From e3097b3b101ab95e56c253d30107cf9cb72fad57 Mon Sep 17 00:00:00 2001 From: Mattias Andrée Date: Mon, 16 Mar 2015 19:41:39 +0100 Subject: derp MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Signed-off-by: Mattias Andrée --- examples/tricks/anytzclock | 78 ++++++++++++++++++++++++++++++++++++++++ examples/tricks/anytzclock.py | 78 ---------------------------------------- examples/tricks/localutcclock | 64 +++++++++++++++++++++++++++++++++ examples/tricks/localutcclock.py | 64 --------------------------------- 4 files changed, 142 insertions(+), 142 deletions(-) create mode 100644 examples/tricks/anytzclock delete mode 100644 examples/tricks/anytzclock.py create mode 100644 examples/tricks/localutcclock delete mode 100644 examples/tricks/localutcclock.py diff --git a/examples/tricks/anytzclock b/examples/tricks/anytzclock new file mode 100644 index 0000000..9ae2b05 --- /dev/null +++ b/examples/tricks/anytzclock @@ -0,0 +1,78 @@ +# -*- python -*- + +# A xpybar configuration example that demonstrates how you can +# write a configuration that lets you change the clock between +# any timezone you want using the keyboard or terminal. + +# This example requires the package python-posix_ipc, and the +# example command requires the package cmdipc. + +# Caveat: This example is only written to support local displays. +# If the host part of $DISPLAY contains a dot, this example will +# not work as expected. + +# Caveat: The IPC objects are not cleaned up on exit. +# After exiting you may want to run +# cmdipc -PQrk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" + +# To switch between UTC and localtime run the command +# cmdipc -PQk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" send -- tz ${THE_TIMEZONE_YOU_WANT} +# You may want to add an executable file in your ~/.local/bin +# (which should you include in your $PATH) containing the code +# #!/bin/sh +# exec cmdipc -PQk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" send -- tz "$@" +# You can then add a hotkey to xbindkeys running that command +# with a timezone as a argument, or run it in the terminal. +# If the timezone is omitted, local time is used. + +import time +import threading + +from plugins.clock import Clock +from plugins.tzclock import TZClock + + +OUTPUT, HEIGHT, YPOS, TOP = 0, 12, 24, True + + +time_format = '%Y-(%m)%b-%d %T, %a w%V, %Z' + +local_clock = Clock(format = time_format, sync_to = Clock.SECONDS) +my_clock = local_clock + + +def mqueue_wait(): + import posix_ipc + global my_clock + qkey = '/~%s.xpybar.%s' % (os.environ['USER'], os.environ['DISPLAY'].split('.')[0]) + q = posix_ipc.MessageQueue(qkey, posix_ipc.O_CREAT, 0o600, 8, 128) + while True: + message = q.receive(None)[0].decode('utf-8', 'replace').split(' ') + if message[0] == 'tz': + old_clock = my_clock + tz = '/'.join(message[1:]) + try: + my_clock = local_clock if tz == '' else TZClock(timezone = tz, format = time_format) + except: + try: + my_clock = local_clock if tz == '' else TZClock(timezone = tz.upper(), format = time_format) + except: + print('%s: unknown typezone: %s' % (sys.argv[0], tz), file = sys.stderr) + continue + if old_clock is not local_clock: + del old_clock + bar.invalidate() # Optional, just to force redrawing before the next second + + +start_ = start +def start(): + start_() + async(mqueue_wait) + async(lambda : local_clock.continuous_sync(lambda : bar.invalidate())) + + +def redraw(): + text = '%s' % my_clock.read() + bar.clear() + bar.draw_coloured_text(0, 10, 0, 2, text) + diff --git a/examples/tricks/anytzclock.py b/examples/tricks/anytzclock.py deleted file mode 100644 index 9ae2b05..0000000 --- a/examples/tricks/anytzclock.py +++ /dev/null @@ -1,78 +0,0 @@ -# -*- python -*- - -# A xpybar configuration example that demonstrates how you can -# write a configuration that lets you change the clock between -# any timezone you want using the keyboard or terminal. - -# This example requires the package python-posix_ipc, and the -# example command requires the package cmdipc. - -# Caveat: This example is only written to support local displays. -# If the host part of $DISPLAY contains a dot, this example will -# not work as expected. - -# Caveat: The IPC objects are not cleaned up on exit. -# After exiting you may want to run -# cmdipc -PQrk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" - -# To switch between UTC and localtime run the command -# cmdipc -PQk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" send -- tz ${THE_TIMEZONE_YOU_WANT} -# You may want to add an executable file in your ~/.local/bin -# (which should you include in your $PATH) containing the code -# #!/bin/sh -# exec cmdipc -PQk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" send -- tz "$@" -# You can then add a hotkey to xbindkeys running that command -# with a timezone as a argument, or run it in the terminal. -# If the timezone is omitted, local time is used. - -import time -import threading - -from plugins.clock import Clock -from plugins.tzclock import TZClock - - -OUTPUT, HEIGHT, YPOS, TOP = 0, 12, 24, True - - -time_format = '%Y-(%m)%b-%d %T, %a w%V, %Z' - -local_clock = Clock(format = time_format, sync_to = Clock.SECONDS) -my_clock = local_clock - - -def mqueue_wait(): - import posix_ipc - global my_clock - qkey = '/~%s.xpybar.%s' % (os.environ['USER'], os.environ['DISPLAY'].split('.')