""" In this file we define a ProblemVault class where we store all the exceptions and all the problems we find with the code. The ProblemVault is capable of registering problems and also figuring out if a problem is worse than a registered exception so that it only warns when things get worse. """ from __future__ import print_function import os.path import sys class ProblemVault(object): """ Singleton where we store the various new problems we found in the code, and also the old problems we read from the exception file. """ def __init__(self, exception_fname): # Exception dictionary: { problem.key() : Problem object } self.exceptions = {} try: with open(exception_fname, 'r') as exception_f: self.register_exceptions(exception_f) except IOError: print("No exception file provided", file=sys.stderr) def register_exceptions(self, exception_file): # Register exceptions for line in exception_file: problem = get_old_problem_from_exception_str(line) if problem is None: continue # Fail if we see dup exceptions. There is really no reason to have dup exceptions. if problem.key() in self.exceptions: print("Duplicate exceptions lines found in exception file:\n\t{}\n\t{}\nAborting...".format(problem, self.exceptions[problem.key()]), file=sys.stderr) sys.exit(1) self.exceptions[problem.key()] = problem #print "Registering exception: %s" % problem def register_problem(self, problem): """ Register this problem to the problem value. Return True if it was a new problem or it worsens an already existing problem. """ # This is a new problem, print it if problem.key() not in self.exceptions: print(problem) return True # If it's an old problem, we don't warn if the situation got better # (e.g. we went from 4k LoC to 3k LoC), but we do warn if the # situation worsened (e.g. we went from 60 includes to 80). if problem.is_worse_than(self.exceptions[problem.key()]): print(problem) return True return False class Problem(object): """ A generic problem in our source code. See the subclasses below for the specific problems we are trying to tackle. """ def __init__(self, problem_type, problem_location, metric_value): self.problem_location = problem_location self.metric_value = int(metric_value) self.problem_type = problem_type def is_worse_than(self, other_problem): """Return True if this is a worse problem than other_problem""" if self.metric_value > other_problem.metric_value: return True return False def key(self): """Generate a unique key that describes this problem that can be used as a dictionary key""" # Problem location is a filesystem path, so we need to normalize this # across platforms otherwise same paths are not gonna match. canonical_location = os.path.normcase(self.problem_location) return "%s:%s" % (canonical_location, self.problem_type) def __str__(self): return "problem %s %s %s" % (self.problem_type, self.problem_location, self.metric_value) class FileSizeProblem(Problem): """ Denotes a problem with the size of a .c file. The 'problem_location' is the filesystem path of the .c file, and the 'metric_value' is the number of lines in the .c file. """ def __init__(self, problem_location, metric_value): super(FileSizeProblem, self).__init__("file-size", problem_location, metric_value) class IncludeCountProblem(Problem): """ Denotes a problem with the number of #includes in a .c file. The 'problem_location' is the filesystem path of the .c file, and the 'metric_value' is the number of #includes in the .c file. """ def __init__(self, problem_location, metric_value): super(IncludeCountProblem, self).__init__("include-count", problem_location, metric_value) class FunctionSizeProblem(Problem): """ Denotes a problem with a size of a function in a .c file. The 'problem_location' is ":()" where is the filesystem path of the .c file and is the name of the offending function. The 'metric_value' is the size of the offending function in lines. """ def __init__(self, problem_location, metric_value): super(FunctionSizeProblem, self).__init__("function-size", problem_location, metric_value) def get_old_problem_from_exception_str(exception_str): try: _, problem_type, problem_location, metric_value = exception_str.split(" ") except ValueError: return None if problem_type == "file-size": return FileSizeProblem(problem_location, metric_value) elif problem_type == "include-count": return IncludeCountProblem(problem_location, metric_value) elif problem_type == "function-size": return FunctionSizeProblem(problem_location, metric_value) else: # print("Unknown exception line '{}'".format(exception_str)) return None