[4bae1ef] | 1 | # This program is public domain |
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| 2 | |
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| 3 | ## \file |
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| 4 | # \brief Abstract class for defining calculation threads. |
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| 5 | # |
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| 6 | |
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| 7 | import thread |
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| 8 | import traceback |
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| 9 | import sys |
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| 10 | |
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| 11 | if sys.platform.count("darwin") > 0: |
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| 12 | import time |
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| 13 | stime = time.time() |
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| 14 | |
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| 15 | def clock(): |
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| 16 | return time.time() - stime |
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| 17 | |
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| 18 | def sleep(t): |
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| 19 | return time.sleep(t) |
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| 20 | else: |
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| 21 | from time import clock |
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| 22 | from time import sleep |
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| 23 | |
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| 24 | |
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| 25 | class CalcThread: |
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| 26 | """Threaded calculation class. Inherit from here and specialize |
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| 27 | the compute() method to perform the appropriate operations for the |
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| 28 | class. |
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| 29 | |
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| 30 | If you specialize the __init__ method be sure to call |
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| 31 | CalcThread.__init__, passing it the keyword arguments for |
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| 32 | yieldtime, worktime, update and complete. |
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| 33 | |
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| 34 | When defining the compute() method you need to include code which |
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[51f14603] | 35 | allows the GUI to run. They are as follows: :: |
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| 36 | |
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| 37 | self.isquit() # call frequently to check for interrupts |
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| 38 | self.update(kw=...) # call when the GUI could be updated |
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| 39 | self.complete(kw=...) # call before exiting compute() |
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| 40 | |
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[4bae1ef] | 41 | The update() and complete() calls accept field=value keyword |
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| 42 | arguments which are passed to the called function. complete() |
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| 43 | should be called before exiting the GUI function. A KeyboardInterrupt |
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| 44 | event is triggered if the GUI signals that the computation should |
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| 45 | be halted. |
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| 46 | |
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| 47 | The following documentation should be included in the description |
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| 48 | of the derived class. |
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| 49 | |
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[51f14603] | 50 | The user of this class will call the following: :: |
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[4bae1ef] | 51 | |
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[51f14603] | 52 | thread = Work(...,kw=...) # prepare the work thread. |
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| 53 | thread.queue(...,kw=...) # queue a work unit |
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| 54 | thread.requeue(...,kw=...) # replace work unit on the end of queue |
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| 55 | thread.reset(...,kw=...) # reset the queue to the given work unit |
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| 56 | thread.stop() # clear the queue and halt |
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| 57 | thread.interrupt() # halt the current work unit but continue |
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| 58 | thread.ready(delay=0.) # request an update signal after delay |
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| 59 | thread.isrunning() # returns true if compute() is running |
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[4bae1ef] | 60 | |
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| 61 | Use queue() when all work must be done. Use requeue() when intermediate |
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| 62 | work items don't need to be done (e.g., in response to a mouse move |
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| 63 | event). Use reset() when the current item doesn't need to be completed |
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| 64 | before the new event (e.g., in response to a mouse release event). Use |
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| 65 | stop() to halt the current and pending computations (e.g., in response to |
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| 66 | a stop button). |
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[51f14603] | 67 | |
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[4bae1ef] | 68 | The methods queue(), requeue() and reset() are proxies for the compute() |
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| 69 | method in the subclass. Look there for a description of the arguments. |
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| 70 | The compute() method can be called directly to run the computation in |
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| 71 | the main thread, but it should not be called if isrunning() returns true. |
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| 72 | |
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| 73 | The constructor accepts additional keywords yieldtime=0.01 and |
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| 74 | worktime=0.01 which determine the cooperative multitasking |
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| 75 | behaviour. Yield time is the duration of the sleep period |
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| 76 | required to give other processes a chance to run. Work time |
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| 77 | is the duration between sleep periods. |
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| 78 | |
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| 79 | Notifying the GUI thread of work in progress and work complete |
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| 80 | is done with updatefn=updatefn and completefn=completefn arguments |
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| 81 | to the constructor. Details of the parameters to the functions |
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| 82 | depend on the particular calculation class, but they will all |
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| 83 | be passed as keyword arguments. Details of how the functions |
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| 84 | should be implemented vary from framework to framework. |
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| 85 | |
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[373d4ee] | 86 | For wx, something like the following is needed:: |
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[4bae1ef] | 87 | |
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| 88 | import wx, wx.lib.newevent |
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| 89 | (CalcCompleteEvent, EVT_CALC_COMPLETE) = wx.lib.newevent.NewEvent() |
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| 90 | |
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| 91 | # methods in the main window class of your application |
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| 92 | def __init__(): |
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| 93 | ... |
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| 94 | # Prepare the calculation in the GUI thread. |
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| 95 | self.work = Work(completefn=self.CalcComplete) |
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| 96 | self.Bind(EVT_CALC_COMPLETE, self.OnCalcComplete) |
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| 97 | ... |
