Your code doesn't run as is, so I have no way of knowing exactly what you are looking for. Your description suggests that you want the sum of Qty
for each of Days
between StartDate
and EndDate
, grouped by Type
. This will produce such a matrix:
df <- data.frame(ID,StartDate,EndDate,Type,Qty,stringsAsFactors=FALSE)
Days <- min(StartDate):max(EndDate)
is.between <- function(x,df) with(df,x>=StartDate & x<=EndDate)
get.sums <- function(df) sapply(Days,function(d,df) sum(df[is.between(d,df),"Qty"]),df)
do.call(rbind,lapply(split(df,df$Type), get.sums))
# [,1] [,2] [,3] [,4] [,5]
# A 0.5 0.5 0.5 0.0 0
# B 0.0 2.5 2.5 3.5 1
Here's a data.table approach that might be faster. Note the different definitions of is.between(...)
and get.sums(...)
.
DT <- data.table(df,key="Type")
is.between <- function(x,a,b) x>=a & x <= b
get.sums <- function(day) DT[,list(day,Qty=sum(Qty[is.between(day,StartDate,EndDate)])),by=Type]
long <- rbindlist(lapply(Days,get.sums))
result <- dcast.data.table(long,Type~day,value.var="Qty")
result
# Type 1 2 3 4 5
# 1: A 0.5 0.5 0.5 0.0 0
# 2: B 0.0 2.5 2.5 3.5 1
Here are some benchmarks with a hopefully more representative example dataset (800 rows, 500 start dates, total date range >900 days), and also testing @Arun's answer.
# more representative example
set.seed(1) # for reproducibility
StartDate <- sample(1:500,800,replace=TRUE)
EndDate <- StartDate + rpois(800,400)
Type <- sample(LETTERS[1:20],800,replace=TRUE)
Qty <- rnorm(800,10,2)
Days <- min(StartDate):max(EndDate)
df <- data.frame(StartDate,EndDate,Type,Qty, stringsAsFactors=FALSE)
Comparison of the data frame approach, and the two data table approaches.
library(data.table)
library(reshape2)
DT <- data.table(df,key="Type")
f.df <- function() {
is.between <- function(x,df) with(df,x>=StartDate & x<=EndDate)
get.sums <- function(df) sapply(Days,function(d,df) sum(df[is.between(d,df),"Qty"]),df)
do.call(rbind,lapply(split(df,df$Type), get.sums))
}
f.dt1 <- function() {
is.between <- function(x,a,b) x>=a & x <= b
get.sums <- function(day) DT[,list(day,Qty=sum(Qty[is.between(day,StartDate,EndDate)])),by=Type]
long <- rbindlist(lapply(Days,get.sums))
dcast.data.table(long,Type~day,value.var="Qty")
}
f.dt2 <- function() {
lookup <- data.table(StartDate=Days, EndDate=Days)
setkey(lookup)
j_olaps <- foverlaps(DT, lookup, by.x=c("StartDate", "EndDate"), type="any")
dcast.data.table(j_olaps, Type ~ StartDate, value.var="Qty", fun.agg=sum, na.rm=TRUE)
}
identical(f.dt1(),f.dt2()) # same result? YES!
# [1] TRUE
library(microbenchmark)
microbenchmark(f.df(),f.dt1(),f.dt2(),times=10)
# Unit: milliseconds
# expr min lq median uq max neval
# f.df() 1199.76370 1212.03787 1222.6558 1243.8743 1275.5526 10
# f.dt1() 1634.92675 1664.98885 1689.7812 1714.2662 1798.9121 10
# f.dt2() 91.53245 95.19545 129.2789 158.0789 208.1818 10
So @Arun's approach is ~10X faster than the df approach , and ~17X faster than the dt approach above.