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# pylint: disable=redefined-builtin, line-too-long, unused-argument
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from . math import _chain , _chain_numeric , _chain_numeric_a
from . info import ISNUMBER , ISLOGICAL
from . date import DATE # pylint: disable=unused-import
from . unimplemented import unimplemented
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def _average ( iterable ) :
total , count = 0.0 , 0
for value in iterable :
total + = value
count + = 1
return total / count
def _default_if_empty ( iterable , default ) :
"""
Yields all values from iterable , except when it is empty , yields just the single default value .
"""
empty = True
for value in iterable :
empty = False
yield value
if empty :
yield default
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@unimplemented
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def AVEDEV ( value1 , value2 ) :
""" Calculates the average of the magnitudes of deviations of data from a dataset ' s mean. """
raise NotImplementedError ( )
def AVERAGE ( value , * more_values ) :
"""
Returns the numerical average value in a dataset , ignoring non - numerical values .
Each argument may be a value or an array . Values that are not numbers , including logical
and blank values , and text representations of numbers , are ignored .
>> > AVERAGE ( [ 2 , - 1.0 , 11 ] )
4.0
>> > AVERAGE ( [ 2 , - 1 , 11 , " Hello " ] )
4.0
>> > AVERAGE ( [ 2 , - 1 , " Hello " , DATE ( 2015 , 1 , 1 ) ] , True , [ False , " 123 " , " " , 11 ] )
4.0
>> > AVERAGE ( False , True )
Traceback ( most recent call last ) :
. . .
ZeroDivisionError : float division by zero
"""
return _average ( _chain_numeric ( value , * more_values ) )
def AVERAGEA ( value , * more_values ) :
"""
Returns the numerical average value in a dataset , counting non - numerical values as 0.
Each argument may be a value of an array . Values that are not numbers , including dates and text
representations of numbers , are counted as 0 ( zero ) . Logical value of True is counted as 1 , and
False as 0.
>> > AVERAGEA ( [ 2 , - 1.0 , 11 ] )
4.0
>> > AVERAGEA ( [ 2 , - 1 , 11 , " Hello " ] )
3.0
>> > AVERAGEA ( [ 2 , - 1 , " Hello " , DATE ( 2015 , 1 , 1 ) ] , True , [ False , " 123 " , " " , 11.5 ] )
1.5
>> > AVERAGEA ( False , True )
0.5
"""
return _average ( _chain_numeric_a ( value , * more_values ) )
# Note that Google Sheets offers a similar function, called AVERAGE.WEIGHTED
# (https://support.google.com/docs/answer/9084098?hl=en)
def AVERAGE_WEIGHTED ( pairs ) :
"""
Given a list of ( value , weight ) pairs , finds the average of the values weighted by the
corresponding weights . Ignores any pairs with a non - numerical value or weight .
If you have two lists , of values and weights , use the Python built - in zip ( ) function to create a
list of pairs .
>> > AVERAGE_WEIGHTED ( ( ( 95 , .25 ) , ( 90 , .1 ) , ( " X " , .5 ) , ( 85 , .15 ) , ( 88 , .2 ) , ( 82 , .3 ) , ( 70 , None ) ) )
87.7
>> > AVERAGE_WEIGHTED ( zip ( [ 95 , 90 , " X " , 85 , 88 , 82 , 70 ] , [ 25 , 10 , 50 , 15 , 20 , 30 , None ] ) )
87.7
>> > AVERAGE_WEIGHTED ( zip ( [ 95 , 90 , False , 85 , 88 , 82 , 70 ] , [ .25 , .1 , .5 , .15 , .2 , .3 , True ] ) )
87.7
"""
sum_value , sum_weight = 0.0 , 0.0
for value , weight in pairs :
# The type-checking here is the same as used by _chain_numeric.
if ISNUMBER ( value ) and not ISLOGICAL ( value ) and ISNUMBER ( weight ) and not ISLOGICAL ( weight ) :
sum_value + = value * weight
sum_weight + = weight
return sum_value / sum_weight
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@unimplemented
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def AVERAGEIF ( criteria_range , criterion , average_range = None ) :
""" Returns the average of a range depending on criteria. """
raise NotImplementedError ( )
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@unimplemented
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def AVERAGEIFS ( average_range , criteria_range1 , criterion1 , * args ) :
""" Returns the average of a range depending on multiple criteria. """
raise NotImplementedError ( )
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@unimplemented
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def BINOMDIST ( num_successes , num_trials , prob_success , cumulative ) :
"""
Calculates the probability of drawing a certain number of successes ( or a maximum number of
successes ) in a certain number of tries given a population of a certain size containing a
certain number of successes , with replacement of draws .
