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script.fsx
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#load "config.fsx"
#load "packages/FsLab/FsLab.fsx"
#load "packages/FSharp.Azure.StorageTypeProvider/StorageTypeProvider.fsx"
open System
open FSharp.Data
open Microsoft.WindowsAzure.Storage
// ------------------------------------------------------------------------------------------------
// Azure connection
// ------------------------------------------------------------------------------------------------
// Sending sample request to the logging service
Http.RequestString
( "http://thegamma-logs.azurewebsites.net/log/test/", httpMethod="POST",
body=HttpRequestBody.TextRequest "testing..." )
// Read the logs from Azure storage
let getContainer key =
let account = CloudStorageAccount.Parse(Connection.TheGammaLogStorage)
let client = account.CreateCloudBlobClient()
client.GetContainerReference(key)
// List all log files
let logs = getContainer "turingstudy"
for log in logs.GetDirectoryReference("").ListBlobs() do
printfn " - %s" (Seq.last log.Uri.Segments)
// List all log files & read their contents
for log in logs.GetDirectoryReference("").ListBlobs() do
printfn "\n\n%s\n%s" (Seq.last log.Uri.Segments) (Seq.last log.Uri.Segments |> String.map (fun _ -> '-'))
logs.GetAppendBlobReference(log.Uri.Segments |> Seq.last).DownloadText() |> printfn "%s"
// Download all files to a local folder with logs
let downloadAll key =
let root = __SOURCE_DIRECTORY__ + "/logs/" + key
if not (IO.Directory.Exists root) then IO.Directory.CreateDirectory root |> ignore
let logs = getContainer key
for log in logs.GetDirectoryReference("").ListBlobs() do
printfn " - %s" (Seq.last log.Uri.Segments)
let file = Seq.last log.Uri.Segments
let localFile = root + "/" + file
if not (IO.File.Exists localFile) then
printfn " ...downloading..."
logs.GetBlobReference(file).DownloadToFile(localFile, IO.FileMode.Create)
downloadAll "olympics"
downloadAll "turing"
downloadAll "datavizstudy"
downloadAll "histogram"
downloadAll "turingstudy"
// ------------------------------------------------------------------------------------------------
// Logs analaysis for Olympics
// ------------------------------------------------------------------------------------------------
open XPlot.GoogleCharts
let [<Literal>] olympicsSample = __SOURCE_DIRECTORY__ + "/samples/olympics.json"
let olympicsRoot = __SOURCE_DIRECTORY__ + "/logs/olympics"
type Olympics = JsonProvider<olympicsSample>
let olympicsJson =
[ for f in IO.Directory.GetFiles(olympicsRoot) do
for l in IO.File.ReadAllLines(f) do
if not (String.IsNullOrWhiteSpace l) && l <> "testing..." then yield l ] |> String.concat ","
let olympics = Olympics.Parse("[" + olympicsJson + "]")
olympics
|> Seq.filter (fun a -> a.Event.IsNone)
|> Seq.iter (fun e -> printfn "%O" e.Time.Date)
olympics
|> Seq.countBy (fun a -> defaultArg a.Event "?")
