tools/dom/scripts/mdnreader.py - sdk.git - Git at Google

 #!/usr/bin/env python3
 # Copyright (c) 2020, the Dart project authors.  Please see the AUTHORS file
 # for details. All rights reserved. Use of this source code is governed by a
 # BSD-style license that can be found in the LICENSE file.

 import json
 import os.path
 import re
 import sys

 _COMPAT_KEY = '__compat'
 _EXPERIMENTAL_KEY = 'experimental'
 _STATUS_KEY = 'status'
 _SUPPORT_KEY = 'support'
 _VERSION_ADDED_KEY = 'version_added'


 def _get_browser_compat_data():
     current_dir = os.path.dirname(__file__)

     browser_compat_folder = os.path.abspath(
         os.path.join(current_dir, '..', '..', '..', 'third_party', 'mdn',
                      'browser-compat-data', 'src'))

     if not os.path.exists(browser_compat_folder):
         raise RuntimeError('Browser compatibility data not found at %s' %
                            browser_compat_folder)

     browser_compat_data = {}

     INCLUDE_DIRS = [
         'api',
         'html',
         'svg',
         # TODO(srujzs): add more if needed
     ]

     # Transform to absolute paths
     INCLUDE_DIRS = [
         os.path.join(browser_compat_folder, dir) for dir in INCLUDE_DIRS
     ]

     def process_json_dict(json_dict):
         # Returns a tuple of the interface name and the metadata corresponding
         # to it.
         if 'api' in json_dict:
             # Get the interface name
             api_dict = json_dict['api']
             interface_name = next(iter(api_dict))
             return (interface_name, api_dict[interface_name])
         elif 'html' in json_dict:
             html_dict = json_dict['html']
             if 'elements' in html_dict:
                 elements_dict = html_dict['elements']
                 element_name = next(iter(elements_dict))
                 # Convert to WebCore name
                 interface = str('HTML' + element_name + 'Element')
                 return (interface, elements_dict[element_name])
         elif 'svg' in json_dict:
             svg_dict = json_dict['svg']
             if 'elements' in svg_dict:
                 elements_dict = svg_dict['elements']
                 element_name = next(iter(elements_dict))
                 # Convert to WebCore name
                 interface = str('SVG' + element_name + 'Element')
                 return (interface, elements_dict[element_name])
         return (None, None)

     # Attempts to unify two compatibility infos by taking the union of both, and
     # for conflicting information, taking the "stricter" of the two versions.
     # Updates `a` in place to represent the union of `a` and `b`.
     def _unify_compat(a, b):

         def _has_compat_data(metadata):
             return _COMPAT_KEY in metadata and _SUPPORT_KEY in metadata[_COMPAT_KEY]

         # Unifies the support statements of both metadata and updates
         # `support_a` in place. If either metadata do not contain simple support
         # statements, defaults attribute to not supported.
         def _unify_support(support_a, support_b):
             for browser in support_a.keys():
                 if browser in support_b:
                     if _is_simple_support_statement(support_a[browser]) and _is_simple_support_statement(support_b[browser]):
                         support_a[browser][_VERSION_ADDED_KEY] = _unify_versions(
                             support_a[browser][_VERSION_ADDED_KEY],
                             support_b[browser][_VERSION_ADDED_KEY])
                     else:
                         # Only support simple statements for now.
                         support_a[browser] = {_VERSION_ADDED_KEY: None}
             for browser in support_b.keys():
                 if not browser in support_a:
                     support_a[browser] = support_b[browser]

         if not _has_compat_data(b):
             return
         if not _has_compat_data(a):
             a[_COMPAT_KEY] = b[_COMPAT_KEY]
             return

         support_a = a[_COMPAT_KEY][_SUPPORT_KEY]
         support_b = b[_COMPAT_KEY][_SUPPORT_KEY]

         _unify_support(support_a, support_b)

