c++-gtk-utils
Functions
timeout

Functions

guint Cgu::start_timeout (guint millisec, const Callback::CallbackArg< bool & > *cb, gint priority=G_PRIORITY_DEFAULT, GMainContext *context=0)
 
guint Cgu::start_timeout (guint millisec, const Callback::CallbackArg< bool & > *cb, Releaser &r, gint priority=G_PRIORITY_DEFAULT, GMainContext *context=0)
 
template<class F , class = typename std::enable_if<!std::is_convertible<typename std::remove_reference<F>::type, const Callback::CallbackArg<bool&>*>::value>::type>
guint Cgu::start_timeout (guint millisec, F &&func, gint priority=G_PRIORITY_DEFAULT, GMainContext *context=0)
 
template<class F , class = typename std::enable_if<!std::is_convertible<typename std::remove_reference<F>::type, const Callback::CallbackArg<bool&>*>::value>::type>
guint Cgu::start_timeout (guint millisec, F &&func, Releaser &r, gint priority=G_PRIORITY_DEFAULT, GMainContext *context=0)
 
guint Cgu::start_timeout_seconds (guint sec, const Callback::CallbackArg< bool & > *cb, gint priority=G_PRIORITY_DEFAULT, GMainContext *context=0)
 
guint Cgu::start_timeout_seconds (guint sec, const Callback::CallbackArg< bool & > *cb, Releaser &r, gint priority=G_PRIORITY_DEFAULT, GMainContext *context=0)
 
template<class F , class = typename std::enable_if<!std::is_convertible<typename std::remove_reference<F>::type, const Callback::CallbackArg<bool&>*>::value>::type>
guint Cgu::start_timeout_seconds (guint sec, F &&func, gint priority=G_PRIORITY_DEFAULT, GMainContext *context=0)
 
template<class F , class = typename std::enable_if<!std::is_convertible<typename std::remove_reference<F>::type, const Callback::CallbackArg<bool&>*>::value>::type>
guint Cgu::start_timeout_seconds (guint sec, F &&func, Releaser &r, gint priority=G_PRIORITY_DEFAULT, GMainContext *context=0)
 

Detailed Description

#include <c++-gtk-utils/timeout.h>

The start_timeout() function connects a timeout to an event loop owned by a GMainContext object (normally the main program loop). By so doing, it provides a convenient way of attaching the callback for the timeout, and also provides for automatic disconnection when an object whose function the callback represents is destroyed. The timeout will keep executing the callback at the intervals set in start_timeout() until it is terminated in one of the ways mentioned below.

The simplest way to use the start_timeout() function is to pass it a callable object, such as a lambda expression or the return value of std::bind. The callable object should take a single unbound bool& argument. If it is set by the callable object to false, then the timeout calls will be ended and all resources connected with it deleted without further user action being required (there is no need for the connected function to set it to true if timeout execution is to continue, as that is the default).

Other overloads of start_iowatch() take the more explicitly typed Callback::CallbackArg<bool&> callback object (as constructed with Callback::lambda(), Callback::make() or Callback::make_ref()).

All of the start_iowatch() overloads have an option to take a Callback::Releaser object as their third argument, which provides for automatic termination of the execution of the callback at the specified interval if the target object which has the Releaser as a member is destroyed. (Note that for this to be race free, the lifetime of the remote target object whose method is to be invoked must be determined by the thread to whose main loop the timeout has been attached. When the main loop begins invoking the execution of the timeout callback, the remote object must either wholly exist, in which case the callback will be invoked, or have been destroyed, in which case the callback will be ignored, and not be in some transient half-state governed by another thread.)

start_timeout() is thread-safe (it may be called in any thread) provided that, if glib < 2.32 is used, the glib main loop has been made thread-safe by a call to g_thread_init(). glib >= 2.32 does not require g_thread_init() to be called in order to be thread-safe.

