import hashlib
import re
import os
from collections import deque
from fnmatch import fnmatch
from io import BytesIO
from typing import (Any, BinaryIO, Callable, Deque, Dict, Iterable, List, Optional, Pattern,
Set, Text, Tuple, Union, cast)
from urllib.parse import urljoin
try:
from xml.etree import cElementTree as ElementTree
except ImportError:
from xml.etree import ElementTree as ElementTree # type: ignore
import html5lib
from . import XMLParser
from .item import (ConformanceCheckerTest,
CrashTest,
ManifestItem,
ManualTest,
PrintRefTest,
RefTest,
SpecItem,
SupportFile,
TestharnessTest,
VisualTest,
WebDriverSpecTest)
from .utils import cached_property
# Cannot do `from ..metadata.webfeatures.schema import WEB_FEATURES_YML_FILENAME`
# because relative import beyond toplevel throws *ImportError*!
from metadata.webfeatures.schema import WEB_FEATURES_YML_FILENAME # type: ignore
wd_pattern = "*.py"
js_meta_re = re.compile(br"//\s*META:\s*(\w*)=(.*)$")
python_meta_re = re.compile(br"#\s*META:\s*(\w*)=(.*)$")
reference_file_re = re.compile(r'(^|[\-_])(not)?ref[0-9]*([\-_]|$)')
space_chars: Text = "".join(html5lib.constants.spaceCharacters)
def replace_end(s: Text, old: Text, new: Text) -> Text:
"""
Given a string `s` that ends with `old`, replace that occurrence of `old`
with `new`.
"""
assert s.endswith(old)
return s[:-len(old)] + new
def read_script_metadata(f: BinaryIO, regexp: Pattern[bytes]) -> Iterable[Tuple[Text, Text]]:
"""
Yields any metadata (pairs of strings) from the file-like object `f`,
as specified according to a supplied regexp.
`regexp` - Regexp containing two groups containing the metadata name and
value.
"""
for line in f:
assert isinstance(line, bytes), line
m = regexp.match(line)
if not m:
break
yield (m.groups()[0].decode("utf8"), m.groups()[1].decode("utf8"))
_any_variants: Dict[Text, Dict[Text, Any]] = {
"window": {"suffix": ".any.html"},
"window-module": {},
"serviceworker": {"force_https": True},
"serviceworker-module": {"force_https": True},
"sharedworker": {},
"sharedworker-module": {},
"dedicatedworker": {"suffix": ".any.worker.html"},
"dedicatedworker-module": {"suffix": ".any.worker-module.html"},
"worker": {"longhand": {"dedicatedworker", "sharedworker", "serviceworker"}},
"worker-module": {},
"shadowrealm": {},
"jsshell": {"suffix": ".any.js"},
}
def get_any_variants(item: Text) -> Set[Text]:
"""
Returns a set of variants (strings) defined by the given keyword.
"""
assert isinstance(item, str), item
variant = _any_variants.get(item, None)
if variant is None:
return set()
return variant.get("longhand", {item})
def get_default_any_variants() -> Set[Text]:
"""
Returns a set of variants (strings) that will be used by default.
"""
return set({"window", "dedicatedworker"})
def parse_variants(value: Text) -> Set[Text]:
"""
Returns a set of variants (strings) defined by a comma-separated value.
"""
assert isinstance(value, str), value
if value == "":
return get_default_any_variants()
globals = set()
for item in value.split(","):
item = item.strip()
globals |= get_any_variants(item)
return globals
def global_suffixes(value: Text) -> Set[Tuple[Text, bool]]:
"""
Yields tuples of the relevant filename suffix (a string) and whether the
variant is intended to run in a JS shell, for the variants defined by the
given comma-separated value.
"""
assert isinstance(value, str), value
rv = set()
global_types = parse_variants(value)
for global_type in global_types:
variant = _any_variants[global_type]
suffix = variant.get("suffix", ".any.%s.html" % global_type)
rv.add((suffix, global_type == "jsshell"))
return rv
def global_variant_url(url: Text, suffix: Text) -> Text:
"""
Returns a url created from the given url and suffix (all strings).
"""
url = url.replace(".any.", ".")