     # Unifies any status info in the two metadata. Modifies `a` in place to
     # represent the union of both `a` and `b`.
     def _unify_status(a, b):

         def _has_status(metadata):
             return _COMPAT_KEY in metadata and _STATUS_KEY in metadata[_COMPAT_KEY]

         # Modifies `status_a` in place to combine "experimental" tags.
         def _unify_experimental(status_a, status_b):
             # If either of the statuses report experimental, assume attribute is
             # experimental.
             status_a[_EXPERIMENTAL_KEY] = status_a.get(
                 _EXPERIMENTAL_KEY, False) or status_b.get(_EXPERIMENTAL_KEY, False)

         if not _has_status(b):
             return
         if not _has_status(a):
             a[_COMPAT_KEY] = b[_COMPAT_KEY]
             return

         status_a = a[_COMPAT_KEY][_STATUS_KEY]
         status_b = b[_COMPAT_KEY][_STATUS_KEY]

         _unify_experimental(status_a, status_b)

     # If there exists multiple definitions of the same interface metadata e.g.
     # elements, this attempts to unify the compatibilities for the interface as
     # well as for each attribute.
     def _unify_metadata(a, b):
         # Unify the compatibility statement and status of the API or element.
         _unify_compat(a, b)
         _unify_status(a, b)
         # Unify the compatibility statement and status of each attribute.
         for attr in list(a.keys()):
             if attr == _COMPAT_KEY:
                 continue
             if attr in b:
                 _unify_compat(a[attr], b[attr])
                 _unify_status(a[attr], b[attr])
         for attr in b.keys():
             if not attr in a:
                 a[attr] = b[attr]

     for (dir_path, dirs, files) in os.walk(browser_compat_folder):

         def should_process_dir(dir_path):
             if os.path.abspath(dir_path) == browser_compat_folder:
                 return True
             for dir in INCLUDE_DIRS:
                 if dir_path.startswith(dir):
                     return True
             return False

         if should_process_dir(dir_path):
             for name in files:
                 file_name = os.path.join(dir_path, name)
                 (interface_path, ext) = os.path.splitext(file_name)
                 if ext == '.json':
                     with open(file_name) as src:
                         json_dict = json.load(src)
                         interface, metadata = process_json_dict(json_dict)
                         if not interface is None:
                             # Note: interface and member names do not
                             # necessarily have the same capitalization as
                             # WebCore, so we keep them all lowercase for easier
                             # matching later.
                             interface = interface.lower()
                             metadata = {
                                 member.lower(): info
                                 for member, info in metadata.items()
                             }

                             if interface in browser_compat_data:
                                 _unify_metadata(browser_compat_data[interface],
                                                 metadata)
                             else:
                                 browser_compat_data[interface] = metadata
         else:
             dirs[:] = []  # Do not go underneath

     return browser_compat_data


 # Given two version values for a given browser, chooses the more strict version.
 def _unify_versions(version_a, version_b):
     # Given two valid version strings, compares parts of the version string
     # iteratively.
     def _greater_version(version_a, version_b):
         version_a_split = list(map(int, version_a.split('.')))
         version_b_split = list(map(int, version_b.split('.')))
         for i in range(min(len(version_a_split), len(version_b_split))):
             if version_a_split[i] > version_b_split[i]:
                 return version_a
             elif version_a_split[i] < version_b_split[i]:
                 return version_b
         return version_a if len(version_a_split) > len(
             version_b_split) else version_b

     # Validate that we can handle the given version.
     def _validate_version(version):
         if not version:
             return False
         if version is True:
             return True
         if isinstance(version, str):
             pattern = re.compile('^([0-9]+\.)*[0-9]+$')
             if not pattern.match(version):
                 # It's possible for version strings to look like '<35'. We don't
                 # attempt to parse the conditional logic, and just default to
                 # potentially incompatible.
                 return None
             return version
         else:
             raise ValueError(
                 'Type of version_a was not handled correctly! type(version) = '
                 + str(type(version)))

     version_a = _validate_version(version_a)
     version_b = _validate_version(version_b)
     # If one version reports not supported, default to not supported.
     if not version_a or not version_b:
         return False
     # If one version reports always supported, the other version can only be
     # more strict.
     if version_a is True:
         return version_b
     if version_b is True:
         return version_a

     return _greater_version(version_a, version_b)


