Does LINQ model the aggregate SQL function STDDEV()
(standard deviation)?
If not, what is the simplest / best-practices way to calculate it?
Example:
SELECT test_id, AVERAGE(result) avg, STDDEV(result) std
FROM tests
GROUP BY test_id
Does LINQ model the aggregate SQL function STDDEV()
(standard deviation)?
If not, what is the simplest / best-practices way to calculate it?
Example:
SELECT test_id, AVERAGE(result) avg, STDDEV(result) std
FROM tests
GROUP BY test_id
You can make your own extension calculating it
public static class Extensions
{
public static double StdDev(this IEnumerable<double> values)
{
double ret = 0;
int count = values.Count();
if (count > 1)
{
//Compute the Average
double avg = values.Average();
//Perform the Sum of (value-avg)^2
double sum = values.Sum(d => (d - avg) * (d - avg));
//Put it all together
ret = Math.Sqrt(sum / count);
}
return ret;
}
}
If you have a sample of the population rather than the whole population, then you should use ret = Math.Sqrt(sum / (count - 1));
.
Transformed into extension from Adding Standard Deviation to LINQ by Chris Bennett.
stdev = g.Select(o => o.number).StdDev()
.
– Andrew Mao
Aug 3 '12 at 22:30
- 1
? According to this the - 1
is required.
– GiddyUpHorsey
Jan 6 '14 at 4:23
Dynami's answer works but makes multiple passes through the data to get a result. This is a single pass method that calculates the sample standard deviation:
public static double StdDev(this IEnumerable<double> values)
{
// ref: http://warrenseen.com/blog/2006/03/13/how-to-calculate-standard-deviation/
double mean = 0.0;
double sum = 0.0;
double stdDev = 0.0;
int n = 0;
foreach (double val in values)
{
n++;
double delta = val - mean;
mean += delta / n;
sum += delta * (val - mean);
}
if (1 < n)
stdDev = Math.Sqrt(sum / (n - 1));
return stdDev;
}
This is the sample standard deviation since it divides by n - 1
. For the normal standard deviation you need to divide by n
instead.
This uses Welford's method which has higher numerical accuracy compared to the Average(x^2)-Average(x)^2
method.
this IEnumerable<double?> values
and val in values.Where(val => val != null)
. Also, I will note that this method (Welford's method) is more accurate and faster than the method above.
– Andrew Mao
Aug 6 '12 at 18:58
This converts David Clarke's answer into an extension that follows the same form as the other aggregate LINQ functions like Average.
Usage would be: var stdev = data.StdDev(o => o.number)
public static class Extensions
{
public static double StdDev<T>(this IEnumerable<T> list, Func<T, double> values)
{
// ref: https://stackoverflow.com/questions/2253874/linq-equivalent-for-standard-deviation
// ref: http://warrenseen.com/blog/2006/03/13/how-to-calculate-standard-deviation/
var mean = 0.0;
var sum = 0.0;
var stdDev = 0.0;
var n = 0;
foreach (var value in list.Select(values))
{
n++;
var delta = value - mean;
mean += delta / n;
sum += delta * (value - mean);
}
if (1 < n)
stdDev = Math.Sqrt(sum / (n - 1));
return stdDev;
}
}
Average
/Min
/Max
/etc have overloads with and without selector functions. They also have overloads for integral types, float, etc.
– Drew Noakes
Jun 19 '15 at 14:25
public static double StdDev(this IEnumerable<int> values, bool as_sample = false)
{
var count = values.Count();
if (count > 0) // check for divide by zero
// Get the mean.
double mean = values.Sum() / count;
// Get the sum of the squares of the differences
// between the values and the mean.
var squares_query =
from int value in values
select (value - mean) * (value - mean);
double sum_of_squares = squares_query.Sum();
return Math.Sqrt(sum_of_squares / (count - (as_sample ? 1 : 0)))
}
count
.
– David Clarke
May 10 '17 at 4:04