"""
raise NotImplementedError ( )
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@unimplemented
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def CONFIDENCE ( alpha , standard_deviation , pop_size ) :
""" Calculates the width of half the confidence interval for a normal distribution. """
raise NotImplementedError ( )
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@unimplemented
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def CORREL ( data_y , data_x ) :
""" Calculates r, the Pearson product-moment correlation coefficient of a dataset. """
raise NotImplementedError ( )
def COUNT ( value , * more_values ) :
"""
Returns the count of numerical values in a dataset , ignoring non - numerical values .
Each argument may be a value or an array . Values that are not numbers , including logical
and blank values , and text representations of numbers , are ignored .
>> > COUNT ( [ 2 , - 1.0 , 11 ] )
3
>> > COUNT ( [ 2 , - 1 , 11 , " Hello " ] )
3
>> > COUNT ( [ 2 , - 1 , " Hello " , DATE ( 2015 , 1 , 1 ) ] , True , [ False , " 123 " , " " , 11.5 ] )
3
>> > COUNT ( False , True )
0
"""
return sum ( 1 for v in _chain_numeric ( value , * more_values ) )
def COUNTA ( value , * more_values ) :
"""
Returns the count of all values in a dataset , including non - numerical values .
Each argument may be a value or an array .
>> > COUNTA ( [ 2 , - 1.0 , 11 ] )
3
>> > COUNTA ( [ 2 , - 1 , 11 , " Hello " ] )
4
>> > COUNTA ( [ 2 , - 1 , " Hello " , DATE ( 2015 , 1 , 1 ) ] , True , [ False , " 123 " , " " , 11.5 ] )
9
>> > COUNTA ( False , True )
2
"""
return sum ( 1 for v in _chain ( value , * more_values ) )
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@unimplemented
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def COVAR ( data_y , data_x ) :
""" Calculates the covariance of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def CRITBINOM ( num_trials , prob_success , target_prob ) :
""" Calculates the smallest value for which the cumulative binomial distribution is greater than or equal to a specified criteria. """
raise NotImplementedError ( )
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@unimplemented
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def DEVSQ ( value1 , value2 ) :
""" Calculates the sum of squares of deviations based on a sample. """
raise NotImplementedError ( )
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@unimplemented
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def EXPONDIST ( x , lambda_ , cumulative ) :
""" Returns the value of the exponential distribution function with a specified lambda at a specified value. """
raise NotImplementedError ( )
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@unimplemented
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def F_DIST ( x , degrees_freedom1 , degrees_freedom2 , cumulative ) :
"""
Calculates the left - tailed F probability distribution ( degree of diversity ) for two data sets
with given input x . Alternately called Fisher - Snedecor distribution or Snedecor ' s F
distribution .
"""
raise NotImplementedError ( )
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@unimplemented
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def F_DIST_RT ( x , degrees_freedom1 , degrees_freedom2 ) :
"""
Calculates the right - tailed F probability distribution ( degree of diversity ) for two data sets
with given input x . Alternately called Fisher - Snedecor distribution or Snedecor ' s F
distribution .
"""
raise NotImplementedError ( )
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@unimplemented
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def FDIST ( x , degrees_freedom1 , degrees_freedom2 ) :
"""
Calculates the right - tailed F probability distribution ( degree of diversity ) for two data sets
with given input x . Alternately called Fisher - Snedecor distribution or Snedecor ' s F
distribution .
