| """Results of coverage measurement.""" |
| |
| import os |
| |
| from coverage.backward import set, sorted # pylint: disable=W0622 |
| from coverage.misc import format_lines, join_regex, NoSource |
| from coverage.parser import CodeParser |
| |
| |
| class Analysis(object): |
| """The results of analyzing a code unit.""" |
| |
| def __init__(self, cov, code_unit): |
| self.coverage = cov |
| self.code_unit = code_unit |
| |
| self.filename = self.code_unit.filename |
| ext = os.path.splitext(self.filename)[1] |
| source = None |
| if ext == '.py': |
| if not os.path.exists(self.filename): |
| source = self.coverage.file_locator.get_zip_data(self.filename) |
| if not source: |
| raise NoSource("No source for code: %r" % self.filename) |
| |
| self.parser = CodeParser( |
| text=source, filename=self.filename, |
| exclude=self.coverage._exclude_regex('exclude') |
| ) |
| self.statements, self.excluded = self.parser.parse_source() |
| |
| # Identify missing statements. |
| executed = self.coverage.data.executed_lines(self.filename) |
| exec1 = self.parser.first_lines(executed) |
| self.missing = sorted(set(self.statements) - set(exec1)) |
| |
| if self.coverage.data.has_arcs(): |
| self.no_branch = self.parser.lines_matching( |
| join_regex(self.coverage.config.partial_list), |
| join_regex(self.coverage.config.partial_always_list) |
| ) |
| n_branches = self.total_branches() |
| mba = self.missing_branch_arcs() |
| n_missing_branches = sum( |
| [len(v) for k,v in mba.items() if k not in self.missing] |
| ) |
| else: |
| n_branches = n_missing_branches = 0 |
| self.no_branch = set() |
| |
| self.numbers = Numbers( |
| n_files=1, |
| n_statements=len(self.statements), |
| n_excluded=len(self.excluded), |
| n_missing=len(self.missing), |
| n_branches=n_branches, |
| n_missing_branches=n_missing_branches, |
| ) |
| |
| def missing_formatted(self): |
| """The missing line numbers, formatted nicely. |
| |
| Returns a string like "1-2, 5-11, 13-14". |
| |
| """ |
| return format_lines(self.statements, self.missing) |
| |
| def has_arcs(self): |
| """Were arcs measured in this result?""" |
| return self.coverage.data.has_arcs() |
| |
| def arc_possibilities(self): |
| """Returns a sorted list of the arcs in the code.""" |
| arcs = self.parser.arcs() |
| return arcs |
| |
| def arcs_executed(self): |
| """Returns a sorted list of the arcs actually executed in the code.""" |
| executed = self.coverage.data.executed_arcs(self.filename) |
| m2fl = self.parser.first_line |
| executed = [(m2fl(l1), m2fl(l2)) for (l1,l2) in executed] |
| return sorted(executed) |
| |
| def arcs_missing(self): |
| """Returns a sorted list of the arcs in the code not executed.""" |
| possible = self.arc_possibilities() |
| executed = self.arcs_executed() |
| missing = [ |
| p for p in possible |
| if p not in executed |
| and p[0] not in self.no_branch |
| ] |
| return sorted(missing) |
| |
| def arcs_unpredicted(self): |
| """Returns a sorted list of the executed arcs missing from the code.""" |
| possible = self.arc_possibilities() |
| executed = self.arcs_executed() |
| # Exclude arcs here which connect a line to itself. They can occur |
| # in executed data in some cases. This is where they can cause |
| # trouble, and here is where it's the least burden to remove them. |
| unpredicted = [ |
| e for e in executed |
| if e not in possible |
| and e[0] != e[1] |
| ] |
| return sorted(unpredicted) |
| |
| def branch_lines(self): |
| """Returns a list of line numbers that have more than one exit.""" |
| exit_counts = self.parser.exit_counts() |
| return [l1 for l1,count in exit_counts.items() if count > 1] |
| |
| def total_branches(self): |
| """How many total branches are there?""" |
| exit_counts = self.parser.exit_counts() |
| return sum([count for count in exit_counts.values() if count > 1]) |
| |
| def missing_branch_arcs(self): |
| """Return arcs that weren't executed from branch lines. |