As mentioned above, the connected callback passed to start_timeout() has an unbound bool& argument. The timeout calls will be ended if that argument is set by the connected callback to false. In addition, the timeout will be ended automatically and resources deleted if (i) as mentioned above, the callback passed to start_timeout() is protected by a Releaser object and the target object having the Releaser as a member is destroyed, or (ii) g_source_remove() is called on the source id returned by start_timeout() (where the timeout is attached to the default main context) or g_source_destroy() is called on the GSource object obtained from that id with g_main_context_find_source_by_id() (where the timeout has been attached to a non-default main context). If the source has been removed automatically by virtue of the bool& argument being set to false or by virtue of a Releaser object releasing, g_source_remove() or g_source_destroy() should not afterwards be called in respect of the id value returned by start_timeout() in case it has been reused by the main context concerned in the meantime.

The start_timeout_seconds() functions do the same as their start_timeout() counterparts, except that they use the larger granularity glib timeout-seconds main loop event sources (and take seconds and not milliseconds as their timeout argument). The idea behind the glib timeout-seconds sources is to group long timeout events which do not have critical timing resolution requirements so that they are aligned together with one second granularity. This minimises the number of processor wake-ups required to handle such events, thereby helping power efficiency. These functions are to be preferred for long timeouts where one second granularity is acceptable. These larger granularity functions are only compiled into the library if glib >= 2.14 is installed.

Function Documentation

◆ start_timeout() [1/4]

guint Cgu::start_timeout ( guint  millisec,
const Callback::CallbackArg< bool & > *  cb,
gint  priority = G_PRIORITY_DEFAULT,
GMainContext *  context = 0 
)

Starts a timeout in the glib main loop, and executes the callback when the timeout expires. It is thread-safe (it may be called in any thread) provided that, if glib < 2.32 is used, g_thread_init() has been called. glib >= 2.32 does not require g_thread_init() to be called to be thread-safe. This function will not throw.

Parameters
millisecThe interval of the timeout, in milliseconds.
cbThe callback object. Ownership is taken of this object, and it will be deleted when it has been finished with.
priorityThe priority to be given to the timeout in the main loop. In ascending order of priorities, priorities are G_PRIORITY_LOW, G_PRIORITY_DEFAULT_IDLE, G_PRIORITY_HIGH_IDLE, G_PRIORITY_DEFAULT and G_PRIORITY_HIGH. The default is G_PRIORITY_DEFAULT. This determines the order in which the callback will appear in the event list in the main loop, not the priority which the OS will adopt
contextThe glib main context to which the timeout is to be attached (the default of NULL will cause the timeout to be attached to the main program loop, and this is almost always what is wanted).
Returns
The glib source id of the timeout.
Note
1. Cancellation of the thread to which the timeout is attached is blocked during execution of the callback.
2. If the callback throws an exception, the exception will be consumed to protect the main loop and a g_critical() warning will be issued.

◆ start_timeout() [2/4]

guint Cgu::start_timeout ( guint  millisec,
const Callback::CallbackArg< bool & > *  cb,
Releaser r,
gint  priority = G_PRIORITY_DEFAULT,
GMainContext *  context = 0 
)

Starts a timeout in the glib main loop, and executes the callback when the timeout expires. This version provides for automatic timeout disconnection when the object whose function the callback represents is destroyed, via the Releaser object. It is thread-safe (it may be called in any thread) provided that, if glib < 2.32 is used, g_thread_init() has been called. glib >= 2.32 does not require g_thread_init() to be called to be thread-safe.

