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 the following code so far:

import sys
from Tkinter import *
import tkFileDialog
from tkFileDialog import askopenfile # Open dialog box


fen1 = Tk()                              # Create window
fen1.title("Optimisation")               # Window title

menu1 = Menu(fen1)

def open():
    filename = askopenfile(filetypes=[("Text files","*.txt")], mode='r')

filename.seek(0)
    numligne = 0
    line     = []
    ok       = 0
    k        = -1

    while (ok == 0)  &  (k == -1):
    line = filename.readline()
    k    = line.find( "*load" )
    if k == 0 :
        l = filename.readlines()

fen1.mainloop()

The text file I am searching is in the format similar to below:

*test
1 2 3 4

*load
2 7 200
3 7 150

*stiffness
2 9 8 7

etc..

I've so far managed to find the line beginning with "*load" but I wish to assign the values in between '*load' and '*stiffness' to variables such as a, b, c. My problem is that in this load section, there could be several lines and I need to detect each one every time, split the values in the lines and give them a name. If someone could please help explain a loop or something similar that would do just the trick, I would be very grateful! Thank you!

UPDATE: I have the problem where I now want to find SEVERAL seperate sections in the same text file. How am I able to create a loop to further find lines between '*geo' and '*house', and also '*name' and '*surname'? I've tried to create an entirely separate definition but would like to minimize the lines of code I use...Thank you! Code I've been using the similar structure for (as provided for my original question, thanks to mgilson!) and would therefore like to edit these type of code.

def parse_file(ff):     
    out=[]     
    append=False     
    for line in ff:         
        if(append and line.strip()):
            out.append(line)          
            if(line.startswith('*load')): 
                append=True
            elif(line.startswith('*stiffness')):  
                return [map(int,x.split()) for x in out[:-1] ] 
share|improve this question
    
Also, isn't it optimization? –  Digitalis Jun 12 '12 at 13:47
    
@Digitalis If you're talking about the word, optimisation is french for optimization. If not then, most probably yes, because that's what the window's title says. :P –  jadkik94 Jun 12 '12 at 13:50
    
Yeah, I'm switching between english and french...therefore I now get confused between various spellings.. –  user2063 Jun 12 '12 at 14:11
    
:) Quite a funny word to spell wrong in that context. French makes sense indeed. Thanks for clearing that up. –  Digitalis Jun 12 '12 at 14:41
    
Check the update I made to my answer. –  jadkik94 Jun 14 '12 at 12:21

5 Answers 5

up vote 1 down vote accepted

Let's assume that your "blocks" of code are separated by headers (e.g. *header). The most intuitive way to store the data in each block is in a list of lists. e.g. [ row1, row2, ...] (where row1=[elem1,elem2,elem3,...]). Then you can store the block in a dictionary so you can get access to the block via block=dictionary['headername'].

This will do something like what you want (this version is untested).

import sys

def convert_type(ss):
    try:
        return int(ss)
    except ValueError:
        try:
            return float(ss)
        except ValueError:
            return ss

def parse_file(ff):
    out={}
    block=None
    for i,line in enumerate(ff):
        #Allow for comments to start with '#'.  We break off anything after a '#'
        #and ignore it.  After that, we 
        data=line.split('#',1)
        line=data[0]  #comments (if in line) are in data[1] ... ignore those.
        line=line.strip() #remove whitespace from front and back of line.
        if(line.startswith('*')):
            #python supports multiple assignment.  
            #e.g. out['header'] is the same object as block.  
            #     changing block also changes out['header']
            block=out[line.strip()[1:]]=[]
        elif (block is not None) and line: #checks to make sure there is an active block and the line wasn't empty.
            #If the file could also have floats, you should use float instead of int
            #We also put the parsing in a try/except block.  If parsing fails (e.g. a
            #element can't be converted to a float, you'll know it and you'll know the
            #line which caused the problem.)
            try:
                #block.append(map(int,line.split()))
                block.append(map(convert_type,line.split()))  
            except Exception:
                sys.stderr.write("Parsing datafile choked on line %d '%s'\n"%(i+1,line.rstrip()))
                raise
    return out

with open('textfile.txt','r') as f:
    data_dict=parse_file(f)

#get information from '*load' block:
info=data_dict['load']
for row in info:
    a,b,c=row
    ##same as:
    #a=row[0]
    #b=row[1]
    #c=row[2]
    ##as long as row only has 3 elements.

