From: Zooko O'Whielacronx Date: Thu, 24 Sep 2009 05:32:15 +0000 (-0700) Subject: setup: remove a convenience copy of figleaf, to ease inclusion into Ubuntu Karmic... X-Git-Tag: trac-4100~39 X-Git-Url: https://git.rkrishnan.org/components/com_hotproperty/flags/running.html?a=commitdiff_plain;h=aaaa633f189adba42646edc12c93a4d4c52f4373;p=tahoe-lafs%2Ftahoe-lafs.git setup: remove a convenience copy of figleaf, to ease inclusion into Ubuntu Karmic Koala We need to carefully document the licence of figleaf in order to get Tahoe-LAFS into Ubuntu Karmic Koala. However, figleaf isn't really a part of Tahoe-LAFS per se -- this is just a "convenience copy" of a development tool. The quickest way to make Tahoe-LAFS acceptable for Karmic then, is to remove figleaf from the Tahoe-LAFS tarball itself. People who want to run figleaf on Tahoe-LAFS (as everyone should want) can install figleaf themselves. I haven't tested this -- there may be incompatibilities between upstream figleaf and the copy that we had here... --- diff --git a/misc/figleaf2el.py b/misc/figleaf2el.py index 30a6bdfa..0e7e051b 100644 --- a/misc/figleaf2el.py +++ b/misc/figleaf2el.py @@ -55,8 +55,7 @@ def write_el(r2, source): out.write(" results)\n") out.close() -#import figleaf -from allmydata.util import figleaf +import figleaf def examine_source(filename): f = open(filename, "r") diff --git a/misc/figleaf2html b/misc/figleaf2html deleted file mode 100644 index 9157f813..00000000 --- a/misc/figleaf2html +++ /dev/null @@ -1,3 +0,0 @@ -#! /usr/bin/env python -from allmydata.util import figleaf_htmlizer -figleaf_htmlizer.main() diff --git a/src/allmydata/test/trial_figleaf.py b/src/allmydata/test/trial_figleaf.py index 2e998c13..49a4e689 100644 --- a/src/allmydata/test/trial_figleaf.py +++ b/src/allmydata/test/trial_figleaf.py @@ -59,7 +59,7 @@ from twisted.trial.reporter import TreeReporter, VerboseTextReporter # in printSummary. To include import, we have to start in our own import and # finish in printSummary. -from allmydata.util import figleaf +import figleaf figleaf.start() diff --git a/src/allmydata/util/figleaf.py b/src/allmydata/util/figleaf.py deleted file mode 100644 index 03d8c08d..00000000 --- a/src/allmydata/util/figleaf.py +++ /dev/null @@ -1,400 +0,0 @@ -#! /usr/bin/env python -""" -figleaf is another tool to trace code coverage (yes, in Python ;). - -figleaf uses the sys.settrace hook to record which statements are -executed by the CPython interpreter; this record can then be saved -into a file, or otherwise communicated back to a reporting script. - -figleaf differs from the gold standard of coverage tools -('coverage.py') in several ways. First and foremost, figleaf uses the -same criterion for "interesting" lines of code as the sys.settrace -function, which obviates some of the complexity in coverage.py (but -does mean that your "loc" count goes down). Second, figleaf does not -record code executed in the Python standard library, which results in -a significant speedup. And third, the format in which the coverage -format is saved is very simple and easy to work with. - -You might want to use figleaf if you're recording coverage from -multiple types of tests and need to aggregate the coverage in -interesting ways, and/or control when coverage is recorded. -coverage.py is a better choice for command-line execution, and its -reporting is a fair bit nicer. - -Command line usage: :: - - figleaf.py - -The figleaf output is saved into the file '.figleaf', which is an -*aggregate* of coverage reports from all figleaf runs from this -directory. '.figleaf' contains a pickled dictionary of sets; the keys -are source code filenames, and the sets contain all line numbers -executed by the Python interpreter. See the docs or command-line -programs in bin/ for more information. - -High level API: :: - - * ``start(ignore_lib=True)`` -- start recording code coverage. - * ``stop()`` -- stop recording code coverage. - * ``get_trace_obj()`` -- return the (singleton) trace object. - * ``get_info()`` -- get the coverage dictionary - -Classes & functions worth knowing about, i.e. a lower level API: - - * ``get_lines(fp)`` -- return the set of interesting lines in the fp. - * ``combine_coverage(d1, d2)`` -- combine coverage info from two dicts. - * ``read_coverage(filename)`` -- load the coverage dictionary - * ``write_coverage(filename)`` -- write the coverage out. - * ``annotate_coverage(...)