##// END OF EJS Templates
fix bug in stale profile clean up for clusters...
fix bug in stale profile clean up for clusters "clusters" tab of my notebook wasn't rendering, so checked the log, found the stack trace: ``` [...] File "/usr/local/lib/python3.4/site-packages/ipython-3.0.0-py3.4.egg/IPython/html/services/clusters/handlers.py", line 21, in get self.finish(json.dumps(self.cluster_manager.list_profiles())) File "/usr/local/lib/python3.4/site-packages/ipython-3.0.0-py3.4.egg/IPython/html/services/clusters/clustermanager.py", line 77, in list_profiles self.update_profiles() File "/usr/local/lib/python3.4/site-packages/ipython-3.0.0-py3.4.egg/IPython/html/services/clusters/clustermanager.py", line 74, in update_profiles self.profiles.pop(stale) TypeError: unhashable type: 'set' ``` looks like a pretty straightforward mistake

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widget_int.py
198 lines | 7.6 KiB | text/x-python | PythonLexer
"""Int class.
Represents an unbounded int using a widget.
"""
# Copyright (c) IPython Development Team.
# Distributed under the terms of the Modified BSD License.
from .widget import DOMWidget, register
from .trait_types import Color
from IPython.utils.traitlets import (Unicode, CInt, Bool, CaselessStrEnum,
Tuple, TraitError)
from .deprecated import DeprecatedClass
class _Int(DOMWidget):
"""Base class used to create widgets that represent an int."""
value = CInt(0, help="Int value", sync=True)
disabled = Bool(False, help="Enable or disable user changes", sync=True)
description = Unicode(help="Description of the value this widget represents", sync=True)
def __init__(self, value=None, **kwargs):
if value is not None:
kwargs['value'] = value
super(_Int, self).__init__(**kwargs)
class _BoundedInt(_Int):
"""Base class used to create widgets that represent a int that is bounded
by a minium and maximum."""
step = CInt(1, help="Minimum step to increment the value (ignored by some views)", sync=True)
max = CInt(100, help="Max value", sync=True)
min = CInt(0, help="Min value", sync=True)
def __init__(self, *pargs, **kwargs):
"""Constructor"""
super(_BoundedInt, self).__init__(*pargs, **kwargs)
def _value_validate(self, value, trait):
"""Cap and floor value"""
if self.min > value or self.max < value:
value = min(max(value, self.min), self.max)
return value
def _min_validate(self, min, trait):
"""Enforce min <= value <= max"""
if min > self.max:
raise TraitError("Setting min > max")
if min > self.value:
self.value = min
return min
def _max_validate(self, max, trait):
"""Enforce min <= value <= max"""
if max < self.min:
raise TraitError("setting max < min")
if max < self.value:
self.value = max
return max
@register('IPython.IntText')
class IntText(_Int):
"""Textbox widget that represents a int."""
_view_name = Unicode('IntTextView', sync=True)
@register('IPython.BoundedIntText')
class BoundedIntText(_BoundedInt):
"""Textbox widget that represents a int bounded by a minimum and maximum value."""
_view_name = Unicode('IntTextView', sync=True)
@register('IPython.IntSlider')
class IntSlider(_BoundedInt):
"""Slider widget that represents a int bounded by a minimum and maximum value."""
_view_name = Unicode('IntSliderView', sync=True)
orientation = CaselessStrEnum(values=['horizontal', 'vertical'],
default_value='horizontal', help="Vertical or horizontal.", sync=True)
_range = Bool(False, help="Display a range selector", sync=True)
readout = Bool(True, help="Display the current value of the slider next to it.", sync=True)
slider_color = Color(None, allow_none=True, sync=True)
@register('IPython.IntProgress')
class IntProgress(_BoundedInt):
"""Progress bar that represents a int bounded by a minimum and maximum value."""
