I am reading from several files, each file is divided into 2 pieces, first a header section of a few thousand lines follo开发者_Go百科wed by a body of a few thousand. My problem is I need to concatenate these files into one file where all the headers are on the top followed by the body.
Currently I am using two loops: one to pull out all the headers and write them, and the second to write the body of each file (I also include a tmp_count
variable to limit the number of lines to be loading into memory before dumping to file).
This is pretty slow - about 6min for 13gb file. Can anyone tell me how to optimize this or if there is a faster way to do this in python ?
Thanks!
Here is my code:
def cat_files_sam(final_file_name,work_directory_master,file_count):
final_file = open(final_file_name,"w")
if len(file_count) > 1:
file_count=sort_output_files(file_count)
# only for @ headers
for bowtie_file in file_count:
#print bowtie_file
tmp_list = []
tmp_count = 0
for line in open(os.path.join(work_directory_master,bowtie_file)):
if line.startswith("@"):
if tmp_count == 1000000:
final_file.writelines(tmp_list)
tmp_list = []
tmp_count = 0
tmp_list.append(line)
tmp_count += 1
else:
final_file.writelines(tmp_list)
break
for bowtie_file in file_count:
#print bowtie_file
tmp_list = []
tmp_count = 0
for line in open(os.path.join(work_directory_master,bowtie_file)):
if line.startswith("@"):
continue
if tmp_count == 1000000:
final_file.writelines(tmp_list)
tmp_list = []
tmp_count = 0
tmp_list.append(line)
tmp_count += 1
final_file.writelines(tmp_list)
final_file.close()
How fast would you expect it to be to move 13Gb of data around? This problem is I/O bound and not a problem with Python. To make it faster, do less I/O. Which means that you are either (a) stuck with the speed you've got or (b) should retool later elements of your toolchain to handle the files in-place rather than requiring one giant 13 Gb file.
You can save the time it takes the 2nd time to skip the headers, as long as you have a reasonable amount of spare disk space: as well as the final file, also open (for 'w+') a temporary file temp_file
, and do:
import shutil
hdr_list = []
bod_list = []
dispatch = {True: (hdr_list, final_file),
False: (bod_list, temp_file)}
for bowtie_file in file_count:
with open(os.path.join(work_directory_master,bowtie_file)) as f:
for line in f:
L, fou = dispatch[line[0]=='@']
L.append(f)
if len(L) == 1000000:
fou.writelines(L)
del L[:]
# write final parts, if any
for L, fou in dispatch.items():
if L: fou.writelines(L)
temp_file.seek(0)
shutil.copyfileobj(temp_file, final_file)
This should enhance your program's performance. Fine-tuning that now-hard-coded 1000000
, or even completely doing away with the lists and writing each line directly to the appropriate file (final or temporary), are other options you should benchmark (but if you have unbounded amounts of memory, then I expect that they won't matter much -- however, intuitions about performance are often misleading, so it's best to try and measure!-).
There are two gross inefficiencies in the code you meant to write (which is not the code presented):
- You are building up huge lists of header lines in the first major
for
block instead of just writing them out. - You are skipping the headers of the files again in the second major
for
block line by line when you've already determined where the headers end in (1). See file.seek and file.tell
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