# If the url must be loaded over https, ensure that it will have
# the form .https.any.js
if ".https." in url and suffix.startswith(".https."):
url = url.replace(".https.", ".")
elif ".h2." in url and suffix.startswith(".h2."):
url = url.replace(".h2.", ".")
return replace_end(url, ".js", suffix)
def _parse_html(f: BinaryIO) -> ElementTree.Element:
doc = html5lib.parse(f, treebuilder="etree", useChardet=False)
return cast(ElementTree.Element, doc)
def _parse_xml(f: BinaryIO) -> ElementTree.Element:
try:
# raises ValueError with an unsupported encoding,
# ParseError when there's an undefined entity
return ElementTree.parse(f).getroot()
except (ValueError, ElementTree.ParseError):
f.seek(0)
return ElementTree.parse(f, XMLParser.XMLParser()).getroot() # type: ignore
class SourceFile:
parsers: Dict[Text, Callable[[BinaryIO], ElementTree.Element]] = {"html":_parse_html,
"xhtml":_parse_xml,
"svg":_parse_xml}
root_dir_non_test = {"common"}
dir_non_test = {"resources",
"support",
"tools"}
dir_path_non_test: Set[Tuple[Text, ...]] = {("css21", "archive"),
("css", "CSS2", "archive"),
("css", "common")}
def __init__(self, tests_root: Text,
rel_path: Text,
url_base: Text,
hash: Optional[Text] = None,
contents: Optional[bytes] = None) -> None:
"""Object representing a file in a source tree.
:param tests_root: Path to the root of the source tree
:param rel_path_str: File path relative to tests_root
:param url_base: Base URL used when converting file paths to urls
:param contents: Byte array of the contents of the file or ``None``.
"""
assert not os.path.isabs(rel_path), rel_path
if os.name == "nt":
# do slash normalization on Windows
rel_path = rel_path.replace("/", "\\")
dir_path, filename = os.path.split(rel_path)
name, ext = os.path.splitext(filename)
type_flag = None
if "-" in name:
type_flag = name.rsplit("-", 1)[1].split(".")[0]
meta_flags = name.split(".")[1:]
self.tests_root: Text = tests_root
self.rel_path: Text = rel_path
self.dir_path: Text = dir_path
self.filename: Text = filename
self.name: Text = name
self.ext: Text = ext
self.type_flag: Optional[Text] = type_flag
self.meta_flags: Union[List[bytes], List[Text]] = meta_flags
self.url_base = url_base
self.contents = contents
self.items_cache: Optional[Tuple[Text, List[ManifestItem]]] = None
self._hash = hash
def __getstate__(self) -> Dict[str, Any]:
# Remove computed properties if we pickle this class
rv = self.__dict__.copy()
if "__cached_properties__" in rv:
cached_properties = rv["__cached_properties__"]
rv = {key:value for key, value in rv.items() if key not in cached_properties}
del rv["__cached_properties__"]
return rv
def name_prefix(self, prefix: Text) -> bool:
"""Check if the filename starts with a given prefix
:param prefix: The prefix to check"""
return self.name.startswith(prefix)
def is_dir(self) -> bool:
"""Return whether this file represents a directory."""
if self.contents is not None:
return False
return os.path.isdir(self.rel_path)
def open(self) -> BinaryIO:
"""
Return either
* the contents specified in the constructor, if any;
* a File object opened for reading the file contents.
