PerryXDeng-wheatyeeters/data_preparation/createWorkSequenceData.R

source("readData.R")

library(tidyverse)


RPEData <-readNArpeData()


numDays <- max(RPEData$TimeSinceAugFirst)


dayList <- 0:numDays
workLoad <- c()
averageWorkLoad <- c()


for(day in dayList)
{
  daylyActivities <- subset(RPEData, TimeSinceAugFirst == day)
  cat("day: ", day, "\n",sep="")
  cat("Activity count:", length(daylyActivities$DailyLoad), "\n", sep="")
  
  averageWorkLoad <- c(averageWorkLoad, mean(daylyActivities$SessionLoad, na.rm = T))
  workLoad <- c(workLoad, sum(daylyActivities$SessionLoad, na.rm = T))
}
plot(dayList, averageWorkLoad, main="Average Work Load")
plot(dayList, workLoad, main="Daily Total Work Load")





fatigueFunction <- function(workLoad, index)
{
  if(index == 1)
  {
    return(workLoad[1])
  }
  else
  {
    return(workLoad[index] + (exp(1)^(-1/15))*fatigueFunction(workLoad, index -1))
  }
}

smoothedWork <- c()
for(day in dayList)
{
  smoothedWork <- c(smoothedWork, fatigueFunction(workLoad, day + 1))
}

plot(dayList, smoothedFatigue)





fatigueData <- readFatigueSums()

dayNum <- max(fatigueData$TimeSinceAugFirst)

dayList <- 0:dayNum


slidingAverage <- c()
window <- 21 - 1
for(day in window:dayNum)
{
  windowAverage <- mean(fatigueData$fatigueSum[c((day-window):day)], na.rm = T)
  
  slidingAverage <- c(slidingAverage, windowAverage)
}

smoothedFatigueData <- c()
for(day in dayList)
{
  smoothedFatigueData <- c(smoothedFatigueData, fatigueFunction(fatigueData$fatigueSum, day + 1))
}

plot(dayList, smoothedFatigueData)


workTibble <- tibble(day = dayList, totalWork = workLoad, 
                     averageWorkLoad = averageWorkLoad, 
                     smoothedWork = smoothedWork,
                     smoothedFatigueData = smoothedFatigueData)

workGraph <- ggplot(data = workTibble) + 
  theme(plot.title = element_text(hjust = 0.5)) + 
  ggtitle("Team's Smoothed Work") + 
  geom_point(mapping = aes(x=day, y=smoothedWork)) + 
  labs(x = "Days Since August First 2017", y = "Teams Training Work")+ 
  theme_bw()

fatGraph <- ggplot(data = workTibble) + 
  theme(plot.title = element_text(hjust = 0.5)) + 
  ggtitle("Team's Percieved Fatigue") + 
  geom_point(mapping = aes(x=day, y=smoothedFatigueData)) + 
  labs(x = "Days Since August First 2017", y = "Teams Average Normalized Fatigue")+ 
  theme_bw()


for(gameDay in games$Date)
{
  fatGraph <- fatGraph + geom_vline(xintercept = gameDay, linetype="dotted", 
                                      color = "blue", size=1.0)
  workGraph <- workGraph + geom_vline(xintercept = gameDay, linetype="dotted", 
                                        color = "blue", size=1.0)
}
workGraph
fatGraph

write.csv(dataTibble, "cleaned/expSmoothWorkAndFatigueData.csv")



slidingAverage <- c()

window <- 31 - 1
for(day in window:numDays)
{
  windowAverage <- mean(workLoad[c((day-window):day)])
  slidingAverage <- c(slidingAverage, windowAverage)
}



plot(window:numDays, slidingAverage, main="Sliding Average")
plot(density(slidingAverage), main="Sliding Average Density")
plot(density(workLoad), main="Total Work Load Average")


dataTibble <- tibble(TimeSinceAugFirst = window:numDays, slidingWorkAverage = slidingAverage)


workGraph <- ggplot(data = dataTibble) + 
  theme(plot.title = element_text(hjust = 0.5)) + 
  ggtitle("Team's 7 Day Moving Average") + 
  geom_point(mapping = aes(x=TimeSinceAugFirst, y=slidingWorkAverage)) + 
  labs(x = "Days Since August Seventh 2017", y = "Teams Total Daily Load")+ 
  theme_bw()


for(gameDay in games$Date)
{
  workGraph <- workGraph + geom_vline(xintercept = gameDay, linetype="dotted", 
                                      color = "blue", size=1.0)
}

workGraph


write.csv(dataTibble, "cleaned/slidingWorkAverageSevenDay.csv")


################################      Wellness Data      ###################################



graphingTib <- tibble(slidingAverage = slidingAverage, days = window:dayNum)

fGraph <- ggplot(data = graphingTib) + 
  theme(plot.title = element_text(hjust = 0.5)) + 
  ggtitle("Team's Average Normalized Fatigue") + 
  geom_point(mapping = aes(x=days, y=slidingAverage)) + 
  labs(x = "Days Since August Twenty First 2017", y = "Teams Average Normalized Fatigue")+ 
  theme_bw()


for(gameDay in games$Date)
{
  fGraph <- fGraph + geom_vline(xintercept = gameDay, linetype="dotted", 
                                      color = "blue", size=1.0)
}

fGraph

plot(density(slidingAverage))
plot(window:dayNum, slidingAverage)