Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have csv input file, lets call it heights.csv. my example file has only four lines but it cannot be limited. The first column contains just irrelevant name, the second one contains values I want to process as integers.


I would like to perform action like this:

first_read_a = value of the first line + first random.randint(500, 1000)
second_read_a = value of the first line + first_read - value of the next line
third_read_a = value of the first line + random.randint(500, 1000) - value of the next line
fourth_read_a = value of the first line + random.randint(500, 1000) - value of the next line

and so on if the list would be longer until the last line where there's no next line and no next value to subtract.
results of the process must be stored and indexed somehow because the next task
is to perform similar action backwards, using generated values.

first_read_b = value of the last line + fourth_read_a - next to last line value

and so on until the second line from the beginning of the list this time, not the first one.
i have sample code but it is very limited and I'd like to ask You for example of efficient solution.

import random
a = [57020, 56095, 55964, 57020]

compute = input(">")

if compute == 1: 
    read_0a = random.randint(500,1000)                
    read_1a = a[0] + read_0a - a[1]                 
    read_2a = a[1] + random.randint(500,2300) - a[2]
    read_3a = a[2] + random.randint(500,2300) - a[3]

    read_1b = a[3] + read_3a - a[2]              
    read_2b = a[2] + read_2a - a[1]                

    print read_0a, read_1a, read_2b, read_2a, read_1b, read_3a
    print read_1a + read_2a + read_3a
    print read_0a + read_1b + read_2b

The deal is to develope the script to such form, which would let to process input *.csv file and generate suitable integers in the way it is done in my example script but without need to define the list ['a' list in example] by hand and to put instruction for every single 'read' how it has to be generated. I would like to know, how to index a csv file and how can I access indexed items as integers, not strings and how to trigger those integers by index.
Let me explain more.
We have eyquem's advanced script:

import csv
import random

with open('heights.csv','rb') as f: a = [int(row[1]) for row in csv.reader(f)] print 'a==',a

compute = input(">")

if compute == 1: read_a = dict((i+1,a[i] + random.randint(500,2300) - a[i+1]) for i in xrange(0,len(a)-1) )

read_a[0] = read_a[1] - a[0] + a[1]

read_b = dict( (i, a[len(a)-1] + read_a[len(a)-i] - a[len(a)-i-1])
               for i in xrange(1,len(a)-1))
print read_a, read_b

and we get the example result:

this is input list: a== [57020, 56095, 55964, 57020]
and generated 'reads':
{0: 1637, 1: 2562, 2: 1991, 3: 4} {1: 1060, 2: 2916}

Let's check:
57020 + 1637 - 2562 = 56095 [correct!, because it is equal to the second value on the list]
So let's take the second value on the list and go forth:
56095 + 1991 - 1060 = 57026 [wrong, because it is not equal to the third value on the list]
so now the rest is gonna give us wrong results.

The the right relationship of dependence is as following:
Let me show You my desired result, using example values of 'reads' generated with my [primitive]first script posted:
a = [57020, 56095, 55964, 57020]
57020 #the 1st value on the list
+712 #read_0a = random.randint(500,1000)
-1637 #read_1a = 1st + read_0a - 2nd
[=]56095 #the 2nd value on the list
+772 #read_2b = 3rd + read_2a - 2nd
-903 #read_2a = 2nd + random.randint(500,2300) - 3rd
[=]55964 #the 3rd value on the list
+1279 #read_1b = 4th] + read_3a - 3rd
-223 #read_3a = 3rd + random.randint(500,2300) - 4th
[=]5720 #the 4th value on the list

And that's it.
When you run from the 1st value on the list and will do + and - succesive values of generated 'reads' in the way I show above, You will get the last value, in our example the 4th one, gaining on the way the 2nd and the 3rd value.

