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gecko-dev/dom/bindings/Codegen.py

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# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this file,
# You can obtain one at http://mozilla.org/MPL/2.0/.
# Common codegen classes.
import os
import re
import string
import math
import textwrap
import functools
from WebIDL import BuiltinTypes, IDLBuiltinType, IDLNullValue, IDLSequenceType, IDLType, IDLAttribute, IDLInterfaceMember, IDLUndefinedValue, IDLEmptySequenceValue, IDLDictionary
from Configuration import NoSuchDescriptorError, getTypesFromDescriptor, getTypesFromDictionary, getTypesFromCallback, getAllTypes, Descriptor, MemberIsUnforgeable, iteratorNativeType
AUTOGENERATED_WARNING_COMMENT = \
"/* THIS FILE IS AUTOGENERATED BY Codegen.py - DO NOT EDIT */\n\n"
AUTOGENERATED_WITH_SOURCE_WARNING_COMMENT = \
"/* THIS FILE IS AUTOGENERATED FROM %s BY Codegen.py - DO NOT EDIT */\n\n"
ADDPROPERTY_HOOK_NAME = '_addProperty'
FINALIZE_HOOK_NAME = '_finalize'
OBJECT_MOVED_HOOK_NAME = '_objectMoved'
CONSTRUCT_HOOK_NAME = '_constructor'
LEGACYCALLER_HOOK_NAME = '_legacycaller'
HASINSTANCE_HOOK_NAME = '_hasInstance'
RESOLVE_HOOK_NAME = '_resolve'
MAY_RESOLVE_HOOK_NAME = '_mayResolve'
ENUMERATE_HOOK_NAME = '_enumerate'
ENUM_ENTRY_VARIABLE_NAME = 'strings'
INSTANCE_RESERVED_SLOTS = 1
def memberReservedSlot(member, descriptor):
return ("(DOM_INSTANCE_RESERVED_SLOTS + %d)" %
member.slotIndices[descriptor.interface.identifier.name])
def toStringBool(arg):
return str(not not arg).lower()
def toBindingNamespace(arg):
return arg + "Binding"
def isTypeCopyConstructible(type):
# Nullable and sequence stuff doesn't affect copy-constructibility
type = type.unroll()
return (type.isPrimitive() or type.isString() or type.isEnum() or
(type.isUnion() and
CGUnionStruct.isUnionCopyConstructible(type)) or
(type.isDictionary() and
CGDictionary.isDictionaryCopyConstructible(type.inner)) or
# Interface types are only copy-constructible if they're Gecko
# interfaces. SpiderMonkey interfaces are not copy-constructible
# because of rooting issues.
(type.isInterface() and type.isGeckoInterface()))
def idlTypeNeedsCycleCollection(type):
type = type.unroll() # Takes care of sequences and nullables
if ((type.isPrimitive() and type.tag() in builtinNames) or
type.isEnum() or
type.isString() or
type.isAny() or
type.isObject() or
type.isSpiderMonkeyInterface()):
return False
elif type.isCallback() or type.isGeckoInterface():
return True
elif type.isUnion():
return any(idlTypeNeedsCycleCollection(t) for t in type.flatMemberTypes)
elif type.isMozMap():
if idlTypeNeedsCycleCollection(type.inner):
raise TypeError("Cycle collection for type %s is not supported" % type)
return False
elif type.isDictionary():
if any(idlTypeNeedsCycleCollection(m.type) for m in type.inner.members):
raise TypeError("Cycle collection for type %s is not supported" % type)
return False
else:
raise TypeError("Don't know whether to cycle-collect type %s" % type)
def wantsAddProperty(desc):
return (desc.concrete and desc.wrapperCache and not desc.isGlobal())
# We'll want to insert the indent at the beginnings of lines, but we
# don't want to indent empty lines. So only indent lines that have a
# non-newline character on them.
lineStartDetector = re.compile("^(?=[^\n#])", re.MULTILINE)
def indent(s, indentLevel=2):
"""
Indent C++ code.
Weird secret feature: this doesn't indent lines that start with # (such as
#include lines or #ifdef/#endif).
"""
if s == "":
return s
return re.sub(lineStartDetector, indentLevel * " ", s)
# dedent() and fill() are often called on the same string multiple
# times. We want to memoize their return values so we don't keep
# recomputing them all the time.
def memoize(fn):
"""
Decorator to memoize a function of one argument. The cache just
grows without bound.
"""
cache = {}
@functools.wraps(fn)
def wrapper(arg):
retval = cache.get(arg)
if retval is None:
retval = cache[arg] = fn(arg)
return retval
return wrapper
@memoize
def dedent(s):
"""
Remove all leading whitespace from s, and remove a blank line
at the beginning.
"""
if s.startswith('\n'):
s = s[1:]
return textwrap.dedent(s)
# This works by transforming the fill()-template to an equivalent
# string.Template.
fill_multiline_substitution_re = re.compile(r"( *)\$\*{(\w+)}(\n)?")
find_substitutions = re.compile(r"\${")
@memoize
def compile_fill_template(template):
"""
Helper function for fill(). Given the template string passed to fill(),
do the reusable part of template processing and return a pair (t,
argModList) that can be used every time fill() is called with that
template argument.
argsModList is list of tuples that represent modifications to be
made to args. Each modification has, in order: i) the arg name,
ii) the modified name, iii) the indent depth.
"""
t = dedent(template)
assert t.endswith("\n") or "\n" not in t
argModList = []
def replace(match):
"""
Replaces a line like ' $*{xyz}\n' with '${xyz_n}',
where n is the indent depth, and add a corresponding entry to
argModList.