Parameters
millisecThe interval of the timeout, in milliseconds.
cbThe callback object. Ownership is taken of this object, and it will be deleted when it has been finished with.
rA Releaser object which the protected object has as a public member.
priorityThe priority to be given to the timeout in the main loop. In ascending order of priorities, priorities are G_PRIORITY_LOW, G_PRIORITY_DEFAULT_IDLE, G_PRIORITY_HIGH_IDLE, G_PRIORITY_DEFAULT and G_PRIORITY_HIGH. The default is G_PRIORITY_DEFAULT. This determines the order in which the callback will appear in the event list in the main loop, not the priority which the OS will adopt
contextThe glib main context to which the timeout is to be attached (the default of NULL will cause the timeout to be attached to the main program loop, and this is almost always what is wanted).
Returns
The glib source id of the timeout.
Exceptions
std::bad_allocThis function might throw std::bad_alloc if memory is exhausted and the system throws in that case. If it does so, the CallbackArg object will be disposed of.
Cgu::Thread::MutexErrorThis function might throw Cgu:Thread::MutexError if initialisation of the mutex in a SafeEmitterArg object constructed by this function fails. If it does so, the CallbackArg object will be disposed of. (It is often not worth checking for this exception, as it means either memory is exhausted or pthread has run out of other resources to create new mutexes.)
Note
1. Cancellation of the thread to which the timeout is attached is blocked during execution of the callback.
2. If the callback throws an exception, the exception will be consumed to protect the main loop and a g_critical() warning will be issued.
3. By virtue of the Releaser object, it is in theory possible (if memory is exhausted and the system throws in that case) that an internal SafeEmitterArg object will throw std::bad_alloc when emitting/executing the timeout callback in the glib main loop, with the result that the relevant callback will not execute (instead the exception will be consumed and a g_critical() warning will be issued) and thus will be delayed until expiry of the next timeout interval. This is rarely of any relevance because glib will abort the program if it is itself unable to obtain memory from the operating system. However, where it is relevant, design the program so that it is not necessary to provide a releaser object.

◆ start_timeout() [3/4]

template<class F , class = typename std::enable_if<!std::is_convertible<typename std::remove_reference<F>::type, const Callback::CallbackArg<bool&>*>::value>::type>
guint Cgu::start_timeout ( guint  millisec,
F &&  func,
gint  priority = G_PRIORITY_DEFAULT,
GMainContext *  context = 0 
)

Starts a timeout in the glib main loop, and executes a callable object when the timeout expires. It is thread-safe (it may be called in any thread) provided that, if glib < 2.32 is used, g_thread_init() has been called. glib >= 2.32 does not require g_thread_init() to be called to be thread-safe.

Parameters
millisecThe interval of the timeout, in milliseconds.
funcA callable object, such as formed by a lambda expression or the result of std::bind. It should take an unbound bool& argument.
priorityThe priority to be given to the timeout in the main loop. In ascending order of priorities, priorities are G_PRIORITY_LOW, G_PRIORITY_DEFAULT_IDLE, G_PRIORITY_HIGH_IDLE, G_PRIORITY_DEFAULT and G_PRIORITY_HIGH. The default is G_PRIORITY_DEFAULT. This determines the order in which the callback will appear in the event list in the main loop, not the priority which the OS will adopt
contextThe glib main context to which the timeout is to be attached (the default of NULL will cause the timeout to be attached to the main program loop, and this is almost always what is wanted).
Returns
The glib source id of the timeout.
Exceptions
std::bad_allocThis function might throw std::bad_alloc if memory is exhausted and the system throws in that case (this exception will not be thrown if the library has been installed using the --with-glib-memory-slices-no-compat configuration option: instead glib will terminate the program if it is unable to obtain memory from the operating system).
Note
1. This function may also throw if the copy or move constructor of the callable object throws.
2. Cancellation of the thread to which the timeout is attached is blocked during execution of the callback.
3. If the callback throws an exception, the exception will be consumed to protect the main loop and a g_critical() warning will be issued.

Since 2.1.0

◆ start_timeout() [4/4]

template<class F , class = typename std::enable_if<!std::is_convertible<typename std::remove_reference<F>::type, const Callback::CallbackArg<bool&>*>::value>::type>
guint Cgu::start_timeout ( guint  millisec,
F &&  func,
Releaser r,
gint  priority = G_PRIORITY_DEFAULT,
GMainContext *  context = 0 
)

Starts a timeout in the glib main loop, and executes a callable object when the timeout expires. This version provides for automatic timeout disconnection when an object whose function the callback represents or calls into is destroyed, via the Releaser object. It is thread-safe (it may be called in any thread) provided that, if glib < 2.32 is used, g_thread_init() has been called. glib >= 2.32 does not require g_thread_init() to be called to be thread-safe.