| |
| Returns {l1:[l2a,l2b,...], ...} |
| |
| """ |
| missing = self.arcs_missing() |
| branch_lines = set(self.branch_lines()) |
| mba = {} |
| for l1, l2 in missing: |
| if l1 in branch_lines: |
| if l1 not in mba: |
| mba[l1] = [] |
| mba[l1].append(l2) |
| return mba |
| |
| def branch_stats(self): |
| """Get stats about branches. |
| |
| Returns a dict mapping line numbers to a tuple: |
| (total_exits, taken_exits). |
| """ |
| |
| exit_counts = self.parser.exit_counts() |
| missing_arcs = self.missing_branch_arcs() |
| stats = {} |
| for lnum in self.branch_lines(): |
| exits = exit_counts[lnum] |
| try: |
| missing = len(missing_arcs[lnum]) |
| except KeyError: |
| missing = 0 |
| stats[lnum] = (exits, exits - missing) |
| return stats |
| |
| |
| class Numbers(object): |
| """The numerical results of measuring coverage. |
| |
| This holds the basic statistics from `Analysis`, and is used to roll |
| up statistics across files. |
| |
| """ |
| # A global to determine the precision on coverage percentages, the number |
| # of decimal places. |
| _precision = 0 |
| _near0 = 1.0 # These will change when _precision is changed. |
| _near100 = 99.0 |
| |
| def __init__(self, n_files=0, n_statements=0, n_excluded=0, n_missing=0, |
| n_branches=0, n_missing_branches=0 |
| ): |
| self.n_files = n_files |
| self.n_statements = n_statements |
| self.n_excluded = n_excluded |
| self.n_missing = n_missing |
| self.n_branches = n_branches |
| self.n_missing_branches = n_missing_branches |
| |
| def set_precision(cls, precision): |
| """Set the number of decimal places used to report percentages.""" |
| assert 0 <= precision < 10 |
| cls._precision = precision |
| cls._near0 = 1.0 / 10**precision |
| cls._near100 = 100.0 - cls._near0 |
| set_precision = classmethod(set_precision) |
| |
| def _get_n_executed(self): |
| """Returns the number of executed statements.""" |
| return self.n_statements - self.n_missing |
| n_executed = property(_get_n_executed) |
| |
| def _get_n_executed_branches(self): |
| """Returns the number of executed branches.""" |
| return self.n_branches - self.n_missing_branches |
| n_executed_branches = property(_get_n_executed_branches) |
| |
| def _get_pc_covered(self): |
| """Returns a single percentage value for coverage.""" |
| if self.n_statements > 0: |
| pc_cov = (100.0 * (self.n_executed + self.n_executed_branches) / |
| (self.n_statements + self.n_branches)) |
| else: |
| pc_cov = 100.0 |
| return pc_cov |
| pc_covered = property(_get_pc_covered) |
| |
| def _get_pc_covered_str(self): |
| """Returns the percent covered, as a string, without a percent sign. |
| |
| Note that "0" is only returned when the value is truly zero, and "100" |
| is only returned when the value is truly 100. Rounding can never |
| result in either "0" or "100". |
| |
| """ |
| pc = self.pc_covered |
| if 0 < pc < self._near0: |
| pc = self._near0 |
| elif self._near100 < pc < 100: |
| pc = self._near100 |
| else: |
| pc = round(pc, self._precision) |
| return "%.*f" % (self._precision, pc) |
| pc_covered_str = property(_get_pc_covered_str) |
| |
| def pc_str_width(cls): |
| """How many characters wide can pc_covered_str be?""" |
| width = 3 # "100" |
| if cls._precision > 0: |
| width += 1 + cls._precision |
| return width |
| pc_str_width = classmethod(pc_str_width) |
| |
| def __add__(self, other): |
| nums = Numbers() |
| nums.n_files = self.n_files + other.n_files |
| nums.n_statements = self.n_statements + other.n_statements |
| nums.n_excluded = self.n_excluded + other.n_excluded |
| nums.n_missing = self.n_missing + other.n_missing |
| nums.n_branches = self.n_branches + other.n_branches |
| nums.n_missing_branches = (self.n_missing_branches + |
| other.n_missing_branches) |
| return nums |
| |
| def __radd__(self, other): |
| # Implementing 0+Numbers allows us to sum() a list of Numbers. |
| if other == 0: |
| return self |
| return NotImplemented |