def compare(self, reference_filepath, other_filepath, **kwargs): """ Method can do anything as long as int value is returned :param reference_filepath: :param other_filepath: :param kwargs: :return: """ reference_content = IO.read( Paths.abspath(reference_filepath) ) other_content = IO.read( Paths.abspath(other_filepath) ) self.output.write("In case of emergency,") self.output.write(" you can provide details on what went wrong") self.output.write(" using self.output.write method") self.output.write("") self.output.write("Error while comparing files \n{} \n{}" .format(reference_filepath, other_filepath)) # must return return-code! return 1
def get_command(f1, f2, **details): return [ Paths.ndiff(), '-r', str(details.get('r_tol', '100.01')), '-a', str(details.get('a_tol', '100.0001')), Paths.abspath(f1), Paths.abspath(f2) ]
def get_command(f1, f2, **details): return [ Paths.ndiff(), "-r", str(details.get("r_tol", "0.01")), "-a", str(details.get("a_tol", "0.0001")), Paths.abspath(f1), Paths.abspath(f2), ]
def __iter__(self): fileset = formic.FileSet(self.includes, directory=self.source) for filename in fileset: name = Paths.basename(filename) if not self.name else self.name.format( path=self.create_path_dict(filename), name=Paths.basename(filename), ) if self.flat: root = self.target else: rel_path = Paths.relpath(Paths.dirname(filename), Paths.abspath(self.source)) root = Paths.abspath(Paths.join(self.target, rel_path)) yield CopyRule(filename, Paths.join(root, name), self.remove_original)
def on_complete(self, pypy=None): if self.pypy.returncode > 0: if self.message: Printer.separator() Printer.open() Printer.out(self.message) else: Printer.open() # if file pointer exist try to read errors and outputs output = self.pypy.executor.output.read() if output: if self.pypy.full_output: Printer.out('Output (last {} lines, rest in {}): ', self.tail, Paths.abspath(self.pypy.full_output)) else: Printer.out('Output (last {} lines): ', self.tail) Printer.err(format_n_lines(output, -self.tail, indent=Printer.indent * ' ')) Printer.close()
def __init__(self, yaml_file): self.yaml_file = Paths.abspath(yaml_file) self.configuration = None # set default language as english os.environ['LC_ALL'] = 'C'
def __init__(self, yaml_file): self.yaml_file = Paths.abspath(yaml_file) self.configuration = None # set default language as english os.environ["LC_ALL"] = "C"
def compare(self, reference_filepath, other_filepath, **kwargs): """ Method can do anything as long as int value is returned :param reference_filepath: :param other_filepath: :param kwargs: :return: """ regex = kwargs.get('regex', None) substr = kwargs.get('substr', None) if regex is None and substr is None: self.output.write( "Invalid check rule! Specify either 'regex' or 'substr' keyword." ) return 1 # convert to str or compile to regex if substr is not None: substr = str(substr) if regex is not None: regex = re.compile(str(regex)) # for regex comparison we ignore reference file # read job_output.log content = IO.read(Paths.abspath(other_filepath)) # substr find if substr: found = False for line in content.splitlines(): if line.find(substr) != -1: found = True self.output.write( '[OK] Found substr "{substr}" in line:'.format( **locals())) self.output.write(' ' + line) break if not found: self.output.write( '[ERROR] Could not find substr "{substr}":'.format( **locals())) return 1 # regex match if regex: found = False for line in content.splitlines(): if regex.findall(line): found = True self.output.write( '[OK] Found regex "{regex.pattern}" in line:'.format( **locals())) self.output.write(' ' + line) break if not found: self.output.write( '[ERROR] Could not find regex {regex.pattern}:'.format( **locals())) return 1 # self.output.write("In case of emergency,") # self.output.write(" you can provide details on what went wrong") # self.output.write(" using self.output.write method") # self.output.write("") # self.output.write("Error while comparing files \n{} \n{}" # .format(reference_filepath, other_filepath)) # must return return-code! return 0