"""
raise NotImplementedError ( )
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@unimplemented
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def FISHER ( value ) :
""" Returns the Fisher transformation of a specified value. """
raise NotImplementedError ( )
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@unimplemented
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def FISHERINV ( value ) :
""" Returns the inverse Fisher transformation of a specified value. """
raise NotImplementedError ( )
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@unimplemented
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def FORECAST ( x , data_y , data_x ) :
""" Calculates the expected y-value for a specified x based on a linear regression of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def GEOMEAN ( value1 , value2 ) :
""" Calculates the geometric mean of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def HARMEAN ( value1 , value2 ) :
""" Calculates the harmonic mean of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def HYPGEOMDIST ( num_successes , num_draws , successes_in_pop , pop_size ) :
""" Calculates the probability of drawing a certain number of successes in a certain number of tries given a population of a certain size containing a certain number of successes, without replacement of draws. """
raise NotImplementedError ( )
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@unimplemented
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def INTERCEPT ( data_y , data_x ) :
""" Calculates the y-value at which the line resulting from linear regression of a dataset will intersect the y-axis (x=0). """
raise NotImplementedError ( )
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@unimplemented
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def KURT ( value1 , value2 ) :
""" Calculates the kurtosis of a dataset, which describes the shape, and in particular the " peakedness " of that dataset. """
raise NotImplementedError ( )
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@unimplemented
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def LARGE ( data , n ) :
""" Returns the nth largest element from a data set, where n is user-defined. """
raise NotImplementedError ( )
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@unimplemented
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def LOGINV ( x , mean , standard_deviation ) :
""" Returns the value of the inverse log-normal cumulative distribution with given mean and standard deviation at a specified value. """
raise NotImplementedError ( )
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@unimplemented
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def LOGNORMDIST ( x , mean , standard_deviation ) :
""" Returns the value of the log-normal cumulative distribution with given mean and standard deviation at a specified value. """
raise NotImplementedError ( )
def MAX ( value , * more_values ) :
"""
Returns the maximum value in a dataset , ignoring non - numerical values .
Each argument may be a value or an array . Values that are not numbers , including logical
and blank values , and text representations of numbers , are ignored . Returns 0 if the arguments
contain no numbers .
>> > MAX ( [ 2 , - 1.5 , 11.5 ] )
11.5
>> > MAX ( [ 2 , - 1.5 , " Hello " , DATE ( 2015 , 1 , 1 ) ] , True , [ False , " 123 " , " " , 11.5 ] )
11.5
>> > MAX ( True , - 123 )
- 123
>> > MAX ( " 123 " , - 123 )
- 123
>> > MAX ( " Hello " , " 123 " , DATE ( 2015 , 1 , 1 ) )
0
"""
return max ( _default_if_empty ( _chain_numeric ( value , * more_values ) , 0 ) )
def MAXA ( value , * more_values ) :
"""
Returns the maximum numeric value in a dataset .
Each argument may be a value of an array . Values that are not numbers , including dates and text
representations of numbers , are counted as 0 ( zero ) . Logical value of True is counted as 1 , and
False as 0. Returns 0 if the arguments contain no numbers .
>> > MAXA ( [ 2 , - 1.5 , 11.5 ] )
11.5
>> > MAXA ( [ 2 , - 1.5 , " Hello " , DATE ( 2015 , 1 , 1 ) ] , True , [ False , " 123 " , " " , 11.5 ] )
11.5
>> > MAXA ( True , - 123 )
1
>> > MAXA ( " 123 " , - 123 )
0
>> > MAXA ( " Hello " , " 123 " , DATE ( 2015 , 1 , 1 ) )
0
"""
return max ( _default_if_empty ( _chain_numeric_a ( value , * more_values ) , 0 ) )
def MEDIAN ( value , * more_values ) :
"""
Returns the median value in a numeric dataset , ignoring non - numerical values .
Each argument may be a value or an array . Values that are not numbers , including logical
and blank values , and text representations of numbers , are ignored .
Produces an error if the arguments contain no numbers .
The median is the middle number when all values are sorted . So half of the values in the dataset
are less than the median , and half of the values are greater . If there is an even number of
values in the dataset , returns the average of the two numbers in the middle .
>> > MEDIAN ( 1 , 2 , 3 , 4 , 5 )
3
>> > MEDIAN ( 3 , 5 , 1 , 4 , 2 )
3
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>> > MEDIAN ( range ( 10 ) )
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4.5
>> > MEDIAN ( " Hello " , " 123 " , DATE ( 2015 , 1 , 1 ) , 12.3 )
12.3
>> > MEDIAN ( " Hello " , " 123 " , DATE ( 2015 , 1 , 1 ) )
Traceback ( most recent call last ) :
. . .