Now take a look at the final check of generated reads:

check_a = read_1a + read_2a + read_3a
check_b = read_0a + read_1b + read_2b

... and You'll see that sum of values in check_a = sum of values in check_b

The above check is authoritative only if the first line and the last line has the same value - in example file it is 57020.
If the first line and the last line has different value the check has to be like this:
first_line_value - last_line_value=(read_0a + read_1b + read_2b) - (read_1a + read_2a + read_3a).
So we can say in more adequate way that:
first_line_value - last_line_value = sum of reads_backward - sum of reads_onward
I hope it'll help You to understand what it has to be achieved.
and thank You for Your patience.


eyquem's script works really great!
and completely implemets my instruction that has been given to this moment but at the end of my question I would like You to consider several extra things, that, I hope, will not require to rewrite the whole code

1]The first one is the input, 'heights.csv' file.
Is it possible that the program would accept values with decimal point '.'
but just ignore it during one's computations?? The input csv file would be like this:

but nevertheless to compute 'reads',the integers like: 57020, 56095, 55964, 57020 would be used

2]The next thing is auto recomputation ability.
Sometimes, during the computation our 'reads' appear as negative values with minus, for example:
a== [57020, 56095, 55964, 57020]
read_a== {1: 1984, 2: 2128, 3: -452}
read_b== {1: 604, 2: 1997, 3: 1059}
in this result we see '-452'
In this case the script should just recompute until there's no negative value among 'reads'

3] The last thing is an output file, for example 'output.txt' Is it possible to generate such file containg generated 'reads'?
The template would be like this:
[1] # order number in square bracket
1=1000 # name taken from the first column of input file, always preceded with '1='
4=2118 # generated 'read', always preceded with '4='






As You see the name taken from the first column of input file, always preceded with '1=' has to appear for the first and the last 'read' and then only for all the 'backward reads'

share|improve this question
This seems pretty arbitrary. It might really help to know what you're trying to accomplish. –  kojiro Mar 8 '11 at 2:35
Well, I tried as hard as I can to make it understood and conceptualized from what's this script for exactly because full explanation would insert unnecessary quite complicated theory of one of land surveying routines in my country. –  daikini Mar 11 '11 at 13:54
The script you attribute to me was written by eyquem. –  kojiro Mar 12 '11 at 4:38
@kojiro thanks :) –  eyquem Mar 12 '11 at 10:03
@daikini You should have made clear from the very beginning that it is essential that the first and the last lines of the file have the same value. It is the required condition under which sum(read_a)==sum(read_b) –  eyquem Mar 12 '11 at 10:30

3 Answers 3

up vote 2 down vote accepted

Well, I hope you worked with success on your problem.

Did you find how to manage with '.' in the values ? That was simple:


For me, I think the following code fulfills all the requirements. I hope it wasn't a homework and you learned something.

import csv
import random
from sys import exit

with open('heights.csv','rb') as f:
    names,a = {},{}
    for k,row in enumerate(csv.reader(f)):
        names[k] = row[0]
        a[k]     = int(row[1].replace('.',''))
    print names
    print 'a==',a
    L = len(a)

compute = input(">")

if compute == 1:

    if a[1] - a[0] <= 1000 and all(a[i] - a[i-1] <= 2300 for i in xrange(2,L)):

        read_b = {L-1 : random.randint( max(500,a[1]-a[0]), 1000 ) }
        read_a = {1   : a[0] + read_b[L-1] - a[1] }

        for i in xrange(2,L):
            read_b[L-i] = random.randint( max(500,a[i]-a[i-1]), 2300 )
            read_a[i] = a[i-1] + read_b[L-i] - a[i]

        exit("The file can't be treated because of the relative values of "
             "the following couples of lines : "+\
             ('(0,1) ' if 1000 < a[1] - a[0] else "")+\
             ' '.join(repr((i-1,i)) for i in xrange(2,L) if 2300 < a[i] - a[i-1]))

    with open('output.txt','w') as fw:

                      for k in xrange(2,L))                           

