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7

I might do spell = dt[,{.( w = .I[1L], Date = Date[1L] )}, by=.(Name, rleid(Level))][, .( w = tail(w,-1), d = diff(Date) ), by=Name] dt[spell\$w, dur_lastspell := spell\$d] which gives Name Level Date RecentLevelChange TimeForLevelChange dur_lastspell 1: John 1 2016-01-01 NA NA NA days ...

6

You can use cut.Date and seq.Date to do this in two lines in base R: seasons <- format(as.Date(cut.Date(as.Date(data_mex\$WEATHERDATE), breaks=seq.Date(as.Date("1997-06-15"), as.Date("2280-06-15", "year"))), "%Y") data_mex\$seasons <- paste0(seasons, "-", as.numeric(seasons) + 1) Note I have used "2280-06-15" as the ...

5

Here's a helper function to calculate the paths paths <- function(x) { sapply(Reduce(function(prev, cur) unique(c(prev,cur)), x, accumulate=T), function(x) paste(x, collapse="->") ) } Use use Reduce() to build lists of unique levels up to a given point. (This assumes the rows are properly sorted). We can then apply this ...

4

After grouping by 'Name', we loop through the sequence of rows (seq_len(.N)) and paste the unique "Level" from first to the corresponding row. dt[,FullCycle := vapply(seq_len(.N), function(i) paste(unique(Level[1:i]), collapse="->"), character(1)) , by = Name] dt # Name Level Date RecentLevelChange FullCycle # 1: John 1 ...

3

If the Date variable is an actual yearmon class vector, from the zoo package, the as.Date.yearmon method can do what you want via its argument frac. Using your data, and assuming that the Date was originally a character vector library("zoo") df <- data.frame(Date = c("2014-07", "2014-08", "2014-09"), Arrivals = c(100, 150, 200)) I ...

2

Use lag and merge it back with the original keeping the original months but not any months lagged outside of that range. > merge(mrg.tail, g1 = lag(mrg.tail\$gg), all = c(TRUE, FALSE)) pp gg g1 Sep 2014 55.8 NA 2.5 Oct 2014 57.3 2.5 NA Nov 2014 57.5 NA NA Dec 2014 54.9 NA 2.9 Jan 2015 53.9 2.9 NA Feb 2015 53.3 NA NA Mar 2015 52.3 ...

2

You can do that relatively easily with dplyr. The idea is the following: Lag the end data (shifting it down by one) Calculate the difference between start date and the lagged end date Adding 'BreakPoints' - A variable with TRUE when the difference is more than 5 days and FALSE otherwise Calculating the cumulative sum of this break-point. This will add 1 ...

1

You can use Reduce to merge the timeseries dataset = list(Series1=read.table(text=" date Value 2015-11-01 1.301 2015-11-02 6.016 2015-11-03 4.871 2015-11-04 10.925 2015-11-05 7.638",header=TRUE,stringsAsFactors=FALSE),Series2=read.table(text=" date Value 2015-11-01 1.532 2015-11-02 3.730 2015-11-03 6.910 2015-11-04 3.554 2015-11-05 ...

1

Your code is perfectly fine, you just have to add a timezone parameter ("UTC" or “GMT”, which is equivalent) to the 3rd line in your code above and you do not have to change the timezone environment variable , which is always dangerous in case you forget to reset the variable. No need for conversions from df to xts etc. seqs<- seq(as.POSIXct("2016-01-01 ...

1

Note that yearmon is just a double type, with 0 equaling Jan 0000 and 2013 + 6/12 equaling July 2013 You can use the limits and breaks arguments (same as in scale_y_continuous from ggplot): library(zoo) ggplot(repeatability, aes(x = iHrMi, y = as.yearmon(iYrMo), fill = erraticity, group = iYrMo)) + geom_tile() + facet_grid(. ~ off) + ...

1

This has worked for me: replace_na_with_last<-function(x,a=!is.na(x)){ x[which(a)[c(1,1:sum(a))][cumsum(a)+1]] } replace_na_with_last(c(1,NA,NA,NA,3,4,5,NA,5,5,5,NA,NA,NA)) [1] 1 1 1 1 3 4 5 5 5 5 5 5 5 5 replace_na_with_last(c(NA,"aa",NA,"ccc",NA)) [1] "aa" "aa" "aa" "ccc" "ccc" speed is reasonable too: ...

1

You might look at the examples in the help page for read.zoo. You need to tell the function about the header, the date format, and the separator between values. To read the data from a text string would look like library(xts) z <- read.zoo(header=TRUE, format="%m/%d/%Y", sep=",", text ="Date,AX,BY,CZ ...

1

Here is a way to do it using the zoo package. R code: library(zoo) df # Date Arrivals # 1 2014-07 100 # 2 2014-08 150 # 3 2014-09 200 df\$Date <- as.Date(as.yearmon(df\$Date), frac = 1) # output # Date Arrivals # 1 2014-07-31 100 # 2 2014-08-31 150 # 3 2014-09-30 200

1

Using lubridate, you can add a month and subtract a day to get the last day of the month: library(lubridate) ymd(paste0(df\$Date, '-01')) + months(1) - days(1) # [1] "2014-07-31" "2014-08-31" "2014-09-30"

1

So if I understand correctly your desired output is a list of xts where every element has data for one week. You can do that with this: Sys.setenv(TZ="Asia/Kolkata") library(xts) library(lubridate) seqs = seq(as.POSIXct("2016-01-01"),as.POSIXct("2016-01-30"), by = "30 mins") weeks <- week(seqs) df <- data.frame(seqs, weeks) ob <- ...

1

Here is a data.table solution, this can be neatly done using a rolling join: library(data.table) library(xts) lu <- data.table(index=as.POSIXct("2012-05-02") + (0:7)*15*60) observation <- xts(1:10, order.by=lu[1,index +cumsum(runif(10)*60*10)]) observation.dt <- as.data.table(observation) observation.dt[lu,on="index",roll=T]

1

You possibly need to change the locale settings: Sys.setlocale("LC_TIME", "C") If that does not work you can start R with "LANG="C"

1

Here is one solution you can use to get the desired output: data_mex\$seasonId <- with(data_mex, ifelse(as.numeric(format(WEATHERDATE, '%m')) >= 6 & as.numeric(format(WEATHERDATE, '%d')) >= 15, paste(format(WEATHERDATE, '%Y'), as.numeric(format(WEATHERDATE, '%Y')) + 1, sep = '-'), ...

1

The difference is constant: > y\$a - x\$a 2004-06-01 2004-07-01 2004-08-01 -4 -4 -4 > y\$b - x\$b 2004-06-01 2004-07-01 2004-08-01 -4 -4 -4 so assuming that x\$a is to be adjusted to y\$a and simliarly for x\$b and y\$b: va <- apply(merge(x\$a + coredata(y\$a - x\$a)[1], y\$a), 1, mean, na.rm = TRUE) a ...

1

First create a grouping variable g and then compute the rolling means. Note that rollsum is substantially faster than rollapply but does not support partial necessitating the workaround shown: library(zoo) # rollsum g <- with(df, cumsum(ave(time, id, FUN = function(x) c(1, diff(x) != 1)))) roll4 <- function(x) rollsum(c(0, 0, 0, x), 4) / pmin(4, ...

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