third_party/web_platform_tests/tools/wptrunner/wptrunner/wptmanifest/backends/conditional.py - cobalt - Git at Google

 import operator

 from ..node import NodeVisitor, DataNode, ConditionalNode, KeyValueNode, ListNode, ValueNode
 from ..parser import parse


 class ConditionalValue(object):
     def __init__(self, node, condition_func):
         self.node = node
         self.condition_func = condition_func
         if isinstance(node, ConditionalNode):
             assert len(node.children) == 2
             self.condition_node = self.node.children[0]
             self.value_node = self.node.children[1]
         else:
             assert isinstance(node, (ValueNode, ListNode))
             self.condition_node = None
             self.value_node = self.node

     @property
     def value(self):
         if isinstance(self.value_node, ValueNode):
             return self.value_node.data
         else:
             return [item.data for item in self.value_node.children]

     @value.setter
     def value(self, value):
         self.value_node.data = value

     def __call__(self, run_info):
         return self.condition_func(run_info)

     def set_value(self, value):
         self.value = value

     def remove(self):
         if len(self.node.parent.children) == 1:
             self.node.parent.remove()
         self.node.remove()


 class Compiler(NodeVisitor):
     def compile(self, tree, data_cls_getter=None, **kwargs):
         """Compile a raw AST into a form where conditional expressions
         are represented by ConditionalValue objects that can be evaluated
         at runtime.

         tree - The root node of the wptmanifest AST to compile

         data_cls_getter - A function taking two parameters; the previous
                           output node and the current ast node and returning
                           the class of the output node to use for the current
                           ast node
         """
         if data_cls_getter is None:
             self.data_cls_getter = lambda x, y: ManifestItem
         else:
             self.data_cls_getter = data_cls_getter

         self.tree = tree
         self.output_node = self._initial_output_node(tree, **kwargs)
         self.visit(tree)
         assert self.output_node is not None
         return self.output_node

     def compile_condition(self, condition):
         """Compile a ConditionalNode into a ConditionalValue.

         condition: A ConditionalNode"""
         data_node = DataNode()
         key_value_node = KeyValueNode()
         key_value_node.append(condition.copy())
         data_node.append(key_value_node)
         manifest_item = self.compile(data_node)
         return manifest_item._data[None][0]

     def _initial_output_node(self, node, **kwargs):
         return self.data_cls_getter(None, None)(node, **kwargs)

     def visit_DataNode(self, node):
         if node != self.tree:
             output_parent = self.output_node
             self.output_node = self.data_cls_getter(self.output_node, node)(node)
         else:
             output_parent = None

         assert self.output_node is not None

         for child in node.children:
             self.visit(child)

         if output_parent is not None:
             # Append to the parent *after* processing all the node data
             output_parent.append(self.output_node)
             self.output_node = self.output_node.parent

         assert self.output_node is not None

     def visit_KeyValueNode(self, node):
         key_values = []
         for child in node.children:
             condition, value = self.visit(child)
             key_values.append(ConditionalValue(child, condition))

         self.output_node._add_key_value(node, key_values)

     def visit_ListNode(self, node):
         return (lambda x:True, [self.visit(child) for child in node.children])

     def visit_ValueNode(self, node):
         return (lambda x: True, node.data)

     def visit_AtomNode(self, node):
         return (lambda x: True, node.data)

     def visit_ConditionalNode(self, node):
         return self.visit(node.children[0]), self.visit(node.children[1])

     def visit_StringNode(self, node):
         indexes = [self.visit(child) for child in node.children]

         def value(x):
             rv = node.data
             for index in indexes:
                 rv = rv[index(x)]
             return rv
         return value

     def visit_NumberNode(self, node):
         if "." in node.data:
             return lambda x: float(node.data)
         else:
             return lambda x: int(node.data)

     def visit_VariableNode(self, node):
         indexes = [self.visit(child) for child in node.children]

         def value(x):
             data = x[node.data]
             for index in indexes:
                 data = data[index(x)]
             return data
         return value

     def visit_IndexNode(self, node):
         assert len(node.children) == 1
         return self.visit(node.children[0])

     def visit_UnaryExpressionNode(self, node):
         assert len(node.children) == 2
         operator = self.visit(node.children[0])
         operand = self.visit(node.children[1])