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| 98 | # Bind work queue to a menu event. |
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| 99 | self.Bind(wx.EVT_MENU, self.OnCalcStart, id=idCALCSTART) |
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| 100 | ... |
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| 101 | |
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| 102 | def OnCalcStart(self,event): |
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| 103 | # Start the work thread from the GUI thread. |
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| 104 | self.work.queue(...work unit parameters...) |
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| 105 | |
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| 106 | def CalcComplete(self,**kwargs): |
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| 107 | # Generate CalcComplete event in the calculation thread. |
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| 108 | # kwargs contains field1, field2, etc. as defined by |
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| 109 | # the Work thread class. |
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| 110 | event = CalcCompleteEvent(**kwargs) |
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| 111 | wx.PostEvent(self, event) |
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| 112 | |
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| 113 | def OnCalcComplete(self,event): |
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| 114 | # Process CalcComplete event in GUI thread. |
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| 115 | # Use values from event.field1, event.field2 etc. as |
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| 116 | # defined by the Work thread class to show the results. |
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| 117 | ... |
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| 118 | """ |
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| 119 | |
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| 120 | def __init__(self, completefn=None, updatefn=None, |
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| 121 | yieldtime=0.01, worktime=0.01): |
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| 122 | """Prepare the calculator""" |
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| 123 | self.yieldtime = yieldtime |
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| 124 | self.worktime = worktime |
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| 125 | self.completefn = completefn |
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| 126 | self.updatefn = updatefn |
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| 127 | self._interrupting = False |
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| 128 | self._running = False |
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| 129 | self._queue = [] |
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| 130 | self._lock = thread.allocate_lock() |
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| 131 | self._delay = 1e6 |
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| 132 | |
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| 133 | def queue(self,*args,**kwargs): |
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| 134 | """Add a work unit to the end of the queue. See the compute() |
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| 135 | method for details of the arguments to the work unit.""" |
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| 136 | self._lock.acquire() |
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| 137 | self._queue.append((args, kwargs)) |
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| 138 | # Cannot do start_new_thread call within the lock |
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| 139 | self._lock.release() |
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| 140 | if not self._running: |
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| 141 | self._time_for_update = clock() + 1e6 |
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| 142 | thread.start_new_thread(self._run, ()) |
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| 143 | |
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| 144 | def requeue(self, *args, **kwargs): |
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| 145 | """Replace the work unit on the end of the queue. See the compute() |
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| 146 | method for details of the arguments to the work unit.""" |
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| 147 | self._lock.acquire() |
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| 148 | self._queue = self._queue[:-1] |
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| 149 | self._lock.release() |
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| 150 | self.queue(*args, **kwargs) |
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| 151 | |
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| 152 | def reset(self, *args, **kwargs): |
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| 153 | """Clear the queue and start a new work unit. See the compute() |
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| 154 | method for details of the arguments to the work unit.""" |
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| 155 | self.stop() |
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| 156 | self.queue(*args, **kwargs) |
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| 157 | |
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| 158 | def stop(self): |
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| 159 | """Clear the queue and stop the thread. New items may be |
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| 160 | queued after stop. To stop just the current work item, and |
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| 161 | continue the rest of the queue call the interrupt method""" |
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| 162 | self._lock.acquire() |
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| 163 | self._interrupting = True |
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| 164 | self._queue = [] |
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| 165 | self._lock.release() |
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| 166 | |
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| 167 | def interrupt(self): |
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| 168 | """Stop the current work item. To clear the work queue as |
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| 169 | well call the stop() method.""" |
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| 170 | self._lock.acquire() |
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| 171 | self._interrupting = True |
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| 172 | self._lock.release() |
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| 173 | |
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| 174 | def isrunning(self): |
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| 175 | return self._running |
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| 176 | |
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| 177 | def ready(self, delay=0.): |
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| 178 | """Ready for another update after delay=t seconds. Call |
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| 179 | this for threads which can show intermediate results from |
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| 180 | long calculations.""" |
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| 181 | self._delay = delay |
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| 182 | self._lock.acquire() |
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| 183 | self._time_for_update = clock() + delay |
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| 184 | # print "setting _time_for_update to ",self._time_for_update |
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| 185 | self._lock.release() |
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| 186 | |
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| 187 | def isquit(self): |
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| 188 | """Check for interrupts. Should be called frequently to |
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| 189 | provide user responsiveness. Also yields to other running |
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| 190 | threads, which is required for good performance on OS X.""" |
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| 191 | |
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| 192 | # Only called from within the running thread so no need to lock |
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| 193 | if self._running and self.yieldtime > 0 \ |
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| 194 | and clock() > self._time_for_nap: |
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| 195 | sleep(self.yieldtime) |
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| 196 | self._time_for_nap = clock() + self.worktime |
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| 197 | if self._interrupting: |
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| 198 | raise KeyboardInterrupt |
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| 199 | |
