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say I have a parameter x and have several lines using x to calculate y, now there are 10 values of x and I need to use each value to calculate a respective y, and I don't wanna change x each time and run my command lines 10 times, is there any syntax in F# which allows me to repeat those command lines I've already wrote so that I only need to execute one time to work out all 10 values of y?

Thanks in advance

EDITED:I pasted my code down below, basically, what I want is geting alphas for different parameter combinations, my parameters are "shreshold", "WeeksBfReport" and "DaysBfExecution". I have 30 sets of parameter combinations, so I don't wanna go change the parameters and run the command for 30 times. Is there any way for not doing this?

let shreshold= 2.0
let ReportDate = "2008/12/15"
let ExeDate = "2009/01/05"
let WeeksBfReport = 1
let DaysBfExecution = 3
let Rf=0.01

let DateIn=ReportDate.ToDateTimeExact("yyyy/MM/dd").AddWeeks(-WeeksBfReport)
let DateOut=ExeDate.ToDateTimeExact("yyyy/MM/dd").AddWorkDays(-DaysBfExecution)
let DateInString=DateIn.ToString("yyyy/MM/dd")
let DateOutString=DateOut.ToString("yyyy/MM/dd")

let mutable FundMV=0.
let FundTicker=csvTable.AsEnumerable().Select(fun (x:DataRow) -> x.Field<string>("Ticker")).ToArray()
for i in 0..csvTable.Rows.Count-1 do
    let FundUnitPrice= float(csvTable.AsEnumerable().Where(fun (x:DataRow) -> x.Field<string>(0) = FundTicker.[i]).First().Field<string>(DateInString))
    let FundShares= float(csvTable1.AsEnumerable().Where(fun (x:DataRow) -> x.Field<string>(0) = FundTicker.[i]).First().Field<string>(DateInString))
    FundMV<-FundMV + FundUnitPrice*FundShares
    printfn "%e" FundMV
//use TMV to calculate weights of CSI300 constitutes
let mutable csiTMV=0.
let CSITMV : float array = Array.zeroCreate 300
let DictionaryCSI = Dictionary<String,float>()
for i in 0..299 do
    let TMV=float(csvTable3.Rows.[i].Field<string>(DateInString))
    csiTMV<-csiTMV + TMV
    CSITMV.[i] <- TMV
for i in 0..299 do
    let Weight=CSITMV.[i]/csiTMV

let DictionaryOldOut = Dictionary<String,float>()
let array=csvTable2.AsEnumerable().Select(fun (x:DataRow) -> x.Field<string>("Stock")).ToArray()
let OldOutTMV=ResizeArray<float>()
let DictionaryOldOutWeight = Dictionary<string,float>()
let OldOutWeight : float array = Array.zeroCreate (csvTable2.Rows.Count/2)
for i in 0..(csvTable2.Rows.Count/2)-1 do
    let Weight=DictionaryCSI.Item(array.[i+(csvTable2.Rows.Count/2)])
    OldOutWeight.[i]<- Weight
    DictionaryOldOut.[csvTable2.Rows.[i+csvTable2.Rows.Count/2].Field<string>("Stock")]<- Weight*FundMV //OldOut Moving Value
let OldOutTMVarray=OldOutTMV.ToArray() //create an array of OldOut weights and then sum up
let SumOldOutTMV=Array.fold (+) 0. OldOutTMVarray 

let mutable NewInTMV=0.
let NewInWeight : float array = Array.zeroCreate (csvTable2.Rows.Count/2)
let DictionaryNewIn = Dictionary<string,float>()
let DictionaryNewInWeight = Dictionary<string,float>()
for i in 0..csvTable3.Rows.Count-300-1 do
    let TMV=float(csvTable3.Rows.[i+300].Field<string>(DateInString))
    NewInTMV<-NewInTMV + TMV
    let Weight=TMV/(csiTMV+NewInTMV-SumOldOutTMV)
    let MovingValue=Weight*FundMV
    DictionaryNewIn.[csvTable3.Rows.[i+300].Field<string>("Stock")]<-MovingValue //NewIn Moving Value

