-
Closed #148: When later was attached,
parallel::makeForkCluster()
would fail. (#149) -
Fixed #150: It was possible for callbacks to execute in the wrong order if the clock time was changed in between the scheduling of two callbacks. (#151)
-
Closed #138: later is now licensed as MIT. (#139)
-
Closed #140: Previously, the event loop stopped running if the R process was forked. (#141)
-
Closed #143: Packages which link to later no longer need to take a direct dependency on Rcpp, because
later.h
no longer includesRcpp.h
. (#144) -
Removed dependency on the BH package. C++11 is now required. (#147)
-
Private event loops are now automatically run by their parent. That is, whenever an event loop is run, its children event loops are automatically run. The
create_loop()
function has a new parameterparent
, which defaults to the current loop. The auto-running behavior can be disabled by usingcreate_loop(parent=NULL)
. (#119) -
Fixed #73, #109: Previously, later did not build on some platforms, notably ARM, because the
-latomic
linker was needed on those platforms. A configure script now detects when-latomic
is needed. (#114) -
Previously,
execLaterNative
was initialized when the package was loaded, but notexecLaterNative2
, resulting in a warning message in some cases. (#116)
- Added private event loops: these are event loops that can be run independently from the global event loop. These are useful when you have code that schedules callbacks with
later()
, and you want to callrun_now()
block and wait for those callbacks to execute before continuing. Without private event loops, if you callrun_now()
to wait until a particular callback has finished, you might inadvertantly run other callbacks that were scheduled by other code. With private event loops, you can create a private loop, schedule a callback on it, then callrun_now()
on that loop until it executes, all without interfering with the global loop. (#84)
-
Fixed issue #77: On some platforms, the system's C library has support for C11-style threads, but there is no
threads.h
header file. In this case, later's configure script tried to use the tinycthread, but upon linking, there were function name conflicts between tinycthread and the system's C library. Later no longer tries to use the system'sthreads.h
, and the functions in tinycthread were renamed so that they do not accidentally link to the system C library's C11-style thread functions. PR #79 -
Added
all
argument torun_now()
; defaults toTRUE
, but if set toFALSE
, thenrun_now
will run at most one later operation before returning. PR #75 -
Fixed issue #74: Using later with R at the terminal on POSIX could cause 100% CPU. This was caused by later accidentally provoking R to call its input handler continuously. PR #76
-
Fixed issue #73: Linking later on ARM failed because
boost::atomic
requires the-lboost_atomic
flag. Now later tries to usestd::atomic
when available (when the compiler supports C++11), and falls back toboost::atomic
if not. PR #80
- Fixed issue where the order of callbacks scheduled by native later::later could be nondeterministic if they are scheduled too quickly. This was because callbacks were sorted by the time at which they come due, which could be identical. Later now uses the order of insertion as a tiebreaker. PR #69
- Fixed issue #45 and #63: glibc 2.28 and musl (used on Arch and Alpine Linux) added support for C11-style threads.h, which masked functions from the tinycthread library used by later. Later now detects support for threads.h and uses it if available; otherwise it uses tinycthread. PR #64
- Fixed issue #57: If a user interrupt occurred when later (internally) called
sys.nframe()
, the R process would crash. PR #58
-
Fixed issue #48: Occasional timedwait errors from later::run_now. Thanks, @vnijs! PR #49
-
Fixed a build warning on OS X 10.11 and earlier. PR #54
-
Fixed issue #39: Calling the C++ function
later::later()
from a different thread could cause an R GC event to occur on that thread, leading to memory corruption. PR #40 -
Decrease latency of repeated top-level execution.
-
Fixed issue #22: GC events could cause an error message:
Error: unimplemented type 'integer' in 'coerceToInteger'
. PR #23 -
Fixed issues #25, #29, and #31: If errors occurred when callbacks were executed by R's input handler (as opposed to by
run_now()
), then they would not be properly handled by R and put the terminal in a problematic state. PR #33 -
Fixed issue #37: High CPU usage on Linux. PR #38
-
Fixed issue #36: Failure to build on OS X <=10.12 (thanks @mingwandroid). PR #21
-
Fix a hang on address sanitized (ASAN) builds of R. Issue #16, PR #17
-
The
run_now()
function now takes atimeoutSecs
argument. If no tasks are ready to run at the timerun_now(timeoutSecs)
is invoked, we will wait up totimeoutSecs
for one to become ready. The default value of0
meansrun_now()
will return immediately if no tasks are ready, which is the same behavior as in previous releases. PR #19 -
The
run_now()
function used to return only when it was unable to find any more tasks that were due. This means that if tasks were being scheduled at an interval faster than the tasks are executed,run_now()
would never return. This release changes that behavior so that a timestamp is taken asrun_now()
begins executing, and only tasks whose timestamps are earlier or equal to it are run. PR #18 -
Fix compilation errors on Solaris. Reported by Brian Ripley. PR #20
-
Fix a hang on Fedora 25+ which prevented the package from being installed successfully. Reported by @lepennec. Issue #7, PR #10
-
Fixed issue #12: When an exception occurred in a callback function, it would cause future callbacks to not execute. PR #13
-
Added
next_op_secs()
function to report the number of seconds before the next scheduled operation. PR #15
-
Add
loop_empty()
function, which returnsTRUE
if there are currently no callbacks that are scheduled to execute in the present or future. -
On POSIX platforms, fix an issue where socket connections hang when written to/read from while a later callback is scheduled. The fix required stopping the input handler from being called in several spurious situations: 1) when callbacks are already being run, 2) when R code is busy executing (we used to try as often as possible, now we space it out a bit), and 3) when all the scheduled callbacks are in the future. To accomplish this, we use a background thread that acts like a timer to poke the file descriptor whenever the input handler needs to be run--similar to what we already do for Windows. Issue #4
-
On all platforms, don't invoke callbacks if callbacks are already being invoked (unless explicitly requested by a caller to
run_now()
).
Initial release.