"""
if self.contents is not None:
file_obj: BinaryIO = BytesIO(self.contents)
else:
file_obj = open(self.path, 'rb')
return file_obj
@cached_property
def rel_path_parts(self) -> Tuple[Text, ...]:
return tuple(self.rel_path.split(os.path.sep))
@cached_property
def path(self) -> Text:
return os.path.join(self.tests_root, self.rel_path)
@cached_property
def rel_url(self) -> Text:
assert not os.path.isabs(self.rel_path), self.rel_path
return self.rel_path.replace(os.sep, "/")
@cached_property
def url(self) -> Text:
return urljoin(self.url_base, self.rel_url)
@cached_property
def hash(self) -> Text:
if not self._hash:
with self.open() as f:
content = f.read()
data = b"".join((b"blob ", b"%d" % len(content), b"\0", content))
self._hash = str(hashlib.sha1(data).hexdigest())
return self._hash
def in_non_test_dir(self) -> bool:
if self.dir_path == "":
return True
parts = self.rel_path_parts
if (parts[0] in self.root_dir_non_test or
any(item in self.dir_non_test for item in parts) or
any(parts[:len(path)] == path for path in self.dir_path_non_test)):
return True
return False
def in_conformance_checker_dir(self) -> bool:
return self.rel_path_parts[0] == "conformance-checkers"
@property
def name_is_non_test(self) -> bool:
"""Check if the file name matches the conditions for the file to
be a non-test file"""
return (self.is_dir() or
self.name_prefix("MANIFEST") or
self.filename == "META.yml" or
self.filename == WEB_FEATURES_YML_FILENAME or
self.filename.startswith(".") or
self.filename.endswith(".headers") or
self.filename.endswith(".ini") or
self.in_non_test_dir())
@property
def name_is_conformance(self) -> bool:
return (self.in_conformance_checker_dir() and
self.type_flag in ("is-valid", "no-valid"))
@property
def name_is_conformance_support(self) -> bool:
return self.in_conformance_checker_dir()
@property
def name_is_manual(self) -> bool:
"""Check if the file name matches the conditions for the file to
be a manual test file"""
return self.type_flag == "manual"
@property
def name_is_visual(self) -> bool:
"""Check if the file name matches the conditions for the file to
be a visual test file"""
return self.type_flag == "visual"
@property
def name_is_multi_global(self) -> bool:
"""Check if the file name matches the conditions for the file to
be a multi-global js test file"""
return "any" in self.meta_flags and self.ext == ".js"
@property
def name_is_worker(self) -> bool:
"""Check if the file name matches the conditions for the file to
be a worker js test file"""
return "worker" in self.meta_flags and self.ext == ".js"
@property
def name_is_window(self) -> bool:
"""Check if the file name matches the conditions for the file to
be a window js test file"""
return "window" in self.meta_flags and self.ext == ".js"
@property
def name_is_webdriver(self) -> bool:
"""Check if the file name matches the conditions for the file to
be a webdriver spec test file"""
# wdspec tests are in subdirectories of /webdriver excluding __init__.py
# files.
rel_path_parts = self.rel_path_parts
return (((rel_path_parts[0] == "webdriver" and len(rel_path_parts) > 1) or
(rel_path_parts[:2] == ("infrastructure", "webdriver") and
len(rel_path_parts) > 2)) and
self.filename not in ("__init__.py", "conftest.py") and
fnmatch(self.filename, wd_pattern))
@property
def name_is_reference(self) -> bool:
"""Check if the file name matches the conditions for the file to
be a reference file (not a reftest)"""
return "/reference/" in self.url or bool(reference_file_re.search(self.name))
@property
def name_is_crashtest(self) -> bool:
return (self.markup_type is not None and
(self.type_flag == "crash" or "crashtests" in self.dir_path.split(os.path.sep)))
@property
def name_is_tentative(self) -> bool:
"""Check if the file name matches the conditions for the file to be a
tentative file.
See https://web-platform-tests.org/writing-tests/file-names.html#test-features"""
return "tentative" in self.meta_flags or "tentative" in self.dir_path.split(os.path.sep)
@property
def name_is_print_reftest(self) -> bool:
return (self.markup_type is not None and
(self.type_flag == "print" or "print" in self.dir_path.split(os.path.sep)))
@property
def markup_type(self) -> Optional[Text]:
"""Return the type of markup contained in a file, based on its extension,
or None if it doesn't contain markup"""