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| 200 | def update(self, **kwargs): |
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| 201 | |
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| 202 | """Update GUI with the lastest results from the current work unit.""" |
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| 203 | if self.updatefn != None and clock() > self._time_for_update: |
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| 204 | self._lock.acquire() |
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| 205 | self._time_for_update = clock() + self._delay |
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| 206 | self._lock.release() |
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| 207 | self._time_for_update += 1e6 # No more updates |
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| 208 | |
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| 209 | self.updatefn(**kwargs) |
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| 210 | sleep(self.yieldtime) |
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| 211 | if self._interrupting: |
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| 212 | raise KeyboardInterrupt |
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| 213 | else: |
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| 214 | self.isquit() |
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| 215 | return |
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| 216 | |
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| 217 | def complete(self, **kwargs): |
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| 218 | """Update the GUI with the completed results from a work unit.""" |
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| 219 | if self.completefn != None: |
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| 220 | self.completefn(**kwargs) |
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| 221 | sleep(self.yieldtime) |
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| 222 | return |
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| 223 | |
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| 224 | def compute(self, *args, **kwargs): |
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| 225 | """Perform a work unit. The subclass will provide details of |
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| 226 | the arguments.""" |
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| 227 | raise NotImplemented, "Calculation thread needs compute method" |
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| 228 | |
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| 229 | def _run(self): |
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| 230 | """Internal function to manage the thread.""" |
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| 231 | # The code for condition wait in the threading package is |
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| 232 | # implemented using polling. I'll accept for now that the |
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| 233 | # authors of this code are clever enough that polling is |
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| 234 | # difficult to avoid. Rather than polling, I will exit the |
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| 235 | # thread when the queue is empty and start a new thread when |
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| 236 | # there is more work to be done. |
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| 237 | while 1: |
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| 238 | self._lock.acquire() |
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| 239 | self._time_for_nap = clock() + self.worktime |
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| 240 | self._running = True |
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| 241 | if self._queue == []: |
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| 242 | break |
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| 243 | self._interrupting = False |
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| 244 | args, kwargs = self._queue[0] |
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| 245 | self._queue = self._queue[1:] |
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| 246 | self._lock.release() |
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| 247 | try: |
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| 248 | self.compute(*args, **kwargs) |
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| 249 | except KeyboardInterrupt: |
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| 250 | pass |
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| 251 | except: |
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| 252 | traceback.print_exc() |
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| 253 | #print 'CalcThread exception', |
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| 254 | self._running = False |
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| 255 | |
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| 256 | |
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| 257 | # ====================================================================== |
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| 258 | # Demonstration of calcthread in action |
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| 259 | class CalcDemo(CalcThread): |
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| 260 | """Example of a calculation thread.""" |
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| 261 | def compute(self, n): |
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| 262 | total = 0. |
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| 263 | for i in range(n): |
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| 264 | self.update(i=i) |
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| 265 | for j in range(n): |
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| 266 | self.isquit() |
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| 267 | total += j |
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| 268 | self.complete(total=total) |
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| 269 | |
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| 270 | |
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| 271 | class CalcCommandline: |
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| 272 | """ |
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| 273 | Test method |
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| 274 | """ |
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| 275 | def __init__(self, n=20000): |
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| 276 | print thread.get_ident() |
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| 277 | self.starttime = clock() |
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| 278 | self.done = False |
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| 279 | self.work = CalcDemo(completefn=self.complete, |
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| 280 | updatefn=self.update, yieldtime=0.001) |
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| 281 | self.work2 = CalcDemo(completefn=self.complete, |
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| 282 | updatefn=self.update) |
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| 283 | self.work3 = CalcDemo(completefn=self.complete, |
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| 284 | updatefn=self.update) |
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| 285 | self.work.queue(n) |
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| 286 | self.work2.queue(n) |
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| 287 | self.work3.queue(n) |
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| 288 | print "Expect updates from Main every second and from thread every 2.5 seconds" |
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| 289 | print "" |
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| 290 | self.work.ready(.5) |
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| 291 | while not self.done: |
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| 292 | sleep(1) |
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| 293 | print "Main thread %d at %.2f" % (thread.get_ident(), |
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| 294 | clock() - self.starttime) |
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| 295 | |
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| 296 | def update(self, i=0): |
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| 297 | print "Update i=%d from thread %d at %.2f" % (i, thread.get_ident(), |
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| 298 | clock() - self.starttime) |
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| 299 | self.work.ready(2.5) |
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| 300 | |
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| 301 | def complete(self, total=0.0): |
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| 302 | print "Complete total=%g from thread %d at %.2f" % (total, |
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| 303 | thread.get_ident(), |
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| 304 | clock() - self.starttime) |
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| 305 | self.done = True |
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