# License along with this library; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-import os, sys, datetime, shutil, string
+# Python 2/3 compatibility for execfile function
+try:
+ execfile
+except:
+ def execfile(somefile, global_vars, local_vars):
+ with open(somefile) as f:
+ code = compile(f.read(), somefile, 'exec')
+ exec(code, global_vars, local_vars)
+
+import os
+import sys
+import datetime
+import shutil
+import string
+import imp
import subprocess
-import fork
+import glob
+import pprint as PP
+
+verbose = False
+
+from . import fork
import src
-# directories not considered as test modules
-C_IGNORE_MODULES = ['.git', '.svn', 'RESSOURCES']
+# directories not considered as test grids
+C_IGNORE_GRIDS = ['.git', '.svn', 'RESSOURCES']
-C_TESTS_SOURCE_DIR = "Tests"
-C_TESTS_LIGHT_FILE = "TestsLight.txt"
+DEFAULT_TIMEOUT = 150
# Get directory to be used for the temporary files.
#
def __init__(self,
config,
logger,
- sessionDir,
- grid="",
- modules=None,
- types=None,
- appli="",
- mode="normal",
- dir_="",
- show_desktop=True,
- light=False):
- self.modules = modules
+ tmp_working_dir,
+ testbase="",
+ grids=None,
+ sessions=None,
+ launcher="",
+ show_desktop=True):
+ self.grids = grids
self.config = config
self.logger = logger
- self.sessionDir = sessionDir
- self.dir = dir_
- self.types = types
- self.appli = appli
- self.mode = mode
+ self.tmp_working_dir = tmp_working_dir
+ self.sessions = sessions
+ self.launcher = launcher
self.show_desktop = show_desktop
- self.light = light
-
- if len(self.dir) > 0:
- self.logger.write("\n", 3, False)
- self.prepare_grid_from_dir("DIR", self.dir)
- self.currentGrid = "DIR"
- else:
- self.prepare_grid(grid)
+ res = self.prepare_testbase(testbase)
+ self.test_base_found = True
+ if res == 1:
+ # Fail
+ self.test_base_found = False
+
self.settings = {}
self.known_errors = None
shutil.copytree(source, target,
symlinks=True)
- def prepare_grid_from_dir(self, grid_name, grid_dir):
- self.logger.write(_("get grid from dir: %s\n") % src.printcolors.printcLabel(grid_dir), 3)
- if not os.access(grid_dir, os.X_OK):
- raise src.SatException(_("testbase %(name)s (%(dir)s) does not exist ...\n") % \
- { 'name': grid_name, 'dir': grid_dir })
-
- self._copy_dir(grid_dir, os.path.join(self.sessionDir, 'BASES', grid_name))
-
- def prepare_grid_from_git(self, grid_name, grid_base, grid_tag):
+ def prepare_testbase_from_dir(self, testbase_name, testbase_dir):
+ self.logger.write(_("get test base from dir: %s\n") % \
+ src.printcolors.printcLabel(testbase_dir), 3)
+ if not os.access(testbase_dir, os.X_OK):
+ raise src.SatException(_("testbase %(name)s (%(dir)s) does not "
+ "exist ...\n") % { 'name': testbase_name,
+ 'dir': testbase_dir })
+
+ self._copy_dir(testbase_dir,
+ os.path.join(self.tmp_working_dir, 'BASES', testbase_name))
+
+ def prepare_testbase_from_git(self,
+ testbase_name,
+ testbase_base,
+ testbase_tag):
self.logger.write(
- _("get grid '%(grid)s' with '%(tag)s' tag from git\n") % {
- "grid" : src.printcolors.printcLabel(grid_name),
- "tag" : src.printcolors.printcLabel(grid_tag)},
+ _("get test base '%(testbase)s' with '%(tag)s' tag from git\n") % {
+ "testbase" : src.printcolors.printcLabel(testbase_name),
+ "tag" : src.printcolors.printcLabel(testbase_tag)},
3)
try:
def set_signal(): # pragma: no cover
cmd = "git clone --depth 1 %(base)s %(dir)s"
cmd += " && cd %(dir)s"
- if grid_tag=='master':
+ if testbase_tag=='master':
cmd += " && git fetch origin %(branch)s"
else:
cmd += " && git fetch origin %(branch)s:%(branch)s"
cmd += " && git checkout %(branch)s"
- cmd = cmd % { 'branch': grid_tag, 'base': grid_base, 'dir': grid_name }
+ cmd = cmd % { 'branch': testbase_tag,
+ 'base': testbase_base,
+ 'dir': testbase_name }
self.logger.write("> %s\n" % cmd, 5)
if src.architecture.is_windows():
# preexec_fn not supported on windows platform
res = subprocess.call(cmd,
- cwd=os.path.join(self.sessionDir, 'BASES'),
+ cwd=os.path.join(self.tmp_working_dir, 'BASES'),
shell=True,
stdout=self.logger.logTxtFile,
stderr=subprocess.PIPE)
else:
res = subprocess.call(cmd,
- cwd=os.path.join(self.sessionDir, 'BASES'),
+ cwd=os.path.join(self.tmp_working_dir, 'BASES'),
shell=True,
preexec_fn=set_signal,
stdout=self.logger.logTxtFile,
stderr=subprocess.PIPE)
if res != 0:
