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Using python I have created following data frame which contains similarity values:

  cosinFcolor cosinEdge cosinTexture histoFcolor histoEdge histoTexture    jaccard
1       0.770     0.489        0.388  0.57500000 0.5845137    0.3920000 0.00000000
2       0.067     0.496        0.912  0.13865546 0.6147309    0.6984127 0.00000000
3       0.514     0.426        0.692  0.36440678 0.4787535    0.5198413 0.05882353
4       0.102     0.430        0.739  0.11297071 0.5288008    0.5436508 0.00000000
5       0.560     0.735        0.554  0.48148148 0.8168083    0.4603175 0.00000000
6       0.029     0.302        0.558  0.08547009 0.3928234    0.4603175 0.00000000

I am trying to write a R script to generate another data frame that reflects the bins, but my condition of binning apply if the value is above 0.5 such that

Sudo code:

if (cosinFcolor > 0.5 & cosinFcolor <= 0.6)
   bin = 1
if (cosinFcolor > 0.6 & cosinFcolor <= 0.7)
   bin = 2
if (cosinFcolor > 0.7 & cosinFcolor =< 0.8)
   bin = 3
if (cosinFcolor > 0.8 & cosinFcolor <=0.9)
   bin = 4
if (cosinFcolor > 0.9 & cosinFcolor <= 1.0)
   bin = 5
else
   bin = 0

Based on above logic, I want to build a data frame

  cosinFcolor cosinEdge cosinTexture histoFcolor histoEdge histoTexture    jaccard
1       3         0         0            1           1        0               0

How can I start this as a script, or should I do this in python? I am trying to get familiar with R after finding out how powerful/number of machine learning packages it has. I am my goad is to build a classifier but first I need be familiar with R :)

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1  
Have a look at ?findInterval or cut –  mnel Aug 15 '12 at 3:08

3 Answers 3

up vote 13 down vote accepted

Another cut answer that takes into account extrema:

dat <- read.table("clipboard", header=TRUE)

cuts <- apply(dat, 2, cut, c(-Inf,seq(0.5, 1, 0.1), Inf), labels=0:6)
cuts[cuts=="6"] <- "0"
cuts <- as.data.frame(cuts)

  cosinFcolor cosinEdge cosinTexture histoFcolor histoEdge histoTexture jaccard
1           3         0            0           1         1            0       0
2           0         0            5           0         2            2       0
3           1         0            2           0         0            1       0
4           0         0            3           0         1            1       0
5           1         3            1           0         4            0       0
6           0         0            1           0         0            0       0

Explanation

The cut function splits into bins depending on the cuts you specify. So let's take 1:10 and split it at 3, 5 and 7.

cut(1:10, c(3, 5, 7))
 [1] <NA>  <NA>  <NA>  (3,5] (3,5] (5,7] (5,7] <NA>  <NA>  <NA> 
Levels: (3,5] (5,7]

You can see how it has made a factor where the levels are those in between the breaks. Also notice it doesn't include 3 (there's an include.lowest argument which will include it). But these are terrible names for groups, let's call them group 1 and 2.

cut(1:10, c(3, 5, 7), labels=1:2)
 [1] <NA> <NA> <NA> 1    1    2    2    <NA> <NA> <NA>

Better, but what's with the NAs? They are outside our boundaries and not counted. To count them, in my solution, I added -infinity and infinity, so all points would be included. Notice that as we have more breaks, we'll need more labels:

x <- cut(1:10, c(-Inf, 3, 5, 7, Inf), labels=1:4)
 [1] 1 1 1 2 2 3 3 4 4 4
Levels: 1 2 3 4

Ok, but we didn't want 4 (as per your problem). We wanted all the 4s to be in group 1. So let's get rid of the entries which are labelled '4'.

x[x=="4"] <- "1"
 [1] 1 1 1 2 2 3 3 1 1 1
Levels: 1 2 3 4

This is slightly different to what I did before, notice I took away all the last labels at the end before, but I've done it this way here so you can better see how cut works.

Ok, the apply function. So far, we've been using cut on a single vector. But you want it used on a collection of vectors: each column of your data frame. That's what the second argument of apply does. 1 applies the function to all rows, 2 applies to all columns. Apply the cut function to each column of your data frame. Everything after cut in the apply function are just arguments to cut, which we discussed above.

Hope that helps.

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This is the exact answer that I was looking for thanks –  Null-Hypothesis Aug 15 '12 at 18:58
    
Any chance you could explain the things that you are doing, I would love to get the logic around and really learn it rather than just coping it. –  Null-Hypothesis Aug 15 '12 at 19:10
    
@Null-Hypothesis Added an explanation. –  sebastian-c Aug 16 '12 at 1:33

With cut it's easy as pie

dtf <- read.table(
textConnection(
"cosinFcolor cosinEdge cosinTexture histoFcolor histoEdge histoTexture jaccard
1 0.770 0.489 0.388 0.57500000 0.5845137 0.3920000 0.00000000
2 0.067 0.496 0.912 0.13865546 0.6147309 0.6984127 0.00000000
3 0.514 0.426 0.692 0.36440678 0.4787535 0.5198413 0.05882353
4 0.102 0.430 0.739 0.11297071 0.5288008 0.5436508 0.00000000
5 0.560 0.735 0.554 0.48148148 0.8168083 0.4603175 0.00000000
6 0.029 0.302 0.558 0.08547009 0.3928234 0.4603175 0.00000000"), sep = " ", 
           header = TRUE)

dtf$bin <- cut(dtf$cosinFcolor, breaks = c(0, seq(0.5, 1, by = .1)), labels = 0:5)
dtf
  cosinFcolor cosinEdge cosinTexture histoFcolor histoEdge histoTexture    jaccard bin
1       0.770     0.489        0.388  0.57500000 0.5845137    0.3920000 0.00000000   3
2       0.067     0.496        0.912  0.13865546 0.6147309    0.6984127 0.00000000   0
3       0.514     0.426        0.692  0.36440678 0.4787535    0.5198413 0.05882353   1
4       0.102     0.430        0.739  0.11297071 0.5288008    0.5436508 0.00000000   0
5       0.560     0.735        0.554  0.48148148 0.8168083    0.4603175 0.00000000   1
6       0.029     0.302        0.558  0.08547009 0.3928234    0.4603175 0.00000000   0
share|improve this answer

You can also use findInterval:

findInterval(seq(0, 1, l=20), seq(0.5, 1, by=0.1))

## [1] 0 0 0 0 0 0 0 0 0 1 1 2 2 3 4 4 5 5
share|improve this answer
1  
Yes. A very useful function. Lets you avoid creating messy factors with cut(). –  BondedDust Aug 30 '12 at 21:15

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