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I need to search a pretty large text file for a particular string. Its a build log with about 5000 lines of text. Whats the best way to go about doing that? Using regex shouldn't cause any problems should it? I'll go ahead and read blocks of lines, and use the simple find.

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7  
5000 lines? That is not 'pretty large' :-) – eumiro Oct 8 '10 at 20:29
1  
Blocks of lines? It sounds like your optimization is costing more than it's saving (for only a 5000 line file...). You're not concatenating strings in a loop, are you? :) – JoshD Oct 8 '10 at 20:34
up vote 30 down vote accepted

If it is "pretty large" file, then access the lines sequentially and don't read the whole file into memory:

with open('largeFile', 'r') as inF:
    for line in inF:
        if 'myString' in line:
            # do_something
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You could do a simple find:

f = open('file.txt', 'r')
lines = f.read()
answer = lines.find('string')

A simple find will be quite a bit quicker than regex if you can get away with it.

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I just tried this code there now but I'm printing answer to find out what it is, why is it when the string is not found answer is equal to "-1" but when it is found, the answer can be lots of different numbers? – MarkOSullivan94 Aug 28 '14 at 14:45

The following function works for textfiles and binary files (returns only position in byte-count though), it does have the benefit to find strings even if they would overlap a line or buffer and would not be found when searching line- or buffer-wise.

def fnd(fname, s, start=0):
    with open(fname, 'rb') as f:
        fsize = os.path.getsize(fname)
        bsize = 4096
        buffer = None
        if start > 0:
            f.seek(start)
        overlap = len(s) - 1
        while True:
            if (f.tell() >= overlap and f.tell() < fsize):
                f.seek(f.tell() - overlap)
            buffer = f.read(bsize)
            if buffer:
                pos = buffer.find(s)
                if pos >= 0:
                    return f.tell() - (len(buffer) - pos)
            else:
                return -1

The idea behind this is:

  • seek to a start position in file
  • read from file to buffer (the search strings has to be smaller than the buffer size) but if not at the beginning, drop back the - 1 bytes, to catch the string if started at the end of the last read buffer and continued on the next one.
  • return position or -1 if not found

I used something like this to find signatures of files inside larger ISO9660 files, which was quite fast and did not use much memory, you can also use a larger buffer to speed things up.

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What is "s" supposed to represent? Oh, perhaps it's the string you're trying to find? Yes, I see it now. – harperville Feb 21 '14 at 20:06

I've had a go at putting together a multiprocessing example of file text searching. This is my first effort at using the multiprocessing module; and I'm a python n00b. Comments quite welcome. I'll have to wait until at work to test on really big files. It should be faster on multi core systems than single core searching. Bleagh! How do I stop the processes once the text has been found and reliably report line number?

import multiprocessing, os, time
NUMBER_OF_PROCESSES = multiprocessing.cpu_count()

def FindText( host, file_name, text):
    file_size = os.stat(file_name ).st_size 
    m1 = open(file_name, "r")

    #work out file size to divide up to farm out line counting

    chunk = (file_size / NUMBER_OF_PROCESSES ) + 1
    lines = 0
    line_found_at = -1

    seekStart = chunk * (host)
    seekEnd = chunk * (host+1)
    if seekEnd > file_size:
        seekEnd = file_size

    if host > 0:
        m1.seek( seekStart )
        m1.readline()

    line = m1.readline()

    while len(line) > 0:
        lines += 1
        if text in line:
            #found the line
            line_found_at = lines
            break
        if m1.tell() > seekEnd or len(line) == 0:
            break
        line = m1.readline()
    m1.close()
    return host,lines,line_found_at

# Function run by worker processes
def worker(input, output):
    for host,file_name,text in iter(input.get, 'STOP'):
        output.put(FindText( host,file_name,text ))

def main(file_name,text):
    t_start = time.time()
    # Create queues
    task_queue = multiprocessing.Queue()
    done_queue = multiprocessing.Queue()
    #submit file to open and text to find
    print 'Starting', NUMBER_OF_PROCESSES, 'searching workers'
    for h in range( NUMBER_OF_PROCESSES ):
        t = (h,file_name,text)
        task_queue.put(t)

    #Start worker processes
    for _i in range(NUMBER_OF_PROCESSES):
        multiprocessing.Process(target=worker, args=(task_queue, done_queue)).start()

    # Get and print results

    results = {}
    for _i in range(NUMBER_OF_PROCESSES):
        host,lines,line_found = done_queue.get()
        results[host] = (lines,line_found)

    # Tell child processes to stop
    for _i in range(NUMBER_OF_PROCESSES):
        task_queue.put('STOP')
#        print "Stopping Process #%s" % i

    total_lines = 0
    for h in range(NUMBER_OF_PROCESSES):
        if results[h][1] > -1:
            print text, 'Found at', total_lines + results[h][1], 'in', time.time() - t_start, 'seconds'
            break
        total_lines += results[h][0]

if __name__ == "__main__":
    main( file_name = 'testFile.txt', text = 'IPI1520' )
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If there is no way to tell where the string will be (first half, second half, etc) then there is really no optimized way to do the search other than the builtin "find" function. You could reduce the I/O time and memory consumption by not reading the file all in one shot, but at 4kb blocks (which is usually the size of an hard disk block). This will not make the search faster, unless the string is in the first part of the file, but in all case will reduce memory consumption which might be a good idea if the file is huge.

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Depends on how huge. If it's around 1MB, I'd expect this way to be slower than loading the whole thing because of the latency for each read of all 256 blocks. If anything, I'd prefer a larger size of chunk to read each time. Perhaps a test... – JoshD Oct 8 '10 at 20:09
    
The latency may indeed be more, but not necessarily, the important is to read a multiple of the physical block size, not to waste read data. Indeed i'd not call a 1mb text file "huge", i was think something along the lines of some hundred of megabytes. I agree with you 100% than if the file is less than say 10 or even 50mb is not worth to read it in chunks. – Bitgamma Oct 8 '10 at 20:18

5000 lines isn't big (well, depends on how long the lines are...)

Anyway: assuming the string will be a word and will be seperated by whitespace...

lines=open(file_path,'r').readlines()
str_wanted="whatever_youre_looking_for"


    for i in range(len(lines)):
        l1=lines.split()
        for p in range(len(l1)):
            if l1[p]==str_wanted:
                #found
                # i is the file line, lines[i] is the full line, etc.
share|improve this answer
1  
l1=lines.split() AttributeError: 'list' object has no attribute 'split' – misguided Jul 3 '13 at 1:51

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