- raise src.SatException(_("Error: unable to get test base '%(name)s' from git '%(repo)s'.") % \
- { 'name': grid_name, 'repo': grid_base })
+ raise src.SatException(_("Error: unable to get test base "
+ "'%(name)s' from git '%(repo)s'.") % \
+ { 'name': testbase_name,
+ 'repo': testbase_base })
except OSError:
self.logger.error(_("git is not installed. exiting...\n"))
sys.exit(0)
- def prepare_grid_from_svn(self, user, grid_name, grid_base):
- self.logger.write(_("get grid '%s' from svn\n") % src.printcolors.printcLabel(grid_name), 3)
+ def prepare_testbase_from_svn(self, user, testbase_name, testbase_base):
+ self.logger.write(_("get test base '%s' from svn\n") % \
+ src.printcolors.printcLabel(testbase_name), 3)
try:
def set_signal(): # pragma: no cover
"""see http://bugs.python.org/issue1652"""
signal.signal(signal.SIGPIPE, signal.SIG_DFL)
cmd = "svn checkout --username %(user)s %(base)s %(dir)s"
- cmd = cmd % { 'user': user, 'base': grid_base, 'dir': grid_name }
-
+ cmd = cmd % { 'user': user,
+ 'base': testbase_base,
+ 'dir': testbase_name }
+
+ # Get the application environment
+ self.logger.write(_("Set the application environment\n"), 5)
+ env_appli = src.environment.SalomeEnviron(self.config,
+ src.environment.Environ(dict(os.environ)))
+ env_appli.set_application_env(self.logger)
+
self.logger.write("> %s\n" % cmd, 5)
if src.architecture.is_windows():
# preexec_fn not supported on windows platform
res = subprocess.call(cmd,
- cwd=os.path.join(self.sessionDir, 'BASES'),
+ cwd=os.path.join(self.tmp_working_dir, 'BASES'),
shell=True,
stdout=self.logger.logTxtFile,
stderr=subprocess.PIPE)
else:
res = subprocess.call(cmd,
- cwd=os.path.join(self.sessionDir, 'BASES'),
+ cwd=os.path.join(self.tmp_working_dir, 'BASES'),
shell=True,
preexec_fn=set_signal,
stdout=self.logger.logTxtFile,
- stderr=subprocess.PIPE)
+ stderr=subprocess.PIPE,
+ env=env_appli.environ.environ,)
if res != 0:
raise src.SatException(_("Error: unable to get test base '%(nam"
"e)s' from svn '%(repo)s'.") % \
- { 'name': grid_name, 'repo': grid_base })
+ { 'name': testbase_name,
+ 'repo': testbase_base })
except OSError:
self.logger.error(_("svn is not installed. exiting...\n"))
##
# Configure tests base.
- def prepare_grid(self, grid_name):
+ def prepare_testbase(self, test_base_name):
src.printcolors.print_value(self.logger,
- _("Testing grid"),
- grid_name,
+ _("Test base"),
+ test_base_name,
3)
self.logger.write("\n", 3, False)
- # search for the grid
+ # search for the test base
test_base_info = None
for project_name in self.config.PROJECTS.projects:
project_info = self.config.PROJECTS.projects[project_name]
+ if "test_bases" not in project_info:
+ continue
for t_b_info in project_info.test_bases:
- if t_b_info.name == grid_name:
+ if t_b_info.name == test_base_name:
test_base_info = t_b_info
if not test_base_info:
- message = _("########## WARNING: grid '%s' not found\n") % grid_name
- raise src.SatException(message)
+ if os.path.exists(test_base_name):
+ self.prepare_testbase_from_dir("DIR", test_base_name)
+ self.currentTestBase = "DIR"
+ return 0
+
+ if not test_base_info:
+ message = (_("########## ERROR: test base '%s' not found\n") %
+ test_base_name)
+ self.logger.write("%s\n" % src.printcolors.printcError(message))
+ return 1
if test_base_info.get_sources == "dir":
- self.prepare_grid_from_dir(grid_name, test_base_info.info.dir)
+ self.prepare_testbase_from_dir(test_base_name,
+ test_base_info.info.dir)
elif test_base_info.get_sources == "git":
- self.prepare_grid_from_git(grid_name,
+ self.prepare_testbase_from_git(test_base_name,
test_base_info.info.base,
self.config.APPLICATION.test_base.tag)
elif test_base_info.get_sources == "svn":
- svn_user = src.get_cfg_param(test_base_info.svn_info,
+ svn_user = src.get_cfg_param(test_base_info.info,
"svn_user",
self.config.USER.svn_user)
- self.prepare_grid_from_svn(svn_user,
- grid_name,
+ self.prepare_testbase_from_svn(svn_user,
+ test_base_name,
test_base_info.info.base)
else:
- raise src.SatException(_("unknown source type '%(type)s' for testb"
- "ase '%(grid)s' ...\n") % {
+ raise src.SatException(_("unknown source type '%(type)s' for test b"
+ "ase '%(base)s' ...\n") % {
'type': test_base_info.get_sources,
- 'grid': grid_name })
+ 'base': test_base_name })
