My name is Ian. I'm currently working through the "Analyzing Stock Prices" tutorial on www.tryfsharp.org. I'm trying to reproduce their webcontent in Visual Studio 2012 with the appropriate libraries.

**I am having trouble figuring out why my "descriptivestatistics" function in the MathNET library is not working. Snippets below.**

Returned error:

error FS0041: No overloads match for method 'DescriptiveStatistics'. The available overloads are shown below (or in the Error List window). Possible overload: 'DescriptiveStatistics(data: Collections.Generic.IEnumerable) : unit'. Type constraint mismatch. The type CsvProvider<...> is not compatible with type Collections.Generic.IEnumerable The type 'CsvProvider<...>' is not compatible with the type 'Collections.Generic.IEnumerable'. Possible overload: 'DescriptiveStatistics(data: Collections.Generic.IEnumerable>) : unit'. Type constraint mismatch. The type CsvProvider<...> is not compatible with type Collections.Generic.IEnumerable> The type 'CsvProvider<...>' is not compatible with the type 'Collections.Generic.IEnumerable>'.

The particular code and another possible clue:

//get Stats

let stats = DescriptiveStatistics(msftClosesUsd)

//compute std. dev.

standardDeviation [ for r in msftData.Data -> float r.Close ] //had to add 'float' to r.Close to match type

Note: descriptiveStatistics is located at the very end of the code, and standardDeviation is about midway down. Any help is greatly appreciated!

```
// *****************************************************************
// ********************Analyzing Stock Prices***********************
// *****************************************************************
// URL: http://www.tryfsharp.org/Learn/financial-computing#analyzing-stock-prices
#r @"...\FSharp.Data.1.1.5\lib\net40\FSharp.Data.dll"
#load @"...\FSharp.Charting.0.82\FSharp.Charting.fsx"
open FSharp.Data
open FSharp.Charting
open System
// Provides a strongly typed view of the file
type Stocks = CsvProvider<"C:\...\Documents\F#\MSFT.csv">
// Get the stock prices from yahoo on MSFT stock
[<Literal>]
let msftUrl = "http://ichart.finance.yahoo.com/table.csv?s=MSFT"
let msftData = Stocks.Load(msftUrl)
// **************** Calculating Standard Deviation *****************
let standardDeviation prices =
let count = Seq.length prices
let avg = Seq.average prices
let squares = [ for p in prices -> (p - avg) * (p - avg) ]
sqrt ((Seq.sum squares) / (float count)) // Convert count to float to be able to divide into Seq.sum squares
//"F# does not insert any numberical conversions implicitly" - website
standardDeviation [ for r in msftData.Data -> float r.Close ] //had to add 'float' to r.Close to match type
// **************** Introducing Units of Measure *****************
type [<Measure>] USD
type [<Measure>] EUR
let msftClosesUsd = [ for r in msftData.Data -> float r.Close * 1.0<USD> ] //had to change r.close to float to get this to work
let msft = msftClosesUsd
// Average price in USD
let avg = msftClosesUsd |> Seq.average
// Convert EUR to USD
let euroToUsd eur = eur * 1.30<USD/EUR> // As of 2013-06-29
// Is the average price greater than 25 Euros?
let limit = 25.0<EUR>
if avg > (euroToUsd limit) then printfn("Greater!") // 1.3*25 = 32.5. Type 'avg' to see average. Mine was 29.4802.
let standardDeviationUnits (prices:seq<float<USD>>) = //"Could annotate the argument with seq<float<'u>> allowing for generic units." -URL
let count = Seq.length prices
let avg = Seq.average prices
let squares = [ for p in prices -> (p - avg) * (p - avg) ]
sqrt ((Seq.sum squares) / (float count))
// Unquote for calc below.
//standardDeviationUnits msftClosesUsd
// Get Math.NET Numerics Library Here: http://numerics.mathdotnet.com/
// Install and continue.
#r @"...\MathNet.Numerics.2.5.0\lib\net40\MathNet.Numerics.dll"
open MathNet.Numerics.Statistics
//get Stats
let stats = DescriptiveStatistics(msftClosesUsd)
```

`let avg = msftClosesUsd |> Seq.average`

that implies`msftClosesUsd`

has type`float<USD>`

. 2. You need to multiply all elements by`1.0<1/USD>`

to get a sequence of double rather than typed doubles. – John Palmer Jul 1 '13 at 6:36