upstream/ipython Files · IPython/terminal/pt_inputhooks/pyglet.py

Reduce the number of test on Appveyor....

Reduce the number of test on Appveyor. Appveyor is way slower than Travis, in part because we test on more architecture. In particular 32 and 64 bits. And accumulate delay sometime leading to 30 min between travis success and AppVeyor response. 32 Bits OSes are starting to be rare (or not our target, like tablets). Less that 1/5 market share is some survey, and account for more than 2/3 of our testing time. So slash 3 out of 4 testing on 32 bits. Test only python 3.6 32 bits. (I know that's paradoxal are mostly old system are 32 bits... but do we expect people with old system and old python to use new IPython ?) For example: Windows Arch Share Windows 10 64 bit 36.97% Windows 7 64 bit 32.99% Windows 8.1 64 bit 12.93% Windows 8 64 bit 1.64% Windows Vista 64 bit 0.13% Windows 7 32 bit 6.97% Windows XP 32 bit 2.00% Windows 10 32 bit 1.31% Windows 8.1 32 bit 0.34% Windows Vista 32 bit 0.24% Windows 8 32 bit 0.15% Total about 83ish % of 64 bits. Source: http://www.digitaltrends.com/computing/steam-users-windows-10-market-share/ and http://store.steampowered.com/hwsurvey?platform=pc

Paul Ivanov - - Load All Authors

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      """Enable pyglet to be used interacively with prompt_toolkit

      """

      import os

      import sys

      import time

      from timeit import default_timer as clock

      import pyglet

      # On linux only, window.flip() has a bug that causes an AttributeError on

      # window close.  For details, see:

      # http://groups.google.com/group/pyglet-users/browse_thread/thread/47c1aab9aa4a3d23/c22f9e819826799e?#c22f9e819826799e

      if sys.platform.startswith('linux'):

          def flip(window):

              try:

                  window.flip()

              except AttributeError:

                  pass

      else:

          def flip(window):

              window.flip()

      def inputhook(context):

          """Run the pyglet event loop by processing pending events only.

          This keeps processing pending events until stdin is ready.  After

          processing all pending events, a call to time.sleep is inserted.  This is

          needed, otherwise, CPU usage is at 100%.  This sleep time should be tuned

          though for best performance.

          """

          # We need to protect against a user pressing Control-C when IPython is

          # idle and this is running. We trap KeyboardInterrupt and pass.

          try:

              t = clock()

              while not context.input_is_ready():

                  pyglet.clock.tick()

                  for window in pyglet.app.windows:

                      window.switch_to()

                      window.dispatch_events()

                      window.dispatch_event('on_draw')

                      flip(window)

                  # We need to sleep at this point to keep the idle CPU load

                  # low.  However, if sleep to long, GUI response is poor.  As

                  # a compromise, we watch how often GUI events are being processed

                  # and switch between a short and long sleep time.  Here are some

                  # stats useful in helping to tune this.

                  # time    CPU load

                  # 0.001   13%

                  # 0.005   3%

                  # 0.01    1.5%

                  # 0.05    0.5%

                  used_time = clock() - t

                  if used_time > 10.0:

                      # print 'Sleep for 1 s'  # dbg

                      time.sleep(1.0)

                  elif used_time > 0.1:

                      # Few GUI events coming in, so we can sleep longer

                      # print 'Sleep for 0.05 s'  # dbg

                      time.sleep(0.05)

                  else:

                      # Many GUI events coming in, so sleep only very little

                      time.sleep(0.001)

          except KeyboardInterrupt:

              pass

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				"""Enable pyglet to be used interacively with prompt_toolkit
				"""

				import os
				import sys
				import time
				from timeit import default_timer as clock
				import pyglet

				# On linux only, window.flip() has a bug that causes an AttributeError on
				# window close. For details, see:
				# http://groups.google.com/group/pyglet-users/browse_thread/thread/47c1aab9aa4a3d23/c22f9e819826799e?#c22f9e819826799e

				if sys.platform.startswith('linux'):
				def flip(window):
				try:
				window.flip()
				except AttributeError:
				pass
				else:
				def flip(window):
				window.flip()


				def inputhook(context):
				"""Run the pyglet event loop by processing pending events only.

				This keeps processing pending events until stdin is ready. After
				processing all pending events, a call to time.sleep is inserted. This is
				needed, otherwise, CPU usage is at 100%. This sleep time should be tuned
				though for best performance.
				"""
				# We need to protect against a user pressing Control-C when IPython is
				# idle and this is running. We trap KeyboardInterrupt and pass.
				try:
				t = clock()
				while not context.input_is_ready():
				pyglet.clock.tick()
				for window in pyglet.app.windows:
				window.switch_to()
				window.dispatch_events()
				window.dispatch_event('on_draw')
				flip(window)

				# We need to sleep at this point to keep the idle CPU load
				# low. However, if sleep to long, GUI response is poor. As
				# a compromise, we watch how often GUI events are being processed
				# and switch between a short and long sleep time. Here are some
				# stats useful in helping to tune this.
				# time CPU load
				# 0.001 13%
				# 0.005 3%
				# 0.01 1.5%
				# 0.05 0.5%
				used_time = clock() - t
				if used_time > 10.0:
				# print 'Sleep for 1 s' # dbg
				time.sleep(1.0)
				elif used_time > 0.1:
				# Few GUI events coming in, so we can sleep longer
				# print 'Sleep for 0.05 s' # dbg
				time.sleep(0.05)
				else:
				# Many GUI events coming in, so sleep only very little
				time.sleep(0.001)
				except KeyboardInterrupt:
				pass