- self.currentGrid = grid_name
+ self.currentTestBase = test_base_name
##
# Searches if the script is declared in known errors pyconf.
# Update the status if needed.
- def search_known_errors(self, status, test_module, test_type, test):
- test_path = os.path.join(test_module, test_type, test)
+ def search_known_errors(self, status, test_grid, test_session, test):
+ test_path = os.path.join(test_grid, test_session, test)
if not src.config_has_application(self.config):
return status, []
results = {}
for test in listTest:
resfile = os.path.join(self.currentDir,
- self.currentModule,
- self.currentType,
+ self.currentgrid,
+ self.currentsession,
test[:-3] + ".result.py")
# check if <test>.result.py file exists
results[test] = ["?", -1, "", []]
else:
gdic, ldic = {}, {}
- execfile(resfile, gdic, ldic)
-
- status = src.TIMEOUT_STATUS
- if not has_timed_out:
- status = src.KO_STATUS
-
- if ldic.has_key('status'):
- status = ldic['status']
-
- expected = []
- if status == src.KO_STATUS or status == src.OK_STATUS:
- status, expected = self.search_known_errors(status,
- self.currentModule,
- self.currentType,
- test)
-
- callback = ""
- if ldic.has_key('callback'):
- callback = ldic['callback']
- elif status == src.KO_STATUS:
- callback = "CRASH"
-
- exec_time = -1
- if ldic.has_key('time'):
- try:
- exec_time = float(ldic['time'])
- except:
+ if verbose:
+ print("test script: '%s':\n'%s'\n" % (resfile, open(resfile, 'r').read()))
+
+ try:
+ execfile(resfile, gdic, ldic)
+
+ status = src.TIMEOUT_STATUS
+ if not has_timed_out:
+ status = src.KO_STATUS
+
+ if 'status' in ldic:
+ status = ldic['status']
+
+ expected = []
+ if status == src.KO_STATUS or status == src.OK_STATUS:
+ status, expected = self.search_known_errors(status,
+ self.currentgrid,
+ self.currentsession,
+ test)
+
+ callback = ""
+ if 'callback' in ldic:
+ callback = ldic['callback']
+ elif status == src.KO_STATUS:
+ callback = "CRASH"
+ if verbose:
+ print("--- CRASH ldic\n%s" % PP.pformat(ldic)) # cvw TODO
+ print("--- CRASH gdic\n%s" % PP.pformat(gdic))
pass
- results[test] = [status, exec_time, callback, expected]
+ exec_time = -1
+ if 'time' in ldic:
+ try:
+ exec_time = float(ldic['time'])
+ except:
+ pass
+
+ results[test] = [status, exec_time, callback, expected]
+
+ except:
+ results[test] = ["?", -1, "", []]
+ # results[test] = [src.O_STATUS, -1, open(resfile, 'r').read(), []]
+
+ # check if <test>.py file exists
+ testfile = os.path.join(self.currentDir,
+ self.currentgrid,
+ self.currentsession,
+ test)
+
+ if not os.path.exists(testfile):
+ results[test].append('')
+ else:
+ text = open(testfile, "r").read()
+ results[test].append(text)
+
+ # check if <test>.out.py file exists
+ outfile = os.path.join(self.currentDir,
+ self.currentgrid,
+ self.currentsession,
+ test[:-3] + ".out.py")
+
+ if not os.path.exists(outfile):
+ results[test].append('')
+ else:
+ text = open(outfile, "r").read()
+ results[test].append(text)