let table2array=csvTable2.AsEnumerable().Select(fun (x:DataRow) -> x.Field<string>("Stock")).ToArray()
let NewInturnoverArray : float array = Array.zeroCreate (csvTable2.Rows.Count/2) 
for i in 0..(csvTable2.Rows.Count/2)-1 do  
    let lastday= float(csvTable2.AsEnumerable().Where(fun (x:DataRow) -> x.Field<string>(0) = table2array.[i]).First().Field<string>(DateInString)) 
    let turnover = csvTable2.Rows.[i].ItemArray.Skip(3)|>Seq.map(fun (x:obj)-> System.Double.Parse(x.ToString()))|>Seq.toArray
    let lastdayindex : (int) =
        if lastday= 0. then
            let lastdayfake=float(csvTable2.AsEnumerable().Where(fun (x:DataRow) -> x.Field<string>(0) = table2array.[i+2]).First().Field<string>(DateInString)) 
            let turnoverfake = csvTable2.Rows.[i+2].ItemArray.Skip(3)|>Seq.map(fun (x:obj)-> System.Double.Parse(x.ToString()))|>Seq.toArray
            Array.findIndex(fun elem -> elem=lastdayfake) turnoverfake
            let lastdayfake=lastday
            let turnoverfake=turnover
            Array.findIndex(fun elem -> elem=lastdayfake) turnoverfake
    printfn "%A" lastdayindex
    let TurnoverNeed : float array = Array.zeroCreate 21
    for t in 0..20 do
        TurnoverNeed.[t] <- turnover.[lastdayindex - 20 + t]
    let zerotwo : float array = Array.zeroCreate TurnoverNeed.Length
    if TurnoverNeed=zerotwo then 
        let ave_daily_turnover = 0.
        NewInturnoverArray.[i] <- ave_daily_turnover
        let ave_daily_turnover  = Seq.average(TurnoverNeed|>Seq.filter(fun x-> x > 0.))
        NewInturnoverArray.[i] <- ave_daily_turnover

type totalinfo = {Name:String;Shock:float}
let NewIn=ResizeArray<totalinfo>()
for i in 0..(csvTable2.Rows.Count/2)-1 do
    let MovingValue=DictionaryNewIn.Item(array.[i])
    let Shock=MovingValue/NewInturnoverArray.[i]
    let V= {Name=string(array.[i]); Shock=Shock}
let NewInShock=NewIn.ToArray()

let OldOutturnoverArray : float array = Array.zeroCreate (csvTable2.Rows.Count/2)
for i in 0..(csvTable2.Rows.Count/2)-1 do   
    let turnover = csvTable2.Rows.[i+csvTable2.Rows.Count/2].ItemArray.Skip(3)|>Seq.map(fun (x:obj)-> System.Double.Parse(x.ToString()))
    let zero : float array = Array.zeroCreate (turnover|>Seq.toArray).Length
    if turnover|>Seq.toArray=zero then
        let ave_daily_turnover  = 0.
        OldOutturnoverArray.[i] <- ave_daily_turnover
        let ave_daily_turnover  = Seq.average(turnover|>Seq.filter(fun x-> x > 0.))
        OldOutturnoverArray.[i] <- ave_daily_turnover

let OldOut=ResizeArray<totalinfo>()
for i in 0..(csvTable2.Rows.Count/2)-1 do
    let MovingValue=DictionaryOldOut.Item(array.[i+csvTable2.Rows.Count/2])
    let Shock=MovingValue/OldOutturnoverArray.[i]
    let V= {Name=string(array.[i+csvTable2.Rows.Count/2]); Shock=Shock}
let OldOutShock=OldOut.ToArray()

let DoIn=NewInShock |> Array.filter (fun t -> t.Shock >= shreshold)
let DoOut=OldOutShock |> Array.filter (fun t -> t.Shock >= shreshold)

let DoInTicker= Array.map (fun e -> e.Name) DoIn
let DoOutTicker= Array.map (fun e -> e.Name) DoOut

let DoInWeight : float array = Array.zeroCreate DoInTicker.Length
for i in 0..DoInTicker.Length-1 do
    DoInWeight.[i] <- DictionaryNewInWeight.Item(DoInTicker.[i])

let TotalDoInWeight= Array.fold (+) 0.  DoInWeight
let DoInRatioX : float array = Array.zeroCreate DoInTicker.Length
for i in 0..(DoInTicker.Length)-1 do  
    DoInRatioX.[i] <- DoInWeight.[i]/TotalDoInWeight
let Beta=csvTable2.AsEnumerable().Select(fun (x:DataRow) -> x.Field<string>("Beta")).ToArray()
//let NewInBeta : float array = Array.zeroCreate (csvTable2.Rows.Count/2)
let DictionaryNewInBeta = Dictionary<string,float>()
for i in 0..(csvTable2.Rows.Count/2)-1 do  
//    NewInBeta.[i] <- float(Beta.[i])
let DoInBeta : float array = Array.zeroCreate DoInTicker.Length
for i in 0..DoInTicker.Length-1 do
    DoInBeta.[i] <- DictionaryNewInBeta.Item(DoInTicker.[i])

let mutable PortfolioBeta=0.
for i in 0..(DoInTicker.Length)-1 do
    PortfolioBeta <- PortfolioBeta + DoInRatioX.[i] * DoInBeta.[i] 