ValueError : MEDIAN requires at least one number
"""
values = sorted ( _chain_numeric ( value , * more_values ) )
if not values :
raise ValueError ( " MEDIAN requires at least one number " )
count = len ( values )
if count % 2 == 0 :
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return ( values [ count / / 2 - 1 ] + values [ count / / 2 ] ) / 2.0
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else :
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return values [ ( count - 1 ) / / 2 ]
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def MIN ( value , * more_values ) :
"""
Returns the minimum value in a dataset , ignoring non - numerical values .
Each argument may be a value or an array . Values that are not numbers , including logical
and blank values , and text representations of numbers , are ignored . Returns 0 if the arguments
contain no numbers .
>> > MIN ( [ 2 , - 1.5 , 11.5 ] )
- 1.5
>> > MIN ( [ 2 , - 1.5 , " Hello " , DATE ( 2015 , 1 , 1 ) ] , True , [ False , " 123 " , " " , 11.5 ] )
- 1.5
>> > MIN ( True , 123 )
123
>> > MIN ( " -123 " , 123 )
123
>> > MIN ( " Hello " , " 123 " , DATE ( 2015 , 1 , 1 ) )
0
"""
return min ( _default_if_empty ( _chain_numeric ( value , * more_values ) , 0 ) )
def MINA ( value , * more_values ) :
"""
Returns the minimum numeric value in a dataset .
Each argument may be a value of an array . Values that are not numbers , including dates and text
representations of numbers , are counted as 0 ( zero ) . Logical value of True is counted as 1 , and
False as 0. Returns 0 if the arguments contain no numbers .
>> > MINA ( [ 2 , - 1.5 , 11.5 ] )
- 1.5
>> > MINA ( [ 2 , - 1.5 , " Hello " , DATE ( 2015 , 1 , 1 ) ] , True , [ False , " 123 " , " " , 11.5 ] )
- 1.5
>> > MINA ( True , 123 )
1
>> > MINA ( " -123 " , 123 )
0
>> > MINA ( " Hello " , " 123 " , DATE ( 2015 , 1 , 1 ) )
0
"""
return min ( _default_if_empty ( _chain_numeric_a ( value , * more_values ) , 0 ) )
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@unimplemented
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def MODE ( value1 , value2 ) :
""" Returns the most commonly occurring value in a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def NEGBINOMDIST ( num_failures , num_successes , prob_success ) :
""" Calculates the probability of drawing a certain number of failures before a certain number of successes given a probability of success in independent trials. """
raise NotImplementedError ( )
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@unimplemented
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def NORMDIST ( x , mean , standard_deviation , cumulative ) :
"""
Returns the value of the normal distribution function ( or normal cumulative distribution
function ) for a specified value , mean , and standard deviation .
"""
raise NotImplementedError ( )
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@unimplemented
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def NORMINV ( x , mean , standard_deviation ) :
""" Returns the value of the inverse normal distribution function for a specified value, mean, and standard deviation. """
raise NotImplementedError ( )
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@unimplemented
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def NORMSDIST ( x ) :
""" Returns the value of the standard normal cumulative distribution function for a specified value. """
raise NotImplementedError ( )
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@unimplemented
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def NORMSINV ( x ) :
""" Returns the value of the inverse standard normal distribution function for a specified value. """
raise NotImplementedError ( )
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@unimplemented
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def PEARSON ( data_y , data_x ) :
""" Calculates r, the Pearson product-moment correlation coefficient of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def PERCENTILE ( data , percentile ) :
""" Returns the value at a given percentile of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def PERCENTRANK ( data , value , significant_digits = None ) :
""" Returns the percentage rank (percentile) of a specified value in a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def PERCENTRANK_EXC ( data , value , significant_digits = None ) :
""" Returns the percentage rank (percentile) from 0 to 1 exclusive of a specified value in a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def PERCENTRANK_INC ( data , value , significant_digits = None ) :
""" Returns the percentage rank (percentile) from 0 to 1 inclusive of a specified value in a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def PERMUT ( n , k ) :
""" Returns the number of ways to choose some number of objects from a pool of a given size of objects, considering order. """
raise NotImplementedError ( )
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@unimplemented
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def POISSON ( x , mean , cumulative ) :
"""
Returns the value of the Poisson distribution function ( or Poisson cumulative distribution
function ) for a specified value and mean .