return results
# calling all the scripts of a single directory.
def generate_script(self, listTest, script_path, ignoreList):
# open template file
- template_file = open(os.path.join(self.config.VARS.srcDir,
- "test",
- "scriptTemplate.py"), 'r')
- template = string.Template(template_file.read())
-
+ tFile = os.path.join(self.config.VARS.srcDir, "test", "scriptTemplate.py")
+ with open(tFile, 'r') as f:
+ template = string.Template(f.read())
+
# create substitution dictionary
d = dict()
d['resourcesWay'] = os.path.join(self.currentDir, 'RESSOURCES')
- d['tmpDir'] = os.path.join(self.sessionDir, 'WORK')
+ d['tmpDir'] = os.path.join(self.tmp_working_dir, 'WORK')
d['toolsWay'] = os.path.join(self.config.VARS.srcDir, "test")
- d['typeDir'] = os.path.join(self.currentDir,
- self.currentModule,
- self.currentType)
- d['resultFile'] = os.path.join(self.sessionDir, 'WORK', 'exec_result')
+ d['sessionDir'] = os.path.join(self.currentDir, self.currentgrid, self.currentsession)
+ d['resultFile'] = os.path.join(self.tmp_working_dir, 'WORK', 'exec_result')
d['listTest'] = listTest
- d['typeName'] = self.currentType
+ d['sessionName'] = self.currentsession
d['ignore'] = ignoreList
# create script with template
- script = open(script_path, 'w')
- script.write(template.safe_substitute(d))
- script.close()
+ contents = template.safe_substitute(d)
+ if verbose: print("generate_script '%s':\n%s" % (script_path, contents)) # cvw TODO
+ with open(script_path, 'w') as f:
+ f.write(contents)
- # Find the getTmpDir function that gives access to *pidict file directory.
- # (the *pidict file exists when SALOME is launched)
+
+ # Find the getTmpDir function that gives access to *_pidict file directory.
+ # (the *_pidict file exists when SALOME is launched)
def get_tmp_dir(self):
- # Rare case where there is no KERNEL in module list
+ # Rare case where there is no KERNEL in grid list
# (for example MED_STANDALONE)
if ('APPLICATION' in self.config
and 'KERNEL' not in self.config.APPLICATION.products
if 'KERNEL_ROOT_DIR' in os.environ:
root_dir = os.environ['KERNEL_ROOT_DIR']
- if ('APPLICATION' in self.config
- and 'KERNEL' in self.config.APPLICATION.products):
- root_dir = src.product.get_product_config(self.config,
- "KERNEL").install_dir
+ if ('APPLICATION' in self.config and
+ 'KERNEL' in self.config.APPLICATION.products):
+ root_dir = src.product.get_product_config(self.config, "KERNEL").install_dir
# Case where there the appli option is called (with path to launcher)
- if len(self.appli) > 0:
+ if len(self.launcher) > 0:
# There are two cases : The old application (runAppli)
# and the new one
- launcherName = os.path.basename(self.appli)
- launcherDir = os.path.dirname(self.appli)
+ launcherName = os.path.basename(self.launcher)
+ launcherDir = os.path.dirname(self.launcher)
if launcherName == 'runAppli':
# Old application
- cmd = "for i in " + launcherDir + "/env.d/*.sh; do source ${i};"
- " done ; echo $KERNEL_ROOT_DIR"
+ cmd = """
+for i in %s/env.d/*.sh;
+ do source ${i};
+done
+echo $KERNEL_ROOT_DIR
+""" % launcherDir
else:
# New application
- cmd = "echo -e 'import os\nprint os.environ[\"KERNEL_ROOT_DIR\""
- "]' > tmpscript.py; %s shell tmpscript.py" % self.appli
- root_dir = subprocess.Popen(cmd,
+ cmd = """
+echo -e 'import os\nprint(os.environ[\"KERNEL_ROOT_DIR\"])' > tmpscript.py
+%s shell tmpscript.py
+""" % self.launcher
+
+ if src.architecture.is_windows():
+ subproc_res = subprocess.Popen(cmd,
+ stdout=subprocess.PIPE,
+ shell=True).communicate()
+ pass
+ else:
+ subproc_res = subprocess.Popen(cmd,
stdout=subprocess.PIPE,
shell=True,
- executable='/bin/bash').communicate()[0].split()[-1]
+ executable='/bin/bash').communicate()
+ pass
+
+ root_dir = subproc_res[0].split()[-1]
- # import module salome_utils from KERNEL that gives
+ # import grid salome_utils from KERNEL that gives
# the right getTmpDir function
- import imp
- (file_, pathname, description) = imp.find_module("salome_utils",
