content stringlengths 7 1.05M | fixed_cases stringlengths 1 1.28M |
|---|---|
#encoding:utf-8
subreddit = 'bikinimoe'
t_channel = '@BikiniMoe'
def send_post(submission, r2t):
return r2t.send_simple(submission)
| subreddit = 'bikinimoe'
t_channel = '@BikiniMoe'
def send_post(submission, r2t):
return r2t.send_simple(submission) |
simType='sim_file'
symProps = [
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{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.682315198268', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.53125', 1, 'Y', 0.53125, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.1375', 1, 'YVel', -0.13749999999999996, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.117847058516', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.519047619048', 1, 'X', 0.51904761904761909, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.16875', 1, 'Y', 0.16875000000000001, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0333333333333', 1, 'XVel', 0.033333333333333381, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.04375', 1, 'YVel', 0.043750000000000011, 'value']]}], 'name': 'state_0.805988837425', 'analog': 1},
{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.450991429235', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.525', 1, 'Y', 0.52500000000000002, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.00625', 1, 'YVel', -0.0062499999999999778, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.228629503255', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.547619047619', 1, 'X', 0.54761904761904767, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.20625', 1, 'Y', 0.20624999999999999, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0285714285714', 1, 'XVel', 0.028571428571428581, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0375', 1, 'YVel', 0.037499999999999978, 'value']]}], 'name': 'state_0.931435114204', 'analog': 2},
{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.813031525206', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.525', 1, 'Y', 0.52500000000000002, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0', 1, 'YVel', 0.0, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.347015379734', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.580952380952', 1, 'X', 0.580952380952381, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.25', 1, 'Y', 0.25, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0333333333333', 1, 'XVel', 0.033333333333333326, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.04375', 1, 'YVel', 0.043750000000000011, 'value']]}], 'name': 'state_0.0998246763924', 'analog': 3},
{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.321824707421', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.3875', 1, 'Y', 0.38750000000000001, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.1375', 1, 'YVel', -0.13750000000000001, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.68575015763', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.619047619048', 1, 'X', 0.61904761904761907, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.3', 1, 'Y', 0.29999999999999999, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0380952380952', 1, 'XVel', 0.038095238095238071, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.05', 1, 'YVel', 0.049999999999999989, 'value']]}], 'name': 'state_0.913981746386', 'analog': 4},
{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.933134657413', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.31875', 1, 'Y', 0.31874999999999998, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.06875', 1, 'YVel', -0.068750000000000033, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.0328524097159', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.647619047619', 1, 'X', 0.64761904761904765, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.3375', 1, 'Y', 0.33750000000000002, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0285714285714', 1, 'XVel', 0.028571428571428581, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0375', 1, 'YVel', 0.037500000000000033, 'value']]}], 'name': 'state_0.569462804023', 'analog': 5},
{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.0833369601241', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.18125', 1, 'Y', 0.18124999999999999, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.1375', 1, 'YVel', -0.13749999999999998, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.76060529193', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.680952380952', 1, 'X', 0.68095238095238098, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.38125', 1, 'Y', 0.38124999999999998, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0333333333333', 1, 'XVel', 0.033333333333333326, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.04375', 1, 'YVel', 0.043749999999999956, 'value']]}], 'name': 'state_0.25877150862', 'analog': 6},
{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.334827391427', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.10625', 1, 'Y', 0.10625, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.075', 1, 'YVel', -0.074999999999999997, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.140585390861', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.704761904762', 1, 'X', 0.70476190476190481, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.4125', 1, 'Y', 0.41249999999999998, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0238095238095', 1, 'XVel', 0.023809523809523836, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.03125', 1, 'YVel', 0.03125, 'value']]}], 'name': 'state_0.499237953355', 'analog': 7},
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{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.572251691779', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.1', 1, 'Y', 0.10000000000000001, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0', 1, 'YVel', 0.0, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.416336715325', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.766666666667', 1, 'X', 0.76666666666666672, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.49375', 1, 'Y', 0.49375000000000002, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0380952380952', 1, 'XVel', 0.038095238095238182, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.05', 1, 'YVel', 0.050000000000000044, 'value']]}], 'name': 'state_0.269390562985', 'analog': 9},
{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.991853825664', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.1', 1, 'Y', 0.10000000000000001, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0', 1, 'YVel', 0.0, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.50292118116', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.795238095238', 1, 'X', 0.79523809523809519, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.53125', 1, 'Y', 0.53125, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0285714285714', 1, 'XVel', 0.02857142857142847, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0375', 1, 'YVel', 0.037499999999999978, 'value']]}], 'name': 'state_0.422879977216', 'analog': 10},
{'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.0617213932038', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.79047619047619044, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.175', 1, 'Y', 0.17499999999999999, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.075', 1, 'YVel', 0.074999999999999983, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.343393808819', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.0', 1, 'X', 0.0, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.0', 1, 'Y', 0.0, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0', 1, 'YVel', 0.0, 'value']]}], 'name': 'state_0.0872759768396', 'analog': 11},
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0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.5125', 1, 'Y', 0.5125, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0625', 1, 'YVel', 0.062499999999999944, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.771887539864', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.333333333333', 1, 'X', 0.3333333333333333, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.89375', 1, 'Y', 0.89375, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_-0.0285714285714', 1, 'XVel', -0.02857142857142858, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.025', 1, 'YVel', 0.025000000000000022, 'value']]}], 'name': 'state_0.872373686593', 'analog': 154}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.296364428784', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.475', 1, 'Y', 0.475, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.0375', 1, 'YVel', -0.03749999999999998, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.739193870454', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.352380952381', 1, 'X', 0.3523809523809524, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.934375', 1, 'Y', 0.934375, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0190476190476', 1, 'XVel', 0.01904761904761909, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.040625', 1, 'YVel', 0.04062499999999991, 'value']]}], 'name': 'state_0.432034209712', 'analog': 155}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.125487390547', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.375', 1, 'Y', 0.375, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.1', 1, 'YVel', -0.09999999999999998, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.730489807108', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.390476190476', 1, 'X', 0.3904761904761905, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.93125', 1, 'Y', 0.93125, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0380952380952', 1, 'XVel', 0.03809523809523807, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.003125', 1, 'YVel', -0.0031249999999999334, 'value']]}], 'name': 'state_0.0752575940004', 'analog': 156}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.179833560432', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.2625', 1, 'Y', 0.2625, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.1125', 1, 'YVel', -0.11249999999999999, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.948821167289', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.447619047619', 1, 'X', 0.44761904761904764, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.88125', 1, 'Y', 0.88125, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0571428571429', 1, 'XVel', 0.05714285714285716, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.05', 1, 'YVel', -0.050000000000000044, 'value']]}], 'name': 'state_0.114218804289', 'analog': 157}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.348064147283', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.35', 1, 'Y', 0.35, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0875', 1, 'YVel', 0.08749999999999997, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.85727472095', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.490476190476', 1, 'X', 0.49047619047619045, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.84375', 1, 'Y', 0.84375, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0428571428571', 1, 'XVel', 0.042857142857142816, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.0375', 1, 'YVel', -0.03749999999999998, 'value']]}], 'name': 'state_0.0737087684927', 'analog': 158}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.993168917616', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.35625', 1, 'Y', 0.35625, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.00625', 1, 'YVel', 0.006250000000000033, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.415764866586', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.533333333333', 1, 'X', 0.5333333333333333, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.80625', 1, 'Y', 0.80625, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0428571428571', 1, 'XVel', 0.04285714285714287, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.0375', 1, 'YVel', -0.03749999999999998, 'value']]}], 'name': 'state_0.0609751744856', 'analog': 159}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.556358407856', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.46875', 1, 'Y', 0.46875, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.1125', 1, 'YVel', 0.11249999999999999, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.398180267935', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.580952380952', 1, 'X', 0.580952380952381, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.7625', 1, 'Y', 0.7625, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.047619047619', 1, 'XVel', 0.04761904761904767, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.04375', 1, 'YVel', -0.04375000000000007, 'value']]}], 'name': 'state_0.326417215647', 'analog': 160}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.160703232966', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.60625', 1, 'Y', 0.60625, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.1375', 1, 'YVel', 0.13749999999999996, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.79458851704', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.638095238095', 1, 'X', 0.638095238095238, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.7125', 1, 'Y', 0.7125, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0571428571429', 1, 'XVel', 0.05714285714285705, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.05', 1, 'YVel', -0.04999999999999993, 'value']]}], 'name': 'state_0.446335844076', 'analog': 161}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.697623040188', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.525', 1, 'Y', 0.525, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.08125', 1, 'YVel', -0.08124999999999993, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.730892233126', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.680952380952', 1, 'X', 0.680952380952381, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.675', 1, 'Y', 0.675, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0428571428571', 1, 'XVel', 0.04285714285714293, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.0375', 1, 'YVel', -0.03749999999999998, 'value']]}], 'name': 'state_0.716861546862', 'analog': 162}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.48446207164', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.56875', 1, 'Y', 0.56875, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.04375', 1, 'YVel', 0.043749999999999956, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.802554071866', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.72380952381', 1, 'X', 0.7238095238095238, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.6375', 1, 'Y', 0.6375, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0428571428571', 1, 'XVel', 0.042857142857142816, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.0375', 1, 'YVel', -0.03750000000000009, 'value']]}], 'name': 'state_0.293731079845', 'analog': 163}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.460217069352', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.5125', 1, 'Y', 0.5125, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.05625', 1, 'YVel', -0.05625000000000002, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.576643233446', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.761904761905', 1, 'X', 0.7619047619047619, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.60625', 1, 'Y', 0.60625, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0380952380952', 1, 'XVel', 0.03809523809523807, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.03125', 1, 'YVel', -0.03125, 'value']]}], 'name': 'state_0.898883940234', 'analog': 164}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.306514916147', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.39375', 1, 'Y', 0.39375, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.11875', 1, 'YVel', -0.11874999999999997, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.891366003233', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.795238095238', 1, 'X', 0.7952380952380952, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.575', 1, 'Y', 0.575, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0333333333333', 1, 'XVel', 0.033333333333333326, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.03125', 1, 'YVel', -0.03125, 'value']]}], 'name': 'state_0.4979098627', 'analog': 165}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.00947859224353', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.49375', 1, 'Y', 0.49375, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.1', 1, 'YVel', 0.10000000000000003, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.134895468261', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.0', 1, 'X', 0.0, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.0', 1, 'Y', 0.0, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0', 1, 'YVel', 0.0, 'value']]}], 'name': 'state_0.419010684589', 'analog': 166}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.396865903698', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.59375', 1, 'Y', 0.59375, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.1', 1, 'YVel', 0.09999999999999998, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.749550304059', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.0', 1, 'X', 0.0, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.0', 1, 'Y', 0.0, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0', 1, 'YVel', 0.0, 'value']]}], 'name': 'state_0.545606450378', 'analog': 167}, {'set': 'memory', 'RBs': [{'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'bar_0.469213682387', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.790476190476', 1, 'X', 0.7904761904761904, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.48125', 1, 'Y', 0.48125, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_-0.1125', 1, 'YVel', -0.11249999999999999, 'value']]}, {'higher_order': False, 'pred_name': 'non_exist', 'P': 'non_exist', 'object_name': 'ball_0.912963560057', 'pred_sem': [], 'object_sem': [['X', 1, 'X', 'nil', 'state'], ['X_0.0', 1, 'X', 0.0, 'value'], ['Y', 1, 'Y', 'nil', 'state'], ['Y_0.0', 1, 'Y', 0.0, 'value'], ['XVel', 1, 'XVel', 'nil', 'state'], ['XVel_0.0', 1, 'XVel', 0.0, 'value'], ['YVel', 1, 'YVel', 'nil', 'state'], ['YVel_0.0', 1, 'YVel', 0.0, 'value']]}], 'name': 'state_0.578067692552', 'analog': 168}] |
# Given the mapping a = 1, b = 2, ... z = 26, and an encoded message, count the
# number of ways it can be decoded.
# For example, the message '111' would give 3, since it could be decoded as
# 'aaa', 'ka', and 'ak'.
# You can assume that the messages are decodable. For example, '001' is not
# allowed.
ALPHABET = [chr(i) for i in range(97, 123)]
def decode_number(nums):
codes = []
def helper(nums, message):
if not nums:
codes.append(message)
for i in range(1, len(nums) + 1):
code = int(nums[:i])
if code == 0 or code > 26:
break
helper(nums[i:], message + [ALPHABET[code - 1]])
helper(nums, [])
return codes
if __name__ == '__main__':
print(decode_number('111'))
| alphabet = [chr(i) for i in range(97, 123)]
def decode_number(nums):
codes = []
def helper(nums, message):
if not nums:
codes.append(message)
for i in range(1, len(nums) + 1):
code = int(nums[:i])
if code == 0 or code > 26:
break
helper(nums[i:], message + [ALPHABET[code - 1]])
helper(nums, [])
return codes
if __name__ == '__main__':
print(decode_number('111')) |
service_entry = """
---
apiVersion: networking.istio.io/v1alpha3
kind: ServiceEntry
metadata:
name: {cfg[name]}-backend-redirect
spec:
hosts:
- {cfg[upstream][host]}
location: MESH_EXTERNAL
ports:
- number: 443
name: tcp
protocol: TLS
resolution: DNS
"""
virtual_service = """
---
apiVersion: networking.istio.io/v1alpha3
kind: VirtualService
metadata:
name: {cfg[name]}-backend-redirect
spec:
hosts:
- {cfg[upstream][host]}
tls:
- match:
- port: 443
sniHosts:
- {cfg[upstream][host]}
route:
- destination:
host: {cfg[name]}-backend
"""
| service_entry = '\n---\napiVersion: networking.istio.io/v1alpha3\nkind: ServiceEntry\nmetadata:\n name: {cfg[name]}-backend-redirect\nspec:\n hosts:\n - {cfg[upstream][host]}\n location: MESH_EXTERNAL\n ports:\n - number: 443\n name: tcp\n protocol: TLS\n resolution: DNS\n'
virtual_service = '\n---\napiVersion: networking.istio.io/v1alpha3\nkind: VirtualService\nmetadata:\n name: {cfg[name]}-backend-redirect\nspec:\n hosts:\n - {cfg[upstream][host]}\n tls:\n - match:\n - port: 443\n sniHosts:\n - {cfg[upstream][host]}\n route:\n - destination:\n host: {cfg[name]}-backend\n' |
N = int(input())
c = 0
for i in range(0, N // 5 + 1):
for j in range(0, N // 4 + 1):
five, four = 5 * i, 4 * j
if five + four == N:
c += 1
print(c) | n = int(input())
c = 0
for i in range(0, N // 5 + 1):
for j in range(0, N // 4 + 1):
(five, four) = (5 * i, 4 * j)
if five + four == N:
c += 1
print(c) |
num1 = 10
num2 = 14
num3 = 12
if (num1 >= num2) and (num1 >= num3):
largest = num1
elif (num2 >= num1) and (num2 >= num3):
largest = num2
else:
largest = num3
print("The largest number between",num1,",",num2,"and",num3,"is",largest)
| num1 = 10
num2 = 14
num3 = 12
if num1 >= num2 and num1 >= num3:
largest = num1
elif num2 >= num1 and num2 >= num3:
largest = num2
else:
largest = num3
print('The largest number between', num1, ',', num2, 'and', num3, 'is', largest) |
day = int(input())
even = int(input())
end = int(input())
plan_a = round(max(0, day - 100) * 0.25 + even * 0.15 + end * 0.2, 2)
plan_b = round(max(0, day - 250) * 0.45 + even * 0.35 + end * 0.25, 2)
print('Plan A costs {:2}'.format(plan_a))
print('Plan B costs {:2}'.format(plan_b))
if plan_a < plan_b:
print('Plan A is cheapest.')
elif plan_b < plan_a:
print('Plan B is cheapest.')
else:
print('Plan A and B are the same price.') | day = int(input())
even = int(input())
end = int(input())
plan_a = round(max(0, day - 100) * 0.25 + even * 0.15 + end * 0.2, 2)
plan_b = round(max(0, day - 250) * 0.45 + even * 0.35 + end * 0.25, 2)
print('Plan A costs {:2}'.format(plan_a))
print('Plan B costs {:2}'.format(plan_b))
if plan_a < plan_b:
print('Plan A is cheapest.')
elif plan_b < plan_a:
print('Plan B is cheapest.')
else:
print('Plan A and B are the same price.') |
#Check if the number entered is special
'''a=int(input("Enter a number: "))
b=a
fact=1
s=0
while a!=0:
d=a%10#5;4;1
print(a,d)
for i in range(1,d+1):
fact*=i
s+=fact#120;144;145
fact=1
a=a//10
if s==b:
print("The given number, ", b,"is a special number")
else:
print("The given number, ", b,"is not a special number")'''
#Check if the number entered is niven
'''a=int(input("Enter a number: "))
b=a
s=0
while a!=0:
d=a%10
s+=d
a=a//10
if b%s==0:
print("The given number", b, "is a Niven number")
else:
print("The given number", b, "is not a Niven number")'''
#Check if the number entered is Armstrong number
'''a=int(input("Enter a number: "))
b=a
k=a
ctr=0
s=0
while a!=0:
d=a%10
ctr+=1
a=a//10
while b!=0:
c=b%10
s+=c**ctr
b=b//10
if s==k:
print("The given number", k,"is an Armstrong number")
else:
print("The given number", k,"is not an Armstrong number")'''
#Display the max and the min of a multiple digit number
'''a=int(input("Enter a number: "))
k=0
l=0
while a!=0:
d=a%10
a=a//10
if d>k:
k=d
else:
l=d
print(k)
print(d)'''
| """a=int(input("Enter a number: "))
b=a
fact=1
s=0
while a!=0:
d=a%10#5;4;1
print(a,d)
for i in range(1,d+1):
fact*=i
s+=fact#120;144;145
fact=1
a=a//10
if s==b:
print("The given number, ", b,"is a special number")
else:
print("The given number, ", b,"is not a special number")"""
'a=int(input("Enter a number: "))\nb=a\ns=0\nwhile a!=0:\n d=a%10\n s+=d\n a=a//10\nif b%s==0:\n print("The given number", b, "is a Niven number")\nelse:\n print("The given number", b, "is not a Niven number")'
'a=int(input("Enter a number: "))\nb=a\nk=a\nctr=0\ns=0\nwhile a!=0:\n d=a%10\n ctr+=1\n a=a//10\nwhile b!=0:\n c=b%10\n s+=c**ctr\n b=b//10\nif s==k:\n print("The given number", k,"is an Armstrong number")\nelse:\n print("The given number", k,"is not an Armstrong number")'
'a=int(input("Enter a number: "))\nk=0\nl=0\nwhile a!=0:\n d=a%10\n a=a//10\n if d>k:\n k=d\n else:\n l=d\nprint(k)\nprint(d)' |
# MAXIMISE GCD
def gcd(a,b):
if a%b==0:
return(b)
if b%a==0:
return(a)
if a==b:
return(a)
if a>b:
return gcd(a%b,b)
if b>a:
return gcd(a,b%a)
n = int(input())
Arr = list(map(int, input().strip().split()))
x = Arr[n-1]
mx = 1
j = 0
for i in range(n-1,-1,-1):
G = gcd(x,Arr[i])
#print(G)
if mx<=G:
mx = G
j = i
x = G
print(j)
| def gcd(a, b):
if a % b == 0:
return b
if b % a == 0:
return a
if a == b:
return a
if a > b:
return gcd(a % b, b)
if b > a:
return gcd(a, b % a)
n = int(input())
arr = list(map(int, input().strip().split()))
x = Arr[n - 1]
mx = 1
j = 0
for i in range(n - 1, -1, -1):
g = gcd(x, Arr[i])
if mx <= G:
mx = G
j = i
x = G
print(j) |
class TreeNode(object):
def __init__(self, x):
self.val = x
self.left = None
self.right = None
class Solution(object):
def getAllElements(self, root1, root2):
"""
:type root1: TreeNode
:type root2: TreeNode
:rtype: List[int]
"""
ans = []
stack_1 = []
stack_2 = []
def dfs(root, ans):
if not root:
return
dfs(root.left, ans)
ans.append(root.val)
dfs(root.right, ans)
return ans
if not root1:
dfs(root2, ans)
return ans
if not root2:
dfs(root1, ans)
return ans
def append_left_value(temp_root, stack):
while temp_root:
stack.append(temp_root)
temp_root = temp_root.left
return stack
stack_1 = append_left_value(root1 ,stack_1)
stack_2 = append_left_value(root2, stack_2)
while stack_1 and stack_2:
if stack_1[-1].val == stack_2[-1].val:
x = stack_1.pop()
y = stack_2.pop()
ans.append(x.val)
ans.append(y.val)
if x.right:
stack_1 = append_left_value(x.right, stack_1)
if y.right:
stack_2 = append_left_value(y.right, stack_2)
elif stack_1[-1].val < stack_2[-1].val:
x = stack_1.pop()
ans.append(x.val)
if x.right:
stack_1 = append_left_value(x.right, stack_1)
elif stack_1[-1].val > stack_2[-1].val:
y = stack_2.pop()
ans.append(y.val)
if y.right:
stack_2 = append_left_value(y.right, stack_2)
if stack_1:
x = stack_1.pop()
ans = dfs(x, ans)
if stack_2:
y = stack_2.pop()
ans = dfs(y, ans)
return ans
abc = Solution()
roo1 = TreeNode | class Treenode(object):
def __init__(self, x):
self.val = x
self.left = None
self.right = None
class Solution(object):
def get_all_elements(self, root1, root2):
"""
:type root1: TreeNode
:type root2: TreeNode
:rtype: List[int]
"""
ans = []
stack_1 = []
stack_2 = []
def dfs(root, ans):
if not root:
return
dfs(root.left, ans)
ans.append(root.val)
dfs(root.right, ans)
return ans
if not root1:
dfs(root2, ans)
return ans
if not root2:
dfs(root1, ans)
return ans
def append_left_value(temp_root, stack):
while temp_root:
stack.append(temp_root)
temp_root = temp_root.left
return stack
stack_1 = append_left_value(root1, stack_1)
stack_2 = append_left_value(root2, stack_2)
while stack_1 and stack_2:
if stack_1[-1].val == stack_2[-1].val:
x = stack_1.pop()
y = stack_2.pop()
ans.append(x.val)
ans.append(y.val)
if x.right:
stack_1 = append_left_value(x.right, stack_1)
if y.right:
stack_2 = append_left_value(y.right, stack_2)
elif stack_1[-1].val < stack_2[-1].val:
x = stack_1.pop()
ans.append(x.val)
if x.right:
stack_1 = append_left_value(x.right, stack_1)
elif stack_1[-1].val > stack_2[-1].val:
y = stack_2.pop()
ans.append(y.val)
if y.right:
stack_2 = append_left_value(y.right, stack_2)
if stack_1:
x = stack_1.pop()
ans = dfs(x, ans)
if stack_2:
y = stack_2.pop()
ans = dfs(y, ans)
return ans
abc = solution()
roo1 = TreeNode |
##
##
# File auto-generated against equivalent DynamicSerialize Java class
class NewAdaptivePlotRequest(object):
def __init__(self):
self.fileContents = None
self.fileName = None
self.bundleName = None
self.description = None
def getFileContents(self):
return self.fileContents
def setFileContents(self, fileContents):
self.fileContents = fileContents
def getFileName(self):
return self.fileName
def setFileName(self, fileName):
self.fileName = fileName
def getBundleName(self):
return self.bundleName
def setBundleName(self, bundleName):
self.bundleName = bundleName
def getDescription(self):
return self.description
def setDescription(self, description):
self.description = description
| class Newadaptiveplotrequest(object):
def __init__(self):
self.fileContents = None
self.fileName = None
self.bundleName = None
self.description = None
def get_file_contents(self):
return self.fileContents
def set_file_contents(self, fileContents):
self.fileContents = fileContents
def get_file_name(self):
return self.fileName
def set_file_name(self, fileName):
self.fileName = fileName
def get_bundle_name(self):
return self.bundleName
def set_bundle_name(self, bundleName):
self.bundleName = bundleName
def get_description(self):
return self.description
def set_description(self, description):
self.description = description |
load("@rules_scala_annex//rules:external.bzl", "scala_maven_import_external")
load("//repos:rules.bzl", "overlaid_github_repository")
def singularity_scala_repositories():
com_chuusai_shapeless_repository()
com_github_mpilquist_simulacrum_repository()
eu_timepit_refined_repository()
io_circe_circe_repository()
org_scalacheck_scalacheck_repository()
org_scalamacros_paradise_repository()
org_scalatest_scalatest_repository()
org_spire_math_kind_projector_repository()
org_typelevel_cats_repository()
org_typelevel_machinist_repository()
org_typelevel_macro_compat_repository()
scala_binary_dependencies_must_burn()
java_binary_dependencies_might_burn()
def com_chuusai_shapeless_repository():
overlaid_github_repository(
name = "com_chuusai_shapeless",
path = "com/chuusai/shapeless",
repo = "milessabin/shapeless",
sha = "1185bc22692bd5c085b158b732c931d1091c5c62",
)
def com_github_mpilquist_simulacrum_repository():
overlaid_github_repository(
name = "com_github_mpilquist_simulacrum",
path = "com/github/mpilquist/simulacrum",
repo = "mpilquist/simulacrum",
sha = "71021d1bba7c2181dba4358fa3b73785b1a2c273",
)
def eu_timepit_refined_repository():
overlaid_github_repository(
name = "eu_timepit_refined",
path = "eu/timepit/refined",
repo = "fthomas/refined",
sha = "85305c55bedb41edd4a15ca701f4f0a88a581ed5",
)
def io_circe_circe_repository():
overlaid_github_repository(
name = "io_circe_circe",
path = "io/circe/circe",
repo = "circe/circe",
sha = "686bb1043ec5b3250c63f059fa978f9560dd24a8",
)
def org_scalacheck_scalacheck_repository():
overlaid_github_repository(
name = "org_scalacheck_scalacheck",
path = "org/scalacheck/scalacheck",
repo = "rickynils/scalacheck",
sha = "7a83b03cb5df9b9cc4e10d3c0a75847f2c0c6b74",
)
def org_scalamacros_paradise_repository():
overlaid_github_repository(
name = "org_scalamacros_paradise",
path = "org/scalamacros/paradise",
repo = "scalamacros/paradise",
sha = "66f5b66e5fc7e221e225dfe65e4ed1dc41276821", # tag 2.12.7
)
def org_scalatest_scalatest_repository():
overlaid_github_repository(
name = "org_scalatest_scalatest",
path = "org/scalatest/scalatest",
repo = "scalatest/scalatest",
sha = "78e506537ed06d4438e1d365e18c160d46d2bf18",
)
def org_spire_math_kind_projector_repository():
overlaid_github_repository(
name = "org_spire_math_kind_projector",
path = "org/spire_math/kind_projector",
repo = "non/kind-projector",
sha = "c956b9451c584d743a29247331be4d4b76ea5ccd",
)
def org_typelevel_cats_repository():
overlaid_github_repository(
name = "org_typelevel_cats",
path = "org/typelevel/cats",
repo = "typelevel/cats",
sha = "533cc16e4f5bc45f84ac5cae1a6bfca4c007c5e0",
)
def org_typelevel_machinist_repository():
overlaid_github_repository(
name = "org_typelevel_machinist",
path = "org/typelevel/machinist",
repo = "typelevel/machinist",
sha = "ceb2f0a697d60d962f9f4f1ef84d306582d959e1",
)
def org_typelevel_macro_compat_repository():
overlaid_github_repository(
name = "org_typelevel_macro_compat",
path = "org/typelevel/macro_compat",
repo = "milessabin/macro-compat",
sha = "e9b9a94762ee2a43364e4cc6f24083030937576d",
)
# Everything in here should be burned away
def scala_binary_dependencies_must_burn():
native.maven_jar(
name = "org_scala_lang_modules_scala_parser_combinators",
artifact = "org.scala-lang.modules:scala-parser-combinators_2.12:1.1.1",
sha1 = "29b4158f9ddcc22d1c81363fd61a8bef046f06b9",
)
native.maven_jar(
name = "org_scala_lang_modules_scala_xml",
artifact = "org.scala-lang.modules:scala-xml_2.12:1.1.1",
sha1 = "f56ecaf2e5b7138c87449303c763fd1654543fde",
)
def java_binary_dependencies_might_burn():
native.maven_jar(
name = "junit",
artifact = "junit:junit:4.12",
sha1 = "2973d150c0dc1fefe998f834810d68f278ea58ec",
)
native.maven_jar(
name = "hamcrest_core",
artifact = "org.hamcrest:hamcrest-core:1.3",
sha1 = "42a25dc3219429f0e5d060061f71acb49bf010a0",
)
native.maven_jar(
name = "junit_interface",
artifact = "com.novocode:junit-interface:jar:0.11",
sha1 = "38bb853c93abfbe14a0514016f0f70dd73422d9f",
)
native.maven_jar(
name = "antlr",
artifact = "antlr:antlr:2.7.7",
sha1 = "83cd2cd674a217ade95a4bb83a8a14f351f48bd0",
)
native.maven_jar(
name = "antlr_stringtemplate",
artifact = "org.antlr:stringtemplate:3.2",
sha1 = "6fe2e3bb57daebd1555494818909f9664376dd6c",
)
| load('@rules_scala_annex//rules:external.bzl', 'scala_maven_import_external')
load('//repos:rules.bzl', 'overlaid_github_repository')
def singularity_scala_repositories():
com_chuusai_shapeless_repository()
com_github_mpilquist_simulacrum_repository()
eu_timepit_refined_repository()
io_circe_circe_repository()
org_scalacheck_scalacheck_repository()
org_scalamacros_paradise_repository()
org_scalatest_scalatest_repository()
org_spire_math_kind_projector_repository()
org_typelevel_cats_repository()
org_typelevel_machinist_repository()
org_typelevel_macro_compat_repository()
scala_binary_dependencies_must_burn()
java_binary_dependencies_might_burn()
def com_chuusai_shapeless_repository():
overlaid_github_repository(name='com_chuusai_shapeless', path='com/chuusai/shapeless', repo='milessabin/shapeless', sha='1185bc22692bd5c085b158b732c931d1091c5c62')
def com_github_mpilquist_simulacrum_repository():
overlaid_github_repository(name='com_github_mpilquist_simulacrum', path='com/github/mpilquist/simulacrum', repo='mpilquist/simulacrum', sha='71021d1bba7c2181dba4358fa3b73785b1a2c273')
def eu_timepit_refined_repository():
overlaid_github_repository(name='eu_timepit_refined', path='eu/timepit/refined', repo='fthomas/refined', sha='85305c55bedb41edd4a15ca701f4f0a88a581ed5')
def io_circe_circe_repository():
overlaid_github_repository(name='io_circe_circe', path='io/circe/circe', repo='circe/circe', sha='686bb1043ec5b3250c63f059fa978f9560dd24a8')
def org_scalacheck_scalacheck_repository():
overlaid_github_repository(name='org_scalacheck_scalacheck', path='org/scalacheck/scalacheck', repo='rickynils/scalacheck', sha='7a83b03cb5df9b9cc4e10d3c0a75847f2c0c6b74')
def org_scalamacros_paradise_repository():
overlaid_github_repository(name='org_scalamacros_paradise', path='org/scalamacros/paradise', repo='scalamacros/paradise', sha='66f5b66e5fc7e221e225dfe65e4ed1dc41276821')
def org_scalatest_scalatest_repository():
overlaid_github_repository(name='org_scalatest_scalatest', path='org/scalatest/scalatest', repo='scalatest/scalatest', sha='78e506537ed06d4438e1d365e18c160d46d2bf18')
def org_spire_math_kind_projector_repository():
overlaid_github_repository(name='org_spire_math_kind_projector', path='org/spire_math/kind_projector', repo='non/kind-projector', sha='c956b9451c584d743a29247331be4d4b76ea5ccd')
def org_typelevel_cats_repository():
overlaid_github_repository(name='org_typelevel_cats', path='org/typelevel/cats', repo='typelevel/cats', sha='533cc16e4f5bc45f84ac5cae1a6bfca4c007c5e0')
def org_typelevel_machinist_repository():
overlaid_github_repository(name='org_typelevel_machinist', path='org/typelevel/machinist', repo='typelevel/machinist', sha='ceb2f0a697d60d962f9f4f1ef84d306582d959e1')
def org_typelevel_macro_compat_repository():
overlaid_github_repository(name='org_typelevel_macro_compat', path='org/typelevel/macro_compat', repo='milessabin/macro-compat', sha='e9b9a94762ee2a43364e4cc6f24083030937576d')
def scala_binary_dependencies_must_burn():
native.maven_jar(name='org_scala_lang_modules_scala_parser_combinators', artifact='org.scala-lang.modules:scala-parser-combinators_2.12:1.1.1', sha1='29b4158f9ddcc22d1c81363fd61a8bef046f06b9')
native.maven_jar(name='org_scala_lang_modules_scala_xml', artifact='org.scala-lang.modules:scala-xml_2.12:1.1.1', sha1='f56ecaf2e5b7138c87449303c763fd1654543fde')
def java_binary_dependencies_might_burn():
native.maven_jar(name='junit', artifact='junit:junit:4.12', sha1='2973d150c0dc1fefe998f834810d68f278ea58ec')
native.maven_jar(name='hamcrest_core', artifact='org.hamcrest:hamcrest-core:1.3', sha1='42a25dc3219429f0e5d060061f71acb49bf010a0')
native.maven_jar(name='junit_interface', artifact='com.novocode:junit-interface:jar:0.11', sha1='38bb853c93abfbe14a0514016f0f70dd73422d9f')
native.maven_jar(name='antlr', artifact='antlr:antlr:2.7.7', sha1='83cd2cd674a217ade95a4bb83a8a14f351f48bd0')
native.maven_jar(name='antlr_stringtemplate', artifact='org.antlr:stringtemplate:3.2', sha1='6fe2e3bb57daebd1555494818909f9664376dd6c') |
cipher = '11b90d6311b90ff90ce610c4123b10c40ce60dfa123610610ce60d450d000ce61061106110c4098515340d4512361534098509270e5d09850e58123610c9'
pubkey = [99, 1235, 865, 990, 5, 1443, 895, 1477]
flag = ""
for i in range(0, len(cipher), 4):
c = int(cipher[i:i+4], 16)
for m in range(0x100):
test = 0
for p in range(8):
test += ((m >> p) & 1) * pubkey[p]
if test == c:
flag += chr(m)
break
print(flag)
| cipher = '11b90d6311b90ff90ce610c4123b10c40ce60dfa123610610ce60d450d000ce61061106110c4098515340d4512361534098509270e5d09850e58123610c9'
pubkey = [99, 1235, 865, 990, 5, 1443, 895, 1477]
flag = ''
for i in range(0, len(cipher), 4):
c = int(cipher[i:i + 4], 16)
for m in range(256):
test = 0
for p in range(8):
test += (m >> p & 1) * pubkey[p]
if test == c:
flag += chr(m)
break
print(flag) |
#coding:utf-8
'''
filename:vowel_counts.py
chap:4
subject:9
conditions:chap3_35 string
solution:count a,e,i,o,u
'''
text = '''You raise me up,so I can stand on mountains
You raise me up to walk on stromy seas
I am strong when I am on your shoulders
You raise me up to more than I can be'''
vowels = ('a','e','i','o','u')
result = dict.fromkeys(vowels,0)
for char in text:
if char in result.keys():
result[char] +=1
print(f'Vowel_counts :{result}')
rst = {char:text.count(char) for char in vowels}
print(f'Vowel_counts :{rst}')
| """
filename:vowel_counts.py
chap:4
subject:9
conditions:chap3_35 string
solution:count a,e,i,o,u
"""
text = 'You raise me up,so I can stand on mountains\nYou raise me up to walk on stromy seas\nI am strong when I am on your shoulders\nYou raise me up to more than I can be'
vowels = ('a', 'e', 'i', 'o', 'u')
result = dict.fromkeys(vowels, 0)
for char in text:
if char in result.keys():
result[char] += 1
print(f'Vowel_counts :{result}')
rst = {char: text.count(char) for char in vowels}
print(f'Vowel_counts :{rst}') |
# reading ocntents from file
# fp=open('file.txt')
fp=open('file.txt','r')
# by default it opens in read mode
text=fp.read()
print(text) | fp = open('file.txt', 'r')
text = fp.read()
print(text) |
class Entry(object):
def __init__(self):
self.name = ''
self.parent = ''
self.created = 0
self.lastUpdate = 0
self.lastAccess = 0
def create(self):
pass
def delete(self):
pass
def getFullPath(self):
if not self.parent:
return self.name
else:
return self.parent + '/' + self.name
# get created time, last update time, change name etc
class Directory(Entry):
def __init__(self):
super(Directory, self).__init__()
self.content = []
def numberOfFiles(self):
pass
def getSize(self):
pass
class File(Entry):
def __init__(self):
super(File, self).__init__()
self.content = ''
self.size = 0
def getContent(self):
pass
def setContent(self):
pass
def getSize(self):
pass
| class Entry(object):
def __init__(self):
self.name = ''
self.parent = ''
self.created = 0
self.lastUpdate = 0
self.lastAccess = 0
def create(self):
pass
def delete(self):
pass
def get_full_path(self):
if not self.parent:
return self.name
else:
return self.parent + '/' + self.name
class Directory(Entry):
def __init__(self):
super(Directory, self).__init__()
self.content = []
def number_of_files(self):
pass
def get_size(self):
pass
class File(Entry):
def __init__(self):
super(File, self).__init__()
self.content = ''
self.size = 0
def get_content(self):
pass
def set_content(self):
pass
def get_size(self):
pass |
class HashMap:
def __init__(self):
self.bucket = {}
def put(self, key: int, value: int) -> None:
self.bucket[key] = value
def get(self, key: int) -> int:
if key in self.bucket:
return self.bucket[key]
return -1
def remove(self, key: int) -> None:
if key in self.bucket:
del self.bucket[key]
| class Hashmap:
def __init__(self):
self.bucket = {}
def put(self, key: int, value: int) -> None:
self.bucket[key] = value
def get(self, key: int) -> int:
if key in self.bucket:
return self.bucket[key]
return -1
def remove(self, key: int) -> None:
if key in self.bucket:
del self.bucket[key] |
# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License. You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
# Rules in rules list will be applied to the CloudTrail event one by one and if any matches
# then event will be processed and published to Slack
default_rules = list()
# Notify if someone logged in without MFA but skip notification for SSO logins
default_rules.append('event["eventName"] == "ConsoleLogin" ' +
'and event["additionalEventData.MFAUsed"] != "Yes" ' +
'and "assumed-role/AWSReservedSSO" not in event.get("userIdentity.arn", "")')
# Notify if someone is trying to do something they not supposed to be doing but do not notify
# about not logged in actions since there are a lot of scans for open buckets that generate noise
default_rules.append('event.get("errorCode", "") == "UnauthorizedOperation"')
default_rules.append('event.get("errorCode", "") == "AccessDenied" ' +
'and (event.get("userIdentity.accountId", "") != "ANONYMOUS_PRINCIPAL")')
# Notify about all non-read actions done by root
default_rules.append('event.get("userIdentity.type", "") == "Root" ' +
'and not event["eventName"].startswith(("Get", "List", "Describe", "Head"))')
| default_rules = list()
default_rules.append('event["eventName"] == "ConsoleLogin" ' + 'and event["additionalEventData.MFAUsed"] != "Yes" ' + 'and "assumed-role/AWSReservedSSO" not in event.get("userIdentity.arn", "")')
default_rules.append('event.get("errorCode", "") == "UnauthorizedOperation"')
default_rules.append('event.get("errorCode", "") == "AccessDenied" ' + 'and (event.get("userIdentity.accountId", "") != "ANONYMOUS_PRINCIPAL")')
default_rules.append('event.get("userIdentity.type", "") == "Root" ' + 'and not event["eventName"].startswith(("Get", "List", "Describe", "Head"))') |
# -*- coding: UTF-8 -*-
#
# You are given two non-empty linked lists representing two non-negative integers. The digits are stored in reverse order and each of their nodes contain a single digit. Add the two numbers and return it as a linked list.
#
# You may assume the two numbers do not contain any leading zero, except the number 0 itself.
#
# Input: (2 -> 4 -> 3) + (5 -> 6 -> 4)
# Output: 7 -> 0 -> 8
#
# Result: Accept
class AddTwoNumbers(object):
def addTwoNumbers(self, l1, l2):
"""
:type l1: ListNode
:type l2: ListNode
:rtype: ListNode
"""
tmp1 = l1.next
tmp2 = l2.next
result = ListNode((l1.val + l2.val) % 10)
results = []
addOne = (l1.val + l2.val >= 10)
if addOne:
result.next = ListNode(1)
results.append(result)
while True:
if tmp1 is None and tmp2 is None:
break
else:
tmp = 0
if tmp1 is None:
tmp = tmp2.val
elif tmp2 is None:
tmp = tmp1.val
else:
tmp = tmp1.val + tmp2.val
if addOne:
tmp += 1
addOne = (tmp >= 10)
result = ListNode(tmp % 10)
if addOne:
result.next = ListNode(1)
results.append(result)
if tmp1 is not None:
tmp1 = tmp1.next
if tmp2 is not None:
tmp2 = tmp2.next
rst = results[0]
for i in range(1, len(results)):
rst.next = results[i]
rst = rst.next
return results[0]
class ListNode(object):
def __init__(self, x):
self.val = x
self.next = None
def __eq__(self, other):
return self.val == other.val and self.next == other.next
| class Addtwonumbers(object):
def add_two_numbers(self, l1, l2):
"""
:type l1: ListNode
:type l2: ListNode
:rtype: ListNode
"""
tmp1 = l1.next
tmp2 = l2.next
result = list_node((l1.val + l2.val) % 10)
results = []
add_one = l1.val + l2.val >= 10
if addOne:
result.next = list_node(1)
results.append(result)
while True:
if tmp1 is None and tmp2 is None:
break
else:
tmp = 0
if tmp1 is None:
tmp = tmp2.val
elif tmp2 is None:
tmp = tmp1.val
else:
tmp = tmp1.val + tmp2.val
if addOne:
tmp += 1
add_one = tmp >= 10
result = list_node(tmp % 10)
if addOne:
result.next = list_node(1)
results.append(result)
if tmp1 is not None:
tmp1 = tmp1.next
if tmp2 is not None:
tmp2 = tmp2.next
rst = results[0]
for i in range(1, len(results)):
rst.next = results[i]
rst = rst.next
return results[0]
class Listnode(object):
def __init__(self, x):
self.val = x
self.next = None
def __eq__(self, other):
return self.val == other.val and self.next == other.next |
class DisjointSet:
def __init__(self, elements):
self.parent = [0] * elements
self.size = [0] * elements
def make_set(self, value):
self.parent[value] = value
self.size[value] = 1
def find(self, value):
while self.parent[value] != value:
value = self.parent[value]
return value
def union(self, value1, value2):
parent1, parent2 = self.find(value1), self.find(value2)
if self.size[parent1] > self.size[parent2]:
self.parent[parent2] = parent1
self.size[parent1] += self.size[parent2]
else:
self.parent[parent1] = parent2
self.size[parent2] += self.size[parent1]
d = DisjointSet(8)
for i in range(8):
d.make_set(i)
d.union(1, 2)
d.union(2, 3)
d.union(4, 5)
print(d.find(2)) # Will return 2
print(d.find(4)) # Will return 5
d.union(2, 4)
print(d.find(5)) # Will return 2
| class Disjointset:
def __init__(self, elements):
self.parent = [0] * elements
self.size = [0] * elements
def make_set(self, value):
self.parent[value] = value
self.size[value] = 1
def find(self, value):
while self.parent[value] != value:
value = self.parent[value]
return value
def union(self, value1, value2):
(parent1, parent2) = (self.find(value1), self.find(value2))
if self.size[parent1] > self.size[parent2]:
self.parent[parent2] = parent1
self.size[parent1] += self.size[parent2]
else:
self.parent[parent1] = parent2
self.size[parent2] += self.size[parent1]
d = disjoint_set(8)
for i in range(8):
d.make_set(i)
d.union(1, 2)
d.union(2, 3)
d.union(4, 5)
print(d.find(2))
print(d.find(4))
d.union(2, 4)
print(d.find(5)) |
def factor(num1: float, num2: float):
if num1 % num2 == 0:
return f"{num2} is a factor of {num1}"
else:
return f"{num2} is not a factor of {num1}"
num1 = int(input("Enter a number: "))
num2 = int(input("Enter a number: "))
print(factor(num1, num2))
| def factor(num1: float, num2: float):
if num1 % num2 == 0:
return f'{num2} is a factor of {num1}'
else:
return f'{num2} is not a factor of {num1}'
num1 = int(input('Enter a number: '))
num2 = int(input('Enter a number: '))
print(factor(num1, num2)) |
n = input()
cnt = 0
for i in n:
if 'A' <= i <= 'C':
cnt += 3
elif 'D' <= i <= 'F':
cnt += 4
elif 'G' <= i <= 'I':
cnt += 5
elif 'J' <= i <= 'L':
cnt += 6
elif 'M' <= i <= 'O':
cnt += 7
elif 'P' <= i <= 'S':
cnt += 8
elif 'T' <= i <= 'V':
cnt += 9
elif 'W' <= i <= 'Z':
cnt += 10
elif i == 0:
cnt += 11
elif i == 1:
cnt += 2
print(cnt)
| n = input()
cnt = 0
for i in n:
if 'A' <= i <= 'C':
cnt += 3
elif 'D' <= i <= 'F':
cnt += 4
elif 'G' <= i <= 'I':
cnt += 5
elif 'J' <= i <= 'L':
cnt += 6
elif 'M' <= i <= 'O':
cnt += 7
elif 'P' <= i <= 'S':
cnt += 8
elif 'T' <= i <= 'V':
cnt += 9
elif 'W' <= i <= 'Z':
cnt += 10
elif i == 0:
cnt += 11
elif i == 1:
cnt += 2
print(cnt) |
class ClosestDistanceInfo:
def __init__(self, first, second, neighbours):
self.mFirst = first
self.mSecond = second
self.mNeighbours = neighbours
| class Closestdistanceinfo:
def __init__(self, first, second, neighbours):
self.mFirst = first
self.mSecond = second
self.mNeighbours = neighbours |
# -*- coding: utf-8 -*-
{
'actualizada': ['actualizadas'],
'eliminada': ['eliminadas'],
'fila': ['filas'],
'seleccionado': ['seleccionados'],
}
| {'actualizada': ['actualizadas'], 'eliminada': ['eliminadas'], 'fila': ['filas'], 'seleccionado': ['seleccionados']} |
"""sample scripts for covariance related stuff"""
def cov(v1, v2):
assert len(v1) == len(v2), "vectors should be of same size"
m1 = sum(v1) / (len(v1))
m2 = sum(v2) / (len(v2))
cov = 0
for i in range(0, len(v1)):
cov += (v1[i] - m1)*(v2[i]-m2)
return cov / (len(v1) -1 )
def cov_matrix(M):
"""calculates the covariance matrix from the matrix,
each line is a group of observations"""
ret = []
for i in range(0, len(M)):
line = []
for j in range(0, len(M)):
line.append(cov(M[i], M[j]))
ret.append(line)
return ret
# e.g.
arr = [[ 4. , 4.2 , 3.9 , 4.3 , 4.1 ],
[ 2. , 2.1 , 2. , 2.1 , 2.2 ],
[ 0.6 , 0.59, 0.58, 0.62, 0.63]]
covM = cov_matrix(arr)
| """sample scripts for covariance related stuff"""
def cov(v1, v2):
assert len(v1) == len(v2), 'vectors should be of same size'
m1 = sum(v1) / len(v1)
m2 = sum(v2) / len(v2)
cov = 0
for i in range(0, len(v1)):
cov += (v1[i] - m1) * (v2[i] - m2)
return cov / (len(v1) - 1)
def cov_matrix(M):
"""calculates the covariance matrix from the matrix,
each line is a group of observations"""
ret = []
for i in range(0, len(M)):
line = []
for j in range(0, len(M)):
line.append(cov(M[i], M[j]))
ret.append(line)
return ret
arr = [[4.0, 4.2, 3.9, 4.3, 4.1], [2.0, 2.1, 2.0, 2.1, 2.2], [0.6, 0.59, 0.58, 0.62, 0.63]]
cov_m = cov_matrix(arr) |
"""
Here's some complexity: what if the user gives us a letter in input() and not
a number? Or what if it's an decimal (float) instead of an integer? We need to
validate our inputs.
