moo/stix/kernel/Process.st
2016-02-29 15:27:10 +00:00

163 lines
2.1 KiB
Smalltalk

#class Delay(Object)
{
## TODO: support milliseconds or nanoseconds
#dcl delay.
#method(#class) forSeconds: anInteger
{
^super basicNew initWith: anInteger.
}
#method initWith: anInteger
{
self.delay := anInteger.
}
#method wait
{
Processor sleep: self.delay.
}
#method resume
{
" TODO: .............. "
}
}
#class(#pointer) Process(Object)
{
#dcl initial_context current_context state prev next sp sem_next.
#method new
{
"instantiation is not allowed"
^nil. "TODO: raise an exception"
}
#method prev
{
^self.prev.
}
#method next
{
^self.next.
}
#method next: aProcess
{
self.next := aProcess.
}
#method prev: aProcess
{
self.prev := aProcess.
}
#method resume
{
<primitive: #_process_resume>
self primitiveFailed
##^Processor resume: self.
}
#method terminate
{
<primitive: #_process_terminate>
self primitiveFailed
}
#method yield
{
<primitive: #_process_yield>
self primitiveFailed
}
#method sp
{
^sp.
}
}
#class Semaphore(Object)
{
#dcl count waiting_head waiting_tail.
#method initialize
{
count := 0.
}
#method signal
{
<primitive: #_semaphore_signal>
self primitiveFailed.
}
#method wait
{
<primitive: #_semaphore_wait>
self primitiveFailed.
}
}
#class ProcessScheduler(Object)
{
#dcl tally active runnable.
#method new
{
"instantiation is not allowed"
^nil. "TODO: raise an exception"
}
#method activeProcess
{
^self.active.
}
#method sleep: anInteger
{
<primitive: #_processor_sleep>
self primitiveFailed.
}
#method resume: aProcess
{
<primitive: #_processor_schedule>
self primitiveFailed.
"The primitive does something like the following in principle:
(self.tally = 0)
ifTrue: [
self.head := aProcess.
self.tail := aProcess.
self.tally := 1.
]
ifFalse: [
aProcess next: self.head.
self.head prev: aProcess.
self.head := aProcess.
self.tally := self.tally + 1.
].
"
}
#method remove: aProcess
{
"<primitive: #_processor_remove>"
"TODO: "
}
"
#method yield
{
<primitive: #_processor_yield>
self primitiveFailed
}
"
}