    # display of the execution

    print 'read_a== %s\nread_b== %s\n\n' % (read_a,read_b)+\
          ('\n'.join(('  a[%s] ========== %s ******' % (y,a[y])+\
                      '\n    +read_b[%s] == %s' % (str(L-y-1), read_b[L-y-1])+\
                      '\n    -read_a[%s] == %s' % (str(y+1)  ,-read_a[y+1]  ) )
                     for y in xrange(L-1)) )+\
          '\n  a[%s] ========== %s ******\n\n' % (L-1,a[L-1])+\
          ('\n'.join(('  a[%s] ========== %s ******' % (y,a[y])+\
                      '\n    +read_a[%s] == %s' % (y  , read_a[y]  )+\
                      '\n    -read_b[%s] == %s' % (L-y,-read_b[L-y]) )
                     for y in xrange(L-1,0,-1)) )+\
          '\n  a[%s] ========== %s ******\n\n' % (0,a[0])+\
          'sum(read_a.values())== %s\nsum(read_b.values())== %s' %\




The values of read_b variables are created by randint() . If the bounds in each randint() are considered untouchable constraints, the condition of positiveness is consequently on the values of the read_a variables.

You wrote :

read_0a = random.randint(500,1000)  
read_1a = a[0] + read_0a - a[1]

that is to say

read_a[0] = random.randint(500,1000)  
read_a[1] = a[0] + read_a[0] - a[1]
# nota bene: read_a[0] is in fact read_b[len(a)-1]

The condition 0 <= read_a[1] is verified only if 0 <= a[0] + read_a[0] - a[1]

that is to say if a[1] - a[0] <= read_a[0] (E)

So, there is 3 cases:

  • if a[1] - a[0] <= 500 is True, then (E) is always True for any value read_a[0] defined by read_a[0] = random.randint(500,1000)

  • if 500 <= a[1] - a[0] <= 1000 is True , then (E) is True only for value read_a[0] defined by read_a[0] = random.randint(a[1] - a[0] ,1000)

  • if 1000 < a[1] - a[0] is True , it is impossible to find a value between 500 and 1000 to be the value of read_a[0] so as the value of read_a[1] will be positive.

We may think to reiterate the instruction read_a[0] = random.randint(500,1000) that is to say read_b[len(a)-1] = random.randint(500,1000) until the value of read_a[0] respects the condition read_a[1] >= 0.

But if 1000 < a[1] - a[0] , there would be an endless loop. This means that the values in the file can't be any integer without condition : they must verify some conditions in order that all the read_a values be positive. And I put the verification of this condition in the code.


It's the same for the other values in read_a with bounds

share|improve this answer
@eyquem Oh, no, it is neither homework, nor for commercial usage, don't worry. Your work is really great aid as I know exactly what's this script for and this help me to understand some advanced techniques of programming in python. Really, really thanks! And I just hope that completing the task gave You just a little satisfaction or at least any tiny programming skills improvement. Once again thanks. –  daikini Mar 13 '11 at 13:06
@eyquem There's something not quite Ok, because the script generates too many reads. We have 8 reads generated instead of 6 needed with our example input file, so there's excess of 2 reads. If You examine output.txt file, You're gonna see, that the last point is twice. –  daikini Mar 13 '11 at 13:36
@daikini Satisfaction in succeeding to help someone isn't little. And Python is fun too. -- I forgot to mention that I considered the bounds of randint() calls as definitive and unmodifiable. If it is the case, the algorithm should be different. It depends of the program's aim. say me if this point is definitive. -- See again the code, I changed to snippet concerning the display of execution. The reason is that print 'aaa\nbbb'+'\nccc' is faster to be executed than print 'aaa' print 'bbb' print 'ccc' –  eyquem Mar 13 '11 at 13:53
@daikini When you will consider this problem can be closed, it will be fine for me that you upvote my answer(s) and accept one of them (by clicking on the chevron shape stripe under the button to downvote, on the left) if you judge them enough valuable. I inform you because your new on stackoverflow. –  eyquem Mar 13 '11 at 13:54
@daikini You just have to eliminate fw.write('[{}]\n1=\n4={}\n\n[{}]\n1={}\n4={}\n'.\ format(str(2*L-1),read_b[1],str(2*L),names[L-1],read_a[L-1])) –  eyquem Mar 13 '11 at 14:09
from random import randint

compute = input(">")

if compute == 1:

    # If you have to store it anyway, might as well go whole-hog:
    vals = [int(l.split(",")[1]) for l in open("heights.csv").readlines()]

    reads[0] = vals[0] + randint(500, 1000)
    for i in xrange(len(vals) - 1):
        reads.append(vals[i-1] + randint(500, 1000) - vals[i])
        # not sure what to do with the last value
share|improve this answer
First i would like to thank You for help. The last script You posted has started to fill my request and it's almost right direction. Please, take a look in my edited question to better understand what else has to be done. –  daikini Mar 11 '11 at 21:54
@diakini I think my example already does what you described, including demonstrating how to open and parse the csv file, transform clean strings to ints. The only thing it doesn't do is "perform similar action backwards". I assume you can adapt it to that or ask a more specific question? –  kojiro Mar 11 '11 at 22:03
@kojiro yes, You're right and I think it's really great what You've done with just a few lines of python's code. I would ask You to check the second part of explanation I've just added. I hope it will let You fully understand the idea. –  daikini Mar 11 '11 at 23:52
@daikini Did you read my answer ? I have just seen that you edited your question and I will study that. But in my answer there is the backward treatment –  eyquem Mar 12 '11 at 0:03
@eyquem Yes I did read. Sorry for my silence about Your solution. Your second script that is closer to the goal, I guess, has the same 'weakness' that kojiro's one. There's some kind of malfunction in exactly backward treatment because when firstly we go forth, values we get as a result depend mainly on random generated integers, except the second 'read' which depends on strict arithmetical relation and belongs rather to backward 'reads'. The second part, when we move backwards is more complex because all values we gain during this treatment depend on strict arithmetical relation... –  daikini Mar 12 '11 at 1:02
import csv
import random

with open('fofo.txt','rb') as f:
    rd = csv.reader(f)
    a = [int(row[1]) for row in rd]
    print 'a==',a

(.... to be continued by daikini's code...)

rd = csv.reader(f) is an iterator that returns one row of the csv file when stimulated with rd.next() or during a for loop. The file MUST be opened in reading binary mode 'rb'

Placing the items in a list a just indexes them by the index of the list.


The following code has been edited:

-- I corrected a[len(a)-1] with a[len(a)-i] in the definition of read_b

-- I put the random.randint(500,2300) in a list R out of the definition of read_a

-- There is no real interest to define read_a[0] by read_a[0] = a[1] + read_a[1] - a[0] . In fact read_a[0] is precisely R[0] . I eliminated this line

-- In fact , it is also possible to define read_b[3] . It turns out to be read_a[0] ; Hence R[0]==read_a[0]==read_b[3] !--


import csv
import random

with open('heights.csv','rb') as f:
    a = [int(row[1]) for row in csv.reader(f)]
    print 'a==',a

compute = input(">")
if compute == 1:

    R = [random.randint(500,2300) for j in xrange(len(a)-1)]

    read_a = dict((i+1,a[i] + R[i] - a[i+1])
                  for i in xrange(0,len(a)-1) )

    read_b = dict( (i, a[len(a)-i] + read_a[len(a)-i] - a[len(a)-i-1])
                   for i in xrange(1,len(a)))

    print 'R==',R
    print 'read_a==',read_a
    print 'read_b==',read_b

    for y in xrange(len(a)-1):
        print '  a[%s] ========== %s ******' % (y,a[y])
        print '      +R[%s]    == %s' % (str(y),R[y])
        print '    -read_a[%s] == %s' % (str(y+1),-read_a[y+1])
    print '  a[%s] ========== %s ******' % (len(a)-1,a[len(a)-1])
    print '\n'