"""
def get_values():
"""
Retrieves two values to multiply
"""
user_values = input("On the next line, enter the values to multiply,\
separated by commas. \n>> ")
input_list = user_values.split(",")
final_list = []
#We've split the user's input into a list, but have no idea if it's any good.
#Let's check. If it's good, we'll add the integer to the final list.
for val in input_list:
try:
final_list.append(int(val))
except ValueError:
print("We need the list to be all integers!")
return get_values()
#Is it alright to return a list instead of a tuple now? They work similarly, so yes.
return final_list
def mult(terms):
terms_remaining = terms[::-1] #This is for clarity since we're going in reverse order
product = terms_remaining.pop()
for i in range(len(terms)-1):
current_term = product
next_term = terms_remaining.pop()
for o in range(next_term-1):
print(product)
product += current_term
return product
values = get_values()
answer = mult(values)
print(answer)
| """
Here's some complexity: what if the user gives us a letter in input() and not
a number? Or what if it's an decimal (float) instead of an integer? We need to
validate our inputs.
"""
def get_values():
"""
Retrieves two values to multiply
"""
user_values = input('On the next line, enter the values to multiply,separated by commas. \n>> ')
input_list = user_values.split(',')
final_list = []
for val in input_list:
try:
final_list.append(int(val))
except ValueError:
print('We need the list to be all integers!')
return get_values()
return final_list
def mult(terms):
terms_remaining = terms[::-1]
product = terms_remaining.pop()
for i in range(len(terms) - 1):
current_term = product
next_term = terms_remaining.pop()
for o in range(next_term - 1):
print(product)
product += current_term
return product
values = get_values()
answer = mult(values)
print(answer) |
#! /usr/bin/env python3
description ="""
Counting Sundays
Problem 19
You are given the following information, but you may prefer to do some research for yourself.
1 Jan 1900 was a Monday.
Thirty days has September,
April, June and November.
All the rest have thirty-one,
Saving February alone,
Which has twenty-eight, rain or shine.
And on leap years, twenty-nine.
A leap year occurs on any year evenly divisible by 4, but not on a century unless it is divisible by 400.
How many Sundays fell on the first of the month during the twentieth century (1 Jan 1901 to 31 Dec 2000)?
"""
def dayOfWeek(year, month, day):
"""Zellers congruence"""
date = '%d-%d-%d' % (year, month, day)
if month <= 2:
month += 12
year -= 1
q = day
m = month
k = year % 100
j = year // 100
h = (q + ((13 * (m + 1)) // 5) + k + (k // 4) + (j // 4) - (2 * j)) % 7
return h
assert(dayOfWeek(1900, 1, 1) == 2)
assert(dayOfWeek(2014, 2, 24) == 2)
assert(dayOfWeek(2013, 9, 1) == 1)
daysOfFirst = (dayOfWeek(year, month, 1) for year in range(1901, 2001) for month in range(1, 13))
firstSundays = sum((1 for x in daysOfFirst if x == 1))
print('There are', firstSundays, ' months having sunday on the 1st of the month between 1901 and 2000')
| description = '\nCounting Sundays\nProblem 19\nYou are given the following information, but you may prefer to do some research for yourself.\n\n1 Jan 1900 was a Monday.\nThirty days has September,\nApril, June and November.\nAll the rest have thirty-one,\nSaving February alone,\nWhich has twenty-eight, rain or shine.\nAnd on leap years, twenty-nine.\nA leap year occurs on any year evenly divisible by 4, but not on a century unless it is divisible by 400.\n\nHow many Sundays fell on the first of the month during the twentieth century (1 Jan 1901 to 31 Dec 2000)?\n'
def day_of_week(year, month, day):
"""Zellers congruence"""
date = '%d-%d-%d' % (year, month, day)
if month <= 2:
month += 12
year -= 1
q = day
m = month
k = year % 100
j = year // 100
h = (q + 13 * (m + 1) // 5 + k + k // 4 + j // 4 - 2 * j) % 7
return h
assert day_of_week(1900, 1, 1) == 2
assert day_of_week(2014, 2, 24) == 2
assert day_of_week(2013, 9, 1) == 1
days_of_first = (day_of_week(year, month, 1) for year in range(1901, 2001) for month in range(1, 13))
first_sundays = sum((1 for x in daysOfFirst if x == 1))
print('There are', firstSundays, ' months having sunday on the 1st of the month between 1901 and 2000') |
class node(object):
def __init__(self, data):
self.data = data
self.next = None
def get_data(self):
return self.data
def set_next(self, next):
self.next = next
def get_next(self):
return self.next
def has_next(self):
return self.next != None
class linkedlist(object):
def __init__(self):
self.head = None
def insert_at_begin(self,data):
new_node = node(data)
if self.head == 0:
self.head = new_node
else:
new_node.next = self.head
self.head = new_node
def insert(self,data):
new_node = node(data)
current = self.head
while current.get_next() != None:
current = current.get_next()
current.set_next(new_node)
def printll(self):
temp = self.head
while(temp):
print(temp.data)
temp = temp.next
new = linkedlist()
new.insert_at_begin('10')
new.insert_at_begin('10')
new.insert_at_begin('10')
new.insert('20')
new.printll()
| class Node(object):
def __init__(self, data):
self.data = data
self.next = None
def get_data(self):
return self.data
def set_next(self, next):
self.next = next
def get_next(self):
return self.next
def has_next(self):
return self.next != None
class Linkedlist(object):
def __init__(self):
self.head = None
def insert_at_begin(self, data):
new_node = node(data)
if self.head == 0:
self.head = new_node
else:
new_node.next = self.head
self.head = new_node
def insert(self, data):
new_node = node(data)
current = self.head
while current.get_next() != None:
current = current.get_next()
current.set_next(new_node)
def printll(self):
temp = self.head
while temp:
print(temp.data)
temp = temp.next
new = linkedlist()
new.insert_at_begin('10')
new.insert_at_begin('10')
new.insert_at_begin('10')
new.insert('20')
new.printll() |
# Longest common sub sequence:
def find_length_lcs(a1, a2):
N = len(a1)
dp = [[0 for i in range(N + 1)] for j in range(N + 1)]
for i in range(1, N + 1):
for j in range(1, N + 1):
if a1[i - 1] == a2[j - 1]:
dp[i][j] = 1 + dp[i - 1][j - 1]
else:
dp[i][j] = max(dp[i - 1][j], dp[i][j - 1])
print(dp)
return dp[N][N]
# print(find_length_lcs([2, 3, 1], [1, 2, 3]))
def find_least_slice(matrix, N):
dp = [[0 for i in range(N)] for j in range(N)]
for i in range(N):
dp[0][i] = matrix[0][i]
for i in range(1, N):
for j in range(N):
left = float("INF")
right = float("INF")
if (j - 1 >= 0):
left = dp[i - 1][j - 1]
if j + 1 < N:
right = dp[i - 1][j + 1]
dp[i][j] = matrix[i][j] + min(left, min(dp[i - 1][j], right))
print(dp[N-1][:])
return min(dp[N-1][:])
print(find_least_slice(([1, 2, 3], [4, 5, 6], [7, 8, 9]), 3))
| def find_length_lcs(a1, a2):
n = len(a1)
dp = [[0 for i in range(N + 1)] for j in range(N + 1)]
for i in range(1, N + 1):
for j in range(1, N + 1):
if a1[i - 1] == a2[j - 1]:
dp[i][j] = 1 + dp[i - 1][j - 1]
else:
dp[i][j] = max(dp[i - 1][j], dp[i][j - 1])
print(dp)
return dp[N][N]
def find_least_slice(matrix, N):
dp = [[0 for i in range(N)] for j in range(N)]
for i in range(N):
dp[0][i] = matrix[0][i]
for i in range(1, N):
for j in range(N):
left = float('INF')
right = float('INF')
if j - 1 >= 0:
left = dp[i - 1][j - 1]
if j + 1 < N:
right = dp[i - 1][j + 1]
dp[i][j] = matrix[i][j] + min(left, min(dp[i - 1][j], right))
print(dp[N - 1][:])
return min(dp[N - 1][:])
print(find_least_slice(([1, 2, 3], [4, 5, 6], [7, 8, 9]), 3)) |
entries = [
{
'env-title': 'atari-alien',
'env-variant': 'No-op start',
'score': 5778,
'stddev': 2189,
},
{
'env-title': 'atari-amidar',
'env-variant': 'No-op start',
'score': 3537,
'stddev': 521,
},
{
'env-title': 'atari-assault',
'env-variant': 'No-op start',
'score': 11231,
'stddev': 503,
},
{
'env-title': 'atari-asterix',
'env-variant': 'No-op start',
'score': 28350,
'stddev': 607,
},
{
'env-title': 'atari-asteroids',
'env-variant': 'No-op start',
'score': 86700,
'stddev': 80459,
},
{
'env-title': 'atari-atlantis',
'env-variant': 'No-op start',
'score': 972175,
'stddev': 31961,
},
{
'env-title': 'atari-bank-heist',
'env-variant': 'No-op start',
'score': 1318,
'stddev': 37,
},
{
'env-title': 'atari-battle-zone',
'env-variant': 'No-op start',
'score': 52262,
'stddev': 1480,
},
{
'env-title': 'atari-beam-rider',
'env-variant': 'No-op start',
'score': 18501,
'stddev': 662,
},
{
'env-title': 'atari-berzerk',
'env-variant': 'No-op start',
'score': 1896,
'stddev': 604,
},
{
'env-title': 'atari-bowling',
'env-variant': 'No-op start',
'score': 68,
'stddev': 6,
},
{
'env-title': 'atari-boxing',
'env-variant': 'No-op start',
'score': 100,
'stddev': 0,
},
{
'env-title': 'atari-breakout',
'env-variant': 'No-op start',
'score': 263,
'stddev': 20,
},
{
'env-title': 'atari-centipede',
'env-variant': 'No-op start',
'score': 7596,
'stddev': 1134,
},
{
'env-title': 'atari-chopper-command',
'env-variant': 'No-op start',
'score': 11477,
'stddev': 1299,
},
{
'env-title': 'atari-crazy-climber',
'env-variant': 'No-op start',
'score': 171171,
'stddev': 2095,
},
{
'env-title': 'atari-defender',
'env-variant': 'No-op start',
'score': 42253,
'stddev': 2142,
},
{
'env-title': 'atari-demon-attack',
'env-variant': 'No-op start',
'score': 69311,
'stddev': 26289,
},
{
'env-title': 'atari-double-dunk',
'env-variant': 'No-op start',
'score': 1,
'stddev': 0,
},
{
'env-title': 'atari-enduro',
'env-variant': 'No-op start',
'score': 2013,
'stddev': 219,
},
{
'env-title': 'atari-fishing-derby',
'env-variant': 'No-op start',
'score': 57,
'stddev': 2,
},
{
'env-title': 'atari-freeway',
'env-variant': 'No-op start',
'score': 34,
'stddev': 0,
},
{
'env-title': 'atari-frostbite',
'env-variant': 'No-op start',
'score': 2923,
'stddev': 1519,
},
{
'env-title': 'atari-gopher',
'env-variant': 'No-op start',
'score': 38909,
'stddev': 2229,
},
{
'env-title': 'atari-gravitar',
'env-variant': 'No-op start',
'score': 2209,
'stddev': 99,
},
{
'env-title': 'atari-hero',
'env-variant': 'No-op start',
'score': 31533,
'stddev': 4970,
},
{
'env-title': 'atari-ice-hockey',
'env-variant': 'No-op start',
'score': 3,
'stddev': 1,
},
{
'env-title': 'atari-jamesbond',
'env-variant': 'No-op start',
'score': 4682,
'stddev': 2281,
},
{
'env-title': 'atari-kangaroo',
'env-variant': 'No-op start',
'score': 15227,
'stddev': 243,
},
{
'env-title': 'atari-krull',
'env-variant': 'No-op start',
'score': 10754,
'stddev': 181,
},
{
'env-title': 'atari-kung-fu-master',
'env-variant': 'No-op start',
'score': 41672,
'stddev': 1668,
},
{
'env-title': 'atari-montezuma-revenge',
'env-variant': 'No-op start',
'score': 57,
'stddev': 15,
},
{
'env-title': 'atari-ms-pacman',
'env-variant': 'No-op start',
'score': 5546,
'stddev': 367,
},
{
'env-title': 'atari-name-this-game',
'env-variant': 'No-op start',
'score': 12211,
'stddev': 251,
},
{
'env-title': 'atari-phoenix',
'env-variant': 'No-op start',
'score': 10379,
'stddev': 547,
},
{
'env-title': 'atari-pitfall',
'env-variant': 'No-op start',
'score': 0,
'stddev': 0,
},
{
'env-title': 'atari-pong',
'env-variant': 'No-op start',
'score': 21,
'stddev': 0,
},
{
'env-title': 'atari-private-eye',
'env-variant': 'No-op start',
'score': 279,
'stddev': 109,
},
{
'env-title': 'atari-qbert',
'env-variant': 'No-op start',
'score': 27121,
'stddev': 422,
},
{
'env-title': 'atari-riverraid',
'env-variant': 'No-op start',
'score': 23134,
'stddev': 1434,
},
{
'env-title': 'atari-road-runner',
'env-variant': 'No-op start',
'score': 234352,
'stddev': 132671,
},
{
'env-title': 'atari-robotank',
'env-variant': 'No-op start',
'score': 64,
'stddev': 1,
},
{
'env-title': 'atari-seaquest',
'env-variant': 'No-op start',
'score': 16754,
'stddev': 6619,
},
{
'env-title': 'atari-skiing',
'env-variant': 'No-op start',
'score': -7550,
'stddev': 451,
},
{
'env-title': 'atari-solaris',
'env-variant': 'No-op start',
'score': 6522,
'stddev': 750,
},
{
'env-title': 'atari-space-invaders',
'env-variant': 'No-op start',
'score': 5909,
'stddev': 1318,
},
{
'env-title': 'atari-star-gunner',
'env-variant': 'No-op start',
'score': 75867,
'stddev': 8623,
},
{
'env-title': 'atari-surround',
'env-variant': 'No-op start',
'score': 10,
'stddev': 0,
},
{
'env-title': 'atari-tennis',
'env-variant': 'No-op start',
'score': 0,
'stddev': 0,
},
{
'env-title': 'atari-time-pilot',
'env-variant': 'No-op start',
'score': 17301,
'stddev': 1200,
},
{
'env-title': 'atari-tutankham',
'env-variant': 'No-op start',
'score': 269,
'stddev': 19,
},
{
'env-title': 'atari-up-n-down',
'env-variant': 'No-op start',
'score': 61326,
'stddev': 6052,
},
{
'env-title': 'atari-venture',
'env-variant': 'No-op start',
'score': 815,
'stddev': 114,
},
{
'env-title': 'atari-video-pinball',
'env-variant': 'No-op start',
'score': 870954,
'stddev': 135363,
},
{
'env-title': 'atari-wizard-of-wor',
'env-variant': 'No-op start',
'score': 9149,
'stddev': 641,
},
{
'env-title': 'atari-yars-revenge',
'env-variant': 'No-op start',
'score': 86101,
'stddev': 4136,
},
{
'env-title': 'atari-zaxxon',
'env-variant': 'No-op start',
'score': 14874,
'stddev': 214,
},
]
| entries = [{'env-title': 'atari-alien', 'env-variant': 'No-op start', 'score': 5778, 'stddev': 2189}, {'env-title': 'atari-amidar', 'env-variant': 'No-op start', 'score': 3537, 'stddev': 521}, {'env-title': 'atari-assault', 'env-variant': 'No-op start', 'score': 11231, 'stddev': 503}, {'env-title': 'atari-asterix', 'env-variant': 'No-op start', 'score': 28350, 'stddev': 607}, {'env-title': 'atari-asteroids', 'env-variant': 'No-op start', 'score': 86700, 'stddev': 80459}, {'env-title': 'atari-atlantis', 'env-variant': 'No-op start', 'score': 972175, 'stddev': 31961}, {'env-title': 'atari-bank-heist', 'env-variant': 'No-op start', 'score': 1318, 'stddev': 37}, {'env-title': 'atari-battle-zone', 'env-variant': 'No-op start', 'score': 52262, 'stddev': 1480}, {'env-title': 'atari-beam-rider', 'env-variant': 'No-op start', 'score': 18501, 'stddev': 662}, {'env-title': 'atari-berzerk', 'env-variant': 'No-op start', 'score': 1896, 'stddev': 604}, {'env-title': 'atari-bowling', 'env-variant': 'No-op start', 'score': 68, 'stddev': 6}, {'env-title': 'atari-boxing', 'env-variant': 'No-op start', 'score': 100, 'stddev': 0}, {'env-title': 'atari-breakout', 'env-variant': 'No-op start', 'score': 263, 'stddev': 20}, {'env-title': 'atari-centipede', 'env-variant': 'No-op start', 'score': 7596, 'stddev': 1134}, {'env-title': 'atari-chopper-command', 'env-variant': 'No-op start', 'score': 11477, 'stddev': 1299}, {'env-title': 'atari-crazy-climber', 'env-variant': 'No-op start', 'score': 171171, 'stddev': 2095}, {'env-title': 'atari-defender', 'env-variant': 'No-op start', 'score': 42253, 'stddev': 2142}, {'env-title': 'atari-demon-attack', 'env-variant': 'No-op start', 'score': 69311, 'stddev': 26289}, {'env-title': 'atari-double-dunk', 'env-variant': 'No-op start', 'score': 1, 'stddev': 0}, {'env-title': 'atari-enduro', 'env-variant': 'No-op start', 'score': 2013, 'stddev': 219}, {'env-title': 'atari-fishing-derby', 'env-variant': 'No-op start', 'score': 57, 'stddev': 2}, {'env-title': 'atari-freeway', 'env-variant': 'No-op start', 'score': 34, 'stddev': 0}, {'env-title': 'atari-frostbite', 'env-variant': 'No-op start', 'score': 2923, 'stddev': 1519}, {'env-title': 'atari-gopher', 'env-variant': 'No-op start', 'score': 38909, 'stddev': 2229}, {'env-title': 'atari-gravitar', 'env-variant': 'No-op start', 'score': 2209, 'stddev': 99}, {'env-title': 'atari-hero', 'env-variant': 'No-op start', 'score': 31533, 'stddev': 4970}, {'env-title': 'atari-ice-hockey', 'env-variant': 'No-op start', 'score': 3, 'stddev': 1}, {'env-title': 'atari-jamesbond', 'env-variant': 'No-op start', 'score': 4682, 'stddev': 2281}, {'env-title': 'atari-kangaroo', 'env-variant': 'No-op start', 'score': 15227, 'stddev': 243}, {'env-title': 'atari-krull', 'env-variant': 'No-op start', 'score': 10754, 'stddev': 181}, {'env-title': 'atari-kung-fu-master', 'env-variant': 'No-op start', 'score': 41672, 'stddev': 1668}, {'env-title': 'atari-montezuma-revenge', 'env-variant': 'No-op start', 'score': 57, 'stddev': 15}, {'env-title': 'atari-ms-pacman', 'env-variant': 'No-op start', 'score': 5546, 'stddev': 367}, {'env-title': 'atari-name-this-game', 'env-variant': 'No-op start', 'score': 12211, 'stddev': 251}, {'env-title': 'atari-phoenix', 'env-variant': 'No-op start', 'score': 10379, 'stddev': 547}, {'env-title': 'atari-pitfall', 'env-variant': 'No-op start', 'score': 0, 'stddev': 0}, {'env-title': 'atari-pong', 'env-variant': 'No-op start', 'score': 21, 'stddev': 0}, {'env-title': 'atari-private-eye', 'env-variant': 'No-op start', 'score': 279, 'stddev': 109}, {'env-title': 'atari-qbert', 'env-variant': 'No-op start', 'score': 27121, 'stddev': 422}, {'env-title': 'atari-riverraid', 'env-variant': 'No-op start', 'score': 23134, 'stddev': 1434}, {'env-title': 'atari-road-runner', 'env-variant': 'No-op start', 'score': 234352, 'stddev': 132671}, {'env-title': 'atari-robotank', 'env-variant': 'No-op start', 'score': 64, 'stddev': 1}, {'env-title': 'atari-seaquest', 'env-variant': 'No-op start', 'score': 16754, 'stddev': 6619}, {'env-title': 'atari-skiing', 'env-variant': 'No-op start', 'score': -7550, 'stddev': 451}, {'env-title': 'atari-solaris', 'env-variant': 'No-op start', 'score': 6522, 'stddev': 750}, {'env-title': 'atari-space-invaders', 'env-variant': 'No-op start', 'score': 5909, 'stddev': 1318}, {'env-title': 'atari-star-gunner', 'env-variant': 'No-op start', 'score': 75867, 'stddev': 8623}, {'env-title': 'atari-surround', 'env-variant': 'No-op start', 'score': 10, 'stddev': 0}, {'env-title': 'atari-tennis', 'env-variant': 'No-op start', 'score': 0, 'stddev': 0}, {'env-title': 'atari-time-pilot', 'env-variant': 'No-op start', 'score': 17301, 'stddev': 1200}, {'env-title': 'atari-tutankham', 'env-variant': 'No-op start', 'score': 269, 'stddev': 19}, {'env-title': 'atari-up-n-down', 'env-variant': 'No-op start', 'score': 61326, 'stddev': 6052}, {'env-title': 'atari-venture', 'env-variant': 'No-op start', 'score': 815, 'stddev': 114}, {'env-title': 'atari-video-pinball', 'env-variant': 'No-op start', 'score': 870954, 'stddev': 135363}, {'env-title': 'atari-wizard-of-wor', 'env-variant': 'No-op start', 'score': 9149, 'stddev': 641}, {'env-title': 'atari-yars-revenge', 'env-variant': 'No-op start', 'score': 86101, 'stddev': 4136}, {'env-title': 'atari-zaxxon', 'env-variant': 'No-op start', 'score': 14874, 'stddev': 214}] |
class CacheData:
def __init__(self, cache=None, root=None,hit=None,full=None):
self.cache = cache
self.root = root
self.hit = hit
self.full = full
| class Cachedata:
def __init__(self, cache=None, root=None, hit=None, full=None):
self.cache = cache
self.root = root
self.hit = hit
self.full = full |
##
# This software was developed and / or modified by Raytheon Company,
# pursuant to Contract DG133W-05-CQ-1067 with the US Government.
#
# U.S. EXPORT CONTROLLED TECHNICAL DATA
# This software product contains export-restricted data whose
# export/transfer/disclosure is restricted by U.S. law. Dissemination
# to non-U.S. persons whether in the United States or abroad requires
# an export license or other authorization.
#
# Contractor Name: Raytheon Company
# Contractor Address: 6825 Pine Street, Suite 340
# Mail Stop B8
# Omaha, NE 68106
# 402.291.0100
#
# See the AWIPS II Master Rights File ("Master Rights File.pdf") for
# further licensing information.
##
#----------------------------------------------------------------------------
#
# SOFTWARE HISTORY
#
# Date Ticket# Engineer Description
# ------------ ---------- ----------- --------------------------
# ?? ?? ?? Initial creation
# 02/10/2016 5283 nabowle Remove NGM support.
#---------------------------------------------------------------------
##
# This is an absolute override file, indicating that a higher priority version
# of the file will completely replace a lower priority version of the file.
##
#---------------------------------------------------------------------
#
# B O I V E R I F Y C O N F I G U R A T I O N
#
#---------------------------------------------------------------------
#
# VERDIR = top directory where verification data will be stored
#
VERDIR="/data/verify"
#
# EDITAREAS = filename with list of edit areas (must be in VERDIR
# directory)
#
EDITAREAS="EditAreas.dat"
#
# PERCENT_COLOR = Color table name to use for percentage displays
#
PERCENT_COLOR="Warm To Cold"
#
# GRIDDAYS = number of days to keep grids in database
# STATDAYS = number of days to keep stats in database
#
# These can be changed - but they have serious implications for the
# size of the files that are created. Once you have large netCDF
# datafiles, making these numbers smaller will have no effect.
# Eventually we'll have a program that will change of a grid database
# for more or less days.
#
GRIDDAYS=200 # number of days of grids to keep
STATDAYS=500 # number of days to keep stats
#
# OBSMODELS = Name of databases that can be used for "truth"
#
OBSMODELS=["Obs","RFCQPE"]
#OBSMODELS=["RTMA"]
#
# VERCONFIG = configuration info for each parms to verify.
#
# For each parm, specify a tuple of:
#
# parmType = 0=SCALAR, 1=VECTOR (we don't do weather yet)
# verType = 0=value, 1=probability
# SaveInt = 0=save all grids, 3= save 0,3,6,9 UTC grids, etc.
# Thresholds = a tuple with 5 threshold values
# BinWidth = width of bins in histograms
# MaxErr = max error to show in displays
# ColorCurve = color curve to use for error displays
# obsParm = observed Parm name. For probability type parms
# this is a tuple with 3 entries:
# observed Parm Name
# threshold type string (">" ">=" "<" ",=")
# threshold value
#
# If parm is a vector, then each of the config values from Thresholds on
# are tuples with the first for 'magnitude' and the second for 'direction'
#
VERCONFIG={}
VERCONFIG["T"] =(0,0,3, (1,3,5,7,10), 0.5, 20, "BV_Change1","T")
VERCONFIG["MaxT"] =(0,0,0, (1,3,5,7,10), 0.5, 20, "BV_Change1","MaxT")
VERCONFIG["MinT"] =(0,0,0, (1,3,5,7,10), 0.5, 20, "BV_Change1","MinT")
VERCONFIG["Td"] =(0,0,3, (1,3,5,7,10), 0.5, 20, "BV_Change2","Td")
VERCONFIG["TdAft"] =(0,0,0, (1,3,5,7,10), 0.5, 20, "BV_Change2","TdAft")
VERCONFIG["TdMrn"] =(0,0,0, (1,3,5,7,10), 0.5, 20, "BV_Change2","TdMrn")
VERCONFIG["RH"] =(0,0,3,(2,4,8,15,30), 1.0, 40, "BV_Change2","RH")
VERCONFIG["MaxRH"] =(0,0,0,(2,4,8,15,30), 1.0, 40, "BV_Change2","MaxRH")
VERCONFIG["MinRH"] =(0,0,0,(2,4,8,15,30), 1.0, 40, "BV_Change2","MinRH")
VERCONFIG["Wind"] =(1,0,3,((1,3,5,7,10),(10,30,50,70,90)),
(1.0,10.0),(20,180),("BV_Change1","BV_Change1"),"Wind")
VERCONFIG["PoP"] =(0,1,0,(5,10,20,30,50), 2.5, 100, "BV_Change2",("QPE06",">=",0.01))
VERCONFIG["QPF"] =(0,0,0,(0.05,0.10,0.25,0.50,1.00),0.05,1.0,"BV_Change2","QPE06")
#
# SAVE_MODELS = Names of GFE databases to archive in BOIVerifySave
#
SAVE_MODELS=["GFS40","GFS40BC","ADJMAV","ADJMAVBC","ADJMEX","ADJMEXBC",
"ADJMEH","ADJMEN","ADJMEL",
"MOSGuide","MOSGuideBC",
"NAM12","NAM12BC","ADJMET","ADJMETBC",
"DGEX","DGEXBC","ADJDGX","ADJDGXBC",
"ADJFWC","ADJFWCBC",
"ADJKAF","ADJKAFBC",
"SREF","SREFBC",
"Official","ISC",
]
#
# Possible Model Cycles - as strings. The hours
# for these cycles, relative to 00 UTC are taken as
# the int() of these strings.
#
ALLCYCLES=["00","03","06","09","12","15","18","21"]
#
# Rounding used in scale entries
#
NOMINALSPACING=1.25
#
# Maximum number of hours in any forecast from any model
# (you can set it higher than needed - but it will slow things down
# during the saving of data, and also when searching for data)
#
MAXFORECASTHOUR=240
#
# If FORECASTER_LIST_TRIMMING is set to 1, then they can only
# calculate stats for the username that they logged into GFE as
# (or the entire office). If set to 0, then they can calculate
# for anyone in the office
#
FORECASTER_LIST_TRIMMING=0
#
# Even if FORECASTER_LIST_TRIMMING is turned on, if you list a
# username in the ADMINISTRATORS list, that user will be able to
# calculate data for any individual in the office
#
FORECASTER_LIST_TRIMMING_ADMINISTRATORS=['SITE','tbarker']
#
# The format of the forecaster list can be "number" "id","name",
# "number-name", or "number-id","
#
FORECASTER_LIST_FORMAT="number-name"
#
# Sorting of the forecaster list can be done by "number","id", or "name"
#
FORECASTER_LIST_SORT="number"
#
# Resolution of Accumulation periods (i.e., if this is set to 3, then
# verification can only be done on periods 3, 6, 9, 12 hours long, etc.
# whereas, if this is 6, then verification can only be done on periods
# 6, 12, 18, 24 hours long, etc.
#
ACCUM_RESOLUTION=3
#
# This is the default length of Accumulation periods. It must be an
# interval of ACCUM_RESOLUTION above.
#
ACCUM_LENGTH_DEFAULT=12
#
# This is the default frequency of Accumulation periods. It must be
# greater than 1, but should NOT be greater than 24.
#
ACCUM_FREQUENCY_DEFAULT=12
#
# When looking for grids that are "in" a particular day, we need to
# be careful about 'long' grids, like MaxT or MinT. For example, in
# some timezones, a "UTC day" will have the end of one MaxT grid, then
# a blank time, and then the start of another MaxT grid. Which one is
# the "one" for that particular day? The OFFSET hours are added to the
# start and end of a UTC day - and then grids are checked to see if they
# intersect this new 'time period' for the day.
#
# For example, in the mountain timezone, a MaxT grid starts at 14Z and
# lasts through 02Z the next UTC day. When looking at grids for, say,
# Oct 3rd, we don't want to consider the one that crosses over the first
# 2 hours of the UTC day - we want only the one that intersects the "end"
# of the day. So...we set the START_OFFSET_HOURS for "MaxT" to 12. Only
# grids that cross over the 12Z to 00Z 'end' of the day will be considered
# for 'that day'.
#
# Likewise, some definitions of MaxRH in the mountain timezone go from
# 22Z on one day, through 16Z on the next day (although there is no
# 'standard' for period definitions for MaxRH/MinRH). We want the MaxRH
# for a particular day, to be the one that covers the period from 00Z to
# 16Z, not the 2 hours of the next one that starts at 22Z late in the day.
# So...we set the END_OFFSET_HOURS for MaxRH to -12. The 'end' of the day
# is now 12Z, so only grids that intersect the 00Z to 12Z period are
# considered for that day.
#
# For parms NOT listed here - the offset is zero - which is the normal
# situation for parms that don't cover a time period.
#
END_OFFSET_HOURS= {"MinT":-12,
"TdMrn":-12,
"MaxRH":-12,
}
START_OFFSET_HOURS={"MaxT":12,
"TdAft":12,
"MinRH":12,
}
#
# BASE_OFFSET is used when figuring out common cases. For any model
# listed here, we add the specified number of hours to it's real basetime
# to get it's "effective" basetime, and compare that to other models
# when finding common cases. For example, if we have "SREF":-3, here
# then for a 15Z run of the SREF model - we will add -3 hours to that,
# getting 12Z - and check for other 12Z models when finding common cases.
#
BASE_OFFSET={"DGEX":6,
"DGEXBC":6,
"ADJDGX":6,
"ADJDGXBC":6,
"SREF":-3,
"SREFBC":-3,
}
#
# When parms are listed in the BOIVerifyInfo - they will be in this order
# with any other parms added alphabetically after those listed here.
#
PARMINFO_ORDER=["MaxT","MinT","T","PoP","QPF","Wind","MaxRH","MinRH","RH",
"TdMrn","TdAft","Td"]
#
# SAVE_MAXVERSIONS is the maximum number of old GFE databases to scan
# to see if there is any data that has not yet been moved to the
# BOIVerify databases. I suppose you could save some time by setting
# this smaller - but it takes just a second or two to scan a GFE
# database to see if any of it's grids need to be archived...so I
# wouldn't change this from 10
#
SAVE_MAXVERSIONS=10
#
# AUTOCALC_DAYS is the normal number of recent days observations to
# scan for new data - when pre-calculating scores in BOIVerifyAutoCalc
#
AUTOCALC_DAYS=5
#
# AUTOCALC_TOO_RECENT is in hours. Used by BOIVerifyAutoCalc.
# If an observation grid has been stored within this many hours - it
# won't calculate scores yet - figuring that this observation grid
# might get revised later and we don't want to waste time calculating
# these scores again.
#
AUTOCALC_TOO_RECENT=12
#
# BIASCORR_DAYS is the normal number of recent days forecasts to use
# for the Bias Correction regression in BOIVerifyBiasCorr
#
BIASCORR_DAYS=30
#
# BIASCORR_MINDAYS is the minimum number of recent days that have to exist
# before performing a Bias Correction regression in BOIVerifyBiasCorr
#
BIASCORR_MINDAYS=14
| verdir = '/data/verify'
editareas = 'EditAreas.dat'
percent_color = 'Warm To Cold'
griddays = 200
statdays = 500
obsmodels = ['Obs', 'RFCQPE']
verconfig = {}
VERCONFIG['T'] = (0, 0, 3, (1, 3, 5, 7, 10), 0.5, 20, 'BV_Change1', 'T')
VERCONFIG['MaxT'] = (0, 0, 0, (1, 3, 5, 7, 10), 0.5, 20, 'BV_Change1', 'MaxT')
VERCONFIG['MinT'] = (0, 0, 0, (1, 3, 5, 7, 10), 0.5, 20, 'BV_Change1', 'MinT')
VERCONFIG['Td'] = (0, 0, 3, (1, 3, 5, 7, 10), 0.5, 20, 'BV_Change2', 'Td')
VERCONFIG['TdAft'] = (0, 0, 0, (1, 3, 5, 7, 10), 0.5, 20, 'BV_Change2', 'TdAft')
VERCONFIG['TdMrn'] = (0, 0, 0, (1, 3, 5, 7, 10), 0.5, 20, 'BV_Change2', 'TdMrn')
VERCONFIG['RH'] = (0, 0, 3, (2, 4, 8, 15, 30), 1.0, 40, 'BV_Change2', 'RH')
VERCONFIG['MaxRH'] = (0, 0, 0, (2, 4, 8, 15, 30), 1.0, 40, 'BV_Change2', 'MaxRH')
VERCONFIG['MinRH'] = (0, 0, 0, (2, 4, 8, 15, 30), 1.0, 40, 'BV_Change2', 'MinRH')
VERCONFIG['Wind'] = (1, 0, 3, ((1, 3, 5, 7, 10), (10, 30, 50, 70, 90)), (1.0, 10.0), (20, 180), ('BV_Change1', 'BV_Change1'), 'Wind')
VERCONFIG['PoP'] = (0, 1, 0, (5, 10, 20, 30, 50), 2.5, 100, 'BV_Change2', ('QPE06', '>=', 0.01))
VERCONFIG['QPF'] = (0, 0, 0, (0.05, 0.1, 0.25, 0.5, 1.0), 0.05, 1.0, 'BV_Change2', 'QPE06')
save_models = ['GFS40', 'GFS40BC', 'ADJMAV', 'ADJMAVBC', 'ADJMEX', 'ADJMEXBC', 'ADJMEH', 'ADJMEN', 'ADJMEL', 'MOSGuide', 'MOSGuideBC', 'NAM12', 'NAM12BC', 'ADJMET', 'ADJMETBC', 'DGEX', 'DGEXBC', 'ADJDGX', 'ADJDGXBC', 'ADJFWC', 'ADJFWCBC', 'ADJKAF', 'ADJKAFBC', 'SREF', 'SREFBC', 'Official', 'ISC']
allcycles = ['00', '03', '06', '09', '12', '15', '18', '21']
nominalspacing = 1.25
maxforecasthour = 240
forecaster_list_trimming = 0
forecaster_list_trimming_administrators = ['SITE', 'tbarker']
forecaster_list_format = 'number-name'
forecaster_list_sort = 'number'
accum_resolution = 3
accum_length_default = 12
accum_frequency_default = 12
end_offset_hours = {'MinT': -12, 'TdMrn': -12, 'MaxRH': -12}
start_offset_hours = {'MaxT': 12, 'TdAft': 12, 'MinRH': 12}
base_offset = {'DGEX': 6, 'DGEXBC': 6, 'ADJDGX': 6, 'ADJDGXBC': 6, 'SREF': -3, 'SREFBC': -3}
parminfo_order = ['MaxT', 'MinT', 'T', 'PoP', 'QPF', 'Wind', 'MaxRH', 'MinRH', 'RH', 'TdMrn', 'TdAft', 'Td']
save_maxversions = 10
autocalc_days = 5
autocalc_too_recent = 12
biascorr_days = 30
biascorr_mindays = 14 |
validators = {
"departure location": [[45, 609], [616, 954]],
"departure station": [[32, 194], [211, 972]],
"departure platform": [[35, 732], [744, 970]],
"departure track": [[40, 626], [651, 952]],
"departure date": [[44, 170], [184, 962]],
"departure time": [[49, 528], [538, 954]],
"arrival location": [[36, 448], [464, 956]],
"arrival station": [[48, 356], [373, 972]],
"arrival platform": [[25, 118], [132, 954]],
"arrival track": [[43, 703], [719, 965]],
"class": [[29, 822], [828, 961]],
"duration": [[25, 131], [151, 967]],
"price": [[44, 784], [794, 958]],
"route": [[25, 498], [511, 951]],
"row": [[44, 905], [916, 973]],
"seat": [[26, 756], [777, 960]],
"train": [[36, 803], [819, 954]],
"type": [[33, 318], [335, 967]],
"wagon": [[46, 558], [570, 969]],
"zone": [[47, 249], [265, 972]],
}
other_tickets = []
with open("tickets.txt") as file_handler:
for line in file_handler:
other_tickets.append([int(n) for n in line.strip().split(",")])
invalid_ticket_indexes = set()
error_scanning_rate = 0
for n, other_ticket in enumerate(other_tickets):
for number in other_ticket:
valid_in_terms_of = []
for validator_name, validator_ranges in validators.items():
valid = False
for validator_range in validator_ranges:
if number in range(validator_range[0], validator_range[1] + 1):
valid = True
break
if valid:
valid_in_terms_of.append(validator_name)
if len(valid_in_terms_of) == 0:
invalid_ticket_indexes.add(n)
error_scanning_rate += number
print(len(invalid_ticket_indexes))
print(error_scanning_rate)
with open("valid_tickets.txt", "w") as file_handler:
for n, other_ticket in enumerate(other_tickets):
if n not in invalid_ticket_indexes:
as_string = []
for i in other_ticket:
as_string.append(str(i))
file_handler.write(",".join(as_string) + "\n")
| validators = {'departure location': [[45, 609], [616, 954]], 'departure station': [[32, 194], [211, 972]], 'departure platform': [[35, 732], [744, 970]], 'departure track': [[40, 626], [651, 952]], 'departure date': [[44, 170], [184, 962]], 'departure time': [[49, 528], [538, 954]], 'arrival location': [[36, 448], [464, 956]], 'arrival station': [[48, 356], [373, 972]], 'arrival platform': [[25, 118], [132, 954]], 'arrival track': [[43, 703], [719, 965]], 'class': [[29, 822], [828, 961]], 'duration': [[25, 131], [151, 967]], 'price': [[44, 784], [794, 958]], 'route': [[25, 498], [511, 951]], 'row': [[44, 905], [916, 973]], 'seat': [[26, 756], [777, 960]], 'train': [[36, 803], [819, 954]], 'type': [[33, 318], [335, 967]], 'wagon': [[46, 558], [570, 969]], 'zone': [[47, 249], [265, 972]]}
other_tickets = []
with open('tickets.txt') as file_handler:
for line in file_handler:
other_tickets.append([int(n) for n in line.strip().split(',')])
invalid_ticket_indexes = set()
error_scanning_rate = 0
for (n, other_ticket) in enumerate(other_tickets):
for number in other_ticket:
valid_in_terms_of = []
for (validator_name, validator_ranges) in validators.items():
valid = False
for validator_range in validator_ranges:
if number in range(validator_range[0], validator_range[1] + 1):
valid = True
break
if valid:
valid_in_terms_of.append(validator_name)
if len(valid_in_terms_of) == 0:
invalid_ticket_indexes.add(n)
error_scanning_rate += number
print(len(invalid_ticket_indexes))
print(error_scanning_rate)
with open('valid_tickets.txt', 'w') as file_handler:
for (n, other_ticket) in enumerate(other_tickets):
if n not in invalid_ticket_indexes:
as_string = []
for i in other_ticket:
as_string.append(str(i))
file_handler.write(','.join(as_string) + '\n') |
# This module implements the public interface to the "counter" package.
def reset():
""" Reset our counter.
This should be called before we start counting.
"""
global _counts
_counts = {} # Maps value to number of occurrences.
def add(value):
""" Add the given value to our counter.
"""
global _counts
try:
_counts[value] += 1
except KeyError:
_counts[value] = 1
def totals():
""" Return the number of times each value has occurred.
We return a list of (value, num_occurrences) tuples, one
for each unique value included in the count.
"""
global _counts
results = []
for value in sorted(_counts.keys()):
results.append((value, _counts[value]))
return results
| def reset():
""" Reset our counter.
This should be called before we start counting.
"""
global _counts
_counts = {}
def add(value):
""" Add the given value to our counter.
"""
global _counts
try:
_counts[value] += 1
except KeyError:
_counts[value] = 1
def totals():
""" Return the number of times each value has occurred.
We return a list of (value, num_occurrences) tuples, one
for each unique value included in the count.
"""
global _counts
results = []
for value in sorted(_counts.keys()):
results.append((value, _counts[value]))
return results |
class Solution:
def recoverTree(self, root: Optional[TreeNode]) -> None:
def swap(x: Optional[TreeNode], y: Optional[TreeNode]) -> None:
temp = x.val
x.val = y.val
y.val = temp
def inorder(root: Optional[TreeNode]) -> None:
if not root:
return
inorder(root.left)
if self.pred and root.val < self.pred.val:
self.y = root
if not self.x:
self.x = self.pred
else:
return
self.pred = root
inorder(root.right)
inorder(root)
swap(self.x, self.y)
pred = None
x = None # 1st wrong node
y = None # 2nd wrong node
| class Solution:
def recover_tree(self, root: Optional[TreeNode]) -> None:
def swap(x: Optional[TreeNode], y: Optional[TreeNode]) -> None:
temp = x.val
x.val = y.val
y.val = temp
def inorder(root: Optional[TreeNode]) -> None:
if not root:
return
inorder(root.left)
if self.pred and root.val < self.pred.val:
self.y = root
if not self.x:
self.x = self.pred
else:
return
self.pred = root
inorder(root.right)
inorder(root)
swap(self.x, self.y)
pred = None
x = None
y = None |
# Copyright (c) Microsoft Corporation. All rights reserved.
# Licensed under the MIT License.
class VersionUpdateItem:
def __init__(self, id, new_version):
self.id = id
self.new_version = new_version
def __str__(self):
return '[id: {}; new_version: {}]'.format(self.id, self.new_version)
| class Versionupdateitem:
def __init__(self, id, new_version):
self.id = id
self.new_version = new_version
def __str__(self):
return '[id: {}; new_version: {}]'.format(self.id, self.new_version) |
# -*- coding: utf-8 -*-
"""
Created on Wed Jan 27 21:02:58 2016
@author: amylo
#"""
print("HELLO WORLD!")
print('HELLO MAYAN!')
print('''this is the first line
jfklds
fjkdlsjfl''')
age = 3
name = "Dou Dou"
print("{0} was {1} years old".format(name,age))
print(name + " was " + str(age) + " years old ")
| """
Created on Wed Jan 27 21:02:58 2016
@author: amylo
#"""
print('HELLO WORLD!')
print('HELLO MAYAN!')
print('this is the first line\njfklds\nfjkdlsjfl')
age = 3
name = 'Dou Dou'
print('{0} was {1} years old'.format(name, age))
print(name + ' was ' + str(age) + ' years old ') |
"""
This package is a place for your business logic.
Please, do not create any other files inside your app package.
Place all files here, including: logic, forms, serializers.
Decoupling is a good thing. We need more of that.
"""
| """
This package is a place for your business logic.
Please, do not create any other files inside your app package.
Place all files here, including: logic, forms, serializers.
Decoupling is a good thing. We need more of that.