|> Chart.Column
olympics
|> Seq.countBy (fun d -> d.Time.Day)
|> Chart.Column
olympics
|> Seq.countBy (fun d -> d.Category + ", " + (defaultArg d.Event ""))
|> Seq.filter (fun (e, c) -> c > 200)
|> Chart.Column
let topUsers =
olympics
|> Seq.countBy (fun d -> d.User.ToString())
|> Seq.filter (fun (u, c) -> c > 50)
|> Seq.map fst |> set
olympics
|> Seq.filter (fun e -> e.Event = Some "loaded" && topUsers.Contains (e.User.ToString()))
|> Seq.map (fun e -> e.Data.String, e.User)
|> Seq.distinct
|> Seq.iter (printfn "%O")
// ------------------------------------------------------------------------------------------------
// Logs analaysis for Turing
// ------------------------------------------------------------------------------------------------
open XPlot.GoogleCharts
open System.Windows.Forms
let play strings = Async.StartImmediate <| async {
use f = new Form(TopMost=true, Visible=true, Width=1200, Height=800)
use t = new Label(Dock=DockStyle.Fill, Font = new Drawing.Font("consolas", 16.f))
f.Controls.Add(t)
do! Async.Sleep(2000)
let mutable i = 0
let len = Seq.length strings
for s in strings do
t.Text <- s
f.Text <- sprintf "%d/%d" i len
i <- i + 1
do! Async.Sleep(250) }
let [<Literal>] turingSample = __SOURCE_DIRECTORY__ + "/samples/turing.json"
let turingRoot = __SOURCE_DIRECTORY__ + "/logs/turing"
type Turing = JsonProvider<turingSample>
let turingJson =
[ for f in IO.Directory.GetFiles(turingRoot) do
for l in IO.File.ReadAllLines(f) do
if not (String.IsNullOrWhiteSpace l) && l <> "testing..." then yield l ] |> String.concat ","
let turing =
Turing.Parse("[" + turingJson + "]")
|> Array.filter (fun e -> e.Url.Contains("gamma.turing.ac.uk"))
turing
|> Seq.countBy (fun e -> e.Time.Month, e.Time.Day)
|> Seq.map (fun ((m,d), n) -> sprintf "%d/%d" d m, n)
|> Chart.Bar
turing
|> Seq.filter (fun e -> e.Event="completions")
|> Seq.countBy (fun e -> e.User)
|> Seq.sortBy snd
|> Seq.iter (printfn "%A")
turing
|> Seq.filter (fun e -> e.Event="completions")
|> Seq.map (fun e -> e.Data.Record.Value.Source.Value)
|> play
turing
|> Seq.countBy (fun e -> e.Category, e.Event)
|> Seq.sortByDescending snd
|> Seq.iter (fun ((c,e),n) -> printfn "(%d) %s - %s" n c e)
turing
|> Seq.filter (fun e -> e.Category = "source" && e.Event = "update")
|> Seq.map (fun e -> e.Data.String.Value)
|> Seq.countBy (fun s -> s.Contains "let data", s.Contains "topThreeSpendings", s.Contains "Top4SpendsForSocialProtection")
turing
|> Seq.filter (fun e -> e.Category = "source" && e.Event = "update")
|> Seq.map (fun e -> e.Data.String.Value)
|> Seq.filter (fun s -> not (s.Contains "let data"))
turing
|> Seq.filter (fun e -> e.Category = "interactive" && e.Event = "completed")
|> Seq.countBy (fun e -> e.Element)
turing
|> Seq.filter (fun e -> e.Event = "exception")
let realign actual guesses =
let guesses = dict guesses
let mutable last = None
[| for k, v in actual ->
if guesses.ContainsKey k then last <- Some guesses.[k]; k, guesses.[k]
elif last.IsSome then k, last.Value
else k, v |]
let lightColors = seq {
while true do
for c1 in ["ff"; "dd"; "bb"] do
for c2 in ["dd"; "ff"; "bb"] do
for c3 in ["99"; "bb"; "dd"] do
yield "#" + c1 + c2 + c3 }
let shuffle s =
let rnd = System.Random()
s |> Seq.map (fun v -> rnd.Next(), v) |> Seq.sortBy fst |> Seq.map snd
let lineGuesses id =
let all =
turing
|> Seq.filter (fun e -> e.Category = "interactive" && e.Event = "completed")
|> Seq.map (fun e -> e.Element.Value, e.Data.Record)
|> Seq.filter (fun (e, v) -> e = id)
let actual =
all |> Seq.map (fun (_, v) -> v.Value.Values |> Array.map (fun g -> int g.Numbers.[0], float g.Numbers.[1])) |> Seq.head
let guesses =
