gecko-dev/testing/web-platform/metasummary.py

300 строки
9.3 KiB
Python

import argparse
import json
import logging
import os
import urlparse
from collections import defaultdict
import manifestupdate
from wptrunner import expected
from wptrunner.wptmanifest.serializer import serialize
from wptrunner.wptmanifest.backends import base
here = os.path.dirname(__file__)
logger = logging.getLogger(__name__)
class Compiler(base.Compiler):
def visit_KeyValueNode(self, node):
key_name = node.data
values = []
for child in node.children:
values.append(self.visit(child))
self.output_node.set(key_name, values)
def visit_ConditionalNode(self, node):
assert len(node.children) == 2
# For conditional nodes, just return the subtree
return node.children[0], self.visit(node.children[1])
def visit_UnaryExpressionNode(self, node):
raise NotImplementedError
def visit_BinaryExpressionNode(self, node):
raise NotImplementedError
def visit_UnaryOperatorNode(self, node):
raise NotImplementedError
def visit_BinaryOperatorNode(self, node):
raise NotImplementedError
class ExpectedManifest(base.ManifestItem):
def __init__(self, node, test_path, url_base):
"""Object representing all the tests in a particular manifest
:param name: Name of the AST Node associated with this object.
Should always be None since this should always be associated with
the root node of the AST.
:param test_path: Path of the test file associated with this manifest.
:param url_base: Base url for serving the tests in this manifest
"""
if test_path is None:
raise ValueError("ExpectedManifest requires a test path")
if url_base is None:
raise ValueError("ExpectedManifest requires a base url")
base.ManifestItem.__init__(self, node)
self.child_map = {}
self.test_path = test_path
self.url_base = url_base
def append(self, child):
"""Add a test to the manifest"""
base.ManifestItem.append(self, child)
self.child_map[child.id] = child
@property
def url(self):
return urlparse.urljoin(self.url_base,
"/".join(self.test_path.split(os.path.sep)))
class DirectoryManifest(base.ManifestItem):
pass
class TestManifestItem(base.ManifestItem):
def __init__(self, node, **kwargs):
"""Tree node associated with a particular test in a manifest
:param name: name of the test"""
base.ManifestItem.__init__(self, node)
self.subtests = {}
@property
def id(self):
return urlparse.urljoin(self.parent.url, self.name)
def append(self, node):
"""Add a subtest to the current test
:param node: AST Node associated with the subtest"""
child = base.ManifestItem.append(self, node)
self.subtests[child.name] = child
def get_subtest(self, name):
"""Get the SubtestNode corresponding to a particular subtest, by name
:param name: Name of the node to return"""
if name in self.subtests:
return self.subtests[name]
return None
class SubtestManifestItem(TestManifestItem):
pass
def data_cls_getter(output_node, visited_node):
# visited_node is intentionally unused
if output_node is None:
return ExpectedManifest
if isinstance(output_node, ExpectedManifest):
return TestManifestItem
if isinstance(output_node, TestManifestItem):
return SubtestManifestItem
raise ValueError
def get_manifest(metadata_root, test_path, url_base):
"""Get the ExpectedManifest for a particular test path, or None if there is no
metadata stored for that test path.
:param metadata_root: Absolute path to the root of the metadata directory
:param test_path: Path to the test(s) relative to the test root
:param url_base: Base url for serving the tests in this manifest
:param run_info: Dictionary of properties of the test run for which the expectation
values should be computed.
"""
manifest_path = expected.expected_path(metadata_root, test_path)
try:
with open(manifest_path) as f:
return compile(f,
data_cls_getter=data_cls_getter,
test_path=test_path,
url_base=url_base)
except IOError:
return None
def get_dir_manifest(path):
"""Get the ExpectedManifest for a particular test path, or None if there is no
metadata stored for that test path.
:param path: Full path to the ini file
:param run_info: Dictionary of properties of the test run for which the expectation
values should be computed.