Note that this needs to close over argModList, so it has to be
defined inside compile_fill_template().
"""
indentation, name, nl = match.groups()
depth = len(indentation)
# Check that $*{xyz} appears by itself on a line.
prev = match.string[:match.start()]
if (prev and not prev.endswith("\n")) or nl is None:
raise ValueError("Invalid fill() template: $*{%s} must appear by itself on a line" % name)
# Now replace this whole line of template with the indented equivalent.
modified_name = name + "_" + str(depth)
argModList.append((name, modified_name, depth))
return "${" + modified_name + "}"
t = re.sub(fill_multiline_substitution_re, replace, t)
if not re.search(find_substitutions, t):
raise TypeError("Using fill() when dedent() would do.")
return (string.Template(t), argModList)
def fill(template, **args):
"""
Convenience function for filling in a multiline template.
`fill(template, name1=v1, name2=v2)` is a lot like
`string.Template(template).substitute({"name1": v1, "name2": v2})`.
However, it's shorter, and has a few nice features:
* If `template` is indented, fill() automatically dedents it!
This makes code using fill() with Python's multiline strings
much nicer to look at.
* If `template` starts with a blank line, fill() strips it off.
(Again, convenient with multiline strings.)
* fill() recognizes a special kind of substitution
of the form `$*{name}`.
Use this to paste in, and automatically indent, multiple lines.
(Mnemonic: The `*` is for "multiple lines").
A `$*` substitution must appear by itself on a line, with optional
preceding indentation (spaces only). The whole line is replaced by the
corresponding keyword argument, indented appropriately. If the
argument is an empty string, no output is generated, not even a blank
line.
"""
t, argModList = compile_fill_template(template)
# Now apply argModList to args
for (name, modified_name, depth) in argModList:
if not (args[name] == "" or args[name].endswith("\n")):
raise ValueError("Argument %s with value %r is missing a newline" % (name, args[name]))
args[modified_name] = indent(args[name], depth)
return t.substitute(args)
class CGThing():
"""
Abstract base class for things that spit out code.
"""
def __init__(self):
pass # Nothing for now
def declare(self):
"""Produce code for a header file."""
assert False # Override me!
def define(self):
"""Produce code for a cpp file."""
assert False # Override me!
def deps(self):
"""Produce the deps for a pp file"""
assert False # Override me!
class CGStringTable(CGThing):
"""
Generate a string table for the given strings with a function accessor:
const char *accessorName(unsigned int index) {
static const char table[] = "...";
static const uint16_t indices = { ... };
return &table[indices[index]];
}
This is more efficient than the more natural:
const char *table[] = {
...
};
The uint16_t indices are smaller than the pointer equivalents, and the
string table requires no runtime relocations.
"""
def __init__(self, accessorName, strings):
CGThing.__init__(self)
self.accessorName = accessorName
self.strings = strings
def declare(self):
return "extern const char *%s(unsigned int aIndex);\n" % self.accessorName
def define(self):
table = ' "\\0" '.join('"%s"' % s for s in self.strings)
indices = []
currentIndex = 0
for s in self.strings:
indices.append(currentIndex)
currentIndex += len(s) + 1 # for the null terminator
return fill(
"""
const char *${name}(unsigned int aIndex)
{
static const char table[] = ${table};
static const uint16_t indices[] = { ${indices} };
static_assert(${currentIndex} <= UINT16_MAX, "string table overflow!");
return &table[indices[aIndex]];
}
""",
name=self.accessorName,
table=table,
indices=", ".join("%d" % index for index in indices),
currentIndex=currentIndex)
class CGNativePropertyHooks(CGThing):
"""
Generate a NativePropertyHooks for a given descriptor
"""
def __init__(self, descriptor, properties):
CGThing.__init__(self)
self.descriptor = descriptor
self.properties = properties
def declare(self):
if not self.descriptor.wantsXrays:
return ""
return dedent("""
// We declare this as an array so that retrieving a pointer to this
// binding's property hooks only requires compile/link-time resolvable
// address arithmetic. Declaring it as a pointer instead would require
// doing a run-time load to fetch a pointer to this binding's property
// hooks. And then structures which embedded a pointer to this structure
// would require a run-time load for proper initialization, which would
// then induce static constructors. Lots of static constructors.
extern const NativePropertyHooks sNativePropertyHooks[];
""")
def define(self):
if not self.descriptor.wantsXrays:
return ""
if self.descriptor.concrete and self.descriptor.proxy:
resolveOwnProperty = "ResolveOwnProperty"
enumerateOwnProperties = "EnumerateOwnProperties"
elif self.descriptor.needsXrayResolveHooks():
resolveOwnProperty = "ResolveOwnPropertyViaResolve"
enumerateOwnProperties = "EnumerateOwnPropertiesViaGetOwnPropertyNames"
else:
resolveOwnProperty = "nullptr"
enumerateOwnProperties = "nullptr"
if self.properties.hasNonChromeOnly():
regular = "sNativeProperties.Upcast()"
else:
regular = "nullptr"
if self.properties.hasChromeOnly():
chrome = "sChromeOnlyNativeProperties.Upcast()"
else:
chrome = "nullptr"
constructorID = "constructors::id::"
if self.descriptor.interface.hasInterfaceObject():
constructorID += self.descriptor.name
else:
constructorID += "_ID_Count"
prototypeID = "prototypes::id::"
if self.descriptor.interface.hasInterfacePrototypeObject():
prototypeID += self.descriptor.name
else:
prototypeID += "_ID_Count"
parentProtoName = self.descriptor.parentPrototypeName
parentHooks = (toBindingNamespace(parentProtoName) + "::sNativePropertyHooks"
if parentProtoName else 'nullptr')
return fill(
"""
const NativePropertyHooks sNativePropertyHooks[] = { {
${resolveOwnProperty},
${enumerateOwnProperties},
{ ${regular}, ${chrome} },
${prototypeID},
${constructorID},
${parentHooks}
} };
""",
resolveOwnProperty=resolveOwnProperty,
enumerateOwnProperties=enumerateOwnProperties,
regular=regular,
chrome=chrome,
prototypeID=prototypeID,
constructorID=constructorID,
parentHooks=parentHooks)
def NativePropertyHooks(descriptor):
return "&sEmptyNativePropertyHooks" if not descriptor.wantsXrays else "sNativePropertyHooks"
def DOMClass(descriptor):
protoList = ['prototypes::id::' + proto for proto in descriptor.prototypeNameChain]
