good to go.
Single-header libraries are particularly nice because they can easily be dropped into Godbolt or Wandbox.
In your case, the tradeoff is that presumably this header is going to get included all over the place (because logging is ubiquitous), and so the bigger you make it, the more work you're forcing the compiler to do in every translation unit.
Since you said "C++17", consider rewriting all your void foo(const std::string& s)
signatures into void foo(std::string_view sv)
signatures. (Yes, pass string_view
by value.)
$endgroup$
add a comment |
$begingroup$
- Is my code thread safe? If not, how do I make it thread safe?
No, of course it's not thread-safe. You don't do anything to make it thread-safe.
A more nuanced answer would be: It's thread-safe as long as you don't use it in an unsafe way. For example, calling Logger::log(FATAL, "hello world")
from two different threads concurrently would of course be unsafe. But if your program has only one thread... :)
If you want to allow calling Logger::log
from two threads concurrently, you'll have to do something to eliminate the data race on m_logfile
which is caused by the two threads' both calling m_logfile << levels[static_cast<int>(s)]
at the same time. For example, you could throw a mutex lock around addLog
.
- Is there a way to make the interface a bit cleaner for use? Right now
#define
feels a bit hacky.
The only place you use #define
is in #define FATAL Logger::Level::Fatal
and so on. (By the way, technically #define ERROR ...
triggers undefined behavior, because all macros of the form EXXXX
are reserved for use by POSIX error codes.) My question is, if you wanted these values to be referred to as FATAL
, ERROR
, etc., why didn't you just declare them that way?
inline constexpr int FATAL = 0;
inline constexpr int ERROR = 1;
inline constexpr int WARNING = 2;
// ...
Or, probably better:
namespace Logger {
enum Level {
FATAL, ERROR, WARNING, // ...
};
}
Making this an enum
(rather than an enum class
) allows your user to refer to the enumerators without needing to redundantly name the enum type: just Logger::FATAL
, Logger::ERROR
, et cetera.
Personally, I would consider writing convenience functions to eliminate the boilerplate:
namespace Logger {
void log_fatal(const std::string& msg) { log(FATAL, msg); }
void log_error(const std::string& msg) { log(ERROR, msg); }
// ...
}
By the way, I think your numbering scheme is backwards. "Level" represents the severity of the message, right? Some messages have higher severity than others? So how would I test whether one message had a higher severity than another? Well, I think I'd write:
if (one_severity > another_severity) ...
But with the values you gave your enumeration, this is actually going to be completely backwards! And so my code for testing severity levels is going to have a bug (or else I'll catch the bug, but then have to write unintuitive code that uses <
to mean "greater than"). So, I recommend switching the values around.
- Is there a way to avoid the use of a global
unique_ptr
?
Sure; declare it static
! And to make it really non-global, stick it in a function. It'll still have static lifetime, though. There's not much getting around that.
inline Log *get_glog() {
static std::unique_ptr<Log> glog = std::make_unique<Log>();
return glog.get();
}
void startLog(const std::string& filepath) {
Log *glog = get_glog();
glog->set_filepath_and_open(filepath);
}
- Should I just make it a header only library? Is there any benefits in doing so?
The big benefit of a header-only library is that it's super easy to incorporate into another project — the user just drops the header file into his include/
directory and he's good to go.
Single-header libraries are particularly nice because they can easily be dropped into Godbolt or Wandbox.
In your case, the tradeoff is that presumably this header is going to get included all over the place (because logging is ubiquitous), and so the bigger you make it, the more work you're forcing the compiler to do in every translation unit.
Since you said "C++17", consider rewriting all your void foo(const std::string& s)
signatures into void foo(std::string_view sv)
signatures. (Yes, pass string_view
by value.)
$endgroup$
- Is my code thread safe? If not, how do I make it thread safe?
No, of course it's not thread-safe. You don't do anything to make it thread-safe.
A more nuanced answer would be: It's thread-safe as long as you don't use it in an unsafe way. For example, calling Logger::log(FATAL, "hello world")
from two different threads concurrently would of course be unsafe. But if your program has only one thread... :)
If you want to allow calling Logger::log
from two threads concurrently, you'll have to do something to eliminate the data race on m_logfile
which is caused by the two threads' both calling m_logfile << levels[static_cast<int>(s)]
at the same time. For example, you could throw a mutex lock around addLog
.
- Is there a way to make the interface a bit cleaner for use? Right now
#define
feels a bit hacky.
The only place you use #define
is in #define FATAL Logger::Level::Fatal
and so on. (By the way, technically #define ERROR ...
triggers undefined behavior, because all macros of the form EXXXX
are reserved for use by POSIX error codes.) My question is, if you wanted these values to be referred to as FATAL
, ERROR
, etc., why didn't you just declare them that way?
inline constexpr int FATAL = 0;
inline constexpr int ERROR = 1;
inline constexpr int WARNING = 2;
// ...
Or, probably better:
namespace Logger {
enum Level {
FATAL, ERROR, WARNING, // ...
};
}
Making this an enum
(rather than an enum class
) allows your user to refer to the enumerators without needing to redundantly name the enum type: just Logger::FATAL
, Logger::ERROR
, et cetera.
Personally, I would consider writing convenience functions to eliminate the boilerplate:
namespace Logger {
void log_fatal(const std::string& msg) { log(FATAL, msg); }
void log_error(const std::string& msg) { log(ERROR, msg); }
// ...
