gdb-buildbot/lib/sumfiles.py

122 lines
4.2 KiB
Python

# Functions for manipulating .sum summary files.
import re
import os.path
from StringIO import StringIO
# Helper regex for parse_sum_line.
sum_matcher = re.compile('^(.?(PASS|FAIL)): (.*)$')
# You must call set_web_base at startup to set this.
gdb_web_base = None
def set_web_base(arg):
global gdb_web_base
gdb_web_base = arg
if not os.path.isdir(gdb_web_base):
# If the parent doesn't exist, we're confused.
# So, use mkdir and not makedirs.
os.mkdir(gdb_web_base, 0755)
class DejaResults(object):
def __init__(self):
object.__init__(self)
# Parse a single line from a .sum file.
# Uniquify the name, and put the result into OUT_DICT.
# If the line does not appear to be about a test, ignore it.
def parse_sum_line(self, out_dict, line):
global sum_matcher
line = line.rstrip()
m = re.match(sum_matcher, line)
if m:
result = m.group(1)
test_name = m.group(3)
if test_name in out_dict:
i = 2
while True:
nname = test_name + ' <<' + str(i) + '>>'
if nname not in out_dict:
break
i = i + 1
test_name = nname
out_dict[test_name] = result
def _write_sum_file(self, sum_dict, subdir, filename):
global gdb_web_base
bdir = os.path.join(gdb_web_base, subdir)
if not os.path.isdir(bdir):
os.makedirs(bdir, 0755)
fname = os.path.join(bdir, filename)
keys = sum_dict.keys()
keys.sort()
f = open(fname, 'w')
for k in keys:
f.write(sum_dict[k] + ': ' + k + '\n')
f.close()
def write_sum_file(self, sum_dict, builder, filename):
self._write_sum_file(sum_dict, builder, filename)
def write_baseline(self, sum_dict, builder, branch):
self.write_sum_file(sum_dict, os.path.join(builder, branch),
'baseline')
# Read a .sum file.
# The builder name is BUILDER.
# The base file name is given in FILENAME. This should be a git
# revision; to read the baseline file for a branch, use `read_baseline'.
# Returns a dictionary holding the .sum contents, or None if the
# file did not exist.
def read_sum_file(self, builder, filename):
global gdb_web_base
fname = os.path.join(gdb_web_base, builder, filename)
if os.path.exists(fname):
result = {}
f = open(fname, 'r')
for line in f:
self.parse_sum_line (result, line)
f.close()
else:
result = None
return result
def read_baseline(self, builder, branch):
return self.read_sum_file(builder, os.path.join(branch, 'baseline'))
# Parse some text as a .sum file and return the resulting
# dictionary.
def read_sum_text(self, text):
cur_file = StringIO(text)
cur_results = {}
for line in cur_file.readlines():
self.parse_sum_line(cur_results, line)
return cur_results
# Compute regressions between RESULTS and BASELINE on BUILDER.
# BASELINE will be modified if any new PASSes are seen.
# Returns a regression report, as a string.
def compute_regressions(self, builder, results, baseline):
our_keys = results.keys()
our_keys.sort()
result = ''
xfails = self.read_sum_file(builder, 'xfail')
if xfails is None:
xfails = {}
for key in our_keys:
# An XFAIL entry means we have an unreliable test.
if key in xfails:
continue
# A transition to PASS means we should update the baseline.
if results[key] == 'PASS':
if key not in baseline or baseline[key] != 'PASS':
baseline[key] = 'PASS'
# A regression is just a transition to FAIL.
if results[key] != 'FAIL':
continue
if key not in baseline:
result = result + 'new FAIL: ' + key + '\n'
elif baseline[key] != 'FAIL':
result = result + baseline[key] + ' -> FAIL: ' + key + '\n'
return result