#!/usr/bin/env python ''' This program takes one mandatory parameter, the VTK base folder, and up to four optional parameters corresponding to the names of the testing language subfolders, e.g Cxx, Python, and, possibly, an optional print option along with some other optional options. If no optional parameters are given, then some statistics about the number of tests are provided. These statistics are also displayed when optional parameters are provided. Optional parameters are one or more of: Cxx or Python. If one optional parameter e.g Python, is provided, then a list of the tests by folder for that parameter are given if the print option is specified. If two optional parameters, e.g Cxx Python, are provided, then a list of the tests by folder corresponding to those tests that are in Cxx but not Python is provided if the print option is specified. These are the additional options: -e: include only those tests enabled in the CMakeLists.txt file. -d: include only those tests disabled in the CMakeLists.txt file. -n: include only those tests not in the CMakeLists.txt file. The above are mutually exclusive. -p Print out a list of files. Some examples of typical usage: Python Cxx Python Cxx -p Python -n -p -d -p ''' from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals import sys import os import re import errno import shutil from collections import defaultdict import string import copy import argparse class FindTests(object): ''' Search through the VTK folder and create a dictionary of all the tests. Only the Testing folder's subdirectories: Cxx, Python and Tcl are searched. ''' def __init__(self, inputPath): self.patterns = {'Cxx': re.compile(r'(^.*Testing)(\/Cxx)(.?|\/)$'), 'Python': re.compile( r'(^.*Testing)(\/Python)(.?|\/)$')} self.inputPath = inputPath # Dictionary of test names keyed by type e.g Python self.tests = dict() for key in self.patterns: self.tests[key] = defaultdict(set) self.fileExtensions = dict() for key in self.patterns: self.fileExtensions[key] = key.lower() self.fileExtensions['Python'] = 'py' # Used to validate input. self.keys = {'cpp': 'Cxx', 'cxx': 'Cxx', 'c++': 'Cxx', 'python': 'Python'} def ParseCMakeFile(self, dir): ''' Parse the CMakeLists.txt file as best we can by eliminating spurious lines and return two strings that can be searched for programs/scripts. The approach here is to just partition the file into two strings, one containing comments and the other the non-comment lines. :param: dir - the directory :return: a pair of strings containing the enabled programs/scripts and commented out programs/scripts. ''' filePath = os.path.abspath(os.path.join(dir, 'CMakeLists.txt')) if not os.path.exists(filePath): return None, None fh = open(filePath, 'rb') nonComments = [] comments = [] for line in fh: # convert bytes to a string. line = line.strip().decode() if not line: continue if line[0] == '#': if len(line) > 1: comments.append(line[1:]) continue if line: nonComments.append(line) # Remove duplicates. nonComments = set(nonComments) comments = set(comments) return '\n'.join(nonComments), '\n'.join(comments) # return '\n'.join(map(str, nonComments)), '\n'.join(map(str, comments)) def AddValue(self, fn, key, v): ''' :param: fn - the dictionary :param: key - the key :param: v - the value to add to the set of values in fn[key]. ''' try: values = fn[key] values.add(v) fn[key] = values except KeyError: # Key is not present fn[key] = set([v]) def WalkPaths(self, option=0): """ Walk the paths producing a dictionary keyed by the testing subdirectory type e.g Cxx, whose value is dictionary keyed by relative path whose value is a set of all the programs in that particular path. :param: option - This relates to the CMakeLists.txt file. If 1: only enabled programs/scripts are selected, 2: only disabled programs/scripts are selected, 3: only programs/scripts not in CMakeLists.txt are