}
By the way, I think your numbering scheme is backwards. "Level" represents the severity of the message, right? Some messages have higher severity than others? So how would I test whether one message had a higher severity than another? Well, I think I'd write:
if (one_severity > another_severity) ...
But with the values you gave your enumeration, this is actually going to be completely backwards! And so my code for testing severity levels is going to have a bug (or else I'll catch the bug, but then have to write unintuitive code that uses <
to mean "greater than"). So, I recommend switching the values around.
- Is there a way to avoid the use of a global
unique_ptr
?
Sure; declare it static
! And to make it really non-global, stick it in a function. It'll still have static lifetime, though. There's not much getting around that.
inline Log *get_glog() {
static std::unique_ptr<Log> glog = std::make_unique<Log>();
return glog.get();
}
void startLog(const std::string& filepath) {
Log *glog = get_glog();
glog->set_filepath_and_open(filepath);
}
- Should I just make it a header only library? Is there any benefits in doing so?
The big benefit of a header-only library is that it's super easy to incorporate into another project — the user just drops the header file into his include/
directory and he's good to go.
Single-header libraries are particularly nice because they can easily be dropped into Godbolt or Wandbox.
In your case, the tradeoff is that presumably this header is going to get included all over the place (because logging is ubiquitous), and so the bigger you make it, the more work you're forcing the compiler to do in every translation unit.
Since you said "C++17", consider rewriting all your void foo(const std::string& s)
signatures into void foo(std::string_view sv)
signatures. (Yes, pass string_view
by value.)
answered 1 hour ago
QuuxplusoneQuuxplusone
12k12061
12k12061
add a comment |
add a comment |
$begingroup$
A couple of things. You can avoid the #defines with a using directive . You don't need to give the caller any knowledge of the Log class. It does not need to be in the header at all. What happens if I call start log more than once? There's no protection against that. Also, I know it probably works as is, but the static cast in add log scares me because you never defined an integer value for the enum class. It seems to be begging for a segfault.
Beyond that, how to improve the interface depends in what you want. Currently the code is not thread safe. You could use lock guards in your methods to accomplish this.
Do you want to have one central log? Or do you want each instantiation of the log to be isolated?
If you want one central, consider the singleton pattern and give out shared or weak pointers via a static factory, and make the ctor private. Then instead of having the function interface, you can keep a shared pointer to the logging object and give it references to it, people can then call the functions on the class.
If you want each installation of the log to be separate, just have the user construct a log class.
New contributor
$endgroup$
add a comment |
$begingroup$
A couple of things. You can avoid the #defines with a using directive . You don't need to give the caller any knowledge of the Log class. It does not need to be in the header at all. What happens if I call start log more than once? There's no protection against that. Also, I know it probably works as is, but the static cast in add log scares me because you never defined an integer value for the enum class. It seems to be begging for a segfault.
Beyond that, how to improve the interface depends in what you want. Currently the code is not thread safe. You could use lock guards in your methods to accomplish this.
Do you want to have one central log? Or do you want each instantiation of the log to be isolated?
If you want one central, consider the singleton pattern and give out shared or weak pointers via a static factory, and make the ctor private. Then instead of having the function interface, you can keep a shared pointer to the logging object and give it references to it, people can then call the functions on the class.
If you want each installation of the log to be separate, just have the user construct a log class.
New contributor
$endgroup$
add a comment |
$begingroup$
A couple of things. You can avoid the #defines with a using directive . You don't need to give the caller any knowledge of the Log class. It does not need to be in the header at all. What happens if I call start log more than once? There's no protection against that. Also, I know it probably works as is, but the static cast in add log scares me because you never defined an integer value for the enum class. It seems to be begging for a segfault.
Beyond that, how to improve the interface depends in what you want. Currently the code is not thread safe. You could use lock guards in your methods to accomplish this.
Do you want to have one central log? Or do you want each instantiation of the log to be isolated?
If you want one central, consider the singleton pattern and give out shared or weak pointers via a static factory, and make the ctor private. Then instead of having the function interface, you can keep a shared pointer to the logging object and give it references to it, people can then call the functions on the class.
If you want each installation of the log to be separate, just have the user construct a log class.
New contributor
$endgroup$
A couple of things. You can avoid the #defines with a using directive . You don't need to give the caller any knowledge of the Log class. It does not need to be in the header at all. What happens if I call start log more than once? There's no protection against that. Also, I know it probably works as is, but the static cast in add log scares me because you never defined an integer value for the enum class. It seems to be begging for a segfault.
Beyond that, how to improve the interface depends in what you want. Currently the code is not thread safe. You could use lock guards in your methods to accomplish this.
Do you want to have one central log? Or do you want each instantiation of the log to be isolated?
If you want one central, consider the singleton pattern and give out shared or weak pointers via a static factory, and make the ctor private. Then instead of having the function interface, you can keep a shared pointer to the logging object and give it references to it, people can then call the functions on the class.
If you want each installation of the log to be separate, just have the user construct a log class.
New contributor
New contributor
answered 40 mins ago
Marc OlberdingMarc Olberding
1
1
New contributor
New contributor
add a comment |
add a comment |
Rietty is a new contributor. Be nice, and check out our Code of Conduct.
Rietty is a new contributor. Be nice, and check out our Code of Conduct.
Rietty is a new contributor. Be nice, and check out our Code of Conduct.
Rietty is a new contributor. Be nice, and check out our Code of Conduct.
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