""" |
class Solution:
def minimumTotal(self, triangle: List[List[int]]) -> int:
arr = [0x7fffffff] * len(triangle)
arr[0] = triangle[0][0]
for i in range(1, len(triangle)):
arr[i] = arr[i - 1] + triangle[i][i]
for j in range(i - 1, 0, -1):
arr[j] = min(arr[j - 1], arr[j]) + triangle[i][j]
arr[0] = arr[0] + triangle[i][0]
return min(arr) | class Solution:
def minimum_total(self, triangle: List[List[int]]) -> int:
arr = [2147483647] * len(triangle)
arr[0] = triangle[0][0]
for i in range(1, len(triangle)):
arr[i] = arr[i - 1] + triangle[i][i]
for j in range(i - 1, 0, -1):
arr[j] = min(arr[j - 1], arr[j]) + triangle[i][j]
arr[0] = arr[0] + triangle[i][0]
return min(arr) |
def invert_dict(d):
"""more concise version of invert_dict with setdefault"""
inverse = dict()
for key in d:
val = d[key]
inverse.setdefault(val, [])
inverse[val].append(key)
return inverse
inverse = invert_dict({'a': 1, 'p': 1, 'r': 2, 't': 1, 'o': 1})
print(inverse)
| def invert_dict(d):
"""more concise version of invert_dict with setdefault"""
inverse = dict()
for key in d:
val = d[key]
inverse.setdefault(val, [])
inverse[val].append(key)
return inverse
inverse = invert_dict({'a': 1, 'p': 1, 'r': 2, 't': 1, 'o': 1})
print(inverse) |
prn_out = {
1: [2, 6],
2: [3, 7],
3: [4, 8],
4: [6, 9],
5: [1, 9],
6: [2, 10],
7: [1, 8],
8: [2, 9],
9: [3, 10],
10: [2, 3],
11: [3, 4],
12: [5, 6],
13: [6, 7],
14: [7, 8],
15: [8, 9],
16: [9, 10],
17: [1, 4],
18: [2, 5],
19: [3, 6],
20: [4, 7],
21: [5, 8],
22: [6, 9],
23: [1, 3],
24: [4, 6],
25: [5, 7],
26: [6, 8],
27: [7, 9],
28: [8, 10],
29: [1, 6],
30: [2, 7],
31: [3, 8],
32: [4, 9]
}
| prn_out = {1: [2, 6], 2: [3, 7], 3: [4, 8], 4: [6, 9], 5: [1, 9], 6: [2, 10], 7: [1, 8], 8: [2, 9], 9: [3, 10], 10: [2, 3], 11: [3, 4], 12: [5, 6], 13: [6, 7], 14: [7, 8], 15: [8, 9], 16: [9, 10], 17: [1, 4], 18: [2, 5], 19: [3, 6], 20: [4, 7], 21: [5, 8], 22: [6, 9], 23: [1, 3], 24: [4, 6], 25: [5, 7], 26: [6, 8], 27: [7, 9], 28: [8, 10], 29: [1, 6], 30: [2, 7], 31: [3, 8], 32: [4, 9]} |
""" Class representing Nodes of a tree data structure """
class Node:
latest_move: list[dict]
def __init__(self, latest_move: dict, evaluation):
self.latest_move = [latest_move] if latest_move else list()
self.child_nodes = list()
self.board_evaluation: float = evaluation
def add_child(self, latest_move: dict, evaluation) -> None:
self.child_nodes.append(Node(latest_move, evaluation))
def keep_best_child(self):
best_child = sorted(self.child_nodes, key=lambda x: x.board_evaluation)[-1]
self.child_nodes = [best_child]
def find_best_move(self):
if not self.child_nodes[0].child_nodes:
# print(f"Best is: {sorted(self.child_nodes, key=lambda x: x.board_evaluation)[-1].board_evaluation=}")
# print(f"Best is: {sorted(self.child_nodes, key=lambda x: x.board_evaluation)[0].board_evaluation=}")
return sorted(self.child_nodes, key=lambda x: x.board_evaluation)[0]
else:
if not self.latest_move:
# This is the first parent node
best_node = Node({}, 10000)
best_eval = 10000
for child in self.child_nodes:
child_eval = child.find_best_move().board_evaluation
if child_eval < best_node.board_evaluation:
best_node = child
best_eval = child_eval
return best_node.latest_move[0], best_eval
else:
return sorted([child.find_best_move() for child in self.child_nodes], key=lambda x: x.board_evaluation)[0]
def get_node(self):
if not self.child_nodes:
yield self, self.latest_move
else:
for child in self.child_nodes:
for child_node, child_moves in child.get_node():
move_list = self.latest_move[:]
move_list.extend(child_moves)
yield child_node, move_list
| """ Class representing Nodes of a tree data structure """
class Node:
latest_move: list[dict]
def __init__(self, latest_move: dict, evaluation):
self.latest_move = [latest_move] if latest_move else list()
self.child_nodes = list()
self.board_evaluation: float = evaluation
def add_child(self, latest_move: dict, evaluation) -> None:
self.child_nodes.append(node(latest_move, evaluation))
def keep_best_child(self):
best_child = sorted(self.child_nodes, key=lambda x: x.board_evaluation)[-1]
self.child_nodes = [best_child]
def find_best_move(self):
if not self.child_nodes[0].child_nodes:
return sorted(self.child_nodes, key=lambda x: x.board_evaluation)[0]
elif not self.latest_move:
best_node = node({}, 10000)
best_eval = 10000
for child in self.child_nodes:
child_eval = child.find_best_move().board_evaluation
if child_eval < best_node.board_evaluation:
best_node = child
best_eval = child_eval
return (best_node.latest_move[0], best_eval)
else:
return sorted([child.find_best_move() for child in self.child_nodes], key=lambda x: x.board_evaluation)[0]
def get_node(self):
if not self.child_nodes:
yield (self, self.latest_move)
else:
for child in self.child_nodes:
for (child_node, child_moves) in child.get_node():
move_list = self.latest_move[:]
move_list.extend(child_moves)
yield (child_node, move_list) |
load("@bazel_tools//tools/build_defs/repo:git.bzl", "git_repository")
load("@bazel_tools//tools/build_defs/repo:http.bzl", "http_archive")
load("@bazel_tools//tools/build_defs/repo:utils.bzl", "maybe")
def berty_go_repositories():
# utils
maybe(
git_repository,
name = "bazel_skylib",
remote = "https://github.com/bazelbuild/bazel-skylib",
commit = "e59b620b392a8ebbcf25879fc3fde52b4dc77535",
shallow_since = "1570639401 -0400",
)
maybe(
http_archive,
name = "build_bazel_rules_nodejs",
sha256 = "ad4be2c6f40f5af70c7edf294955f9d9a0222c8e2756109731b25f79ea2ccea0",
urls = ["https://github.com/bazelbuild/rules_nodejs/releases/download/0.38.3/rules_nodejs-0.38.3.tar.gz"],
)
# go
maybe(
http_archive,
name = "io_bazel_rules_go",
sha256 = "87f0fb9747854cb76a0a82430adccb6269f7d394237104a4523b51061c469171",
urls = [
"https://mirror.bazel.build/github.com/bazelbuild/rules_go/releases/download/v0.23.1/rules_go-v0.23.1.tar.gz",
"https://github.com/bazelbuild/rules_go/releases/download/v0.23.1/rules_go-v0.23.1.tar.gz",
],
patches = [
"@berty//go:third_party/io_bazel_rules_go/PR-2181-rebase-0.23.1.patch",
],
patch_tool = "git",
patch_args = ["apply"],
)
# gazelle
maybe(
http_archive,
name = "bazel_gazelle",
sha256 = "bfd86b3cbe855d6c16c6fce60d76bd51f5c8dbc9cfcaef7a2bb5c1aafd0710e8",
urls = [
"https://mirror.bazel.build/github.com/bazelbuild/bazel-gazelle/releases/download/v0.21.0/bazel-gazelle-v0.21.0.tar.gz",
"https://github.com/bazelbuild/bazel-gazelle/releases/download/v0.21.0/bazel-gazelle-v0.21.0.tar.gz",
],
)
# golangci-lint
maybe(
http_archive,
name = "com_github_atlassian_bazel_tools",
strip_prefix = "bazel-tools-a2138311856f55add11cd7009a5abc8d4fd6f163",
sha256 = "9db3d3eededb398ae7d5a00b428d32b59577da0b3f4b4eb07daf710509008bfc",
urls = ["https://github.com/atlassian/bazel-tools/archive/a2138311856f55add11cd7009a5abc8d4fd6f163.zip"],
)
| load('@bazel_tools//tools/build_defs/repo:git.bzl', 'git_repository')
load('@bazel_tools//tools/build_defs/repo:http.bzl', 'http_archive')
load('@bazel_tools//tools/build_defs/repo:utils.bzl', 'maybe')
def berty_go_repositories():
maybe(git_repository, name='bazel_skylib', remote='https://github.com/bazelbuild/bazel-skylib', commit='e59b620b392a8ebbcf25879fc3fde52b4dc77535', shallow_since='1570639401 -0400')
maybe(http_archive, name='build_bazel_rules_nodejs', sha256='ad4be2c6f40f5af70c7edf294955f9d9a0222c8e2756109731b25f79ea2ccea0', urls=['https://github.com/bazelbuild/rules_nodejs/releases/download/0.38.3/rules_nodejs-0.38.3.tar.gz'])
maybe(http_archive, name='io_bazel_rules_go', sha256='87f0fb9747854cb76a0a82430adccb6269f7d394237104a4523b51061c469171', urls=['https://mirror.bazel.build/github.com/bazelbuild/rules_go/releases/download/v0.23.1/rules_go-v0.23.1.tar.gz', 'https://github.com/bazelbuild/rules_go/releases/download/v0.23.1/rules_go-v0.23.1.tar.gz'], patches=['@berty//go:third_party/io_bazel_rules_go/PR-2181-rebase-0.23.1.patch'], patch_tool='git', patch_args=['apply'])
maybe(http_archive, name='bazel_gazelle', sha256='bfd86b3cbe855d6c16c6fce60d76bd51f5c8dbc9cfcaef7a2bb5c1aafd0710e8', urls=['https://mirror.bazel.build/github.com/bazelbuild/bazel-gazelle/releases/download/v0.21.0/bazel-gazelle-v0.21.0.tar.gz', 'https://github.com/bazelbuild/bazel-gazelle/releases/download/v0.21.0/bazel-gazelle-v0.21.0.tar.gz'])
maybe(http_archive, name='com_github_atlassian_bazel_tools', strip_prefix='bazel-tools-a2138311856f55add11cd7009a5abc8d4fd6f163', sha256='9db3d3eededb398ae7d5a00b428d32b59577da0b3f4b4eb07daf710509008bfc', urls=['https://github.com/atlassian/bazel-tools/archive/a2138311856f55add11cd7009a5abc8d4fd6f163.zip']) |
y: Tuple[int, ...]
x: Tuple[int]
z: Tuple[Union[int, str]]
for ([y, (x, (z))]) in \
undefined():
pass | y: Tuple[int, ...]
x: Tuple[int]
z: Tuple[Union[int, str]]
for [y, (x, z)] in undefined():
pass |
class Solution:
def findLadders(self, beginWord: str, endWord: str, wordList: List[str]) -> List[List[str]]:
words = set(wordList)
if endWord not in words:
return []
frontier = collections.deque([(beginWord)])
mn_cost = math.inf
costs = {w : math.inf for w in words}
costs[beginWord] = 0
costs[endWord] = math.inf
prev = collections.defaultdict(set)
while frontier:
sz = len(frontier)
for _ in range(sz):
node = frontier.popleft()
if node == endWord:
mn_cost = min(mn_cost, costs[node])
if costs[node] > mn_cost:
continue
else:
for i in range(len(node)):
for ch in string.ascii_lowercase:
nei = node[:i] + ch + node[i + 1:]
if nei in words and costs[nei] >= costs[node] + 1:
frontier.append(nei)
if costs[nei] > costs[node] + 1:
prev[nei] = {node}
else:
prev[nei].add(node)
costs[nei] = costs[node] + 1
ans = []
def helper(path, target, ans):
if path[-1] == target:
ans.append(path[::-1])
else:
for nei in prev[path[-1]]:
helper(path + [nei], target, ans)
helper([endWord], beginWord, ans)
return ans
| class Solution:
def find_ladders(self, beginWord: str, endWord: str, wordList: List[str]) -> List[List[str]]:
words = set(wordList)
if endWord not in words:
return []
frontier = collections.deque([beginWord])
mn_cost = math.inf
costs = {w: math.inf for w in words}
costs[beginWord] = 0
costs[endWord] = math.inf
prev = collections.defaultdict(set)
while frontier:
sz = len(frontier)
for _ in range(sz):
node = frontier.popleft()
if node == endWord:
mn_cost = min(mn_cost, costs[node])
if costs[node] > mn_cost:
continue
else:
for i in range(len(node)):
for ch in string.ascii_lowercase:
nei = node[:i] + ch + node[i + 1:]
if nei in words and costs[nei] >= costs[node] + 1:
frontier.append(nei)
if costs[nei] > costs[node] + 1:
prev[nei] = {node}
else:
prev[nei].add(node)
costs[nei] = costs[node] + 1
ans = []
def helper(path, target, ans):
if path[-1] == target:
ans.append(path[::-1])
else:
for nei in prev[path[-1]]:
helper(path + [nei], target, ans)
helper([endWord], beginWord, ans)
return ans |
if __name__ == '__main__':
stlist = []
marks = set()
lower_name = []
for _ in range(int(input())):
name = input()
score = float(input())
stlist.append([name, score])
marks.add(score)
# Increasing order
sec = sorted(marks)[1]
# print(sec)
for name, score in stlist:
if score == sec :
lower_name.append(name)
for name in sorted(lower_name):
print(name)
# Sample Input 0
# 5
# Harry
# 37.21
# Berry
# 37.21
# Tina
# 37.2
# Akriti
# 41
# Harsh
# 39
# Sample Output 0
# Berry
# Harry
| if __name__ == '__main__':
stlist = []
marks = set()
lower_name = []
for _ in range(int(input())):
name = input()
score = float(input())
stlist.append([name, score])
marks.add(score)
sec = sorted(marks)[1]
for (name, score) in stlist:
if score == sec:
lower_name.append(name)
for name in sorted(lower_name):
print(name) |
#printing fibonacci number until 'n' using python
n=int(input("enter the value of 'n': "))
a=0
b=1
sum=0
count=1
print("fibonacci:",end = " ")
while(count<=n):
print(sum,end=" ")
count +=1
a=b
b=sum
sum=a+b
| n = int(input("enter the value of 'n': "))
a = 0
b = 1
sum = 0
count = 1
print('fibonacci:', end=' ')
while count <= n:
print(sum, end=' ')
count += 1
a = b
b = sum
sum = a + b |
DEBUG = True
PORT = 8080
SECRET_KEY = "secret"
WTF_CSRF_ENABLED = True
baseUrl = "https://hp8xm3yzr0.execute-api.us-east-2.amazonaws.com/prod/" | debug = True
port = 8080
secret_key = 'secret'
wtf_csrf_enabled = True
base_url = 'https://hp8xm3yzr0.execute-api.us-east-2.amazonaws.com/prod/' |
class DigestConfig:
def __init__(self):
self.digest_AAs = "KR"
self.Nterm = False
self.min_len = 9
self.max_len = 30
self.max_miss_cleave = 2
self.cleave_type = "full"
def digest(protein, pepset, conf):
if conf.cleave_type == "full":
return digest_full(protein, pepset, conf.digest_AAs, conf.Nterm, conf.min_len, conf.max_len,
conf.max_miss_cleave)
else:
return pepset
def digest_full(protein, pepset, digest_AAs="KR", Nterm=False, min_len=9, max_len=30, max_miss_cleave=2):
seq = protein.seq
if Nterm: seq = seq[::-1]
digest_sites = [0] # no matter what, cleavage at pos before the first aa
for i in range(len(seq)):
if seq[i] in digest_AAs:
digest_sites.append(i + 1) # i+1? seq=KAAK, sites=0 and 3, result seq is seq[0+1:3+1]
if digest_sites[-1] != len(seq) - 1:
# no matter what, cleavage at the last aa
digest_sites.append(len(seq))
return cleave_full(seq, pepset, digest_sites, Nterm, min_len, max_len, max_miss_cleave)
def cleave_full(seq, seq_set, sites, Nterm=False, min_len=7, max_len=30, max_miss_cleave=2):
def add_Nterm_M_loss(seq_set, sub_seq):
if sub_seq[0] == "M" and len(sub_seq) - 1 >= min_len and len(sub_seq) - 1 <= max_len:
seq_set.add(sub_seq[1:])
for i in range(len(sites)):
for msclv in range(max_miss_cleave + 1):
if i + msclv + 1 >= len(sites): break
sub_seq = seq[sites[i]:sites[i + msclv + 1]]
if len(sub_seq) > max_len or len(sub_seq) < min_len: continue
if Nterm:
sub_seq = sub_seq[::-1]
if i == len(sites) - 1:
add_Nterm_M_loss(seq_set, sub_seq)
else:
if i == 0:
add_Nterm_M_loss(seq_set, sub_seq)
seq_set.add(sub_seq)
return seq_set
| class Digestconfig:
def __init__(self):
self.digest_AAs = 'KR'
self.Nterm = False
self.min_len = 9
self.max_len = 30
self.max_miss_cleave = 2
self.cleave_type = 'full'
def digest(protein, pepset, conf):
if conf.cleave_type == 'full':
return digest_full(protein, pepset, conf.digest_AAs, conf.Nterm, conf.min_len, conf.max_len, conf.max_miss_cleave)
else:
return pepset
def digest_full(protein, pepset, digest_AAs='KR', Nterm=False, min_len=9, max_len=30, max_miss_cleave=2):
seq = protein.seq
if Nterm:
seq = seq[::-1]
digest_sites = [0]
for i in range(len(seq)):
if seq[i] in digest_AAs:
digest_sites.append(i + 1)
if digest_sites[-1] != len(seq) - 1:
digest_sites.append(len(seq))
return cleave_full(seq, pepset, digest_sites, Nterm, min_len, max_len, max_miss_cleave)
def cleave_full(seq, seq_set, sites, Nterm=False, min_len=7, max_len=30, max_miss_cleave=2):
def add__nterm_m_loss(seq_set, sub_seq):
if sub_seq[0] == 'M' and len(sub_seq) - 1 >= min_len and (len(sub_seq) - 1 <= max_len):
seq_set.add(sub_seq[1:])
for i in range(len(sites)):
for msclv in range(max_miss_cleave + 1):
if i + msclv + 1 >= len(sites):
break
sub_seq = seq[sites[i]:sites[i + msclv + 1]]
if len(sub_seq) > max_len or len(sub_seq) < min_len:
continue
if Nterm:
sub_seq = sub_seq[::-1]
if i == len(sites) - 1:
add__nterm_m_loss(seq_set, sub_seq)
elif i == 0:
add__nterm_m_loss(seq_set, sub_seq)
seq_set.add(sub_seq)
return seq_set |
def split(str):
splitted=str.split(" ")
return splitted
def join(str):
joined="-".join(str)
return joined
str="Geeks For Geeks"
splitted=split(str)
print(splitted)
print(join(splitted)) | def split(str):
splitted = str.split(' ')
return splitted
def join(str):
joined = '-'.join(str)
return joined
str = 'Geeks For Geeks'
splitted = split(str)
print(splitted)
print(join(splitted)) |
def normalise_total_cozie(dataframe, group, threshold):
cluster_df = dataframe.copy(deep=True)
# remapping
cluster_df['prefer_cooler'] = cluster_df['thermal_cozie'][cluster_df.thermal_cozie == 11.0] #Too Hot
cluster_df['prefer_warmer'] = cluster_df['thermal_cozie'][cluster_df.thermal_cozie == 9.0] # Too COld
cluster_df['thermaly_comfy'] = cluster_df['thermal_cozie'][cluster_df.thermal_cozie == 10.0] #_cOmfy
cluster_df['prefer_dimmer'] = cluster_df['light_cozie'][cluster_df.light_cozie == 11.0] # Too bright
cluster_df['prefer_brighter'] = cluster_df['light_cozie'][cluster_df.light_cozie == 9.0] # Too Dark
cluster_df['visually_comfy'] = cluster_df['light_cozie'][cluster_df.light_cozie == 10.0] #_comfy
cluster_df['prefer_quieter'] = cluster_df['noise_cozie'][cluster_df.noise_cozie == 11.0] # Too Loud
cluster_df['prefer_louder'] = cluster_df['noise_cozie'][cluster_df.noise_cozie == 9.0] # Too Quiet
cluster_df['aurally_comfy'] = cluster_df['noise_cozie'][cluster_df.noise_cozie == 10.0] #_comfy
# group
group_df=cluster_df.groupby(group).count()
group_df = group_df[group_df.thermal_cozie >= threshold]
group_df[['prefer_cooler', 'prefer_warmer', 'thermaly_comfy']] = group_df[['prefer_cooler', 'prefer_warmer', 'thermaly_comfy']].div(group_df.thermal_cozie, axis=0)
group_df[['prefer_dimmer', 'prefer_brighter', 'visually_comfy']] = group_df[['prefer_dimmer', 'prefer_brighter','visually_comfy']].div(group_df.light_cozie, axis=0)
group_df[['prefer_quieter', 'prefer_louder', 'aurally_comfy']] = group_df[['prefer_quieter', 'prefer_louder', 'aurally_comfy']].div(group_df.noise_cozie, axis=0)
return (group_df)
def find_optimal_tree_depth(clf, train_vectors, train_labels, plot=True):
"""Choose the optimal depth of a tree model
"""
DEFAULT_K = 10
# generate a list of potential depths to calculate the optimal
depths = list(range(1, 25))
# empty list that will hold cv scores
cv_scores = []
print("Finding optimal tree depth")
# find optimal tree depth
for d in depths: # TODO: try using chooseK(train_labels) instead of jus DEFAULT_K
clf_depth = clf.set_params(max_depth = d) # use previous parameters while changing depth
scores = cross_val_score(clf_depth, train_vectors,
train_labels, cv = choose_k(train_labels),
scoring = 'accuracy') # accuracy here is f1 micro
cv_scores.append(scores.mean())
# changing to misclassification error and determining best depth
MSE = [1 - x for x in cv_scores] # MSE = 1 - f1_micro
optimal_depth = depths[MSE.index(min(MSE))]
print("The optimal depth is: {}".format(optimal_depth))
print("Expected accuracy (f1 micro) based on Cross-Validation: {}".format(cv_scores[depths.index(optimal_depth)]))
if plot:
# plot misclassification error vs depths
fig = plt.figure(figsize=(12, 10))
plt.plot(depths, MSE)
plt.xlabel('Tree Depth', fontsize = 20)
plt.ylabel('Misclassification Error', fontsize = 20)
# plt.legend(fontsize = 15)
plt.show()
return optimal_depth | def normalise_total_cozie(dataframe, group, threshold):
cluster_df = dataframe.copy(deep=True)
cluster_df['prefer_cooler'] = cluster_df['thermal_cozie'][cluster_df.thermal_cozie == 11.0]
cluster_df['prefer_warmer'] = cluster_df['thermal_cozie'][cluster_df.thermal_cozie == 9.0]
cluster_df['thermaly_comfy'] = cluster_df['thermal_cozie'][cluster_df.thermal_cozie == 10.0]
cluster_df['prefer_dimmer'] = cluster_df['light_cozie'][cluster_df.light_cozie == 11.0]
cluster_df['prefer_brighter'] = cluster_df['light_cozie'][cluster_df.light_cozie == 9.0]
cluster_df['visually_comfy'] = cluster_df['light_cozie'][cluster_df.light_cozie == 10.0]
cluster_df['prefer_quieter'] = cluster_df['noise_cozie'][cluster_df.noise_cozie == 11.0]
cluster_df['prefer_louder'] = cluster_df['noise_cozie'][cluster_df.noise_cozie == 9.0]
cluster_df['aurally_comfy'] = cluster_df['noise_cozie'][cluster_df.noise_cozie == 10.0]
group_df = cluster_df.groupby(group).count()
group_df = group_df[group_df.thermal_cozie >= threshold]
group_df[['prefer_cooler', 'prefer_warmer', 'thermaly_comfy']] = group_df[['prefer_cooler', 'prefer_warmer', 'thermaly_comfy']].div(group_df.thermal_cozie, axis=0)
group_df[['prefer_dimmer', 'prefer_brighter', 'visually_comfy']] = group_df[['prefer_dimmer', 'prefer_brighter', 'visually_comfy']].div(group_df.light_cozie, axis=0)
group_df[['prefer_quieter', 'prefer_louder', 'aurally_comfy']] = group_df[['prefer_quieter', 'prefer_louder', 'aurally_comfy']].div(group_df.noise_cozie, axis=0)
return group_df
def find_optimal_tree_depth(clf, train_vectors, train_labels, plot=True):
"""Choose the optimal depth of a tree model
"""
default_k = 10
depths = list(range(1, 25))
cv_scores = []
print('Finding optimal tree depth')
for d in depths:
clf_depth = clf.set_params(max_depth=d)
scores = cross_val_score(clf_depth, train_vectors, train_labels, cv=choose_k(train_labels), scoring='accuracy')
cv_scores.append(scores.mean())
mse = [1 - x for x in cv_scores]
optimal_depth = depths[MSE.index(min(MSE))]
print('The optimal depth is: {}'.format(optimal_depth))
print('Expected accuracy (f1 micro) based on Cross-Validation: {}'.format(cv_scores[depths.index(optimal_depth)]))
if plot:
fig = plt.figure(figsize=(12, 10))
plt.plot(depths, MSE)
plt.xlabel('Tree Depth', fontsize=20)
plt.ylabel('Misclassification Error', fontsize=20)
plt.show()
return optimal_depth |
def stage(hub, name):
'''
Take the highdata and reconcoile the extend keyword
'''
high, errors = hub.idem.extend.reconcile(hub.idem.RUNS[name]['high'])
hub.idem.RUNS[name]['high'] = high
hub.idem.RUNS[name]['errors'] = errors | def stage(hub, name):
"""
Take the highdata and reconcoile the extend keyword
"""
(high, errors) = hub.idem.extend.reconcile(hub.idem.RUNS[name]['high'])
hub.idem.RUNS[name]['high'] = high
hub.idem.RUNS[name]['errors'] = errors |
# Formatting configuration for locale sv_SE
languages={'gv': 'manx gaeliska', 'gu': 'gujarati', 'rom': 'romani', 'ale': 'aleutiska', 'sco': 'skotska', 'mni': 'manipuri', 'gd': 'skotsk gaeliska', 'ga': u'irl\xe4ndsk gaeliska', 'osa': 'osage', 'gn': u'guaran\xed', 'gl': 'galiciska', 'mwr': 'marwari', 'ty': 'tahitiska', 'tw': 'twi', 'tt': 'tatariska', 'tr': 'turkiska', 'ts': 'tsonga', 'tn': 'tswana', 'to': 'tonga', 'tl': 'tagalog', 'tk': 'turkmeniska', 'th': u'thail\xe4ndska', 'ti': 'tigrinja', 'tg': 'tadzjikiska', 'te': 'telugu', 'uga': 'ugaritiska', 'ta': 'tamil', 'fat': 'fanti', 'fan': 'fang', 'got': 'gotiska', 'din': 'dinka', 'ml': 'malayalam', 'zh': 'kinesiska', 'tem': 'temne', 'za': 'zhuang', 'zu': 'zulu', 'ter': 'tereno', 'tet': 'tetum', 'mnc': 'manchu', 'kut': 'kutenai', 'suk': 'sukuma', 'kum': 'kumyk', 'sus': 'susu', 'new': 'newari', 'sux': 'sumeriska', 'men': 'mende', 'lez': 'lezghien', 'eka': 'ekajuk', 'akk': 'akkadiska', 'bra': 'braj', 'chb': 'chibcha', 'chg': 'chagatai', 'chk': 'chuukesiska', 'chm': 'mari', 'chn': 'chinook', 'cho': 'choctaw', 'chr': 'cherokesiska', 'chy': 'cheyenne', 'ii': 'yi', 'mg': 'malagassiska', 'iba': 'iban', 'mo': 'moldaviska', 'mn': 'mongoliska', 'mi': 'maori', 'mh': 'marshalliska', 'mk': 'makedonska', 'mt': 'maltesiska', 'del': 'delaware', 'ms': 'malajiska', 'mr': 'marathi', 'my': 'burmanska', 'cad': 'caddo', 'nyn': 'nyankole', 'nyo': 'nyoro', 'sid': 'sidamo', 'lam': 'lamba', 'mas': 'massajiska', 'lah': 'lahnda', 'fy': 'frisiska', 'snk': 'soninke', 'fa': 'farsi', 'mad': 'madurese', 'mag': 'magahi', 'mai': 'maithili', 'fi': 'finska', 'fj': 'fidjianska', 'man': 'mande', 'znd': u'zand\xe9', 'ss': 'swati', 'sr': 'serbiska', 'sq': 'albanska', 'sw': 'swahili', 'sv': 'svenska', 'su': 'sundanesiska', 'st': u'syd\xadsotho', 'sk': 'slovakiska', 'si': 'singalesiska', 'sh': 'serbokroatiska', 'so': 'somali', 'sn': 'shona; manshona', 'sm': 'samoanska', 'sl': 'slovenska', 'sc': 'sardiska', 'sa': 'sanskrit', 'sg': 'sango', 'se': u'nord\xadsamiska', 'sd': 'sindhi', 'zen': 'zenaga', 'lg': 'luganda', 'lb': 'luxemburgiska', 'la': 'latin', 'ln': 'lingala', 'lo': 'laotiska', 'li': 'limburgiska', 'lv': 'lettiska', 'lt': 'litauiska', 'lu': 'luba-katanga', 'yi': 'jiddisch', 'ceb': 'cebuano', 'yo': 'yoruba', 'nym': 'nyamwezi', 'dak': 'dakota', 'day': 'dayak', 'kpe': 'kpelle', 'el': 'grekiska', 'eo': 'esperanto', 'en': 'engelska', 'ee': 'ewe', 'fr': 'franska', 'eu': 'baskiska', 'et': 'estniska', 'es': 'spanska', 'ru': 'ryska', 'gon': 'gondi', 'rm': u'r\xe4to\xadromanska', 'rn': 'rundi', 'ro': u'rum\xe4nska', 'bla': 'siksika', 'gor': 'gorontalo', 'ast': 'asturiska', 'xh': 'xhosa', 'ff': 'fulani', 'mak': 'makasar', 'zap': 'zapotek', 'kok': 'konkani', 'kos': 'kosreanska', 'fo': u'f\xe4r\xf6iska', 'tog': 'tonga-Nyasa', 'hup': 'hupa', 'bej': 'beyja', 'bem': 'bemba', 'nzi': 'nzima', 'sah': 'jakutiska', 'sam': 'samaritanska', 'raj': 'rajasthani', 'sad': 'sandawe', 'rar': 'rarotongan', 'rap': 'rapanui', 'sas': 'sasak', 'car': 'karibiska', 'min': 'minangkabau', 'mic': 'mic-mac', 'nah': 'nahuatl; aztekiska', 'efi': 'efik', 'btk': 'batak', 'kac': 'kachin', 'kab': 'kabyliska', 'kaa': 'karakalpakiska', 'kam': 'kamba', 'kar': 'karen', 'kaw': 'kawi', 'tyv': 'tuviniska', 'awa': 'awadhi', 'ka': 'georgiska', 'doi': 'dogri', 'kg': 'kikongo', 'kk': 'kazakiska', 'kj': 'kuanyama', 'ki': 'kikuyu', 'ko': 'koreanska', 'kn': 'kanaresiska; kannada', 'tpi': 'tok pisin', 'kl': u'gr\xf6nl\xe4ndska', 'ks': 'kashmiri', 'kr': 'kanuri', 'kw': 'korniska', 'kv': 'kome', 'ku': 'kurdiska', 'ky': 'kirgisiska', 'tkl': 'tokelau', 'bua': 'buriat', 'dyu': 'dyula', 'de': 'tyska', 'da': 'danska', 'dz': 'dzongkha', 'dv': 'maldiviska', 'hil': 'hiligaynon', 'him': 'himachali', 'qu': 'quechua', 'bas': 'basa', 'gba': 'gbaya', 'bad': 'banda', 'ban': 'balinesiska', 'bal': 'baluchi', 'bam': 'bambara', 'shn': 'shan', 'arp': 'arapaho', 'arw': 'arawakiska', 'arc': 'arameiska', 'sel': 'selkup', 'arn': 'araukanska', 'lus': 'lushai', 'mus': 'muskogee', 'lua': 'luba-lulua', 'lui': u'luise\xf1o', 'lun': 'lunda', 'wa': 'walloon', 'wo': 'wolof', 'jv': 'javanska', 'tum': 'tumbuka', 'ja': 'japanska', 'cop': 'koptiska', 'ilo': 'iloko', 'tsi': 'tsimshian', 'gwi': "gwich'in", 'tli': 'tlingit', 'ch': 'chamorro', 'co': 'korsiska', 'ca': 'katalanska', 'ce': 'tjetjenska', 'pon': 'ponape', 'cy': 'walesiska', 'cs': 'tjeckiska', 'cr': 'cree', 'cv': 'tjuvasjiska', 'ps': 'pashto; afghanska', 'bho': 'bhojpuri', 'pt': 'portugisiska', 'dua': 'duala', 'pa': 'panjabi', 'pi': 'pali', 'pl': 'polska', 'gay': 'gayo', 'hmn': 'hmong', 'gaa': u'g\xe0', 'fur': 'friuilian', 've': 'venda', 'vi': 'vietnamesiska', 'is': u'isl\xe4ndska', 'av': 'avariska', 'iu': 'inuktitut', 'it': 'italienska', 'vot': 'votiska', 'ik': 'inupiaq', 'id': 'indonesiska', 'ig': 'ibo', 'pap': 'papiamento', 'ewo': 'ewondo', 'pau': 'palauan', 'pag': 'pangasinan', 'sat': 'santali', 'pam': 'pampanga', 'phn': 'kananeiska; feniciska', 'nia': 'nias', 'dgr': 'dogrib', 'syr': 'syriska', 'niu': 'niuean', 'nb': u'norskt bokm\xe5l', 'hai': 'haida', 'elx': 'elamitiska', 'ada': 'adangme', 'haw': 'hawaiiska', 'bin': 'bini', 'bik': 'bikol', 'mos': 'mossi', 'moh': 'mohawk', 'tvl': 'tuvaluan', 'kmb': 'kinbundu', 'umb': 'umbundu', 'tmh': 'tamashek', 'be': 'vitryska', 'bg': 'bulgariska', 'ba': 'basjkiriska', 'bn': 'bengali', 'bo': 'tibetanska', 'bh': 'bihari', 'bi': 'bislama', 'br': 'bretonska', 'bs': 'bosniska', 'om': 'oromo', 'oj': 'odjibwa; chippewa', 'ace': 'achinese', 'ach': 'acholi', 'oc': 'provensalska', 'kru': 'kurukh', 'srr': 'serer', 'kro': 'kru', 'os': 'ossetiska', 'or': 'oriya', 'sog': 'sogdiska', 'nso': u'nord\xadsotho', 'son': 'songhai', 'wal': 'walamo', 'lol': 'lolo; mongo', 'loz': 'lozi', 'gil': 'gilbertesiska; kiribati', 'was': 'washo', 'war': 'waray', 'hz': 'herero', 'hy': 'armeniska', 'hr': 'kroatiska', 'hu': 'ungerska', 'hi': 'hindi', 'ho': 'hiri motu', 'ha': 'haussa', 'bug': 'buginesiska', 'he': 'hebreiska', 'uz': 'uzbekiska', 'ur': 'urdu', 'uk': 'ukrainska', 'ug': 'uiguriska', 'aa': 'afar', 'ab': 'abkhaziska', 'ae': 'avestiska', 'af': 'afrikaans', 'ak': 'akan', 'am': 'amhariska', 'mdr': 'mandar', 'as': 'assami', 'ar': 'arabiska', 'km': 'kambodjanska; khmer', 'kho': 'sakiska', 'ay': 'aymara', 'kha': 'khasi', 'az': 'azerbadzjanska', 'nl': u'nederl\xe4ndska', 'nn': u'ny\xadnorsk', 'no': 'norska', 'na': 'nauru', 'tiv': 'tivi', 'nd': u'nord\xadndebele', 'ne': 'nepali', 'ng': 'ndonga', 'ny': 'nyanja', 'nap': 'napolitanska', 'grb': 'grebo', 'nr': u'syd\xadndebele', 'tig': u'tigr\xe9', 'nv': 'navaho', 'zun': u'zu\xf1i', 'rw': 'rwanda; kinjarwanda'}
countries={'BD': 'Bangladesh', 'BE': 'Belgien', 'BF': 'Burkina Faso', 'BG': 'Bulgarien', 'BA': 'Bosnien och Hercegovina', 'BB': 'Barbados', 'WF': u'Wallis och Futuna\xf6arna', 'BM': 'Bermuda', 'BN': 'Brunei', 'BO': 'Bolivia', 'BH': 'Bahrain', 'BI': 'Burundi', 'BJ': 'Benin', 'BT': 'Bhutan', 'JM': 'Jamaica', 'BV': u'Bouvet\xf6n', 'BW': 'Botswana', 'WS': 'Samoa', 'BR': 'Brasilien', 'BS': 'Bahamas', 'BY': 'Vitryssland', 'BZ': 'Belize', 'RU': 'Ryssland', 'RW': 'Rwanda', 'TL': u'\xd6sttimor', 'RE': u'R\xe9union', 'TM': 'Turkmenistan', 'TJ': 'Tadzjikistan', 'RO': u'Rum\xe4nien', 'TK': u'Tokelau\xf6arna', 'GW': 'Guinea-Bissau', 'GU': 'Guam', 'GT': 'Guatemala', 'GS': u'Sydgeorgien och S\xf6dra Sandwich\xf6arna', 'GR': 'Grekland', 'GQ': 'Ekvatorialguinea', 'GP': 'Guadelope', 'JP': 'Japan', 'GY': 'Guyana', 'GF': 'Franska Guyana', 'GE': 'Georgien', 'GD': 'Grenada', 'GB': 'Storbritannien', 'GA': 'Gabon', 'SV': 'El Salvador', 'GN': 'Guinea', 'GM': 'Gambia', 'GL': u'Gr\xf6nland', 'GI': 'Gibraltar', 'GH': 'Ghana', 'OM': 'Oman', 'TN': 'Tunisien', 'JO': 'Jordanien', 'SP': 'Serbia', 'HR': 'Kroatien', 'HT': 'Haiti', 'HU': 'Ungern', 'HK': 'Hongkong (Kina)', 'HN': 'Honduras', 'HM': u'Heard- och McDonald\xf6arna', 'VE': 'Venezuela', 'PR': 'Puerto Rico', 'PS': 'Palestinska territoriet', 'PW': 'Palau', 'PT': 'Portugal', 'SJ': 'Svalbard och Jan Mayen', 'PY': 'Paraguay', 'IQ': 'Irak', 'PA': 'Panama', 'PF': 'Franska Polynesien', 'PG': 'Papua Nya Guinea', 'PE': 'Peru', 'PK': 'Pakistan', 'PH': 'Filippinerna', 'PN': 'Pitcairn', 'PL': 'Polen', 'PM': 'S:t Pierre och Miquelon', 'ZM': 'Zambia', 'EH': u'V\xe4stra Sahara', 'EE': 'Estland', 'EG': 'Egypten', 'ZA': 'Sydafrika', 'EC': 'Ecuador', 'IT': 'Italien', 'VN': 'Vietnam', 'SB': u'Salomon\xf6arna', 'ET': 'Etiopien', 'SO': 'Somalia', 'ZW': 'Zimbabwe', 'SA': 'Saudi-Arabien', 'ES': 'Spanien', 'ER': 'Eritrea', 'MD': 'Moldavien', 'MG': 'Madagaskar', 'MA': 'Marocko', 'MC': 'Monaco', 'UZ': 'Uzbekistan', 'MM': 'Myanmar', 'ML': 'Mali', 'MO': 'Macao S.A.R. China', 'MN': 'Mongoliet', 'MH': u'Marshall\xf6arna', 'MK': 'Makedonien', 'MU': 'Mauritius', 'MT': 'Malta', 'MW': 'Malawi', 'MV': 'Maldiverna', 'MQ': 'Martinique', 'MP': 'Nordmarianerna', 'MS': 'Montserrat', 'MR': 'Mauretanien', 'UG': 'Uganda', 'MY': 'Malaysia', 'MX': 'Mexiko', 'IL': 'Israel', 'FR': 'Frankrike', 'IO': u'Brittiska Indiska ocean\xf6arna', 'SH': 'S:t Helena', 'FI': 'Finland', 'FJ': 'Fiji', 'FK': u'Falklands\xf6arna', 'FM': 'Mikronesien', 'FO': u'F\xe4r\xf6arna', 'NI': 'Nicaragua', 'NL': u'Nederl\xe4nderna', 'NO': 'Norge', 'NA': 'Namibia', 'VU': 'Vanuatu', 'NC': 'Nya Kaledonien', 'NE': 'Niger', 'NF': u'Norfolk\xf6n', 'NG': 'Nigeria', 'NZ': 'Nya Zeeland', 'NP': 'Nepal', 'NR': 'Nauru', 'NU': u'Niue\xf6n', 'CK': u'Cook\xf6arna', 'CI': 'Elfenbenskusten', 'CH': 'Schweiz', 'CO': 'Colombia', 'CN': 'Kina', 'CM': 'Kamerun', 'CL': 'Chile', 'CC': u'Kokos\xf6arna (Keeling\xf6arna)', 'CA': 'Kanada', 'CG': 'Kongo', 'CF': 'Centralafrikanska republiken', 'CD': 'Demokratiska republiken Kongo', 'CZ': 'Tjeckien', 'CY': 'Cypern', 'CX': u'Jul\xf6n', 'CR': 'Costa Rica', 'Fallback': 'en', 'CV': 'Kap Verde', 'CU': 'Kuba', 'SZ': 'Swaziland', 'SY': 'Syrien', 'KG': 'Kirgisistan', 'KE': 'Kenya', 'SR': 'Surinam', 'KI': 'Kiribati', 'KH': 'Kambodja', 'KN': 'S:t Christopher och Nevis', 'KM': 'Komorerna', 'ST': u'S\xe3o Tom\xe9 och Pr\xedncipe', 'SK': 'Slovakien', 'KR': 'Sydkorea', 'SI': 'Slovenien', 'KP': 'Nordkorea', 'KW': 'Kuwait', 'SN': 'Senegal', 'SM': 'San Marino', 'SL': 'Sierra Leone', 'SC': 'Seychellerna', 'KZ': 'Kazachstan', 'KY': u'Kajman\xf6arna', 'SG': 'Singapore', 'SE': 'Sverige', 'SD': 'Sudan', 'DO': 'Dominikanska republiken', 'DM': 'Dominica', 'DJ': 'Djibouti', 'DK': 'Danmark', 'VG': u'Brittiska Jungfru\xf6arna', 'DE': 'Tyskland', 'YE': 'Jemen', 'DZ': 'Algeriet', 'US': u'Amerikas F\xf6renta Stater', 'UY': 'Uruguay', 'YU': 'Jugoslavien', 'YT': 'Mayotte', 'UM': u'Sm\xe5, avl\xe4gset bel\xe4gna \xf6ar som tillh\xf6r F\xf6renta staterna', 'LB': 'Libanon', 'LC': 'S:t Lucia', 'LA': 'Laos', 'TV': 'Tuvalu', 'TW': 'Taiwan', 'TT': 'Trinidad och Tobago', 'TR': 'Turkiet', 'LK': 'Sri Lanka', 'LI': 'Liechtenstein', 'LV': 'Lettland', 'TO': 'Tonga', 'LT': 'Litauen', 'LU': 'Luxemburg', 'LR': 'Liberia', 'LS': 'Lesotho', 'TH': 'Thailand', 'TF': 'Franska Sydterritorierna', 'TG': 'Togo', 'TD': 'Tchad', 'TC': u'Turks- och Caicos\xf6arna', 'LY': 'Libyen', 'VA': 'Vatikanstaten', 'VC': 'S:t Vincent och Grenadinerna', 'AE': u'F\xf6renade Arabemiraten', 'AD': 'Andorra', 'AG': 'Antigua och Barbuda', 'AF': 'Afganistan', 'AI': 'Anguilla', 'VI': u'Amerikanska Jungfru\xf6arna', 'IS': 'Island', 'IR': 'Iran', 'AM': 'Armenien', 'AL': 'Albanien', 'AO': 'Angola', 'AN': u'Nederl\xe4ndska Antillerna', 'AQ': 'Antarktis', 'AS': 'Amerikanska Samoa', 'AR': 'Argentina', 'AU': 'Australien', 'AT': u'\xd6sterrike', 'AW': 'Aruba', 'IN': 'Indien', 'TZ': 'Tanzania', 'AZ': 'Azerbajdzjan', 'IE': 'Irland', 'ID': 'Indonesien', 'UA': 'Ukraina', 'QA': 'Qatar', 'MZ': u'Mo\xe7ambique'}
months=['januari', 'februari', 'mars', 'april', 'maj', 'juni', 'juli', 'augusti', 'september', 'oktober', 'november', 'december']
abbrMonths=['jan', 'feb', 'mar', 'apr', 'maj', 'jun', 'jul', 'aug', 'sep', 'okt', 'nov', 'dec']
days=[u'm\xe5ndag', 'tisdag', 'onsdag', 'torsdag', 'fredag', u'l\xf6rdag', u's\xf6ndag']
abbrDays=[u'm\xe5', 'ti', 'on', 'to', 'fr', u'l\xf6', u's\xf6']
dateFormats={'medium': '%Y-%m-%d', 'full': 'den %d %%(monthname)s %Y', 'long': 'den %d %%(abbrmonthname)s %Y', 'short': '%Y-%m-%d'}
numericSymbols={'group': u'\xa0', 'nativeZeroDigit': '0', 'exponential': 'E', 'perMille': u'\u2030', 'nan': u'\ufffd', 'decimal': ',', 'percentSign': '%', 'list': ';', 'patternDigit': '#', 'plusSign': '+', 'infinity': u'\u221e', 'minusSign': '-'}
| languages = {'gv': 'manx gaeliska', 'gu': 'gujarati', 'rom': 'romani', 'ale': 'aleutiska', 'sco': 'skotska', 'mni': 'manipuri', 'gd': 'skotsk gaeliska', 'ga': u'irländsk gaeliska', 'osa': 'osage', 'gn': u'guaraní', 'gl': 'galiciska', 'mwr': 'marwari', 'ty': 'tahitiska', 'tw': 'twi', 'tt': 'tatariska', 'tr': 'turkiska', 'ts': 'tsonga', 'tn': 'tswana', 'to': 'tonga', 'tl': 'tagalog', 'tk': 'turkmeniska', 'th': u'thailändska', 'ti': 'tigrinja', 'tg': 'tadzjikiska', 'te': 'telugu', 'uga': 'ugaritiska', 'ta': 'tamil', 'fat': 'fanti', 'fan': 'fang', 'got': 'gotiska', 'din': 'dinka', 'ml': 'malayalam', 'zh': 'kinesiska', 'tem': 'temne', 'za': 'zhuang', 'zu': 'zulu', 'ter': 'tereno', 'tet': 'tetum', 'mnc': 'manchu', 'kut': 'kutenai', 'suk': 'sukuma', 'kum': 'kumyk', 'sus': 'susu', 'new': 'newari', 'sux': 'sumeriska', 'men': 'mende', 'lez': 'lezghien', 'eka': 'ekajuk', 'akk': 'akkadiska', 'bra': 'braj', 'chb': 'chibcha', 'chg': 'chagatai', 'chk': 'chuukesiska', 'chm': 'mari', 'chn': 'chinook', 'cho': 'choctaw', 'chr': 'cherokesiska', 'chy': 'cheyenne', 'ii': 'yi', 'mg': 'malagassiska', 'iba': 'iban', 'mo': 'moldaviska', 'mn': 'mongoliska', 'mi': 'maori', 'mh': 'marshalliska', 'mk': 'makedonska', 'mt': 'maltesiska', 'del': 'delaware', 'ms': 'malajiska', 'mr': 'marathi', 'my': 'burmanska', 'cad': 'caddo', 'nyn': 'nyankole', 'nyo': 'nyoro', 'sid': 'sidamo', 'lam': 'lamba', 'mas': 'massajiska', 'lah': 'lahnda', 'fy': 'frisiska', 'snk': 'soninke', 'fa': 'farsi', 'mad': 'madurese', 'mag': 'magahi', 'mai': 'maithili', 'fi': 'finska', 'fj': 'fidjianska', 'man': 'mande', 'znd': u'zandé', 'ss': 'swati', 'sr': 'serbiska', 'sq': 'albanska', 'sw': 'swahili', 'sv': 'svenska', 'su': 'sundanesiska', 'st': u'syd\xadsotho', 'sk': 'slovakiska', 'si': 'singalesiska', 'sh': 'serbokroatiska', 'so': 'somali', 'sn': 'shona; manshona', 'sm': 'samoanska', 'sl': 'slovenska', 'sc': 'sardiska', 'sa': 'sanskrit', 'sg': 'sango', 'se': u'nord\xadsamiska', 'sd': 'sindhi', 'zen': 'zenaga', 'lg': 'luganda', 'lb': 'luxemburgiska', 'la': 'latin', 'ln': 'lingala', 'lo': 'laotiska', 'li': 'limburgiska', 'lv': 'lettiska', 'lt': 'litauiska', 'lu': 'luba-katanga', 'yi': 'jiddisch', 'ceb': 'cebuano', 'yo': 'yoruba', 'nym': 'nyamwezi', 'dak': 'dakota', 'day': 'dayak', 'kpe': 'kpelle', 'el': 'grekiska', 'eo': 'esperanto', 'en': 'engelska', 'ee': 'ewe', 'fr': 'franska', 'eu': 'baskiska', 'et': 'estniska', 'es': 'spanska', 'ru': 'ryska', 'gon': 'gondi', 'rm': u'räto\xadromanska', 'rn': 'rundi', 'ro': u'rumänska', 'bla': 'siksika', 'gor': 'gorontalo', 'ast': 'asturiska', 'xh': 'xhosa', 'ff': 'fulani', 'mak': 'makasar', 'zap': 'zapotek', 'kok': 'konkani', 'kos': 'kosreanska', 'fo': u'färöiska', 'tog': 'tonga-Nyasa', 'hup': 'hupa', 'bej': 'beyja', 'bem': 'bemba', 'nzi': 'nzima', 'sah': 'jakutiska', 'sam': 'samaritanska', 'raj': 'rajasthani', 'sad': 'sandawe', 'rar': 'rarotongan', 'rap': 'rapanui', 'sas': 'sasak', 'car': 'karibiska', 'min': 'minangkabau', 'mic': 'mic-mac', 'nah': 'nahuatl; aztekiska', 'efi': 'efik', 'btk': 'batak', 'kac': 'kachin', 'kab': 'kabyliska', 'kaa': 'karakalpakiska', 'kam': 'kamba', 'kar': 'karen', 'kaw': 'kawi', 'tyv': 'tuviniska', 'awa': 'awadhi', 'ka': 'georgiska', 'doi': 'dogri', 'kg': 'kikongo', 'kk': 'kazakiska', 'kj': 'kuanyama', 'ki': 'kikuyu', 'ko': 'koreanska', 'kn': 'kanaresiska; kannada', 'tpi': 'tok pisin', 'kl': u'grönländska', 'ks': 'kashmiri', 'kr': 'kanuri', 'kw': 'korniska', 'kv': 'kome', 'ku': 'kurdiska', 'ky': 'kirgisiska', 'tkl': 'tokelau', 'bua': 'buriat', 'dyu': 'dyula', 'de': 'tyska', 'da': 'danska', 'dz': 'dzongkha', 'dv': 'maldiviska', 'hil': 'hiligaynon', 'him': 'himachali', 'qu': 'quechua', 'bas': 'basa', 'gba': 'gbaya', 'bad': 'banda', 'ban': 'balinesiska', 'bal': 'baluchi', 'bam': 'bambara', 'shn': 'shan', 'arp': 'arapaho', 'arw': 'arawakiska', 'arc': 'arameiska', 'sel': 'selkup', 'arn': 'araukanska', 'lus': 'lushai', 'mus': 'muskogee', 'lua': 'luba-lulua', 'lui': u'luiseño', 'lun': 'lunda', 'wa': 'walloon', 'wo': 'wolof', 'jv': 'javanska', 'tum': 'tumbuka', 'ja': 'japanska', 'cop': 'koptiska', 'ilo': 'iloko', 'tsi': 'tsimshian', 'gwi': "gwich'in", 'tli': 'tlingit', 'ch': 'chamorro', 'co': 'korsiska', 'ca': 'katalanska', 'ce': 'tjetjenska', 'pon': 'ponape', 'cy': 'walesiska', 'cs': 'tjeckiska', 'cr': 'cree', 'cv': 'tjuvasjiska', 'ps': 'pashto; afghanska', 'bho': 'bhojpuri', 'pt': 'portugisiska', 'dua': 'duala', 'pa': 'panjabi', 'pi': 'pali', 'pl': 'polska', 'gay': 'gayo', 'hmn': 'hmong', 'gaa': u'gà', 'fur': 'friuilian', 've': 'venda', 'vi': 'vietnamesiska', 'is': u'isländska', 'av': 'avariska', 'iu': 'inuktitut', 'it': 'italienska', 'vot': 'votiska', 'ik': 'inupiaq', 'id': 'indonesiska', 'ig': 'ibo', 'pap': 'papiamento', 'ewo': 'ewondo', 'pau': 'palauan', 'pag': 'pangasinan', 'sat': 'santali', 'pam': 'pampanga', 'phn': 'kananeiska; feniciska', 'nia': 'nias', 'dgr': 'dogrib', 'syr': 'syriska', 'niu': 'niuean', 'nb': u'norskt bokmål', 'hai': 'haida', 'elx': 'elamitiska', 'ada': 'adangme', 'haw': 'hawaiiska', 'bin': 'bini', 'bik': 'bikol', 'mos': 'mossi', 'moh': 'mohawk', 'tvl': 'tuvaluan', 'kmb': 'kinbundu', 'umb': 'umbundu', 'tmh': 'tamashek', 'be': 'vitryska', 'bg': 'bulgariska', 'ba': 'basjkiriska', 'bn': 'bengali', 'bo': 'tibetanska', 'bh': 'bihari', 'bi': 'bislama', 'br': 'bretonska', 'bs': 'bosniska', 'om': 'oromo', 'oj': 'odjibwa; chippewa', 'ace': 'achinese', 'ach': 'acholi', 'oc': 'provensalska', 'kru': 'kurukh', 'srr': 'serer', 'kro': 'kru', 'os': 'ossetiska', 'or': 'oriya', 'sog': 'sogdiska', 'nso': u'nord\xadsotho', 'son': 'songhai', 'wal': 'walamo', 'lol': 'lolo; mongo', 'loz': 'lozi', 'gil': 'gilbertesiska; kiribati', 'was': 'washo', 'war': 'waray', 'hz': 'herero', 'hy': 'armeniska', 'hr': 'kroatiska', 'hu': 'ungerska', 'hi': 'hindi', 'ho': 'hiri motu', 'ha': 'haussa', 'bug': 'buginesiska', 'he': 'hebreiska', 'uz': 'uzbekiska', 'ur': 'urdu', 'uk': 'ukrainska', 'ug': 'uiguriska', 'aa': 'afar', 'ab': 'abkhaziska', 'ae': 'avestiska', 'af': 'afrikaans', 'ak': 'akan', 'am': 'amhariska', 'mdr': 'mandar', 'as': 'assami', 'ar': 'arabiska', 'km': 'kambodjanska; khmer', 'kho': 'sakiska', 'ay': 'aymara', 'kha': 'khasi', 'az': 'azerbadzjanska', 'nl': u'nederländska', 'nn': u'ny\xadnorsk', 'no': 'norska', 'na': 'nauru', 'tiv': 'tivi', 'nd': u'nord\xadndebele', 'ne': 'nepali', 'ng': 'ndonga', 'ny': 'nyanja', 'nap': 'napolitanska', 'grb': 'grebo', 'nr': u'syd\xadndebele', 'tig': u'tigré', 'nv': 'navaho', 'zun': u'zuñi', 'rw': 'rwanda; kinjarwanda'}
