""" Represent an exception with a lot of information. Provides 2 useful functions: format_exc: format an exception into a complete traceback, with full debugging instruction. format_outer_frames: format the current position in the stack call. Adapted from IPython's VerboseTB. """ # Authors: Gael Varoquaux < gael dot varoquaux at normalesup dot org > # Nathaniel Gray # Fernando Perez # Copyright: 2010, Gael Varoquaux # 2001-2004, Fernando Perez # 2001 Nathaniel Gray # License: BSD 3 clause import inspect import keyword import linecache import os import pydoc import sys import time import tokenize import traceback try: # Python 2 generate_tokens = tokenize.generate_tokens except AttributeError: # Python 3 generate_tokens = tokenize.tokenize INDENT = ' ' * 8 ############################################################################### # some internal-use functions def safe_repr(value): """Hopefully pretty robust repr equivalent.""" # this is pretty horrible but should always return *something* try: return pydoc.text.repr(value) except KeyboardInterrupt: raise except: try: return repr(value) except KeyboardInterrupt: raise except: try: # all still in an except block so we catch # getattr raising name = getattr(value, '__name__', None) if name: # ick, recursion return safe_repr(name) klass = getattr(value, '__class__', None) if klass: return '%s instance' % safe_repr(klass) except KeyboardInterrupt: raise except: return 'UNRECOVERABLE REPR FAILURE' def eq_repr(value, repr=safe_repr): return '=%s' % repr(value) ############################################################################### def uniq_stable(elems): """uniq_stable(elems) -> list Return from an iterable, a list of all the unique elements in the input, but maintaining the order in which they first appear. A naive solution to this problem which just makes a dictionary with the elements as keys fails to respect the stability condition, since dictionaries are unsorted by nature. Note: All elements in the input must be hashable. """ unique = [] unique_set = set() for nn in elems: if nn not in unique_set: unique.append(nn) unique_set.add(nn) return unique ############################################################################### def fix_frame_records_filenames(records): """Try to fix the filenames in each record from inspect.getinnerframes(). Particularly, modules loaded from within zip files have useless filenames attached to their code object, and inspect.getinnerframes() just uses it. """ fixed_records = [] for frame, filename, line_no, func_name, lines, index in records: # Look inside the frame's globals dictionary for __file__, which should # be better. better_fn = frame.f_globals.get('__file__', None) if isinstance(better_fn, str): # Check the type just in case someone did something weird with # __file__. It might also be None if the error occurred during # import. filename = better_fn fixed_records.append((frame, filename, line_no, func_name, lines, index)) return fixed_records def _fixed_getframes(etb, context=1, tb_offset=0): LNUM_POS, LINES_POS, INDEX_POS = 2, 4, 5 records = fix_frame_records_filenames(inspect.getinnerframes(etb, context)) # If the error is at the console, don't build any context, since it would # otherwise produce 5 blank lines printed out (there is no file at the # console) rec_check = records[tb_offset:] try: rname = rec_check[0][1] if rname == '' or rname.endswith(''): return rec_check except IndexError: pass aux = traceback.extract_tb(etb) assert len(records) == len(aux) for i, (file, lnum, _, _) in enumerate(aux): maybeStart = lnum - 1 - context // 2 start = max(maybeStart, 0) end = start + context lines = linecache.getlines(file)[start:end] # pad with empty lines if necessary if maybeStart < 0: lines = (['\n'] * -maybeStart) + lines if len(lines) < context: lines += ['\n'] * (context - len(lines)) buf = list(records[i]) buf[LNUM_POS] = lnum buf[INDEX_POS] = lnum - 1 - start buf[LINES_POS] = lines records[i] = tuple(buf) return records[tb_offset:] def _format_traceback_lines(lnum, index, lines, lvals=None): numbers_width = 7 res = [] i = lnum - index for line in lines: if i == lnum: # This is the line with the error pad = numbers_width - len(str(i)) if pad >= 3: marker = '-' * (pad - 3) + '-> ' elif pad == 2: marker = '> ' elif pad == 1: marker = '>' else: marker = '' num = marker + str(i) else: num = '%*s' % (numbers_width, i) line = '%s %s' % (num, line) res.append(line) if lvals and i == lnum: res.append(lvals + '\n') i = i + 1 return res def format_records(records): # , print_globals=False): # Loop over all records printing context and info frames = [] abspath = os.path.abspath for frame, file, lnum, func, lines, index in records: try: file = file and abspath(file) or '?' except OSError: # if file is '' or something not in the filesystem, # the abspath call will throw an OSError. Just ignore it and # keep the original file string. pass if file.endswith('.pyc'): file = file[:-4] + '.py' link = file args, varargs, varkw, locals = inspect.getargvalues(frame) if func == '?': call = '' else: # Decide whether to include variable details or not try: call = 'in %s%s' % (func, inspect.formatargvalues(args, varargs, varkw, locals, formatvalue=eq_repr)) except KeyError: # Very odd crash from inspect.formatargvalues(). The # scenario under which it appeared was a call to # view(array,scale) in NumTut.view.view(), where scale had # been defined as a scalar (it should be a tuple). Somehow # inspect messes up resolving the argument list of view() # and barfs out. At some point I should dig into this one # and file a bug report about it. print("\nJoblib's exception reporting continues...