ext = self.ext
if not ext:
return None
if ext[0] == ".":
ext = ext[1:]
if ext in ["html", "htm"]:
return "html"
if ext in ["xhtml", "xht", "xml"]:
return "xhtml"
if ext == "svg":
return "svg"
return None
@cached_property
def root(self) -> Optional[ElementTree.Element]:
"""Return an ElementTree Element for the root node of the file if it contains
markup, or None if it does not"""
if not self.markup_type:
return None
parser = self.parsers[self.markup_type]
with self.open() as f:
try:
tree = parser(f)
except Exception:
return None
return tree
@cached_property
def timeout_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes in a test that
specify timeouts"""
assert self.root is not None
return self.root.findall(".//{http://www.w3.org/1999/xhtml}meta[@name='timeout']")
@cached_property
def pac_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes in a test that
specify PAC (proxy auto-config)"""
assert self.root is not None
return self.root.findall(".//{http://www.w3.org/1999/xhtml}meta[@name='pac']")
@cached_property
def script_metadata(self) -> Optional[List[Tuple[Text, Text]]]:
if self.name_is_worker or self.name_is_multi_global or self.name_is_window:
regexp = js_meta_re
elif self.name_is_webdriver:
regexp = python_meta_re
else:
return None
with self.open() as f:
return list(read_script_metadata(f, regexp))
@cached_property
def timeout(self) -> Optional[Text]:
"""The timeout of a test or reference file. "long" if the file has an extended timeout
or None otherwise"""
if self.script_metadata:
if any(m == ("timeout", "long") for m in self.script_metadata):
return "long"
if self.root is None:
return None
if self.timeout_nodes:
timeout_str: Optional[Text] = self.timeout_nodes[0].attrib.get("content", None)
if timeout_str and timeout_str.lower() == "long":
return "long"
return None
@cached_property
def pac(self) -> Optional[Text]:
"""The PAC (proxy config) of a test or reference file. A URL or null"""
if self.script_metadata:
for (meta, content) in self.script_metadata:
if meta == 'pac':
return content
if self.root is None:
return None
if self.pac_nodes:
return self.pac_nodes[0].attrib.get("content", None)
return None
@cached_property
def viewport_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes in a test that
specify viewport sizes"""
assert self.root is not None
return self.root.findall(".//{http://www.w3.org/1999/xhtml}meta[@name='viewport-size']")
@cached_property
def viewport_size(self) -> Optional[Text]:
"""The viewport size of a test or reference file"""
if self.root is None:
return None
if not self.viewport_nodes:
return None
return self.viewport_nodes[0].attrib.get("content", None)
@cached_property
def dpi_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes in a test that
specify device pixel ratios"""
assert self.root is not None
return self.root.findall(".//{http://www.w3.org/1999/xhtml}meta[@name='device-pixel-ratio']")
@cached_property
def dpi(self) -> Optional[Text]:
"""The device pixel ratio of a test or reference file"""
if self.root is None:
return None
if not self.dpi_nodes:
return None
return self.dpi_nodes[0].attrib.get("content", None)
def parse_ref_keyed_meta(self, node: ElementTree.Element) -> Tuple[Optional[Tuple[Text, Text, Text]], Text]:
item: Text = node.attrib.get("content", "")
parts = item.rsplit(":", 1)
if len(parts) == 1:
key: Optional[Tuple[Text, Text, Text]] = None
value = parts[0]
else:
key_part = urljoin(self.url, parts[0])
reftype = None
for ref in self.references: # type: Tuple[Text, Text]
if ref[0] == key_part:
reftype = ref[1]
break
if reftype not in ("==", "!="):
raise ValueError("Key %s doesn't correspond to a reference" % key_part)
key = (self.url, key_part, reftype)
value = parts[1]
return key, value
@cached_property
def fuzzy_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes in a test that
specify reftest fuzziness"""
assert self.root is not None
return self.root.findall(".//{http://www.w3.org/1999/xhtml}meta[@name='fuzzy']")
@cached_property
def fuzzy(self) -> Dict[Optional[Tuple[Text, Text, Text]], List[List[int]]]:
rv: Dict[Optional[Tuple[Text, Text, Text]], List[List[int]]] = {}
if self.root is None:
return rv
if not self.fuzzy_nodes:
return rv
args = ["maxDifference", "totalPixels"]
for node in self.fuzzy_nodes:
key, value = self.parse_ref_keyed_meta(node)
ranges = value.split(";")
if len(ranges) != 2:
raise ValueError("Malformed fuzzy value %s" % value)
arg_values: Dict[Text, List[int]] = {}
positional_args: Deque[List[int]] = deque()
for range_str_value in ranges: # type: Text
name: Optional[Text] = None
if "=" in range_str_value:
name, range_str_value = (part.strip()
for part in range_str_value.split("=", 1))
if name not in args:
raise ValueError("%s is not a valid fuzzy property" % name)
if arg_values.get(name):
raise ValueError("Got multiple values for argument %s" % name)
if "-" in range_str_value:
range_min, range_max = range_str_value.split("-")
else:
range_min = range_str_value
range_max = range_str_value
try:
range_value = [int(x.strip()) for x in (range_min, range_max)]
except ValueError:
raise ValueError("Fuzzy value %s must be a range of integers" %
range_str_value)
if name is None:
positional_args.append(range_value)
else:
arg_values[name] = range_value
rv[key] = []
for arg_name in args:
if arg_values.get(arg_name):
arg_value = arg_values.pop(arg_name)
else:
arg_value = positional_args.popleft()
rv[key].append(arg_value)
assert len(arg_values) == 0 and len(positional_args) == 0
return rv
@cached_property
def page_ranges_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes in a test that
specify print-reftest """
assert self.root is not None
return self.root.findall(".//{http://www.w3.org/1999/xhtml}meta[@name='reftest-pages']")
@cached_property
def page_ranges(self) -> Dict[Text, List[List[Optional[int]]]]:
"""List of ElementTree Elements corresponding to nodes in a test that
specify print-reftest page ranges"""
rv: Dict[Text, List[List[Optional[int]]]] = {}
for node in self.page_ranges_nodes:
key_data, value = self.parse_ref_keyed_meta(node)
# Just key by url
if key_data is None:
key = self.url
else:
key = key_data[1]
if key in rv:
raise ValueError("Duplicate page-ranges value")
rv[key] = []
for range_str in value.split(","):
range_str = range_str.strip()
if "-" in range_str:
range_parts_str = [item.strip() for item in range_str.split("-")]
try:
range_parts = [int(item) if item else None for item in range_parts_str]
except ValueError:
raise ValueError("Malformed page-range value %s" % range_str)
if any(item == 0 for item in range_parts):
raise ValueError("Malformed page-range value %s" % range_str)
else:
try:
range_parts = [int(range_str)]
except ValueError:
raise ValueError("Malformed page-range value %s" % range_str)
rv[key].append(range_parts)
return rv
@cached_property
def testharness_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes representing a
testharness.js script"""
assert self.root is not None
return self.root.findall(".//{http://www.w3.org/1999/xhtml}script[@src='/resources/testharness.js']")
@cached_property
def content_is_testharness(self) -> Optional[bool]:
"""Boolean indicating whether the file content represents a
testharness.js test"""
if self.root is None:
return None
return bool(self.testharness_nodes)
@cached_property
def variant_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes representing a
test variant"""
assert self.root is not None
return self.root.findall(".//{http://www.w3.org/1999/xhtml}meta[@name='variant']")
@cached_property
def test_variants(self) -> List[Text]:
rv: List[Text] = []
if self.ext == ".js":
script_metadata = self.script_metadata
assert script_metadata is not None
for (key, value) in script_metadata:
if key == "variant":
rv.append(value)
else:
for element in self.variant_nodes:
if "content" in element.attrib:
variant: Text = element.attrib["content"]
rv.append(variant)
for variant in rv:
if variant != "":
if variant[0] not in ("#", "?"):
raise ValueError("Non-empty variant must start with either a ? or a #")
if len(variant) == 1 or (variant[0] == "?" and variant[1] == "#"):
raise ValueError("Variants must not have empty fragment or query " +
"(omit the empty part instead)")
if not rv:
rv = [""]
return rv
@cached_property
def testdriver_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes representing a
testdriver.js script"""
assert self.root is not None
return self.root.findall(".//{http://www.w3.org/1999/xhtml}script[@src='/resources/testdriver.js']")
@cached_property
def has_testdriver(self) -> Optional[bool]:
"""Boolean indicating whether the file content represents a