countries = {'BD': 'Bangladesh', 'BE': 'Belgien', 'BF': 'Burkina Faso', 'BG': 'Bulgarien', 'BA': 'Bosnien och Hercegovina', 'BB': 'Barbados', 'WF': u'Wallis och Futunaöarna', 'BM': 'Bermuda', 'BN': 'Brunei', 'BO': 'Bolivia', 'BH': 'Bahrain', 'BI': 'Burundi', 'BJ': 'Benin', 'BT': 'Bhutan', 'JM': 'Jamaica', 'BV': u'Bouvetön', 'BW': 'Botswana', 'WS': 'Samoa', 'BR': 'Brasilien', 'BS': 'Bahamas', 'BY': 'Vitryssland', 'BZ': 'Belize', 'RU': 'Ryssland', 'RW': 'Rwanda', 'TL': u'Östtimor', 'RE': u'Réunion', 'TM': 'Turkmenistan', 'TJ': 'Tadzjikistan', 'RO': u'Rumänien', 'TK': u'Tokelauöarna', 'GW': 'Guinea-Bissau', 'GU': 'Guam', 'GT': 'Guatemala', 'GS': u'Sydgeorgien och Södra Sandwichöarna', 'GR': 'Grekland', 'GQ': 'Ekvatorialguinea', 'GP': 'Guadelope', 'JP': 'Japan', 'GY': 'Guyana', 'GF': 'Franska Guyana', 'GE': 'Georgien', 'GD': 'Grenada', 'GB': 'Storbritannien', 'GA': 'Gabon', 'SV': 'El Salvador', 'GN': 'Guinea', 'GM': 'Gambia', 'GL': u'Grönland', 'GI': 'Gibraltar', 'GH': 'Ghana', 'OM': 'Oman', 'TN': 'Tunisien', 'JO': 'Jordanien', 'SP': 'Serbia', 'HR': 'Kroatien', 'HT': 'Haiti', 'HU': 'Ungern', 'HK': 'Hongkong (Kina)', 'HN': 'Honduras', 'HM': u'Heard- och McDonaldöarna', 'VE': 'Venezuela', 'PR': 'Puerto Rico', 'PS': 'Palestinska territoriet', 'PW': 'Palau', 'PT': 'Portugal', 'SJ': 'Svalbard och Jan Mayen', 'PY': 'Paraguay', 'IQ': 'Irak', 'PA': 'Panama', 'PF': 'Franska Polynesien', 'PG': 'Papua Nya Guinea', 'PE': 'Peru', 'PK': 'Pakistan', 'PH': 'Filippinerna', 'PN': 'Pitcairn', 'PL': 'Polen', 'PM': 'S:t Pierre och Miquelon', 'ZM': 'Zambia', 'EH': u'Västra Sahara', 'EE': 'Estland', 'EG': 'Egypten', 'ZA': 'Sydafrika', 'EC': 'Ecuador', 'IT': 'Italien', 'VN': 'Vietnam', 'SB': u'Salomonöarna', 'ET': 'Etiopien', 'SO': 'Somalia', 'ZW': 'Zimbabwe', 'SA': 'Saudi-Arabien', 'ES': 'Spanien', 'ER': 'Eritrea', 'MD': 'Moldavien', 'MG': 'Madagaskar', 'MA': 'Marocko', 'MC': 'Monaco', 'UZ': 'Uzbekistan', 'MM': 'Myanmar', 'ML': 'Mali', 'MO': 'Macao S.A.R. China', 'MN': 'Mongoliet', 'MH': u'Marshallöarna', 'MK': 'Makedonien', 'MU': 'Mauritius', 'MT': 'Malta', 'MW': 'Malawi', 'MV': 'Maldiverna', 'MQ': 'Martinique', 'MP': 'Nordmarianerna', 'MS': 'Montserrat', 'MR': 'Mauretanien', 'UG': 'Uganda', 'MY': 'Malaysia', 'MX': 'Mexiko', 'IL': 'Israel', 'FR': 'Frankrike', 'IO': u'Brittiska Indiska oceanöarna', 'SH': 'S:t Helena', 'FI': 'Finland', 'FJ': 'Fiji', 'FK': u'Falklandsöarna', 'FM': 'Mikronesien', 'FO': u'Färöarna', 'NI': 'Nicaragua', 'NL': u'Nederländerna', 'NO': 'Norge', 'NA': 'Namibia', 'VU': 'Vanuatu', 'NC': 'Nya Kaledonien', 'NE': 'Niger', 'NF': u'Norfolkön', 'NG': 'Nigeria', 'NZ': 'Nya Zeeland', 'NP': 'Nepal', 'NR': 'Nauru', 'NU': u'Niueön', 'CK': u'Cooköarna', 'CI': 'Elfenbenskusten', 'CH': 'Schweiz', 'CO': 'Colombia', 'CN': 'Kina', 'CM': 'Kamerun', 'CL': 'Chile', 'CC': u'Kokosöarna (Keelingöarna)', 'CA': 'Kanada', 'CG': 'Kongo', 'CF': 'Centralafrikanska republiken', 'CD': 'Demokratiska republiken Kongo', 'CZ': 'Tjeckien', 'CY': 'Cypern', 'CX': u'Julön', 'CR': 'Costa Rica', 'Fallback': 'en', 'CV': 'Kap Verde', 'CU': 'Kuba', 'SZ': 'Swaziland', 'SY': 'Syrien', 'KG': 'Kirgisistan', 'KE': 'Kenya', 'SR': 'Surinam', 'KI': 'Kiribati', 'KH': 'Kambodja', 'KN': 'S:t Christopher och Nevis', 'KM': 'Komorerna', 'ST': u'São Tomé och Príncipe', 'SK': 'Slovakien', 'KR': 'Sydkorea', 'SI': 'Slovenien', 'KP': 'Nordkorea', 'KW': 'Kuwait', 'SN': 'Senegal', 'SM': 'San Marino', 'SL': 'Sierra Leone', 'SC': 'Seychellerna', 'KZ': 'Kazachstan', 'KY': u'Kajmanöarna', 'SG': 'Singapore', 'SE': 'Sverige', 'SD': 'Sudan', 'DO': 'Dominikanska republiken', 'DM': 'Dominica', 'DJ': 'Djibouti', 'DK': 'Danmark', 'VG': u'Brittiska Jungfruöarna', 'DE': 'Tyskland', 'YE': 'Jemen', 'DZ': 'Algeriet', 'US': u'Amerikas Förenta Stater', 'UY': 'Uruguay', 'YU': 'Jugoslavien', 'YT': 'Mayotte', 'UM': u'Små, avlägset belägna öar som tillhör Förenta staterna', 'LB': 'Libanon', 'LC': 'S:t Lucia', 'LA': 'Laos', 'TV': 'Tuvalu', 'TW': 'Taiwan', 'TT': 'Trinidad och Tobago', 'TR': 'Turkiet', 'LK': 'Sri Lanka', 'LI': 'Liechtenstein', 'LV': 'Lettland', 'TO': 'Tonga', 'LT': 'Litauen', 'LU': 'Luxemburg', 'LR': 'Liberia', 'LS': 'Lesotho', 'TH': 'Thailand', 'TF': 'Franska Sydterritorierna', 'TG': 'Togo', 'TD': 'Tchad', 'TC': u'Turks- och Caicosöarna', 'LY': 'Libyen', 'VA': 'Vatikanstaten', 'VC': 'S:t Vincent och Grenadinerna', 'AE': u'Förenade Arabemiraten', 'AD': 'Andorra', 'AG': 'Antigua och Barbuda', 'AF': 'Afganistan', 'AI': 'Anguilla', 'VI': u'Amerikanska Jungfruöarna', 'IS': 'Island', 'IR': 'Iran', 'AM': 'Armenien', 'AL': 'Albanien', 'AO': 'Angola', 'AN': u'Nederländska Antillerna', 'AQ': 'Antarktis', 'AS': 'Amerikanska Samoa', 'AR': 'Argentina', 'AU': 'Australien', 'AT': u'Österrike', 'AW': 'Aruba', 'IN': 'Indien', 'TZ': 'Tanzania', 'AZ': 'Azerbajdzjan', 'IE': 'Irland', 'ID': 'Indonesien', 'UA': 'Ukraina', 'QA': 'Qatar', 'MZ': u'Moçambique'}
months = ['januari', 'februari', 'mars', 'april', 'maj', 'juni', 'juli', 'augusti', 'september', 'oktober', 'november', 'december']
abbr_months = ['jan', 'feb', 'mar', 'apr', 'maj', 'jun', 'jul', 'aug', 'sep', 'okt', 'nov', 'dec']
days = [u'måndag', 'tisdag', 'onsdag', 'torsdag', 'fredag', u'lördag', u'söndag']
abbr_days = [u'må', 'ti', 'on', 'to', 'fr', u'lö', u'sö']
date_formats = {'medium': '%Y-%m-%d', 'full': 'den %d %%(monthname)s %Y', 'long': 'den %d %%(abbrmonthname)s %Y', 'short': '%Y-%m-%d'}
numeric_symbols = {'group': u'\xa0', 'nativeZeroDigit': '0', 'exponential': 'E', 'perMille': u'‰', 'nan': u'�', 'decimal': ',', 'percentSign': '%', 'list': ';', 'patternDigit': '#', 'plusSign': '+', 'infinity': u'∞', 'minusSign': '-'} |
N = int(input())
count = 0
for i in range(1, N+1, 2):
yakusuu = 0
for j in range(1, i+1, 2):
if i % j == 0:
yakusuu += 1
if yakusuu == 8:
count += 1
print(count) | n = int(input())
count = 0
for i in range(1, N + 1, 2):
yakusuu = 0
for j in range(1, i + 1, 2):
if i % j == 0:
yakusuu += 1
if yakusuu == 8:
count += 1
print(count) |
"""
Data Structures :: LRU Cache
"""
class ListNode:
def __init__(self, key, value, prev=None, next=None):
"""A node in a doubly-linked list-based LRU cache.
:param key : Key by which to access nodes.
:param value : Value accessed by key.
:param prev [ListNode] : Previous ListNode in list, defaults to None
:param next [ListNode] : Next ListNode in list, defaults to None
"""
self.key = key
self.value = value
self.prev = prev
self.next = next
def delete(self):
"""Rearranges the node's previous and next pointers
accordingly, effectively deleting it."""
if self.prev:
self.prev.next = self.next
if self.next:
self.next.prev = self.prev
class DoublyLinkedList:
def __init__(self, node=None):
"""Doubly-linked list class that holds references to
the list's head and tail nodes, and list length."""
self.head = node
self.tail = node
self.length = 1 if node is not None else 0
def __len__(self):
"""Returns length of list; for use with the built-in
`len()` function."""
return self.length
def add_to_head(self, key, value):
"""Wraps the given value in a ListNode and inserts it
as the new head of the list."""
new_node = ListNode(key, value)
self.length += 1
if not self.head and not self.tail:
self.head = new_node
self.tail = new_node
else:
new_node.next = self.head
self.head.prev = new_node
self.head = new_node
def remove_from_tail(self):
"""Removes the List's current tail node, making the
current tail's previous node the new tail of the List.
Returns the value of the removed Node.
:return value : Value of the removed Node or None.
"""
if self.tail is not None:
self.delete(self.tail)
def move_to_head(self, node):
"""Removes the input node from its current spot in the
List and inserts it as the new head node of the List.
:param node (ListNode) : Node to be moved to head.
"""
if node is self.head:
return
key, value = node.key, node.value
self.delete(node)
self.add_to_head(key, value)
def delete(self, node):
"""Removes a node from the list and handles cases where
the node was the head or the tail.
:param node (ListNode) : Node to be removed from list.
"""
# TODO: Catch errors if empty or node not in list
self.length -= 1 # Update length
# If head and tail, both get set to None
if self.head is self.tail:
self.head = None
self.tail = None
elif node is self.head: # If head, set current head to next
self.head = self.head.next
node.delete()
elif node is self.tail: # If tail, set current tail to prev
self.tail = self.tail.prev
node.delete()
else: # If regular node, just delete
node.delete()
class LRUCache:
def __init__(self, limit=10):
"""The LRUCache class keeps track of the max number of nodes it
can hold, the current number of nodes it is holding, a doubly-
linked list that holds the key-value entries in the correct
order, as well as a storage dict that provides fast access
to every node stored in the cache.
Head node is most recent. Tail node is oldest.
:param node [ListNode] : Optional initial ListNode.
:param limit [int] : Max number of elements in cache, default 10.
"""
self.limit = limit
self.storage = DoublyLinkedList()
def get(self, key):
"""Retrieves the value associated with the given key.
Moves the key-value pair to the end of the order
such that the pair is considered most-recently used.
Returns the value associated with the key or None if the
key-value pair doesn't exist in the cache.
"""
if len(self.storage) < 1: # In case nothing in cache
return None
node = self.storage.head # Start at the head
while node: # Loop through nodes, looking for key
if node.key == key:
value = node.value # Return value of node
if node is not self.storage.head: # If head, no need to move
self.storage.move_to_head(node)
return value # Returning value implies breaking loop
node = node.next # Iterate
def set(self, key, value):
"""Adds the given key-value pair to the cache.
The newly-added pair is considered the most-recently used
entry in the cache. If the cache is already at max capacity
before this entry is added, then the oldest entry in the
cache is removed to make room. In the case that the key
already exists in the cache, the old value associated with
the key is overwritten by the new value.
"""
# Look for key in cache using `self.get()`
if self.get(key) is not None:
# If exists, the call will relocate it to head position
# Thus, head will only need to be updated with new value
# Length of list does not change; does not need checking
self.storage.head.value = value
else:
# If not exists (returns None), add key-value to head
# Before adding, check length of list
# If length == limit, remove from tail first
if len(self.storage) == self.limit:
self.storage.remove_from_tail()
self.storage.add_to_head(key, value)
# cache = LRUCache(3)
# cache.set("item1", "a")
# cache.set("item2", "b")
# cache.set("item3", "c")
# cache.set("item2", "z")
# cache.set("item1", "a")
# cache.set("item2", "b")
# cache.set("item3", "c")
# cache.get("item1")
# cache.set("item4", "d")
# cache.get("item1")
# cache.get("item3")
# cache.get("item4")
# cache.get("item2")
| """
Data Structures :: LRU Cache
"""
class Listnode:
def __init__(self, key, value, prev=None, next=None):
"""A node in a doubly-linked list-based LRU cache.
:param key : Key by which to access nodes.
:param value : Value accessed by key.
:param prev [ListNode] : Previous ListNode in list, defaults to None
:param next [ListNode] : Next ListNode in list, defaults to None
"""
self.key = key
self.value = value
self.prev = prev
self.next = next
def delete(self):
"""Rearranges the node's previous and next pointers
accordingly, effectively deleting it."""
if self.prev:
self.prev.next = self.next
if self.next:
self.next.prev = self.prev
class Doublylinkedlist:
def __init__(self, node=None):
"""Doubly-linked list class that holds references to
the list's head and tail nodes, and list length."""
self.head = node
self.tail = node
self.length = 1 if node is not None else 0
def __len__(self):
"""Returns length of list; for use with the built-in
`len()` function."""
return self.length
def add_to_head(self, key, value):
"""Wraps the given value in a ListNode and inserts it
as the new head of the list."""
new_node = list_node(key, value)
self.length += 1
if not self.head and (not self.tail):
self.head = new_node
self.tail = new_node
else:
new_node.next = self.head
self.head.prev = new_node
self.head = new_node
def remove_from_tail(self):
"""Removes the List's current tail node, making the
current tail's previous node the new tail of the List.
Returns the value of the removed Node.
:return value : Value of the removed Node or None.
"""
if self.tail is not None:
self.delete(self.tail)
def move_to_head(self, node):
"""Removes the input node from its current spot in the
List and inserts it as the new head node of the List.
:param node (ListNode) : Node to be moved to head.
"""
if node is self.head:
return
(key, value) = (node.key, node.value)
self.delete(node)
self.add_to_head(key, value)
def delete(self, node):
"""Removes a node from the list and handles cases where
the node was the head or the tail.
:param node (ListNode) : Node to be removed from list.
"""
self.length -= 1
if self.head is self.tail:
self.head = None
self.tail = None
elif node is self.head:
self.head = self.head.next
node.delete()
elif node is self.tail:
self.tail = self.tail.prev
node.delete()
else:
node.delete()
class Lrucache:
def __init__(self, limit=10):
"""The LRUCache class keeps track of the max number of nodes it
can hold, the current number of nodes it is holding, a doubly-
linked list that holds the key-value entries in the correct
order, as well as a storage dict that provides fast access
to every node stored in the cache.
Head node is most recent. Tail node is oldest.
:param node [ListNode] : Optional initial ListNode.
:param limit [int] : Max number of elements in cache, default 10.
"""
self.limit = limit
self.storage = doubly_linked_list()
def get(self, key):
"""Retrieves the value associated with the given key.
Moves the key-value pair to the end of the order
such that the pair is considered most-recently used.
Returns the value associated with the key or None if the
key-value pair doesn't exist in the cache.
"""
if len(self.storage) < 1:
return None
node = self.storage.head
while node:
if node.key == key:
value = node.value
if node is not self.storage.head:
self.storage.move_to_head(node)
return value
node = node.next
def set(self, key, value):
"""Adds the given key-value pair to the cache.
The newly-added pair is considered the most-recently used
entry in the cache. If the cache is already at max capacity
before this entry is added, then the oldest entry in the
cache is removed to make room. In the case that the key
already exists in the cache, the old value associated with
the key is overwritten by the new value.
"""
if self.get(key) is not None:
self.storage.head.value = value
else:
if len(self.storage) == self.limit:
self.storage.remove_from_tail()
self.storage.add_to_head(key, value) |
# @Time : 2019/6/24 23:21
# @Author : shakespere
# @FileName: Implement Trie (Prefix Tree).py
'''
208. Implement Trie (Prefix Tree)
Medium
Implement a trie with insert, search, and startsWith methods.
Example:
Trie trie = new Trie();
trie.insert("apple");
trie.search("apple"); // returns true
trie.search("app"); // returns false
trie.startsWith("app"); // returns true
trie.insert("app");
trie.search("app"); // returns true
Note:
You may assume that all inputs are consist of lowercase letters a-z.
All inputs are guaranteed to be non-empty strings.
'''
class Node(object):
def __init__(self):
self.children = collections.defaultdict(Node)
self.isword = False
class Trie(object):
def __init__(self):
"""
Initialize your data structure here.
"""
self.root = Node()
def insert(self, word):
"""
Inserts a word into the trie.
:type word: str
:rtype: void
"""
current = self.root
for w in word:
current = current.children[w]
current.isword = True
def search(self, word):
"""
Returns if the word is in the trie.
:type word: str
:rtype: bool
"""
current = self.root
for w in word:
current = current.children.get(w)
if current == None:
return False
return current.isword
def startsWith(self, prefix):
"""
Returns if there is any word in the trie that starts with the given prefix.
:type prefix: str
:rtype: bool
"""
current = self.root
for w in prefix:
current = current.children.get(w)
if current == None:
return False
return True
| """
208. Implement Trie (Prefix Tree)
Medium
Implement a trie with insert, search, and startsWith methods.
Example:
Trie trie = new Trie();
trie.insert("apple");
trie.search("apple"); // returns true
trie.search("app"); // returns false
trie.startsWith("app"); // returns true
trie.insert("app");
trie.search("app"); // returns true
Note:
You may assume that all inputs are consist of lowercase letters a-z.
All inputs are guaranteed to be non-empty strings.
"""
class Node(object):
def __init__(self):
self.children = collections.defaultdict(Node)
self.isword = False
class Trie(object):
def __init__(self):
"""
Initialize your data structure here.
"""
self.root = node()
def insert(self, word):
"""
Inserts a word into the trie.
:type word: str
:rtype: void
"""
current = self.root
for w in word:
current = current.children[w]
current.isword = True
def search(self, word):
"""
Returns if the word is in the trie.
:type word: str
:rtype: bool
"""
current = self.root
for w in word:
current = current.children.get(w)
if current == None:
return False
return current.isword
def starts_with(self, prefix):
"""
Returns if there is any word in the trie that starts with the given prefix.
:type prefix: str
:rtype: bool
"""
current = self.root
for w in prefix:
current = current.children.get(w)
if current == None:
return False
return True |
"""
44. Wildcard Matching
Example 1:
Input:
s = "aa"
p = "a"
Output: false
Explanation: "a" does not match the entire string "aa".
Example 2:
Input:
s = "aa"
p = "*"
Output: true
Explanation: '*' matches any sequence.
Example 3:
Input:
s = "cb"
p = "?a"
Output: false
Explanation: '?' matches 'c', but the second letter is 'a', which does not match 'b'.
Example 4:
Input:
s = "adceb"
p = "*a*b"
Output: true
Explanation: The first '*' matches the empty sequence, while the second '*' matches the substring "dce".
Example 5:
Input:
s = "acdcb"
p = "a*c?b"
Output: false
"""
class Solution:
def isMatch(self, s, p):
"""
:type s: str
:type p: str
:rtype: bool
"""
m, n = len(s), len(p)
dp = [[False for _ in range(n+1)] for _ in range(m+1)]
dp[0][0] = True
for i in range(n):
if p[i] == '*': dp[0][i+1] = dp[0][i]
else: break
for i in range(m):
for j in range(n):
dp[i+1][j+1] = dp[i][j] if p[j] == '?' or s[i] == p[j] else (dp[i][j+1] or dp[i+1][j]) if p[j] == '*' else False
return dp[-1][-1]
class Solution:
def isMatch(self, s, p):
length = len(s)
if len(p) - p.count('*') > length:
return False
dp = [True] + [False]*length
for i in p:
if i != '*':
for n in reversed(range(length)):
dp[n+1] = dp[n] and (i == s[n] or i == '?')
else:
for n in range(1, length+1):
dp[n] = dp[n-1] or dp[n]
dp[0] = dp[0] and i == '*'
return dp[-1]
#Greedy
class Solution:
def isMatch(self, s, p):
m, n = len(s), len(p)
i, j, stari, starj = 0, 0, -1, -1
while i < m:
if j < n and p[j] == '*':
stari = i
starj = j
j += 1
elif j < n and (p[j] =='?' or s[i] == p[j]):
i += 1
j += 1
elif stari != -1:
stari += 1
i = stari
j = starj + 1
else: return False
return j == n or all(i == '*' for i in p[j:]) | """
44. Wildcard Matching
Example 1:
Input:
s = "aa"
p = "a"
Output: false
Explanation: "a" does not match the entire string "aa".
Example 2:
Input:
s = "aa"
p = "*"
Output: true
Explanation: '*' matches any sequence.
Example 3:
Input:
s = "cb"
p = "?a"
Output: false
Explanation: '?' matches 'c', but the second letter is 'a', which does not match 'b'.
Example 4:
Input:
s = "adceb"
p = "*a*b"
Output: true
Explanation: The first '*' matches the empty sequence, while the second '*' matches the substring "dce".
Example 5:
Input:
s = "acdcb"
p = "a*c?b"
Output: false
"""
class Solution:
def is_match(self, s, p):
"""
:type s: str
:type p: str
:rtype: bool
"""
(m, n) = (len(s), len(p))
dp = [[False for _ in range(n + 1)] for _ in range(m + 1)]
dp[0][0] = True
for i in range(n):
if p[i] == '*':
dp[0][i + 1] = dp[0][i]
else:
break
for i in range(m):
for j in range(n):
dp[i + 1][j + 1] = dp[i][j] if p[j] == '?' or s[i] == p[j] else dp[i][j + 1] or dp[i + 1][j] if p[j] == '*' else False
return dp[-1][-1]
class Solution:
def is_match(self, s, p):
length = len(s)
if len(p) - p.count('*') > length:
return False
dp = [True] + [False] * length
for i in p:
if i != '*':
for n in reversed(range(length)):
dp[n + 1] = dp[n] and (i == s[n] or i == '?')
else:
for n in range(1, length + 1):
dp[n] = dp[n - 1] or dp[n]
dp[0] = dp[0] and i == '*'
return dp[-1]
class Solution:
def is_match(self, s, p):
(m, n) = (len(s), len(p))
(i, j, stari, starj) = (0, 0, -1, -1)
while i < m:
if j < n and p[j] == '*':
stari = i
starj = j
j += 1
elif j < n and (p[j] == '?' or s[i] == p[j]):
i += 1
j += 1
elif stari != -1:
stari += 1
i = stari
j = starj + 1
else:
return False
return j == n or all((i == '*' for i in p[j:])) |
class reverse_iter:
def __init__(self, elements):
self.elements = elements
self.start = len(self.elements) - 1
def __iter__(self):
return self
def __next__(self):
if self.start < 0:
raise StopIteration
index = self.start
self.start -= 1
return self.elements[index]
reversed_list = reverse_iter([1, 2, 3, 4])
for item in reversed_list:
print(item)
| class Reverse_Iter:
def __init__(self, elements):
self.elements = elements
self.start = len(self.elements) - 1
def __iter__(self):
return self
def __next__(self):
if self.start < 0:
raise StopIteration
index = self.start
self.start -= 1
return self.elements[index]
reversed_list = reverse_iter([1, 2, 3, 4])
for item in reversed_list:
print(item) |
# syms =['["2_x00"]', '["2_0y0"]', '["2_00z"]',
# '["2_xx0"]', '["2_x0x"]', '["2_0yy"]',
# '["2_xmx0"]', '["2_mx0x"]', '["2_0myy"]',
#
# '["3_xxx"]', '["3_xmxmx"]',
# '["3_mxxmx"]', '["3_mxmxx"]',
#
# '["m3_xxx"]', '["m3_xmxmx"]',
# '["m3_mxxmx"]', '["m3_mxmxx"]',
#
# '["4_x00"]', '["4_0y0"]', '["4_00z"]',
#
# '["-4_x00"]', '["-4_0y0"]', '["-4_00z"]']
syms_hex = [
'["i_000"]',
'["hex_m_x2xz"]',
'["hex_m_2xxz"]',
'["hex_m_x0z"]',
'["hex_m_0yz"]',
'["hex_2_x00"]',
'["hex_2_0y0"]',
'["hex_2_x2x0"]',
'["hex_2_2xx0"]',
'["3_00z"]',
'["m3_00z"]',
'["6_00z"]',
'["m6_00z"]',
]
text = \
'''import matrices_new_extended as mne
import numpy as np
import sympy as sp
from equality_check import Point
x, y, z = sp.symbols("x y z")
Point.unchanged = np.array([ x, y, z, 1])
class Test_Axis_'''
inner = '''
def test_matrix_{0}(self):
expected = Point([ x, y, z, 1])
calculated = Point.calculate(mne._matrix_{0})
assert calculated == expected
'''
inner_test = \
'''
def test{0}(self):
expected = Point([ x, y, z, 1])
calculated = Point.calculate(mne.{0})
assert calculated == expected
#{1}'''
for sym in syms_hex:
name = sym.strip('["]')
new_file = f"test_matrices_like_{name}.py"
# proba = f"test.py"
with open(new_file, "w") as write_file:
write_file.write(text+name+":\n")
write_file.write(inner.format(name))
with open("../matrices_new_extended_hexx.py") as read_file:
for line in read_file:
if sym in line:
separator = f" = matrices_dict_hex{sym}"
matrix, slide = line.split(separator)
write_file.write(inner_test.format(matrix, slide.replace("+", "")))
| syms_hex = ['["i_000"]', '["hex_m_x2xz"]', '["hex_m_2xxz"]', '["hex_m_x0z"]', '["hex_m_0yz"]', '["hex_2_x00"]', '["hex_2_0y0"]', '["hex_2_x2x0"]', '["hex_2_2xx0"]', '["3_00z"]', '["m3_00z"]', '["6_00z"]', '["m6_00z"]']
text = 'import matrices_new_extended as mne\nimport numpy as np\nimport sympy as sp\nfrom equality_check import Point\n\nx, y, z = sp.symbols("x y z")\nPoint.unchanged = np.array([ x, y, z, 1])\n\n\nclass Test_Axis_'
inner = '\n def test_matrix_{0}(self):\n expected = Point([ x, y, z, 1])\n calculated = Point.calculate(mne._matrix_{0})\n assert calculated == expected\n'
inner_test = '\n def test{0}(self):\n expected = Point([ x, y, z, 1])\n calculated = Point.calculate(mne.{0})\n assert calculated == expected\n #{1}'
for sym in syms_hex:
name = sym.strip('["]')
new_file = f'test_matrices_like_{name}.py'
with open(new_file, 'w') as write_file:
write_file.write(text + name + ':\n')
write_file.write(inner.format(name))
with open('../matrices_new_extended_hexx.py') as read_file:
for line in read_file:
if sym in line:
separator = f' = matrices_dict_hex{sym}'
(matrix, slide) = line.split(separator)
write_file.write(inner_test.format(matrix, slide.replace('+', ''))) |
class NetstorageError(Exception):
def __init__(self, response, *args, **kwargs):
super(NetstorageError, self).__init__(response)
self.msg = kwargs.get('message')
class NotFoundError(NetstorageError):
def __init__(self, response, *args, **kwargs):
message = ('Can occur if the targeted object can not be found in the '
'specified path. Check the path provided and try again')
super(NotFoundError, self).__init__(response, message=message)
class BadRequestError(NetstorageError):
pass
class UnauthorizedError(NetstorageError):
pass
class ForbiddenError(NetstorageError):
def __init__(self, response):
message = ('The Akamai Edge server has denied access to the call. '
'Please verify that the call is properly formatted '
'and retry')
super(ForbiddenError, self).__init__(response, message=message)
class NotAcceptableError(NetstorageError):
pass
class ConflictError(NetstorageError):
pass
class PreconditionFailedError(NetstorageError):
pass
class UnprocessableEntityError(NetstorageError):
pass
class LockedError(NetstorageError):
pass
class InternalServerError(NetstorageError):
pass
class NotImplementedError(NetstorageError):
pass
class ClientError(NetstorageError):
pass
class ServerError(NetstorageError):
pass
error_classes = {
400: BadRequestError,
401: UnauthorizedError,
403: ForbiddenError,
404: NotFoundError,
406: NotAcceptableError,
409: ConflictError,
412: PreconditionFailedError,
422: UnprocessableEntityError,
423: LockedError,
500: InternalServerError,
501: NotImplementedError
}
def raise_exception_for(response):
error_class = error_classes.get(response.status_code)
if error_class is None:
if 400 <= response.status_code <= 500:
error_class = ClientError
if 500 <= response.status_code <= 600:
error_class = ServerError
return error_class(response)
| class Netstorageerror(Exception):
def __init__(self, response, *args, **kwargs):
super(NetstorageError, self).__init__(response)
self.msg = kwargs.get('message')
class Notfounderror(NetstorageError):
def __init__(self, response, *args, **kwargs):
message = 'Can occur if the targeted object can not be found in the specified path. Check the path provided and try again'
super(NotFoundError, self).__init__(response, message=message)
class Badrequesterror(NetstorageError):
pass
class Unauthorizederror(NetstorageError):
pass
class Forbiddenerror(NetstorageError):
def __init__(self, response):
message = 'The Akamai Edge server has denied access to the call. Please verify that the call is properly formatted and retry'
super(ForbiddenError, self).__init__(response, message=message)
class Notacceptableerror(NetstorageError):
pass
class Conflicterror(NetstorageError):
pass
class Preconditionfailederror(NetstorageError):
pass
class Unprocessableentityerror(NetstorageError):
pass
class Lockederror(NetstorageError):
pass
class Internalservererror(NetstorageError):
pass
class Notimplementederror(NetstorageError):
pass
class Clienterror(NetstorageError):
pass
class Servererror(NetstorageError):
pass
error_classes = {400: BadRequestError, 401: UnauthorizedError, 403: ForbiddenError, 404: NotFoundError, 406: NotAcceptableError, 409: ConflictError, 412: PreconditionFailedError, 422: UnprocessableEntityError, 423: LockedError, 500: InternalServerError, 501: NotImplementedError}
def raise_exception_for(response):
error_class = error_classes.get(response.status_code)
if error_class is None:
if 400 <= response.status_code <= 500:
error_class = ClientError
if 500 <= response.status_code <= 600:
error_class = ServerError
return error_class(response) |
"""
Rinzler's exceptions module
:author: Rinzler<github.com/feliphebueno>
:date: 14/07/2018
"""
__author__ = "Rinzler<github.com/feliphebueno>"
class RinzlerHttpException(BaseException):
"""
Rinzler's base HTTP Exception, all other HTTP Exceptions must subclass this class as well as override it's
properties status_code and exception_name in order to be properly converted to a HTTP Error Response to the client.
"""
status_code = 0
exception_name = "Cataclysmic Error"
def __int__(self):
return int(self.status_code)
def __repr__(self):
return self.__str__()
| """
Rinzler's exceptions module
:author: Rinzler<github.com/feliphebueno>
:date: 14/07/2018
"""
__author__ = 'Rinzler<github.com/feliphebueno>'
class Rinzlerhttpexception(BaseException):
"""
Rinzler's base HTTP Exception, all other HTTP Exceptions must subclass this class as well as override it's
properties status_code and exception_name in order to be properly converted to a HTTP Error Response to the client.
"""
status_code = 0
exception_name = 'Cataclysmic Error'
def __int__(self):
return int(self.status_code)
def __repr__(self):
return self.__str__() |
# numbers to letters
small = ['zero','one','two','three','four','five','six','seven','eight','nine','ten','eleven','twelve','thirteen','fourteen','fifteen','sixteen','seventeen','eighteen','nineteen']
tens = ['mistake0','mistake1','twenty','thirty','forty','fifty','sixty','seventy','eighty','ninety']
# simple algorithm that take a number less than a billing and converts it into a str
def convert(n):
if n < 20:
return small[n]
elif n < 100:
if n % 10 == 0:
return tens[n//10]
else:
return tens[n//10] + '-' + small[n%10]
elif n < 1000:
if n % 100 == 0:
return convert(n//100) + ' hundred'
else:
return convert(n//100)+' hundred and '+convert(n%100)
elif n < 10**6:
if n % 1000 == 0:
return convert(n//1000)+' thousand'
else:
return convert(n//1000)+' thousand '+convert(n%1000)
else:
if n % 10**6 == 0:
return convert(n//10**6)+' million '
else:
return convert(n//10**6)+' million '+convert(n%10**6)
| small = ['zero', 'one', 'two', 'three', 'four', 'five', 'six', 'seven', 'eight', 'nine', 'ten', 'eleven', 'twelve', 'thirteen', 'fourteen', 'fifteen', 'sixteen', 'seventeen', 'eighteen', 'nineteen']
tens = ['mistake0', 'mistake1', 'twenty', 'thirty', 'forty', 'fifty', 'sixty', 'seventy', 'eighty', 'ninety']
def convert(n):
if n < 20:
return small[n]
elif n < 100:
if n % 10 == 0:
return tens[n // 10]
else:
return tens[n // 10] + '-' + small[n % 10]
elif n < 1000:
if n % 100 == 0:
return convert(n // 100) + ' hundred'
else:
return convert(n // 100) + ' hundred and ' + convert(n % 100)
elif n < 10 ** 6:
if n % 1000 == 0:
return convert(n // 1000) + ' thousand'
else:
return convert(n // 1000) + ' thousand ' + convert(n % 1000)
elif n % 10 ** 6 == 0:
return convert(n // 10 ** 6) + ' million '
else:
return convert(n // 10 ** 6) + ' million ' + convert(n % 10 ** 6) |
ALPHABET = 'abcdefghijklmnopqrstuvwxyz'
def increment(word: str) -> str:
last_index = len(word) - 1
if word[last_index] != 'z':
return word[:last_index] + ALPHABET[ALPHABET.find(word[last_index]) + 1]
elif len(word) == 1:
return "aa"
else:
return increment(word[:last_index]) + 'a'
def noBadLetters(password: str) -> bool:
badLetters = ['i','o','l']
for letter in badLetters:
if letter in password:
return False
return True
def overlaps(password: str) -> bool:
for idx1 in range(len(password) - 1):
if password[idx1] == password[idx1+1] and len(password[idx1+2:]) >= 2:
# Loop found a pair, now look for a different pair in the remaining part of the string
for idx2 in range(idx1+2, len(password) - 1):
if password[idx2] == password[idx2+1] and password[idx2] != password[idx1]:
return True
return False
def straight3(password: str) -> bool:
if len(password) < 2:
return False
for idx in range(len(password) - 2):
start = password[idx]
mid = password[idx + 1]
end = password[idx + 2]
if ALPHABET.find(start) + 2 == ALPHABET.find(mid) + 1 == ALPHABET.find(end):
return True
return False
def passes(password: str) -> bool:
return noBadLetters(password) and overlaps(password) and straight3(password)
def part1(password: str) -> str:
password = increment(password)
while not passes(password):
password = increment(password)
return password
def part2(password: str) -> str:
return part1(part1(password))
if __name__ == "__main__":
with open("../input.txt") as file:
lines = [line.strip() for line in file]
print(part1("vzbxkghb"))
print(part2("vzbxkghb")) | alphabet = 'abcdefghijklmnopqrstuvwxyz'
def increment(word: str) -> str:
last_index = len(word) - 1
if word[last_index] != 'z':
return word[:last_index] + ALPHABET[ALPHABET.find(word[last_index]) + 1]
elif len(word) == 1:
return 'aa'
else:
return increment(word[:last_index]) + 'a'
def no_bad_letters(password: str) -> bool:
bad_letters = ['i', 'o', 'l']
for letter in badLetters:
if letter in password:
return False
return True
def overlaps(password: str) -> bool:
for idx1 in range(len(password) - 1):
if password[idx1] == password[idx1 + 1] and len(password[idx1 + 2:]) >= 2:
for idx2 in range(idx1 + 2, len(password) - 1):
if password[idx2] == password[idx2 + 1] and password[idx2] != password[idx1]:
return True
return False
def straight3(password: str) -> bool:
if len(password) < 2:
return False
for idx in range(len(password) - 2):
start = password[idx]
mid = password[idx + 1]
end = password[idx + 2]
if ALPHABET.find(start) + 2 == ALPHABET.find(mid) + 1 == ALPHABET.find(end):
return True
return False
def passes(password: str) -> bool:
return no_bad_letters(password) and overlaps(password) and straight3(password)
def part1(password: str) -> str:
password = increment(password)
while not passes(password):
password = increment(password)
return password
def part2(password: str) -> str:
return part1(part1(password))
if __name__ == '__main__':
with open('../input.txt') as file:
lines = [line.strip() for line in file]
print(part1('vzbxkghb'))
print(part2('vzbxkghb')) |
DB_CONFIG_DEV = {'host': 'host',
'usuario':'usr_pesquisabr',
'senha':'senhapesquisabr',
'database': 'pesquisabr' }
DB_CONFIG_PROD = {'host': 'host',
'usuario':'usr_pesquisabr',
'senha':'senhapesquisabr',
'database': 'pesquisabr' }
| db_config_dev = {'host': 'host', 'usuario': 'usr_pesquisabr', 'senha': 'senhapesquisabr', 'database': 'pesquisabr'}
db_config_prod = {'host': 'host', 'usuario': 'usr_pesquisabr', 'senha': 'senhapesquisabr', 'database': 'pesquisabr'} |
def diag_diff(matr):
sum1 = 0
sum2 = 0
length = len(matr[0])
for i in range(length):
for j in range(length):
if i == j:
sum1 = sum1 + matr[i][j]
if i == length - j - 1:
sum2 = sum2 + matr[i][j]
return sum1 - sum2
| def diag_diff(matr):
sum1 = 0
sum2 = 0
length = len(matr[0])
for i in range(length):
for j in range(length):
if i == j:
sum1 = sum1 + matr[i][j]
if i == length - j - 1:
sum2 = sum2 + matr[i][j]
return sum1 - sum2 |
#
# PySNMP MIB module HH3C-DOT11-RRM-MIB (http://snmplabs.com/pysmi)
# ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/HH3C-DOT11-RRM-MIB
# Produced by pysmi-0.3.4 at Wed May 1 13:26:18 2019
# On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4
# Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15)
#
ObjectIdentifier, Integer, OctetString = mibBuilder.importSymbols("ASN1", "ObjectIdentifier", "Integer", "OctetString")
NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues")
ValueSizeConstraint, ConstraintsUnion, SingleValueConstraint, ValueRangeConstraint, ConstraintsIntersection = mibBuilder.importSymbols("ASN1-REFINEMENT", "ValueSizeConstraint", "ConstraintsUnion", "SingleValueConstraint", "ValueRangeConstraint", "ConstraintsIntersection")
Hh3cDot11RadioScopeType, hh3cDot11APElementIndex, Hh3cDot11ObjectIDType, Hh3cDot11ChannelScopeType, hh3cDot11, Hh3cDot11SSIDStringType, Hh3cDot11RadioElementIndex, Hh3cDot11RadioType = mibBuilder.importSymbols("HH3C-DOT11-REF-MIB", "Hh3cDot11RadioScopeType", "hh3cDot11APElementIndex", "Hh3cDot11ObjectIDType", "Hh3cDot11ChannelScopeType", "hh3cDot11", "Hh3cDot11SSIDStringType", "Hh3cDot11RadioElementIndex", "Hh3cDot11RadioType")
NotificationGroup, ModuleCompliance = mibBuilder.importSymbols("SNMPv2-CONF", "NotificationGroup", "ModuleCompliance")
MibScalar, MibTable, MibTableRow, MibTableColumn, TimeTicks, IpAddress, Bits, Unsigned32, Gauge32, Integer32, Counter64, iso, NotificationType, ObjectIdentity, MibIdentifier, Counter32, ModuleIdentity = mibBuilder.importSymbols("SNMPv2-SMI", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "TimeTicks", "IpAddress", "Bits", "Unsigned32", "Gauge32", "Integer32", "Counter64", "iso", "NotificationType", "ObjectIdentity", "MibIdentifier", "Counter32", "ModuleIdentity")
RowStatus, MacAddress, TextualConvention, TruthValue, DisplayString, DateAndTime = mibBuilder.importSymbols("SNMPv2-TC", "RowStatus", "MacAddress", "TextualConvention", "TruthValue", "DisplayString", "DateAndTime")
hh3cDot11RRM = ModuleIdentity((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8))
hh3cDot11RRM.setRevisions(('2010-09-25 18:00', '2010-02-23 18:00', '2009-08-01 20:00', '2009-05-07 20:00', '2009-04-17 20:00', '2008-07-14 14:29',))
if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0):
if mibBuilder.loadTexts: hh3cDot11RRM.setRevisionsDescriptions(('Modified to add new nodes.', 'Modified to add new nodes.', 'Modified to add new nodes and new table.', 'Modified to add new nodes and new table.', 'Modified to add new table and new group.', 'The initial revision of this MIB module.',))
if mibBuilder.loadTexts: hh3cDot11RRM.setLastUpdated('201009251800Z')
if mibBuilder.loadTexts: hh3cDot11RRM.setOrganization('Hangzhou H3C Technologies Co., Ltd.')