all |> Seq.map (fun (_, v) -> v.Value.Guess |> Array.map (fun g -> int g.Numbers.[0], float g.Numbers.[1]) |> realign actual)
let colors = lightColors |> Seq.take (Seq.length guesses)
Seq.append guesses [actual]
|> Chart.Line
|> Chart.WithOptions(Options(colors=Array.append (Array.ofSeq colors) [| "black" |] ))
let barGuesses id =
let all =
turing
|> Seq.filter (fun e -> e.Category = "interactive" && e.Event = "completed")
|> Seq.map (fun e -> e.Element.Value, e.Data.Record)
|> Seq.filter (fun (e, v) -> e = id)
let actual =
all |> Seq.map (fun (_, v) -> v.Value.Values |> Array.map (fun g -> g.JsonValue.AsArray().[0].AsString(), g.JsonValue.AsArray().[1].AsFloat())) |> Seq.head
let guesses =
all |> Seq.map (fun (_, v) -> v.Value.Guess |> Array.map (fun g -> g.JsonValue.AsArray().[0].AsString(), g.JsonValue.AsArray().[1].AsFloat()) |> dict)
let colors = Seq.append ["black"] (lightColors |> Seq.take (Seq.length guesses) |> shuffle)
Chart.Bar
[ yield actual
for g in guesses -> [| for k, _ in actual -> k, g.[k] |] ]
|> Chart.WithOptions(Options(colors=Array.ofSeq colors ))
lineGuesses "thegamma-scienceAndTech-out"
lineGuesses "thegamma-greenGovernment-out"
barGuesses "thegamma-grossDomesticProduct-out"
// ------------------------------------------------------------------------------------------------
// Logs analaysis for Dataviz study
// ------------------------------------------------------------------------------------------------
open XPlot.GoogleCharts
let [<Literal>] datavizSample = __SOURCE_DIRECTORY__ + "/samples/dataviz.json"
let datavizRoot = __SOURCE_DIRECTORY__ + "/logs/datavizstudy"
type Dataviz = JsonProvider<datavizSample>
let datavizJson =
[ for f in IO.Directory.GetFiles(datavizRoot) do
for l in IO.File.ReadAllLines(f) do
if not (String.IsNullOrWhiteSpace l) && l <> "testing..." then yield l ] |> String.concat ","
let dataviz =
Dataviz.Parse("[" + datavizJson + "]")
|> Array.filter (fun e -> e.Url.Contains("dataviz-study.azurewebsites.net"))
// Unique Prolific IDs
dataviz
|> Seq.choose (fun e -> e.Data.Record)
|> Seq.choose (fun e -> e.Prolificid)
|> Seq.distinct
|> Seq.iter (printfn "%s")
let read file = System.IO.File.ReadAllLines(__SOURCE_DIRECTORY__ + "/data/" + file)
let pids = read "pids.txt"
let university = read "uni.txt" |> set
type Answers =
{ share1: int
share2: int
q1: string
q2: string
q3: string
q4: string }
type Info =
{ university: bool
mode: string
time: float
backbutton: bool
completed: list<Map<string,(float * float)>>
answers: Answers }
// let pid = "558aab19fdf99b65685f0142"
let printEventsFor pid =
let info =
dataviz |> Array.find (fun e ->
e.Category = "user" && e.Event = "info" &&
e.Data.Record.IsSome && e.Data.Record.Value.Prolificid = Some pid)
let user = info.User
let events =
dataviz |> Array.filter (fun e -> e.User = user)
for e in events do
printfn "%s %s %s" e.Category e.Event (defaultArg e.Element "")
let info =
[ for pid in pids do
printfn "\n%s" pid
if pid <> "5b2465d4007d870001c7926a" && pid <> "5b7341a7543d1c0001c80a26" &&
pid <> "581fd4d3a099610001b702a2" && pid <> "5ac54531e1546900019c0487" &&
pid <> "5b27416a7297750001c7183d" && pid <> "5b245c2e007d870001c7915f" &&
pid <> "558aab19fdf99b65685f0142"
then
let info =
dataviz |> Array.find (fun e ->
e.Category = "user" && e.Event = "info" &&
e.Data.Record.IsSome && e.Data.Record.Value.Prolificid = Some pid)
let user = info.User
let events =
dataviz |> Array.filter (fun e -> e.User = user)
let times =
events |> Array.map (fun e -> e.Time)
let time = (Array.max times) - (Array.min times)
let res =
events
|> Seq.filter (fun e -> e.Event = "loaded")