- [os.path.join(root_dir,
- 'bin',
- 'salome')])
+ root_dir = root_dir.decode('utf-8')
+ aPath = [os.path.join(root_dir, 'bin', 'salome')]
+ sal_uts = "salome_utils"
try:
- module = imp.load_module("salome_utils",
- file_,
- pathname,
- description)
- return module.getLogDir
+ (file_, pathname, description) = imp.find_module(sal_uts, aPath )
+ except Exception:
+ msg = "inexisting %s.py in %s" % (sal_uts, aPath)
+ raise Exception(msg)
+
+ try:
+ grid = imp.load_module(sal_uts, file_, pathname, description)
+ return grid.getLogDir
except:
- module = imp.load_module("salome_utils",
- file_,
- pathname,
- description)
- return module.getTmpDir
+ grid = imp.load_module(sal_uts, file_, pathname, description)
+ return grid.getTmpDir
finally:
if file_:
file_.close()
def get_test_timeout(self, test_name, default_value):
- if (self.settings.has_key("timeout") and
- self.settings["timeout"].has_key(test_name)):
+ if ("timeout" in self.settings and
+ test_name in self.settings["timeout"]):
return self.settings["timeout"][test_name]
return default_value
- def generate_launching_commands(self, typename):
- # Case where "sat test" is launched in an existing SALOME environment
- if 'KERNEL_ROOT_DIR' in os.environ:
- binSalome = "runSalome"
- binPython = "python"
- killSalome = "killSalome.py"
-
- # Rare case where there is no KERNEL in module list
- # (for example MED_STANDALONE)
- if ('APPLICATION' in self.config and
- 'KERNEL' not in self.config.APPLICATION.products):
- binSalome = "runSalome"
- binPython = "python"
- killSalome = "killSalome.py"
- src.environment.load_environment(self.config, False, self.logger)
- return binSalome, binPython, killSalome
+ def generate_launching_commands(self):
# Case where there the appli option is called (with path to launcher)
- if len(self.appli) > 0:
+ if len(self.launcher) > 0:
# There are two cases : The old application (runAppli)
# and the new one
- launcherName = os.path.basename(self.appli)
- launcherDir = os.path.dirname(self.appli)
- if launcherName == 'runAppli':
+ launcherName = os.path.basename(self.launcher)
+ launcherDir = os.path.dirname(self.launcher)
+ if os.path.basename(launcherDir) == 'APPLI':
# Old application
- binSalome = self.appli
+ binSalome = self.launcher
binPython = ("for i in " +
launcherDir +
"/env.d/*.sh; do source ${i}; done ; python")
return binSalome, binPython, killSalome
else:
# New application
- binSalome = self.appli
- binPython = self.appli + ' shell'
- killSalome = self.appli + ' killall'
+ binSalome = self.launcher
+ binPython = self.launcher + ' shell'
+ killSalome = self.launcher + ' killall'
return binSalome, binPython, killSalome
# SALOME version detection and APPLI repository detection
# Case where SALOME has NOT the launcher that uses the SalomeContext API
if VersionSalome < 730:
- binSalome = os.path.join(self.config.APPLI.module_appli_install_dir,
+ binSalome = os.path.join(self.config.APPLICATION.workdir,
appdir,
"runAppli")
binPython = "python"
return binSalome, binPython, killSalome
# Case where SALOME has the launcher that uses the SalomeContext API
- if VersionSalome >= 730:
- if 'profile' not in self.config.APPLICATION:
- # Before revision of application concept
- launcher_name = self.config.APPLI.launch_alias_name
- binSalome = os.path.join(self.config.APPLICATION.workdir,
- appdir,
- launcher_name)
- else:
- # After revision of application concept
- launcher_name = self.config.APPLICATION.profile.launcher_name
- binSalome = os.path.join(self.config.APPLICATION.workdir,
- launcher_name)
+ else:
+ launcher_name = src.get_launcher_name(self.config)
+ binSalome = os.path.join(self.config.APPLICATION.workdir,
+ launcher_name)
- if src.architecture.is_windows():
- binSalome += '.bat'
-
binPython = binSalome + ' shell'
killSalome = binSalome + ' killall'
return binSalome, binPython, killSalome
##
- # Runs tests of a type (using a single instance of Salome).
+ # Runs tests of a session (using a single instance of Salome).