# Pad out the list to the right length with _ID_Count so we
# guarantee that all the lists are the same length. _ID_Count
# is never the ID of any prototype, so it's safe to use as
# padding.
protoList.extend(['prototypes::id::_ID_Count'] * (descriptor.config.maxProtoChainLength - len(protoList)))
return fill(
"""
{ ${protoChain} },
IsBaseOf<nsISupports, ${nativeType} >::value,
${hooks},
FindAssociatedGlobalForNative<${nativeType}>::Get,
GetProtoObjectHandle,
GetCCParticipant<${nativeType}>::Get()
""",
protoChain=', '.join(protoList),
nativeType=descriptor.nativeType,
hooks=NativePropertyHooks(descriptor))
class CGDOMJSClass(CGThing):
"""
Generate a DOMJSClass for a given descriptor
"""
def __init__(self, descriptor):
CGThing.__init__(self)
self.descriptor = descriptor
def declare(self):
return ""
def define(self):
callHook = LEGACYCALLER_HOOK_NAME if self.descriptor.operations["LegacyCaller"] else 'nullptr'
objectMovedHook = OBJECT_MOVED_HOOK_NAME if self.descriptor.wrapperCache else 'nullptr'
slotCount = INSTANCE_RESERVED_SLOTS + self.descriptor.interface.totalMembersInSlots
classFlags = "JSCLASS_IS_DOMJSCLASS | "
if self.descriptor.isGlobal():
classFlags += "JSCLASS_DOM_GLOBAL | JSCLASS_GLOBAL_FLAGS_WITH_SLOTS(DOM_GLOBAL_SLOTS)"
traceHook = "JS_GlobalObjectTraceHook"
reservedSlots = "JSCLASS_GLOBAL_APPLICATION_SLOTS"
else:
classFlags += "JSCLASS_HAS_RESERVED_SLOTS(%d)" % slotCount
traceHook = 'nullptr'
reservedSlots = slotCount
if self.descriptor.interface.isProbablyShortLivingObject():
classFlags += " | JSCLASS_SKIP_NURSERY_FINALIZE"
if self.descriptor.interface.getExtendedAttribute("NeedResolve"):
resolveHook = RESOLVE_HOOK_NAME
mayResolveHook = MAY_RESOLVE_HOOK_NAME
enumerateHook = ENUMERATE_HOOK_NAME
elif self.descriptor.isGlobal():
resolveHook = "mozilla::dom::ResolveGlobal"
mayResolveHook = "mozilla::dom::MayResolveGlobal"
enumerateHook = "mozilla::dom::EnumerateGlobal"
else:
resolveHook = "nullptr"
mayResolveHook = "nullptr"
enumerateHook = "nullptr"
return fill(
"""
static const js::ClassOps sClassOps = {
${addProperty}, /* addProperty */
nullptr, /* delProperty */
nullptr, /* getProperty */
nullptr, /* setProperty */
${enumerate}, /* enumerate */
${resolve}, /* resolve */
${mayResolve}, /* mayResolve */
${finalize}, /* finalize */
${call}, /* call */
nullptr, /* hasInstance */
nullptr, /* construct */
${trace}, /* trace */
};
static const js::ClassExtension sClassExtension = {
nullptr, /* weakmapKeyDelegateOp */
${objectMoved} /* objectMovedOp */
};
static const DOMJSClass sClass = {
{ "${name}",
${flags},
&sClassOps,
JS_NULL_CLASS_SPEC,
&sClassExtension,
JS_NULL_OBJECT_OPS
},
$*{descriptor}
};
static_assert(${instanceReservedSlots} == DOM_INSTANCE_RESERVED_SLOTS,
"Must have the right minimal number of reserved slots.");
static_assert(${reservedSlots} >= ${slotCount},
"Must have enough reserved slots.");
""",
name=self.descriptor.interface.identifier.name,
flags=classFlags,
addProperty=ADDPROPERTY_HOOK_NAME if wantsAddProperty(self.descriptor) else 'nullptr',
enumerate=enumerateHook,
resolve=resolveHook,
mayResolve=mayResolveHook,
finalize=FINALIZE_HOOK_NAME,
call=callHook,
trace=traceHook,
objectMoved=objectMovedHook,
descriptor=DOMClass(self.descriptor),
instanceReservedSlots=INSTANCE_RESERVED_SLOTS,
reservedSlots=reservedSlots,
slotCount=slotCount)
class CGDOMProxyJSClass(CGThing):
"""
Generate a DOMJSClass for a given proxy descriptor
"""
def __init__(self, descriptor):
CGThing.__init__(self)
self.descriptor = descriptor
def declare(self):
return ""
def define(self):
flags = ["JSCLASS_IS_DOMJSCLASS"]