let mutable PortfolioReturn= 0.
for i in 0..DoInTicker.Length-1 do
    let PriceIn= float(csvTable4.AsEnumerable().Where(fun (x:DataRow) -> x.Field<string>(0) = DoInTicker.[i]).First().Field<string>(DateInString))
    let PriceOut= float(csvTable4.AsEnumerable().Where(fun (x:DataRow) -> x.Field<string>(0) = DoInTicker.[i]).First().Field<string>(DateOutString))
    PortfolioReturn <- PortfolioReturn + (1./float(DoInTicker.Length))*(PriceOut - PriceIn)/PriceIn

let IndexIn= float(csvTable4.AsEnumerable().Where(fun (x:DataRow) -> x.Field<string>(0) = "000300.SH").First().Field<string>(DateInString))
let IndexOut= float(csvTable4.AsEnumerable().Where(fun (x:DataRow) -> x.Field<string>(0) = "000300.SH").First().Field<string>(DateOutString))
let MarketReturn= (IndexOut-IndexIn)/IndexIn
let Alpha= PortfolioReturn-Rf-PortfolioBeta*(MarketReturn-Rf)
share|improve this question

closed as not constructive by Gene T, ildjarn, bensiu, brian d foy, dreamcrash Jan 18 '13 at 4:11

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

Not quite getting what you're wanting the program to do here. Could you give a scaled down example of the code you don't want to have to write? –  YotaXP Jan 17 '13 at 8:23
Your code does not look scaled down enough in terms of getting help with just applying a function to a set of 30 values. Just wrap the whole thing into a function taking these three arguments (instead of hard-coded constants as they are now) and return what is supposed to return. Then use Tomas' answer to apply different arguments to your newly created function. –  bytebuster Jan 17 '13 at 9:00
-1 That is a huge amount of code to expect people here to read through, and non-idiomatic code at that. Please see sscce.org, with an emphasis on short. ;-] –  ildjarn Jan 17 '13 at 19:42
Sorry for not scaling down my code, but I don't expect people to read through all of it. I just want to give an idea of what my parameters are and what I am returning. –  user1934312 Jan 18 '13 at 8:34

3 Answers 3

up vote 1 down vote accepted

Like John said, put it all into a function accepting the changing values as parameters. To can use records to allow you to store the parameter combinations in a list, like so.

type ReportParameters = {
    shreshold: float;
    ReportDate: string;
    ExeDate: string;
    WeeksBfReport: int;
    DaysBfExecution: int;
    Rf: float;

type Report = {
    NewInShock: totalinfo;
    IndexIn: float;
    // etc

let createReport (reportParams:ReportParameters) : Report = 
    let shreshold = reportParams.shreshold
    let ReportDate = reportParams.ReportDate
    let ExeDate = reportParams.ExeDate
    let WeeksBfReport = reportParams.WeeksBfReport
    let DaysBfExecution = reportParams.DaysBfExecution
    let Rf = reportParams.Rf

    // Your function code HERE
    // Remember to move all type definitions out of this scope.

    { // Report data to return.
        NewInShock = NewInShock;
        IndexIn = IndexIn;
        // etc

Using the code is as simple as this:

let reportsToBeGenerated = [
    { shreshold = 2.0; ReportDate = "2008/12/15"; ExeDate = "2009/01/05"; WeeksBfReport = 1; DaysBfExecution = 3; Rf = 0.01 };
    { shreshold = 1.5; ReportDate = "2009/12/15"; ExeDate = "2010/01/05"; WeeksBfReport = 2; DaysBfExecution = 2; Rf = 0.01 };

let reports = reportsToBeGenerated |> List.map createReport
share|improve this answer
Thanks for being so patient looking my code and this is exactly what I want. –  user1934312 Jan 18 '13 at 8:31

I'm also not entirely sure what you need (what are other constraints and the motivation), but if you have some interactive code that makes a single calculation, say:

let x = 10
let y = x * x

You can turn it into code that does the same calculation on multiple inputs using e.g. lists:

let xs = [1; 10; 100]
let ys = [ for x in xs -> x * x ]

But as mentioned earlier, it depends on what you actually want to achieve - if you can add a realistic example of what you're trying to do, that would be useful.

share|improve this answer
Thanks for your comment, I've added my codes and I hope it is clear now what I need. –  user1934312 Jan 17 '13 at 8:55

Looking at your code you want to do something like this

let run shreshold ReportDate ExeDate WeeksBfReport DaysBfExecution  Rf =
    //The entire rest of the code indented - you may want to return alpha etc

Then you can just plug in the parameter values

share|improve this answer
Do I have to contain all the parameters in the last line if I use this? –  user1934312 Jan 17 '13 at 10:15
@user1934312 - yes –  John Palmer Jan 17 '13 at 11:33

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