1 | from decimal import Decimal, ROUND_HALF_UP
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2 | from typing import cast, Optional
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3 |
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4 | from geniusweb.issuevalue.NumberValue import NumberValue
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5 | from geniusweb.issuevalue.NumberValueSet import NumberValueSet
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6 | from geniusweb.issuevalue.Value import Value
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7 | from geniusweb.issuevalue.ValueSet import ValueSet
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8 | from geniusweb.profile.utilityspace.ValueSetUtilities import ValueSetUtilities
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9 |
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10 |
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11 | class NumberValueSetUtilities (ValueSetUtilities ):
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12 | '''
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13 | The low and high values (from a {@link NumberValueSet} are given each a
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14 | different utility. This linearly interpolates in-between utility values.
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15 | '''
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16 |
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17 |
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18 | def __init__(self, lowValue:Decimal,\
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19 | lowUtility:Decimal, highValue: Decimal, highUtility:Decimal) :
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20 | '''
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21 | @param lowValue the low value of the {@link Range}
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22 | @param lowUtility the utility of the {@link #lowValue}
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23 | @param highValue the high value of the {@link Range}. Must be
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24 | >lowValue.
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25 | @param highUtility the utility of the {@link #highValue}
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26 | '''
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27 | if lowValue == None or highValue == None or lowUtility == None \
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28 | or highUtility == None :
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29 | raise ValueError(\
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30 | "arguments lowValue, lowUtility, highValue and highUtility must be non-null");
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31 |
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32 | if not self._isInZeroOne(lowUtility):
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33 | raise ValueError("lowUtility must be in [0,1]")
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34 |
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35 | if not self._isInZeroOne(highUtility):
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36 | raise ValueError("highUtility must be in [0,1]")
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37 |
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38 | if highValue<=lowValue:
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39 | raise ValueError("highValue must be > lowValue")
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40 |
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41 | self._lowValue = lowValue
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42 | self._highValue = highValue
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43 | self._lowUtility = lowUtility
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44 | self._highUtility = highUtility
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45 |
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46 | #Override
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47 | def getUtility(self, value:Value ) -> Decimal :
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48 | if not isinstance(value, NumberValue):
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49 | return Decimal("0");
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50 |
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51 | x:Decimal = value.getValue()
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52 | if x<self._lowValue or x>self._highValue:
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53 | return Decimal("0")
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54 | # we need to be careful to avoid round errors from divides.
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55 | # so we return lowU + deltaU * (x-lowV) /deltaV
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56 | deltaU:Decimal = self._highUtility- self._lowUtility
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57 | deltaV:Decimal = self._highValue-self._lowValue
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58 |
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59 | return (self._lowUtility + deltaU *(x-self._lowValue)/deltaV )\
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60 | .quantize(Decimal('1.00000000'), rounding=ROUND_HALF_UP)
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61 |
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62 |
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63 | #Override
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64 | def isFitting(self, valueset: ValueSet ) -> Optional[str]:
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65 | if not isinstance(valueset, NumberValueSet):
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66 | return "The utilities are for a number valueset but the given values are "\
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67 | + str(valueset);
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68 |
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69 | numvalset= cast(NumberValueSet, valueset)
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70 | if numvalset.getRange().getLow() != self._lowValue:
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71 | return "the utilities are specified down to " + str(self._lowValue) \
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72 | + " but the valueset starts at " \
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73 | + str(numvalset.getRange().getLow())
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74 |
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75 | if numvalset.getRange().getHigh() != self._highValue:
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76 | return "the utilities are specified up to " + str(self._highValue) \
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77 | + " but the valueset ends at " \
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78 | + str(numvalset.getRange().getHigh())
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79 | return None
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80 |
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81 | def getLowValue(self) -> Decimal :
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82 | '''
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83 | @return the lowest value
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84 | '''
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85 | return self._lowValue;
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86 |
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87 |
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88 | def getHighValue(self) ->Decimal :
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89 | '''
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90 | @return the highest value
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91 | '''
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92 | return self._highValue
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93 |
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94 | def getLowUtility(self) ->Decimal :
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95 | '''
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96 | @return the utility of the lowest value
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97 | '''
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98 | return self._lowUtility;
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99 |
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100 | def getHighUtility(self) ->Decimal:
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101 | '''
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102 | @return the utility of the highest value
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103 | '''
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104 | return self._highUtility
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105 |
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106 | def __repr__(self):
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107 | return "NumberValueSetUtilities[" + str(self._lowValue) + "->" + str(self._lowUtility) + "," \
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108 | + str(self._highValue) + "->" + str(self._highUtility) + "]"
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109 |
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110 | def __hash__(self):
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111 | return hash((self._lowUtility, self._lowValue,self._highUtility, self._highValue))
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112 |
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113 | def __eq__(self, other):
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114 | return isinstance(other, self.__class__) \
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115 | and self._highUtility == other._highUtility \
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116 | and self._highValue == other._highValue \
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117 | and self._lowUtility == other._lowUtility \
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118 | and self._lowValue == other._lowValue
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119 |
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120 | def _isInZeroOne(self , value:Decimal) -> bool:
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121 | '''
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122 | Check if value is in range [0,1]
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123 |
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124 | @param value
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125 | @return true if in range.
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126 | '''
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127 | return value >= Decimal("0") and value <= Decimal("1")
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128 |
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