# We don't use an IDL annotation for JSCLASS_EMULATES_UNDEFINED because
# we don't want people ever adding that to any interface other than
# HTMLAllCollection. So just hardcode it here.
if self.descriptor.interface.identifier.name == "HTMLAllCollection":
flags.append("JSCLASS_EMULATES_UNDEFINED")
objectMovedHook = OBJECT_MOVED_HOOK_NAME if self.descriptor.wrapperCache else 'nullptr'
return fill(
"""
static const js::ClassExtension sClassExtension = PROXY_MAKE_EXT(
${objectMoved}
);
static const DOMJSClass sClass = {
PROXY_CLASS_WITH_EXT("${name}",
${flags},
&sClassExtension),
$*{descriptor}
};
""",
name=self.descriptor.interface.identifier.name,
flags=" | ".join(flags),
objectMoved=objectMovedHook,
descriptor=DOMClass(self.descriptor))
def PrototypeIDAndDepth(descriptor):
prototypeID = "prototypes::id::"
if descriptor.interface.hasInterfacePrototypeObject():
prototypeID += descriptor.interface.identifier.name
depth = "PrototypeTraits<%s>::Depth" % prototypeID
else:
prototypeID += "_ID_Count"
depth = "0"
return (prototypeID, depth)
def InterfacePrototypeObjectProtoGetter(descriptor):
"""
Returns a tuple with two elements:
1) The name of the function to call to get the prototype to use for the
interface prototype object as a JSObject*.
2) The name of the function to call to get the prototype to use for the
interface prototype object as a JS::Handle<JSObject*> or None if no
such function exists.
"""
parentProtoName = descriptor.parentPrototypeName
if descriptor.hasNamedPropertiesObject:
protoGetter = "GetNamedPropertiesObject"
protoHandleGetter = None
elif parentProtoName is None:
if descriptor.interface.getExtendedAttribute("ArrayClass"):
protoGetter = "JS::GetRealmArrayPrototype"
elif descriptor.interface.getExtendedAttribute("ExceptionClass"):
protoGetter = "JS::GetRealmErrorPrototype"
elif descriptor.interface.isIteratorInterface():
protoGetter = "JS::GetRealmIteratorPrototype"
else:
protoGetter = "JS::GetRealmObjectPrototype"
protoHandleGetter = None
else:
prefix = toBindingNamespace(parentProtoName)
protoGetter = prefix + "::GetProtoObject"
protoHandleGetter = prefix + "::GetProtoObjectHandle"
return (protoGetter, protoHandleGetter)
class CGPrototypeJSClass(CGThing):
def __init__(self, descriptor, properties):
CGThing.__init__(self)
self.descriptor = descriptor
self.properties = properties
def declare(self):
# We're purely for internal consumption
return ""
def define(self):
prototypeID, depth = PrototypeIDAndDepth(self.descriptor)
slotCount = "DOM_INTERFACE_PROTO_SLOTS_BASE"
if self.descriptor.hasUnforgeableMembers:
slotCount += " + 1 /* slot for the JSObject holding the unforgeable properties */"
(protoGetter, _) = InterfacePrototypeObjectProtoGetter(self.descriptor)
type = "eGlobalInterfacePrototype" if self.descriptor.isGlobal() else "eInterfacePrototype"
return fill(
"""
static const DOMIfaceAndProtoJSClass sPrototypeClass = {
{
"${name}Prototype",
JSCLASS_IS_DOMIFACEANDPROTOJSCLASS | JSCLASS_HAS_RESERVED_SLOTS(${slotCount}),
JS_NULL_CLASS_OPS,
JS_NULL_CLASS_SPEC,
JS_NULL_CLASS_EXT,
JS_NULL_OBJECT_OPS
},
${type},
false,
${prototypeID},
${depth},
${hooks},
"[object ${name}Prototype]",
${protoGetter}
};
""",
name=self.descriptor.interface.identifier.name,
slotCount=slotCount,
type=type,
hooks=NativePropertyHooks(self.descriptor),
prototypeID=prototypeID,
depth=depth,
protoGetter=protoGetter)
def NeedsGeneratedHasInstance(descriptor):
assert descriptor.interface.hasInterfaceObject()
return descriptor.hasXPConnectImpls or descriptor.interface.isConsequential()
def InterfaceObjectProtoGetter(descriptor, forXrays=False):
"""
Returns a tuple with two elements:
1) The name of the function to call to get the prototype to use for the
interface object as a JSObject*.
2) The name of the function to call to get the prototype to use for the
interface prototype as a JS::Handle<JSObject*> or None if no such
function exists.