Parameters
millisecThe interval of the timeout, in milliseconds.
funcA callable object, such as formed by a lambda expression or the result of std::bind. It should take an unbound bool& argument.
rA Releaser object which the protected object has as a public member.
priorityThe priority to be given to the timeout in the main loop. In ascending order of priorities, priorities are G_PRIORITY_LOW, G_PRIORITY_DEFAULT_IDLE, G_PRIORITY_HIGH_IDLE, G_PRIORITY_DEFAULT and G_PRIORITY_HIGH. The default is G_PRIORITY_DEFAULT. This determines the order in which the callback will appear in the event list in the main loop, not the priority which the OS will adopt
contextThe glib main context to which the timeout is to be attached (the default of NULL will cause the timeout to be attached to the main program loop, and this is almost always what is wanted).
Returns
The glib source id of the timeout.
Exceptions
std::bad_allocThis function might throw std::bad_alloc if memory is exhausted and the system throws in that case.
Cgu::Thread::MutexErrorThis function might throw Cgu:Thread::MutexError if initialisation of the mutex in a SafeEmitterArg object constructed by this function fails. (It is often not worth checking for this exception, as it means either memory is exhausted or pthread has run out of other resources to create new mutexes.)
Note
1. This function may also throw if the copy or move constructor of the callable object throws.
2. Cancellation of the thread to which the timeout is attached is blocked during execution of the callback.
3. If the callback throws an exception, the exception will be consumed to protect the main loop and a g_critical() warning will be issued.
4. By virtue of the Releaser object, it is in theory possible (if memory is exhausted and the system throws in that case) that an internal SafeEmitterArg object will throw std::bad_alloc when emitting/executing the timeout callback in the glib main loop, with the result that the relevant callback will not execute (instead the exception will be consumed and a g_critical() warning will be issued) and thus will be delayed until expiry of the next timeout interval. This is rarely of any relevance because glib will abort the program if it is itself unable to obtain memory from the operating system. However, where it is relevant, design the program so that it is not necessary to provide a releaser object.

Since 2.1.0

◆ start_timeout_seconds() [1/4]

guint Cgu::start_timeout_seconds ( guint  sec,
const Callback::CallbackArg< bool & > *  cb,
gint  priority = G_PRIORITY_DEFAULT,
GMainContext *  context = 0 
)

Starts a timeout in the glib main loop using the higher granularity glib timeout-seconds event sources, and executes the callback when the timeout expires. It is thread-safe (it may be called in any thread) provided that, if glib < 2.32 is used, g_thread_init() has been called. glib >= 2.32 does not require g_thread_init() to be called to be thread-safe. This function will not throw.

Parameters
secThe interval of the timeout, in seconds.
cbThe callback object. Ownership is taken of this object, and it will be deleted when it has been finished with.
priorityThe priority to be given to the timeout in the main loop. In ascending order of priorities, priorities are G_PRIORITY_LOW, G_PRIORITY_DEFAULT_IDLE, G_PRIORITY_HIGH_IDLE, G_PRIORITY_DEFAULT and G_PRIORITY_HIGH. The default is G_PRIORITY_DEFAULT. This determines the order in which the callback will appear in the event list in the main loop, not the priority which the OS will adopt
contextThe glib main context to which the timeout is to be attached (the default of NULL will cause the timeout to be attached to the main program loop, and this is almost always what is wanted).
Returns
The glib source id of the timeout.
Note
1. Cancellation of the thread to which the timeout is attached is blocked during execution of the callback.
2. If the callback throws an exception, the exception will be consumed to protect the main loop and a g_critical() warning will be issued.
3. This function is only compiled into the library if glib >= 2.14 is installed.