"""
raise NotImplementedError ( )
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@unimplemented
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def PROB ( data , probabilities , low_limit , high_limit = None ) :
""" Given a set of values and corresponding probabilities, calculates the probability that a value chosen at random falls between two limits. """
raise NotImplementedError ( )
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@unimplemented
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def QUARTILE ( data , quartile_number ) :
""" Returns a value nearest to a specified quartile of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def RANK ( value , data , is_ascending = None ) :
""" Returns the rank of a specified value in a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def RANK_AVG ( value , data , is_ascending = None ) :
""" Returns the rank of a specified value in a dataset. If there is more than one entry of the same value in the dataset, the average rank of the entries will be returned. """
raise NotImplementedError ( )
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@unimplemented
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def RANK_EQ ( value , data , is_ascending = None ) :
""" Returns the rank of a specified value in a dataset. If there is more than one entry of the same value in the dataset, the top rank of the entries will be returned. """
raise NotImplementedError ( )
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@unimplemented
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def RSQ ( data_y , data_x ) :
""" Calculates the square of r, the Pearson product-moment correlation coefficient of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def SKEW ( value1 , value2 ) :
""" Calculates the skewness of a dataset, which describes the symmetry of that dataset about the mean. """
raise NotImplementedError ( )
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@unimplemented
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def SLOPE ( data_y , data_x ) :
""" Calculates the slope of the line resulting from linear regression of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def SMALL ( data , n ) :
""" Returns the nth smallest element from a data set, where n is user-defined. """
raise NotImplementedError ( )
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@unimplemented
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def STANDARDIZE ( value , mean , standard_deviation ) :
""" Calculates the normalized equivalent of a random variable given mean and standard deviation of the distribution. """
raise NotImplementedError ( )
# This should make us all cry a little. Because the sandbox does not do Python3 (which has
# statistics package), and because it does not do numpy (because it's native and hasn't been built
# for it), we have to implement simple stats functions by hand.
# TODO: switch to use the statistics package instead, once we upgrade to Python3.
#
# The following implementation of stdev is taken from https://stackoverflow.com/a/27758326/328565
def _mean ( data ) :
return sum ( data ) / float ( len ( data ) )
def _ss ( data ) :
""" Return sum of square deviations of sequence data. """
c = _mean ( data )
return sum ( ( x - c ) * * 2 for x in data )
def _stddev ( data , ddof = 0 ) :
""" Calculates the population standard deviation
by default ; specify ddof = 1 to compute the sample
standard deviation . """
n = len ( data )
ss = _ss ( data )
pvar = ss / ( n - ddof )
return pvar * * 0.5
# The examples in the doctests below come from https://support.google.com/docs/answer/3094054 and
# related articles, which helps ensure correctness and compatibility.
def STDEV ( value , * more_values ) :
"""
Calculates the standard deviation based on a sample , ignoring non - numerical values .
>> > STDEV ( [ 2 , 5 , 8 , 13 , 10 ] )
4.277849927241488
>> > STDEV ( [ 2 , 5 , 8 , 13 , 10 , True , False , " Test " ] )
4.277849927241488
>> > STDEV ( [ 2 , 5 , 8 , 13 , 10 ] , 3 , 12 , 15 )
4.810702354423639
>> > STDEV ( [ 2 , 5 , 8 , 13 , 10 ] , [ 3 , 12 , 15 ] )
4.810702354423639
>> > STDEV ( [ 5 ] )
Traceback ( most recent call last ) :
. . .
ZeroDivisionError : float division by zero
"""
return _stddev ( list ( _chain_numeric ( value , * more_values ) ) , 1 )
def STDEVA ( value , * more_values ) :
"""
Calculates the standard deviation based on a sample , setting text to the value ` 0 ` .
>> > STDEVA ( [ 2 , 5 , 8 , 13 , 10 ] )
4.277849927241488
>> > STDEVA ( [ 2 , 5 , 8 , 13 , 10 , True , False , " Test " ] )
4.969550137731641
>> > STDEVA ( [ 2 , 5 , 8 , 13 , 10 ] , 1 , 0 , 0 )
4.969550137731641
>> > STDEVA ( [ 2 , 5 , 8 , 13 , 10 ] , [ 1 , 0 , 0 ] )
4.969550137731641
>> > STDEVA ( [ 5 ] )
Traceback ( most recent call last ) :
. . .