         return lambda x: operator(operand(x))

     def visit_BinaryExpressionNode(self, node):
         assert len(node.children) == 3
         operator = self.visit(node.children[0])
         operand_0 = self.visit(node.children[1])
         operand_1 = self.visit(node.children[2])

         assert operand_0 is not None
         assert operand_1 is not None

         return lambda x: operator(operand_0(x), operand_1(x))

     def visit_UnaryOperatorNode(self, node):
         return {"not": operator.not_}[node.data]

     def visit_BinaryOperatorNode(self, node):
         return {"and": operator.and_,
                 "or": operator.or_,
                 "==": operator.eq,
                 "!=": operator.ne}[node.data]


 class ManifestItem(object):
     def __init__(self, node=None, **kwargs):
         self.node = node
         self.parent = None
         self.children = []
         self._data = {}

     def __repr__(self):
         return "<ManifestItem %s>" % (self.node.data)

     def __str__(self):
         rv = [repr(self)]
         for item in self.children:
             rv.extend("  %s" % line for line in str(item).split("\n"))
         return "\n".join(rv)

     def __contains__(self, key):
         return key in self._data

     @property
     def is_empty(self):
         if self._data:
             return False
         return all(child.is_empty for child in self.children)

     @property
     def root(self):
         node = self
         while node.parent is not None:
             node = node.parent
         return node

     @property
     def name(self):
         return self.node.data

     def has_key(self, key):
         for node in [self, self.root]:
             if key in node._data:
                 return True
         return False

     def get(self, key, run_info=None):
         if run_info is None:
             run_info = {}

         for node in [self, self.root]:
             if key in node._data:
                 for cond_value in node._data[key]:
                     try:
                         matches = cond_value(run_info)
                     except KeyError:
                         matches = False
                     if matches:
                         return cond_value.value
         raise KeyError

     def set(self, key, value, condition=None):
         # First try to update the existing value
         if key in self._data:
             cond_values = self._data[key]
             for cond_value in cond_values:
                 if cond_value.condition_node == condition:
                     cond_value.value = value
                     return
             # If there isn't a conditional match reuse the existing KeyValueNode as the
             # parent
             node = None
             for child in self.node.children:
                 if child.data == key:
                     node = child
                     break
             assert node is not None

         else:
             node = KeyValueNode(key)
             self.node.append(node)

         value_node = ValueNode(value)
         if condition is not None:
             conditional_node = ConditionalNode()
             conditional_node.append(condition)
             conditional_node.append(value_node)
             node.append(conditional_node)
             cond_value = Compiler().compile_condition(conditional_node)
         else:
             node.append(value_node)
             cond_value = ConditionalValue(value_node, lambda x: True)

         # Update the cache of child values. This is pretty annoying and maybe
         # it should just work directly on the tree
         if key not in self._data:
             self._data[key] = []
         if self._data[key] and self._data[key][-1].condition_node is None:
             self._data[key].insert(len(self._data[key]) - 1, cond_value)
         else:
             self._data[key].append(cond_value)

     def _add_key_value(self, node, values):
         """Called during construction to set a key-value node"""
         self._data[node.data] = values

     def append(self, child):
         self.children.append(child)
         child.parent = self
         if child.node.parent != self.node:
             self.node.append(child.node)
         return child

     def remove(self):
         if self.parent:
             self.parent._remove_child(self)

     def _remove_child(self, child):
         self.children.remove(child)
         child.parent = None

     def iterchildren(self, name=None):
         for item in self.children:
             if item.name == name or name is None:
                 yield item

     def _flatten(self):
         rv = {}
         for node in [self, self.root]:
             for name, value in node._data.iteritems():
                 if name not in rv:
                     rv[name] = value
         return rv

     def iteritems(self):
         for item in self._flatten().iteritems():
             yield item

     def iterkeys(self):
         for item in self._flatten().iterkeys():
             yield item

     def remove_value(self, key, value):
         self._data[key].remove(value)
         if not self._data[key]:
             del self._data[key]
         value.remove()


 def compile_ast(ast, data_cls_getter=None, **kwargs):
     return Compiler().compile(ast, data_cls_getter=data_cls_getter, **kwargs)