"""
parentInterface = descriptor.interface.parent
if parentInterface:
assert not descriptor.interface.isNamespace()
parentIfaceName = parentInterface.identifier.name
parentDesc = descriptor.getDescriptor(parentIfaceName)
prefix = toBindingNamespace(parentDesc.name)
protoGetter = prefix + "::GetConstructorObject"
protoHandleGetter = prefix + "::GetConstructorObjectHandle"
elif descriptor.interface.isNamespace():
if (forXrays or
not descriptor.interface.getExtendedAttribute("ProtoObjectHack")):
protoGetter = "JS::GetRealmObjectPrototype"
else:
protoGetter = "binding_detail::GetHackedNamespaceProtoObject"
protoHandleGetter = None
else:
protoGetter = "JS::GetRealmFunctionPrototype"
protoHandleGetter = None
return (protoGetter, protoHandleGetter)
class CGInterfaceObjectJSClass(CGThing):
def __init__(self, descriptor, properties):
CGThing.__init__(self)
self.descriptor = descriptor
self.properties = properties
def declare(self):
# We're purely for internal consumption
return ""
def define(self):
if self.descriptor.interface.ctor():
assert not self.descriptor.interface.isNamespace()
ctorname = CONSTRUCT_HOOK_NAME
elif self.descriptor.interface.isNamespace():
ctorname = "nullptr"
else:
ctorname = "ThrowingConstructor"
needsHasInstance = (
not NeedsGeneratedHasInstance(self.descriptor) and
self.descriptor.interface.hasInterfacePrototypeObject())
prototypeID, depth = PrototypeIDAndDepth(self.descriptor)
slotCount = "DOM_INTERFACE_SLOTS_BASE"
if len(self.descriptor.interface.namedConstructors) > 0:
slotCount += (" + %i /* slots for the named constructors */" %
len(self.descriptor.interface.namedConstructors))
(protoGetter, _) = InterfaceObjectProtoGetter(self.descriptor,
forXrays=True)
if ctorname == "ThrowingConstructor":
ret = ""
classOpsPtr = "&sBoringInterfaceObjectClassClassOps"
elif ctorname == "nullptr":
ret = ""
classOpsPtr = "JS_NULL_CLASS_OPS"
else:
ret = fill(
"""
static const js::ClassOps sInterfaceObjectClassOps = {
nullptr, /* addProperty */
nullptr, /* delProperty */
nullptr, /* getProperty */
nullptr, /* setProperty */
nullptr, /* enumerate */
nullptr, /* resolve */
nullptr, /* mayResolve */
nullptr, /* finalize */
${ctorname}, /* call */
nullptr, /* hasInstance */
${ctorname}, /* construct */
nullptr, /* trace */
};
""",
ctorname=ctorname)
classOpsPtr = "&sInterfaceObjectClassOps"
if self.descriptor.interface.isNamespace():
classString = self.descriptor.interface.getExtendedAttribute("ClassString")
if classString is None:
classString = "Object"
else:
classString = classString[0]
toStringResult = "[object %s]" % classString
objectOps = "JS_NULL_OBJECT_OPS"
else:
classString = "Function"
toStringResult = ("function %s() {\\n [native code]\\n}" %
self.descriptor.interface.identifier.name)
# We need non-default ObjectOps so we can actually make
# use of our toStringResult.
objectOps = "&sInterfaceObjectClassObjectOps"
ret = ret + fill(
"""
static const DOMIfaceAndProtoJSClass sInterfaceObjectClass = {
{
"${classString}",
JSCLASS_IS_DOMIFACEANDPROTOJSCLASS | JSCLASS_HAS_RESERVED_SLOTS(${slotCount}),
${classOpsPtr},
JS_NULL_CLASS_SPEC,
JS_NULL_CLASS_EXT,
${objectOps}
},
eInterface,
${needsHasInstance},
${prototypeID},
${depth},
${hooks},
"${toStringResult}",
${protoGetter}
};
""",
classString=classString,
slotCount=slotCount,
classOpsPtr=classOpsPtr,
hooks=NativePropertyHooks(self.descriptor),
objectOps=objectOps,
needsHasInstance=toStringBool(needsHasInstance),
prototypeID=prototypeID,
depth=depth,
toStringResult=toStringResult,
protoGetter=protoGetter)
return ret
class CGList(CGThing):
"""
Generate code for a list of GCThings. Just concatenates them together, with
an optional joiner string. "\n" is a common joiner.
"""
def __init__(self, children, joiner=""):
CGThing.__init__(self)
# Make a copy of the kids into a list, because if someone passes in a
# generator we won't be able to both declare and define ourselves, or
# define ourselves more than once!
self.children = list(children)
self.joiner = joiner
def append(self, child):
self.children.append(child)
def prepend(self, child):
self.children.insert(0, child)
def extend(self, kids):
self.children.extend(kids)
def join(self, iterable):
return self.joiner.join(s for s in iterable if len(s) > 0)
def declare(self):
return self.join(child.declare() for child in self.children if child is not None)
def define(self):
return self.join(child.define() for child in self.children if child is not None)
def deps(self):
deps = set()
for child in self.children:
if child is None:
continue
deps = deps.union(child.deps())
return deps
def __len__(self):
return len(self.children)
class CGGeneric(CGThing):
"""
A class that spits out a fixed string into the codegen. Can spit out a
separate string for the declaration too.
"""
def __init__(self, define="", declare=""):
self.declareText = declare
self.defineText = define
def declare(self):
return self.declareText
def define(self):
return self.defineText
def deps(self):
return set()
class CGIndenter(CGThing):
"""
A class that takes another CGThing and generates code that indents that
CGThing by some number of spaces. The default indent is two spaces.
"""
def __init__(self, child, indentLevel=2, declareOnly=False):
assert isinstance(child, CGThing)
CGThing.__init__(self)
self.child = child
self.indentLevel = indentLevel
self.declareOnly = declareOnly
def declare(self):
return indent(self.child.declare(), self.indentLevel)
def define(self):
defn = self.child.define()
if self.declareOnly:
return defn
else:
return indent(defn, self.indentLevel)
class CGWrapper(CGThing):
"""
Generic CGThing that wraps other CGThings with pre and post text.