if mibBuilder.loadTexts: hh3cDot11RRM.setContactInfo('Platform Team H3C Technologies Co., Ltd. Hai-Dian District Beijing P.R.China Http://www.h3c.com Zip: 100085')
if mibBuilder.loadTexts: hh3cDot11RRM.setDescription('This MIB file is to provide the object definition of WLAN radio resource management (RRM).')
hh3cDot11RRMConfigGroup = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1))
hh3cDot11RRMGlobalCfgPara = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1))
hh3cDot11RRM11nMadtMaxMcs = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 1), Integer32().subtype(subtypeSpec=ConstraintsUnion(ValueRangeConstraint(0, 76), ValueRangeConstraint(255, 255), )).clone(255)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRM11nMadtMaxMcs.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRM11nMadtMaxMcs.setDescription('Specify the maximum modulation and coding scheme (MCS) index for 802.11n mandatory rates. The value 255 indicates that no maximum MCS index is specified. No maximum MCS index is specified for 802.11n mandatory rates by default. Besides 255, the specified maximum MCS index for 802.11n supported rates must be no less than the specified maximum MCS index for 802.11n mandatory rates.')
hh3cDot11RRM11nSuptMaxMcs = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 76)).clone(76)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRM11nSuptMaxMcs.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRM11nSuptMaxMcs.setDescription('Specify the maximum Modulation and Coding Scheme (MCS) index for 802.11n supported rates. The specified maximum MCS index for 802.11n supported rates must be no less than the specified maximum MCS index for 802.11n mandatory rates.')
hh3cDot11RRM11gProtect = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 3), TruthValue().clone('false')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRM11gProtect.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRM11gProtect.setDescription('Enable/Disable dot11g protection.')
hh3cDot11RRM11aPwrConstrt = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 4), Integer32()).setUnits('dBm').setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRM11aPwrConstrt.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRM11aPwrConstrt.setDescription('Configure the power constraint for all 802.11a radios. The configured power constraint is advertised in beacons if spectrum management is enabled. The range of power constraint is 0 to MAX-POWER-1 (where the MAX-POWER is defined by the regulatory domain).')
hh3cDot11RRM11aSpectrumManag = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 5), TruthValue().clone('false')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRM11aSpectrumManag.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRM11aSpectrumManag.setDescription('Enable/Disable spectrum management for 802.11a radios. When spectrum management is enabled, the WLAN sub-system advertises power capabilities of the AP and power constraints applicable to all devices in the BSS based on regulatory domain specification.')
hh3cDot11RRMAutoChlAvoid11h = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 6), TruthValue().clone('false')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMAutoChlAvoid11h.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMAutoChlAvoid11h.setDescription('Configure the auto-channel set as non-dot11h channels, this is, only the non-dot11h channels belonging to the country code are scanned during initial channel selection and one of them is selected.')
hh3cDot11RRMScanChl = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 7), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("auto", 1), ("all", 2))).clone('auto')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMScanChl.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMScanChl.setDescription('Set the scan mode. auto: When this option is set, all channels of the country code being set are scanned. all: When this option is set, all the channels of the radio band are scanned.')
hh3cDot11RRMScanRptIntvel = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 8), Integer32().subtype(subtypeSpec=ValueRangeConstraint(5, 120)).clone(10)).setUnits('second').setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMScanRptIntvel.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMScanRptIntvel.setDescription('Set the scan report interval.')
hh3cDot11APInterfNumThreshhd = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 9), Integer32()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11APInterfNumThreshhd.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11APInterfNumThreshhd.setDescription('Represents threshold of AP interference . If the value of AP interference exceeds this threshold, AP interference trap will be sent. If the value of this node is zero, AP interference trap will be sent immediately.')
hh3cDot11StaInterfNumThreshhd = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 10), Integer32()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11StaInterfNumThreshhd.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11StaInterfNumThreshhd.setDescription('Represents threshold of STA interference. If the value of STA interference exceeds this threshold, STA interference trap will be sent. If the value of this node is zero, STA interference trap will be sent immediately. ')
hh3cDot11RRMRadioCfgTable = MibTable((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2), )
if mibBuilder.loadTexts: hh3cDot11RRMRadioCfgTable.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMRadioCfgTable.setDescription('Configure WLAN RRM based radio type. When 802.11b parameter is modified, 802.11g parameter will be changed at the same time. In the same way, when 802.11g parameter is modified, 802.11b parameter will be changed at the same time.')
hh3cDot11RRMRadioCfgEntry = MibTableRow((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1), ).setIndexNames((0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RRMRadioType"))
if mibBuilder.loadTexts: hh3cDot11RRMRadioCfgEntry.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMRadioCfgEntry.setDescription('Configure WLAN RRM based radio type. When 802.11b parameter is modified, 802.11g parameter will be changed at the same time. In the same way, when 802.11g parameter is modified, 802.11b parameter will be changed at the same time.')
hh3cDot11RRMRadioType = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 1), Hh3cDot11RadioType())
if mibBuilder.loadTexts: hh3cDot11RRMRadioType.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMRadioType.setDescription('802.11 radio type.')
hh3cDot11RRMCfgChlState = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 2), TruthValue().clone('false')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgChlState.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgChlState.setDescription('Enable/Disable dynamic channel selection.')
hh3cDot11RRMCfgChlMode = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 3), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("selfDecisive", 1), ("userTriggered", 2))).clone('userTriggered')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgChlMode.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgChlMode.setDescription('Configure the mode of channel selection. This node can be configured only when dynamic channel selection is enabled.')
hh3cDot11RRMChlProntoRadioElmt = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 4), Unsigned32()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMChlProntoRadioElmt.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlProntoRadioElmt.setDescription('Specify the AP and radio that will change channel at next calibration cycle. 0 is returned when getting the value of this node. This node can be configured only when the mode of channel selection control is user-triggered. When configuring, the higher 24 bits stand for the AP index, and the last 8 bits stand for the radio index. 4294967295 stand for configuring each radio on all APs.')
hh3cDot11RRMCfgPwrState = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 5), TruthValue().clone('false')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgPwrState.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgPwrState.setDescription('Enable/Disable dynamic power selection for the band.')
hh3cDot11RRMCfgPwrMode = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 6), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("selfDecisive", 1), ("userTriggered", 2))).clone('userTriggered')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgPwrMode.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgPwrMode.setDescription('Configure the mode of transmit power control. This node can be configured only when dynamic power selection is enabled.')
hh3cDot11RRMPwrProntoRadioElmt = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 7), Unsigned32()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMPwrProntoRadioElmt.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMPwrProntoRadioElmt.setDescription('Specify the AP and radio that will change power at next calibration cycle. 0 is returned when getting the value of this node. This node can be configured only when the mode of transmit power control is user-triggered. When configuring, the higher 24 bits stand for the AP index, and the last 8 bits stand for the radio index. 4294967295 stand for configuring each radio on all APs.')
hh3cDot11RRMCfgIntrvl = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 8), Integer32().clone(8)).setUnits('minute').setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgIntrvl.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgIntrvl.setDescription('Configure the calibration interval.')
hh3cDot11RRMCfgIntrfThres = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 9), Integer32().subtype(subtypeSpec=ValueRangeConstraint(40, 100)).clone(50)).setUnits('percent').setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgIntrfThres.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgIntrfThres.setDescription('Configure the interface threshold. By default, interference observed on an operating channel is considered during dynamic frequency selection and transmit power control. If the interference percentage on the channel reaches the set threshold, RRM will perform resource adjustment to control the situation.')
hh3cDot11RRMCfgNoiseThres = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 10), Integer32().subtype(subtypeSpec=ValueRangeConstraint(-127, 127)).clone(-70)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgNoiseThres.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgNoiseThres.setDescription('Configure the noise threshold.')
hh3cDot11RRMCfgPERThres = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 11), Integer32().subtype(subtypeSpec=ValueRangeConstraint(10, 100)).clone(20)).setUnits('percent').setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgPERThres.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgPERThres.setDescription('Configure the CRC error threshold. If the percentage of CRC errors reaches the threshold, RRM will perform resource adjustment to control the situation.')
hh3cDot11RRMCfgToleranceFctr = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 12), Integer32().subtype(subtypeSpec=ValueRangeConstraint(15, 45)).clone(20)).setUnits('percent').setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgToleranceFctr.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgToleranceFctr.setDescription('Configure the tolerance level. During dynamic frequency selection (DFS), the channel will be changed only if there is a better channel having lesser interference and packet error rate than those specified by the user.')
hh3cDot11RRMCfgAdjacencyFctr = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 13), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 16)).clone(3)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCfgAdjacencyFctr.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCfgAdjacencyFctr.setDescription('Configure the adjacency factor for the band. If transmit power control (TPC) is configured, power will be adjusted when the nth neighbor is detected. The value n is the adjacency factor.')
hh3cDot11RRMAPCfgTable = MibTable((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 3), )
if mibBuilder.loadTexts: hh3cDot11RRMAPCfgTable.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMAPCfgTable.setDescription('This table defines the RRM parameters for AP.')
hh3cDot11RRMAPCfgEntry = MibTableRow((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 3, 1), ).setIndexNames((0, "HH3C-DOT11-REF-MIB", "hh3cDot11APElementIndex"))
if mibBuilder.loadTexts: hh3cDot11RRMAPCfgEntry.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMAPCfgEntry.setDescription('Each entry contains information of RRM parameters for AP.')
hh3cDot11RRMAPWorkMode = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 3, 1, 1), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3))).clone(namedValues=NamedValues(("normal", 1), ("monitor", 2), ("hybrid", 3)))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMAPWorkMode.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMAPWorkMode.setDescription('AP work mode.')
hh3cDot11RRMSDRadioGroupTable = MibTable((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4), )
if mibBuilder.loadTexts: hh3cDot11RRMSDRadioGroupTable.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMSDRadioGroupTable.setDescription('This table defines RRM self-decisive radio group.')
hh3cDot11RRMSDRadioGroupEntry = MibTableRow((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1), ).setIndexNames((0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RRMSDRadioGroupId"))
if mibBuilder.loadTexts: hh3cDot11RRMSDRadioGroupEntry.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMSDRadioGroupEntry.setDescription('Each entry contains information of one RRM self-decisive radio group.')
hh3cDot11RRMSDRadioGroupId = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 1), Unsigned32())
if mibBuilder.loadTexts: hh3cDot11RRMSDRadioGroupId.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMSDRadioGroupId.setDescription('Represents RRM self-decisive radio group ID.')
hh3cDot11RRMSDRadioGroupDesc = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 2), OctetString()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: hh3cDot11RRMSDRadioGroupDesc.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMSDRadioGroupDesc.setDescription('Represents the description of RRM self-decisive radio group.')
hh3cDot11RRMSDRdGrpChlHolddownTm = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 3), Unsigned32()).setUnits('minute').setMaxAccess("readcreate")
if mibBuilder.loadTexts: hh3cDot11RRMSDRdGrpChlHolddownTm.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMSDRdGrpChlHolddownTm.setDescription('Represents the channel holddown time of RRM self-decisive radio group.')
hh3cDot11RRMSDRdGrpPwrHolddownTm = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 4), Unsigned32()).setUnits('minute').setMaxAccess("readcreate")
if mibBuilder.loadTexts: hh3cDot11RRMSDRdGrpPwrHolddownTm.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMSDRdGrpPwrHolddownTm.setDescription('Represents the power holddown time of RRM self-decisive radio group.')
hh3cDot11RRMSDRdGroupRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 5), RowStatus()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: hh3cDot11RRMSDRdGroupRowStatus.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMSDRdGroupRowStatus.setDescription('The row status of this table entry.')
hh3cDot11RRMAPCfg2Table = MibTable((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5), )
if mibBuilder.loadTexts: hh3cDot11RRMAPCfg2Table.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMAPCfg2Table.setDescription('This table defines the RRM parameters for AP.')
hh3cDot11RRMAPCfg2Entry = MibTableRow((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1), ).setIndexNames((0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RRMAPSerialID"))
if mibBuilder.loadTexts: hh3cDot11RRMAPCfg2Entry.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMAPCfg2Entry.setDescription('Each entry contains information of RRM parameters for AP.')
hh3cDot11RRMAPSerialID = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 1), Hh3cDot11ObjectIDType())
if mibBuilder.loadTexts: hh3cDot11RRMAPSerialID.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMAPSerialID.setDescription('Serial ID of the AP.')
hh3cDot11RRMAPIntfThreshold = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 2), Integer32()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMAPIntfThreshold.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMAPIntfThreshold.setDescription('Represents threshold of AP interference . If the number of AP interference exceeds this threshold, AP interference trap will be sent.')
hh3cDot11RRMStaIntfThreshold = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 3), Integer32()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMStaIntfThreshold.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMStaIntfThreshold.setDescription('Represents threshold of STA interference. If the number of STA interference exceeds this threshold, station interference trap will be sent.')
hh3cDot11RRMCoChlIntfTrapThhd = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 4), Integer32()).setUnits('dbm').setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMCoChlIntfTrapThhd.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMCoChlIntfTrapThhd.setDescription('Represents threshold of interference trap with current ap. If signal strength of the device exceeds this threshold, corresponding trap will be sent.')
hh3cDot11RRMAdjChlIntfTrapThhd = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 5), Integer32()).setUnits('dbm').setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMAdjChlIntfTrapThhd.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMAdjChlIntfTrapThhd.setDescription('Represents threshold of adjacent interference trap with current ap. If signal strength of the device exceeds this threshold, corresponding trap will be sent.')
hh3cDot11RRMDetectGroup = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2))
hh3cDot11RRMChlRptTable = MibTable((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1), )
if mibBuilder.loadTexts: hh3cDot11RRMChlRptTable.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptTable.setDescription('This table shows the RRM channel information of each radio on all APs.')
hh3cDot11RRMChlRptEntry = MibTableRow((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1), ).setIndexNames((0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RRMRadioIndex"), (0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RRMChlRptChlNum"))
if mibBuilder.loadTexts: hh3cDot11RRMChlRptEntry.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptEntry.setDescription('Each entry contains information of RRM channel information of the radio on the AP.')
hh3cDot11RRMRadioIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 1), Hh3cDot11RadioElementIndex()).setMaxAccess("accessiblefornotify")
if mibBuilder.loadTexts: hh3cDot11RRMRadioIndex.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMRadioIndex.setDescription('Represents index of the radio.')
hh3cDot11RRMChlRptChlNum = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 2), Integer32()).setMaxAccess("accessiblefornotify")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptChlNum.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptChlNum.setDescription('Channel number.')
hh3cDot11RRMChlRptChlType = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 3), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("primeChannel", 1), ("offChannel", 2)))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptChlType.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptChlType.setDescription('Channel type.')
hh3cDot11RRMChlRptChlQlty = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 4), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("good", 1), ("bad", 2)))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptChlQlty.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptChlQlty.setDescription('Channel quality.')
hh3cDot11RRMChlRptNbrCnt = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 5), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptNbrCnt.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptNbrCnt.setDescription('Number of neighbors found on the channel.')
hh3cDot11RRMChlRptLoad = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 6), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptLoad.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptLoad.setDescription('Load observed on the channel in percentage.')
hh3cDot11RRMChlRptUtlz = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 7), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptUtlz.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptUtlz.setDescription('Utilization of the channel in percentage.')
hh3cDot11RRMChlRptIntrf = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 8), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptIntrf.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptIntrf.setDescription('Interference observed on the channel in percentage.')
hh3cDot11RRMChlRptPER = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 9), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptPER.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptPER.setDescription('Packet error rate observed on the channel in percentage.')
hh3cDot11RRMChlRptRetryRate = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 10), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptRetryRate.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptRetryRate.setDescription('Percentage of retransmission happened on the channel.')
hh3cDot11RRMChlRptNoise = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 11), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptNoise.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptNoise.setDescription('Noise observed on the channel.')
hh3cDot11RRMChlRptRadarIndtcr = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 12), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("detected", 1), ("notDetected", 2)))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11RRMChlRptRadarIndtcr.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMChlRptRadarIndtcr.setDescription('Radar detection status.')
hh3cDot11RRMNbrInfoTable = MibTable((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2), )
if mibBuilder.loadTexts: hh3cDot11RRMNbrInfoTable.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMNbrInfoTable.setDescription('This table shows the RRM neighbor information of each radio on all APs.')
hh3cDot11RRMNbrInfoEntry = MibTableRow((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1), ).setIndexNames((0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RRMRadioIndex"), (0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RrmNbrBSSID"))
if mibBuilder.loadTexts: hh3cDot11RRMNbrInfoEntry.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMNbrInfoEntry.setDescription('Each entry contains information of RRM neighbor information of the radio on an AP.')
hh3cDot11RrmNbrBSSID = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 1), MacAddress())
if mibBuilder.loadTexts: hh3cDot11RrmNbrBSSID.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RrmNbrBSSID.setDescription('MAC address of the AP.')
hh3cDot11RrmNbrChl = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 2), Hh3cDot11ChannelScopeType()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RrmNbrChl.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RrmNbrChl.setDescription('Channel number on which the neighbor was found.')
hh3cDot11RRMNbrIntrf = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 3), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMNbrIntrf.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMNbrIntrf.setDescription('Interference observed on the channel in percentage by neighbor.')
hh3cDot11RrmNbrRSSI = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 4), Integer32()).setUnits('dBm').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RrmNbrRSSI.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RrmNbrRSSI.setDescription('Signal strength of the AP in dBm.')
hh3cDot11RrmNbrType = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 5), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("managed", 1), ("unmanaged", 2)))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RrmNbrType.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RrmNbrType.setDescription('Type of the AP, managed or unmanaged.')
hh3cDot11RrmNbrSSID = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 6), Hh3cDot11SSIDStringType()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RrmNbrSSID.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RrmNbrSSID.setDescription('SSID of the Neighbor.')
hh3cDot11RRMHistoryTable = MibTable((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3), )
if mibBuilder.loadTexts: hh3cDot11RRMHistoryTable.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryTable.setDescription('This table shows the details of the latest three channel changes and power changes applied on all APs, including time of change, reason of the change and the channel, power, interference parameters.')
hh3cDot11RRMHistoryEntry = MibTableRow((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1), ).setIndexNames((0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RRMRadioIndex"), (0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RRMHistoryId"), (0, "HH3C-DOT11-RRM-MIB", "hh3cDot11RRMHistoryRecIndctr"))
if mibBuilder.loadTexts: hh3cDot11RRMHistoryEntry.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryEntry.setDescription('Each entry shows the details of channel and power changes.')
hh3cDot11RRMHistoryId = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 1), Integer32())
if mibBuilder.loadTexts: hh3cDot11RRMHistoryId.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryId.setDescription('History number of the change.')
hh3cDot11RRMHistoryRecIndctr = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 2), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("before", 1), ("after", 2))))
if mibBuilder.loadTexts: hh3cDot11RRMHistoryRecIndctr.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryRecIndctr.setDescription('History record type of the change.')
hh3cDot11RRMHistoryChl = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 3), Hh3cDot11ChannelScopeType()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryChl.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryChl.setDescription('Channel on which the radio operates before/after the change of channel or power.')
hh3cDot11RRMHistoryPwr = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 4), Integer32()).setUnits('dBm').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryPwr.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryPwr.setDescription('Power of the radio before/after the change of channel or power.')
hh3cDot11RRMHistoryLoad = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 5), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryLoad.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryLoad.setDescription('Load observed on the radio in percentage before/after the change of channel or power.')
hh3cDot11RRMHistoryUtlz = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 6), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryUtlz.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryUtlz.setDescription('Utilization of the radio in percentage before/after the change of channel or power.')
hh3cDot11RRMHistoryIntrf = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 7), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryIntrf.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryIntrf.setDescription('Interference observed on the radio in percentage before/after the change of channel or power.')
hh3cDot11RRMHistoryNoise = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 8), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryNoise.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryNoise.setDescription('Noise observed on the radio before/after the change of channel or power.')
hh3cDot11RRMHistoryPER = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 9), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryPER.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryPER.setDescription('Packet error rate observed on the radio in percentage before/after the change of channel or power.')
hh3cDot11RRMHistoryRetryRate = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 10), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 100))).setUnits('percent').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryRetryRate.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryRetryRate.setDescription('Percentage of retransmission happened on the radio before/after the change of channel or power.')
hh3cDot11RRMHistoryChgReason = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 11), Bits().clone(namedValues=NamedValues(("others", 0), ("coverage", 1), ("radar", 2), ("retransmission", 3), ("packetsDiscarded", 4), ("interference", 5)))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryChgReason.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryChgReason.setDescription('Reason for the change of channel or power. The various bit positions are: |0 |Others | |1 |Coverage | |2 |Radar | |3 |Retransmission | |4 |Packets discarded | |5 |Interference | 0 is returned when the history record type is after.')
hh3cDot11RRMHistoryChgDateTime = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 12), DateAndTime()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11RRMHistoryChgDateTime.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMHistoryChgDateTime.setDescription('The time when the channel or power change occurred.')
hh3cDot11RRMNotifyGroup = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3))
hh3cDot11RRMChlQltyNotifications = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1))
hh3cDot11RRMChlQltyNtfPrefix = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1, 0))
hh3cDot11RRMIntrfLimit = NotificationType((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1, 0, 1)).setObjects(("HH3C-DOT11-RRM-MIB", "hh3cDot11RRMChlRptIntrf"))
if mibBuilder.loadTexts: hh3cDot11RRMIntrfLimit.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMIntrfLimit.setDescription('This notification will be sent when interference on the radio exceeds the limit.')
hh3cDot11RRMPERLimit = NotificationType((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1, 0, 2)).setObjects(("HH3C-DOT11-RRM-MIB", "hh3cDot11RRMChlRptPER"))
if mibBuilder.loadTexts: hh3cDot11RRMPERLimit.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMPERLimit.setDescription('This notification will be sent when packet error rate on the radio exceeds the limit.')
hh3cDot11RRMNoiseLimit = NotificationType((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1, 0, 3)).setObjects(("HH3C-DOT11-RRM-MIB", "hh3cDot11RRMChlRptNoise"))
if mibBuilder.loadTexts: hh3cDot11RRMNoiseLimit.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMNoiseLimit.setDescription('This notification will be sent when noise on the radio exceeds the limit.')
hh3cDot11RRMResChgNotifications = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 2))
hh3cDot11RRMResChgNtfPrefix = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 2, 0))
hh3cDot11RRMPowerChange = NotificationType((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 2, 0, 1)).setObjects(("HH3C-DOT11-RRM-MIB", "hh3cDot11RRMRadioIndex"), ("HH3C-DOT11-RRM-MIB", "hh3cDot11NewPower"), ("HH3C-DOT11-RRM-MIB", "hh3cDot11OldPower"))
if mibBuilder.loadTexts: hh3cDot11RRMPowerChange.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11RRMPowerChange.setDescription('This notification will be sent when power changed on the radio automatically.')
hh3cDot11RRMNotificationsVar = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 3))
hh3cDot11NewPower = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 3, 1), Integer32()).setMaxAccess("accessiblefornotify")
if mibBuilder.loadTexts: hh3cDot11NewPower.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11NewPower.setDescription('Power of the radio after the change of power.')
hh3cDot11OldPower = MibScalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 3, 2), Integer32()).setMaxAccess("accessiblefornotify")
if mibBuilder.loadTexts: hh3cDot11OldPower.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11OldPower.setDescription('Power of the radio before the change of power.')
hh3cDot11MonitorDetectedGroup = MibIdentifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4))
hh3cDot11MonitorDetectedDevTable = MibTable((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1), )
if mibBuilder.loadTexts: hh3cDot11MonitorDetectedDevTable.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDetectedDevTable.setDescription('This table shows the devices of AP detected')
hh3cDot11MonitorDetectedDevEntry = MibTableRow((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1), ).setIndexNames((0, "HH3C-DOT11-RRM-MIB", "hh3cDot11MonitorDevMAC"), (0, "HH3C-DOT11-REF-MIB", "hh3cDot11APElementIndex"))
if mibBuilder.loadTexts: hh3cDot11MonitorDetectedDevEntry.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDetectedDevEntry.setDescription('Each entry contains information of detected devices.')
hh3cDot11MonitorDevMAC = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 1), MacAddress())
if mibBuilder.loadTexts: hh3cDot11MonitorDevMAC.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevMAC.setDescription('Represents MAC address of the device detected.')
hh3cDot11MonitorDevType = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 2), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5))).clone(namedValues=NamedValues(("client", 1), ("ap", 2), ("adhoc", 3), ("wirelessBridge", 4), ("unknown", 5)))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevType.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevType.setDescription('Represents type of the device detected.')
hh3cDot11MonitorDevVendor = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 3), OctetString()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevVendor.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevVendor.setDescription('Represents vendor of the detected device.')
hh3cDot11MonitorDevSSID = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 4), OctetString()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevSSID.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevSSID.setDescription('Represents the service set identifier for the ESS of the device which type is ap or adhoc.')
hh3cDot11MonitorDevBSSID = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 5), MacAddress()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevBSSID.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevBSSID.setDescription('Represents the basic service set identifier of the detected device.')
hh3cDot11MonitorDevChannel = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 6), Hh3cDot11ChannelScopeType()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevChannel.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevChannel.setDescription('Represents the channel in which the device was last detected. AP will choose the channel which has maximum signal strength as effective channel, as there is interference between adjacent channels.')
hh3cDot11MonitorRadioId = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 7), Hh3cDot11RadioScopeType()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorRadioId.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorRadioId.setDescription('Represents the radio ID of the AP that detected the device.')
hh3cDot11MonitorDevMaxRSSI = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 8), Integer32()).setUnits('dbm').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevMaxRSSI.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevMaxRSSI.setDescription('Represents the maximum detected RSSI of the device in a scan report cycle.')
hh3cDot11MonitorDevBeaconIntvl = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 9), Integer32()).setUnits('millisecond').setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevBeaconIntvl.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevBeaconIntvl.setDescription('Represents the beacon interval for the detected device(not include the device which type is client).')
hh3cDot11MonitorDevFstDctTime = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 10), DateAndTime()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevFstDctTime.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevFstDctTime.setDescription('Represents the time at which the device was first detected.')
hh3cDot11MonitorDevLstDctTime = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 11), DateAndTime()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevLstDctTime.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevLstDctTime.setDescription('Represents the time at which the device was detected last time.')
hh3cDot11MonitorDevClear = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 12), TruthValue()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hh3cDot11MonitorDevClear.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevClear.setDescription('This object is used to clear the information of the device detected in the WLAN. It will return false for get operation.')
hh3cDot11MonitorDevSNR = MibTableColumn((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 13), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hh3cDot11MonitorDevSNR.setStatus('current')
if mibBuilder.loadTexts: hh3cDot11MonitorDevSNR.setDescription('Represents the SNR of the device in a scan report cycle.')
mibBuilder.exportSymbols("HH3C-DOT11-RRM-MIB", hh3cDot11RRMSDRadioGroupEntry=hh3cDot11RRMSDRadioGroupEntry, hh3cDot11MonitorDetectedDevTable=hh3cDot11MonitorDetectedDevTable, hh3cDot11RrmNbrType=hh3cDot11RrmNbrType, hh3cDot11RRMAPCfgTable=hh3cDot11RRMAPCfgTable, hh3cDot11RRMStaIntfThreshold=hh3cDot11RRMStaIntfThreshold, hh3cDot11RrmNbrChl=hh3cDot11RrmNbrChl, hh3cDot11RRMHistoryEntry=hh3cDot11RRMHistoryEntry, hh3cDot11RRMCfgChlState=hh3cDot11RRMCfgChlState, hh3cDot11MonitorDevClear=hh3cDot11MonitorDevClear, hh3cDot11RRMNotifyGroup=hh3cDot11RRMNotifyGroup, hh3cDot11MonitorDevSSID=hh3cDot11MonitorDevSSID, hh3cDot11RRMHistoryChl=hh3cDot11RRMHistoryChl, hh3cDot11MonitorDevSNR=hh3cDot11MonitorDevSNR, hh3cDot11MonitorDetectedDevEntry=hh3cDot11MonitorDetectedDevEntry, hh3cDot11MonitorDetectedGroup=hh3cDot11MonitorDetectedGroup, hh3cDot11RRMConfigGroup=hh3cDot11RRMConfigGroup, hh3cDot11MonitorDevVendor=hh3cDot11MonitorDevVendor, hh3cDot11RRMResChgNtfPrefix=hh3cDot11RRMResChgNtfPrefix, hh3cDot11RRMCfgPwrState=hh3cDot11RRMCfgPwrState, hh3cDot11RRMChlRptLoad=hh3cDot11RRMChlRptLoad, hh3cDot11RRMCfgNoiseThres=hh3cDot11RRMCfgNoiseThres, hh3cDot11RRMChlRptNbrCnt=hh3cDot11RRMChlRptNbrCnt, hh3cDot11RRMChlRptRadarIndtcr=hh3cDot11RRMChlRptRadarIndtcr, hh3cDot11RRMHistoryNoise=hh3cDot11RRMHistoryNoise, hh3cDot11RRMHistoryChgDateTime=hh3cDot11RRMHistoryChgDateTime, hh3cDot11RRMPowerChange=hh3cDot11RRMPowerChange, hh3cDot11RRMHistoryChgReason=hh3cDot11RRMHistoryChgReason, hh3cDot11RRMHistoryId=hh3cDot11RRMHistoryId, hh3cDot11RRMHistoryRetryRate=hh3cDot11RRMHistoryRetryRate, hh3cDot11MonitorRadioId=hh3cDot11MonitorRadioId, hh3cDot11RRMCfgToleranceFctr=hh3cDot11RRMCfgToleranceFctr, hh3cDot11RRMCfgPERThres=hh3cDot11RRMCfgPERThres, hh3cDot11RRMChlQltyNotifications=hh3cDot11RRMChlQltyNotifications, hh3cDot11MonitorDevMAC=hh3cDot11MonitorDevMAC, hh3cDot11RRMRadioCfgEntry=hh3cDot11RRMRadioCfgEntry, hh3cDot11RRMResChgNotifications=hh3cDot11RRMResChgNotifications, hh3cDot11RRMSDRadioGroupId=hh3cDot11RRMSDRadioGroupId, hh3cDot11RRMIntrfLimit=hh3cDot11RRMIntrfLimit, hh3cDot11RRMSDRdGrpChlHolddownTm=hh3cDot11RRMSDRdGrpChlHolddownTm, hh3cDot11RRMHistoryPwr=hh3cDot11RRMHistoryPwr, hh3cDot11RRMCfgPwrMode=hh3cDot11RRMCfgPwrMode, hh3cDot11RRM11nSuptMaxMcs=hh3cDot11RRM11nSuptMaxMcs, hh3cDot11RRMChlRptPER=hh3cDot11RRMChlRptPER, hh3cDot11RRMCfgIntrvl=hh3cDot11RRMCfgIntrvl, hh3cDot11RRMRadioType=hh3cDot11RRMRadioType, hh3cDot11MonitorDevLstDctTime=hh3cDot11MonitorDevLstDctTime, hh3cDot11RRMHistoryRecIndctr=hh3cDot11RRMHistoryRecIndctr, hh3cDot11RRM11aSpectrumManag=hh3cDot11RRM11aSpectrumManag, hh3cDot11MonitorDevChannel=hh3cDot11MonitorDevChannel, hh3cDot11RRMNotificationsVar=hh3cDot11RRMNotificationsVar, hh3cDot11RRMNbrIntrf=hh3cDot11RRMNbrIntrf, hh3cDot11RRMChlRptChlNum=hh3cDot11RRMChlRptChlNum, hh3cDot11RRMPwrProntoRadioElmt=hh3cDot11RRMPwrProntoRadioElmt, hh3cDot11RrmNbrBSSID=hh3cDot11RrmNbrBSSID, PYSNMP_MODULE_ID=hh3cDot11RRM, hh3cDot11RRMAPWorkMode=hh3cDot11RRMAPWorkMode, hh3cDot11RRMChlRptChlType=hh3cDot11RRMChlRptChlType, hh3cDot11RRMAdjChlIntfTrapThhd=hh3cDot11RRMAdjChlIntfTrapThhd, hh3cDot11RRMPERLimit=hh3cDot11RRMPERLimit, hh3cDot11RRMHistoryIntrf=hh3cDot11RRMHistoryIntrf, hh3cDot11RRMNbrInfoEntry=hh3cDot11RRMNbrInfoEntry, hh3cDot11RRM11nMadtMaxMcs=hh3cDot11RRM11nMadtMaxMcs, hh3cDot11RRMAPCfgEntry=hh3cDot11RRMAPCfgEntry, hh3cDot11RrmNbrSSID=hh3cDot11RrmNbrSSID, hh3cDot11MonitorDevType=hh3cDot11MonitorDevType, hh3cDot11StaInterfNumThreshhd=hh3cDot11StaInterfNumThreshhd, hh3cDot11RRMSDRdGrpPwrHolddownTm=hh3cDot11RRMSDRdGrpPwrHolddownTm, hh3cDot11RRMAPCfg2Table=hh3cDot11RRMAPCfg2Table, hh3cDot11RRM11gProtect=hh3cDot11RRM11gProtect, hh3cDot11MonitorDevBeaconIntvl=hh3cDot11MonitorDevBeaconIntvl, hh3cDot11RRMScanRptIntvel=hh3cDot11RRMScanRptIntvel, hh3cDot11RRMCfgAdjacencyFctr=hh3cDot11RRMCfgAdjacencyFctr, hh3cDot11RRMChlQltyNtfPrefix=hh3cDot11RRMChlQltyNtfPrefix, hh3cDot11RRM11aPwrConstrt=hh3cDot11RRM11aPwrConstrt, hh3cDot11RRMAPSerialID=hh3cDot11RRMAPSerialID, hh3cDot11RRMSDRdGroupRowStatus=hh3cDot11RRMSDRdGroupRowStatus, hh3cDot11RRMNoiseLimit=hh3cDot11RRMNoiseLimit, hh3cDot11RRMChlRptTable=hh3cDot11RRMChlRptTable, hh3cDot11RRMHistoryLoad=hh3cDot11RRMHistoryLoad, hh3cDot11RRMChlRptChlQlty=hh3cDot11RRMChlRptChlQlty, hh3cDot11RRMNbrInfoTable=hh3cDot11RRMNbrInfoTable, hh3cDot11RrmNbrRSSI=hh3cDot11RrmNbrRSSI, hh3cDot11RRMChlRptNoise=hh3cDot11RRMChlRptNoise, hh3cDot11OldPower=hh3cDot11OldPower, hh3cDot11RRMChlProntoRadioElmt=hh3cDot11RRMChlProntoRadioElmt, hh3cDot11RRMChlRptRetryRate=hh3cDot11RRMChlRptRetryRate, hh3cDot11RRMHistoryPER=hh3cDot11RRMHistoryPER, hh3cDot11RRMChlRptIntrf=hh3cDot11RRMChlRptIntrf, hh3cDot11RRMSDRadioGroupDesc=hh3cDot11RRMSDRadioGroupDesc, hh3cDot11RRMAutoChlAvoid11h=hh3cDot11RRMAutoChlAvoid11h, hh3cDot11RRMHistoryTable=hh3cDot11RRMHistoryTable, hh3cDot11RRMRadioCfgTable=hh3cDot11RRMRadioCfgTable, hh3cDot11RRMScanChl=hh3cDot11RRMScanChl, hh3cDot11RRMHistoryUtlz=hh3cDot11RRMHistoryUtlz, hh3cDot11APInterfNumThreshhd=hh3cDot11APInterfNumThreshhd, hh3cDot11MonitorDevMaxRSSI=hh3cDot11MonitorDevMaxRSSI, hh3cDot11RRMRadioIndex=hh3cDot11RRMRadioIndex, hh3cDot11MonitorDevBSSID=hh3cDot11MonitorDevBSSID, hh3cDot11RRMSDRadioGroupTable=hh3cDot11RRMSDRadioGroupTable, hh3cDot11RRMChlRptUtlz=hh3cDot11RRMChlRptUtlz, hh3cDot11RRMChlRptEntry=hh3cDot11RRMChlRptEntry, hh3cDot11NewPower=hh3cDot11NewPower, hh3cDot11RRM=hh3cDot11RRM, hh3cDot11RRMCoChlIntfTrapThhd=hh3cDot11RRMCoChlIntfTrapThhd, hh3cDot11MonitorDevFstDctTime=hh3cDot11MonitorDevFstDctTime, hh3cDot11RRMCfgIntrfThres=hh3cDot11RRMCfgIntrfThres, hh3cDot11RRMGlobalCfgPara=hh3cDot11RRMGlobalCfgPara, hh3cDot11RRMDetectGroup=hh3cDot11RRMDetectGroup, hh3cDot11RRMCfgChlMode=hh3cDot11RRMCfgChlMode, hh3cDot11RRMAPCfg2Entry=hh3cDot11RRMAPCfg2Entry, hh3cDot11RRMAPIntfThreshold=hh3cDot11RRMAPIntfThreshold)
| (object_identifier, integer, octet_string) = mibBuilder.importSymbols('ASN1', 'ObjectIdentifier', 'Integer', 'OctetString')
(named_values,) = mibBuilder.importSymbols('ASN1-ENUMERATION', 'NamedValues')
(value_size_constraint, constraints_union, single_value_constraint, value_range_constraint, constraints_intersection) = mibBuilder.importSymbols('ASN1-REFINEMENT', 'ValueSizeConstraint', 'ConstraintsUnion', 'SingleValueConstraint', 'ValueRangeConstraint', 'ConstraintsIntersection')
(hh3c_dot11_radio_scope_type, hh3c_dot11_ap_element_index, hh3c_dot11_object_id_type, hh3c_dot11_channel_scope_type, hh3c_dot11, hh3c_dot11_ssid_string_type, hh3c_dot11_radio_element_index, hh3c_dot11_radio_type) = mibBuilder.importSymbols('HH3C-DOT11-REF-MIB', 'Hh3cDot11RadioScopeType', 'hh3cDot11APElementIndex', 'Hh3cDot11ObjectIDType', 'Hh3cDot11ChannelScopeType', 'hh3cDot11', 'Hh3cDot11SSIDStringType', 'Hh3cDot11RadioElementIndex', 'Hh3cDot11RadioType')
(notification_group, module_compliance) = mibBuilder.importSymbols('SNMPv2-CONF', 'NotificationGroup', 'ModuleCompliance')
(mib_scalar, mib_table, mib_table_row, mib_table_column, time_ticks, ip_address, bits, unsigned32, gauge32, integer32, counter64, iso, notification_type, object_identity, mib_identifier, counter32, module_identity) = mibBuilder.importSymbols('SNMPv2-SMI', 'MibScalar', 'MibTable', 'MibTableRow', 'MibTableColumn', 'TimeTicks', 'IpAddress', 'Bits', 'Unsigned32', 'Gauge32', 'Integer32', 'Counter64', 'iso', 'NotificationType', 'ObjectIdentity', 'MibIdentifier', 'Counter32', 'ModuleIdentity')
(row_status, mac_address, textual_convention, truth_value, display_string, date_and_time) = mibBuilder.importSymbols('SNMPv2-TC', 'RowStatus', 'MacAddress', 'TextualConvention', 'TruthValue', 'DisplayString', 'DateAndTime')
hh3c_dot11_rrm = module_identity((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8))
hh3cDot11RRM.setRevisions(('2010-09-25 18:00', '2010-02-23 18:00', '2009-08-01 20:00', '2009-05-07 20:00', '2009-04-17 20:00', '2008-07-14 14:29'))
if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0):
if mibBuilder.loadTexts:
hh3cDot11RRM.setRevisionsDescriptions(('Modified to add new nodes.', 'Modified to add new nodes.', 'Modified to add new nodes and new table.', 'Modified to add new nodes and new table.', 'Modified to add new table and new group.', 'The initial revision of this MIB module.'))
if mibBuilder.loadTexts:
hh3cDot11RRM.setLastUpdated('201009251800Z')
if mibBuilder.loadTexts:
hh3cDot11RRM.setOrganization('Hangzhou H3C Technologies Co., Ltd.')
if mibBuilder.loadTexts:
hh3cDot11RRM.setContactInfo('Platform Team H3C Technologies Co., Ltd. Hai-Dian District Beijing P.R.China Http://www.h3c.com Zip: 100085')
if mibBuilder.loadTexts:
hh3cDot11RRM.setDescription('This MIB file is to provide the object definition of WLAN radio resource management (RRM).')
hh3c_dot11_rrm_config_group = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1))
hh3c_dot11_rrm_global_cfg_para = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1))
hh3c_dot11_rrm11n_madt_max_mcs = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 1), integer32().subtype(subtypeSpec=constraints_union(value_range_constraint(0, 76), value_range_constraint(255, 255))).clone(255)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRM11nMadtMaxMcs.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRM11nMadtMaxMcs.setDescription('Specify the maximum modulation and coding scheme (MCS) index for 802.11n mandatory rates. The value 255 indicates that no maximum MCS index is specified. No maximum MCS index is specified for 802.11n mandatory rates by default. Besides 255, the specified maximum MCS index for 802.11n supported rates must be no less than the specified maximum MCS index for 802.11n mandatory rates.')
hh3c_dot11_rrm11n_supt_max_mcs = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(0, 76)).clone(76)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRM11nSuptMaxMcs.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRM11nSuptMaxMcs.setDescription('Specify the maximum Modulation and Coding Scheme (MCS) index for 802.11n supported rates. The specified maximum MCS index for 802.11n supported rates must be no less than the specified maximum MCS index for 802.11n mandatory rates.')
hh3c_dot11_rrm11g_protect = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 3), truth_value().clone('false')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRM11gProtect.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRM11gProtect.setDescription('Enable/Disable dot11g protection.')
hh3c_dot11_rrm11a_pwr_constrt = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 4), integer32()).setUnits('dBm').setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRM11aPwrConstrt.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRM11aPwrConstrt.setDescription('Configure the power constraint for all 802.11a radios. The configured power constraint is advertised in beacons if spectrum management is enabled. The range of power constraint is 0 to MAX-POWER-1 (where the MAX-POWER is defined by the regulatory domain).')
hh3c_dot11_rrm11a_spectrum_manag = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 5), truth_value().clone('false')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRM11aSpectrumManag.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRM11aSpectrumManag.setDescription('Enable/Disable spectrum management for 802.11a radios. When spectrum management is enabled, the WLAN sub-system advertises power capabilities of the AP and power constraints applicable to all devices in the BSS based on regulatory domain specification.')
hh3c_dot11_rrm_auto_chl_avoid11h = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 6), truth_value().clone('false')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMAutoChlAvoid11h.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMAutoChlAvoid11h.setDescription('Configure the auto-channel set as non-dot11h channels, this is, only the non-dot11h channels belonging to the country code are scanned during initial channel selection and one of them is selected.')
hh3c_dot11_rrm_scan_chl = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 7), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('auto', 1), ('all', 2))).clone('auto')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMScanChl.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMScanChl.setDescription('Set the scan mode. auto: When this option is set, all channels of the country code being set are scanned. all: When this option is set, all the channels of the radio band are scanned.')
hh3c_dot11_rrm_scan_rpt_intvel = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 8), integer32().subtype(subtypeSpec=value_range_constraint(5, 120)).clone(10)).setUnits('second').setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMScanRptIntvel.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMScanRptIntvel.setDescription('Set the scan report interval.')
hh3c_dot11_ap_interf_num_threshhd = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 9), integer32()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11APInterfNumThreshhd.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11APInterfNumThreshhd.setDescription('Represents threshold of AP interference . If the value of AP interference exceeds this threshold, AP interference trap will be sent. If the value of this node is zero, AP interference trap will be sent immediately.')
hh3c_dot11_sta_interf_num_threshhd = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 1, 10), integer32()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11StaInterfNumThreshhd.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11StaInterfNumThreshhd.setDescription('Represents threshold of STA interference. If the value of STA interference exceeds this threshold, STA interference trap will be sent. If the value of this node is zero, STA interference trap will be sent immediately. ')
hh3c_dot11_rrm_radio_cfg_table = mib_table((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2))
if mibBuilder.loadTexts:
hh3cDot11RRMRadioCfgTable.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMRadioCfgTable.setDescription('Configure WLAN RRM based radio type. When 802.11b parameter is modified, 802.11g parameter will be changed at the same time. In the same way, when 802.11g parameter is modified, 802.11b parameter will be changed at the same time.')
hh3c_dot11_rrm_radio_cfg_entry = mib_table_row((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1)).setIndexNames((0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMRadioType'))
if mibBuilder.loadTexts:
hh3cDot11RRMRadioCfgEntry.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMRadioCfgEntry.setDescription('Configure WLAN RRM based radio type. When 802.11b parameter is modified, 802.11g parameter will be changed at the same time. In the same way, when 802.11g parameter is modified, 802.11b parameter will be changed at the same time.')
hh3c_dot11_rrm_radio_type = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 1), hh3c_dot11_radio_type())
if mibBuilder.loadTexts:
hh3cDot11RRMRadioType.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMRadioType.setDescription('802.11 radio type.')
hh3c_dot11_rrm_cfg_chl_state = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 2), truth_value().clone('false')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgChlState.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgChlState.setDescription('Enable/Disable dynamic channel selection.')
hh3c_dot11_rrm_cfg_chl_mode = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 3), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('selfDecisive', 1), ('userTriggered', 2))).clone('userTriggered')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgChlMode.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgChlMode.setDescription('Configure the mode of channel selection. This node can be configured only when dynamic channel selection is enabled.')
hh3c_dot11_rrm_chl_pronto_radio_elmt = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 4), unsigned32()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMChlProntoRadioElmt.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlProntoRadioElmt.setDescription('Specify the AP and radio that will change channel at next calibration cycle. 0 is returned when getting the value of this node. This node can be configured only when the mode of channel selection control is user-triggered. When configuring, the higher 24 bits stand for the AP index, and the last 8 bits stand for the radio index. 4294967295 stand for configuring each radio on all APs.')
hh3c_dot11_rrm_cfg_pwr_state = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 5), truth_value().clone('false')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgPwrState.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgPwrState.setDescription('Enable/Disable dynamic power selection for the band.')
hh3c_dot11_rrm_cfg_pwr_mode = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 6), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('selfDecisive', 1), ('userTriggered', 2))).clone('userTriggered')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgPwrMode.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgPwrMode.setDescription('Configure the mode of transmit power control. This node can be configured only when dynamic power selection is enabled.')
hh3c_dot11_rrm_pwr_pronto_radio_elmt = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 7), unsigned32()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMPwrProntoRadioElmt.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMPwrProntoRadioElmt.setDescription('Specify the AP and radio that will change power at next calibration cycle. 0 is returned when getting the value of this node. This node can be configured only when the mode of transmit power control is user-triggered. When configuring, the higher 24 bits stand for the AP index, and the last 8 bits stand for the radio index. 4294967295 stand for configuring each radio on all APs.')
hh3c_dot11_rrm_cfg_intrvl = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 8), integer32().clone(8)).setUnits('minute').setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgIntrvl.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgIntrvl.setDescription('Configure the calibration interval.')