_view_name = Unicode('ProgressView', sync=True)
bar_style = CaselessStrEnum(
values=['success', 'info', 'warning', 'danger', ''],
default_value='', allow_none=True, sync=True, help="""Use a
predefined styling for the progess bar.""")
class _IntRange(_Int):
value = Tuple(CInt, CInt, default_value=(0, 1), help="Tuple of (lower, upper) bounds", sync=True)
lower = CInt(0, help="Lower bound", sync=False)
upper = CInt(1, help="Upper bound", sync=False)
def __init__(self, *pargs, **kwargs):
value_given = 'value' in kwargs
lower_given = 'lower' in kwargs
upper_given = 'upper' in kwargs
if value_given and (lower_given or upper_given):
raise ValueError("Cannot specify both 'value' and 'lower'/'upper' for range widget")
if lower_given != upper_given:
raise ValueError("Must specify both 'lower' and 'upper' for range widget")
super(_IntRange, self).__init__(*pargs, **kwargs)
# ensure the traits match, preferring whichever (if any) was given in kwargs
if value_given:
self.lower, self.upper = self.value
else:
self.value = (self.lower, self.upper)
self.on_trait_change(self._validate, ['value', 'upper', 'lower'])
def _validate(self, name, old, new):
if name == 'value':
self.lower, self.upper = min(new), max(new)
elif name == 'lower':
self.value = (new, self.value[1])
elif name == 'upper':
self.value = (self.value[0], new)
class _BoundedIntRange(_IntRange):
step = CInt(1, help="Minimum step that the value can take (ignored by some views)", sync=True)
max = CInt(100, help="Max value", sync=True)
min = CInt(0, help="Min value", sync=True)
def __init__(self, *pargs, **kwargs):
any_value_given = 'value' in kwargs or 'upper' in kwargs or 'lower' in kwargs
_IntRange.__init__(self, *pargs, **kwargs)
# ensure a minimal amount of sanity
if self.min > self.max:
raise ValueError("min must be <= max")
if any_value_given:
# if a value was given, clamp it within (min, max)
self._validate("value", None, self.value)
else:
# otherwise, set it to 25-75% to avoid the handles overlapping
self.value = (0.75*self.min + 0.25*self.max,
0.25*self.min + 0.75*self.max)
# callback already set for 'value', 'lower', 'upper'
self.on_trait_change(self._validate, ['min', 'max'])
def _validate(self, name, old, new):
if name == "min":
if new > self.max:
raise ValueError("setting min > max")
elif name == "max":
if new < self.min:
raise ValueError("setting max < min")
low, high = self.value
if name == "value":
low, high = min(new), max(new)
elif name == "upper":
if new < self.lower:
raise ValueError("setting upper < lower")
high = new
elif name == "lower":
if new > self.upper:
raise ValueError("setting lower > upper")
low = new
low = max(self.min, min(low, self.max))
high = min(self.max, max(high, self.min))
# determine the order in which we should update the
# lower, upper traits to avoid a temporary inverted overlap
lower_first = high < self.lower
self.value = (low, high)
if lower_first:
self.lower = low
self.upper = high
else:
self.upper = high
self.lower = low
@register('IPython.IntRangeSlider')
class IntRangeSlider(_BoundedIntRange):
"""Slider widget that represents a pair of ints between a minimum and maximum value."""
_view_name = Unicode('IntSliderView', sync=True)
orientation = CaselessStrEnum(values=['horizontal', 'vertical'],
default_value='horizontal', help="Vertical or horizontal.", sync=True)
_range = Bool(True, help="Display a range selector", sync=True)
readout = Bool(True, help="Display the current value of the slider next to it.", sync=True)
slider_color = Color(None, allow_none=True, sync=True)
# Remove in IPython 4.0
IntTextWidget = DeprecatedClass(IntText, 'IntTextWidget')
BoundedIntTextWidget = DeprecatedClass(BoundedIntText, 'BoundedIntTextWidget')
IntSliderWidget = DeprecatedClass(IntSlider, 'IntSliderWidget')
IntProgressWidget = DeprecatedClass(IntProgress, 'IntProgressWidget')