selected. Any other value - all programs/scripts are selected. """ for root, dirs, files in os.walk(self.inputPath, topdown=True): for key in self.patterns: # Need to do this for Windows. r = root.replace('\\', '/') match = re.search(self.patterns[key], r) if match: newKey = match.group(1) if option > 0 and option < 4: nonComments, comments = self.ParseCMakeFile(root) for name in files: fn = os.path.splitext(name)[0] if option == 1: if nonComments: if fn in nonComments: if name.lower().endswith( self.fileExtensions[key]): self.AddValue( self.tests[key], newKey, fn) elif option == 2: if comments: if fn in comments: if name.lower().endswith( self.fileExtensions[key]): self.AddValue( self.tests[key], newKey, fn) elif option == 3: s = None if comments and nonComments: s = comments + nonComments elif comments: s = comments else: s = nonComments if s: if not(fn in s): if name.lower().endswith( self.fileExtensions[key]): self.AddValue(self.tests[key], newKey, fn) else: if name.lower().endswith(self.fileExtensions[key]): self.AddValue(self.tests[key], newKey, fn) def Difference(self, a, b): ''' :param: a - A dictionary of values. :param: b - A dictionary of values. :return: A dictionary where the values are the differences of the values in a and b for each key. ''' c = defaultdict(set) for key in a: if key in b: setDifference = a[key] - b[key] if setDifference: for fn in setDifference: try: values = c[key] values.add(fn) c[key] = values except KeyError: # Key is not present c[key] = set([fn]) else: for fn in a[key]: try: values = c[key] values.add(fn) c[key] = values except KeyError: # Key is not present c[key] = set([fn]) return c def Union(self, a, b): ''' :param: a - A dictionary of values. :param: b - A dictionary of values. :return: A dictionary of where the values are the union of the values in a and b for each key. ''' c = copy.deepcopy(a) for key in b: if key in a: setUnion = c[key] | b[key] else: setUnion = b[key] if setUnion: for fn in setUnion: newKey = key try: values = c[newKey] values.add(fn) c[newKey] = values except KeyError: # Key is not present c[newKey] = set([fn]) return c def GetTotalNumberOfItems(self, a): ''' :param: a - the dictionary. :return: The sum of all the elements in each value in the dictionary. ''' numberOfItems = 0; for key in a: numberOfItems += len(a[key]) return numberOfItems def NumberOfTestsByLanguage(self, tl): ''' :param: tl - the language, e.g. Cxx or Python. :return: The sum of all the elements in the dictionary for that language. ''' return self.GetTotalNumberOfItems(self.tests[tl]) def NumberOfUniqueTestsByLanguage(self, tl1, tl2): ''' :param: tl - the language, e.g. Cxx or Python. :param: t2 - the language, e.g. Cxx or Python. :return: The sum of all the elements in the dictionary for the language tl1 that are unique. ''' x = self.InANotBOrC(tl1, tl2) return self.GetTotalNumberOfItems(x) def InANotB(self, a, b): ''' :param: a - The key for the first dictionary. :param: b - The key for the second dictionary. :return: d[a] - d[b], where d is a dictionary. ''' try: v1 = self.tests[self.keys[a.lower()]] v2 = self.tests[self.keys[b.lower()]] return self.Difference(v1, v2) except: return None def InANotBOrC(self, a, b, c): ''' :param: a - The key for the first dictionary. :param: b - The key for the second dictionary. :return: d[a] - (d[b] + d[c]), where d is a dictionary. ''' try: v1 = self.tests[self.keys[a.lower()]] v2 = self.tests[self.keys[b.lower()]] v3 = self.tests[self.keys[c.lower()]] u = self.Union(v2, v3) return self.Difference(v1, u) except: return None def MakeSorted(self, d, s=None): ''' :param: d - The dictionary. :param: s the string to append to the key. :return: A string containing a sorted list of the keys and values. ''' l = list() for key, value in sorted(d.items()): if s: l.append(key + '/' + s) else: l.append(key) for v in sorted(value): if s: l.append(' {:s}'.format(v)) else: l.append(' {:s}'.format(v)) return '\n'.join(l) def GetProgramParameters(): description = 'Review the testing programs and scripts in VTK.' epilogue = ''' This program produces statistics about the number of tests in VTK. It can also list programs/scripts that are in one language but not in other languages. ''' parser = argparse.ArgumentParser(description=description, epilog=epilogue) parser.add_argument('inputPath', help='The path to the VTK source folder.', action='store') parser.add_argument('a', help='Tests in this folder e.g. one of Cxx, Python, Tcl.', nargs='?', default=None, action='store') parser.add_argument('b', help='Exclude tests in this folder e.g. one of Cxx, Python, Tcl.', nargs='?', default=None, action='store') parser.add_argument('c', help='Exclude tests in this folder e.g. one of Cxx, Python, Tcl.', nargs='?', default=None, action='store') group = parser.add_mutually_exclusive_group() group.add_argument('-e', '--enabled', help='Tests enabled as determined by the CMakeLists.txt file.', action='store_true') group.add_argument('-d', '--disabled', help='Tests disabled as determined by the CMakeLists.txt file.', action='store_true') group.add_argument('-n', '--notIn', help='Tests not in the CMakeLists.txt file.', action='store_true') group1 = parser.add_argument_group() group1.add_argument('-p', '--printFileNames', help='Print the filenames sorted by folder.', action='store_true') args = parser.parse_args() return args.inputPath, \ [args.a, args.b, args.enabled, args.disabled, args.notIn, args.printFileNames] def CheckPythonVersion(ver): ''' Check the Python version. :param: ver - the minimum required version number as hexadecimal. :return: True if the Python version is greater than or equal to ver. ''' if sys.hexversion < ver: return False return True def main(): if not CheckPythonVersion(0x02070000): print('This program requires Python 2.7 or greater.') return Ok = True inputPath, opts = GetProgramParameters() if not(os.path.exists(inputPath) and os.path.isdir(inputPath)): print( 'Input path: {:s}\n should be the VTK top-level folder.'.format(inputPath)) Ok = False tests = FindTests(inputPath) # An index for the number of languages selected. select = 0 idx = 0 for v in opts[:2]: if v: if not v.lower() in tests.keys: print('Invalid value: ', v) Ok = False else: opts[idx] = tests.keys[v.lower()] select += 1 idx += 1 if not Ok: return testOptions = 0 testType = 'All tests' if opts[2]: testOptions = 1 testType = 'Enabled tests' if opts[3]: testOptions = 2 estType = 'Disabled tests' if opts[4]: testOptions = 3 testType = 'Not in CmakeLists.txt' tests.WalkPaths(testOptions) c = tests.NumberOfTestsByLanguage('Cxx') ce = tests.NumberOfUniqueTestsByLanguage('Cxx', 'Python') p = tests.NumberOfTestsByLanguage('Python') pe = tests.NumberOfUniqueTestsByLanguage('Python', 'Cxx') print('-' * 40) print(testType + '.') print('-' * 40) print('{:32s}:{:6d}'.format('Unique Cxx tests', ce)) print('{:32s}:{:6d}'.format('Total number of Cxx tests', c)) print('-' * 40) print('{:32s}:{:6d}'.format('Unique Python tests', pe)) print('{:32s}:{:6d}'.format('Total number of Python tests', p)) print('-' * 40) print('{:32s}:{:6d}'.format('Total number of unique tests', ce + pe)) print('{:32s}:{:6d}'.format('Total number of tests', c + p)) print('-' * 40) if opts[5]: # Print the filenames. if testOptions >= 0 and testOptions < 4: if select > 0: if select == 1: print('In {:s}.'.format(opts[0])) print('-' * 40) print(tests.MakeSorted(tests.tests[opts[0]], opts[0])) elif select == 2: inANotB = tests.InANotB(opts[0], opts[1]) if inANotB: print('In {:s} but not in {:s}.'.format( opts[0], opts[1])) print('-' * 40) print(tests.MakeSorted(inANotB, opts[0])) else: for k in sorted(tests.tests.keys()): print('-' * 40) print(tests.MakeSorted(tests.tests[k], k)) print('-' * 40) return Ok if __name__ == '__main__': main()