 def compile(stream, data_cls_getter=None, **kwargs):
     return compile_ast(parse(stream),
                        data_cls_getter=data_cls_getter,
                        **kwargs)
	import operator

	from ..node import NodeVisitor, DataNode, ConditionalNode, KeyValueNode, ListNode, ValueNode
	from ..parser import parse


	class ConditionalValue(object):
	def __init__(self, node, condition_func):
	self.node = node
	self.condition_func = condition_func
	if isinstance(node, ConditionalNode):
	assert len(node.children) == 2
	self.condition_node = self.node.children[0]
	self.value_node = self.node.children[1]
	else:
	assert isinstance(node, (ValueNode, ListNode))
	self.condition_node = None
	self.value_node = self.node

	@property
	def value(self):
	if isinstance(self.value_node, ValueNode):
	return self.value_node.data
	else:
	return [item.data for item in self.value_node.children]

	@value.setter
	def value(self, value):
	self.value_node.data = value

	def __call__(self, run_info):
	return self.condition_func(run_info)

	def set_value(self, value):
	self.value = value

	def remove(self):
	if len(self.node.parent.children) == 1:
	self.node.parent.remove()
	self.node.remove()


	class Compiler(NodeVisitor):
	def compile(self, tree, data_cls_getter=None, **kwargs):
	"""Compile a raw AST into a form where conditional expressions
	are represented by ConditionalValue objects that can be evaluated
	at runtime.

	tree - The root node of the wptmanifest AST to compile

	data_cls_getter - A function taking two parameters; the previous
	output node and the current ast node and returning
	the class of the output node to use for the current
	ast node
	"""
	if data_cls_getter is None:
	self.data_cls_getter = lambda x, y: ManifestItem
	else:
	self.data_cls_getter = data_cls_getter

	self.tree = tree
	self.output_node = self._initial_output_node(tree, **kwargs)
	self.visit(tree)
	assert self.output_node is not None
	return self.output_node

	def compile_condition(self, condition):
	"""Compile a ConditionalNode into a ConditionalValue.

	condition: A ConditionalNode"""
	data_node = DataNode()
	key_value_node = KeyValueNode()
	key_value_node.append(condition.copy())
	data_node.append(key_value_node)
	manifest_item = self.compile(data_node)
	return manifest_item._data[None][0]

	def _initial_output_node(self, node, **kwargs):
	return self.data_cls_getter(None, None)(node, **kwargs)

	def visit_DataNode(self, node):
	if node != self.tree:
	output_parent = self.output_node
	self.output_node = self.data_cls_getter(self.output_node, node)(node)
	else:
	output_parent = None

	assert self.output_node is not None

	for child in node.children:
	self.visit(child)

	if output_parent is not None:
	# Append to the parent after processing all the node data
	output_parent.append(self.output_node)
	self.output_node = self.output_node.parent

	assert self.output_node is not None

	def visit_KeyValueNode(self, node):
	key_values = []
	for child in node.children:
	condition, value = self.visit(child)
	key_values.append(ConditionalValue(child, condition))

	self.output_node._add_key_value(node, key_values)

	def visit_ListNode(self, node):
	return (lambda x:True, [self.visit(child) for child in node.children])

	def visit_ValueNode(self, node):
	return (lambda x: True, node.data)

	def visit_AtomNode(self, node):
	return (lambda x: True, node.data)

	def visit_ConditionalNode(self, node):
	return self.visit(node.children[0]), self.visit(node.children[1])

	def visit_StringNode(self, node):
	indexes = [self.visit(child) for child in node.children]

	def value(x):
	rv = node.data
	for index in indexes:
	rv = rv[index(x)]
	return rv
	return value

	def visit_NumberNode(self, node):
	if "." in node.data:
	return lambda x: float(node.data)
	else:
	return lambda x: int(node.data)

	def visit_VariableNode(self, node):
	indexes = [self.visit(child) for child in node.children]

	def value(x):
	data = x[node.data]
	for index in indexes:
	data = data[index(x)]
	return data
	return value

	def visit_IndexNode(self, node):
	assert len(node.children) == 1
	return self.visit(node.children[0])

	def visit_UnaryExpressionNode(self, node):
	assert len(node.children) == 2
	operator = self.visit(node.children[0])
	operand = self.visit(node.children[1])

	return lambda x: operator(operand(x))

