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# Copyright (C) 2009, Tutorius.org
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
"""
Constraints
Defines a set of constraints with their related errors. These constraints are
made to be used inside TutoriusProperties in order to limit the values that
they might take. They can also be used to enforce a particular format or type
for some properties.
"""
# For the File Constraint
import os
class ConstraintException(Exception):
"""
Parent class for all constraint exceptions
"""
pass
class Constraint():
"""
Basic block for defining constraints on a TutoriusProperty. Every class
inheriting from Constraint will have a validate function that will be
executed when the property's value is to be changed.
"""
def validate(self, value):
"""
This function receives the value that is proposed as a new value for
the property. It needs to raise an Error in the case where the value
does not respect this constraint.
"""
raise NotImplementedError("Unable to validate a base Constraint")
class ValueConstraint(Constraint):
"""
A value constraint contains a _limit member that can be used in a children
class as a basic value. See UpperLimitConstraint for an exemple.
"""
def __init__(self, limit):
self.limit = limit
class UpperLimitConstraintError(ConstraintException):
pass
class UpperLimitConstraint(ValueConstraint):
def validate(self, value):
"""
Evaluates whether the given value is smaller than the limit.
@raise UpperLimitConstraintError When the value is strictly higher than
the limit.
"""
if self.limit is not None:
if self.limit >= value:
return
raise UpperLimitConstraintError()
return
class LowerLimitConstraintError(ConstraintException):
pass
class LowerLimitConstraint(ValueConstraint):
def validate(self, value):
"""
If the value is lower than the limit, this function raises an error.
@raise LowerLimitConstraintError When the value is strictly smaller
than the limit.
"""
if self.limit is not None:
if value >= self.limit:
return
raise LowerLimitConstraintError()
return
class MaxSizeConstraintError(ConstraintException):
pass
class MaxSizeConstraint(ValueConstraint):
def validate(self, value):
"""
Evaluate whether a given object is smaller than the given size when
run through len(). Great for string, lists and the like. ;)
@raise SizeConstraintError If the length of the value is strictly
bigger than the limit.
"""
if self.limit is not None:
if self.limit >= len(value):
return
raise MaxSizeConstraintError("Setter : trying to set value of length %d while limit is %d"%(len(value), self.limit))
return
class MinSizeConstraintError(ConstraintException):
pass
class MinSizeConstraint(ValueConstraint):
def validate(self, value):
"""
Evaluate whether a given object is smaller than the given size when
run through len(). Great for string, lists and the like. ;)
@raise SizeConstraintError If the length of the value is strictly
bigger than the limit.
"""
if self.limit is not None:
if self.limit <= len(value):
return
raise MinSizeConstraintError("Setter : trying to set value of length %d while limit is %d"%(len(value), self.limit))
return
class ColorConstraintError(ConstraintException):
pass
class ColorArraySizeError(ColorConstraintError):
pass
class ColorTypeError(ColorConstraintError):
pass
class ColorValueError(ColorConstraintError):
pass
class ColorConstraint(Constraint):
"""
Validates that the value is an array of size 3 with three numbers between
0 and 255 (inclusively) in it.
"""
def validate(self, value):
if len(value) != 3:
raise ColorArraySizeError("The value is not an array of size 3")
if not (type(value[0]) == type(22) and type(value[1]) == type(22) and type(value[2]) == type(22)):
raise ColorTypeError("Not all the elements of the array are integers")
if value[0] > 255 or value[0] <0:
raise ColorValueError("Red value is not between 0 and 255")
if value[1] > 255 or value[1] <0:
raise ColorValueError("Green value is not between 0 and 255")
if value[2] > 255 or value[2] <0:
raise ColorValueError("Blue value is not between 0 and 255")
return
class BooleanConstraintError(ConstraintException):
pass
class BooleanConstraint(Constraint):
"""
Validates that the value is either True or False.
"""
def validate(self, value):
if value == True or value == False:
return
raise BooleanConstraintError("Value is not True or False")
class EnumConstraintError(ConstraintException):
pass
class EnumConstraint(Constraint):
"""
Validates that the value is part of a set of well-defined values.
"""
def __init__(self, accepted_values):
"""
Creates the constraint and stores the list of accepted values.
@param correct_values A list that contains all the values that will
be declared as satisfying the constraint
"""
self._accepted_values = accepted_values
def validate(self, value):
"""
Ensures that the value that is passed is part of the list of accepted
values.
"""
if not value in self._accepted_values:
raise EnumConstraintError("Value is not part of the enumeration")
return
class FileConstraintError(ConstraintException):
pass
class FileConstraint(Constraint):
"""
Ensures that the string given corresponds to an existing file on disk.
"""
def validate(self, value):
# TODO : Decide on the architecture for file retrieval on disk
# Relative paths? From where? Support macros?
# FIXME This is a hack to make cases where a default file is not valid
# work. It allows None values to be validated, though
if value is None:
return
if not os.path.isfile(value):
raise FileConstraintError("Non-existing file : %s"%value)
return
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