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So here's the situation. I've got an 85 Million row table with 18 columns. Three of these columns have values in Metric Prefix / SI notation (See Metric Prefix on Wikipedia).

This means I have number like :

  • .1M instead of 100000 or 1e+5, or
  • 1K instead of 1000 or 1e+3

Sample data.table is

          V1     V2   V3  V4  V5  V6 V7 V8 V9  V10 V11 V12 V13 V14 V15 V16 V17 V18
 1: 2014-03-25 12:15:12 58300 3010 44.0  4.5 0.0   0   0  0.8  50 0.8 10K 303 21K   0     a   56
 2: 2014-03-25 12:15:12 56328 3010 28.0 12.0 0.0   0   0  0.3  60 0.0  59  62 .1M   0     a   66
 3: 2014-03-25 12:15:12 21082 3010 10.0  1.7 0.0   0   0 14.0  72 0.3  4K 208  8K   1     a   80
 4: 2014-03-25 12:15:12 59423 3010 12.0  0.0 0.2   0   0 88.0   0 0.0  20  16  71   0     a   26
 5: 2014-03-25 12:15:12 59423 3010  9.6  1.4 0.0   0   0 60.0  29 0.2  2K 251  6K   0     a   56
 6: 2014-03-25 12:15:12 24193 3010  8.3  1.9 0.0   0   0  9.9  80 0.3  3K 264  8K   1     a   71
 7: 2014-03-25 12:15:12 21082 3010  7.1  1.7 0.4   0   0  6.3  83 0.3  3K 197  7K   0     a   71
 8: 2014-03-25 12:15:12 59423 3010  4.6  1.2 0.0   0   0 57.0  37 0.1 998  81  7K   0     a  118

I modified a function written by Hans-Jörg Bibiko who used it to modify ggplot2 scales. See website here if you are iterested. The function I ended up using is :

sitor <- function(x)
{
  conv <- paste("E", c(seq(-24 ,-3, by=3), -2, -1, 0, seq(3, 24, by=3)), sep="")
  names(conv) <- c("y","z","a","f","p","n","µ","m","c","d","","K","M","G","T","P","E","Z","Y")
  x <- as.character(x)
  num <- function(x) as.numeric(
      paste(
        strsplit(x,"[A-z|µ]")[[1]][3],
        ifelse(substr(paste(strsplit(x,"[0-9|\\.]")[[1]], sep="", collapse=""), 1, 1) == "",
               "",
               conv[substr(paste(strsplit(x,"[0-9|\\.]")[[1]], sep="", collapse=""), 1, 1)]
        ),
        sep=""
      )
    )
  return(lapply(x,num))
}

I apply it to by data table to update 3 columns like

temp[ ,`:=`(V13=sitor(V13),V14=sitor(V14),V15=sitor(V15)) ]

I have applied a data.table key vector to the temp table with

setkeyv(temp,c("V1","V2","V3","V18"))

Any 61 minutes later I am still here waiting for a result... Some tips on how to speed up this conversion would be really handy given that my data size is about to grow 4 to 5 times.

share|improve this question
    
Output from top : PID USER PR NI VIRT RES SHR S %CPU %MEM TIME+ COMMAND 4878 neurozen 20 0 18.7g 18g 11m R 100.1 62.8 63:38.95 rsession – neurozen Mar 30 '14 at 11:48
    
What is running 61 minutes? setkeyv(temp,c("V1","V2","V3","V18")) or temp[ ,:=(V13=sitor(V13),V14=sitor(V14),V15=sitor(V15)) ]? Why are you trying to sort temp? – David Arenburg Mar 30 '14 at 12:00
    
sitor returns a list... are your column in dt of type list? – Michele Mar 30 '14 at 12:04
    
@Dave Applying the sitor function to temp with temp[ ,:=(V13=sitor(V13),V14=sitor(V14),V15=sitor(V15)) ] is taking 61 minutes (it is actually still going). I'm not intending to sort temp, it just will be after the key is applied. setkeyv ontemp takes ~90 seconds. – neurozen Mar 30 '14 at 12:24
    
@Michele Good point. The class of the columns I am applying sitor are character class. Are you suggesting that I shouldn't be doing the lapply in teh return value for the function? Tell me more... – neurozen Mar 30 '14 at 12:27
up vote 2 down vote accepted

Why don't you try sitools library?

library(data.table)
dt<-data.table(var = sample(x=1:1e5, size=1e6, replace=T))
library(sitools)
> system.time(dt[, var2 := f2si(var)])
   user  system elapsed 
  10.08    0.09   10.89