|> Seq.choose (fun e -> e.Element) |> String.concat " "
let back = (res.Substring(res.IndexOf("step5")+5)).Contains("step3")
let load3 = events |> Seq.pick (fun e -> if e.Element = Some "step3" && e.Event = "loaded" then Some e.Time else None)
let load5 = events |> Seq.pick (fun e -> if e.Element = Some "step5" && e.Event = "loaded" then Some e.Time else None)
//yield (load5 - load3).TotalMinutes
let mode =
if not (events |> Seq.choose (fun e -> e.Data.Record) |> Seq.pick (fun r -> r.Visual)) then "image"
elif not (events |> Seq.choose (fun e -> e.Data.Record) |> Seq.pick (fun r -> r.Interactive)) then "chart"
else "interactive"
let asMap (guesses:Dataviz.DecimalOrString[]) (values:Dataviz.DecimalOrString[]) =
let guesses = guesses |> Array.sortBy (fun g -> g.JsonValue.AsArray().[0].AsString())
let values = values |> Array.sortBy (fun g -> g.JsonValue.AsArray().[0].AsString())
let map = (guesses, values) ||> Array.map2 (fun g v ->
if g.JsonValue.AsArray().[0].AsString() <> v.JsonValue.AsArray().[0].AsString() then failwith "oops"
g.JsonValue.AsArray().[0].AsString(),
( v.JsonValue.AsArray().[1].AsFloat(),
g.JsonValue.AsArray().[1].AsFloat() ) ) |> Map.ofSeq
if map.ContainsKey "Miscellaneous" then Map.ofSeq [ for k,v in Map.toSeq map -> k + " (China exports)", v ]
elif map.ContainsKey "Vegetable Products" then Map.ofSeq [ for k,v in Map.toSeq map -> k + " (US exports)", v ]
else map
let completed =
events |> Seq.choose (fun e -> if e.Event <> "completed" then None else e.Data.Record)
|> Seq.map (fun r -> asMap r.Guess r.Values)
let answers =
events |> Seq.choose (fun e -> e.Data.Record) |> Seq.pick (fun r ->
match defaultArg r.Question1 "", r.Question2, r.Question3, r.Question4, r.Question5, r.Share1, r.Share2 with
| q1, Some q2a, Some q2b, Some q3, Some q4, Some s1, Some s2 ->
Some { share1=s1; share2=s2; q1=q1; q2=q2a+" "+q2b; q3=q3; q4=q4 }
| _ -> None)
printfn " events: %d" (events |> Seq.length)
printfn " time: %.2f" (time.TotalMinutes)
printfn " mode: %s" mode
yield { backbutton=back; university=university.Contains pid; mode=mode; time=time.TotalMinutes; answers=answers; completed = List.ofSeq completed } ]
info |> Seq.filter (fun e -> e.backbutton) |> Seq.map (fun e -> e.answers.q1) |> List.ofSeq
let mid = info |> Seq.map (fun u -> u.time) |> Seq.sort |> Seq.item 46
let finfo = info
finfo |> Seq.length
finfo |> Seq.countBy (fun u -> u.mode)
//let finfo = info |> Seq.filter (fun u -> u.time < mid)
//let finfo = info |> Seq.filter (fun u -> u.university)
// TIME: How long it took people to complete?
let parseNumber (n:string) =
if n = "" then nan else
let i = n |> String.filter Char.IsNumber |> int64
if i < 10000L then float i else float (i / 1000000000000L)
let modes = ["interactive";"image";"chart"]
let data1 =
[ for mode in modes ->
[ for i, v in Seq.indexed finfo do
if v.mode = mode then yield i, v.time ] ]
Chart.Scatter(data1) |> Chart.WithLabels modes
data1 |> Seq.map (Seq.averageBy snd) |> Seq.zip modes
// Q1: Average guess of exports from US to China
let data2 =
[ for mode in modes ->
[ for i, v in Seq.indexed finfo do
let f = parseNumber v.answers.q1
// if f < 700.0 then
// if f <> 122.0 then
// if f < 120.0 || f > 123.0 then
if not (Double.IsNaN f) then
if v.mode = mode then yield i, f ] ]
[ for v in finfo -> v.mode, 122.0 = parseNumber v.answers.q1 ]
|> Seq.countBy id
|> Seq.toList
Chart.Scatter(data2) |> Chart.WithLabels modes
data2 |> Seq.map (Seq.averageBy snd) |> Seq.zip modes
data2 |> Seq.map (fun data ->
let exact = data |> Seq.filter (fun v -> snd v = 122.0) |> Seq.length
float exact / float (Seq.length data) ) |> Seq.zip modes
// Q2: How many people got this right?