\n") call = 'in %s(***failed resolving arguments***)' % func # Initialize a list of names on the current line, which the # tokenizer below will populate. names = [] def tokeneater(token_type, token, start, end, line): """Stateful tokeneater which builds dotted names. The list of names it appends to (from the enclosing scope) can contain repeated composite names. This is unavoidable, since there is no way to disambiguate partial dotted structures until the full list is known. The caller is responsible for pruning the final list of duplicates before using it.""" # build composite names if token == '.': try: names[-1] += '.' # store state so the next token is added for x.y.z names tokeneater.name_cont = True return except IndexError: pass if token_type == tokenize.NAME and token not in keyword.kwlist: if tokeneater.name_cont: # Dotted names names[-1] += token tokeneater.name_cont = False else: # Regular new names. We append everything, the caller # will be responsible for pruning the list later. It's # very tricky to try to prune as we go, b/c composite # names can fool us. The pruning at the end is easy # to do (or the caller can print a list with repeated # names if so desired. names.append(token) elif token_type == tokenize.NEWLINE: raise IndexError # we need to store a bit of state in the tokenizer to build # dotted names tokeneater.name_cont = False def linereader(file=file, lnum=[lnum], getline=linecache.getline): line = getline(file, lnum[0]) lnum[0] += 1 return line # Build the list of names on this line of code where the exception # occurred. try: # This builds the names list in-place by capturing it from the # enclosing scope. for token in generate_tokens(linereader): tokeneater(*token) except (IndexError, UnicodeDecodeError): # signals exit of tokenizer pass except tokenize.TokenError as msg: _m = ("An unexpected error occurred while tokenizing input file %s\n" "The following traceback may be corrupted or invalid\n" "The error message is: %s\n" % (file, msg)) print(_m) # prune names list of duplicates, but keep the right order unique_names = uniq_stable(names) # Start loop over vars lvals = [] for name_full in unique_names: name_base = name_full.split('.', 1)[0] if name_base in frame.f_code.co_varnames: if name_base in locals.keys(): try: value = safe_repr(eval(name_full, locals)) except: value = "undefined" else: value = "undefined" name = name_full lvals.append('%s = %s' % (name, value)) #elif print_globals: # if frame.f_globals.has_key(name_base): # try: # value = safe_repr(eval(name_full,frame.f_globals)) # except: # value = "undefined" # else: # value = "undefined" # name = 'global %s' % name_full # lvals.append('%s = %s' % (name,value)) if lvals: lvals = '%s%s' % (INDENT, ('\n%s' % INDENT).join(lvals)) else: lvals = '' level = '%s\n%s %s\n' % (75 * '.', link, call) if index is None: frames.append(level) else: frames.append('%s%s' % (level, ''.join( _format_traceback_lines(lnum, index, lines, lvals)))) return frames ############################################################################### def format_exc(etype, evalue, etb, context=5, tb_offset=0): """ Return a nice text document describing the traceback. Parameters ----------- etype, evalue, etb: as returned by sys.exc_info context: number of lines of the source file to plot tb_offset: the number of stack frame not to use (0 = use all) """ # some locals try: etype = etype.__name__ except AttributeError: pass # Header with the exception type, python version, and date pyver = 'Python ' + sys.version.split()[0] + ': ' + sys.executable date = time.ctime(time.time()) pid = 'PID: %i' % os.getpid() head = '%s%s%s\n%s%s%s' % ( etype, ' ' * (75 - len(str(etype)) - len(date)), date, pid, ' ' * (75 - len(str(pid)) - len(pyver)), pyver) # Drop topmost frames if requested try: records = _fixed_getframes(etb, context, tb_offset) except: raise print('\nUnfortunately, your original traceback can not be ' 'constructed.\n') return '' # Get (safely) a string form of the exception info try: etype_str, evalue_str = map(str, (etype, evalue)) except: # User exception is improperly defined. etype, evalue = str, sys.exc_info()[:2] etype_str, evalue_str = map(str, (etype, evalue)) # ... and format it exception = ['%s: %s' % (etype_str, evalue_str)] frames = format_records(records) return '%s\n%s\n%s' % (head, '\n'.join(frames), ''.join(exception[0])) ############################################################################### def format_outer_frames(context=5, stack_start=None, stack_end=None, ignore_ipython=True): LNUM_POS, LINES_POS, INDEX_POS = 2, 4, 5 records = inspect.getouterframes(inspect.currentframe()) output = list() for i, (frame, filename, line_no, func_name, lines, index) \ in enumerate(records): # Look inside the frame's globals dictionary for __file__, which should # be better. better_fn = frame.f_globals.get('__file__', None) if isinstance(better_fn, str): # Check the type just in case someone did something weird with # __file__. It might also be None if the error occurred during # import. filename = better_fn if filename.endswith('.pyc'): filename = filename[:-4] + '.py' if ignore_ipython: # Hack to avoid printing the internals of IPython if (os.path.basename(filename) == 'iplib.py' and func_name in ('safe_execfile', 'runcode')): break maybeStart = line_no - 1 - context // 2 start = max(maybeStart, 0) end = start + context lines = linecache.getlines(filename)[start:end] # pad with empty lines if necessary if maybeStart < 0: lines = (['\n'] * -maybeStart) + lines if len(lines) < context: lines += ['\n'] * (context - len(lines)) buf = list(records[i]) buf[LNUM_POS] = line_no buf[INDEX_POS] = line_no - 1 - start buf[LINES_POS] = lines output.append(tuple(buf)) return '\n'.join(format_records(output[stack_end:stack_start:-1]))