def run_tests(self, listTest, ignoreList):
out_path = os.path.join(self.currentDir,
- self.currentModule,
- self.currentType)
- typename = "%s/%s" % (self.currentModule, self.currentType)
- time_out = self.get_test_timeout(typename,
- self.config.SITE.test.timeout)
+ self.currentgrid,
+ self.currentsession)
+ if verbose: print("run_tests '%s'\nlistTest: %s\nignoreList: %s" %
+ (self.currentDir, PP.pformat(listTest), PP.pformat(ignoreList))) # cvw TODO
+ sessionname = "%s/%s" % (self.currentgrid, self.currentsession)
+ time_out = self.get_test_timeout(sessionname,
+ DEFAULT_TIMEOUT)
- time_out_salome = src.get_cfg_param(self.config.SITE.test,
- "timeout_app",
- self.config.SITE.test.timeout)
+ time_out_salome = DEFAULT_TIMEOUT
# generate wrapper script
script_path = os.path.join(out_path, 'wrapperScript.py')
tmpDir = self.get_tmp_dir()
- binSalome, binPython, killSalome = self.generate_launching_commands(
- typename)
- if self.settings.has_key("run_with_modules") \
- and self.settings["run_with_modules"].has_key(typename):
- binSalome = (binSalome +
- " -m %s" % self.settings["run_with_modules"][typename])
+ binSalome, binPython, killSalome = self.generate_launching_commands()
+ if "run_with_grids" in self.settings and \
+ sessionname in self.settings["run_with_grids"]:
+ binSalome = (binSalome + " -m %s" % self.settings["run_with_grids"][sessionname])
- logWay = os.path.join(self.sessionDir, "WORK", "log_cxx")
+ logWay = os.path.join(self.tmp_working_dir, "WORK", "log_cxx")
status = False
- ellapsed = -1
- if self.currentType.startswith("NOGUI_"):
+ elapsed = -1
+ if self.currentsession.startswith("NOGUI_"):
# runSalome -t (bash)
- status, ellapsed = fork.batch(binSalome, self.logger,
- os.path.join(self.sessionDir, "WORK"),
- [ "-t",
- "--shutdown-server=1",
- script_path ],
- delai=time_out,
- log=logWay)
-
- elif self.currentType.startswith("PY_"):
+ status, elapsed = fork.batch(
+ binSalome,
+ self.logger,
+ os.path.join(self.tmp_working_dir, "WORK"),
+ [ "-t", "--shutdown-server=1", script_path ],
+ delai=time_out,
+ log=logWay)
+
+ elif self.currentsession.startswith("PY_"):
# python script.py
- status, ellapsed = fork.batch(binPython, self.logger,
- os.path.join(self.sessionDir, "WORK"),
- [script_path],
- delai=time_out, log=logWay)
+ status, elapsed = fork.batch(
+ binPython,
+ self.logger,
+ os.path.join(self.tmp_working_dir, "WORK"),
+ [script_path],
+ delai=time_out,
+ log=logWay)
else:
opt = "-z 0"
if self.show_desktop: opt = "--show-desktop=0"
- status, ellapsed = fork.batch_salome(binSalome,
- self.logger,
- os.path.join(self.sessionDir,
- "WORK"),
- [ opt,
- "--shutdown-server=1",
- script_path ],
- getTmpDir=tmpDir,
- fin=killSalome,
- delai=time_out,
- log=logWay,
- delaiapp=time_out_salome)
-
- self.logger.write("status = %s, ellapsed = %s\n" % (status, ellapsed),
- 5)
+ status, elapsed = fork.batch_salome(
+ binSalome,
+ self.logger,
+ os.path.join( self.tmp_working_dir, "WORK"),
+ [ opt, "--shutdown-server=1", script_path ],
+ getTmpDir=tmpDir,
+ fin=killSalome,
+ delai=time_out,
+ log=logWay,
+ delaiapp=time_out_salome)
+
+ self.logger.write("status = %s, elapsed = %s\n" % (status, elapsed), 5)
# create the test result to add in the config object
test_info = src.pyconf.Mapping(self.config)
- test_info.grid = self.currentGrid
- test_info.module = self.currentModule
- test_info.type = self.currentType
+ test_info.testbase = self.currentTestBase
+ test_info.grid = self.currentgrid
+ test_info.session = self.currentsession
test_info.script = src.pyconf.Sequence(self.config)
- script_results = self.read_results(listTest, ellapsed == time_out)
+ script_results = self.read_results(listTest, elapsed == time_out)
for sr in sorted(script_results.keys()):
self.nb_run += 1
script_info.known_error.expected = kfres[1]
script_info.known_error.comment = kfres[2]
script_info.known_error.fixed = kfres[3]
-
+
+ script_info.content = script_results[sr][4]
+ script_info.out = script_results[sr][5]
+
# add it to the list of results
test_info.script.append(script_info, '')
self.nb_run -= 1
elif script_info.res == "?":
self.nb_not_run += 1
+
self.config.TESTS.append(test_info, '')
##
- # Runs all tests of a type.
- def run_type_tests(self, light_test):
- if self.light:
- if not any(map(lambda l: l.startswith(self.currentType),
- light_test)):
- # no test to run => skip
- return
-
+ # Runs all tests of a session.
