I'm cleaning large (cannot be held in memory) tab-delimited files. As I clean the input file, I build up a list in memory; when it gets to 1,000,000 entries (about 1GB in memory) I sort it (using the default key below) and write the list to a file. This class is for putting the sorted files back together. It works on the files I have encountered thus far. My largest case, so far, is merging 66 sorted files.
- Are there holes in my logic (where is it fragile)?
- Have I implemented the merge-sort algorithm correctly?
- Are there any obvious improvements that could be made?
This is an abstraction of a line in one of these files:
'hash_of_SomeStringId\tSome String Id\t\t\twww.somelink.com\t\tOtherData\t\n'
The takeaway is that I use
'SomeStringId'.lower().replace(' ', '') as my sort key.
class SortedFileMerger(): """ A one-time use object that merges any number of smaller sorted files into one large sorted file. ARGS: paths - list of paths to sorted files output_path - string path to desired output file dedup - (boolean) remove lines with duplicate keys, default = True key - use to override sort key, default = "line.split('\t').lower().replace(' ', '')" will be prepended by "lambda line: ". This should be the same key that was used to sort the files being merged! """ def __init__(self, paths, output_path, dedup=True, key="line.split('\t').lower().replace(' ', '')"): self.key = eval("lambda line: %s" % key) self.dedup = dedup self.handles = [open(path, 'r') for path in paths] # holds one line from each file self.lines = [file_handle.readline() for file_handle in self.handles] self.output_file = open(output_path, 'w') self.lines_written = 0 self._mergeSortedFiles() #call the main method def __del__(self): """ Clean-up file handles. """ for handle in self.handles: if not handle.closed: handle.close() if self.output_file and (not self.output_file.closed): self.output_file.close() def _mergeSortedFiles(self): """ Merge the small sorted files to 'self.output_file'. This can and should only be called once. Called from __init__(). """ previous_comparable = '' min_line = self._getNextMin() while min_line: index = self.lines.index(min_line) comparable = self.key(min_line) if not self.dedup: #not removing duplicates self._writeLine(index) elif comparable != previous_comparable: #removing duplicates and this isn't one self._writeLine(index) else: #removing duplicates and this is one self._readNextLine(index) previous_comparable = comparable min_line = self._getNextMin() #finished merging self.output_file.close() def _getNextMin(self): """ Returns the next "smallest" line in sorted order. Returns None when there are no more values to get. """ while '' in self.lines: index = self.lines.index('') if self._isLastLine(index): # file.readline() is returning '' because # it has reached the end of a file. self._closeFile(index) else: # an empty line got mixed in self._readNextLine(index) if len(self.lines) == 0: return None return min(self.lines, key=self.key) def _writeLine(self, index): """ Write line to output file and update self.lines """ self.output_file.write(self.lines[index]) self.lines_written += 1 self._readNextLine(index) def _readNextLine(self, index): """ Read the next line from handles[index] into lines[index] """ self.lines[index] = self.handles[index].readline() def _closeFile(self, index): """ If there are no more lines to get in a file, it needs to be closed and removed from 'self.handles'. It's entry in 'self.lines' also need to be removed. """ handle = self.handles.pop(index) if not handle.closed: handle.close() # remove entry from self.lines to preserve order _ = self.lines.pop(index) def _isLastLine(self, index): """ Check that handles[index] is at the eof. """ handle = self.handles[index] if handle.tell() == os.path.getsize(handle.name): return True return False
Edit: Implementing the suggestions from Brian I came up with the following solution:
Second Edit: Updated the code per John Machin's suggestion:
def decorated_file(f, key): """ Yields an easily sortable tuple. """ for line in f: yield (key(line), line) def standard_keyfunc(line): """ The standard key function in my application. """ return line.split('\t', 2).replace(' ', '').lower() def mergeSortedFiles(paths, output_path, dedup=True, keyfunc=standard_keyfunc): """ Does the same thing SortedFileMerger class does. """ files = map(open, paths) #open defaults to mode='r' output_file = open(output_path, 'w') lines_written = 0 previous_comparable = '' for line in heapq26.merge(*[decorated_file(f, keyfunc) for f in files]): comparable = line if previous_comparable != comparable: output_file.write(line) lines_written += 1 previous_comparable = comparable return lines_written
Using the same input files (2.2 GB of data):