 # At this time, we only handle simple support statements due to the complexity
 # and variability around support statements with multiple elements.
 def _is_simple_support_statement(support_statement):
     if isinstance(support_statement, list):  # array_support_statement
         # TODO(srujzs): Parse this list to determine compatibility. Will
         # likely require parsing for 'version_removed' keys. Notes about
         # which browser version enabled this attribute for which
         # platform also complicates things. For now, we assume it's not
         # compatible.
         return False
     if len(support_statement.keys()) > 1:
         # If it's anything more complicated than 'version_added', like
         # 'notes' that specify platform versions, we assume it's not
         # compatible.
         return False
     return True


 class MDNReader(object):
     # Statically initialize and treat as constant.
     _BROWSER_COMPAT_DATA = _get_browser_compat_data()

     def __init__(self):
         self._compat_overrides = {}

     def _get_attr_compatibility(self, compat_data):
         # Parse schema syntax of MDN data:
         # https://github.com/mdn/browser-compat-data/blob/master/schemas/compat-data.schema.json

         # For now, we will require support for browsers since the last IDL roll.
         # TODO(srujzs): Determine if this is too conservative.
         browser_version_map = {
             'chrome': '63',
             'firefox': '57',
             'safari': '11',
             # We still support the latest version of IE.
             'ie': '11',
             'opera': '50',
         }
         for browser in browser_version_map.keys():
             support_data = compat_data[_SUPPORT_KEY]
             if browser not in support_data:
                 return False
             support_statement = support_data[browser]
             if not _is_simple_support_statement(support_statement):
                 return False
             version = support_statement[_VERSION_ADDED_KEY]
             # Compare version strings, target should be the more strict version.
             target = browser_version_map[browser]
             if _unify_versions(version, target) != target:
                 return False

             # If the attribute is experimental, we assume it's not compatible.
             status_data = compat_data[_STATUS_KEY]
             if _EXPERIMENTAL_KEY in status_data and status_data[_EXPERIMENTAL_KEY]:
                 return False
         return True

     def is_compatible(self, attribute):
         # Since capitalization isn't consistent across MDN and WebCore, we
         # compare lowercase equivalents for interface and attribute names.
         interface = attribute.doc_js_interface_name.lower()
         if interface in self._BROWSER_COMPAT_DATA and attribute.id and len(
                 attribute.id) > 0:
             interface_dict = self._BROWSER_COMPAT_DATA[interface]
             id_name = attribute.id.lower()
             secure_context_key = 'isSecureContext'
             if interface in self._compat_overrides and id_name in self._compat_overrides[
                     interface]:
                 return self._compat_overrides[interface][id_name]
             elif secure_context_key in interface_dict:
                 # If the interface requires a secure context, all attributes are
                 # implicitly incompatible.
                 return False
             elif id_name in interface_dict:
                 id_data = interface_dict[id_name]
                 return self._get_attr_compatibility(id_data[_COMPAT_KEY])
             else:
                 # Might be an attribute that is defined in a parent interface.
                 # We defer until attribute emitting to determine if this is the
                 # case. Otherwise, return None.
                 pass
         return None

     def set_compatible(self, attribute, compatible):
         # Override value in the MDN browser compatibility data.
         if not compatible in [True, False, None]:
             raise ValueError('Cannot set a non-boolean object for compatible')
         interface = attribute.doc_js_interface_name.lower()
         if not interface in self._compat_overrides:
             self._compat_overrides[interface] = {}
         if attribute.id and len(attribute.id) > 0:
             id_name = attribute.id.lower()
             self._compat_overrides[interface][id_name] = compatible
	#!/usr/bin/env python3
	# Copyright (c) 2020, the Dart project authors. Please see the AUTHORS file
	# for details. All rights reserved. Use of this source code is governed by a
	# BSD-style license that can be found in the LICENSE file.

