Source code: Lib/filecmp.py
filecmp module defines the following functions:
- filecmp.cmp(f1, f2, shallow=True)¶
Compare the files named f1 and f2, returning
Trueif they seem equal,
If shallow is true and the
os.stat()signatures (file type, size, and modification time) of both files are identical, the files are taken to be equal.
Otherwise, the files are treated as different if their sizes or contents differ.
Note that no external programs are called from this function, giving it portability and efficiency.
- filecmp.cmpfiles(dir1, dir2, common, shallow=True)¶
Compare the files in the two directories dir1 and dir2 whose names are given by common.
Returns three lists of file names: match, mismatch, errors. match contains the list of files that match, mismatch contains the names of those that don’t, and errors lists the names of files which could not be compared. Files are listed in errors if they don’t exist in one of the directories, the user lacks permission to read them or if the comparison could not be done for some other reason.
The shallow parameter has the same meaning and default value as for
cmpfiles('a', 'b', ['c', 'd/e'])will compare
'd/e'will each be in one of the three returned lists.
Clear the filecmp cache. This may be useful if a file is compared so quickly after it is modified that it is within the mtime resolution of the underlying filesystem.
New in version 3.4.
- class filecmp.dircmp(a, b, ignore=None, hide=None)¶
Construct a new directory comparison object, to compare the directories a and b. ignore is a list of names to ignore, and defaults to
filecmp.DEFAULT_IGNORES. hide is a list of names to hide, and defaults to
dircmpclass provides the following methods:
Print a comparison between a and b and common immediate subdirectories.
Print a comparison between a and b and common subdirectories (recursively).
dircmpclass offers a number of interesting attributes that may be used to get various bits of information about the directory trees being compared.
Note that via
__getattr__()hooks, all attributes are computed lazily, so there is no speed penalty if only those attributes which are lightweight to compute are used.
The directory a.
The directory b.
Files and subdirectories in a, filtered by hide and ignore.
Files and subdirectories in b, filtered by hide and ignore.
Files and subdirectories in both a and b.
Files and subdirectories only in a.
Files and subdirectories only in b.
Subdirectories in both a and b.
Files in both a and b.
Names in both a and b, such that the type differs between the directories, or names for which
os.stat()reports an error.
Files which are identical in both a and b, using the class’s file comparison operator.
Files which are in both a and b, whose contents differ according to the class’s file comparison operator.
Files which are in both a and b, but could not be compared.
Here is a simplified example of using the
subdirs attribute to search
recursively through two directories to show common different files:
>>> from filecmp import dircmp >>> def print_diff_files(dcmp): ... for name in dcmp.diff_files: ... print("diff_file %s found in %s and %s" % (name, dcmp.left, ... dcmp.right)) ... for sub_dcmp in dcmp.subdirs.values(): ... print_diff_files(sub_dcmp) ... >>> dcmp = dircmp('dir1', 'dir2') >>> print_diff_files(dcmp)