`` -- annotate a Python file with its coverage info. - -Known problems: - - -- module docstrings are *covered* but not found. - -AUTHOR: C. Titus Brown, titus@idyll.org - -'figleaf' is Copyright (C) 2006. It will be released under the BSD license. -""" -import sys -import os -import threading -from cPickle import dump, load - -### import builtin sets if in > 2.4, otherwise use 'sets' module. -# we require 2.4 or later -assert set - - -from token import tok_name, NEWLINE, STRING, INDENT, DEDENT, COLON -import parser, types, symbol - -def get_token_name(x): - """ - Utility to help pretty-print AST symbols/Python tokens. - """ - if symbol.sym_name.has_key(x): - return symbol.sym_name[x] - return tok_name.get(x, '-') - -class LineGrabber: - """ - Count 'interesting' lines of Python in source files, where - 'interesting' is defined as 'lines that could possibly be - executed'. - - @CTB this badly needs to be refactored... once I have automated - tests ;) - """ - def __init__(self, fp): - """ - Count lines of code in 'fp'. - """ - self.lines = set() - - self.ast = parser.suite(fp.read()) - self.tree = parser.ast2tuple(self.ast, True) - - self.find_terminal_nodes(self.tree) - - def find_terminal_nodes(self, tup): - """ - Recursively eat an AST in tuple form, finding the first line - number for "interesting" code. - """ - (sym, rest) = tup[0], tup[1:] - - line_nos = set() - if type(rest[0]) == types.TupleType: ### node - - for x in rest: - token_line_no = self.find_terminal_nodes(x) - if token_line_no is not None: - line_nos.add(token_line_no) - - if symbol.sym_name[sym] in ('stmt', 'suite', 'lambdef', - 'except_clause') and line_nos: - # store the line number that this statement started at - self.lines.add(min(line_nos)) - elif symbol.sym_name[sym] in ('if_stmt',): - # add all lines under this - self.lines.update(line_nos) - elif symbol.sym_name[sym] in ('global_stmt',): # IGNORE - return - else: - if line_nos: - return min(line_nos) - - else: ### leaf - if sym not in (NEWLINE, STRING, INDENT, DEDENT, COLON) and \ - tup[1] != 'else': - return tup[2] - return None - - def pretty_print(self, tup=None, indent=0): - """ - Pretty print the AST. - """ - if tup is None: - tup = self.tree - - s = tup[1] - - if type(s) == types.TupleType: - print ' '*indent, get_token_name(tup[0]) - for x in tup[1:]: - self.pretty_print(x, indent+1) - else: - print ' '*indent, get_token_name(tup[0]), tup[1:] - -def get_lines(fp): - """ - Return the set of interesting lines in the source code read from - this file handle. - """ - l = LineGrabber(fp) - return l.lines - -class CodeTracer: - """ - Basic code coverage tracking, using sys.settrace. - """ - def __init__(self, ignore_prefixes=[]): - self.c = {} - self.started = False - self.ignore_prefixes = ignore_prefixes - - def start(self): - """ - Start recording. - """ - if not self.started: - self.started = True - - sys.settrace(self.g) - if hasattr(threading, 'settrace'): - threading.settrace(self.g) - - def stop(self): - if self.started: - sys.settrace(None) - if hasattr(threading, 'settrace'): - threading.settrace(None) - - self.started = False - - def g(self, f, e, a): - """ - global trace function. - """ - if e is 'call': - for p in self.ignore_prefixes: - if f.f_code.co_filename.startswith(p): - return - - return self.t - - def t(self, f, e, a): - """ - local trace function. - """ - - if e is 'line': - self.c[(f.f_code.co_filename, f.f_lineno)] = 1 - return self.t - - def clear(self): - """ - wipe out coverage info - """ - - self.c = {} - - def gather_files(self): - """ - Return the dictionary of lines of executed code; the dict - contains items (k, v), where 'k' is the filename and 'v' - is a set of line numbers. - """ - files = {} - for (filename, line) in self.c.keys(): - d = files.get(filename, set()) - d.add(line) - files[filename] = d - - return files - -def combine_coverage(d1, d2): - """ - Given two coverage dictionaries, combine the recorded coverage - and return a new dictionary. - """ - keys = set(d1.keys()) - keys.update(set(d2.keys())) - - new_d = {} - for k in keys: - v = d1.get(k, set()) - v2 = d2.get(k, set()) - - s = set(v) - s.update(v2) - new_d[k] = s - - return new_d - -def write_coverage(filename, combine=True): - """ - Write the current coverage info out to the given filename. If - 'combine' is false, destroy any previously recorded coverage info. - """ - if _t is None: - return - - d = _t.gather_files() - - # combine? - if combine: - old = {} - fp = None - try: - fp = open(filename) - except IOError: - pass - - if fp: - old = load(fp) - fp.close() - d = combine_coverage(d, old) - - # ok, save. - outfp = open(filename, 'w') - try: - dump(d, outfp) - finally: - outfp.close() - -def read_coverage(filename): - """ - Read a coverage dictionary in from the given file. - """ - fp = open(filename) - try: - d = load(fp) - finally: - fp.close() - - return d - -def annotate_coverage(in_fp, out_fp, covered, all_lines, - mark_possible_lines=False): - """ - A simple example coverage annotator that outputs text. - """ - for i, line in enumerate(in_fp): - i = i + 1 - - if i in covered: - symbol = '>' - elif i in all_lines: - symbol = '!' - else: - symbol = ' ' - - symbol2 = '' - if mark_possible_lines: - symbol2 = ' ' - if i in all_lines: - symbol2 = '-' - - out_fp.write('%s%s %s' % (symbol, symbol2, line,)) - -####################### - -# -# singleton functions/top-level API -# - -_t = None - -def start(ignore_python_lib=True, ignore_prefixes=[]): - """ - Start tracing code coverage. If 'ignore_python_lib' is True, - ignore all files that live below the same directory as the 'os' - module. - """ - global _t - if _t is None: - ignore_prefixes = ignore_prefixes[:] - if ignore_python_lib: - ignore_prefixes.append(os.path.realpath(os.path.dirname(os.__file__))) - _t = CodeTracer(ignore_prefixes) - - _t.start() - -def stop(): - """ - Stop tracing code coverage. - """ - global _t - if _t is not None: - _t.stop() - -def get_trace_obj(): - """ - Return the (singleton) trace object, if it exists. - """ - return _t - -def get_info(): - """ - Get the coverage dictionary from the trace object. - """ - if _t: - return _t.gather_files() - -############# - -def display_ast(): - l = LineGrabber(open(sys.argv[1])) - l.pretty_print() - -def main(): - """ - Execute the given Python file with coverage, making it look like it is - __main__. - """ - ignore_pylibs = False - - def print_help(): - print 'Usage: figleaf [-i] ' - print '' - print 'Options:' - print ' -i Ignore Python standard libraries when calculating coverage' - - args = sys.argv[1:] - - if len(args) < 1: - print_help() - raise SystemExit() - elif len(args) > 2 and args[0] == '-i': - ignore_pylibs = True - - ## Make sure to strip off the -i or --ignore-python-libs option if it exists - args = args[1:] - - ## Reset system args so that the subsequently exec'd file can read from sys.argv - sys.argv = args - - sys.path[0] = os.path.dirname(args[0]) - - cwd = os.getcwd() - - start(ignore_pylibs) # START code coverage - - import __main__ - try: - execfile(args[0], __main__.__dict__) - finally: - stop() # STOP code coverage - - write_coverage(os.path.join(cwd, '.figleaf')) diff --git a/src/allmydata/util/figleaf_htmlizer.py b/src/allmydata/util/figleaf_htmlizer.py deleted file mode 100644 index 0286ff5b..00000000 --- a/src/allmydata/util/figleaf_htmlizer.py +++ /dev/null @@ -1,354 +0,0 @@ -#! /usr/bin/env python -import sys -import pickle -import figleaf -import os -import re - -from twisted.python import usage - -class RenderOptions(usage.Options): - optParameters = [ - ("exclude-patterns", "x", None, "file containing regexp patterns to exclude"), - ("output-directory", "d", "html", "Directory for HTML output"), - ("root", "r", None, "only pay attention to modules under this directory"), - ("old-coverage", "o", None, "figleaf pickle from previous build"), - ] - - def opt_root(self, value): - self["root"] = os.path.abspath(value) - if not self["root"].endswith("/"): - self["root"] += "/" - - def