dlib/examples/logger_ex_2.cpp

150 lines
4.9 KiB
C++

// The contents of this file are in the public domain. See LICENSE_FOR_EXAMPLE_PROGRAMS.txt
/*
This is a somewhat complex example illustrating the use of the logger object
from the dlib C++ Library. It will demonstrate using multiple loggers and threads.
The output of this program looks like this:
0 INFO [0] example: This is an informational message.
0 WARN [0] example: The variable is bigger than 4! Its value is 8
0 INFO [0] example: make two threads
0 WARN [0] example.test_class: warning! someone called warning()!
0 INFO [0] example: we are going to sleep for half a second.
0 INFO [1] example.thread: entering our thread
0 WARN [1] example.test_class: warning! someone called warning()!
0 INFO [2] example.thread: entering our thread
0 WARN [2] example.test_class: warning! someone called warning()!
203 INFO [1] example.thread: exiting our thread
203 INFO [2] example.thread: exiting our thread
503 INFO [0] example: we just woke up
503 INFO [0] example: program ending
*/
#include "dlib/logger.h"
#include "dlib/misc_api.h"
#include "dlib/threads.h"
using namespace dlib;
/*
Here we create three loggers. Note that it is the case that:
- logp.is_child_of(logp) == true
- logt.is_child_of(logp) == true
- logc.is_child_of(logp) == true
logp is the child of itself because all loggers are their own children :) But the other
two are child loggers of logp because their names start with logp.name() + "." which means
that whenever you set a property on a log it will also set that same property on all of
the log's children.
*/
logger logp("example");
logger logt("example.thread");
logger logc("example.test_class");
class test
{
public:
test ()
{
// this message won't get logged because LINFO is too low
logc << LINFO << "constructed a test object";
}
~test ()
{
// this message won't get logged because LINFO is too low
logc << LINFO << "destructed a test object";
}
void warning ()
{
logc << LWARN << "warning! someone called warning()!";
}
};
void thread (void*)
{
logt << LINFO << "entering our thread";
test mytest;
mytest.warning();
dlib::sleep(200);
logt << LINFO << "exiting our thread";
}
void setup_loggers (
)
{
// Create a logger that has the same name as our root logger logp. This isn't very useful in
// this example program but if you had loggers defined in other files then you might not have
// easy access to them when starting up your program and setting log levels. This mechanism
// allows you to manipulate the properties of any logger so long as you know its name.
logger temp_log("example");
// For this example I don't want to log debug messages so I'm setting the logging level of
// All our loggers to LINFO. Note that this statement sets all three of our loggers to this
// logging level because they are all children of temp_log.
temp_log.set_level(LINFO);
// In addition I only want the example.test_class to print LWARN or higher messages so I'm going
// to set that here too. Note that we set this value after calling temp_log.set_level(). If we
// did it the other way around the set_level() call on temp_log would set logc_temp.level() and
// logc.level() back to LINFO since temp_log is a parent of logc_temp.
logger logc_temp("example.test_class");
logc_temp.set_level(LWARN);
}
int main()
{
setup_loggers();
// print our first message. It will go to cout because that is the default.
logp << LINFO << "This is an informational message.";
int variable = 8;
// here is a debug message. it won't print though because its log level is too low (it is below LINFO).
logp << LDEBUG << "The integer variable is set to " << variable;
if (variable > 4)
logp << LWARN << "The variable is bigger than 4! Its value is " << variable;
logp << LINFO << "make two threads";
create_new_thread(thread,0);
create_new_thread(thread,0);
test mytest;
mytest.warning();
logp << LINFO << "we are going to sleep for half a second.";
// sleep for half a second
dlib::sleep(500);
logp << LINFO << "we just woke up";
logp << LINFO << "program ending";
// It is also worth pointing out that the logger messages are atomic. This means, for example, that
// in the above log statements that involve a string literal and a variable, no other thread can
// come in and print a log message in-between the literal string and the variable. This is good
// because it means your messages don't get corrupted. However, this also means that you shouldn't
// make any function calls inside a logging statement if those calls might try to log a message
// themselves since the atomic nature of the logger would cause your application to deadlock.
}