problem.py 5.2 KB

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  1. """
  2. In this file we define a ProblemVault class where we store all the
  3. exceptions and all the problems we find with the code.
  4. The ProblemVault is capable of registering problems and also figuring out if a
  5. problem is worse than a registered exception so that it only warns when things
  6. get worse.
  7. """
  8. from __future__ import print_function
  9. import os.path
  10. import sys
  11. class ProblemVault(object):
  12. """
  13. Singleton where we store the various new problems we
  14. found in the code, and also the old problems we read from the exception
  15. file.
  16. """
  17. def __init__(self, exception_fname):
  18. # Exception dictionary: { problem.key() : Problem object }
  19. self.exceptions = {}
  20. try:
  21. with open(exception_fname, 'r') as exception_f:
  22. self.register_exceptions(exception_f)
  23. except IOError:
  24. print("No exception file provided", file=sys.stderr)
  25. def register_exceptions(self, exception_file):
  26. # Register exceptions
  27. for line in exception_file:
  28. problem = get_old_problem_from_exception_str(line)
  29. if problem is None:
  30. continue
  31. # Fail if we see dup exceptions. There is really no reason to have dup exceptions.
  32. if problem.key() in self.exceptions:
  33. print("Duplicate exceptions lines found in exception file:\n\t{}\n\t{}\nAborting...".format(problem, self.exceptions[problem.key()]),
  34. file=sys.stderr)
  35. sys.exit(1)
  36. self.exceptions[problem.key()] = problem
  37. #print "Registering exception: %s" % problem
  38. def register_problem(self, problem):
  39. """
  40. Register this problem to the problem value. Return True if it was a new
  41. problem or it worsens an already existing problem.
  42. """
  43. # This is a new problem, print it
  44. if problem.key() not in self.exceptions:
  45. print(problem)
  46. return True
  47. # If it's an old problem, we don't warn if the situation got better
  48. # (e.g. we went from 4k LoC to 3k LoC), but we do warn if the
  49. # situation worsened (e.g. we went from 60 includes to 80).
  50. if problem.is_worse_than(self.exceptions[problem.key()]):
  51. print(problem)
  52. return True
  53. return False
  54. class Problem(object):
  55. """
  56. A generic problem in our source code. See the subclasses below for the
  57. specific problems we are trying to tackle.
  58. """
  59. def __init__(self, problem_type, problem_location, metric_value):
  60. self.problem_location = problem_location
  61. self.metric_value = int(metric_value)
  62. self.problem_type = problem_type
  63. def is_worse_than(self, other_problem):
  64. """Return True if this is a worse problem than other_problem"""
  65. if self.metric_value > other_problem.metric_value:
  66. return True
  67. return False
  68. def key(self):
  69. """Generate a unique key that describes this problem that can be used as a dictionary key"""
  70. # Problem location is a filesystem path, so we need to normalize this
  71. # across platforms otherwise same paths are not gonna match.
  72. canonical_location = os.path.normcase(self.problem_location)
  73. return "%s:%s" % (canonical_location, self.problem_type)
  74. def __str__(self):
  75. return "problem %s %s %s" % (self.problem_type, self.problem_location, self.metric_value)
  76. class FileSizeProblem(Problem):
  77. """
  78. Denotes a problem with the size of a .c file.
  79. The 'problem_location' is the filesystem path of the .c file, and the
  80. 'metric_value' is the number of lines in the .c file.
  81. """
  82. def __init__(self, problem_location, metric_value):
  83. super(FileSizeProblem, self).__init__("file-size", problem_location, metric_value)
  84. class IncludeCountProblem(Problem):
  85. """
  86. Denotes a problem with the number of #includes in a .c file.
  87. The 'problem_location' is the filesystem path of the .c file, and the
  88. 'metric_value' is the number of #includes in the .c file.
  89. """
  90. def __init__(self, problem_location, metric_value):
  91. super(IncludeCountProblem, self).__init__("include-count", problem_location, metric_value)
  92. class FunctionSizeProblem(Problem):
  93. """
  94. Denotes a problem with a size of a function in a .c file.
  95. The 'problem_location' is "<path>:<function>()" where <path> is the
  96. filesystem path of the .c file and <function> is the name of the offending
  97. function.
  98. The 'metric_value' is the size of the offending function in lines.
  99. """
  100. def __init__(self, problem_location, metric_value):
  101. super(FunctionSizeProblem, self).__init__("function-size", problem_location, metric_value)
  102. def get_old_problem_from_exception_str(exception_str):
  103. try:
  104. _, problem_type, problem_location, metric_value = exception_str.split(" ")
  105. except ValueError:
  106. return None
  107. if problem_type == "file-size":
  108. return FileSizeProblem(problem_location, metric_value)
  109. elif problem_type == "include-count":
  110. return IncludeCountProblem(problem_location, metric_value)
  111. elif problem_type == "function-size":
  112. return FunctionSizeProblem(problem_location, metric_value)
  113. else:
  114. # print("Unknown exception line '{}'".format(exception_str))
  115. return None