	import json
	import os.path
	import re
	import sys

	_COMPAT_KEY = '__compat'
	_EXPERIMENTAL_KEY = 'experimental'
	_STATUS_KEY = 'status'
	_SUPPORT_KEY = 'support'
	_VERSION_ADDED_KEY = 'version_added'


	def _get_browser_compat_data():
	current_dir = os.path.dirname(__file__)

	browser_compat_folder = os.path.abspath(
	os.path.join(current_dir, '..', '..', '..', 'third_party', 'mdn',
	'browser-compat-data', 'src'))

	if not os.path.exists(browser_compat_folder):
	raise RuntimeError('Browser compatibility data not found at %s' %
	browser_compat_folder)

	browser_compat_data = {}

	INCLUDE_DIRS = [
	'api',
	'html',
	'svg',
	# TODO(srujzs): add more if needed
	]

	# Transform to absolute paths
	INCLUDE_DIRS = [
	os.path.join(browser_compat_folder, dir) for dir in INCLUDE_DIRS
	]

	def process_json_dict(json_dict):
	# Returns a tuple of the interface name and the metadata corresponding
	# to it.
	if 'api' in json_dict:
	# Get the interface name
	api_dict = json_dict['api']
	interface_name = next(iter(api_dict))
	return (interface_name, api_dict[interface_name])
	elif 'html' in json_dict:
	html_dict = json_dict['html']
	if 'elements' in html_dict:
	elements_dict = html_dict['elements']
	element_name = next(iter(elements_dict))
	# Convert to WebCore name
	interface = str('HTML' + element_name + 'Element')
	return (interface, elements_dict[element_name])
	elif 'svg' in json_dict:
	svg_dict = json_dict['svg']
	if 'elements' in svg_dict:
	elements_dict = svg_dict['elements']
	element_name = next(iter(elements_dict))
	# Convert to WebCore name
	interface = str('SVG' + element_name + 'Element')
	return (interface, elements_dict[element_name])
	return (None, None)

	# Attempts to unify two compatibility infos by taking the union of both, and
	# for conflicting information, taking the "stricter" of the two versions.
	# Updates `a` in place to represent the union of `a` and `b`.
	def _unify_compat(a, b):

	def _has_compat_data(metadata):
	return _COMPAT_KEY in metadata and _SUPPORT_KEY in metadata[_COMPAT_KEY]

	# Unifies the support statements of both metadata and updates
	# `support_a` in place. If either metadata do not contain simple support
	# statements, defaults attribute to not supported.
	def _unify_support(support_a, support_b):
	for browser in support_a.keys():
	if browser in support_b:
	if _is_simple_support_statement(support_a[browser]) and _is_simple_support_statement(support_b[browser]):
	support_a[browser][_VERSION_ADDED_KEY] = _unify_versions(
	support_a[browser][_VERSION_ADDED_KEY],
	support_b[browser][_VERSION_ADDED_KEY])
	else:
	# Only support simple statements for now.
	support_a[browser] = {_VERSION_ADDED_KEY: None}
	for browser in support_b.keys():
	if not browser in support_a:
	support_a[browser] = support_b[browser]

	if not _has_compat_data(b):
	return
	if not _has_compat_data(a):
	a[_COMPAT_KEY] = b[_COMPAT_KEY]
	return

	support_a = a[_COMPAT_KEY][_SUPPORT_KEY]
	support_b = b[_COMPAT_KEY][_SUPPORT_KEY]

	_unify_support(support_a, support_b)