parseArgs(self, *filenames): - self.filenames = [".figleaf"] - if filenames: - self.filenames = list(filenames) - -class Renderer: - - def run(self): - self.opts = opts = RenderOptions() - opts.parseOptions() - - ### load - - coverage = {} - for filename in opts.filenames: - d = figleaf.read_coverage(filename) - coverage = figleaf.combine_coverage(coverage, d) - - if not coverage: - sys.exit(-1) - - self.old_coverage = None - if opts["old-coverage"]: - try: - f = open(opts["old-coverage"], "rb") - self.old_coverage = pickle.load(f) - except EnvironmentError: - pass - - self.load_exclude_patterns(opts["exclude-patterns"]) - ### make directory - self.prepare_reportdir(opts["output-directory"]) - self.report_as_html(coverage, opts["output-directory"], opts["root"]) - - def load_exclude_patterns(self, f): - self.exclude_patterns = [] - if not f: - return - for line in open(f, "r").readlines(): - line = line.rstrip() - if line and not line.startswith('#'): - self.exclude_patterns.append(re.compile(line)) - - def prepare_reportdir(self, dirname='html'): - try: - os.mkdir(dirname) - except OSError: # already exists - pass - - def check_excludes(self, fn): - for pattern in self.exclude_patterns: - if pattern.search(fn): - return True - return False - - def make_display_filename(self, fn): - root = self.opts["root"] - if not root: - return fn - display_filename = fn[len(root):] - assert not display_filename.startswith("/") - assert display_filename.endswith(".py") - display_filename = display_filename[:-3] # trim .py - display_filename = display_filename.replace("/", ".") - return display_filename - - def report_as_html(self, coverage, directory, root=None): - ### now, output. - - keys = coverage.keys() - info_dict = {} - for k in keys: - if self.check_excludes(k): - continue - if k.endswith('figleaf.py'): - continue - if not k.startswith("/"): - continue - if root and not k.startswith(root): - continue - - display_filename = self.make_display_filename(k) - info = self.process_file(k, display_filename, coverage) - if info: - info_dict[k] = info - - ### print a summary, too. - #print info_dict - - info_dict_items = info_dict.items() - - def sort_by_pcnt(a, b): - a_cmp = (-a[1][4], a[1][5]) - b_cmp = (-b[1][4], b[1][5]) - return cmp(a_cmp,b_cmp) - - def sort_by_uncovered(a, b): - a_cmp = ( -(a[1][0] - a[1][1]), a[1][5]) - b_cmp = ( -(b[1][0] - b[1][1]), b[1][5]) - return cmp(a_cmp, b_cmp) - - def sort_by_delta(a, b): - # files which lost coverage line should appear first, followed by - # files which gained coverage - a_cmp = (-a[1][3], -a[1][2], a[1][5]) - b_cmp = (-b[1][3], -b[1][2], b[1][5]) - return cmp(a_cmp, b_cmp) - - info_dict_items.sort(sort_by_uncovered) - - summary_lines = sum([ v[0] for (k, v) in info_dict_items]) - summary_cover = sum([ v[1] for (k, v) in info_dict_items]) - summary_added = sum([ v[2] for (k, v) in info_dict_items]) - summary_removed = sum([ v[3] for (k, v) in info_dict_items]) - summary_pcnt = 0 - if summary_lines: - summary_pcnt = float(summary_cover) * 100. / float(summary_lines) - self.summary = (summary_lines, summary_cover, - summary_added, summary_removed, - summary_pcnt) - - - pcnts = [ float(v[1]) * 100. / float(v[0]) for (k, v) in info_dict_items if v[0] ] - pcnt_90 = [ x for x in pcnts if x >= 90 ] - pcnt_75 = [ x for x in pcnts if x >= 75 ] - pcnt_50 = [ x for x in pcnts if x >= 50 ] - - stats_fp = open('%s/stats.out' % (directory,), 'w') - self.write_stats(stats_fp, "total files: %d" % len(pcnts)) - self.write_stats(stats_fp, "total source lines: %d" % summary_lines) - self.write_stats(stats_fp, "total covered lines: %d" % summary_cover) - self.write_stats(stats_fp, - "total uncovered lines: %d" % (summary_lines - summary_cover)) - if self.old_coverage is not None: - self.write_stats(stats_fp, "lines added: %d" % summary_added) - self.write_stats(stats_fp, "lines removed: %d" % summary_removed) - self.write_stats(stats_fp, - "total coverage percentage: %.1f" % summary_pcnt) - stats_fp.close() - - ## index.html - index_fp = open('%s/index.html' % (directory,), 'w') - # summary info - index_fp.write('figleaf code coverage report\n') - index_fp.write('