finfo |> Seq.map (fun v -> v.answers.q2) |> Seq.distinct |> Seq.iter (printfn "%s")
let data3 =
[ for mode in modes ->
[ for i, v in Seq.indexed finfo do
if v.mode = mode then yield i, v.answers.q2= "machines transportation" || v.answers.q2 = "transportation machines" ] ]
data3 |> Seq.map (fun d ->
let right = Seq.filter snd d |> Seq.length
float right / float (Seq.length d), right, Seq.length d ) |> Seq.zip modes
// SHARE: How likely are people to share?
let data4 =
[ [ for i, v in Seq.indexed finfo do
yield i, v.answers.share2 ] ] @
[ for mode in modes ->
[ for i, v in Seq.indexed finfo do
if v.mode = mode then yield i, v.answers.share1 ] ]
let labels = "Share 2" :: (List.map (sprintf "Share 1 (%s)") modes)
Chart.Scatter(data4)
|> Chart.WithOptions(Options(colors=[|"#e0e0e0"; "blue";"red";"orange"|]))
|> Chart.WithLabels labels
data4 |> Seq.map (Seq.averageBy (snd >> float)) |> Seq.zip ("share2"::modes)
// GUESS: How good guesses people make?
let getKeys a b c =
[
if a then yield "Total exports to USA from China"
if a then yield "Total exports to China from USA"
if a then yield "Tariffs on exports to USA from China"
if a then yield "Tariffs on exports to China from USA"
if b then yield "Machines (China exports)"
if b then yield "Metals (China exports)"
if b then yield "Miscellaneous (China exports)"
if b then yield "Plastics and Rubbers (China exports)"
if b then yield "Textiles (China exports)"
if c then yield "Chemical Products (US exports)"
if c then yield "Instruments (US exports)"
if c then yield "Machines (US exports)"
if c then yield "Transportation (US exports)"
if c then yield "Vegetable Products (US exports)"
]
let keys = getKeys true false false
let append m1 m2 = Map.toList m1 |> List.fold (fun m (k, v) -> Map.add k v m) m2
let maps =
finfo |> Seq.choose (fun v ->
if List.isEmpty v.completed then None else
Some(v.university, List.reduce append v.completed) )
let _, ans = maps |> Seq.head
let rnd = System.Random()
let clr () = "#" + String.concat "" [ for i in 1 .. 6 -> string "89abcdef".[rnd.Next("89abcdef".Length)] ]
let colors = "black"::[for i in 0 .. 100 -> clr()]
[ yield [ for k in keys -> k, fst ans.[k] ]
for _, ans in maps -> [ for k in keys -> k, snd ans.[k] ] ]
|> Chart.Scatter
|> Chart.WithOptions(Options(colors=Array.ofSeq colors))
|> Chart.WithLabels ("Value"::[for i, (u, _) in Seq.indexed maps -> sprintf "Guess %d (%s)" i (if u then "U" else "X") ])
// Q1: Does university matter
let uni = [true;false]
let data5 =
[ for u in uni ->
[ for i, v in Seq.indexed finfo do
let f = parseNumber v.answers.q1
if not (Double.IsNaN f) then
if v.university = u then yield i, f ] ]
Chart.Scatter(data5) |> Chart.WithLabels (List.map string uni)
// Q2: Does university matter
let data6 =
finfo
|> Seq.countBy (fun v -> v.mode, v.university, v.answers.q2= "machines transportation" || v.answers.q2 = "transportation machines" )
|> Seq.map (fun ((m, u, c), n) -> (if u then "Uni" else "None") + (if c then "Correct" else "Wrong"), (m, n))
|> Seq.groupBy fst
data6
|> Seq.map (fun (_, v) -> Seq.map snd v)
|> Chart.Column
|> Chart.WithOptions(Options(vAxis=Axis(minValue=0)))
|> Chart.WithLabels (Seq.map fst data6)
// Export likes
type Csv1 = CsvProvider<"Group (string), Value (int), Education (string)">
let exp1 =
[ for i, v in Seq.indexed finfo ->