testharness.js test"""
if self.root is None:
return None
return bool(self.testdriver_nodes)
@cached_property
def reftest_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes representing a
to a reftest """
if self.root is None:
return []
match_links = self.root.findall(".//{http://www.w3.org/1999/xhtml}link[@rel='match']")
mismatch_links = self.root.findall(".//{http://www.w3.org/1999/xhtml}link[@rel='mismatch']")
return match_links + mismatch_links
@cached_property
def references(self) -> List[Tuple[Text, Text]]:
"""List of (ref_url, relation) tuples for any reftest references specified in
the file"""
rv: List[Tuple[Text, Text]] = []
rel_map = {"match": "==", "mismatch": "!="}
for item in self.reftest_nodes:
if "href" in item.attrib:
ref_url = urljoin(self.url, item.attrib["href"].strip(space_chars))
ref_type = rel_map[item.attrib["rel"]]
rv.append((ref_url, ref_type))
return rv
@cached_property
def content_is_ref_node(self) -> bool:
"""Boolean indicating whether the file is a non-leaf node in a reftest
graph (i.e. if it contains any """
return bool(self.references)
@cached_property
def css_flag_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes representing a
flag """
if self.root is None:
return []
return self.root.findall(".//{http://www.w3.org/1999/xhtml}meta[@name='flags']")
@cached_property
def css_flags(self) -> Set[Text]:
"""Set of flags specified in the file"""
rv: Set[Text] = set()
for item in self.css_flag_nodes:
if "content" in item.attrib:
for flag in item.attrib["content"].split():
rv.add(flag)
return rv
@cached_property
def content_is_css_manual(self) -> Optional[bool]:
"""Boolean indicating whether the file content represents a
CSS WG-style manual test"""
if self.root is None:
return None
# return True if the intersection between the two sets is non-empty
return bool(self.css_flags & {"animated", "font", "history", "interact", "paged", "speech", "userstyle"})
@cached_property
def spec_link_nodes(self) -> List[ElementTree.Element]:
"""List of ElementTree Elements corresponding to nodes representing a
, used to point to specs"""
if self.root is None:
return []
return self.root.findall(".//{http://www.w3.org/1999/xhtml}link[@rel='help']")
@cached_property
def spec_links(self) -> Set[Text]:
"""Set of spec links specified in the file"""
rv: Set[Text] = set()
for item in self.spec_link_nodes:
if "href" in item.attrib:
rv.add(item.attrib["href"].strip(space_chars))
return rv
@cached_property
def content_is_css_visual(self) -> Optional[bool]:
"""Boolean indicating whether the file content represents a
CSS WG-style visual test"""
if self.root is None:
return None
return bool(self.ext in {'.xht', '.html', '.xhtml', '.htm', '.xml', '.svg'} and
self.spec_links)
@property
def type(self) -> Text:
possible_types = self.possible_types
if len(possible_types) == 1:
return possible_types.pop()
rv, _ = self.manifest_items()
return rv
@property
def possible_types(self) -> Set[Text]:
"""Determines the set of possible types without reading the file"""
if self.items_cache:
return {self.items_cache[0]}
if self.name_is_non_test:
return {SupportFile.item_type}
if self.name_is_manual:
return {ManualTest.item_type}
if self.name_is_conformance:
return {ConformanceCheckerTest.item_type}
if self.name_is_conformance_support:
return {SupportFile.item_type}
if self.name_is_webdriver:
return {WebDriverSpecTest.item_type}
if self.name_is_visual:
return {VisualTest.item_type}
if self.name_is_crashtest:
return {CrashTest.item_type}
if self.name_is_print_reftest:
return {PrintRefTest.item_type}
if self.name_is_multi_global:
return {TestharnessTest.item_type}
if self.name_is_worker:
return {TestharnessTest.item_type}
if self.name_is_window:
return {TestharnessTest.item_type}
if self.markup_type is None:
return {SupportFile.item_type}
if not self.name_is_reference:
return {ManualTest.item_type,
TestharnessTest.item_type,
RefTest.item_type,
VisualTest.item_type,
SupportFile.item_type}
return {TestharnessTest.item_type,
RefTest.item_type,
SupportFile.item_type}
def manifest_items(self) -> Tuple[Text, List[ManifestItem]]:
"""List of manifest items corresponding to the file. There is typically one
per test, but in the case of reftests a node may have corresponding manifest
items without being a test itself."""