Summary

%d files total: %d files > ' - '90%%, %d files > 75%%, %d files > 50%%

' - % (len(pcnts), len(pcnt_90), - len(pcnt_75), len(pcnt_50))) - - # sorted by number of lines that aren't covered - index_fp.write('

Sorted by Lines Uncovered

\n') - self.emit_table(index_fp, info_dict_items, show_totals=True) - - if self.old_coverage is not None: - index_fp.write('

Sorted by Coverage Added/Lost

\n') - info_dict_items.sort(sort_by_delta) - self.emit_table(index_fp, info_dict_items, show_totals=False) - - # sorted by module name - index_fp.write('

Sorted by Module Name (alphabetical)

\n') - info_dict_items.sort() - self.emit_table(index_fp, info_dict_items, show_totals=False) - - index_fp.close() - - return len(info_dict) - - def process_file(self, k, display_filename, coverage): - - try: - pyfile = open(k) - except IOError: - return - - source_lines = figleaf.get_lines(pyfile) - - have_old_coverage = False - if self.old_coverage and k in self.old_coverage: - have_old_coverage = True - old_coverage = self.old_coverage[k] - - # ok, got all the info. now annotate file ==> html. - - covered = coverage[k] - n_covered = n_lines = 0 - n_added = n_removed = 0 - - pyfile = open(k) - output = [] - for i, line in enumerate(pyfile): - i += 1 # coverage info is 1-based - - if i in covered: - color = "green" - n_covered += 1 - n_lines += 1 - elif i in source_lines: - color = "red" - n_lines += 1 - else: - color = "black" - - delta = " " - if have_old_coverage: - if i in covered and i not in old_coverage: - delta = "+" - n_added += 1 - elif i in old_coverage and i not in covered: - delta = "-" - n_removed += 1 - - line = self.escape_html(line.rstrip()) - output.append('%s%4d. %s' % - (color, delta, i, line.rstrip())) - - try: - pcnt = n_covered * 100. / n_lines - except ZeroDivisionError: - pcnt = 0 - - html_outfile = self.make_html_filename(display_filename) - directory = self.opts["output-directory"] - html_outfp = open(os.path.join(directory, html_outfile), 'w') - html_outfp.write('source file: %s
\n' % (k,)) - html_outfp.write('file stats: %d lines, %d executed: %.1f%% covered
\n' % (n_lines, n_covered, pcnt)) - if have_old_coverage: - html_outfp.write('coverage versus previous test: %d lines added, %d lines removed
\n' - % (n_added, n_removed)) - - html_outfp.write('
\n')
-        for line in output:
-            html_outfp.write(line + "\n")
-        html_outfp.write('
\n') - html_outfp.close() - - return (n_lines, n_covered, n_added, n_removed, pcnt, display_filename) - - def emit_table(self, index_fp, items, show_totals): - have_old_coverage = self.old_coverage is not None - if have_old_coverage: - index_fp.write('' - '' - '' - '' - '' - '\n') - else: - index_fp.write('
Filename# lines# covered# uncovered# added# removed% covered
' - '' - '' - '\n') - if show_totals: - (summary_lines, summary_cover, - summary_added, summary_removed, - summary_pcnt) = self.summary - if have_old_coverage: - index_fp.write('' - '' # lines - '' # cover - '' # uncover - '' # added - '' # removed - '' - '' - '\n' - % (summary_lines, summary_cover, - (summary_lines - summary_cover), - summary_added, summary_removed, - summary_pcnt,)) - else: - index_fp.write('' - '' - '' - '' - '' - '' - '\n' - % (summary_lines, summary_cover, - (summary_lines - summary_cover), - summary_pcnt,)) - - for filename, stuff in items: - self.emit_table_row(index_fp, stuff) - - index_fp.write('
Filename# lines# covered# uncovered% covered
totals:%d%d%d%d%d%.1f%%
totals:%d%d%d%.1f%%
\n') - - def emit_table_row(self, index_fp, info): - (n_lines, n_covered, n_added, n_removed, - percent_covered, display_filename) = info - html_outfile = self.make_html_filename(display_filename) - - if self.old_coverage is not None: - index_fp.write('%s' - '%d' # lines - '%d' # covered - '%d' # uncovered - '%d' # added - '%d' # removed - '%.1f' - '\n' - % (html_outfile, display_filename, n_lines, - n_covered, (n_lines - n_covered), - n_added, n_removed, - percent_covered,)) - else: - index_fp.write('%s' - '%d' - '%d' - '%d' - '%.1f' - '\n' - % (html_outfile, display_filename, n_lines, - n_covered, (n_lines - n_covered), - percent_covered,)) - - def make_html_filename(self, orig): - return orig + ".html" - - def escape_html(self, s): - s = s.replace("&", "&") - s = s.replace("<", "<") - s = s.replace(">", ">") - s = s.replace('"', """) - return s - - def write_stats(self, stats_fp, line): - stats_fp.write(line + "\n") - print line - -def main(): - r = Renderer() - r.run()