"""
def __init__(self, child, pre="", post="", declarePre=None,
declarePost=None, definePre=None, definePost=None,
declareOnly=False, defineOnly=False, reindent=False):
CGThing.__init__(self)
self.child = child
self.declarePre = declarePre or pre
self.declarePost = declarePost or post
self.definePre = definePre or pre
self.definePost = definePost or post
self.declareOnly = declareOnly
self.defineOnly = defineOnly
self.reindent = reindent
def declare(self):
if self.defineOnly:
return ''
decl = self.child.declare()
if self.reindent:
decl = self.reindentString(decl, self.declarePre)
return self.declarePre + decl + self.declarePost
def define(self):
if self.declareOnly:
return ''
defn = self.child.define()
if self.reindent:
defn = self.reindentString(defn, self.definePre)
return self.definePre + defn + self.definePost
@staticmethod
def reindentString(stringToIndent, widthString):
# We don't use lineStartDetector because we don't want to
# insert whitespace at the beginning of our _first_ line.
# Use the length of the last line of width string, in case
# it is a multiline string.
lastLineWidth = len(widthString.splitlines()[-1])
return stripTrailingWhitespace(
stringToIndent.replace("\n", "\n" + (" " * lastLineWidth)))
def deps(self):
return self.child.deps()
class CGIfWrapper(CGList):
def __init__(self, child, condition):
CGList.__init__(self, [
CGWrapper(CGGeneric(condition), pre="if (", post=") {\n", reindent=True),
CGIndenter(child),
CGGeneric("}\n")
])
class CGIfElseWrapper(CGList):
def __init__(self, condition, ifTrue, ifFalse):
CGList.__init__(self, [
CGWrapper(CGGeneric(condition), pre="if (", post=") {\n", reindent=True),
CGIndenter(ifTrue),
CGGeneric("} else {\n"),
CGIndenter(ifFalse),
CGGeneric("}\n")
])
class CGElseChain(CGThing):
"""
Concatenate if statements in an if-else-if-else chain.
"""
def __init__(self, children):
self.children = [c for c in children if c is not None]
def declare(self):
assert False
def define(self):
if not self.children:
return ""
s = self.children[0].define()
assert s.endswith("\n")
for child in self.children[1:]:
code = child.define()
assert code.startswith("if") or code.startswith("{")
assert code.endswith("\n")
s = s.rstrip() + " else " + code
return s
class CGTemplatedType(CGWrapper):
def __init__(self, templateName, child, isConst=False, isReference=False):
const = "const " if isConst else ""
pre = "%s%s<" % (const, templateName)
ref = "&" if isReference else ""
post = ">%s" % ref
CGWrapper.__init__(self, child, pre=pre, post=post)
class CGNamespace(CGWrapper):
def __init__(self, namespace, child, declareOnly=False):
pre = "namespace %s {\n" % namespace
post = "} // namespace %s\n" % namespace
CGWrapper.__init__(self, child, pre=pre, post=post,
declareOnly=declareOnly)
@staticmethod
def build(namespaces, child, declareOnly=False):
"""
Static helper method to build multiple wrapped namespaces.
"""
if not namespaces:
return CGWrapper(child, declareOnly=declareOnly)
inner = CGNamespace.build(namespaces[1:], child, declareOnly=declareOnly)
return CGNamespace(namespaces[0], inner, declareOnly=declareOnly)
class CGIncludeGuard(CGWrapper):
"""
Generates include guards for a header.
"""
def __init__(self, prefix, child):
"""|prefix| is the filename without the extension."""
define = 'mozilla_dom_%s_h' % prefix
CGWrapper.__init__(self, child,
declarePre='#ifndef %s\n#define %s\n\n' % (define, define),
declarePost='\n#endif // %s\n' % define)
class CGHeaders(CGWrapper):
"""
Generates the appropriate include statements.
"""
def __init__(self, descriptors, dictionaries, callbacks,
callbackDescriptors,
declareIncludes, defineIncludes, prefix, child,
config=None, jsImplementedDescriptors=[]):
"""
Builds a set of includes to cover |descriptors|.
Also includes the files in |declareIncludes| in the header
file and the files in |defineIncludes| in the .cpp.
|prefix| contains the basename of the file that we generate include
statements for.
"""
# Determine the filenames for which we need headers.
interfaceDeps = [d.interface for d in descriptors]
ancestors = []
for iface in interfaceDeps:
if iface.parent:
# We're going to need our parent's prototype, to use as the
# prototype of our prototype object.
ancestors.append(iface.parent)
# And if we have an interface object, we'll need the nearest
# ancestor with an interface object too, so we can use its
# interface object as the proto of our interface object.
if iface.hasInterfaceObject():
parent = iface.parent
while parent and not parent.hasInterfaceObject():
parent = parent.parent
if parent:
ancestors.append(parent)
interfaceDeps.extend(ancestors)
bindingIncludes = set(self.getDeclarationFilename(d) for d in interfaceDeps)
# Grab all the implementation declaration files we need.
implementationIncludes = set(d.headerFile for d in descriptors if d.needsHeaderInclude())
# Grab the includes for checking hasInstance
interfacesImplementingSelf = set()
for d in descriptors:
interfacesImplementingSelf |= d.interface.interfacesImplementingSelf
implementationIncludes |= set(self.getDeclarationFilename(i) for i in
interfacesImplementingSelf)
# Grab the includes for the things that involve XPCOM interfaces
hasInstanceIncludes = set("nsIDOM" + d.interface.identifier.name + ".h" for d
in descriptors if
d.interface.hasInterfaceObject() and
NeedsGeneratedHasInstance(d) and
d.interface.hasInterfacePrototypeObject())
if len(hasInstanceIncludes) > 0:
hasInstanceIncludes.add("nsContentUtils.h")
# Now find all the things we'll need as arguments because we
# need to wrap or unwrap them.
bindingHeaders = set()
declareIncludes = set(declareIncludes)
def addHeadersForType((t, dictionary)):
"""
Add the relevant headers for this type. We use dictionary, if
passed, to decide what to do with interface types.