	# Unifies any status info in the two metadata. Modifies `a` in place to
	# represent the union of both `a` and `b`.
	def _unify_status(a, b):

	def _has_status(metadata):
	return _COMPAT_KEY in metadata and _STATUS_KEY in metadata[_COMPAT_KEY]

	# Modifies `status_a` in place to combine "experimental" tags.
	def _unify_experimental(status_a, status_b):
	# If either of the statuses report experimental, assume attribute is
	# experimental.
	status_a[_EXPERIMENTAL_KEY] = status_a.get(
	_EXPERIMENTAL_KEY, False) or status_b.get(_EXPERIMENTAL_KEY, False)

	if not _has_status(b):
	return
	if not _has_status(a):
	a[_COMPAT_KEY] = b[_COMPAT_KEY]
	return

	status_a = a[_COMPAT_KEY][_STATUS_KEY]
	status_b = b[_COMPAT_KEY][_STATUS_KEY]

	_unify_experimental(status_a, status_b)

	# If there exists multiple definitions of the same interface metadata e.g.
	# elements, this attempts to unify the compatibilities for the interface as
	# well as for each attribute.
	def _unify_metadata(a, b):
	# Unify the compatibility statement and status of the API or element.
	_unify_compat(a, b)
	_unify_status(a, b)
	# Unify the compatibility statement and status of each attribute.
	for attr in list(a.keys()):
	if attr == _COMPAT_KEY:
	continue
	if attr in b:
	_unify_compat(a[attr], b[attr])
	_unify_status(a[attr], b[attr])
	for attr in b.keys():
	if not attr in a:
	a[attr] = b[attr]

	for (dir_path, dirs, files) in os.walk(browser_compat_folder):

	def should_process_dir(dir_path):
	if os.path.abspath(dir_path) == browser_compat_folder:
	return True
	for dir in INCLUDE_DIRS:
	if dir_path.startswith(dir):
	return True
	return False

	if should_process_dir(dir_path):
	for name in files:
	file_name = os.path.join(dir_path, name)
	(interface_path, ext) = os.path.splitext(file_name)
	if ext == '.json':
	with open(file_name) as src:
	json_dict = json.load(src)
	interface, metadata = process_json_dict(json_dict)
	if not interface is None:
	# Note: interface and member names do not
	# necessarily have the same capitalization as
	# WebCore, so we keep them all lowercase for easier
	# matching later.
	interface = interface.lower()
	metadata = {
	member.lower(): info
	for member, info in metadata.items()
	}

	if interface in browser_compat_data:
	_unify_metadata(browser_compat_data[interface],
	metadata)
	else:
	browser_compat_data[interface] = metadata
	else:
	dirs[:] = [] # Do not go underneath

	return browser_compat_data


	# Given two version values for a given browser, chooses the more strict version.
	def _unify_versions(version_a, version_b):
	# Given two valid version strings, compares parts of the version string
	# iteratively.
	def _greater_version(version_a, version_b):
	version_a_split = list(map(int, version_a.split('.')))
	version_b_split = list(map(int, version_b.split('.')))
	for i in range(min(len(version_a_split), len(version_b_split))):
	if version_a_split[i] > version_b_split[i]:
	return version_a
	elif version_a_split[i] < version_b_split[i]:
	return version_b
	return version_a if len(version_a_split) > len(
	version_b_split) else version_b

	# Validate that we can handle the given version.
	def _validate_version(version):
	if not version:
	return False
	if version is True:
	return True
	if isinstance(version, str):
	pattern = re.compile('^([0-9]+\.)*[0-9]+$')
	if not pattern.match(version):
	# It's possible for version strings to look like '<35'. We don't
	# attempt to parse the conditional logic, and just default to
	# potentially incompatible.
	return None
	return version
	else:
	raise ValueError(
	'Type of version_a was not handled correctly! type(version) = '
	+ str(type(version)))

	version_a = _validate_version(version_a)
	version_b = _validate_version(version_b)
	# If one version reports not supported, default to not supported.
	if not version_a or not version_b:
	return False
	# If one version reports always supported, the other version can only be
	# more strict.
	if version_a is True:
	return version_b
	if version_b is True:
	return version_a

	return _greater_version(version_a, version_b)