ZeroDivisionError : float division by zero
"""
return _stddev ( list ( _chain_numeric_a ( value , * more_values ) ) , 1 )
def STDEVP ( value , * more_values ) :
"""
Calculates the standard deviation based on an entire population , ignoring non - numerical values .
>> > STDEVP ( [ 2 , 5 , 8 , 13 , 10 ] )
3.8262252939417984
>> > STDEVP ( [ 2 , 5 , 8 , 13 , 10 , True , False , " Test " ] )
3.8262252939417984
>> > STDEVP ( [ 2 , 5 , 8 , 13 , 10 ] , 3 , 12 , 15 )
4.5
>> > STDEVP ( [ 2 , 5 , 8 , 13 , 10 ] , [ 3 , 12 , 15 ] )
4.5
>> > STDEVP ( [ 5 ] )
0.0
"""
return _stddev ( list ( _chain_numeric ( value , * more_values ) ) , 0 )
def STDEVPA ( value , * more_values ) :
"""
Calculates the standard deviation based on an entire population , setting text to the value ` 0 ` .
>> > STDEVPA ( [ 2 , 5 , 8 , 13 , 10 ] )
3.8262252939417984
>> > STDEVPA ( [ 2 , 5 , 8 , 13 , 10 , True , False , " Test " ] )
4.648588495446763
>> > STDEVPA ( [ 2 , 5 , 8 , 13 , 10 ] , 1 , 0 , 0 )
4.648588495446763
>> > STDEVPA ( [ 2 , 5 , 8 , 13 , 10 ] , [ 1 , 0 , 0 ] )
4.648588495446763
>> > STDEVPA ( [ 5 ] )
0.0
"""
return _stddev ( list ( _chain_numeric_a ( value , * more_values ) ) , 0 )
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@unimplemented
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def STEYX ( data_y , data_x ) :
""" Calculates the standard error of the predicted y-value for each x in the regression of a dataset. """
raise NotImplementedError ( )
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@unimplemented
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def T_INV ( probability , degrees_freedom ) :
""" Calculates the negative inverse of the one-tailed TDIST function. """
raise NotImplementedError ( )
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@unimplemented
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def T_INV_2T ( probability , degrees_freedom ) :
""" Calculates the inverse of the two-tailed TDIST function. """
raise NotImplementedError ( )
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@unimplemented
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def TDIST ( x , degrees_freedom , tails ) :
""" Calculates the probability for Student ' s t-distribution with a given input (x). """
raise NotImplementedError ( )
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@unimplemented
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def TINV ( probability , degrees_freedom ) :
""" Calculates the inverse of the two-tailed TDIST function. """
raise NotImplementedError ( )
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@unimplemented
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def TRIMMEAN ( data , exclude_proportion ) :
""" Calculates the mean of a dataset excluding some proportion of data from the high and low ends of the dataset. """
raise NotImplementedError ( )
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@unimplemented
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def TTEST ( range1 , range2 , tails , type ) :
""" Returns the probability associated with t-test. Determines whether two samples are likely to have come from the same two underlying populations that have the same mean. """
raise NotImplementedError ( )
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@unimplemented
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def VAR ( value1 , value2 ) :
""" Calculates the variance based on a sample. """
raise NotImplementedError ( )
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@unimplemented
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def VARA ( value1 , value2 ) :
""" Calculates an estimate of variance based on a sample, setting text to the value `0`. """
raise NotImplementedError ( )
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@unimplemented
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def VARP ( value1 , value2 ) :
""" Calculates the variance based on an entire population. """
raise NotImplementedError ( )
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@unimplemented
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def VARPA ( value1 , value2 ) :
""" Calculates the variance based on an entire population, setting text to the value `0`. """
raise NotImplementedError ( )
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@unimplemented
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def WEIBULL ( x , shape , scale , cumulative ) :
"""
Returns the value of the Weibull distribution function ( or Weibull cumulative distribution
function ) for a specified shape and scale .
"""
raise NotImplementedError ( )
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@unimplemented
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def ZTEST ( data , value , standard_deviation ) :
""" Returns the two-tailed P-value of a Z-test with standard distribution. """
raise NotImplementedError ( )