    #Do something with that particular row. 
    #(each row in the 'load' block will be visited once in this loop)

#get info from stiffness block:
info=data_dict['stiffness']
for row in info:
    pass #Do something with this particular row.

Note that if you're guaranteed that each row in the datafile under a certain header has the same number of entries, you can think of the variable info as a 2-dimensional row which is indexed as element=info[row_number][column_number] -- but you can also get an entire row by row=info[row_number]

share|improve this answer
    
There wll always be 3 numbers in each row, it's the number of rows that could be of a random number. –  user2063 Jun 12 '12 at 14:06
    
@user20 -- Ok, that's good to know, but the point is how do you want the numbers stored? Do you want 1 list? or a list for each line? My answer returns a list for each line, but I don't know if that's desireable or not. –  mgilson Jun 12 '12 at 14:11
    
I believe a list for each line would be more appropriate, thank you for your help =) –  user2063 Jun 12 '12 at 14:15
    
@user20 : I'm sorry. I don't follow. how could you get the values without the datafile? you need the datafile in order to read the values from it (I thought). Of course, you just need to parse it once and then the values are all there (in my example, they're in the variable output). –  mgilson Jun 12 '12 at 14:34
    
Also with this code, how would I assign the 'n' number of rows to values since there could be several. It's fair enough doing output[0], output[1] etc but if I have output[n], how could I do this? –  user2063 Jun 14 '12 at 9:20

Perhaps something like this:

line = filename.readline()
if line.find("*load") == 0:
    line = filename.readline()
    while line != "\n" and line != "":
        vars = line.split(" ")

vars is just an example to store the values which would be ['2', '7', '200'] after this code runs (so you would need to convert them to floats or ints). You could then append these to an array or rename them as needed.

EDIT: Working program derived from the above.

filename = open("fff.txt", 'r')
values = {}

line = filename.readline()
while line:
    while line.find("*") != 0:
        line = filename.readline()

    sectionheader = line.strip()[1:]
    values[sectionheader] = []
    line = filename.readline()
    while line != "\n" and line != "":
        vals = [float(i) for i in line.split(" ")]
        values[sectionheader].append(vals)
        line = filename.readline()

print values
share|improve this answer
    
if line.find('*load'): doesn't work. When '*load' is found, the function returns 0 (if it's the first thing on the line). –  mgilson Jun 12 '12 at 14:10
    
whoops, wrote this too quickly and missed that. fixed. –  whrrgarbl Jun 12 '12 at 14:24
    
I still get an error using this at this line.. –  user2063 Jun 12 '12 at 14:35
    
What is the error? It seemed to work on my end -- see the more complete example I just added. –  whrrgarbl Jun 12 '12 at 15:11

Though I cannot help you with the syntax, it is probably best to use self invokation.

Write a function that detects the line you need and store the byte offset. Next, make that function invokate itself to find the next line ( to end the operation ), store its offset also and compare it with the previously saved value.

Now you have enough data to pinpoint which bytes need to be changed.

Self invoking functions are however quite efficient when used right they speed up performance and are easy to reuse.

In php I have build a streamwriter similar to the one in .net which works this way. I therefore know the theory works, however, this seems to be python.

I don't know enough of that language unfortunately. Good luck with your project though!

share|improve this answer
2  
This is python with messed up formatting :D –  jadkik94 Jun 12 '12 at 13:08
    