"""
# Dictionaries have members that need to be actually
# declared, not just forward-declared.
if dictionary:
headerSet = declareIncludes
else:
headerSet = bindingHeaders
if t.nullable():
# Need to make sure that Nullable as a dictionary
# member works.
headerSet.add("mozilla/dom/Nullable.h")
unrolled = t.unroll()
if unrolled.isUnion():
headerSet.add(self.getUnionDeclarationFilename(config, unrolled))
bindingHeaders.add("mozilla/dom/UnionConversions.h")
elif unrolled.isDate():
if dictionary or jsImplementedDescriptors:
declareIncludes.add("mozilla/dom/Date.h")
else:
bindingHeaders.add("mozilla/dom/Date.h")
elif unrolled.isInterface():
if unrolled.isSpiderMonkeyInterface():
bindingHeaders.add("jsfriendapi.h")
if jsImplementedDescriptors:
# Since we can't forward-declare typed array types
# (because they're typedefs), we have to go ahead and
# just include their header if we need to have functions
# taking references to them declared in that header.
headerSet = declareIncludes
headerSet.add("mozilla/dom/TypedArray.h")
else:
try:
typeDesc = config.getDescriptor(unrolled.inner.identifier.name)
except NoSuchDescriptorError:
return
# Dictionaries with interface members rely on the
# actual class definition of that interface member
# being visible in the binding header, because they
# store them in RefPtr and have inline
# constructors/destructors.
#
# XXXbz maybe dictionaries with interface members
# should just have out-of-line constructors and
# destructors?
headerSet.add(typeDesc.headerFile)
elif unrolled.isDictionary():
headerSet.add(self.getDeclarationFilename(unrolled.inner))
elif unrolled.isCallback():
headerSet.add(self.getDeclarationFilename(unrolled.callback))
elif unrolled.isFloat() and not unrolled.isUnrestricted():
# Restricted floats are tested for finiteness
bindingHeaders.add("mozilla/FloatingPoint.h")
bindingHeaders.add("mozilla/dom/PrimitiveConversions.h")
elif unrolled.isEnum():
filename = self.getDeclarationFilename(unrolled.inner)
declareIncludes.add(filename)
elif unrolled.isPrimitive():
bindingHeaders.add("mozilla/dom/PrimitiveConversions.h")
elif unrolled.isMozMap():
if dictionary or jsImplementedDescriptors:
declareIncludes.add("mozilla/dom/MozMap.h")
else:
bindingHeaders.add("mozilla/dom/MozMap.h")
# Also add headers for the type the MozMap is
# parametrized over, if needed.
addHeadersForType((t.inner, dictionary))
map(addHeadersForType,
getAllTypes(descriptors + callbackDescriptors, dictionaries,
callbacks))
# Now make sure we're not trying to include the header from inside itself
declareIncludes.discard(prefix + ".h")
def addHeaderForFunc(func, desc):
if func is None:
return
# Include the right class header, which we can only do
# if this is a class member function.
if desc is not None and not desc.headerIsDefault:
# An explicit header file was provided, assume that we know
# what we're doing.
return
if "::" in func:
# Strip out the function name and convert "::" to "/"
bindingHeaders.add("/".join(func.split("::")[:-1]) + ".h")
# Now for non-callback descriptors make sure we include any
# headers needed by Func declarations and other things like that.
for desc in descriptors:
# If this is an iterator interface generated for a seperate
# iterable interface, skip generating type includes, as we have
# what we need in IterableIterator.h
if desc.interface.isExternal() or desc.interface.isIteratorInterface():
continue
for m in desc.interface.members:
addHeaderForFunc(PropertyDefiner.getStringAttr(m, "Func"), desc)
staticTypeOverride = PropertyDefiner.getStringAttr(m, "StaticClassOverride")
if staticTypeOverride:
bindingHeaders.add("/".join(staticTypeOverride.split("::")) + ".h")
# getExtendedAttribute() returns a list, extract the entry.
funcList = desc.interface.getExtendedAttribute("Func")
if funcList is not None:
addHeaderForFunc(funcList[0], desc)
if desc.interface.maplikeOrSetlikeOrIterable:
# We need ToJSValue.h for maplike/setlike type conversions
bindingHeaders.add("mozilla/dom/ToJSValue.h")
# Add headers for the key and value types of the
# maplike/setlike/iterable, since they'll be needed for
# convenience functions
if desc.interface.maplikeOrSetlikeOrIterable.hasKeyType():
addHeadersForType((desc.interface.maplikeOrSetlikeOrIterable.keyType,
None))
if desc.interface.maplikeOrSetlikeOrIterable.hasValueType():
addHeadersForType((desc.interface.maplikeOrSetlikeOrIterable.valueType,
None))
for d in dictionaries:
if d.parent:
declareIncludes.add(self.getDeclarationFilename(d.parent))
bindingHeaders.add(self.getDeclarationFilename(d))
for m in d.members:
addHeaderForFunc(PropertyDefiner.getStringAttr(m, "Func"),
None)