EDIT: this is a data.table based function that reverse f2si from sitools package:

si2f<-function(x){
  if(is.numeric(x)) return(x)
  require(data.table)
  dt<-data.table(lab=c("y","z","a","f","p","n","µ","m","c","d","", "da", "h", "k","M","G","T","P","E","Z","Y"),
                 mul=c(1e-24, 1e-21, 1e-18, 1e-15, 1e-12, 1e-9, 1e-6, 1e-3, 1e-2, 1e-1, 1L, 10L, 1e2, 1e3, 1e6, 1e9, 1e12, 1e15, 1e18, 1e21, 1e24),
                 key="lab")
  res<-as.numeric(gsub("[^0-9|\\.]","", x))
  x<-gsub("[0-9]|\\s+|\\.","", x)
  .subset2(dt[.(x)], "mul")*res
}

> system.time(dt[, var3 := si2f(var2)])
   user  system elapsed 
  13.18    0.03   13.31 

> dt[, all.equal(var,var3)]
[1] TRUE
share|improve this answer
    
Wow that's awesome. I'm going to give it a go! – neurozen Mar 30 '14 at 13:36
    
I couldn't install the scitools package for my R version :` ‘scitools’ is not available (for R version 3.0.3)` – neurozen Mar 30 '14 at 13:40
    
@neurozen it's sitools – Michele Mar 30 '14 at 13:41
    
@Michelle Thanks heaps. I've been up too long. – neurozen Mar 30 '14 at 13:47
    
The f2sci function is great but I actually want to do the reverse. As my sample data above, it has character units like K and M for kilo (1e3) and M for (1e6) in it and I want it as a number (with exponent or otherwise) – neurozen Mar 30 '14 at 13:57

Here is an approach that takes about 10 seconds on my computer to covert a vector with 10M values. You can extent it to cover more than "K", "M" & "G"

> f_conv <- function(val){
+     # create matrix indexed by name for exponent
+     key <- c(Zero = ""
+          , K = "E3"
+          , M = "E6"
+          , G = "E9"
+          )
+     # extract where the original exponent is 
+     indx <- regexpr("[KMG]", val)
+     # extract the exponent
+     exp <- substring(val, indx)
+     # if there was none, the use "Zero"
+     exp[indx == -1L] <- "Zero"
+     # put fake length
+     indx[indx == -1L] <- 20L
+     # do the conversion
+     as.numeric(paste0(substring(val, 1L, indx - 1L)
+                  , key[exp]
+                  )
+              )
+ }
> 
> # test data
> n <- 10000000
> result <- paste0(sample(1:999, n, TRUE)
+             , sample(c("K", "M", "G", ""), n, TRUE)
+             )
> 
> system.time(x <- f_conv(result))
   user  system elapsed 
   8.48    0.13    8.63 
> cbind(result[1:50], x[1:50])
      [,1]   [,2]          
 [1,] "562K" "562000"      
 [2,] "946"  "946"         
 [3,] "313G" "313000000000"
 [4,] "538M" "538000000"   
 [5,] "697K" "697000"      
 [6,] "486G" "486000000000"
 [7,] "814G" "814000000000"
 [8,] "842"  "842"         
 [9,] "993M" "993000000"   
[10,] "440K" "440000"      
[11,] "435G" "435000000000"
[12,] "407M" "407000000"   
[13,] "919K" "919000"      
[14,] "840"  "840"         
[15,] "766G" "766000000000"
[16,] "977"  "977"         
[17,] "139"  "139"         
[18,] "195G" "195000000000"
[19,] "609M" "609000000"   
[20,] "69"   "69"          
[21,] "147M" "147000000"   
[22,] "104M" "104000000"   
[23,] "509K" "509000"      
[24,] "951M" "951000000"   
[25,] "278"  "278"         
[26,] "797G" "797000000000"
[27,] "106K" "106000"      
[28,] "667K" "667000"      
[29,] "521K" "521000"      
[30,] "9"    "9"           
[31,] "17K"  "17000"       
[32,] "673M" "673000000"   
share|improve this answer
    
I will give it a go. @Michelle @Data Munger FYI I also had a thought to use grep to select the rows which had metric units in them only temp[grep("[KMG]$",V1), V1:=sitor(V1)]). The catch was you have to return character then afterwards run as.numeric across the column again. – neurozen Mar 30 '14 at 23:08
    
I gave it a go and it works just fine. It took 237.6 seconds to run against 3 columns of a data table with 83.7 million rows. Thank you! – neurozen Mar 31 '14 at 2:01

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