Csv1.Row(v.mode, v.answers.share1, if v.university then "university" else "none") ] //@
System.IO.File.Delete("C:/temp/exp.csv")
Csv1.GetSample().Append(exp1).Save("C:/temp/exp.csv")
let exp1b =
[ for v in finfo ->
Csv1.Row("tariffs", v.answers.share1, if v.university then "university" else "none") ] @
[ for v in finfo ->
Csv1.Row("movies", v.answers.share2, if v.university then "university" else "none") ]
System.IO.File.Delete("C:/temp/exp1b.csv")
Csv1.GetSample().Append(exp1b).Save("C:/temp/exp1b.csv")
// Export guesses
type Csv2 = CsvProvider<"Group (string), Guess (string), Education (string)">
let exp2 =
[ for v in finfo ->
let s =
(if v.answers.q2.Contains("machines") then "Mach" else "") +
(if v.answers.q2.Contains("transportation") then "Trans" else "")
let s = if s = "" then "Nothing" else s
Csv2.Row(v.mode, s, if v.university then "University" else "None") ]
System.IO.File.Delete("C:/temp/exp2.csv")
Csv2.GetSample().Append(exp2).Save("C:/temp/exp2.csv")
// Export likes of Q2
type Csv3 = CsvProvider<"Group (string), Value (int)">
let exp3 =
[ for i, v in Seq.indexed finfo ->
Csv3.Row("static", v.answers.share2) ]
Csv3.GetSample().Append(exp3).Save("C:/temp/exp3.csv")
//
let exp4 =
[ for v in finfo do
let f = parseNumber v.answers.q1
if not (Double.IsNaN f) then
yield Csv1.Row(v.mode, int f, if v.university then "University" else "None") ]
System.IO.File.Delete("C:/temp/exp4.csv")
Csv1.GetSample().Append(exp4).Save("C:/temp/exp4.csv")
// ------------------------------------------------------------------------------------------------
// Logs analaysis for Histogram
// ------------------------------------------------------------------------------------------------
open XPlot.GoogleCharts
let [<Literal>] histogramSample = __SOURCE_DIRECTORY__ + "/samples/histogram.json"
let histogramRoot = __SOURCE_DIRECTORY__ + "/logs/histogram"
type Histogram = JsonProvider<histogramSample>
let histogramJson =
[ for f in IO.Directory.GetFiles(histogramRoot) do
for l in IO.File.ReadAllLines(f) do
if not (String.IsNullOrWhiteSpace l) && l <> "testing..." then yield l ] |> String.concat ","
let histogram = Histogram.Parse("[" + histogramJson + "]")
histogram
|> Seq.countBy (fun e -> e.Event)
histogram
|> Seq.filter (fun e -> e.Event = "event")
|> Seq.map (fun e -> e.Data.Record.Value.Kind)
|> Seq.iter (printfn "%A")
// ------------------------------------------------------------------------------------------------
// Logs analaysis for Turing study
// ------------------------------------------------------------------------------------------------
open XPlot.GoogleCharts
let [<Literal>] turingStudySample = __SOURCE_DIRECTORY__ + "/samples/turingstudy.json"
let turingStudyRoot = __SOURCE_DIRECTORY__ + "/logs/turingstudy"
type TuringStudy = JsonProvider<turingStudySample>
let turingStudyJson =
[ for f in IO.Directory.GetFiles(turingStudyRoot) do
yield! IO.File.ReadAllLines(f) ] |> String.concat ","
let turingStudy = TuringStudy.Parse("[" + turingStudyJson + "]")
turingStudy
|> Seq.countBy (fun e -> string e.User)
|> List.ofSeq
turingStudy
|> Seq.choose (fun e -> match e.User, e.Data with Some u, Some d -> Some(u, d, e.Time) | _ -> None)
|> Seq.choose (fun (u, d, t) -> match d.Name, d.Email with Some n, Some e -> Some(u, n, e, t) | _ -> None)