if self.items_cache:
return self.items_cache
drop_cached = "root" not in self.__dict__
if self.name_is_non_test:
rv: Tuple[Text, List[ManifestItem]] = ("support", [
SupportFile(
self.tests_root,
self.rel_path
)])
elif self.name_is_manual:
rv = ManualTest.item_type, [
ManualTest(
self.tests_root,
self.rel_path,
self.url_base,
self.rel_url
)]
elif self.name_is_conformance:
rv = ConformanceCheckerTest.item_type, [
ConformanceCheckerTest(
self.tests_root,
self.rel_path,
self.url_base,
self.rel_url
)]
elif self.name_is_conformance_support:
rv = "support", [
SupportFile(
self.tests_root,
self.rel_path
)]
elif self.name_is_webdriver:
rv = WebDriverSpecTest.item_type, [
WebDriverSpecTest(
self.tests_root,
self.rel_path,
self.url_base,
self.rel_url,
timeout=self.timeout
)]
elif self.name_is_visual:
rv = VisualTest.item_type, [
VisualTest(
self.tests_root,
self.rel_path,
self.url_base,
self.rel_url
)]
elif self.name_is_crashtest:
rv = CrashTest.item_type, [
CrashTest(
self.tests_root,
self.rel_path,
self.url_base,
self.rel_url
)]
elif self.name_is_print_reftest:
references = self.references
if not references:
raise ValueError("%s detected as print reftest but doesn't have any refs" %
self.path)
rv = PrintRefTest.item_type, [
PrintRefTest(
self.tests_root,
self.rel_path,
self.url_base,
self.rel_url,
references=references,
timeout=self.timeout,
viewport_size=self.viewport_size,
fuzzy=self.fuzzy,
page_ranges=self.page_ranges,
)]
elif self.name_is_multi_global:
globals = ""
script_metadata = self.script_metadata
assert script_metadata is not None
for (key, value) in script_metadata:
if key == "global":
globals = value
break
tests: List[ManifestItem] = [
TestharnessTest(
self.tests_root,
self.rel_path,
self.url_base,
global_variant_url(self.rel_url, suffix) + variant,
timeout=self.timeout,
pac=self.pac,
jsshell=jsshell,
script_metadata=self.script_metadata
)
for (suffix, jsshell) in sorted(global_suffixes(globals))
for variant in self.test_variants
]
rv = TestharnessTest.item_type, tests
elif self.name_is_worker:
test_url = replace_end(self.rel_url, ".worker.js", ".worker.html")
tests = [
TestharnessTest(
self.tests_root,
self.rel_path,
self.url_base,
test_url + variant,
timeout=self.timeout,
pac=self.pac,
script_metadata=self.script_metadata
)
for variant in self.test_variants
]
rv = TestharnessTest.item_type, tests
elif self.name_is_window:
test_url = replace_end(self.rel_url, ".window.js", ".window.html")
tests = [
TestharnessTest(
self.tests_root,
self.rel_path,
self.url_base,
test_url + variant,
timeout=self.timeout,
pac=self.pac,
script_metadata=self.script_metadata
)
for variant in self.test_variants
]
rv = TestharnessTest.item_type, tests
elif self.content_is_css_manual and not self.name_is_reference:
rv = ManualTest.item_type, [
ManualTest(
self.tests_root,
self.rel_path,
self.url_base,
self.rel_url
)]
elif self.content_is_testharness:
rv = TestharnessTest.item_type, []
testdriver = self.has_testdriver
for variant in self.test_variants:
url = self.rel_url + variant
rv[1].append(TestharnessTest(
self.tests_root,
self.rel_path,
self.url_base,
url,
timeout=self.timeout,
pac=self.pac,
testdriver=testdriver,
script_metadata=self.script_metadata
))
elif self.content_is_ref_node:
rv = RefTest.item_type, []
for variant in self.test_variants:
url = self.rel_url + variant
rv[1].append(RefTest(
self.tests_root,
self.rel_path,
self.url_base,
url,
references=[
(ref[0] + variant, ref[1])
for ref in self.references
],
timeout=self.timeout,
viewport_size=self.viewport_size,
dpi=self.dpi,
fuzzy=self.fuzzy
))
elif self.content_is_css_visual and not self.name_is_reference:
rv = VisualTest.item_type, [
VisualTest(
self.tests_root,
self.rel_path,
self.url_base,
self.rel_url
)]
else:
rv = "support", [
SupportFile(
self.tests_root,
self.rel_path
)]
assert rv[0] in self.possible_types
assert len(rv[1]) == len(set(rv[1]))
self.items_cache = rv
if drop_cached and "__cached_properties__" in self.__dict__:
cached_properties = self.__dict__["__cached_properties__"]
for prop in cached_properties:
if prop in self.__dict__:
del self.__dict__[prop]
del self.__dict__["__cached_properties__"]
return rv
def manifest_spec_items(self) -> Optional[Tuple[Text, List[ManifestItem]]]:
specs = list(self.spec_links)
if not specs:
return None
rv: Tuple[Text, List[ManifestItem]] = (SpecItem.item_type, [
SpecItem(
self.tests_root,
self.rel_path,
specs
)])
return rv