	# At this time, we only handle simple support statements due to the complexity
	# and variability around support statements with multiple elements.
	def _is_simple_support_statement(support_statement):
	if isinstance(support_statement, list): # array_support_statement
	# TODO(srujzs): Parse this list to determine compatibility. Will
	# likely require parsing for 'version_removed' keys. Notes about
	# which browser version enabled this attribute for which
	# platform also complicates things. For now, we assume it's not
	# compatible.
	return False
	if len(support_statement.keys()) > 1:
	# If it's anything more complicated than 'version_added', like
	# 'notes' that specify platform versions, we assume it's not
	# compatible.
	return False
	return True


	class MDNReader(object):
	# Statically initialize and treat as constant.
	_BROWSER_COMPAT_DATA = _get_browser_compat_data()

	def __init__(self):
	self._compat_overrides = {}

	def _get_attr_compatibility(self, compat_data):
	# Parse schema syntax of MDN data:
	# https://github.com/mdn/browser-compat-data/blob/master/schemas/compat-data.schema.json

	# For now, we will require support for browsers since the last IDL roll.
	# TODO(srujzs): Determine if this is too conservative.
	browser_version_map = {
	'chrome': '63',
	'firefox': '57',
	'safari': '11',
	# We still support the latest version of IE.
	'ie': '11',
	'opera': '50',
	}
	for browser in browser_version_map.keys():
	support_data = compat_data[_SUPPORT_KEY]
	if browser not in support_data:
	return False
	support_statement = support_data[browser]
	if not _is_simple_support_statement(support_statement):
	return False
	version = support_statement[_VERSION_ADDED_KEY]
	# Compare version strings, target should be the more strict version.
	target = browser_version_map[browser]
	if _unify_versions(version, target) != target:
	return False

	# If the attribute is experimental, we assume it's not compatible.
	status_data = compat_data[_STATUS_KEY]
	if _EXPERIMENTAL_KEY in status_data and status_data[_EXPERIMENTAL_KEY]:
	return False
	return True

	def is_compatible(self, attribute):
	# Since capitalization isn't consistent across MDN and WebCore, we
	# compare lowercase equivalents for interface and attribute names.
	interface = attribute.doc_js_interface_name.lower()
	if interface in self._BROWSER_COMPAT_DATA and attribute.id and len(
	attribute.id) > 0:
	interface_dict = self._BROWSER_COMPAT_DATA[interface]
	id_name = attribute.id.lower()
	secure_context_key = 'isSecureContext'
	if interface in self._compat_overrides and id_name in self._compat_overrides[
	interface]:
	return self._compat_overrides[interface][id_name]
	elif secure_context_key in interface_dict:
	# If the interface requires a secure context, all attributes are
	# implicitly incompatible.
	return False
	elif id_name in interface_dict:
	id_data = interface_dict[id_name]
	return self._get_attr_compatibility(id_data[_COMPAT_KEY])
	else:
	# Might be an attribute that is defined in a parent interface.
	# We defer until attribute emitting to determine if this is the
	# case. Otherwise, return None.
	pass
	return None

	def set_compatible(self, attribute, compatible):
	# Override value in the MDN browser compatibility data.
	if not compatible in [True, False, None]:
	raise ValueError('Cannot set a non-boolean object for compatible')
	interface = attribute.doc_js_interface_name.lower()
	if not interface in self._compat_overrides:
	self._compat_overrides[interface] = {}
	if attribute.id and len(attribute.id) > 0:
	id_name = attribute.id.lower()
	self._compat_overrides[interface][id_name] = compatible