	def visit_BinaryExpressionNode(self, node):
	assert len(node.children) == 3
	operator = self.visit(node.children[0])
	operand_0 = self.visit(node.children[1])
	operand_1 = self.visit(node.children[2])

	assert operand_0 is not None
	assert operand_1 is not None

	return lambda x: operator(operand_0(x), operand_1(x))

	def visit_UnaryOperatorNode(self, node):
	return {"not": operator.not_}[node.data]

	def visit_BinaryOperatorNode(self, node):
	return {"and": operator.and_,
	"or": operator.or_,
	"==": operator.eq,
	"!=": operator.ne}[node.data]


	class ManifestItem(object):
	def __init__(self, node=None, **kwargs):
	self.node = node
	self.parent = None
	self.children = []
	self._data = {}

	def __repr__(self):
	return "<ManifestItem %s>" % (self.node.data)

	def __str__(self):
	rv = [repr(self)]
	for item in self.children:
	rv.extend(" %s" % line for line in str(item).split("\n"))
	return "\n".join(rv)

	def __contains__(self, key):
	return key in self._data

	@property
	def is_empty(self):
	if self._data:
	return False
	return all(child.is_empty for child in self.children)

	@property
	def root(self):
	node = self
	while node.parent is not None:
	node = node.parent
	return node

	@property
	def name(self):
	return self.node.data

	def has_key(self, key):
	for node in [self, self.root]:
	if key in node._data:
	return True
	return False

	def get(self, key, run_info=None):
	if run_info is None:
	run_info = {}

	for node in [self, self.root]:
	if key in node._data:
	for cond_value in node._data[key]:
	try:
	matches = cond_value(run_info)
	except KeyError:
	matches = False
	if matches:
	return cond_value.value
	raise KeyError

	def set(self, key, value, condition=None):
	# First try to update the existing value
	if key in self._data:
	cond_values = self._data[key]
	for cond_value in cond_values:
	if cond_value.condition_node == condition:
	cond_value.value = value
	return
	# If there isn't a conditional match reuse the existing KeyValueNode as the
	# parent
	node = None
	for child in self.node.children:
	if child.data == key:
	node = child
	break
	assert node is not None

	else:
	node = KeyValueNode(key)
	self.node.append(node)

	value_node = ValueNode(value)
	if condition is not None:
	conditional_node = ConditionalNode()
	conditional_node.append(condition)
	conditional_node.append(value_node)
	node.append(conditional_node)
	cond_value = Compiler().compile_condition(conditional_node)
	else:
	node.append(value_node)
	cond_value = ConditionalValue(value_node, lambda x: True)

	# Update the cache of child values. This is pretty annoying and maybe
	# it should just work directly on the tree
	if key not in self._data:
	self._data[key] = []
	if self._data[key] and self._data[key][-1].condition_node is None:
	self._data[key].insert(len(self._data[key]) - 1, cond_value)
	else:
	self._data[key].append(cond_value)

	def _add_key_value(self, node, values):
	"""Called during construction to set a key-value node"""
	self._data[node.data] = values

	def append(self, child):
	self.children.append(child)
	child.parent = self
	if child.node.parent != self.node:
	self.node.append(child.node)
	return child

	def remove(self):
	if self.parent:
	self.parent._remove_child(self)

	def _remove_child(self, child):
	self.children.remove(child)
	child.parent = None

	def iterchildren(self, name=None):
	for item in self.children:
	if item.name == name or name is None:
	yield item

	def _flatten(self):
	rv = {}
	for node in [self, self.root]:
	for name, value in node._data.iteritems():
	if name not in rv:
	rv[name] = value
	return rv

	def iteritems(self):
	for item in self._flatten().iteritems():
	yield item

	def iterkeys(self):
	for item in self._flatten().iterkeys():
	yield item

	def remove_value(self, key, value):
	self._data[key].remove(value)
	if not self._data[key]:
	del self._data[key]
	value.remove()


	def compile_ast(ast, data_cls_getter=None, **kwargs):
	return Compiler().compile(ast, data_cls_getter=data_cls_getter, **kwargs)


	def compile(stream, data_cls_getter=None, **kwargs):
	return compile_ast(parse(stream),
	data_cls_getter=data_cls_getter,
	**kwargs)