hh3c_dot11_rrm_cfg_intrf_thres = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 9), integer32().subtype(subtypeSpec=value_range_constraint(40, 100)).clone(50)).setUnits('percent').setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgIntrfThres.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgIntrfThres.setDescription('Configure the interface threshold. By default, interference observed on an operating channel is considered during dynamic frequency selection and transmit power control. If the interference percentage on the channel reaches the set threshold, RRM will perform resource adjustment to control the situation.')
hh3c_dot11_rrm_cfg_noise_thres = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 10), integer32().subtype(subtypeSpec=value_range_constraint(-127, 127)).clone(-70)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgNoiseThres.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgNoiseThres.setDescription('Configure the noise threshold.')
hh3c_dot11_rrm_cfg_per_thres = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 11), integer32().subtype(subtypeSpec=value_range_constraint(10, 100)).clone(20)).setUnits('percent').setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgPERThres.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgPERThres.setDescription('Configure the CRC error threshold. If the percentage of CRC errors reaches the threshold, RRM will perform resource adjustment to control the situation.')
hh3c_dot11_rrm_cfg_tolerance_fctr = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 12), integer32().subtype(subtypeSpec=value_range_constraint(15, 45)).clone(20)).setUnits('percent').setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgToleranceFctr.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgToleranceFctr.setDescription('Configure the tolerance level. During dynamic frequency selection (DFS), the channel will be changed only if there is a better channel having lesser interference and packet error rate than those specified by the user.')
hh3c_dot11_rrm_cfg_adjacency_fctr = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 2, 1, 13), integer32().subtype(subtypeSpec=value_range_constraint(1, 16)).clone(3)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgAdjacencyFctr.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCfgAdjacencyFctr.setDescription('Configure the adjacency factor for the band. If transmit power control (TPC) is configured, power will be adjusted when the nth neighbor is detected. The value n is the adjacency factor.')
hh3c_dot11_rrmap_cfg_table = mib_table((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 3))
if mibBuilder.loadTexts:
hh3cDot11RRMAPCfgTable.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMAPCfgTable.setDescription('This table defines the RRM parameters for AP.')
hh3c_dot11_rrmap_cfg_entry = mib_table_row((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 3, 1)).setIndexNames((0, 'HH3C-DOT11-REF-MIB', 'hh3cDot11APElementIndex'))
if mibBuilder.loadTexts:
hh3cDot11RRMAPCfgEntry.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMAPCfgEntry.setDescription('Each entry contains information of RRM parameters for AP.')
hh3c_dot11_rrmap_work_mode = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 3, 1, 1), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2, 3))).clone(namedValues=named_values(('normal', 1), ('monitor', 2), ('hybrid', 3)))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMAPWorkMode.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMAPWorkMode.setDescription('AP work mode.')
hh3c_dot11_rrmsd_radio_group_table = mib_table((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4))
if mibBuilder.loadTexts:
hh3cDot11RRMSDRadioGroupTable.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRadioGroupTable.setDescription('This table defines RRM self-decisive radio group.')
hh3c_dot11_rrmsd_radio_group_entry = mib_table_row((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1)).setIndexNames((0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMSDRadioGroupId'))
if mibBuilder.loadTexts:
hh3cDot11RRMSDRadioGroupEntry.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRadioGroupEntry.setDescription('Each entry contains information of one RRM self-decisive radio group.')
hh3c_dot11_rrmsd_radio_group_id = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 1), unsigned32())
if mibBuilder.loadTexts:
hh3cDot11RRMSDRadioGroupId.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRadioGroupId.setDescription('Represents RRM self-decisive radio group ID.')
hh3c_dot11_rrmsd_radio_group_desc = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 2), octet_string()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRadioGroupDesc.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRadioGroupDesc.setDescription('Represents the description of RRM self-decisive radio group.')
hh3c_dot11_rrmsd_rd_grp_chl_holddown_tm = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 3), unsigned32()).setUnits('minute').setMaxAccess('readcreate')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRdGrpChlHolddownTm.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRdGrpChlHolddownTm.setDescription('Represents the channel holddown time of RRM self-decisive radio group.')
hh3c_dot11_rrmsd_rd_grp_pwr_holddown_tm = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 4), unsigned32()).setUnits('minute').setMaxAccess('readcreate')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRdGrpPwrHolddownTm.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRdGrpPwrHolddownTm.setDescription('Represents the power holddown time of RRM self-decisive radio group.')
hh3c_dot11_rrmsd_rd_group_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 4, 1, 5), row_status()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRdGroupRowStatus.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMSDRdGroupRowStatus.setDescription('The row status of this table entry.')
hh3c_dot11_rrmap_cfg2_table = mib_table((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5))
if mibBuilder.loadTexts:
hh3cDot11RRMAPCfg2Table.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMAPCfg2Table.setDescription('This table defines the RRM parameters for AP.')
hh3c_dot11_rrmap_cfg2_entry = mib_table_row((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1)).setIndexNames((0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMAPSerialID'))
if mibBuilder.loadTexts:
hh3cDot11RRMAPCfg2Entry.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMAPCfg2Entry.setDescription('Each entry contains information of RRM parameters for AP.')
hh3c_dot11_rrmap_serial_id = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 1), hh3c_dot11_object_id_type())
if mibBuilder.loadTexts:
hh3cDot11RRMAPSerialID.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMAPSerialID.setDescription('Serial ID of the AP.')
hh3c_dot11_rrmap_intf_threshold = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 2), integer32()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMAPIntfThreshold.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMAPIntfThreshold.setDescription('Represents threshold of AP interference . If the number of AP interference exceeds this threshold, AP interference trap will be sent.')
hh3c_dot11_rrm_sta_intf_threshold = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 3), integer32()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMStaIntfThreshold.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMStaIntfThreshold.setDescription('Represents threshold of STA interference. If the number of STA interference exceeds this threshold, station interference trap will be sent.')
hh3c_dot11_rrm_co_chl_intf_trap_thhd = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 4), integer32()).setUnits('dbm').setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMCoChlIntfTrapThhd.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMCoChlIntfTrapThhd.setDescription('Represents threshold of interference trap with current ap. If signal strength of the device exceeds this threshold, corresponding trap will be sent.')
hh3c_dot11_rrm_adj_chl_intf_trap_thhd = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 1, 5, 1, 5), integer32()).setUnits('dbm').setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMAdjChlIntfTrapThhd.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMAdjChlIntfTrapThhd.setDescription('Represents threshold of adjacent interference trap with current ap. If signal strength of the device exceeds this threshold, corresponding trap will be sent.')
hh3c_dot11_rrm_detect_group = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2))
hh3c_dot11_rrm_chl_rpt_table = mib_table((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1))
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptTable.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptTable.setDescription('This table shows the RRM channel information of each radio on all APs.')
hh3c_dot11_rrm_chl_rpt_entry = mib_table_row((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1)).setIndexNames((0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMRadioIndex'), (0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMChlRptChlNum'))
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptEntry.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptEntry.setDescription('Each entry contains information of RRM channel information of the radio on the AP.')
hh3c_dot11_rrm_radio_index = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 1), hh3c_dot11_radio_element_index()).setMaxAccess('accessiblefornotify')
if mibBuilder.loadTexts:
hh3cDot11RRMRadioIndex.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMRadioIndex.setDescription('Represents index of the radio.')
hh3c_dot11_rrm_chl_rpt_chl_num = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 2), integer32()).setMaxAccess('accessiblefornotify')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptChlNum.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptChlNum.setDescription('Channel number.')
hh3c_dot11_rrm_chl_rpt_chl_type = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 3), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('primeChannel', 1), ('offChannel', 2)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptChlType.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptChlType.setDescription('Channel type.')
hh3c_dot11_rrm_chl_rpt_chl_qlty = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 4), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('good', 1), ('bad', 2)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptChlQlty.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptChlQlty.setDescription('Channel quality.')
hh3c_dot11_rrm_chl_rpt_nbr_cnt = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 5), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptNbrCnt.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptNbrCnt.setDescription('Number of neighbors found on the channel.')
hh3c_dot11_rrm_chl_rpt_load = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 6), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptLoad.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptLoad.setDescription('Load observed on the channel in percentage.')
hh3c_dot11_rrm_chl_rpt_utlz = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 7), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptUtlz.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptUtlz.setDescription('Utilization of the channel in percentage.')
hh3c_dot11_rrm_chl_rpt_intrf = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 8), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptIntrf.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptIntrf.setDescription('Interference observed on the channel in percentage.')
hh3c_dot11_rrm_chl_rpt_per = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 9), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptPER.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptPER.setDescription('Packet error rate observed on the channel in percentage.')
hh3c_dot11_rrm_chl_rpt_retry_rate = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 10), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptRetryRate.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptRetryRate.setDescription('Percentage of retransmission happened on the channel.')
hh3c_dot11_rrm_chl_rpt_noise = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 11), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptNoise.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptNoise.setDescription('Noise observed on the channel.')
hh3c_dot11_rrm_chl_rpt_radar_indtcr = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 1, 1, 12), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('detected', 1), ('notDetected', 2)))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptRadarIndtcr.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMChlRptRadarIndtcr.setDescription('Radar detection status.')
hh3c_dot11_rrm_nbr_info_table = mib_table((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2))
if mibBuilder.loadTexts:
hh3cDot11RRMNbrInfoTable.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMNbrInfoTable.setDescription('This table shows the RRM neighbor information of each radio on all APs.')
hh3c_dot11_rrm_nbr_info_entry = mib_table_row((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1)).setIndexNames((0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMRadioIndex'), (0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RrmNbrBSSID'))
if mibBuilder.loadTexts:
hh3cDot11RRMNbrInfoEntry.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMNbrInfoEntry.setDescription('Each entry contains information of RRM neighbor information of the radio on an AP.')
hh3c_dot11_rrm_nbr_bssid = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 1), mac_address())
if mibBuilder.loadTexts:
hh3cDot11RrmNbrBSSID.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RrmNbrBSSID.setDescription('MAC address of the AP.')
hh3c_dot11_rrm_nbr_chl = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 2), hh3c_dot11_channel_scope_type()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RrmNbrChl.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RrmNbrChl.setDescription('Channel number on which the neighbor was found.')
hh3c_dot11_rrm_nbr_intrf = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 3), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMNbrIntrf.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMNbrIntrf.setDescription('Interference observed on the channel in percentage by neighbor.')
hh3c_dot11_rrm_nbr_rssi = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 4), integer32()).setUnits('dBm').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RrmNbrRSSI.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RrmNbrRSSI.setDescription('Signal strength of the AP in dBm.')
hh3c_dot11_rrm_nbr_type = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 5), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('managed', 1), ('unmanaged', 2)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RrmNbrType.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RrmNbrType.setDescription('Type of the AP, managed or unmanaged.')
hh3c_dot11_rrm_nbr_ssid = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 2, 1, 6), hh3c_dot11_ssid_string_type()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RrmNbrSSID.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RrmNbrSSID.setDescription('SSID of the Neighbor.')
hh3c_dot11_rrm_history_table = mib_table((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3))
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryTable.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryTable.setDescription('This table shows the details of the latest three channel changes and power changes applied on all APs, including time of change, reason of the change and the channel, power, interference parameters.')
hh3c_dot11_rrm_history_entry = mib_table_row((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1)).setIndexNames((0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMRadioIndex'), (0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMHistoryId'), (0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMHistoryRecIndctr'))
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryEntry.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryEntry.setDescription('Each entry shows the details of channel and power changes.')
hh3c_dot11_rrm_history_id = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 1), integer32())
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryId.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryId.setDescription('History number of the change.')
hh3c_dot11_rrm_history_rec_indctr = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 2), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('before', 1), ('after', 2))))
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryRecIndctr.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryRecIndctr.setDescription('History record type of the change.')
hh3c_dot11_rrm_history_chl = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 3), hh3c_dot11_channel_scope_type()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryChl.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryChl.setDescription('Channel on which the radio operates before/after the change of channel or power.')
hh3c_dot11_rrm_history_pwr = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 4), integer32()).setUnits('dBm').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryPwr.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryPwr.setDescription('Power of the radio before/after the change of channel or power.')
hh3c_dot11_rrm_history_load = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 5), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryLoad.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryLoad.setDescription('Load observed on the radio in percentage before/after the change of channel or power.')
hh3c_dot11_rrm_history_utlz = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 6), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryUtlz.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryUtlz.setDescription('Utilization of the radio in percentage before/after the change of channel or power.')
hh3c_dot11_rrm_history_intrf = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 7), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryIntrf.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryIntrf.setDescription('Interference observed on the radio in percentage before/after the change of channel or power.')
hh3c_dot11_rrm_history_noise = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 8), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryNoise.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryNoise.setDescription('Noise observed on the radio before/after the change of channel or power.')
hh3c_dot11_rrm_history_per = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 9), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryPER.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryPER.setDescription('Packet error rate observed on the radio in percentage before/after the change of channel or power.')
hh3c_dot11_rrm_history_retry_rate = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 10), integer32().subtype(subtypeSpec=value_range_constraint(0, 100))).setUnits('percent').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryRetryRate.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryRetryRate.setDescription('Percentage of retransmission happened on the radio before/after the change of channel or power.')
hh3c_dot11_rrm_history_chg_reason = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 11), bits().clone(namedValues=named_values(('others', 0), ('coverage', 1), ('radar', 2), ('retransmission', 3), ('packetsDiscarded', 4), ('interference', 5)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryChgReason.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryChgReason.setDescription('Reason for the change of channel or power. The various bit positions are: |0 |Others | |1 |Coverage | |2 |Radar | |3 |Retransmission | |4 |Packets discarded | |5 |Interference | 0 is returned when the history record type is after.')
hh3c_dot11_rrm_history_chg_date_time = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 2, 3, 1, 12), date_and_time()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryChgDateTime.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMHistoryChgDateTime.setDescription('The time when the channel or power change occurred.')
hh3c_dot11_rrm_notify_group = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3))
hh3c_dot11_rrm_chl_qlty_notifications = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1))
hh3c_dot11_rrm_chl_qlty_ntf_prefix = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1, 0))
hh3c_dot11_rrm_intrf_limit = notification_type((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1, 0, 1)).setObjects(('HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMChlRptIntrf'))
if mibBuilder.loadTexts:
hh3cDot11RRMIntrfLimit.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMIntrfLimit.setDescription('This notification will be sent when interference on the radio exceeds the limit.')
hh3c_dot11_rrmper_limit = notification_type((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1, 0, 2)).setObjects(('HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMChlRptPER'))
if mibBuilder.loadTexts:
hh3cDot11RRMPERLimit.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMPERLimit.setDescription('This notification will be sent when packet error rate on the radio exceeds the limit.')
hh3c_dot11_rrm_noise_limit = notification_type((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 1, 0, 3)).setObjects(('HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMChlRptNoise'))
if mibBuilder.loadTexts:
hh3cDot11RRMNoiseLimit.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMNoiseLimit.setDescription('This notification will be sent when noise on the radio exceeds the limit.')
hh3c_dot11_rrm_res_chg_notifications = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 2))
hh3c_dot11_rrm_res_chg_ntf_prefix = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 2, 0))
hh3c_dot11_rrm_power_change = notification_type((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 2, 0, 1)).setObjects(('HH3C-DOT11-RRM-MIB', 'hh3cDot11RRMRadioIndex'), ('HH3C-DOT11-RRM-MIB', 'hh3cDot11NewPower'), ('HH3C-DOT11-RRM-MIB', 'hh3cDot11OldPower'))
if mibBuilder.loadTexts:
hh3cDot11RRMPowerChange.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11RRMPowerChange.setDescription('This notification will be sent when power changed on the radio automatically.')
hh3c_dot11_rrm_notifications_var = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 3))
hh3c_dot11_new_power = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 3, 1), integer32()).setMaxAccess('accessiblefornotify')
if mibBuilder.loadTexts:
hh3cDot11NewPower.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11NewPower.setDescription('Power of the radio after the change of power.')
hh3c_dot11_old_power = mib_scalar((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 3, 3, 2), integer32()).setMaxAccess('accessiblefornotify')
if mibBuilder.loadTexts:
hh3cDot11OldPower.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11OldPower.setDescription('Power of the radio before the change of power.')
hh3c_dot11_monitor_detected_group = mib_identifier((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4))
hh3c_dot11_monitor_detected_dev_table = mib_table((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1))
if mibBuilder.loadTexts:
hh3cDot11MonitorDetectedDevTable.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDetectedDevTable.setDescription('This table shows the devices of AP detected')
hh3c_dot11_monitor_detected_dev_entry = mib_table_row((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1)).setIndexNames((0, 'HH3C-DOT11-RRM-MIB', 'hh3cDot11MonitorDevMAC'), (0, 'HH3C-DOT11-REF-MIB', 'hh3cDot11APElementIndex'))
if mibBuilder.loadTexts:
hh3cDot11MonitorDetectedDevEntry.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDetectedDevEntry.setDescription('Each entry contains information of detected devices.')
hh3c_dot11_monitor_dev_mac = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 1), mac_address())
if mibBuilder.loadTexts:
hh3cDot11MonitorDevMAC.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevMAC.setDescription('Represents MAC address of the device detected.')
hh3c_dot11_monitor_dev_type = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 2), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2, 3, 4, 5))).clone(namedValues=named_values(('client', 1), ('ap', 2), ('adhoc', 3), ('wirelessBridge', 4), ('unknown', 5)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevType.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevType.setDescription('Represents type of the device detected.')
hh3c_dot11_monitor_dev_vendor = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 3), octet_string()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevVendor.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevVendor.setDescription('Represents vendor of the detected device.')
hh3c_dot11_monitor_dev_ssid = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 4), octet_string()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevSSID.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevSSID.setDescription('Represents the service set identifier for the ESS of the device which type is ap or adhoc.')
hh3c_dot11_monitor_dev_bssid = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 5), mac_address()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevBSSID.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevBSSID.setDescription('Represents the basic service set identifier of the detected device.')
hh3c_dot11_monitor_dev_channel = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 6), hh3c_dot11_channel_scope_type()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevChannel.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevChannel.setDescription('Represents the channel in which the device was last detected. AP will choose the channel which has maximum signal strength as effective channel, as there is interference between adjacent channels.')
hh3c_dot11_monitor_radio_id = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 7), hh3c_dot11_radio_scope_type()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorRadioId.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorRadioId.setDescription('Represents the radio ID of the AP that detected the device.')
hh3c_dot11_monitor_dev_max_rssi = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 8), integer32()).setUnits('dbm').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevMaxRSSI.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevMaxRSSI.setDescription('Represents the maximum detected RSSI of the device in a scan report cycle.')
hh3c_dot11_monitor_dev_beacon_intvl = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 9), integer32()).setUnits('millisecond').setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevBeaconIntvl.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevBeaconIntvl.setDescription('Represents the beacon interval for the detected device(not include the device which type is client).')
hh3c_dot11_monitor_dev_fst_dct_time = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 10), date_and_time()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevFstDctTime.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevFstDctTime.setDescription('Represents the time at which the device was first detected.')
hh3c_dot11_monitor_dev_lst_dct_time = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 11), date_and_time()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevLstDctTime.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevLstDctTime.setDescription('Represents the time at which the device was detected last time.')
hh3c_dot11_monitor_dev_clear = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 12), truth_value()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevClear.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevClear.setDescription('This object is used to clear the information of the device detected in the WLAN. It will return false for get operation.')
hh3c_dot11_monitor_dev_snr = mib_table_column((1, 3, 6, 1, 4, 1, 25506, 2, 75, 8, 4, 1, 1, 13), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevSNR.setStatus('current')
if mibBuilder.loadTexts:
hh3cDot11MonitorDevSNR.setDescription('Represents the SNR of the device in a scan report cycle.')
mibBuilder.exportSymbols('HH3C-DOT11-RRM-MIB', hh3cDot11RRMSDRadioGroupEntry=hh3cDot11RRMSDRadioGroupEntry, hh3cDot11MonitorDetectedDevTable=hh3cDot11MonitorDetectedDevTable, hh3cDot11RrmNbrType=hh3cDot11RrmNbrType, hh3cDot11RRMAPCfgTable=hh3cDot11RRMAPCfgTable, hh3cDot11RRMStaIntfThreshold=hh3cDot11RRMStaIntfThreshold, hh3cDot11RrmNbrChl=hh3cDot11RrmNbrChl, hh3cDot11RRMHistoryEntry=hh3cDot11RRMHistoryEntry, hh3cDot11RRMCfgChlState=hh3cDot11RRMCfgChlState, hh3cDot11MonitorDevClear=hh3cDot11MonitorDevClear, hh3cDot11RRMNotifyGroup=hh3cDot11RRMNotifyGroup, hh3cDot11MonitorDevSSID=hh3cDot11MonitorDevSSID, hh3cDot11RRMHistoryChl=hh3cDot11RRMHistoryChl, hh3cDot11MonitorDevSNR=hh3cDot11MonitorDevSNR, hh3cDot11MonitorDetectedDevEntry=hh3cDot11MonitorDetectedDevEntry, hh3cDot11MonitorDetectedGroup=hh3cDot11MonitorDetectedGroup, hh3cDot11RRMConfigGroup=hh3cDot11RRMConfigGroup, hh3cDot11MonitorDevVendor=hh3cDot11MonitorDevVendor, hh3cDot11RRMResChgNtfPrefix=hh3cDot11RRMResChgNtfPrefix, hh3cDot11RRMCfgPwrState=hh3cDot11RRMCfgPwrState, hh3cDot11RRMChlRptLoad=hh3cDot11RRMChlRptLoad, hh3cDot11RRMCfgNoiseThres=hh3cDot11RRMCfgNoiseThres, hh3cDot11RRMChlRptNbrCnt=hh3cDot11RRMChlRptNbrCnt, hh3cDot11RRMChlRptRadarIndtcr=hh3cDot11RRMChlRptRadarIndtcr, hh3cDot11RRMHistoryNoise=hh3cDot11RRMHistoryNoise, hh3cDot11RRMHistoryChgDateTime=hh3cDot11RRMHistoryChgDateTime, hh3cDot11RRMPowerChange=hh3cDot11RRMPowerChange, hh3cDot11RRMHistoryChgReason=hh3cDot11RRMHistoryChgReason, hh3cDot11RRMHistoryId=hh3cDot11RRMHistoryId, hh3cDot11RRMHistoryRetryRate=hh3cDot11RRMHistoryRetryRate, hh3cDot11MonitorRadioId=hh3cDot11MonitorRadioId, hh3cDot11RRMCfgToleranceFctr=hh3cDot11RRMCfgToleranceFctr, hh3cDot11RRMCfgPERThres=hh3cDot11RRMCfgPERThres, hh3cDot11RRMChlQltyNotifications=hh3cDot11RRMChlQltyNotifications, hh3cDot11MonitorDevMAC=hh3cDot11MonitorDevMAC, hh3cDot11RRMRadioCfgEntry=hh3cDot11RRMRadioCfgEntry, hh3cDot11RRMResChgNotifications=hh3cDot11RRMResChgNotifications, hh3cDot11RRMSDRadioGroupId=hh3cDot11RRMSDRadioGroupId, hh3cDot11RRMIntrfLimit=hh3cDot11RRMIntrfLimit, hh3cDot11RRMSDRdGrpChlHolddownTm=hh3cDot11RRMSDRdGrpChlHolddownTm, hh3cDot11RRMHistoryPwr=hh3cDot11RRMHistoryPwr, hh3cDot11RRMCfgPwrMode=hh3cDot11RRMCfgPwrMode, hh3cDot11RRM11nSuptMaxMcs=hh3cDot11RRM11nSuptMaxMcs, hh3cDot11RRMChlRptPER=hh3cDot11RRMChlRptPER, hh3cDot11RRMCfgIntrvl=hh3cDot11RRMCfgIntrvl, hh3cDot11RRMRadioType=hh3cDot11RRMRadioType, hh3cDot11MonitorDevLstDctTime=hh3cDot11MonitorDevLstDctTime, hh3cDot11RRMHistoryRecIndctr=hh3cDot11RRMHistoryRecIndctr, hh3cDot11RRM11aSpectrumManag=hh3cDot11RRM11aSpectrumManag, hh3cDot11MonitorDevChannel=hh3cDot11MonitorDevChannel, hh3cDot11RRMNotificationsVar=hh3cDot11RRMNotificationsVar, hh3cDot11RRMNbrIntrf=hh3cDot11RRMNbrIntrf, hh3cDot11RRMChlRptChlNum=hh3cDot11RRMChlRptChlNum, hh3cDot11RRMPwrProntoRadioElmt=hh3cDot11RRMPwrProntoRadioElmt, hh3cDot11RrmNbrBSSID=hh3cDot11RrmNbrBSSID, PYSNMP_MODULE_ID=hh3cDot11RRM, hh3cDot11RRMAPWorkMode=hh3cDot11RRMAPWorkMode, hh3cDot11RRMChlRptChlType=hh3cDot11RRMChlRptChlType, hh3cDot11RRMAdjChlIntfTrapThhd=hh3cDot11RRMAdjChlIntfTrapThhd, hh3cDot11RRMPERLimit=hh3cDot11RRMPERLimit, hh3cDot11RRMHistoryIntrf=hh3cDot11RRMHistoryIntrf, hh3cDot11RRMNbrInfoEntry=hh3cDot11RRMNbrInfoEntry, hh3cDot11RRM11nMadtMaxMcs=hh3cDot11RRM11nMadtMaxMcs, hh3cDot11RRMAPCfgEntry=hh3cDot11RRMAPCfgEntry, hh3cDot11RrmNbrSSID=hh3cDot11RrmNbrSSID, hh3cDot11MonitorDevType=hh3cDot11MonitorDevType, hh3cDot11StaInterfNumThreshhd=hh3cDot11StaInterfNumThreshhd, hh3cDot11RRMSDRdGrpPwrHolddownTm=hh3cDot11RRMSDRdGrpPwrHolddownTm, hh3cDot11RRMAPCfg2Table=hh3cDot11RRMAPCfg2Table, hh3cDot11RRM11gProtect=hh3cDot11RRM11gProtect, hh3cDot11MonitorDevBeaconIntvl=hh3cDot11MonitorDevBeaconIntvl, hh3cDot11RRMScanRptIntvel=hh3cDot11RRMScanRptIntvel, hh3cDot11RRMCfgAdjacencyFctr=hh3cDot11RRMCfgAdjacencyFctr, hh3cDot11RRMChlQltyNtfPrefix=hh3cDot11RRMChlQltyNtfPrefix, hh3cDot11RRM11aPwrConstrt=hh3cDot11RRM11aPwrConstrt, hh3cDot11RRMAPSerialID=hh3cDot11RRMAPSerialID, hh3cDot11RRMSDRdGroupRowStatus=hh3cDot11RRMSDRdGroupRowStatus, hh3cDot11RRMNoiseLimit=hh3cDot11RRMNoiseLimit, hh3cDot11RRMChlRptTable=hh3cDot11RRMChlRptTable, hh3cDot11RRMHistoryLoad=hh3cDot11RRMHistoryLoad, hh3cDot11RRMChlRptChlQlty=hh3cDot11RRMChlRptChlQlty, hh3cDot11RRMNbrInfoTable=hh3cDot11RRMNbrInfoTable, hh3cDot11RrmNbrRSSI=hh3cDot11RrmNbrRSSI, hh3cDot11RRMChlRptNoise=hh3cDot11RRMChlRptNoise, hh3cDot11OldPower=hh3cDot11OldPower, hh3cDot11RRMChlProntoRadioElmt=hh3cDot11RRMChlProntoRadioElmt, hh3cDot11RRMChlRptRetryRate=hh3cDot11RRMChlRptRetryRate, hh3cDot11RRMHistoryPER=hh3cDot11RRMHistoryPER, hh3cDot11RRMChlRptIntrf=hh3cDot11RRMChlRptIntrf, hh3cDot11RRMSDRadioGroupDesc=hh3cDot11RRMSDRadioGroupDesc, hh3cDot11RRMAutoChlAvoid11h=hh3cDot11RRMAutoChlAvoid11h, hh3cDot11RRMHistoryTable=hh3cDot11RRMHistoryTable, hh3cDot11RRMRadioCfgTable=hh3cDot11RRMRadioCfgTable, hh3cDot11RRMScanChl=hh3cDot11RRMScanChl, hh3cDot11RRMHistoryUtlz=hh3cDot11RRMHistoryUtlz, hh3cDot11APInterfNumThreshhd=hh3cDot11APInterfNumThreshhd, hh3cDot11MonitorDevMaxRSSI=hh3cDot11MonitorDevMaxRSSI, hh3cDot11RRMRadioIndex=hh3cDot11RRMRadioIndex, hh3cDot11MonitorDevBSSID=hh3cDot11MonitorDevBSSID, hh3cDot11RRMSDRadioGroupTable=hh3cDot11RRMSDRadioGroupTable, hh3cDot11RRMChlRptUtlz=hh3cDot11RRMChlRptUtlz, hh3cDot11RRMChlRptEntry=hh3cDot11RRMChlRptEntry, hh3cDot11NewPower=hh3cDot11NewPower, hh3cDot11RRM=hh3cDot11RRM, hh3cDot11RRMCoChlIntfTrapThhd=hh3cDot11RRMCoChlIntfTrapThhd, hh3cDot11MonitorDevFstDctTime=hh3cDot11MonitorDevFstDctTime, hh3cDot11RRMCfgIntrfThres=hh3cDot11RRMCfgIntrfThres, hh3cDot11RRMGlobalCfgPara=hh3cDot11RRMGlobalCfgPara, hh3cDot11RRMDetectGroup=hh3cDot11RRMDetectGroup, hh3cDot11RRMCfgChlMode=hh3cDot11RRMCfgChlMode, hh3cDot11RRMAPCfg2Entry=hh3cDot11RRMAPCfg2Entry, hh3cDot11RRMAPIntfThreshold=hh3cDot11RRMAPIntfThreshold) |
class Solution:
"""
@param source:
@param target:
@return: return the index
"""
def strStr(self, source, target):
l = len(target)
for i in range(len(source) - l + 1):
if source[i:i+l] == target:
return i
return -1 | class Solution:
"""
@param source:
@param target:
@return: return the index
"""
def str_str(self, source, target):
l = len(target)
for i in range(len(source) - l + 1):
if source[i:i + l] == target:
return i
return -1 |
change = 91
coin = 25
print('how many quarters in 91 cents? 3')
print('how much change is left after 3 quarters taken out of 91cents? 16')
print(91 / 25, 'is not the awnser to either question')
print(91//25)
print(91%25) | change = 91
coin = 25
print('how many quarters in 91 cents? 3')
print('how much change is left after 3 quarters taken out of 91cents? 16')
print(91 / 25, 'is not the awnser to either question')
print(91 // 25)
print(91 % 25) |
"""from django.contrib import admin
from .models import Status
@admin.register(Status)
class StatusAdmin(admin.ModelAdmin):
list_display = ('shape', 'created_at')
admin.site.register(Status, StatusAdmin)
""" | """from django.contrib import admin
from .models import Status
@admin.register(Status)
class StatusAdmin(admin.ModelAdmin):
list_display = ('shape', 'created_at')
admin.site.register(Status, StatusAdmin)
""" |
# binary search
def binarySearchRec(sort: list, target: int, start: int, stop: int, value: bool):
"""binary search with recursion"""
if start > stop:
if value:
return None # not found value
else:
return -1 # not found index
else:
mid = (start + stop) // 2
if target == sort[mid]:
if value:
return sort[mid] # found value
else:
return mid # found index
elif target < sort[mid]:
return binarySearchRec(sort, target, start, mid - 1, value)
else:
return binarySearchRec(sort, target, mid + 1, stop, value)
arr = range(0, 1000000)[::2]
print(binarySearchRec(arr, 222222, 0, len(arr), True))
print(binarySearchRec(arr, 777777, 0, len(arr), True))
print(binarySearchRec(arr, 222222, 0, len(arr), False))
print(binarySearchRec(arr, 777777, 0, len(arr), False))
def binarySearchLoop(sort: list, target: int, start: int, stop: int, value: bool):
"""binary search with while"""
while start <= stop:
mid = (start + stop) // 2
if target == sort[mid]:
if value:
return sort[mid]
else:
return mid
elif target < sort[mid]:
stop = mid - 1
else:
start = mid + 1
else:
if value:
return None
else:
return -1
arr = range(0, 1000000)[::2]
print(binarySearchLoop(arr, 222222, 0, len(arr), True))
print(binarySearchLoop(arr, 777777, 0, len(arr), True))
print(binarySearchLoop(arr, 222222, 0, len(arr), False))
print(binarySearchLoop(arr, 777777, 0, len(arr), False))
############################################################
# bubble sort
def bubbleSort(unsort: list) -> list:
"""bubble sort"""
arr = unsort.copy()
last = len(arr) - 1
for i in range(0, last):
for j in range(0, last - i):
if arr[j] > arr[j + 1]:
arr[j], arr[j + 1] = arr[j + 1], arr[j] # swap
return arr
nums = [10, 2, 5, 33, -5, -34, 26, 49, 1]
print(nums)
print(bubbleSort(nums))
| def binary_search_rec(sort: list, target: int, start: int, stop: int, value: bool):
"""binary search with recursion"""
if start > stop:
if value:
return None
else:
return -1
else:
mid = (start + stop) // 2
if target == sort[mid]:
if value:
return sort[mid]
else:
return mid
elif target < sort[mid]:
return binary_search_rec(sort, target, start, mid - 1, value)
else:
return binary_search_rec(sort, target, mid + 1, stop, value)
arr = range(0, 1000000)[::2]
print(binary_search_rec(arr, 222222, 0, len(arr), True))
print(binary_search_rec(arr, 777777, 0, len(arr), True))
print(binary_search_rec(arr, 222222, 0, len(arr), False))
print(binary_search_rec(arr, 777777, 0, len(arr), False))
def binary_search_loop(sort: list, target: int, start: int, stop: int, value: bool):
"""binary search with while"""
while start <= stop:
mid = (start + stop) // 2
if target == sort[mid]:
if value:
return sort[mid]
else:
return mid
elif target < sort[mid]:
stop = mid - 1
else:
start = mid + 1
else:
if value:
return None
else:
return -1
arr = range(0, 1000000)[::2]
print(binary_search_loop(arr, 222222, 0, len(arr), True))
print(binary_search_loop(arr, 777777, 0, len(arr), True))
print(binary_search_loop(arr, 222222, 0, len(arr), False))
print(binary_search_loop(arr, 777777, 0, len(arr), False))
def bubble_sort(unsort: list) -> list:
"""bubble sort"""
arr = unsort.copy()
last = len(arr) - 1
for i in range(0, last):
for j in range(0, last - i):
if arr[j] > arr[j + 1]:
(arr[j], arr[j + 1]) = (arr[j + 1], arr[j])
return arr
nums = [10, 2, 5, 33, -5, -34, 26, 49, 1]
print(nums)
print(bubble_sort(nums)) |
a = input("Enter a number: ")
prev = None
flag = True
if len(a)==1:
flag = False
for elm in a:
if prev == None:
prev = int(elm)
else:
if prev > int(elm):
prev = int(elm)
else:
flag = False
break
print(flag) | a = input('Enter a number: ')
prev = None
flag = True
if len(a) == 1:
flag = False
for elm in a:
if prev == None:
prev = int(elm)
elif prev > int(elm):
prev = int(elm)
else:
flag = False
break
print(flag) |
BATTERY_UUID = "0000ec08-0000-1000-8000-00805f9b34fb"
DEVICE_USER_NAME_UUID = "0000ec01-0000-1000-8000-00805f9b34fb"
UPDATED_AT_UUID = "0000ec09-0000-1000-8000-00805f9b34fb"
MODEL_NUMBER_UUID = "00002a24-0000-1000-8000-00805f9b34fb"
MANUFACTURER_UUID = "00002a29-0000-1000-8000-00805f9b34fb"
VALVE_MANUAL_SETTINGS_UUID = "0000ec0b-0000-1000-8000-00805f9b34fb"
VALVE_ON_OFF_UUID = "0000ec0a-0000-1000-8000-00805f9b34fb"
VALVE_MANUAL_STATES_UUID = "0000ec06-0000-1000-8000-00805f9b34fb"
VALVE_0_MODE_UUID = "0000ec0f-0000-1000-8000-00805f9b34fb"
VALVE_1_MODE_UUID = "0000ec10-0000-1000-8000-00805f9b34fb"
VALVE_2_MODE_UUID = "0000ec11-0000-1000-8000-00805f9b34fb"
VALVE_3_MODE_UUID = "0000ec12-0000-1000-8000-00805f9b34fb"
# Manufacturers
EDEN = "Eden"
MELNOR = "Melnor"
MODEL_BRAND_MAP = {
"5901": EDEN,
"5902": EDEN,
"5903": EDEN,
"5904": EDEN,
"5905": EDEN,
"5906": EDEN,
"5907": MELNOR,
"5908": MELNOR,
"5909": MELNOR,
"5910": MELNOR,
"5911": MELNOR,
"5912": MELNOR,
"5913": EDEN,
"5914": EDEN,
"5915": EDEN,
"5916": EDEN,
"5917": EDEN,
"5918": EDEN,
}
MODEL_NAME_MAP = {
"5901": "25443",
"5902": "25439",
"5903": "25442",
"5904": "25438",
"5905": "25441",
"5906": "25437",
"5907": "93281",
"5908": "93280",
"5909": "93101",
"5910": "93100",
"5911": "93016",
"5912": "93015",
"5913": "25443",
"5914": "25439",
"5915": "25442",
"5916": "25438",
"5917": "25441",
"5918": "25437",
}
MODEL_SENSOR_MAP = {
"5901": True,
"5902": False,
"5903": True,
"5904": False,
"5905": True,
"5906": False,
"5907": True,
"5908": False,
"5909": True,
"5910": False,
"5911": True,
"5912": False,
"5913": True,
"5914": False,
"5915": True,
"5916": False,
"5917": True,
"5918": False,
}
MODEL_VALVE_MAP = {
"5901": 4,
"5902": 4,
"5903": 2,
"5904": 2,
"5905": 1,
"5906": 1,
"5907": 4,
"5908": 4,
"5909": 2,
"5910": 2,
"5911": 1,
"5912": 1,
"5913": 4,
"5914": 4,
"5915": 2,
"5916": 2,
"5917": 1,
"5918": 1,
}
| battery_uuid = '0000ec08-0000-1000-8000-00805f9b34fb'
device_user_name_uuid = '0000ec01-0000-1000-8000-00805f9b34fb'
updated_at_uuid = '0000ec09-0000-1000-8000-00805f9b34fb'
model_number_uuid = '00002a24-0000-1000-8000-00805f9b34fb'
manufacturer_uuid = '00002a29-0000-1000-8000-00805f9b34fb'
valve_manual_settings_uuid = '0000ec0b-0000-1000-8000-00805f9b34fb'
valve_on_off_uuid = '0000ec0a-0000-1000-8000-00805f9b34fb'
valve_manual_states_uuid = '0000ec06-0000-1000-8000-00805f9b34fb'
valve_0_mode_uuid = '0000ec0f-0000-1000-8000-00805f9b34fb'
valve_1_mode_uuid = '0000ec10-0000-1000-8000-00805f9b34fb'
valve_2_mode_uuid = '0000ec11-0000-1000-8000-00805f9b34fb'
valve_3_mode_uuid = '0000ec12-0000-1000-8000-00805f9b34fb'
eden = 'Eden'
melnor = 'Melnor'
model_brand_map = {'5901': EDEN, '5902': EDEN, '5903': EDEN, '5904': EDEN, '5905': EDEN, '5906': EDEN, '5907': MELNOR, '5908': MELNOR, '5909': MELNOR, '5910': MELNOR, '5911': MELNOR, '5912': MELNOR, '5913': EDEN, '5914': EDEN, '5915': EDEN, '5916': EDEN, '5917': EDEN, '5918': EDEN}
model_name_map = {'5901': '25443', '5902': '25439', '5903': '25442', '5904': '25438', '5905': '25441', '5906': '25437', '5907': '93281', '5908': '93280', '5909': '93101', '5910': '93100', '5911': '93016', '5912': '93015', '5913': '25443', '5914': '25439', '5915': '25442', '5916': '25438', '5917': '25441', '5918': '25437'}
model_sensor_map = {'5901': True, '5902': False, '5903': True, '5904': False, '5905': True, '5906': False, '5907': True, '5908': False, '5909': True, '5910': False, '5911': True, '5912': False, '5913': True, '5914': False, '5915': True, '5916': False, '5917': True, '5918': False}
model_valve_map = {'5901': 4, '5902': 4, '5903': 2, '5904': 2, '5905': 1, '5906': 1, '5907': 4, '5908': 4, '5909': 2, '5910': 2, '5911': 1, '5912': 1, '5913': 4, '5914': 4, '5915': 2, '5916': 2, '5917': 1, '5918': 1} |
"""
Quetion 29 :
Define a function that can accept two string as input and
then print it in console.
Hints : Ues + to concatenate the strings.
"""
# Solution :
def print_value(s1, s2):
print(s1 + s2)
print_value("3", "4")
"""
Output :
34
""" | """
Quetion 29 :
Define a function that can accept two string as input and
then print it in console.
Hints : Ues + to concatenate the strings.
"""
def print_value(s1, s2):
print(s1 + s2)
print_value('3', '4')
'\nOutput :\n 34\n' |
"""
PSET-7
Part 3: Filtering
At this point, you can run ps7.py, and it will fetch and display Google
and Yahoo news items for you in little pop-up windows. How many news
items? All of them.
Right now, the code we've given you in ps7.py gets all of the feeds
every minute, and displays the result. This is nice, but, remember,
the goal here was to filter out only the the stories we wanted.
PROBLEM 10
Write a function, filterStories(stories, triggerlist) that takes in
a list of news stories and a list of triggers, and returns a list of
only the stories for which any of the triggers fires on. The list of
stories should be unique - that is, do not include any duplicates in
the list. For example, if 2 triggers fire on StoryA, only include
StoryA in the list one time.
"""
# Enter your code for WordTrigger, TitleTrigger,
# SubjectTrigger, SummaryTrigger, PhraseTrigger, and
# filterStories in this box
class WordTrigger(Trigger):
def __init__(self, word):
self.word = word
def internalAreCharsEqualIgnoreCase(self, c1, c2):
if type(c1) != str or type(c2) != str:
raise TypeError("Arg not of type str")
if len(c1) > 1 or len(c2) > 1:
raise TypeError("Expected a char. Length not equal to 1")
return c1[0] == c2[0] or \
(ord(c1[0]) > 0x60 and (ord(c1[0]) - 0x20 == ord(c2[0])) or ord(c1[0]) < 0x5A and (ord(c1[0]) + 0x20 == ord(c2[0])))
def isWordIn(self, text):
"""
Returns True if word is present in text as
whole word. False otherwise.
"""
charsMatched = 0
firstCharMatchInd = -1
for i in range( len(text) ):
if self.internalAreCharsEqualIgnoreCase(text[i], self.word[0]):
# case-insensitive check for text[i] == self.word[0]
firstCharMatchInd = i
charsMatched += 1
wordInd = 1
while wordInd < len(self.word) and wordInd + firstCharMatchInd < len(text):
if self.internalAreCharsEqualIgnoreCase(self.word[wordInd], text[wordInd + firstCharMatchInd]):
# case-insensitive check for self.word[wordInd] == text[wordInd + firstCharMatchInd]
charsMatched += 1
wordInd += 1
elif self.internalAreCharsEqualIgnoreCase(self.word[wordInd], self.word[0]):
# case-insensitive check for text[i] == self.word[0]
charsMatched = 1
firstCharMatchInd = wordInd + firstCharMatchInd
wordInd = firstCharMatchInd
continue
else:
charsMatched = 0
i = wordInd + firstCharMatchInd
break
if charsMatched == len(self.word):
if len(self.word) == len(text):
return True
elif firstCharMatchInd > 0 and firstCharMatchInd + len(self.word) == len(text):
if text[firstCharMatchInd - 1].isspace() or text[firstCharMatchInd - 1] in string.punctuation:
return True
elif firstCharMatchInd == 0 and firstCharMatchInd + len(self.word) + 1 < len(text):
if text[firstCharMatchInd + len(self.word)].isspace() or text[firstCharMatchInd + len(self.word)] in string.punctuation:
return True
else:
if (text[firstCharMatchInd - 1].isspace() or text[firstCharMatchInd - 1] in string.punctuation) \
and (text[firstCharMatchInd + len(self.word)].isspace() or text[firstCharMatchInd + len(self.word)] in string.punctuation):
return True
return False
class TitleTrigger(WordTrigger):
def evaluate(self, story):
"""
Returns True if an alert should be generated
for the given news item, or False otherwise.
"""
return self.isWordIn( story.getTitle() )
class SubjectTrigger(WordTrigger):
def evaluate(self, story):
"""
Returns True if an alert should be generated
for the given news item, or False otherwise.
"""
return self.isWordIn( story.getSubject() )
class SummaryTrigger(WordTrigger):
def evaluate(self, story):
"""
Returns True if an alert should be generated
for the given news item, or False otherwise.
"""
return self.isWordIn( story.getSummary() )
class PhraseTrigger(Trigger):
def __init__(self, phrase):
self.word = phrase
def isWordIn(self, text):
charsMatched = 0
firstCharMatchInd = -1
for i in range( len(text) ):
if text[i] == self.word[0]:
firstCharMatchInd = i
charsMatched += 1
wordInd = 1
while wordInd < len(self.word) and wordInd + firstCharMatchInd < len(text):
if self.word[wordInd] == text[wordInd + firstCharMatchInd]:
charsMatched += 1
wordInd += 1
elif self.word[wordInd] == self.word[0]:
charsMatched = 1
firstCharMatchInd = wordInd + firstCharMatchInd
wordInd = firstCharMatchInd
continue
else:
charsMatched = 0
i = wordInd + firstCharMatchInd
break
if charsMatched == len(self.word):
return True
return False
def evaluate(self, story):
return self.isWordIn( story.getTitle() ) or \
self.isWordIn( story.getSubject() ) or \
self.isWordIn( story.getSummary() )
def filterStories(stories, triggerlist):
"""
Takes in a list of NewsStory instances.
Returns: a list of only the stories for which a trigger in triggerlist fires.
"""
# triggerlist arg is a list of objects of type Trigger
# stories arg is a list of objects of type NewsStory
storiesFiredOnList = []
for story in stories:
for trigger in triggerlist:
if trigger.evaluate(story):
storiesFiredOnList.append(story)
break
return storiesFiredOnList
| """
PSET-7
Part 3: Filtering
At this point, you can run ps7.py, and it will fetch and display Google
and Yahoo news items for you in little pop-up windows. How many news
items? All of them.
Right now, the code we've given you in ps7.py gets all of the feeds
every minute, and displays the result. This is nice, but, remember,
the goal here was to filter out only the the stories we wanted.
PROBLEM 10
Write a function, filterStories(stories, triggerlist) that takes in
a list of news stories and a list of triggers, and returns a list of
only the stories for which any of the triggers fires on. The list of
stories should be unique - that is, do not include any duplicates in
the list. For example, if 2 triggers fire on StoryA, only include
StoryA in the list one time.
"""
class Wordtrigger(Trigger):
def __init__(self, word):
self.word = word
def internal_are_chars_equal_ignore_case(self, c1, c2):
if type(c1) != str or type(c2) != str:
raise type_error('Arg not of type str')
if len(c1) > 1 or len(c2) > 1:
raise type_error('Expected a char. Length not equal to 1')
return c1[0] == c2[0] or (ord(c1[0]) > 96 and ord(c1[0]) - 32 == ord(c2[0]) or (ord(c1[0]) < 90 and ord(c1[0]) + 32 == ord(c2[0])))
def is_word_in(self, text):
"""
Returns True if word is present in text as
whole word. False otherwise.