◆ start_timeout_seconds() [2/4]

guint Cgu::start_timeout_seconds ( guint  sec,
const Callback::CallbackArg< bool & > *  cb,
Releaser r,
gint  priority = G_PRIORITY_DEFAULT,
GMainContext *  context = 0 
)

Starts a timeout in the glib main loop using the higher granularity glib timeout-seconds event sources, and executes the callback when the timeout expires. This version provides for automatic timeout disconnection when the object whose function the callback represents is destroyed, via the Releaser object. It is thread-safe (it may be called in any thread) provided that, if glib < 2.32 is used, g_thread_init() has been called. glib >= 2.32 does not require g_thread_init() to be called to be thread-safe.

Parameters
secThe interval of the timeout, in seconds.
cbThe callback object. Ownership is taken of this object, and it will be deleted when it has been finished with.
rA Releaser object which the protected object has as a public member.
priorityThe priority to be given to the timeout in the main loop. In ascending order of priorities, priorities are G_PRIORITY_LOW, G_PRIORITY_DEFAULT_IDLE, G_PRIORITY_HIGH_IDLE, G_PRIORITY_DEFAULT and G_PRIORITY_HIGH. The default is G_PRIORITY_DEFAULT. This determines the order in which the callback will appear in the event list in the main loop, not the priority which the OS will adopt
contextThe glib main context to which the timeout is to be attached (the default of NULL will cause the timeout to be attached to the main program loop, and this is almost always what is wanted).
Returns
The glib source id of the timeout.
Exceptions
std::bad_allocThis function might throw std::bad_alloc if memory is exhausted and the system throws in that case. If it does so, the CallbackArg object will be disposed of.
Cgu::Thread::MutexErrorThis function might throw Cgu:Thread::MutexError if initialisation of the mutex in a SafeEmitterArg object constructed by this function fails. If it does so, the CallbackArg object will be disposed of. (It is often not worth checking for this exception, as it means either memory is exhausted or pthread has run out of other resources to create new mutexes.)
Note
1. Cancellation of the thread to which the timeout is attached is blocked during execution of the callback.
2. If the callback throws an exception, the exception will be consumed to protect the main loop and a g_critical() warning will be issued.
3. This function is only compiled into the library if glib >= 2.14 is installed.
4. By virtue of the Releaser object, it is in theory possible (if memory is exhausted and the system throws in that case) that an internal SafeEmitterArg object will throw std::bad_alloc when emitting/executing the timeout callback in the glib main loop, with the result that the relevant callback will not execute (instead the exception will be consumed and a g_critical() warning will be issued) and thus will be delayed until expiry of the next timeout interval. This is rarely of any relevance because glib will abort the program if it is itself unable to obtain memory from the operating system. However, where it is relevant, design the program so that it is not necessary to provide a releaser object.

◆ start_timeout_seconds() [3/4]

template<class F , class = typename std::enable_if<!std::is_convertible<typename std::remove_reference<F>::type, const Callback::CallbackArg<bool&>*>::value>::type>
guint Cgu::start_timeout_seconds ( guint  sec,
F &&  func,
gint  priority = G_PRIORITY_DEFAULT,
GMainContext *  context = 0 
)

Starts a timeout in the glib main loop using the higher granularity glib timeout-seconds event sources, and executes a callable object when the timeout expires. It is thread-safe (it may be called in any thread) provided that, if glib < 2.32 is used, g_thread_init() has been called. glib >= 2.32 does not require g_thread_init() to be called to be thread-safe.