+ def run_session_tests(self):
+
self.logger.write(self.write_test_margin(2), 3)
- self.logger.write("Type = %s\n" % src.printcolors.printcLabel(
- self.currentType), 3, False)
+ self.logger.write("Session = %s\n" % src.printcolors.printcLabel(
+ self.currentsession), 3, False)
# prepare list of tests to run
tests = os.listdir(os.path.join(self.currentDir,
- self.currentModule,
- self.currentType))
- tests = filter(lambda l: l.endswith(".py"), tests)
+ self.currentgrid,
+ self.currentsession))
+ # avoid result files of previous tests, if presents
+ # tests = filter(lambda l: l.endswith(".py"), tests)
+ tests = [t for t in tests if t.endswith(".py") \
+ and not ( t.endswith(".out.py") or \
+ t.endswith(".result.py") or \
+ t.endswith("wrapperScript.py") \
+ ) ]
tests = sorted(tests, key=str.lower)
- if self.light:
- tests = filter(lambda l: os.path.join(self.currentType,
- l) in light_test, tests)
-
# build list of known failures
- cat = "%s/%s/" % (self.currentModule, self.currentType)
+ cat = "%s/%s/" % (self.currentgrid, self.currentsession)
ignoreDict = {}
for k in self.ignore_tests.keys():
if k.startswith(cat):
self.run_tests(tests, ignoreDict)
##
- # Runs all tests of a module.
- def run_module_tests(self):
+ # Runs all tests of a grid.
+ def run_grid_tests(self):
self.logger.write(self.write_test_margin(1), 3)
- self.logger.write("Module = %s\n" % src.printcolors.printcLabel(
- self.currentModule), 3, False)
+ self.logger.write("grid = %s\n" % src.printcolors.printcLabel(
+ self.currentgrid), 3, False)
- module_path = os.path.join(self.currentDir, self.currentModule)
+ grid_path = os.path.join(self.currentDir, self.currentgrid)
- types = []
- if self.types is not None:
- types = self.types # user choice
+ sessions = []
+ if self.sessions is not None:
+ sessions = self.sessions # user choice
else:
- # use all scripts in module
- types = filter(lambda l: l not in C_IGNORE_MODULES,
- os.listdir(module_path))
- types = filter(lambda l: os.path.isdir(os.path.join(module_path,
- l)), types)
-
- # in batch mode keep only modules with NOGUI or PY
- if self.mode == "batch":
- types = filter(lambda l: ("NOGUI" in l or "PY" in l), types)
-
- light_test = []
- if self.light:
- light_path = os.path.join(module_path, C_TESTS_LIGHT_FILE)
- if not os.path.exists(light_path):
- types = []
- msg = src.printcolors.printcWarning(_("List of light tests not"
- " found: %s") % light_path)
- self.logger.write(msg + "\n")
- else:
- # read the file
- light_file = open(light_path, "r")
- light_test = map(lambda l: l.strip(), light_file.readlines())
-
- types = sorted(types, key=str.lower)
- for type_ in types:
- if not os.path.exists(os.path.join(module_path, type_)):
+ # use all scripts in grid
+ sessions = filter(lambda l: l not in C_IGNORE_GRIDS,
+ os.listdir(grid_path))
+ sessions = filter(lambda l: os.path.isdir(os.path.join(grid_path,
+ l)), sessions)
+
+ sessions = sorted(sessions, key=str.lower)
+ existingSessions = self.getSubDirectories(grid_path)
+ for session_ in sessions:
+ if not os.path.exists(os.path.join(grid_path, session_)):
self.logger.write(self.write_test_margin(2), 3)
- self.logger.write(src.printcolors.printcWarning("Type %s not "
- "found" % type_) + "\n", 3, False)
+ msg = """\
+Session '%s' not found
+Existing sessions are:
+%s
+""" % (session_, PP.pformat(sorted(existingSessions)))
+ self.logger.write(src.printcolors.printcWarning(msg), 3, False)
else:
- self.currentType = type_
- self.run_type_tests(light_test)
+ self.currentsession = session_
+ self.run_session_tests()
+
+ def getSubDirectories(self, aDir):
+ """
+ get names of first level of sub directories in aDir
+ excluding '.git' etc as beginning with '.'
+ """
+ res = os.listdir(aDir)
+ res = [d for d in res if os.path.isdir(os.path.join(aDir, d)) and d[0] != '.']
+ # print("getSubDirectories %s are:\n%s" % (aDir, PP.pformat(res)))
+ return res
##
- # Runs test grid.
- def run_grid_tests(self):
+ # Runs test testbase.