"""
chars_matched = 0
first_char_match_ind = -1
for i in range(len(text)):
if self.internalAreCharsEqualIgnoreCase(text[i], self.word[0]):
first_char_match_ind = i
chars_matched += 1
word_ind = 1
while wordInd < len(self.word) and wordInd + firstCharMatchInd < len(text):
if self.internalAreCharsEqualIgnoreCase(self.word[wordInd], text[wordInd + firstCharMatchInd]):
chars_matched += 1
word_ind += 1
elif self.internalAreCharsEqualIgnoreCase(self.word[wordInd], self.word[0]):
chars_matched = 1
first_char_match_ind = wordInd + firstCharMatchInd
word_ind = firstCharMatchInd
continue
else:
chars_matched = 0
i = wordInd + firstCharMatchInd
break
if charsMatched == len(self.word):
if len(self.word) == len(text):
return True
elif firstCharMatchInd > 0 and firstCharMatchInd + len(self.word) == len(text):
if text[firstCharMatchInd - 1].isspace() or text[firstCharMatchInd - 1] in string.punctuation:
return True
elif firstCharMatchInd == 0 and firstCharMatchInd + len(self.word) + 1 < len(text):
if text[firstCharMatchInd + len(self.word)].isspace() or text[firstCharMatchInd + len(self.word)] in string.punctuation:
return True
elif (text[firstCharMatchInd - 1].isspace() or text[firstCharMatchInd - 1] in string.punctuation) and (text[firstCharMatchInd + len(self.word)].isspace() or text[firstCharMatchInd + len(self.word)] in string.punctuation):
return True
return False
class Titletrigger(WordTrigger):
def evaluate(self, story):
"""
Returns True if an alert should be generated
for the given news item, or False otherwise.
"""
return self.isWordIn(story.getTitle())
class Subjecttrigger(WordTrigger):
def evaluate(self, story):
"""
Returns True if an alert should be generated
for the given news item, or False otherwise.
"""
return self.isWordIn(story.getSubject())
class Summarytrigger(WordTrigger):
def evaluate(self, story):
"""
Returns True if an alert should be generated
for the given news item, or False otherwise.
"""
return self.isWordIn(story.getSummary())
class Phrasetrigger(Trigger):
def __init__(self, phrase):
self.word = phrase
def is_word_in(self, text):
chars_matched = 0
first_char_match_ind = -1
for i in range(len(text)):
if text[i] == self.word[0]:
first_char_match_ind = i
chars_matched += 1
word_ind = 1
while wordInd < len(self.word) and wordInd + firstCharMatchInd < len(text):
if self.word[wordInd] == text[wordInd + firstCharMatchInd]:
chars_matched += 1
word_ind += 1
elif self.word[wordInd] == self.word[0]:
chars_matched = 1
first_char_match_ind = wordInd + firstCharMatchInd
word_ind = firstCharMatchInd
continue
else:
chars_matched = 0
i = wordInd + firstCharMatchInd
break
if charsMatched == len(self.word):
return True
return False
def evaluate(self, story):
return self.isWordIn(story.getTitle()) or self.isWordIn(story.getSubject()) or self.isWordIn(story.getSummary())
def filter_stories(stories, triggerlist):
"""
Takes in a list of NewsStory instances.
Returns: a list of only the stories for which a trigger in triggerlist fires.
"""
stories_fired_on_list = []
for story in stories:
for trigger in triggerlist:
if trigger.evaluate(story):
storiesFiredOnList.append(story)
break
return storiesFiredOnList |
GIT_ACTION_RESULT = 'result'
GIT_ACTION_ADVERTISEMENT = 'advertisement'
GIT_ACTIONS = [GIT_ACTION_ADVERTISEMENT, GIT_ACTION_RESULT]
def is_valid_git_action(action):
"""
Returns true if the given action is one of git valid actions.
"""
return action in GIT_ACTIONS
| git_action_result = 'result'
git_action_advertisement = 'advertisement'
git_actions = [GIT_ACTION_ADVERTISEMENT, GIT_ACTION_RESULT]
def is_valid_git_action(action):
"""
Returns true if the given action is one of git valid actions.
"""
return action in GIT_ACTIONS |
# CSC 110 - Practice Activity #2
# Tip Calculator
# Section 03
# Justin Clark
# 1/14/2020
# input
billAmountEntered = float(input('Enter bill amount $: '))
tipPercentEntered = float(input('Enter tip %: '))
# processing
tipCalculated = billAmountEntered * (tipPercentEntered / 100)
amountToPay = billAmountEntered + tipCalculated
# output (build receipt):
receipt = \
'--------------------------' + '\n' + \
'Receipt\n' \
'-------------------' + '\n' + \
'Bill Entered: ${:.2f}'.format(billAmountEntered) + '\n' + \
'Tip Entered: {}%'.format(tipPercentEntered) + '\n' + \
'-------------------' + '\n' + \
'Tip Calculated: ${:.2f}'.format(tipCalculated) + '\n' + \
'Amount Owed: ${:.2f}'.format(amountToPay) + '\n' + \
'--------------------------'
print(receipt) | bill_amount_entered = float(input('Enter bill amount $: '))
tip_percent_entered = float(input('Enter tip %: '))
tip_calculated = billAmountEntered * (tipPercentEntered / 100)
amount_to_pay = billAmountEntered + tipCalculated
receipt = '--------------------------' + '\n' + 'Receipt\n-------------------' + '\n' + 'Bill Entered: ${:.2f}'.format(billAmountEntered) + '\n' + 'Tip Entered: {}%'.format(tipPercentEntered) + '\n' + '-------------------' + '\n' + 'Tip Calculated: ${:.2f}'.format(tipCalculated) + '\n' + 'Amount Owed: ${:.2f}'.format(amountToPay) + '\n' + '--------------------------'
print(receipt) |
# -*- coding: utf-8 -*-
__version__ = (1, 0, 0)
default_app_config = "taiga_contrib_fan.apps.TaigaContribFanAppConfig"
| __version__ = (1, 0, 0)
default_app_config = 'taiga_contrib_fan.apps.TaigaContribFanAppConfig' |
i = 0
n = int(input())
while (n > 0):
i += n
n -= 1
print('Sum is',i) | i = 0
n = int(input())
while n > 0:
i += n
n -= 1
print('Sum is', i) |
class Point:
def __init__(self, x, y):
self._cluster = 0 # Not classified yet
self._visited = False
self._x = x
self._y = y
def get_cluster(self):
return self._cluster
def set_cluster(self, cluster):
self._cluster = cluster
def get_values(self):
return (self._x, self._y)
def is_visited(self):
return self._visited
def visit(self):
self._visited = True
# Point.py
| class Point:
def __init__(self, x, y):
self._cluster = 0
self._visited = False
self._x = x
self._y = y
def get_cluster(self):
return self._cluster
def set_cluster(self, cluster):
self._cluster = cluster
def get_values(self):
return (self._x, self._y)
def is_visited(self):
return self._visited
def visit(self):
self._visited = True |
#! /usr/bin/env python3
def add_verticle(a, b) :
global verticles
if a in verticles : verticles[a].append(b)
else : verticles[a] = [b]
return verticles
def all_paths_util(u, path = []) :
global verticles
if u in path and not u.upper() == u : return []
path.append(u)
if u == 'end':
return [path]
paths = []
for nextCave in verticles[u]:
paths += all_paths_util(nextCave, path[:])
return paths
verticles = {}
for line in open("input") :
a, b = line.strip().split('-')
if b != 'start' :
verticles = add_verticle(a, b)
verticles = add_verticle(b, a)
else :
verticles = add_verticle(b, a)
print(len(all_paths_util('start'))) | def add_verticle(a, b):
global verticles
if a in verticles:
verticles[a].append(b)
else:
verticles[a] = [b]
return verticles
def all_paths_util(u, path=[]):
global verticles
if u in path and (not u.upper() == u):
return []
path.append(u)
if u == 'end':
return [path]
paths = []
for next_cave in verticles[u]:
paths += all_paths_util(nextCave, path[:])
return paths
verticles = {}
for line in open('input'):
(a, b) = line.strip().split('-')
if b != 'start':
verticles = add_verticle(a, b)
verticles = add_verticle(b, a)
else:
verticles = add_verticle(b, a)
print(len(all_paths_util('start'))) |
class SingleLed(object):
"""Represents a single LED that is connected to the ESP32"""
def __init__(self, pin):
self.pin = pin
def write_on(self, is_on):
print("Setting LED on pin {} to {}".format(self.pin, is_on))
# TODO: Actually call MicroPython code to set the output
| class Singleled(object):
"""Represents a single LED that is connected to the ESP32"""
def __init__(self, pin):
self.pin = pin
def write_on(self, is_on):
print('Setting LED on pin {} to {}'.format(self.pin, is_on)) |
class Solution:
def totalHammingDistance(self, nums: List[int]) -> int:
total = 0
for b in zip(*map('{:030b}'.format, nums)):
zeros = b.count('0')
total += zeros * (len(b) - zeros)
return total
| class Solution:
def total_hamming_distance(self, nums: List[int]) -> int:
total = 0
for b in zip(*map('{:030b}'.format, nums)):
zeros = b.count('0')
total += zeros * (len(b) - zeros)
return total |
#
# PySNMP MIB module HUAWEI-VO-GENERAL-MIB (http://snmplabs.com/pysmi)
# ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/HUAWEI-VO-GENERAL-MIB
# Produced by pysmi-0.3.4 at Wed May 1 13:49:30 2019
# On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4
# Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15)
#
OctetString, ObjectIdentifier, Integer = mibBuilder.importSymbols("ASN1", "OctetString", "ObjectIdentifier", "Integer")
NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues")
ValueRangeConstraint, ConstraintsUnion, SingleValueConstraint, ConstraintsIntersection, ValueSizeConstraint = mibBuilder.importSymbols("ASN1-REFINEMENT", "ValueRangeConstraint", "ConstraintsUnion", "SingleValueConstraint", "ConstraintsIntersection", "ValueSizeConstraint")
voice, = mibBuilder.importSymbols("HUAWEI-3COM-OID-MIB", "voice")
ModuleCompliance, NotificationGroup = mibBuilder.importSymbols("SNMPv2-CONF", "ModuleCompliance", "NotificationGroup")
TimeTicks, NotificationType, ObjectIdentity, Unsigned32, Integer32, MibScalar, MibTable, MibTableRow, MibTableColumn, ModuleIdentity, IpAddress, iso, Bits, Counter64, MibIdentifier, Counter32, Gauge32 = mibBuilder.importSymbols("SNMPv2-SMI", "TimeTicks", "NotificationType", "ObjectIdentity", "Unsigned32", "Integer32", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn", "ModuleIdentity", "IpAddress", "iso", "Bits", "Counter64", "MibIdentifier", "Counter32", "Gauge32")
TextualConvention, DisplayString = mibBuilder.importSymbols("SNMPv2-TC", "TextualConvention", "DisplayString")
hwVoiceGeneralMIB = ModuleIdentity((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1))
hwVoiceGeneralMIB.setRevisions(('2004-04-08 13:45',))
if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0):
if mibBuilder.loadTexts: hwVoiceGeneralMIB.setRevisionsDescriptions(('',))
if mibBuilder.loadTexts: hwVoiceGeneralMIB.setLastUpdated('200410200000Z')
if mibBuilder.loadTexts: hwVoiceGeneralMIB.setOrganization('Huawei-3COM Technologies Co., Ltd.')
if mibBuilder.loadTexts: hwVoiceGeneralMIB.setContactInfo('PLAT Team Huawei 3Com Technologies co.,Ltd. Shang-Di Information Industry Base, Hai-Dian District Beijing P.R. China http://www.huawei-3com.com Zip:100085')
if mibBuilder.loadTexts: hwVoiceGeneralMIB.setDescription(' ')
class EntryStatus(Integer32):
subtypeSpec = Integer32.subtypeSpec + ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4))
namedValues = NamedValues(("valid", 1), ("createRequest", 2), ("underCreation", 3), ("invalid", 4))
hwVoiceGeneralObjects = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1))
hwVoiceGeneralGroup = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1))
hwVoGeneralJitterLen = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 10)).clone(3)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralJitterLen.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralJitterLen.setDescription('This object specifies the length of the Jitter buffer. The default value is 3.')
hwVoGeneralMatchPolicy = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 2), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("long", 1), ("short", 2))).clone('short')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralMatchPolicy.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralMatchPolicy.setDescription('This object specifies match number policy of this gateway. The default value is short.')
hwVoGeneralSendPerformance = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 3), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("normal", 1), ("fast", 2))).clone('normal')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralSendPerformance.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralSendPerformance.setDescription('This object specifies the performance of sending voice data. The default value is normal.')
hwVoGeneralReceivePerformance = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 4), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("normal", 1), ("fast", 2))).clone('normal')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralReceivePerformance.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralReceivePerformance.setDescription('This object specifies the performance of receiving voice data. The default value is normal')
hwVoGeneralDataStatistics = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 5), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("enable", 1), ("disable", 2))).clone('disable')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralDataStatistics.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralDataStatistics.setDescription('Enable/disable data statistics')
hwVoGeneralPacketPrecedence = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 6), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 7))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralPacketPrecedence.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralPacketPrecedence.setDescription('Set global Voip packet precedence')
hwVoGeneralDialTerminator = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 7), OctetString().subtype(subtypeSpec=ValueSizeConstraint(0, 1))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralDialTerminator.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralDialTerminator.setDescription('Set global Dial Terminator')
hwVoGeneralCallStart = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 8), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("fast", 1), ("normal", 2))).clone('fast')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralCallStart.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralCallStart.setDescription('Set the start mode of called over IP')
hwVoGeneralCalledTunnel = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 9), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("enable", 1), ("disable", 2))).clone('enable')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralCalledTunnel.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralCalledTunnel.setDescription('Enable/disable Called tunnel function')
hwVoGeneralSpecialServiceEnable = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 10), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("enable", 1), ("disable", 2))).clone('disable')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralSpecialServiceEnable.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralSpecialServiceEnable.setDescription('This object sepcifies whether special service number function is enable or disable.')
hwVoGeneralCallTransferSpecialServiceNumber = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 11), OctetString().subtype(subtypeSpec=ValueSizeConstraint(1, 12)).clone('*12*')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralCallTransferSpecialServiceNumber.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralCallTransferSpecialServiceNumber.setDescription('This object specifies the call-transfer special service number in talking.')
hwVoGeneralPeerSearchStop = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 12), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 200)).clone(200)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralPeerSearchStop.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralPeerSearchStop.setDescription('This object specifies the maximum in searching entities.')
hwVoGeneralPeerSelectOrderRule = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 13), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 18))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralPeerSelectOrderRule.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralPeerSelectOrderRule.setDescription('This object specifies the rule order applied in voice entity selection. 0 --- explicit match, priority, random 1 --- explicit match, priority, longest no use 2 --- explicit match, longest no use, priority 3 --- explicit match, longest no use, random 4 --- priority, explicit match, random 5 --- priority, explicit match, longest no usep 6 --- riority, longest no use, explicit match 7 --- priority, longest no use, random 8 --- longest no use, explicit match, priority 9 --- longest no use, explicit match, random 10 --- longest no use, priority, explicit match 11 --- longest no use, priority, random 12 --- explicit match, random 13 --- priority, random 14 --- longest no use, random 15 --- explicit match 16 --- priority 17 --- random 18 --- longest no use ')
hwVoGeneralPeerSelectTypePriority = MibScalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 14), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 6))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoGeneralPeerSelectTypePriority.setStatus('current')
if mibBuilder.loadTexts: hwVoGeneralPeerSelectTypePriority.setDescription('This object specifies the priority-ranked type of voice entity. 1ST 2DN 3RD 0 --- NONE TYPE 1 --- VOIP POTS VOFR 2 --- VOIP VOFR POTS 3 --- POTS VOIP VOFR 4 --- POTS VOFR VOIP 5 --- VOFR POTS VOIP 6 --- VOFR POTS POTS ')
hwVoDialExpansionTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3), )
if mibBuilder.loadTexts: hwVoDialExpansionTable.setStatus('current')
if mibBuilder.loadTexts: hwVoDialExpansionTable.setDescription('The table contains the information of the Dial Expansion Record .')
hwVoDialExpansionEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1), ).setIndexNames((0, "HUAWEI-VO-GENERAL-MIB", "hwVoDialExpansionType"), (0, "HUAWEI-VO-GENERAL-MIB", "hwVoDialExpansionSource"))
if mibBuilder.loadTexts: hwVoDialExpansionEntry.setStatus('current')
if mibBuilder.loadTexts: hwVoDialExpansionEntry.setDescription('The information regarding a Dial Expansion Record.')
hwVoDialExpansionType = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1, 1), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(0, 1))).clone(namedValues=NamedValues(("callin", 0), ("callout", 1)))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoDialExpansionType.setStatus('current')
if mibBuilder.loadTexts: hwVoDialExpansionType.setDescription('The call direction of the Dial Expansion. ')
hwVoDialExpansionSource = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1, 2), OctetString().subtype(subtypeSpec=ValueSizeConstraint(1, 31))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoDialExpansionSource.setStatus('current')
if mibBuilder.loadTexts: hwVoDialExpansionSource.setDescription('This source telephone of the Dial Expansion. ')
hwVoDialExpansionTarget = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1, 3), OctetString().subtype(subtypeSpec=ValueSizeConstraint(1, 31))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoDialExpansionTarget.setStatus('current')
if mibBuilder.loadTexts: hwVoDialExpansionTarget.setDescription('This target telephone of the Dial Expansion. ')
hwVoDialExpansionRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1, 4), EntryStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoDialExpansionRowStatus.setStatus('current')
if mibBuilder.loadTexts: hwVoDialExpansionRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table. ')
hwVoLtoPTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2), )
if mibBuilder.loadTexts: hwVoLtoPTable.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPTable.setDescription('The table contains the relation information of Voice logic channel and voice physical channel.')
hwVoLtoPEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1), ).setIndexNames((0, "HUAWEI-VO-GENERAL-MIB", "hwVoLtoPChannel"))
if mibBuilder.loadTexts: hwVoLtoPEntry.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPEntry.setDescription('The information regarding a single logic voice channel .')
hwVoLtoPChannel = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 1), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoLtoPChannel.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPChannel.setDescription('The number of this logic voice channel .')
hwVoLtoPSlot = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 2), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoLtoPSlot.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPSlot.setDescription('The physical slot number which this logic voice channel based on.')
hwVoLtoPPort = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 3), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoLtoPPort.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPPort.setDescription('The physical port number which this logic voice channel based on.')
hwVoLtoPTimeSlot = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 4), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoLtoPTimeSlot.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPTimeSlot.setDescription("The timeslots map this logic channel is using . -1 represent this channel cann't be used by voice.")
hwVoLtoPStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 5), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("up", 1), ("down", 2)))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoLtoPStatus.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPStatus.setDescription('The current status of the physical voice channel.')
hwVoLtoPBoardType = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 6), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12))).clone(namedValues=NamedValues(("fxs2", 1), ("fxo2", 2), ("em2", 3), ("fxs4", 4), ("fxo4", 5), ("em4", 6), ("e1vi", 7), ("t1vi", 8), ("sic-fxs1", 9), ("sic-fxo1", 10), ("sic-fxs2", 11), ("sic-fxo2", 12)))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoLtoPBoardType.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPBoardType.setDescription('The board type of the physical voice channel.')
hwVoLtoPPortNumber = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 7), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoLtoPPortNumber.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPPortNumber.setDescription("The global port number of the logic voice channel. -1 represent this channel cann't be used by voice.")
hwVoLtoPGroupNumber = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 8), Integer32().subtype(subtypeSpec=ConstraintsUnion(ValueRangeConstraint(-1, 30), ValueRangeConstraint(255, 255), ))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoLtoPGroupNumber.setStatus('current')
if mibBuilder.loadTexts: hwVoLtoPGroupNumber.setDescription("The global group number of the logic voice channel. . -1 represent this channel cann't be used by voice .")
hwVoiceNumberSubstGroup = MibIdentifier((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4))
hwVoNumSubstTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1), )
if mibBuilder.loadTexts: hwVoNumSubstTable.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstTable.setDescription('The table is the number-substitute rule table. It contains the table index, dot match rule and the first rule tag that the rule is used firstly.')
hwVoNumSubstEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1), ).setIndexNames((0, "HUAWEI-VO-GENERAL-MIB", "hwVoNumSubstIndex"))
if mibBuilder.loadTexts: hwVoNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstEntry.setDescription('A number-substitute rule list. One entry per number-substite rule list.')
hwVoNumSubstIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstIndex.setDescription('The index uniquely identifies a number-substitute rule list. It is valid if its value is between 1 and 2147483647.')
hwVoNumSubstFirstRule = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1, 2), Integer32().subtype(subtypeSpec=ConstraintsUnion(ValueRangeConstraint(0, 127), ValueRangeConstraint(65535, 65535), )).clone(65535)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoNumSubstFirstRule.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstFirstRule.setDescription('This object specifies the first rule to be used firstly. It is valid if its value is between 0 and 127.')
hwVoNumSubstDotMatchRule = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1, 3), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3))).clone(namedValues=NamedValues(("end-only", 1), ("left-right", 2), ("right-left", 3))).clone(1)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoNumSubstDotMatchRule.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstDotMatchRule.setDescription('This object specifies the dot wildcard match rule. end-only - only end of E.164 number (input format) left-right - match form left to right (input format) right-left - match form right to left (input format) ')
hwVoNumSubstRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1, 4), EntryStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hwVoNumSubstRuleTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2), )
if mibBuilder.loadTexts: hwVoNumSubstRuleTable.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstRuleTable.setDescription('The table contains the number-substitute rule information that is used to create an rule row with an appropriate rule index.')
hwVoNumSubstRuleEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1), ).setIndexNames((0, "HUAWEI-VO-GENERAL-MIB", "hwVoNumSubstIndex"), (0, "HUAWEI-VO-GENERAL-MIB", "hwVoNumSubstRuleIndex"))
if mibBuilder.loadTexts: hwVoNumSubstRuleEntry.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstRuleEntry.setDescription('A single number-substitute rule. One entry per number-substitute rule.')
hwVoNumSubstRuleIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 127))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoNumSubstRuleIndex.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstRuleIndex.setDescription('The index uniquely identifies a number-substitute rule. It is valid if its value is between 0 and 127.')
hwVoNumSubstRuleInputFormat = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1, 2), OctetString().subtype(subtypeSpec=ValueSizeConstraint(1, 31))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoNumSubstRuleInputFormat.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstRuleInputFormat.setDescription('This object specifies the input match format that must be of the form ^(\\^)!(\\+)!([0-9ABCD.*%!#]+)(\\$)!$.')
hwVoNumSubstRuleOutputFormat = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1, 3), OctetString().subtype(subtypeSpec=ValueSizeConstraint(1, 31))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoNumSubstRuleOutputFormat.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstRuleOutputFormat.setDescription('This object specifies the output format that must be of the form ^[0-9#.]+$.')
hwVoNumSubstRuleRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1, 4), EntryStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoNumSubstRuleRowStatus.setStatus('current')
if mibBuilder.loadTexts: hwVoNumSubstRuleRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hwVoMaxCallTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5), )
if mibBuilder.loadTexts: hwVoMaxCallTable.setStatus('current')
if mibBuilder.loadTexts: hwVoMaxCallTable.setDescription('The table stores The table stores the maximum number of allowed connections for a set of voice entities.')
hwVoMaxCallEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5, 1), ).setIndexNames((0, "HUAWEI-VO-GENERAL-MIB", "hwVoMaxCallTableIndex"))
if mibBuilder.loadTexts: hwVoMaxCallEntry.setStatus('current')
if mibBuilder.loadTexts: hwVoMaxCallEntry.setDescription('A single value of maximum call connections. One entry per maximum call connections.')
hwVoMaxCallTableIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoMaxCallTableIndex.setStatus('current')
if mibBuilder.loadTexts: hwVoMaxCallTableIndex.setDescription('The index uniquely identifies a single maximum call value. It is valid if its value is between 1 and 2147483647.')
hwVoMaxCallValue = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 120))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoMaxCallValue.setStatus('current')
if mibBuilder.loadTexts: hwVoMaxCallValue.setDescription('This object specifies a single maximum call value. It is valid if its value is between 0 and 120.')
hwVoMaxCallTableRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5, 1, 3), EntryStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoMaxCallTableRowStatus.setStatus('current')
if mibBuilder.loadTexts: hwVoMaxCallTableRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hwVoIncomingCallingNumSubstTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 6), )
if mibBuilder.loadTexts: hwVoIncomingCallingNumSubstTable.setStatus('current')
if mibBuilder.loadTexts: hwVoIncomingCallingNumSubstTable.setDescription('The table stores the number-substitute rule list tag that these number-substitute rule list will be used for incoming-call caller number.The table can hold max 32 rows.')
hwVoIncomingCallingNumSubstEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 6, 1), ).setIndexNames((0, "HUAWEI-VO-GENERAL-MIB", "hwVoIncomingCallingNumSubstIndex"))
if mibBuilder.loadTexts: hwVoIncomingCallingNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts: hwVoIncomingCallingNumSubstEntry.setDescription('A number-substitute rule list tag. One entry per number-substite rule list tag.')
hwVoIncomingCallingNumSubstIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 6, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoIncomingCallingNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts: hwVoIncomingCallingNumSubstIndex.setDescription('This object specifies a number-substitute rule that apply caller number for incoming call. It is valid if its value is between 1 and 2147483647.')
hwVoIncomingCallingNumSubstRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 6, 1, 2), EntryStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoIncomingCallingNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts: hwVoIncomingCallingNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hwVoIncomingCalledNumSubstTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 7), )
if mibBuilder.loadTexts: hwVoIncomingCalledNumSubstTable.setStatus('current')
if mibBuilder.loadTexts: hwVoIncomingCalledNumSubstTable.setDescription('The table stores the number-substitute rule list tag that these number-substitute rule list will be used for incoming-call caller number.The table can hold max 32 rows.')
hwVoIncomingCalledNumSubstEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 7, 1), ).setIndexNames((0, "HUAWEI-VO-GENERAL-MIB", "hwVoIncomingCalledNumSubstIndex"))
if mibBuilder.loadTexts: hwVoIncomingCalledNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts: hwVoIncomingCalledNumSubstEntry.setDescription('A number-substitute rule list tag. One entry per number-substite rule list tag.')
hwVoIncomingCalledNumSubstIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 7, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoIncomingCalledNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts: hwVoIncomingCalledNumSubstIndex.setDescription('This object specifies a number-substitute rule that apply caller number for incoming call. It is valid if its value is between 1 and 2147483647.')
hwVoIncomingCalledNumSubstRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 7, 1, 2), EntryStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoIncomingCalledNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts: hwVoIncomingCalledNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hwVoOutgoingCallingNumSubstTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 8), )
if mibBuilder.loadTexts: hwVoOutgoingCallingNumSubstTable.setStatus('current')
if mibBuilder.loadTexts: hwVoOutgoingCallingNumSubstTable.setDescription('The table stores the number-substitute rule list tag that these number-substitute rule list will be used for incoming-call caller number.The table can hold max 32 rows.')
hwVoOutgoingCallingNumSubstEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 8, 1), ).setIndexNames((0, "HUAWEI-VO-GENERAL-MIB", "hwVoOutgoingCallingNumSubstIndex"))
if mibBuilder.loadTexts: hwVoOutgoingCallingNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts: hwVoOutgoingCallingNumSubstEntry.setDescription('A number-substitute rule list tag. One entry per number-substite rule list tag.')
hwVoOutgoingCallingNumSubstIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 8, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoOutgoingCallingNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts: hwVoOutgoingCallingNumSubstIndex.setDescription('This object specifies a number-substitute rule that apply caller number for incoming call. It is valid if its value is between 1 and 2147483647.')
hwVoOutgoingCallingNumSubstRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 8, 1, 2), EntryStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoOutgoingCallingNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts: hwVoOutgoingCallingNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hwVoOutgoingCalledNumSubstTable = MibTable((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 9), )
if mibBuilder.loadTexts: hwVoOutgoingCalledNumSubstTable.setStatus('current')
if mibBuilder.loadTexts: hwVoOutgoingCalledNumSubstTable.setDescription('The table stores the number-substitute rule list tag that these number-substitute rule list will be used for incoming-call caller number.The table can hold max 32 rows.')
hwVoOutgoingCalledNumSubstEntry = MibTableRow((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 9, 1), ).setIndexNames((0, "HUAWEI-VO-GENERAL-MIB", "hwVoOutgoingCalledNumSubstIndex"))
if mibBuilder.loadTexts: hwVoOutgoingCalledNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts: hwVoOutgoingCalledNumSubstEntry.setDescription('A number-substitute rule list tag. One entry per number-substite rule list tag.')
hwVoOutgoingCalledNumSubstIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 9, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647))).setMaxAccess("readonly")
if mibBuilder.loadTexts: hwVoOutgoingCalledNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts: hwVoOutgoingCalledNumSubstIndex.setDescription('This object specifies a number-substitute rule that apply caller number for incoming call. It is valid if its value is between 1 and 2147483647.')
hwVoOutgoingCalledNumSubstRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 9, 1, 2), EntryStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: hwVoOutgoingCalledNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts: hwVoOutgoingCalledNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
mibBuilder.exportSymbols("HUAWEI-VO-GENERAL-MIB", hwVoLtoPPort=hwVoLtoPPort, hwVoNumSubstIndex=hwVoNumSubstIndex, hwVoiceGeneralObjects=hwVoiceGeneralObjects, hwVoNumSubstRuleInputFormat=hwVoNumSubstRuleInputFormat, hwVoNumSubstTable=hwVoNumSubstTable, hwVoDialExpansionTarget=hwVoDialExpansionTarget, hwVoGeneralSendPerformance=hwVoGeneralSendPerformance, hwVoDialExpansionEntry=hwVoDialExpansionEntry, hwVoMaxCallEntry=hwVoMaxCallEntry, hwVoIncomingCalledNumSubstEntry=hwVoIncomingCalledNumSubstEntry, hwVoOutgoingCallingNumSubstTable=hwVoOutgoingCallingNumSubstTable, hwVoGeneralCallTransferSpecialServiceNumber=hwVoGeneralCallTransferSpecialServiceNumber, hwVoMaxCallTable=hwVoMaxCallTable, hwVoNumSubstRuleTable=hwVoNumSubstRuleTable, hwVoOutgoingCalledNumSubstIndex=hwVoOutgoingCalledNumSubstIndex, hwVoGeneralPacketPrecedence=hwVoGeneralPacketPrecedence, hwVoIncomingCallingNumSubstIndex=hwVoIncomingCallingNumSubstIndex, hwVoOutgoingCallingNumSubstEntry=hwVoOutgoingCallingNumSubstEntry, hwVoDialExpansionTable=hwVoDialExpansionTable, hwVoGeneralMatchPolicy=hwVoGeneralMatchPolicy, hwVoLtoPEntry=hwVoLtoPEntry, hwVoGeneralPeerSearchStop=hwVoGeneralPeerSearchStop, hwVoLtoPSlot=hwVoLtoPSlot, hwVoLtoPStatus=hwVoLtoPStatus, hwVoNumSubstRuleRowStatus=hwVoNumSubstRuleRowStatus, hwVoMaxCallValue=hwVoMaxCallValue, hwVoMaxCallTableRowStatus=hwVoMaxCallTableRowStatus, hwVoNumSubstEntry=hwVoNumSubstEntry, hwVoGeneralPeerSelectTypePriority=hwVoGeneralPeerSelectTypePriority, hwVoLtoPBoardType=hwVoLtoPBoardType, hwVoOutgoingCalledNumSubstRowStatus=hwVoOutgoingCalledNumSubstRowStatus, hwVoNumSubstRuleIndex=hwVoNumSubstRuleIndex, hwVoDialExpansionRowStatus=hwVoDialExpansionRowStatus, hwVoIncomingCallingNumSubstEntry=hwVoIncomingCallingNumSubstEntry, hwVoOutgoingCallingNumSubstRowStatus=hwVoOutgoingCallingNumSubstRowStatus, hwVoIncomingCallingNumSubstTable=hwVoIncomingCallingNumSubstTable, hwVoLtoPChannel=hwVoLtoPChannel, hwVoNumSubstRowStatus=hwVoNumSubstRowStatus, hwVoNumSubstDotMatchRule=hwVoNumSubstDotMatchRule, hwVoGeneralDialTerminator=hwVoGeneralDialTerminator, hwVoIncomingCallingNumSubstRowStatus=hwVoIncomingCallingNumSubstRowStatus, PYSNMP_MODULE_ID=hwVoiceGeneralMIB, hwVoOutgoingCalledNumSubstTable=hwVoOutgoingCalledNumSubstTable, hwVoGeneralPeerSelectOrderRule=hwVoGeneralPeerSelectOrderRule, hwVoGeneralCallStart=hwVoGeneralCallStart, hwVoLtoPPortNumber=hwVoLtoPPortNumber, hwVoGeneralCalledTunnel=hwVoGeneralCalledTunnel, hwVoGeneralJitterLen=hwVoGeneralJitterLen, hwVoGeneralReceivePerformance=hwVoGeneralReceivePerformance, hwVoDialExpansionType=hwVoDialExpansionType, hwVoLtoPGroupNumber=hwVoLtoPGroupNumber, hwVoiceNumberSubstGroup=hwVoiceNumberSubstGroup, hwVoIncomingCalledNumSubstTable=hwVoIncomingCalledNumSubstTable, hwVoIncomingCalledNumSubstIndex=hwVoIncomingCalledNumSubstIndex, hwVoNumSubstRuleEntry=hwVoNumSubstRuleEntry, hwVoiceGeneralGroup=hwVoiceGeneralGroup, hwVoNumSubstFirstRule=hwVoNumSubstFirstRule, hwVoIncomingCalledNumSubstRowStatus=hwVoIncomingCalledNumSubstRowStatus, hwVoMaxCallTableIndex=hwVoMaxCallTableIndex, hwVoDialExpansionSource=hwVoDialExpansionSource, hwVoLtoPTable=hwVoLtoPTable, hwVoGeneralDataStatistics=hwVoGeneralDataStatistics, hwVoNumSubstRuleOutputFormat=hwVoNumSubstRuleOutputFormat, hwVoGeneralSpecialServiceEnable=hwVoGeneralSpecialServiceEnable, hwVoOutgoingCalledNumSubstEntry=hwVoOutgoingCalledNumSubstEntry, hwVoLtoPTimeSlot=hwVoLtoPTimeSlot, EntryStatus=EntryStatus, hwVoOutgoingCallingNumSubstIndex=hwVoOutgoingCallingNumSubstIndex, hwVoiceGeneralMIB=hwVoiceGeneralMIB)
| (octet_string, object_identifier, integer) = mibBuilder.importSymbols('ASN1', 'OctetString', 'ObjectIdentifier', 'Integer')
(named_values,) = mibBuilder.importSymbols('ASN1-ENUMERATION', 'NamedValues')
(value_range_constraint, constraints_union, single_value_constraint, constraints_intersection, value_size_constraint) = mibBuilder.importSymbols('ASN1-REFINEMENT', 'ValueRangeConstraint', 'ConstraintsUnion', 'SingleValueConstraint', 'ConstraintsIntersection', 'ValueSizeConstraint')
(voice,) = mibBuilder.importSymbols('HUAWEI-3COM-OID-MIB', 'voice')
(module_compliance, notification_group) = mibBuilder.importSymbols('SNMPv2-CONF', 'ModuleCompliance', 'NotificationGroup')
(time_ticks, notification_type, object_identity, unsigned32, integer32, mib_scalar, mib_table, mib_table_row, mib_table_column, module_identity, ip_address, iso, bits, counter64, mib_identifier, counter32, gauge32) = mibBuilder.importSymbols('SNMPv2-SMI', 'TimeTicks', 'NotificationType', 'ObjectIdentity', 'Unsigned32', 'Integer32', 'MibScalar', 'MibTable', 'MibTableRow', 'MibTableColumn', 'ModuleIdentity', 'IpAddress', 'iso', 'Bits', 'Counter64', 'MibIdentifier', 'Counter32', 'Gauge32')
(textual_convention, display_string) = mibBuilder.importSymbols('SNMPv2-TC', 'TextualConvention', 'DisplayString')
hw_voice_general_mib = module_identity((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1))
hwVoiceGeneralMIB.setRevisions(('2004-04-08 13:45',))
if getattr(mibBuilder, 'version', (0, 0, 0)) > (4, 4, 0):
if mibBuilder.loadTexts:
hwVoiceGeneralMIB.setRevisionsDescriptions(('',))
if mibBuilder.loadTexts:
hwVoiceGeneralMIB.setLastUpdated('200410200000Z')
if mibBuilder.loadTexts:
hwVoiceGeneralMIB.setOrganization('Huawei-3COM Technologies Co., Ltd.')
if mibBuilder.loadTexts:
hwVoiceGeneralMIB.setContactInfo('PLAT Team Huawei 3Com Technologies co.,Ltd. Shang-Di Information Industry Base, Hai-Dian District Beijing P.R. China http://www.huawei-3com.com Zip:100085')
if mibBuilder.loadTexts:
hwVoiceGeneralMIB.setDescription(' ')
class Entrystatus(Integer32):
subtype_spec = Integer32.subtypeSpec + constraints_union(single_value_constraint(1, 2, 3, 4))
named_values = named_values(('valid', 1), ('createRequest', 2), ('underCreation', 3), ('invalid', 4))
hw_voice_general_objects = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1))
hw_voice_general_group = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1))
hw_vo_general_jitter_len = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(0, 10)).clone(3)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralJitterLen.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralJitterLen.setDescription('This object specifies the length of the Jitter buffer. The default value is 3.')
hw_vo_general_match_policy = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 2), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('long', 1), ('short', 2))).clone('short')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralMatchPolicy.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralMatchPolicy.setDescription('This object specifies match number policy of this gateway. The default value is short.')
hw_vo_general_send_performance = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 3), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('normal', 1), ('fast', 2))).clone('normal')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralSendPerformance.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralSendPerformance.setDescription('This object specifies the performance of sending voice data. The default value is normal.')
hw_vo_general_receive_performance = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 4), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('normal', 1), ('fast', 2))).clone('normal')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralReceivePerformance.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralReceivePerformance.setDescription('This object specifies the performance of receiving voice data. The default value is normal')
hw_vo_general_data_statistics = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 5), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('enable', 1), ('disable', 2))).clone('disable')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralDataStatistics.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralDataStatistics.setDescription('Enable/disable data statistics')
hw_vo_general_packet_precedence = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 6), integer32().subtype(subtypeSpec=value_range_constraint(0, 7))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralPacketPrecedence.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralPacketPrecedence.setDescription('Set global Voip packet precedence')
hw_vo_general_dial_terminator = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 7), octet_string().subtype(subtypeSpec=value_size_constraint(0, 1))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralDialTerminator.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralDialTerminator.setDescription('Set global Dial Terminator')
hw_vo_general_call_start = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 8), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('fast', 1), ('normal', 2))).clone('fast')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralCallStart.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralCallStart.setDescription('Set the start mode of called over IP')
hw_vo_general_called_tunnel = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 9), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('enable', 1), ('disable', 2))).clone('enable')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralCalledTunnel.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralCalledTunnel.setDescription('Enable/disable Called tunnel function')
hw_vo_general_special_service_enable = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 10), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('enable', 1), ('disable', 2))).clone('disable')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralSpecialServiceEnable.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralSpecialServiceEnable.setDescription('This object sepcifies whether special service number function is enable or disable.')
hw_vo_general_call_transfer_special_service_number = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 11), octet_string().subtype(subtypeSpec=value_size_constraint(1, 12)).clone('*12*')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralCallTransferSpecialServiceNumber.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralCallTransferSpecialServiceNumber.setDescription('This object specifies the call-transfer special service number in talking.')
hw_vo_general_peer_search_stop = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 12), integer32().subtype(subtypeSpec=value_range_constraint(1, 200)).clone(200)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralPeerSearchStop.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralPeerSearchStop.setDescription('This object specifies the maximum in searching entities.')
hw_vo_general_peer_select_order_rule = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 13), integer32().subtype(subtypeSpec=value_range_constraint(0, 18))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralPeerSelectOrderRule.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralPeerSelectOrderRule.setDescription('This object specifies the rule order applied in voice entity selection. 0 --- explicit match, priority, random 1 --- explicit match, priority, longest no use 2 --- explicit match, longest no use, priority 3 --- explicit match, longest no use, random 4 --- priority, explicit match, random 5 --- priority, explicit match, longest no usep 6 --- riority, longest no use, explicit match 7 --- priority, longest no use, random 8 --- longest no use, explicit match, priority 9 --- longest no use, explicit match, random 10 --- longest no use, priority, explicit match 11 --- longest no use, priority, random 12 --- explicit match, random 13 --- priority, random 14 --- longest no use, random 15 --- explicit match 16 --- priority 17 --- random 18 --- longest no use ')
hw_vo_general_peer_select_type_priority = mib_scalar((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 1, 14), integer32().subtype(subtypeSpec=value_range_constraint(0, 6))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoGeneralPeerSelectTypePriority.setStatus('current')
if mibBuilder.loadTexts:
hwVoGeneralPeerSelectTypePriority.setDescription('This object specifies the priority-ranked type of voice entity. 1ST 2DN 3RD 0 --- NONE TYPE 1 --- VOIP POTS VOFR 2 --- VOIP VOFR POTS 3 --- POTS VOIP VOFR 4 --- POTS VOFR VOIP 5 --- VOFR POTS VOIP 6 --- VOFR POTS POTS ')
hw_vo_dial_expansion_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3))
if mibBuilder.loadTexts:
hwVoDialExpansionTable.setStatus('current')
if mibBuilder.loadTexts:
hwVoDialExpansionTable.setDescription('The table contains the information of the Dial Expansion Record .')
hw_vo_dial_expansion_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1)).setIndexNames((0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoDialExpansionType'), (0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoDialExpansionSource'))
if mibBuilder.loadTexts:
hwVoDialExpansionEntry.setStatus('current')
if mibBuilder.loadTexts:
hwVoDialExpansionEntry.setDescription('The information regarding a Dial Expansion Record.')
hw_vo_dial_expansion_type = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1, 1), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(0, 1))).clone(namedValues=named_values(('callin', 0), ('callout', 1)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoDialExpansionType.setStatus('current')
if mibBuilder.loadTexts:
hwVoDialExpansionType.setDescription('The call direction of the Dial Expansion. ')
hw_vo_dial_expansion_source = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1, 2), octet_string().subtype(subtypeSpec=value_size_constraint(1, 31))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoDialExpansionSource.setStatus('current')
if mibBuilder.loadTexts:
hwVoDialExpansionSource.setDescription('This source telephone of the Dial Expansion. ')
hw_vo_dial_expansion_target = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1, 3), octet_string().subtype(subtypeSpec=value_size_constraint(1, 31))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoDialExpansionTarget.setStatus('current')
if mibBuilder.loadTexts:
hwVoDialExpansionTarget.setDescription('This target telephone of the Dial Expansion. ')
hw_vo_dial_expansion_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 3, 1, 4), entry_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoDialExpansionRowStatus.setStatus('current')
if mibBuilder.loadTexts:
hwVoDialExpansionRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table. ')
hw_vo_lto_p_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2))
if mibBuilder.loadTexts:
hwVoLtoPTable.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPTable.setDescription('The table contains the relation information of Voice logic channel and voice physical channel.')
hw_vo_lto_p_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1)).setIndexNames((0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoLtoPChannel'))
if mibBuilder.loadTexts:
hwVoLtoPEntry.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPEntry.setDescription('The information regarding a single logic voice channel .')
hw_vo_lto_p_channel = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 1), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoLtoPChannel.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPChannel.setDescription('The number of this logic voice channel .')
hw_vo_lto_p_slot = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 2), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoLtoPSlot.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPSlot.setDescription('The physical slot number which this logic voice channel based on.')
hw_vo_lto_p_port = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 3), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoLtoPPort.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPPort.setDescription('The physical port number which this logic voice channel based on.')
hw_vo_lto_p_time_slot = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 4), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoLtoPTimeSlot.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPTimeSlot.setDescription("The timeslots map this logic channel is using . -1 represent this channel cann't be used by voice.")
hw_vo_lto_p_status = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 5), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('up', 1), ('down', 2)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoLtoPStatus.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPStatus.setDescription('The current status of the physical voice channel.')
hw_vo_lto_p_board_type = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 6), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12))).clone(namedValues=named_values(('fxs2', 1), ('fxo2', 2), ('em2', 3), ('fxs4', 4), ('fxo4', 5), ('em4', 6), ('e1vi', 7), ('t1vi', 8), ('sic-fxs1', 9), ('sic-fxo1', 10), ('sic-fxs2', 11), ('sic-fxo2', 12)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoLtoPBoardType.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPBoardType.setDescription('The board type of the physical voice channel.')
hw_vo_lto_p_port_number = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 7), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoLtoPPortNumber.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPPortNumber.setDescription("The global port number of the logic voice channel. -1 represent this channel cann't be used by voice.")
hw_vo_lto_p_group_number = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 2, 1, 8), integer32().subtype(subtypeSpec=constraints_union(value_range_constraint(-1, 30), value_range_constraint(255, 255)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoLtoPGroupNumber.setStatus('current')
if mibBuilder.loadTexts:
hwVoLtoPGroupNumber.setDescription("The global group number of the logic voice channel. . -1 represent this channel cann't be used by voice .")
hw_voice_number_subst_group = mib_identifier((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4))
hw_vo_num_subst_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1))
if mibBuilder.loadTexts:
hwVoNumSubstTable.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstTable.setDescription('The table is the number-substitute rule table. It contains the table index, dot match rule and the first rule tag that the rule is used firstly.')
hw_vo_num_subst_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1)).setIndexNames((0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoNumSubstIndex'))
if mibBuilder.loadTexts:
hwVoNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstEntry.setDescription('A number-substitute rule list. One entry per number-substite rule list.')
hw_vo_num_subst_index = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstIndex.setDescription('The index uniquely identifies a number-substitute rule list. It is valid if its value is between 1 and 2147483647.')
hw_vo_num_subst_first_rule = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1, 2), integer32().subtype(subtypeSpec=constraints_union(value_range_constraint(0, 127), value_range_constraint(65535, 65535))).clone(65535)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoNumSubstFirstRule.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstFirstRule.setDescription('This object specifies the first rule to be used firstly. It is valid if its value is between 0 and 127.')
hw_vo_num_subst_dot_match_rule = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1, 3), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2, 3))).clone(namedValues=named_values(('end-only', 1), ('left-right', 2), ('right-left', 3))).clone(1)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoNumSubstDotMatchRule.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstDotMatchRule.setDescription('This object specifies the dot wildcard match rule. end-only - only end of E.164 number (input format) left-right - match form left to right (input format) right-left - match form right to left (input format) ')
hw_vo_num_subst_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 1, 1, 4), entry_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hw_vo_num_subst_rule_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2))
if mibBuilder.loadTexts:
hwVoNumSubstRuleTable.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstRuleTable.setDescription('The table contains the number-substitute rule information that is used to create an rule row with an appropriate rule index.')
hw_vo_num_subst_rule_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1)).setIndexNames((0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoNumSubstIndex'), (0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoNumSubstRuleIndex'))
if mibBuilder.loadTexts:
hwVoNumSubstRuleEntry.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstRuleEntry.setDescription('A single number-substitute rule. One entry per number-substitute rule.')
hw_vo_num_subst_rule_index = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(0, 127))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoNumSubstRuleIndex.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstRuleIndex.setDescription('The index uniquely identifies a number-substitute rule. It is valid if its value is between 0 and 127.')