Parameters
secThe interval of the timeout, in seconds.
funcA callable object, such as formed by a lambda expression or the result of std::bind. It should take an unbound bool& argument.
priorityThe priority to be given to the timeout in the main loop. In ascending order of priorities, priorities are G_PRIORITY_LOW, G_PRIORITY_DEFAULT_IDLE, G_PRIORITY_HIGH_IDLE, G_PRIORITY_DEFAULT and G_PRIORITY_HIGH. The default is G_PRIORITY_DEFAULT. This determines the order in which the callback will appear in the event list in the main loop, not the priority which the OS will adopt
contextThe glib main context to which the timeout is to be attached (the default of NULL will cause the timeout to be attached to the main program loop, and this is almost always what is wanted).
Returns
The glib source id of the timeout.
Exceptions
std::bad_allocThis function might throw std::bad_alloc if memory is exhausted and the system throws in that case (this exception will not be thrown if the library has been installed using the --with-glib-memory-slices-no-compat configuration option: instead glib will terminate the program if it is unable to obtain memory from the operating system).
Note
1. This function may also throw if the copy or move constructor of the callable object throws.
2. Cancellation of the thread to which the timeout is attached is blocked during execution of the callback.
3. If the callback throws an exception, the exception will be consumed to protect the main loop and a g_critical() warning will be issued.
4. This function is only compiled into the library if glib >= 2.14 is installed.

Since 2.1.0

◆ start_timeout_seconds() [4/4]

template<class F , class = typename std::enable_if<!std::is_convertible<typename std::remove_reference<F>::type, const Callback::CallbackArg<bool&>*>::value>::type>
guint Cgu::start_timeout_seconds ( guint  sec,
F &&  func,
Releaser r,
gint  priority = G_PRIORITY_DEFAULT,
GMainContext *  context = 0 
)

Starts a timeout in the glib main loop using the higher granularity glib timeout-seconds event sources, and executes a callback object when the timeout expires. This version provides for automatic timeout disconnection when an object whose function the callback represents or calls into is destroyed, via the Releaser object. It is thread-safe (it may be called in any thread) provided that, if glib < 2.32 is used, g_thread_init() has been called. glib >= 2.32 does not require g_thread_init() to be called to be thread-safe.

Parameters
secThe interval of the timeout, in seconds.
funcA callable object, such as formed by a lambda expression or the result of std::bind. It should take an unbound bool& argument.
rA Releaser object which the protected object has as a public member.
priorityThe priority to be given to the timeout in the main loop. In ascending order of priorities, priorities are G_PRIORITY_LOW, G_PRIORITY_DEFAULT_IDLE, G_PRIORITY_HIGH_IDLE, G_PRIORITY_DEFAULT and G_PRIORITY_HIGH. The default is G_PRIORITY_DEFAULT. This determines the order in which the callback will appear in the event list in the main loop, not the priority which the OS will adopt
contextThe glib main context to which the timeout is to be attached (the default of NULL will cause the timeout to be attached to the main program loop, and this is almost always what is wanted).
Returns
The glib source id of the timeout.
Exceptions
std::bad_allocThis function might throw std::bad_alloc if memory is exhausted and the system throws in that case.
Cgu::Thread::MutexErrorThis function might throw Cgu:Thread::MutexError if initialisation of the mutex in a SafeEmitterArg object constructed by this function fails. (It is often not worth checking for this exception, as it means either memory is exhausted or pthread has run out of other resources to create new mutexes.)
Note
1. This function may also throw if the copy or move constructor of the callable object throws.
2. Cancellation of the thread to which the timeout is attached is blocked during execution of the callback.
3. If the callback throws an exception, the exception will be consumed to protect the main loop and a g_critical() warning will be issued.
4. This function is only compiled into the library if glib >= 2.14 is installed.
5. By virtue of the Releaser object, it is in theory possible (if memory is exhausted and the system throws in that case) that an internal SafeEmitterArg object will throw std::bad_alloc when emitting/executing the timeout callback in the glib main loop, with the result that the relevant callback will not execute (instead the exception will be consumed and a g_critical() warning will be issued) and thus will be delayed until expiry of the next timeout interval. This is rarely of any relevance because glib will abort the program if it is itself unable to obtain memory from the operating system. However, where it is relevant, design the program so that it is not necessary to provide a releaser object.

Since 2.1.0