Noted and edited, thanks :) –  Digitalis Jun 12 '12 at 13:46

This is what I made of your code:

import sys
from Tkinter import *
import tkFileDialog
from tkFileDialog import askopenfile # Open dialog box


fen1 = Tk()                              # Create window
fen1.title("Optimisation")               # Window title

menu1 = Menu(fen1)

def do_open(interesting_parts=[]):
    thefile = askopenfile(filetypes=[("Text files","*.txt")], mode='r')

    data = {} # Create a dictionary to store all the data stored per part name
    part = None
    for line in thefile:
        if line.startswith("*"):
            # A * in the beginning signals a new "part"
            # And another one means the end.
            part = line[1:] # Remove the * in the beginning via slicing to get the name without it.
            if part in interesting_parts:
                data[part] = [] # Create a list inside the dictionary, so that you can add data to it later.
                # Only do this if we are interested in storing anything for this part
        elif part in interesting_parts:
            # Add an a condition to check if the part name is in the list of "parts" you are interested in having.
            line_data = get_something_from_this(part, line) # just a function that returns something based on the line and the part
            if line_data is not None: # Ignore it if it's None (just an option, as there might be newlines that you want to ignore)
                data[part].append(line_data)

    # Here, we return the dictionary to act on it.
    return data

def get_something_from_this(part, line):
    try:
        ints = [int(p) for p in line.split()]
    except ValueError:
        print "Ignoring Line", repr(line), "in", part
        return None # We don't care about this line!
    else:
        print "in", part, ints
        return ints # Store this line's data

data = do_open(["test", "egg"]) # Pass as an argument a list of the interesting "parts"

print data # this is a dictionary

# How do you access it?
print data["test"] # to get all the lines' data in a list
print data["egg"][0] # to get the first line of the data

for part, datalines in data.iterkeys():
    print part, datalines # datalines is the list of all the data, part is the dictionary's key which is the part name
    # Remember data[part] = ... <- Here part is the key.

fen1.mainloop()
  1. Don't name the variable filename when it's not a "file name" but a "file".
  2. You can use the for loop to loop through the lines one by one.
  3. Use split to split a string
  4. Use startswith to know if a string starts with another string
  5. Keep track of whether or not you're in the "*load" part in a variable.

UPDATE: Don't use open as a function name, it's already in python's builtins. Also, to avoid parsing the *load and *stiffness lines, I modified a bit the code: the parsing of each line is done in an elif statement.

UPDATE 2:

Updated code according to OP's needs. Tested with this file:

*test
1 2 3

*load
2 7 200
3 7 150

*stiffness
2 9 8

*egg
1 2 3
2 4 6

*plant
23 45 78

UPDATE 3: Heavily commented :)

share|improve this answer
    
I would just use line.split() instead of line.split(" ") (they're subtlely different). But storing all the data in a dict is indeed the way to go for this. (it's what I ended up doing for my edit as well). –  mgilson Jun 14 '12 at 12:35
    
I really like this method as well but am a bit confused as to where I can assign the values found to variables and also how to find the certain parts. E.g if I just wanted to find *test and *egg. –  user2063 Jun 14 '12 at 12:40
    
@mgilson Good to know there's a difference... I thought I'd make it more explicit. –  jadkik94 Jun 14 '12 at 12:48
    
@user20 I'll update my answer. –  jadkik94 Jun 14 '12 at 12:48
    
@jadkik94 -- You can see the difference very quickly by trying this: "this is a string which sometimes has 2 spaces in it".split(" ") -- Hmmm... SO isn't preserving my multiple spaces very well... –  mgilson Jun 14 '12 at 12:50

something like this should do

data=[]
check=false
for i in fid:
    if line.find("*load"):
        check=true
    if check==true and not line.find("*stiffness"):
        line=split(i)
        data.append(map(lambda x: float(x), line))
    if line.find("*stiffness"):
        break

fid.close()
for i in data:
    a=i[0]
    b=i[1]
    c=i[2]

take this as a code as rough suggestion ... (I think the exception is fixed now, well if not I don't care...)

share|improve this answer
1  
I think your map will raise an exception when it comes across the '*stiffness' line. –  mgilson Jun 12 '12 at 13:06
    
yes ... this is just a rough suggestion without testing –  Bort Jun 12 '12 at 13:07
    
Also your if line.find(...) should be if line.find(...) == -1 –  mgilson Jun 12 '12 at 13:14
    
-1. What does it take to fix this and explain? –  jadkik94 Jun 12 '12 at 13:18

Your Answer

 
discard

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.