I've been looking around at various approaches to the problem of threadsafe logging, but I haven't seen anything quite like this, so I dunno if it's somehow awful that I haven't noticed due to being a complete newbie to C++, threads and iostreams. It seems to work in the basic tests I've put it through.
Basically I have a Log class (creative, I know...) which has operator<< set up for the standard manipulators, so I can merrily pass in whatever I want.
However, I am aware that something like:
std::cout << "Threads" << " will" << " mess" << " with" << "this." << std::endl;
will potentially get interleaved when multiple threads are writing to cout (or wherever the Log ostream points). So, I have created some manipulators specific to the Log class that let me do this:
Log::log << lock << "Write" << " what" << " I" << " want" << std::endl << unlock;
I just want to know if this is an inherently awful idea, bearing in mind that I am willing to accept that users of the Log class will need to be disciplined with 'lock' and 'unlock'. I considered making 'std::endl' automatically unlock, but that just seems like it would create more headaches... I think undisciplined use should come out in testing anyway, but if anyone can see a way to make such uses cause compile-time errors, that would be nice.
I'd also appreciate any suggestions as to making my code any cleaner.
Here's a cut down version of the class for demonstration purposes; the whole thing has a few more constructors taking stuff like filenames, so not really relevant to the question.
#include <iostream>
#include <thread>
#include <fstream>
class Log{
public:
//Constructors
Log(std::ostream & os);
// Destructor
~Log();
// Input Functions
Log & operator<<(const std::string & msg);
Log & operator<<(const int & msg);
Log & operator<<(std::ostream & (*man)(std::ostream &)); // Handles manipulators like endl.
Log & operator<<(std::ios_base & (*man)(std::ios_base &)); // Handles manipulators like hex.
Log & operator<<(Log & (*man)(Log &)); // Handles custom Log manipulators like lock and unlock.
friend Log & lock(Log & log); // Locks the Log for threadsafe output.
friend Log & unlock(Log & log); // Unlocks the Log once threadsafe output is complete.
private:
std::fstream logFile;
std::ostream & logStream;
std::mutex guard;
};
// Log class manipulators.
Log & lock(Log & log); // Locks the Log for threadsafe output.
Log & unlock(Log & log); // Unlocks the Log once threadsafe output is complete.
void threadUnsafeTask(int * input, Log * log);
void threadSafeTask(int * input, Log * log);
int main(){
int one(1), two(2);
Log log(std::cout);
std::thread first(threadUnsafeTask, &one, &log);
std::thread second(threadUnsafeTask, &two, &log);
first.join();
second.join();
std::thread third(threadSafeTask, &one, &log);
std::thread fourth(threadSafeTask, &two, &log);
third.join();
fourth.join();
return 0;
}
void threadUnsafeTask(int * input, Log * log){
*log << "Executing" << " thread '" << *input << "', " << "expecting " << "interruptions " << "frequently." << std::endl;
}
void threadSafeTask(int * input, Log * log){
*log << lock << "Executing" << " thread '" << *input << "', " << "not expecting " << "interruptions." << std::endl << unlock;
}
// Constructors (Most left out as irrelevant)
Log::Log(std::ostream & os): logFile(), logStream(logFile), guard(){
logStream.rdbuf(os.rdbuf());
}
// Destructor
Log::~Log(){
logFile.close();
}
// Output Operators
Log & Log::operator<<(const std::string & msg){
logStream << msg;
return *this;
}
Log & Log::operator<<(const int & msg){
logStream << msg;
return *this;
}
Log & Log::operator<<(std::ostream & (*man)(std::ostream &)){
logStream << man;
return *this;
}
Log & Log::operator<<(std::ios_base & (*man)(std::ios_base &)){
logStream << man;
return *this;
}
Log & Log::operator<<(Log & (*man)(Log &)){
man(*this);
return *this;
}
// Manipulator functions.
Log & lock(Log & log){
log.guard.lock();
return log;
}
Log & unlock(Log & log){
log.guard.unlock();
return log;
}
It works for me on Ubuntu 12.04 g++, compiled with:
g++ LogThreadTest.cpp -o log -std=c++0x -lpthread
The bits relevant to making custom manipulators was shamelessly cribbed from here but don't blame them for my incompetent copypasta.