"""
try:
with open(path) as f:
return compile(f, data_cls_getter=lambda x,y: DirectoryManifest)
except IOError:
return None
def compile(stream, data_cls_getter=None, **kwargs):
return base.compile(Compiler,
stream,
data_cls_getter=data_cls_getter,
**kwargs)
def create_parser():
parser = argparse.ArgumentParser()
parser.add_argument("--out-dir", help="Directory to store output files")
return parser
def run(src_root, obj_root, logger_=None, **kwargs):
logger_obj = logger_ if logger_ is not None else logger
manifests = manifestupdate.run(src_root, obj_root, logger_obj, **kwargs)
rv = {}
dirs_seen = set()
for meta_root, test_path, test_metadata in iter_tests(manifests):
for dir_path in get_dir_paths(meta_root, test_path):
if dir_path not in dirs_seen:
dirs_seen.add(dir_path)
dir_manifest = get_dir_manifest(dir_path)
rel_path = os.path.relpath(dir_path, meta_root)
if dir_manifest:
add_manifest(rv, rel_path, dir_manifest)
else:
break
add_manifest(rv, test_path, test_metadata)
if kwargs["out_dir"]:
if not os.path.exists(kwargs["out_dir"]):
os.makedirs(kwargs["out_dir"])
out_path = os.path.join(kwargs["out_dir"], "summary.json")
with open(out_path, "w") as f:
json.dump(rv, f)
else:
print json.dumps(rv, indent=2)
def get_dir_paths(test_root, test_path):
if not os.path.isabs(test_path):
test_path = os.path.join(test_root, test_path)
dir_path = os.path.dirname(test_path)
while dir_path != test_root:
yield os.path.join(dir_path, "__dir__.ini")
dir_path = os.path.dirname(dir_path)
assert len(dir_path) >= len(test_root)
def iter_tests(manifests):
for manifest in manifests.iterkeys():
for test_type, test_path, tests in manifest:
url_base = manifests[manifest]["url_base"]
metadata_base = manifests[manifest]["metadata_path"]
expected_manifest = get_manifest(metadata_base, test_path, url_base)
if expected_manifest:
yield metadata_base, test_path, expected_manifest
def add_manifest(target, path, metadata):
dir_name = os.path.dirname(path)
key = [dir_name]
add_metadata(target, key, metadata)
key.append("_tests")
for test_metadata in metadata.children:
key.append(test_metadata.name)
add_metadata(target, key, test_metadata)
key.append("_subtests")
for subtest_metadata in test_metadata.children:
key.append(subtest_metadata.name)
add_metadata(target,
key,
subtest_metadata)
key.pop()
key.pop()
key.pop()
simple_props = ["disabled", "min-asserts", "max-asserts", "lsan-allowed",
"leak-allowed", "bug"]
statuses = set(["CRASH"])
def add_metadata(target, key, metadata):
if not is_interesting(metadata):
return
for part in key:
if part not in target:
target[part] = {}
target = target[part]
for prop in simple_props:
if metadata.has_key(prop):
target[prop] = get_condition_value_list(metadata, prop)
if metadata.has_key("expected"):
values = metadata.get("expected")
by_status = defaultdict(list)
for item in values:
if isinstance(item, tuple):
condition, status = item
else:
condition = None
status = item
by_status[status].append(condition)
for status in statuses:
if status in by_status:
target["expected_%s" % status] = [serialize(item) if item else None
for item in by_status[status]]
def get_condition_value_list(metadata, key):
conditions = []
for item in metadata.get(key):
if isinstance(item, tuple):
assert len(item) == 2
conditions.append((serialize(item[0]), item[1]))
else:
conditions.append((None, item))
return conditions
def is_interesting(metadata):
if any(metadata.has_key(prop) for prop in simple_props):
return True
if metadata.has_key("expected"):
for item in metadata.get("expected"):
if isinstance(item, tuple):
if item[1] in statuses:
return True
elif item in statuses:
return True
return False