[0]) - q = posix_ipc.MessageQueue(qkey, posix_ipc.O_CREAT, 0o600, 8, 128) - while True: - message = q.receive(None)[0].decode('utf-8', 'replace').split(' ') - if message[0] == 'tz': - old_clock = my_clock - tz = '/'.join(message[1:]) - try: - my_clock = local_clock if tz == '' else TZClock(timezone = tz, format = time_format) - except: - try: - my_clock = local_clock if tz == '' else TZClock(timezone = tz.upper(), format = time_format) - except: - print('%s: unknown typezone: %s' % (sys.argv[0], tz), file = sys.stderr) - continue - if old_clock is not local_clock: - del old_clock - bar.invalidate() # Optional, just to force redrawing before the next second - - -start_ = start -def start(): - start_() - async(mqueue_wait) - async(lambda : local_clock.continuous_sync(lambda : bar.invalidate())) - - -def redraw(): - text = '%s' % my_clock.read() - bar.clear() - bar.draw_coloured_text(0, 10, 0, 2, text) - diff --git a/examples/tricks/localutcclock b/examples/tricks/localutcclock new file mode 100644 index 0000000..129a1d1 --- /dev/null +++ b/examples/tricks/localutcclock @@ -0,0 +1,64 @@ +# -*- python -*- + +# A xpybar configuration example that demonstrates how you can +# write a configuration that lets you change the clock between +# local time and UTC using the keyboard. + +# This example requires the package python-posix_ipc, and the +# example command requires the package cmdipc. + +# Caveat: This example is only written to support local displays. +# If the host part of $DISPLAY contains a dot, this example will +# not work as expected. + +# Caveat: The IPC objects are not cleaned up on exit. +# After exiting you may want to run +# cmdipc -PQrk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" + +# To switch between UTC and localtime run the command +# cmdipc -PQk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" send -- clock +# You may want to add an executable file in your ~/.local/bin +# (which should you include in your $PATH) containing the code +# #!/bin/sh +# exec cmdipc -PQk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" send -- clock +# You can then add a hotkey to xbindkeys running that command. + +import time +import threading + +from plugins.clock import Clock + + +OUTPUT, HEIGHT, YPOS, TOP = 0, 12, 24, True + + +local_clock = Clock(format = '%Y-(%m)%b-%d %T, %a w%V, %Z', utc = False, sync_to = Clock.SECONDS) +utc_clock = Clock(format = '%Y-(%m)%b-%d %T, %a w%V, %Z', utc = True) + +my_clock = local_clock + + +def mqueue_wait(): + import posix_ipc + global my_clock + qkey = '/~%s.xpybar.%s' % (os.environ['USER'], os.environ['DISPLAY'].split('.')[0]) + q = posix_ipc.MessageQueue(qkey, posix_ipc.O_CREAT, 0o600, 8, 128) + while True: + message = q.receive(None)[0].decode('utf-8', 'replace') + if message == 'clock': + my_clock = utc_clock if (my_clock is not utc_clock) else local_clock + bar.invalidate() # Optional, just to force redrawing before the next second + + +start_ = start +def start(): + start_() + async(mqueue_wait) + async(lambda : local_clock.continuous_sync(lambda : bar.invalidate())) + + +def redraw(): + text = '%s' % my_clock.read() + bar.clear() + bar.draw_coloured_text(0, 10, 0, 2, text) + diff --git a/examples/tricks/localutcclock.py b/examples/tricks/localutcclock.py deleted file mode 100644 index 129a1d1..0000000 --- a/examples/tricks/localutcclock.py +++ /dev/null @@ -1,64 +0,0 @@ -# -*- python -*- - -# A xpybar configuration example that demonstrates how you can -# write a configuration that lets you change the clock between -# local time and UTC using the keyboard. - -# This example requires the package python-posix_ipc, and the -# example command requires the package cmdipc. - -# Caveat: This example is only written to support local displays. -# If the host part of $DISPLAY contains a dot, this example will -# not work as expected. - -# Caveat: The IPC objects are not cleaned up on exit. -# After exiting you may want to run -# cmdipc -PQrk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" - -# To switch between UTC and localtime run the command -# cmdipc -PQk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" send -- clock -# You may want to add an executable file in your ~/.local/bin -# (which should you include in your $PATH) containing the code -# #!/bin/sh -# exec cmdipc -PQk "/~${USER}.xpybar.$(echo "${DISPLAY}" | cut -d . -f 1)" send -- clock -# You can then add a hotkey to xbindkeys running that command. - -import time -import threading - -from plugins.clock import Clock - - -OUTPUT, HEIGHT, YPOS, TOP = 0, 12, 24, True - - -local_clock = Clock(format = '%Y-(%m)%b-%d %T, %a w%V, %Z', utc = False, sync_to = Clock.SECONDS) -utc_clock = Clock(format = '%Y-(%m)%b-%d %T, %a w%V, %Z', utc = True) - -my_clock = local_clock - - -def mqueue_wait(): - import posix_ipc - global my_clock - qkey = '/~%s.xpybar.%s' % (os.environ['USER'], os.environ['DISPLAY'].split('.')[0]) - q = posix_ipc.MessageQueue(qkey, posix_ipc.O_CREAT, 0o600, 8, 128) - while True: - message = q.receive(None)[0].decode('utf-8', 'replace') - if message == 'clock': - my_clock = utc_clock if (my_clock is not utc_clock) else local_clock - bar.invalidate() # Optional, just to force redrawing before the next second - - -start_ = start -def start(): - start_() - async(mqueue_wait) - async(lambda : local_clock.continuous_sync(lambda : bar.invalidate())) - - -def redraw(): - text = '%s' % my_clock.read() - bar.clear() - bar.draw_coloured_text(0, 10, 0, 2, text) - 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