hw_vo_num_subst_rule_input_format = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1, 2), octet_string().subtype(subtypeSpec=value_size_constraint(1, 31))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoNumSubstRuleInputFormat.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstRuleInputFormat.setDescription('This object specifies the input match format that must be of the form ^(\\^)!(\\+)!([0-9ABCD.*%!#]+)(\\$)!$.')
hw_vo_num_subst_rule_output_format = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1, 3), octet_string().subtype(subtypeSpec=value_size_constraint(1, 31))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoNumSubstRuleOutputFormat.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstRuleOutputFormat.setDescription('This object specifies the output format that must be of the form ^[0-9#.]+$.')
hw_vo_num_subst_rule_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 4, 2, 1, 4), entry_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoNumSubstRuleRowStatus.setStatus('current')
if mibBuilder.loadTexts:
hwVoNumSubstRuleRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hw_vo_max_call_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5))
if mibBuilder.loadTexts:
hwVoMaxCallTable.setStatus('current')
if mibBuilder.loadTexts:
hwVoMaxCallTable.setDescription('The table stores The table stores the maximum number of allowed connections for a set of voice entities.')
hw_vo_max_call_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5, 1)).setIndexNames((0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoMaxCallTableIndex'))
if mibBuilder.loadTexts:
hwVoMaxCallEntry.setStatus('current')
if mibBuilder.loadTexts:
hwVoMaxCallEntry.setDescription('A single value of maximum call connections. One entry per maximum call connections.')
hw_vo_max_call_table_index = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoMaxCallTableIndex.setStatus('current')
if mibBuilder.loadTexts:
hwVoMaxCallTableIndex.setDescription('The index uniquely identifies a single maximum call value. It is valid if its value is between 1 and 2147483647.')
hw_vo_max_call_value = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(0, 120))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoMaxCallValue.setStatus('current')
if mibBuilder.loadTexts:
hwVoMaxCallValue.setDescription('This object specifies a single maximum call value. It is valid if its value is between 0 and 120.')
hw_vo_max_call_table_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 5, 1, 3), entry_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoMaxCallTableRowStatus.setStatus('current')
if mibBuilder.loadTexts:
hwVoMaxCallTableRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hw_vo_incoming_calling_num_subst_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 6))
if mibBuilder.loadTexts:
hwVoIncomingCallingNumSubstTable.setStatus('current')
if mibBuilder.loadTexts:
hwVoIncomingCallingNumSubstTable.setDescription('The table stores the number-substitute rule list tag that these number-substitute rule list will be used for incoming-call caller number.The table can hold max 32 rows.')
hw_vo_incoming_calling_num_subst_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 6, 1)).setIndexNames((0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoIncomingCallingNumSubstIndex'))
if mibBuilder.loadTexts:
hwVoIncomingCallingNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts:
hwVoIncomingCallingNumSubstEntry.setDescription('A number-substitute rule list tag. One entry per number-substite rule list tag.')
hw_vo_incoming_calling_num_subst_index = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 6, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoIncomingCallingNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts:
hwVoIncomingCallingNumSubstIndex.setDescription('This object specifies a number-substitute rule that apply caller number for incoming call. It is valid if its value is between 1 and 2147483647.')
hw_vo_incoming_calling_num_subst_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 6, 1, 2), entry_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoIncomingCallingNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts:
hwVoIncomingCallingNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hw_vo_incoming_called_num_subst_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 7))
if mibBuilder.loadTexts:
hwVoIncomingCalledNumSubstTable.setStatus('current')
if mibBuilder.loadTexts:
hwVoIncomingCalledNumSubstTable.setDescription('The table stores the number-substitute rule list tag that these number-substitute rule list will be used for incoming-call caller number.The table can hold max 32 rows.')
hw_vo_incoming_called_num_subst_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 7, 1)).setIndexNames((0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoIncomingCalledNumSubstIndex'))
if mibBuilder.loadTexts:
hwVoIncomingCalledNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts:
hwVoIncomingCalledNumSubstEntry.setDescription('A number-substitute rule list tag. One entry per number-substite rule list tag.')
hw_vo_incoming_called_num_subst_index = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 7, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoIncomingCalledNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts:
hwVoIncomingCalledNumSubstIndex.setDescription('This object specifies a number-substitute rule that apply caller number for incoming call. It is valid if its value is between 1 and 2147483647.')
hw_vo_incoming_called_num_subst_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 7, 1, 2), entry_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoIncomingCalledNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts:
hwVoIncomingCalledNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hw_vo_outgoing_calling_num_subst_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 8))
if mibBuilder.loadTexts:
hwVoOutgoingCallingNumSubstTable.setStatus('current')
if mibBuilder.loadTexts:
hwVoOutgoingCallingNumSubstTable.setDescription('The table stores the number-substitute rule list tag that these number-substitute rule list will be used for incoming-call caller number.The table can hold max 32 rows.')
hw_vo_outgoing_calling_num_subst_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 8, 1)).setIndexNames((0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoOutgoingCallingNumSubstIndex'))
if mibBuilder.loadTexts:
hwVoOutgoingCallingNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts:
hwVoOutgoingCallingNumSubstEntry.setDescription('A number-substitute rule list tag. One entry per number-substite rule list tag.')
hw_vo_outgoing_calling_num_subst_index = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 8, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoOutgoingCallingNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts:
hwVoOutgoingCallingNumSubstIndex.setDescription('This object specifies a number-substitute rule that apply caller number for incoming call. It is valid if its value is between 1 and 2147483647.')
hw_vo_outgoing_calling_num_subst_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 8, 1, 2), entry_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoOutgoingCallingNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts:
hwVoOutgoingCallingNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
hw_vo_outgoing_called_num_subst_table = mib_table((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 9))
if mibBuilder.loadTexts:
hwVoOutgoingCalledNumSubstTable.setStatus('current')
if mibBuilder.loadTexts:
hwVoOutgoingCalledNumSubstTable.setDescription('The table stores the number-substitute rule list tag that these number-substitute rule list will be used for incoming-call caller number.The table can hold max 32 rows.')
hw_vo_outgoing_called_num_subst_entry = mib_table_row((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 9, 1)).setIndexNames((0, 'HUAWEI-VO-GENERAL-MIB', 'hwVoOutgoingCalledNumSubstIndex'))
if mibBuilder.loadTexts:
hwVoOutgoingCalledNumSubstEntry.setStatus('current')
if mibBuilder.loadTexts:
hwVoOutgoingCalledNumSubstEntry.setDescription('A number-substitute rule list tag. One entry per number-substite rule list tag.')
hw_vo_outgoing_called_num_subst_index = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 9, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
hwVoOutgoingCalledNumSubstIndex.setStatus('current')
if mibBuilder.loadTexts:
hwVoOutgoingCalledNumSubstIndex.setDescription('This object specifies a number-substitute rule that apply caller number for incoming call. It is valid if its value is between 1 and 2147483647.')
hw_vo_outgoing_called_num_subst_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 2011, 5, 25, 1, 1, 1, 9, 1, 2), entry_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
hwVoOutgoingCalledNumSubstRowStatus.setStatus('current')
if mibBuilder.loadTexts:
hwVoOutgoingCalledNumSubstRowStatus.setDescription('This object is used to create a new row or modify or delete an existing row in this table.')
mibBuilder.exportSymbols('HUAWEI-VO-GENERAL-MIB', hwVoLtoPPort=hwVoLtoPPort, hwVoNumSubstIndex=hwVoNumSubstIndex, hwVoiceGeneralObjects=hwVoiceGeneralObjects, hwVoNumSubstRuleInputFormat=hwVoNumSubstRuleInputFormat, hwVoNumSubstTable=hwVoNumSubstTable, hwVoDialExpansionTarget=hwVoDialExpansionTarget, hwVoGeneralSendPerformance=hwVoGeneralSendPerformance, hwVoDialExpansionEntry=hwVoDialExpansionEntry, hwVoMaxCallEntry=hwVoMaxCallEntry, hwVoIncomingCalledNumSubstEntry=hwVoIncomingCalledNumSubstEntry, hwVoOutgoingCallingNumSubstTable=hwVoOutgoingCallingNumSubstTable, hwVoGeneralCallTransferSpecialServiceNumber=hwVoGeneralCallTransferSpecialServiceNumber, hwVoMaxCallTable=hwVoMaxCallTable, hwVoNumSubstRuleTable=hwVoNumSubstRuleTable, hwVoOutgoingCalledNumSubstIndex=hwVoOutgoingCalledNumSubstIndex, hwVoGeneralPacketPrecedence=hwVoGeneralPacketPrecedence, hwVoIncomingCallingNumSubstIndex=hwVoIncomingCallingNumSubstIndex, hwVoOutgoingCallingNumSubstEntry=hwVoOutgoingCallingNumSubstEntry, hwVoDialExpansionTable=hwVoDialExpansionTable, hwVoGeneralMatchPolicy=hwVoGeneralMatchPolicy, hwVoLtoPEntry=hwVoLtoPEntry, hwVoGeneralPeerSearchStop=hwVoGeneralPeerSearchStop, hwVoLtoPSlot=hwVoLtoPSlot, hwVoLtoPStatus=hwVoLtoPStatus, hwVoNumSubstRuleRowStatus=hwVoNumSubstRuleRowStatus, hwVoMaxCallValue=hwVoMaxCallValue, hwVoMaxCallTableRowStatus=hwVoMaxCallTableRowStatus, hwVoNumSubstEntry=hwVoNumSubstEntry, hwVoGeneralPeerSelectTypePriority=hwVoGeneralPeerSelectTypePriority, hwVoLtoPBoardType=hwVoLtoPBoardType, hwVoOutgoingCalledNumSubstRowStatus=hwVoOutgoingCalledNumSubstRowStatus, hwVoNumSubstRuleIndex=hwVoNumSubstRuleIndex, hwVoDialExpansionRowStatus=hwVoDialExpansionRowStatus, hwVoIncomingCallingNumSubstEntry=hwVoIncomingCallingNumSubstEntry, hwVoOutgoingCallingNumSubstRowStatus=hwVoOutgoingCallingNumSubstRowStatus, hwVoIncomingCallingNumSubstTable=hwVoIncomingCallingNumSubstTable, hwVoLtoPChannel=hwVoLtoPChannel, hwVoNumSubstRowStatus=hwVoNumSubstRowStatus, hwVoNumSubstDotMatchRule=hwVoNumSubstDotMatchRule, hwVoGeneralDialTerminator=hwVoGeneralDialTerminator, hwVoIncomingCallingNumSubstRowStatus=hwVoIncomingCallingNumSubstRowStatus, PYSNMP_MODULE_ID=hwVoiceGeneralMIB, hwVoOutgoingCalledNumSubstTable=hwVoOutgoingCalledNumSubstTable, hwVoGeneralPeerSelectOrderRule=hwVoGeneralPeerSelectOrderRule, hwVoGeneralCallStart=hwVoGeneralCallStart, hwVoLtoPPortNumber=hwVoLtoPPortNumber, hwVoGeneralCalledTunnel=hwVoGeneralCalledTunnel, hwVoGeneralJitterLen=hwVoGeneralJitterLen, hwVoGeneralReceivePerformance=hwVoGeneralReceivePerformance, hwVoDialExpansionType=hwVoDialExpansionType, hwVoLtoPGroupNumber=hwVoLtoPGroupNumber, hwVoiceNumberSubstGroup=hwVoiceNumberSubstGroup, hwVoIncomingCalledNumSubstTable=hwVoIncomingCalledNumSubstTable, hwVoIncomingCalledNumSubstIndex=hwVoIncomingCalledNumSubstIndex, hwVoNumSubstRuleEntry=hwVoNumSubstRuleEntry, hwVoiceGeneralGroup=hwVoiceGeneralGroup, hwVoNumSubstFirstRule=hwVoNumSubstFirstRule, hwVoIncomingCalledNumSubstRowStatus=hwVoIncomingCalledNumSubstRowStatus, hwVoMaxCallTableIndex=hwVoMaxCallTableIndex, hwVoDialExpansionSource=hwVoDialExpansionSource, hwVoLtoPTable=hwVoLtoPTable, hwVoGeneralDataStatistics=hwVoGeneralDataStatistics, hwVoNumSubstRuleOutputFormat=hwVoNumSubstRuleOutputFormat, hwVoGeneralSpecialServiceEnable=hwVoGeneralSpecialServiceEnable, hwVoOutgoingCalledNumSubstEntry=hwVoOutgoingCalledNumSubstEntry, hwVoLtoPTimeSlot=hwVoLtoPTimeSlot, EntryStatus=EntryStatus, hwVoOutgoingCallingNumSubstIndex=hwVoOutgoingCallingNumSubstIndex, hwVoiceGeneralMIB=hwVoiceGeneralMIB) |
class Solution:
def minPathSum(self, grid):
"""
:type grid: List[List[int]]
:rtype: int
"""
# DP problem
if not grid or not grid[0]:
return 0
dp = [grid[0][0]]
for num in grid[0][1:]:
dp.append(dp[-1] + num)
m, n = len(grid), len(grid[0])
for i in range(1, m):
temp = dp[:]
dp[0] += grid[i][0]
for j in range(1, n):
dp[j] = min(temp[j], dp[j - 1]) + grid[i][j]
return dp[-1] | class Solution:
def min_path_sum(self, grid):
"""
:type grid: List[List[int]]
:rtype: int
"""
if not grid or not grid[0]:
return 0
dp = [grid[0][0]]
for num in grid[0][1:]:
dp.append(dp[-1] + num)
(m, n) = (len(grid), len(grid[0]))
for i in range(1, m):
temp = dp[:]
dp[0] += grid[i][0]
for j in range(1, n):
dp[j] = min(temp[j], dp[j - 1]) + grid[i][j]
return dp[-1] |
#!/usr/bin/env python3
# Day 22: Subarray Sum Equals K
#
# Given an array of integers and an integer k, you need to find the total
# number of continuous subarrays whose sum equals to k.
class Solution:
def subarraySum(self, nums: [int], k: int) -> int:
count = 0
ways_to_sum = {}
current_sum = 0
for number in nums:
current_sum += number
if current_sum == k:
count += 1
if current_sum - k in ways_to_sum:
count += ways_to_sum[current_sum - k]
if current_sum not in ways_to_sum:
ways_to_sum[current_sum] = 1
else:
ways_to_sum[current_sum] += 1
return count
# Tests
assert Solution().subarraySum([1,1,1], 2) == 2
assert Solution().subarraySum([1,1], 2) == 1
assert Solution().subarraySum([1,1], 2) == 1
assert Solution().subarraySum([1], 2) == 0
assert Solution().subarraySum([1,2,3], 3) == 2
assert Solution().subarraySum([1,2,3,4,5], 3) == 2
assert Solution().subarraySum([1], 0) == 0
assert Solution().subarraySum([-1,-1,1], 0) == 1
| class Solution:
def subarray_sum(self, nums: [int], k: int) -> int:
count = 0
ways_to_sum = {}
current_sum = 0
for number in nums:
current_sum += number
if current_sum == k:
count += 1
if current_sum - k in ways_to_sum:
count += ways_to_sum[current_sum - k]
if current_sum not in ways_to_sum:
ways_to_sum[current_sum] = 1
else:
ways_to_sum[current_sum] += 1
return count
assert solution().subarraySum([1, 1, 1], 2) == 2
assert solution().subarraySum([1, 1], 2) == 1
assert solution().subarraySum([1, 1], 2) == 1
assert solution().subarraySum([1], 2) == 0
assert solution().subarraySum([1, 2, 3], 3) == 2
assert solution().subarraySum([1, 2, 3, 4, 5], 3) == 2
assert solution().subarraySum([1], 0) == 0
assert solution().subarraySum([-1, -1, 1], 0) == 1 |
class ListNode(object):
def __init__(self, x):
self.val = x
self.next = None
class Solution(object):
def reorderList(self, head):
"""
:type head: ListNode
:rtype: None Do not return anything, modify head in-place instead.
"""
if not head:
return
# find the mid point
slow = fast = head
while fast and fast.next:
slow = slow.next
fast = fast.next.next
# reverse the second half in-place
pre, node = None, slow
while node:
pre, node.next, node = node, pre, node.next
# Merge in-place; Note : the last node of "first" and "second" are the same
first, second = head, pre
while second.next:
first.next, first = second, first.next
second.next, second = first, second.next
return
| class Listnode(object):
def __init__(self, x):
self.val = x
self.next = None
class Solution(object):
def reorder_list(self, head):
"""
:type head: ListNode
:rtype: None Do not return anything, modify head in-place instead.
"""
if not head:
return
slow = fast = head
while fast and fast.next:
slow = slow.next
fast = fast.next.next
(pre, node) = (None, slow)
while node:
(pre, node.next, node) = (node, pre, node.next)
(first, second) = (head, pre)
while second.next:
(first.next, first) = (second, first.next)
(second.next, second) = (first, second.next)
return |
gamemat = [0] * 4
for i in range(4):
gamemat[i] = [0] * 4
player = 1
gameEnd = False
gameResult = None
def readInput(currentPlayer):
print("Player " + str(currentPlayer) + " (input x and y, seperated with a space): ", end = "")
try:
x,y = input().split()
x = int(x)
y = int(y)
except ValueError:
print("Invalid move")
readInput(currentPlayer)
return
if x >= 4 or y >= 4 or x <= 0 or y <= 0:
print("Invalid move")
readInput(currentPlayer)
return
if gamemat[x][y] != 0:
# Occupied
print("Invalid move")
readInput(currentPlayer)
return
else:
gamemat[x][y] = currentPlayer # 0 => blank / 1 => player 1 / 2 => player 2
global player
player = int(not bool(currentPlayer-1)) +1
print("player: " + str(player))
renderGamemat()
def printPos(x, y):
toPrint = None
if gamemat[x][y]:
toPrint = "X" if gamemat[x][y] == 1 else "O"
else:
toPrint = " "
return str(toPrint)
def renderGamemat():
print(" 1 | 2 | 3 => x-axis")
print(" -------------")
print(" 1 | " + printPos(1, 1) + " | " + printPos(2, 1) + " | " + printPos(3 ,1) + " |")
print(" -------------")
print(" 2 | " + printPos(1, 2) + " | " + printPos(2, 2) + " | " + printPos(3, 2) + " |")
print(" -------------")
print(" 3 | " + printPos(1, 3) + " | " + printPos(2, 3) + " | " + printPos(3, 3) + " |")
print(" |")
print("y-axis")
print()
def checkWiningConditions():
g = gamemat
# algorithm to be improved later :P
for i in range(1,4):
# check column
if(g[i][1] != 0 and g[i][1] == g[i][2] and g[i][2] == g[i][3] and g[i][1] == g[i][3]):
return g[i][1]
# check row
if(g[1][i] != 0 and g[1][i] == g[2][i] and g[2][i] == g[3][i] and g[1][i] == g[3][i]):
return g[1][i]
# check diagonal
if(g[1][1] != 0 and g[1][1] == g[2][2] and g[2][2] == g[3][3] and g[1][1] == g[3][3]):
return g[1][1]
if(g[1][3] != 0 and g[1][3] == g[2][2] and g[2][2] == g[3][1] and g[1][3] == g[3][1]):
return g[1][3]
return 0
def resetAllVar():
global gamemat, player, gameEnd, gameResult
gamemat = [0] * 4
for i in range(4):
gamemat[i] = [0] * 4
player = 1
gameEnd = False
gameResult = None
def gameInit():
resetAllVar()
gameEnd = False
while not gameEnd:
for i in range(5):
print()
renderGamemat()
readInput(player)
gameResult = checkWiningConditions()
if gameResult != 0:
gameEnd = True
# Game ends
print("Player " + str(gameResult) + " wins!")
print()
print("Do you want to play again? Yes/No/Y/N")
tmp = input().lower()
if tmp == "yes" or tmp == "y":
main()
return
else:
exit()
def main():
for i in range(10):
print()
print("Welcome to Tic Tac Toe")
print("This game needs 2 players")
print("Press enter to start!")
input()
gameInit()
main() | gamemat = [0] * 4
for i in range(4):
gamemat[i] = [0] * 4
player = 1
game_end = False
game_result = None
def read_input(currentPlayer):
print('Player ' + str(currentPlayer) + ' (input x and y, seperated with a space): ', end='')
try:
(x, y) = input().split()
x = int(x)
y = int(y)
except ValueError:
print('Invalid move')
read_input(currentPlayer)
return
if x >= 4 or y >= 4 or x <= 0 or (y <= 0):
print('Invalid move')
read_input(currentPlayer)
return
if gamemat[x][y] != 0:
print('Invalid move')
read_input(currentPlayer)
return
else:
gamemat[x][y] = currentPlayer
global player
player = int(not bool(currentPlayer - 1)) + 1
print('player: ' + str(player))
render_gamemat()
def print_pos(x, y):
to_print = None
if gamemat[x][y]:
to_print = 'X' if gamemat[x][y] == 1 else 'O'
else:
to_print = ' '
return str(toPrint)
def render_gamemat():
print(' 1 | 2 | 3 => x-axis')
print(' -------------')
print(' 1 | ' + print_pos(1, 1) + ' | ' + print_pos(2, 1) + ' | ' + print_pos(3, 1) + ' |')
print(' -------------')
print(' 2 | ' + print_pos(1, 2) + ' | ' + print_pos(2, 2) + ' | ' + print_pos(3, 2) + ' |')
print(' -------------')
print(' 3 | ' + print_pos(1, 3) + ' | ' + print_pos(2, 3) + ' | ' + print_pos(3, 3) + ' |')
print(' |')
print('y-axis')
print()
def check_wining_conditions():
g = gamemat
for i in range(1, 4):
if g[i][1] != 0 and g[i][1] == g[i][2] and (g[i][2] == g[i][3]) and (g[i][1] == g[i][3]):
return g[i][1]
if g[1][i] != 0 and g[1][i] == g[2][i] and (g[2][i] == g[3][i]) and (g[1][i] == g[3][i]):
return g[1][i]
if g[1][1] != 0 and g[1][1] == g[2][2] and (g[2][2] == g[3][3]) and (g[1][1] == g[3][3]):
return g[1][1]
if g[1][3] != 0 and g[1][3] == g[2][2] and (g[2][2] == g[3][1]) and (g[1][3] == g[3][1]):
return g[1][3]
return 0
def reset_all_var():
global gamemat, player, gameEnd, gameResult
gamemat = [0] * 4
for i in range(4):
gamemat[i] = [0] * 4
player = 1
game_end = False
game_result = None
def game_init():
reset_all_var()
game_end = False
while not gameEnd:
for i in range(5):
print()
render_gamemat()
read_input(player)
game_result = check_wining_conditions()
if gameResult != 0:
game_end = True
print('Player ' + str(gameResult) + ' wins!')
print()
print('Do you want to play again? Yes/No/Y/N')
tmp = input().lower()
if tmp == 'yes' or tmp == 'y':
main()
return
else:
exit()
def main():
for i in range(10):
print()
print('Welcome to Tic Tac Toe')
print('This game needs 2 players')
print('Press enter to start!')
input()
game_init()
main() |
##
# check_if_correct:
#
def check_if_correct():
'''
@summary reusable while loop to check if alarm time is correct
@desc Infinitely loops as long as the user does not input a "Y" or "N"
@author Brandon Benefield
@since v1.0.0
@param {void}
@return {void}
'''
acceptable = False
while not acceptable:
alarm_accepted = input('Do you confirm? [Y/N]: ').lower()
if alarm_accepted == 'y' or alarm_accepted == 'n':
return alarm_accepted
| def check_if_correct():
"""
@summary reusable while loop to check if alarm time is correct
@desc Infinitely loops as long as the user does not input a "Y" or "N"
@author Brandon Benefield
@since v1.0.0
@param {void}
@return {void}
"""
acceptable = False
while not acceptable:
alarm_accepted = input('Do you confirm? [Y/N]: ').lower()
if alarm_accepted == 'y' or alarm_accepted == 'n':
return alarm_accepted |
# python3: CircuitPython 3.0
# Author: Gregory P. Smith (@gpshead) <greg@krypto.org>
#
# Copyright 2018 Google LLC
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""A monochrome bitmap to represent display frame buffers."""
class MonoBitmap:
"""A monochrome bitmap stored compactly.
Attributes:
bit_buf: The raw bitmap buffer bytearray. Do not resize!
width: The width. Do not modify.
height: The height. Do not modify.
Usage:
hidden_cat = MonoBitmap(204, 112)
hidden_cat.set_pixel(42, 23, 0)
epd.display_frame_buf(hidden_cat.bit_buf)
"""
def __init__(self, width, height):
self.width = width
self.height = height
self.bit_buf = bytearray(width * height // 8)
def set_pixel(self, x: int, y: int, value: bool) -> None:
#assert self.width > x >= 0
#assert self.height > y >= 0
binary_idx = self.width * y + x
#byte_idx, bit_no = divmod(binary_idx, 8)
#bit_no = 7 - bit_no # The EPD's bit order.
byte_idx = binary_idx >> 3
bit_no = 7 - (binary_idx & 7)
if value:
self.bit_buf[byte_idx] |= (1 << bit_no)
else:
self.bit_buf[byte_idx] &= ~(1 << bit_no)
| """A monochrome bitmap to represent display frame buffers."""
class Monobitmap:
"""A monochrome bitmap stored compactly.
Attributes:
bit_buf: The raw bitmap buffer bytearray. Do not resize!
width: The width. Do not modify.
height: The height. Do not modify.
Usage:
hidden_cat = MonoBitmap(204, 112)
hidden_cat.set_pixel(42, 23, 0)
epd.display_frame_buf(hidden_cat.bit_buf)
"""
def __init__(self, width, height):
self.width = width
self.height = height
self.bit_buf = bytearray(width * height // 8)
def set_pixel(self, x: int, y: int, value: bool) -> None:
binary_idx = self.width * y + x
byte_idx = binary_idx >> 3
bit_no = 7 - (binary_idx & 7)
if value:
self.bit_buf[byte_idx] |= 1 << bit_no
else:
self.bit_buf[byte_idx] &= ~(1 << bit_no) |
class Suggestion:
"""
Object containing the data to suggest
"""
def __init__(
self, email_address, name, content,
):
self.email_address = email_address
self.name = name
self.content = content
def __hash__(self):
return hash((self.email_address, self.name, self.content,))
def __eq__(self, other):
return (
self.email_address == other.email_address
and self.name == other.name
and self.content == other.content
)
def __repr__(self):
return f"Suggestion({self.email_address}, {self.name}, {self.content})"
class SuggestionSent:
"""
Object containing the suggestion sent
"""
def __init__(
self, success, status,
):
self.success = success
self.status = status
def __hash__(self):
return hash((self.success, self.status,))
def __eq__(self, other):
return self.success == other.success and self.status == other.status
def __repr__(self):
return f"SuggestionSent({self.success}, {self.status})"
| class Suggestion:
"""
Object containing the data to suggest
"""
def __init__(self, email_address, name, content):
self.email_address = email_address
self.name = name
self.content = content
def __hash__(self):
return hash((self.email_address, self.name, self.content))
def __eq__(self, other):
return self.email_address == other.email_address and self.name == other.name and (self.content == other.content)
def __repr__(self):
return f'Suggestion({self.email_address}, {self.name}, {self.content})'
class Suggestionsent:
"""
Object containing the suggestion sent
"""
def __init__(self, success, status):
self.success = success
self.status = status
def __hash__(self):
return hash((self.success, self.status))
def __eq__(self, other):
return self.success == other.success and self.status == other.status
def __repr__(self):
return f'SuggestionSent({self.success}, {self.status})' |
# coding: utf-8
__author__ = 'deff'
# Andoid-afl.https://github.com/ele7enxxh/android-afl
# Fuzzing with libFuzzer.
# Droid: Android application fuzzing framework.https://github.com/ajinabraham/Droid-Application-Fuzz-Framework
# Writing the worlds worst Android fuzzer, and then improving it, by Gamozo 2018.
# Fuzzing Android: a recipe for uncovering vulnerabilities inside system components in Android, by Alexandru Blanda (BlackHat'15).
# DoApp (Denial of App): A smart Android Fuzzer for the future.http://www.iswatlab.eu/security-projects/doapp-denial-of-app-a-smart-android-fuzzer-for-the-future/
# Droid-FF.https://github.com/antojoseph/droid-ff
| __author__ = 'deff' |
def pig_latin(text_input):
final = "" # create final string, couples, and split text_input
couples = ['bl', 'br', 'ch', 'cl', 'cr', 'dr', 'fl', 'fr', 'gh', 'gl',
'gr', 'ph', 'pl', 'pr', 'qu', 'sh', 'sk', 'sl', 'sm', 'sn',
'sp', 'st', 'sw', 'th', 'tr', 'tw', 'wh', 'wr']
split_text = text_input.strip().lower().split()
for i in range(len(split_text)): # test for symbols and numbers
if not split_text[i].isalpha():
return "Invalid."
for i in range(len(split_text)): # test passed, convert to pig latin
word = split_text[i]
if word[0] in 'aeiou': # vowel rule
if i == 0:
final += word.title()
else:
final += word
elif word[0:2] in couples: # first two letters rule
if i == 0:
final += word[2:].title()
else:
final += word[2:]
final += word[0:2]
else: # regular rule
if i == 0:
final += word[1:].title()
else:
final += word[1:]
final += word[0]
final += 'ay ' # add 'ay'
return final.strip()
if __name__ == '__main__':
text = input("Give words: ")
print(pig_latin(text))
| def pig_latin(text_input):
final = ''
couples = ['bl', 'br', 'ch', 'cl', 'cr', 'dr', 'fl', 'fr', 'gh', 'gl', 'gr', 'ph', 'pl', 'pr', 'qu', 'sh', 'sk', 'sl', 'sm', 'sn', 'sp', 'st', 'sw', 'th', 'tr', 'tw', 'wh', 'wr']
split_text = text_input.strip().lower().split()
for i in range(len(split_text)):
if not split_text[i].isalpha():
return 'Invalid.'
for i in range(len(split_text)):
word = split_text[i]
if word[0] in 'aeiou':
if i == 0:
final += word.title()
else:
final += word
elif word[0:2] in couples:
if i == 0:
final += word[2:].title()
else:
final += word[2:]
final += word[0:2]
else:
if i == 0:
final += word[1:].title()
else:
final += word[1:]
final += word[0]
final += 'ay '
return final.strip()
if __name__ == '__main__':
text = input('Give words: ')
print(pig_latin(text)) |
lista = [1, 3, 5, 7]
lista_animal = ['cachorro', 'gato', 'elefante']
print(lista)
print(lista_animal[1])
#Resultado: gato
for x in lista_animal:
print(x)
| lista = [1, 3, 5, 7]
lista_animal = ['cachorro', 'gato', 'elefante']
print(lista)
print(lista_animal[1])
for x in lista_animal:
print(x) |
def add(x, y):
'''Add two given numbers together '''
return x+y
def subtract(x, y):
''' function to substrct x from y and return the remaining value'''
return y - x | def add(x, y):
"""Add two given numbers together """
return x + y
def subtract(x, y):
""" function to substrct x from y and return the remaining value"""
return y - x |
# https://leetcode.com/problems/verifying-an-alien-dictionary/
class Solution:
def isAlienSorted(self, words: [str], order: str) -> bool:
m = {}
for i, o in enumerate(order):
m[o] = i
def is_sorted(w1, w2):
for c1, c2 in zip(w1, w2):
if m[c1] == m[c2]:
continue
return m[c1] < m[c2]
return len(w1) <= len(w2)
for i in range(len(words) - 1):
w1 = words[i]
w2 = words[i + 1]
if not is_sorted(w1, w2):
return False
return True
| class Solution:
def is_alien_sorted(self, words: [str], order: str) -> bool:
m = {}
for (i, o) in enumerate(order):
m[o] = i
def is_sorted(w1, w2):
for (c1, c2) in zip(w1, w2):
if m[c1] == m[c2]:
continue
return m[c1] < m[c2]
return len(w1) <= len(w2)
for i in range(len(words) - 1):
w1 = words[i]
w2 = words[i + 1]
if not is_sorted(w1, w2):
return False
return True |
# Character Picture Grid Practice Project
# Chapter 4 - Lists (Automate the Boring Stuff with Python)
# Developer: Valeriy B.
def picture_grid(grid):
# Creating result list
resulted_list = []
# Looping through grid columns
for column in range(len(grid[0])):
# Creating row string
row_grid = ""
# Looping through grid rows
for row in range(len(grid)):
row_grid += grid[row][column]
resulted_list.append(row_grid + "\n")
print("".join(resulted_list)[:-1])
grid = [[".", ".", ".", ".", ".", "."],
[".", "0", "0", ".", ".", "."],
["0", "0", "0", "0", ".", "."],
["0", "0", "0", "0", "0", "."],
[".", "0", "0", "0", "0", "0",],
["0", "0", "0", "0", "0", "."],
["0", "0", "0", "0", ".", "."],
[".", "0", "0", ".", ".", "."],
[".", ".", ".", ".", ".", "."]]
picture_grid(grid) | def picture_grid(grid):
resulted_list = []
for column in range(len(grid[0])):
row_grid = ''
for row in range(len(grid)):
row_grid += grid[row][column]
resulted_list.append(row_grid + '\n')
print(''.join(resulted_list)[:-1])
grid = [['.', '.', '.', '.', '.', '.'], ['.', '0', '0', '.', '.', '.'], ['0', '0', '0', '0', '.', '.'], ['0', '0', '0', '0', '0', '.'], ['.', '0', '0', '0', '0', '0'], ['0', '0', '0', '0', '0', '.'], ['0', '0', '0', '0', '.', '.'], ['.', '0', '0', '.', '.', '.'], ['.', '.', '.', '.', '.', '.']]
picture_grid(grid) |
def index(query):
query = query.strip("/")
fd = open("css/" + query, "r")
return fd.read()
| def index(query):
query = query.strip('/')
fd = open('css/' + query, 'r')
return fd.read() |
"""
Implementation of Array from the ground up. We have lists in python that compares to an array data structure and should
be used instead of building an array data structure from scratch.
"""
class Array:
# __init__ is a special method called whenever you try to make
# an instance of a class. As you heard, it initializes the object.
def __init__(self):
self.length = 0 # Initialize the length of the array
self.data = {} # Initialize the data dictionary which will hold the indexes and the strings
# This method is customization of the string representation of an instance of a class.
def __str__(self):
return str(self.__dict__)
# This method returns the string corresponding to a given index.
def get(self, index):
return self.data[index] # O(1)
# This method adds a value at the end of the array.
def push(self, item):
self.data[self.length] = item # Add item to the end. O(1)
self.length += 1 # Increases array size by 1
# This method removes the last added item.
def pop(self):
last_item = self.data[self.length-1] # Stores value of last item.
del self.data[self.length-1] # Deletes the item at the end. O(1)
self.length -= 1 # Decreases array size by 1.
return last_item # Return deleted item.
# This method inserts an item at a specified index.
def insert(self, index, item):
self.length += 1 # Increases array length by 1.
self.shift_items(index, 'Insert') # Calls shift_items method to move all the elements. O(n)
self.data[index] = item # Insert the item.
return item
# This method deletes an item at a specified index.
def delete(self, index):
deleted_item = self.data[index] # Stores deleted item value.
self.shift_items(index, 'Delete') # Calls shift_items method to move all the elements. O(n)
del self.data[self.length - 1] # Deletes item at the end.
self.length -= 1 # Decreases array size by 1.
return deleted_item # Returns deleted item.
# This method shifts items to the right or to the left based on the method calling it to insert or delete an item
# respectively.
def shift_items(self, index, flag):
# If flag is 'Insert' the loop moves the items to the right starting from the end of the array until it reaches
# the index position. O(n)
if flag == 'Insert':
for i in reversed(range(index, self.length)):
self.data[i] = self.data[i - 1]
# If flag is 'Delete' the loop moves the items to the left starting from the index position until it reaches
# to the end of the array. O(n)
elif flag == 'Delete':
for i in range(index, self.length-1):
self.data[i] = self.data[i+1]
# Declaration
arr = Array()
arr.push('hi')
arr.push('how')
arr.push('you')
arr.push('doing')
arr.pop()
arr.delete(2)
arr.insert(2, 'me')
arr.insert(3, 'and you')
print(arr)
| """
Implementation of Array from the ground up. We have lists in python that compares to an array data structure and should
be used instead of building an array data structure from scratch.
"""
class Array:
def __init__(self):
self.length = 0
self.data = {}
def __str__(self):
return str(self.__dict__)
def get(self, index):
return self.data[index]
def push(self, item):
self.data[self.length] = item
self.length += 1
def pop(self):
last_item = self.data[self.length - 1]
del self.data[self.length - 1]
self.length -= 1
return last_item
def insert(self, index, item):
self.length += 1
self.shift_items(index, 'Insert')
self.data[index] = item
return item
def delete(self, index):
deleted_item = self.data[index]
self.shift_items(index, 'Delete')
del self.data[self.length - 1]
self.length -= 1
return deleted_item
def shift_items(self, index, flag):
if flag == 'Insert':
for i in reversed(range(index, self.length)):
self.data[i] = self.data[i - 1]
elif flag == 'Delete':
for i in range(index, self.length - 1):
self.data[i] = self.data[i + 1]
arr = array()
arr.push('hi')
arr.push('how')
arr.push('you')
arr.push('doing')
arr.pop()
arr.delete(2)
arr.insert(2, 'me')
arr.insert(3, 'and you')
print(arr) |
"""
Given a string s of lower and upper case English letters.
A good string is a string which doesn't have two adjacent characters s[i]
and s[i + 1] where:
- 0 <= i <= s.length - 2
- s[i] is a lower-case letter and s[i + 1] is the same letter but in
upper-case or vice-versa.
To make the string good, you can choose two adjacent characters that make
the string bad and remove them. You can keep doing this until the string
becomes good.
Return the string after making it good. The answer is guaranteed to be
unique under the given constraints.
Notice that an empty string is also good.
Example:
Input: s = "leEeetcode"
Output: "leetcode"
Explanation: In the first step, either you choose i = 1 or i = 2, both will
result "leEeetcode" to be reduced to "leetcode".
Example:
Input: s = "abBAcC"
Output: ""
Explanation: We have many possible scenarios, and all lead to the same
answer. For example:
"abBAcC" --> "aAcC" --> "cC" --> ""
"abBAcC" --> "abBA" --> "aA" --> ""
Example:
Input: s = "s"
Output: "s"
Constraints:
- 1 <= s.length <= 100
- s contains only lower and upper case English letters.
"""
#Difficulty: Easy
#334 / 334 test cases passed.
#Runtime: 32 ms
#Memory Usage: 13.8 MB
#Runtime: 32 ms, faster than 90.67% of Python3 online submissions for Make The String Great.
#Memory Usage: 13.8 MB, less than 76.77% of Python3 online submissions for Make The String Great.
class Solution:
def makeGood(self, s: str) -> str:
stack = []
for c in s:
if c.islower():
if stack and stack[-1] != c.upper():
stack.append(c)
elif stack and stack[-1] == c.upper():
stack.pop()
else:
stack.append(c)
elif c.isupper():
if stack and stack[-1] != c.lower():
stack.append(c)
elif stack and stack[-1] == c.lower():
stack.pop()
else:
stack.append(c)
return ''.join(stack)
| """
Given a string s of lower and upper case English letters.
A good string is a string which doesn't have two adjacent characters s[i]
and s[i + 1] where:
- 0 <= i <= s.length - 2
- s[i] is a lower-case letter and s[i + 1] is the same letter but in
upper-case or vice-versa.
To make the string good, you can choose two adjacent characters that make
the string bad and remove them. You can keep doing this until the string
becomes good.
Return the string after making it good. The answer is guaranteed to be
unique under the given constraints.
Notice that an empty string is also good.
Example:
Input: s = "leEeetcode"
Output: "leetcode"
Explanation: In the first step, either you choose i = 1 or i = 2, both will
result "leEeetcode" to be reduced to "leetcode".
Example:
Input: s = "abBAcC"
Output: ""
Explanation: We have many possible scenarios, and all lead to the same
answer. For example:
"abBAcC" --> "aAcC" --> "cC" --> ""
"abBAcC" --> "abBA" --> "aA" --> ""
Example:
Input: s = "s"
Output: "s"
Constraints:
- 1 <= s.length <= 100
- s contains only lower and upper case English letters.
"""
class Solution:
def make_good(self, s: str) -> str:
stack = []
for c in s:
if c.islower():
if stack and stack[-1] != c.upper():
stack.append(c)
elif stack and stack[-1] == c.upper():
stack.pop()
else:
stack.append(c)
elif c.isupper():
if stack and stack[-1] != c.lower():
stack.append(c)
elif stack and stack[-1] == c.lower():
stack.pop()
else:
stack.append(c)
return ''.join(stack) |
"""A number of dictionaries that map IDs to a label.
"""
# Maps Device EUI to a Label
dev_lbls = dict(
A81758FFFE0523DB = 'Tyler ELT-Lite 23DB',
A81758FFFE05368E = '122 N Bliss',
A81758FFFE05368F = '122 N Bliss Unit',
A81758FFFE05569F = '3414 E 16th',
A81758FFFE0556A0 = '3424 E 18th',
A81758FFFE05569D = '3148 E. 19th',
A81758FFFE05569E = '1826 Columbine',
A81758FFFE0536AB = '3136 E 17th',
A81758FFFE053690 = 'PH 3690',
A81758FFFE05661C = 'PH 661C',
A81758FFFE05661D = 'Alan ELTLite 661D',
A8404173E1822CA4 = 'Alan LHT65 2CA4',
A81758FFFE04259E = 'Alan ERS 259E',
A8404137B182428E = 'Phil LT22222 428E',
A840417F8182436E = 'Phil Boat 436E',
A81758FFFE053692 = 'Phil ELT-2 3692',
A81758FFFE0526D8 = 'Phil CO2 26D8',
A81758FFFE053691 = 'Peter ELT-2 3691',
A8404175D1822CA7 = 'Peter LHT65 2CA7',
)
# Maps Device ID to Label
dev_id_lbls = {
'elt-ahfc-stick-23db': 'Tyler ELT-Lite Stick 23DB',
'boat-lt2-a840417f8182436e': 'Phil Boat 436E',
'boat-lt2-a725': 'Charming Elsa Boat',
'boat-lt2-phoenix-swd': 'Phoenix Boat',
'e5-test-4b8e': 'E5 Mini Board',
'eltlite-scott-6632': 'Scott Water Well 6632',
'boat-lt2-a8404137b182428e': 'Phil LT22222 428E',
'ers-a81758fffe04259e': 'Alan ERS 259E',
'ersco2-a81758fffe0526d8': 'Phil CO2 26D8',
'elt-2-a81758fffe053692': 'Phil ELT-2 3692',
'lht65-a8404173e1822ca4': 'Alan LHT65 2CA4',
'boat-lt2-a84041552182436a': 'Audacity Boat 436A',
'lht65-a8404175d1822ca7': 'Peter LHT65 2CA7',
'boat-lt2-a84041599182436c': 'Starr Boat 436C',
'erslite-a81758fffe05569d': '3148 E 19th, Anc',
'erslite-a81758fffe05569f': '3414 E 16th, Anc',
'erslite-a81758fffe0556a0': '3424 E 18th, Anc',
'erslite-a81758fffe05569e': '1826 Columbine, Anc',
'elt2-a81758fffe05368e': '122 N Bliss',
'elt2-a81758fffe05368f': '122 N Bliss Unit',
}
# Maps Gateway IDs to a Label
gtw_lbls = {
'eui-00800000a00034ed': 'Kasilof',
'eui-3235313227006100': 'Abbot/Elmore',
'eui-323531322b004500': 'Intl/C St',
'eui-58a0cbfffe800baf': 'SEED Lab',
'eui-58a0cbfffe8015fd': 'Tyler Indoor',
'eui-a840411d91b44150': 'Alan Outdoor',
'eui-c0ee40ffff293d87': 'Laird',
'kl4qh-mtcdt3': 'ANMC',
'eui-24e124fffef06f56': 'Old Swd/Tudor',
'eui-000080029c2b2b77': 'Bear Valley',
'eui-a84041ffff1ee2b4': 'Tyler Outdoor',
'eui-a840411eed744150': 'Phil Home',
'eui-58a0cbfffe802c68': "Altermatt TIG",
'eui-58a0cbfffe80326e': 'Phil TIG',
'eui-a84041ffff1eb500': 'AHFC HQ Outdoor',
'eui-a840411eb4084150': 'Alan LIG16 #2',
}
| """A number of dictionaries that map IDs to a label.
"""
dev_lbls = dict(A81758FFFE0523DB='Tyler ELT-Lite 23DB', A81758FFFE05368E='122 N Bliss', A81758FFFE05368F='122 N Bliss Unit', A81758FFFE05569F='3414 E 16th', A81758FFFE0556A0='3424 E 18th', A81758FFFE05569D='3148 E. 19th', A81758FFFE05569E='1826 Columbine', A81758FFFE0536AB='3136 E 17th', A81758FFFE053690='PH 3690', A81758FFFE05661C='PH 661C', A81758FFFE05661D='Alan ELTLite 661D', A8404173E1822CA4='Alan LHT65 2CA4', A81758FFFE04259E='Alan ERS 259E', A8404137B182428E='Phil LT22222 428E', A840417F8182436E='Phil Boat 436E', A81758FFFE053692='Phil ELT-2 3692', A81758FFFE0526D8='Phil CO2 26D8', A81758FFFE053691='Peter ELT-2 3691', A8404175D1822CA7='Peter LHT65 2CA7')
dev_id_lbls = {'elt-ahfc-stick-23db': 'Tyler ELT-Lite Stick 23DB', 'boat-lt2-a840417f8182436e': 'Phil Boat 436E', 'boat-lt2-a725': 'Charming Elsa Boat', 'boat-lt2-phoenix-swd': 'Phoenix Boat', 'e5-test-4b8e': 'E5 Mini Board', 'eltlite-scott-6632': 'Scott Water Well 6632', 'boat-lt2-a8404137b182428e': 'Phil LT22222 428E', 'ers-a81758fffe04259e': 'Alan ERS 259E', 'ersco2-a81758fffe0526d8': 'Phil CO2 26D8', 'elt-2-a81758fffe053692': 'Phil ELT-2 3692', 'lht65-a8404173e1822ca4': 'Alan LHT65 2CA4', 'boat-lt2-a84041552182436a': 'Audacity Boat 436A', 'lht65-a8404175d1822ca7': 'Peter LHT65 2CA7', 'boat-lt2-a84041599182436c': 'Starr Boat 436C', 'erslite-a81758fffe05569d': '3148 E 19th, Anc', 'erslite-a81758fffe05569f': '3414 E 16th, Anc', 'erslite-a81758fffe0556a0': '3424 E 18th, Anc', 'erslite-a81758fffe05569e': '1826 Columbine, Anc', 'elt2-a81758fffe05368e': '122 N Bliss', 'elt2-a81758fffe05368f': '122 N Bliss Unit'}
gtw_lbls = {'eui-00800000a00034ed': 'Kasilof', 'eui-3235313227006100': 'Abbot/Elmore', 'eui-323531322b004500': 'Intl/C St', 'eui-58a0cbfffe800baf': 'SEED Lab', 'eui-58a0cbfffe8015fd': 'Tyler Indoor', 'eui-a840411d91b44150': 'Alan Outdoor', 'eui-c0ee40ffff293d87': 'Laird', 'kl4qh-mtcdt3': 'ANMC', 'eui-24e124fffef06f56': 'Old Swd/Tudor', 'eui-000080029c2b2b77': 'Bear Valley', 'eui-a84041ffff1ee2b4': 'Tyler Outdoor', 'eui-a840411eed744150': 'Phil Home', 'eui-58a0cbfffe802c68': 'Altermatt TIG', 'eui-58a0cbfffe80326e': 'Phil TIG', 'eui-a84041ffff1eb500': 'AHFC HQ Outdoor', 'eui-a840411eb4084150': 'Alan LIG16 #2'} |
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