+ def run_testbase_tests(self):
res_dir = os.path.join(self.currentDir, "RESSOURCES")
os.environ['PYTHONPATH'] = (res_dir +
os.pathsep +
self.logger.write("\n", 4, False)
self.logger.write(self.write_test_margin(0), 3)
- grid_label = "Grid = %s\n" % src.printcolors.printcLabel(
- self.currentGrid)
- self.logger.write(grid_label, 3, False)
- self.logger.write("-" * len(src.printcolors.cleancolor(grid_label)), 3)
+ testbase_label = "Test base = %s\n" % src.printcolors.printcLabel(
+ self.currentTestBase)
+ self.logger.write(testbase_label, 3, False)
+ self.logger.write("-" * len(src.printcolors.cleancolor(testbase_label)),
+ 3)
self.logger.write("\n", 3, False)
# load settings
if os.path.exists(settings_file):
gdic, ldic = {}, {}
execfile(settings_file, gdic, ldic)
- self.logger.write(_("Load test settings\n"), 3)
+ self.logger.write("Load test settings '%s'\n" % settings_file, 5)
self.settings = ldic['settings_dic']
self.ignore_tests = ldic['known_failures_list']
if isinstance(self.ignore_tests, list):
self.ignore_tests = {}
- self.logger.write(src.printcolors.printcWarning("known_failur"
- "es_list must be a dictionary (not a list)") + "\n", 1, False)
+ self.logger.write(src.printcolors.printcWarning(
+ "known_failures_list must be a dictionary (not a list)") + "\n", 1, False)
else:
self.ignore_tests = {}
self.settings.clear()
# read known failures pyconf
- if "testerror" in self.config.SITE:
+ if "testerror" in self.config.LOCAL:
#import testerror
#self.known_errors = testerror.read_test_failures(
# self.config.TOOLS.testerror.file_path,
else:
self.known_errors = None
- if self.modules is not None:
- modules = self.modules # given by user
+ if self.grids is not None:
+ grids = self.grids # given by user
else:
- # select all the modules (i.e. directories) in the directory
- modules = filter(lambda l: l not in C_IGNORE_MODULES,
+ # select all the grids (i.e. directories) in the directory
+ grids = filter(lambda l: l not in C_IGNORE_GRIDS,
os.listdir(self.currentDir))
- modules = filter(lambda l: os.path.isdir(
+ grids = filter(lambda l: os.path.isdir(
os.path.join(self.currentDir, l)),
- modules)
+ grids)
- modules = sorted(modules, key=str.lower)
- for module in modules:
- if not os.path.exists(os.path.join(self.currentDir, module)):
+ grids = sorted(grids, key=str.lower)
+ existingGrids = self.getSubDirectories(self.currentDir)
+ for grid in grids:
+ if not os.path.exists(os.path.join(self.currentDir, grid)):
self.logger.write(self.write_test_margin(1), 3)
- self.logger.write(src.printcolors.printcWarning(
- "Module %s does not exist\n" % module), 3, False)
+ msg = """\
+Grid '%s' does not exist
+Existing grids are:
+%s
+""" % (grid, PP.pformat(sorted(existingGrids)))
+ self.logger.write(src.printcolors.printcWarning(msg), 3, False)
else:
- self.currentModule = module
- self.run_module_tests()
+ self.currentgrid = grid
+ self.run_grid_tests()
def run_script(self, script_name):
- if 'APPLICATION' in self.config and script_name in self.config.APPLICATION:
+ if ('APPLICATION' in self.config and
+ script_name in self.config.APPLICATION):
script = self.config.APPLICATION[script_name]
if len(script) == 0:
return
self.logger.write(src.printcolors.printcHeader("----------- end"
" %s" % script_name) + "\n", 2)
- def run_all_tests(self, session_name=""):
+ def run_all_tests(self):
initTime = datetime.datetime.now()
self.run_script('test_setup')
self.logger.write(src.printcolors.printcHeader(
_("=== STARTING TESTS")) + "\n", 2)
self.logger.write("\n", 2, False)
- self.currentDir = os.path.join(self.sessionDir,
+ self.currentDir = os.path.join(self.tmp_working_dir,
'BASES',
- self.currentGrid)
- self.run_grid_tests()
+ self.currentTestBase)
+ self.run_testbase_tests()
# calculate total execution time
totalTime = datetime.datetime.now() - initTime
self.logger.write("\n", 2, False)
# evaluate results
- res_count = "%d / %d" % (self.nb_succeed,
- self.nb_run - self.nb_acknoledge)
res_out = _("Tests Results: %(succeed)d / %(total)d\n") % \
{ 'succeed': self.nb_succeed, 'total': self.nb_run }
if self.nb_timeout > 0:
self.logger.write(_("%d tests TIMEOUT\n") % self.nb_timeout, 1)
- res_count += " TO: %d" % self.nb_timeout
if self.nb_not_run > 0:
self.logger.write(_("%d tests not executed\n") % self.nb_not_run, 1)
- res_count += " NR: %d" % self.nb_not_run
+ if self.nb_acknoledge > 0:
+ self.logger.write(_("%d tests known failures\n") % self.nb_acknoledge, 1)
status = src.OK_STATUS
if self.nb_run - self.nb_succeed - self.nb_acknoledge > 0:
status = src.KNOWNFAILURE_STATUS
self.logger.write(_("Status: %s\n" % status), 3)
-
- if session_name is not None and len(session_name) > 0:
- self.config.RESULTS.test["session"] = session_name
return self.nb_run - self.nb_succeed - self.nb_acknoledge