Block and resume without blocking the main loop.
#include <closure.hh>
Inherits shevek::refbase.
bool empty () const
Check if the closure is empty. void set_function (sigc::slot0< void > func, bool run=true, sigc::slot0< void > cb=sigc::slot0< void >())
Set running function on an empty closure. ~closure ()
Destructor. void wake ()
Continue running the closure.
static Glib::RefPtr< closure > create ()
Create a new closure. static void block ()
Sleep, returning control to the caller until awoken.
Block and resume without blocking the main loop.
Closures allow blocking and resuming the main loop. They are implemented with threads, which means that they don't work well with multi-threaded programs.
If a function wants to be able to block using a closure, it must be called using closure(). It (or any function it calls) can then suspend by calling closure::block(). It can be awoken again by calling closure::wake() on the closure object.
Sleep, returning control to the caller until awoken. This function puts the current closure to sleep. It will continue to run when awoken with wake(). It can also be destroyed. This function uses a global variable to know which is the current closure, so it can be called without an object, as closure::block (); .
Create a new closure. Create a new closure. It will be empty initially.
Check if the closure is empty. Check if the closure is empty. If it is, set_function() can be called.
Set running function on an empty closure. Set running function. The closure must be empty when this is called. When the function exits, the closure returns to the empty state, and the callback is called, if given.
Continue running the closure. Wake a closure. It is an error to wake a closure which isn't blocking (in particular also the currently running closure).
Generated automatically by Doxygen for libshevek from the source code.