    #print ' a['+str(len(a)-1)+']==',a[len(a)-1]
    for y in xrange(len(a)-1,0,-1):
        print '  a[%s] ========== %s ******' % (y,a[y])
        print '    +read_a[%s] == %s' % (y,read_a[y])
        print '    -read_b[%s] == %s' % (len(a)-y,-read_b[len(a)-y])
    print '  a[%s] ========== %s ******' % (0,a[0])
    print '\n'

    print 'sum(read_a.values())==',sum(read_a.values())
    print 'sum(read_b.values())===',sum(read_b.values())


Finally, we notice that read_b.values() = R[::-1] then the code can be simplified to:

import csv
import random

with open('heights.csv','rb') as f:
    a = [int(row[1]) for row in csv.reader(f)]
    print 'a==',a

compute = input(">")

if compute == 1:

    read_b = dict((j+1,random.randint(500,2300)) for j in xrange(len(a)-1))

    read_a = dict((i,a[i-1] + read_b[len(a)-i] - a[i])
                  for i in xrange(1,len(a)) )

    print 'read_a==',read_a
    print 'read_b==',read_b

    for y in xrange(len(a)-1):
        print '  a[%s] ========== %s ******' % (y,a[y])
        print '    +read_b[%s] == %s' % (str(len(a)-y-1),read_b[len(a)-y-1])
        print '    -read_a[%s] == %s' % (str(y+1),-read_a[y+1])
    print '  a[%s] ========== %s ******' % (len(a)-1,a[len(a)-1])
    print '\n'

    for y in xrange(len(a)-1,0,-1):
        print '  a[%s] ========== %s ******' % (y,a[y])
        print '    +read_a[%s] == %s' % (y,read_a[y])
        print '    -read_b[%s] == %s' % (len(a)-y,-read_b[len(a)-y])
    print '  a[%s] ========== %s ******' % (0,a[0])
    print '\n'

    print 'sum(read_a.values())==',sum(read_a.values())
    print 'sum(read_b.values())==',sum(read_b.values())

These codes can be used for any number of lines >= 2


Concerning the condition of positive numbers:

Numbers in read_b are the first to be computed. So I search for the condition that makes read_b always positive:

Since read_a[i] = a[i-1] + read_b[len(a)-i] - a[i]

=> read_b[len(a)-i] = read_a[i] + a[i] - a[i-1]

=> read_b[j] = read_a[len(a)-j] + a[len(a)-j] - a[len(a)-j-1]

Since we must have 0 < read_a[len(a)-j]

=> a[len(a)-j] - a[len(a)-j-1] < read_a[len(a)-j] + a[len(a)-j] - a[len(a)-j-1]

=> a[len(a)-j] - a[len(a)-j-1] < read_b[j]

=> we must have a[len(a)-j] - a[len(a)-j-1] + 1 <= read_b[j]

Then condition

max(a[len(a)-j] - a[len(a)-j-1]  + 1 , 500))  <= read_b[j] 

Am I right ?

share|improve this answer
Ahhhhhh... So he wanted to know how to read a csv file? I had to look at this five times to understand why it just looked like you copied his code and provided it as an answer! –  Benjamin Mar 11 '11 at 16:50
I suppose it is what he wants, it seems so simple to me, but what else than a problem of reading a file, I wonder ? –  eyquem Mar 11 '11 at 16:56
Surely csv is overkill for grabbing just the second column of a file? –  kojiro Mar 11 '11 at 17:03
@kojiro When I don't use a parser to read a file, there is always someone to tell me that one must never use built-in functions or regexes to read a file.... –  eyquem Mar 11 '11 at 17:54
@eyquem Your script seems just fantastic. Really thanks You got round to anlyze my lenghty and unclear query. If it won't abuse You, please, take a look at the third final part I wrote in to my question. And thanks a lot. –  daikini Mar 12 '11 at 13:36

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.