|> Seq.iter (fun (u, n, e, t) -> printfn "%s (%s) %O\n%A\n" n e t u)
turingStudy
|> Seq.choose (fun e -> match e.User, e.Data with Some u, Some d -> Some(u, d, e.Time) | _ -> None)
|> Seq.choose (fun (u, d, t) -> match d.Name, d.Email with Some n, Some e -> Some(u, n, e, t) | _ -> None)
|> Seq.iter (fun (u, n, e, t) -> printfn "%s" e)
turingStudy
|> Seq.choose (fun e -> match e.User, e.Data with Some u, Some d -> Some(u, d, e.Time) | _ -> None)
|> Seq.choose (fun (u, d, t) -> match d.Name, d.Email with Some n, Some e -> Some(u, n, e, t) | _ -> None)
|> Seq.map (fun (u, n, e, t) ->
let times = turingStudy |> Seq.filter (fun e -> e.User = Some u) |> Seq.map (fun e -> e.Time) |> Seq.sort
let times' = times |> Seq.take (Seq.length times - 10)
n, Seq.min(times).ToString(), Seq.max(times).ToString(), (Seq.max(times) - Seq.min(times)).TotalMinutes, (Seq.max(times') - Seq.min(times')).TotalMinutes )
|> Seq.iter (fun (n, _, _, t, t') -> printfn "%s\n %f\t%f" n t t')
turingStudy
|> Seq.choose (fun e -> match e.User, e.Data with Some u, Some d -> Some(u, d, e.Time) | _ -> None)
|> Seq.choose (fun (u, d, t) -> match d.Name, d.Email with Some n, Some e -> Some(u, n, e, t) | _ -> None)
|> Seq.map (fun (u, n, e, t) ->
let times = turingStudy |> Seq.filter (fun e -> e.User = Some u) |> Seq.map (fun e -> e.Time) |> Seq.sort
let times' = times |> Seq.skip 10 |> Seq.take (Seq.length times - 10)
n, u, Seq.min(times).ToString(), Seq.max(times).ToString(), (Seq.max(times) - Seq.min(times)).TotalMinutes, (Seq.max(times') - Seq.min(times')).TotalMinutes )
|> Seq.filter (fun (n, _, _, _, t, t') -> n.Contains("Petricek") |> not)
//|> Seq.iter (fun (n, i, _, _, t, t') -> printfn "%s (%O)\n %f\t%f" n i t t')
|> Seq.averageBy (fun (n, _, _, _, t, t') -> t')
turingStudy
|> Seq.filter (fun e -> string e.User = "Some(5e80a28b-96f9-4de7-b321-896c8c48e05a)")
|> Seq.map (fun e -> e.Category, e.Event, e.Data)
|> Seq.iter (printfn "%A")
open System.Windows.Forms
let showCodes (codes:seq<DateTime * string>) =
let codes = Array.ofSeq codes
let form = new Form(TopMost=true,Visible=true)
let pan = new Panel(Height=30)
let btn = new Button(Text="|>")
btn.Dock <- DockStyle.Left
let tb = new TrackBar()
tb.Dock <- DockStyle.Fill
pan.Dock <- DockStyle.Top
pan.Controls.Add(tb)
pan.Controls.Add(btn)
let lbl = new Label(Text="...")
lbl.Font <- new Drawing.Font("Monaco", 10.0f)
lbl.Dock <- DockStyle.Fill
form.Controls.Add(lbl)
form.Controls.Add(pan)
tb.Minimum <- 0
tb.Maximum <- (Seq.length codes - 1)
let play = async {
for i in tb.Value .. tb.Maximum do
lbl.Text <- snd codes.[i]
tb.Value <- i
form.Text <- (fst codes.[i]).ToString()
do! Async.Sleep(60) }
let mutable cts = new System.Threading.CancellationTokenSource()
tb.Click.Add(fun _ ->
cts.Cancel() )
tb.ValueChanged.Add(fun _ ->
lbl.Text <- snd codes.[tb.Value]
form.Text <- (fst codes.[tb.Value]).ToString() )
btn.Click.Add(fun _ ->
if btn.Text = "|>" then
cts <- new System.Threading.CancellationTokenSource()
Async.StartImmediate(play, cts.Token)
btn.Text <- "||"
else
cts.Cancel()
btn.Text <- "|>" )
turingStudy
|> Seq.filter (fun e -> string e.User = "Some(a8bdfb27-d710-4cae-9f13-51cadcba432f)")
|> Seq.choose (fun e -> match e.Data with Some d -> Some(e.Time, d) | _ -> None)
|> Seq.choose (fun (t, d) -> match d.Source with Some s -> Some(t, s) | _ -> None)
|> showCodes