# No need to worry about Func on members of ancestors, because that
# will happen automatically in whatever files those ancestors live
# in.
for c in callbacks:
bindingHeaders.add(self.getDeclarationFilename(c))
for c in callbackDescriptors:
bindingHeaders.add(self.getDeclarationFilename(c.interface))
if len(callbacks) != 0:
# We need CallbackFunction to serve as our parent class
declareIncludes.add("mozilla/dom/CallbackFunction.h")
# And we need ToJSValue.h so we can wrap "this" objects
declareIncludes.add("mozilla/dom/ToJSValue.h")
if len(callbackDescriptors) != 0 or len(jsImplementedDescriptors) != 0:
# We need CallbackInterface to serve as our parent class
declareIncludes.add("mozilla/dom/CallbackInterface.h")
# And we need ToJSValue.h so we can wrap "this" objects
declareIncludes.add("mozilla/dom/ToJSValue.h")
# Also need to include the headers for ancestors of
# JS-implemented interfaces.
for jsImplemented in jsImplementedDescriptors:
jsParent = jsImplemented.interface.parent
if jsParent:
parentDesc = jsImplemented.getDescriptor(jsParent.identifier.name)
declareIncludes.add(parentDesc.jsImplParentHeader)
# Let the machinery do its thing.
def _includeString(includes):
return ''.join(['#include "%s"\n' % i for i in includes]) + '\n'
CGWrapper.__init__(self, child,
declarePre=_includeString(sorted(declareIncludes)),
definePre=_includeString(sorted(set(defineIncludes) |
bindingIncludes |
bindingHeaders |
hasInstanceIncludes |
implementationIncludes)))
@staticmethod
def getDeclarationFilename(decl):
# Use our local version of the header, not the exported one, so that
# test bindings, which don't export, will work correctly.
basename = os.path.basename(decl.filename())
return basename.replace('.webidl', 'Binding.h')
@staticmethod
def getUnionDeclarationFilename(config, unionType):
assert unionType.isUnion()
assert unionType.unroll() == unionType
# If a union is "defined" in multiple files, it goes in UnionTypes.h.
if len(config.filenamesPerUnion[unionType.name]) > 1:
return "mozilla/dom/UnionTypes.h"
# If a union is defined by a built-in typedef, it also goes in
# UnionTypes.h.
assert len(config.filenamesPerUnion[unionType.name]) == 1
if "<unknown>" in config.filenamesPerUnion[unionType.name]:
return "mozilla/dom/UnionTypes.h"
return CGHeaders.getDeclarationFilename(unionType)
def SortedDictValues(d):
"""
Returns a list of values from the dict sorted by key.
"""
return [v for k, v in sorted(d.items())]
def UnionsForFile(config, webIDLFile):
"""
Returns a list of union types for all union types that are only used in
webIDLFile. If webIDLFile is None this will return the list of tuples for
union types that are used in more than one WebIDL file.
"""
return config.unionsPerFilename.get(webIDLFile, [])
def UnionTypes(unionTypes, config):
"""
The unionTypes argument should be a list of union types. This is typically
the list generated by UnionsForFile.
Returns a tuple containing a set of header filenames to include in
the header for the types in unionTypes, a set of header filenames to
include in the implementation file for the types in unionTypes, a set
of tuples containing a type declaration and a boolean if the type is a
struct for member types of the union, a list of traverse methods,
unlink methods and a list of union types. These last three lists only
contain unique union types.
"""
headers = set()
implheaders = set()
declarations = set()
unionStructs = dict()
traverseMethods = dict()
unlinkMethods = dict()
for t in unionTypes:
name = str(t)
if name not in unionStructs:
unionStructs[name] = t
def addHeadersForType(f):
if f.nullable():
headers.add("mozilla/dom/Nullable.h")
isSequence = f.isSequence()
f = f.unroll()
if f.isInterface():
if f.isSpiderMonkeyInterface():
headers.add("jsfriendapi.h")
headers.add("mozilla/dom/TypedArray.h")
else:
try:
typeDesc = config.getDescriptor(f.inner.identifier.name)
except NoSuchDescriptorError:
return
if typeDesc.interface.isCallback() or isSequence:
# Callback interfaces always use strong refs, so
# we need to include the right header to be able
# to Release() in our inlined code.
#
# Similarly, sequences always contain strong
# refs, so we'll need the header to handler
# those.
headers.add(typeDesc.headerFile)
else:
declarations.add((typeDesc.nativeType, False))
implheaders.add(typeDesc.headerFile)
elif f.isDictionary():
# For a dictionary, we need to see its declaration in
# UnionTypes.h so we have its sizeof and know how big to
# make our union.
headers.add(CGHeaders.getDeclarationFilename(f.inner))
# And if it needs rooting, we need RootedDictionary too
if typeNeedsRooting(f):
headers.add("mozilla/dom/RootedDictionary.h")
elif f.isEnum():
# Need to see the actual definition of the enum,
# unfortunately.
headers.add(CGHeaders.getDeclarationFilename(f.inner))
elif f.isCallback():
# Callbacks always use strong refs, so we need to include
# the right header to be able to Release() in our inlined
# code.
headers.add(CGHeaders.getDeclarationFilename(f.callback))
elif f.isMozMap():
headers.add("mozilla/dom/MozMap.h")
# And add headers for the type we're parametrized over
addHeadersForType(f.inner)
implheaders.add(CGHeaders.getUnionDeclarationFilename(config, t))
for f in t.flatMemberTypes:
assert not f.nullable()
addHeadersForType(f)
if idlTypeNeedsCycleCollection(t):
declarations.add(("mozilla::dom::%s" % CGUnionStruct.unionTypeName(t, True), False))
traverseMethods[name] = CGCycleCollectionTraverseForOwningUnionMethod(t)
unlinkMethods[name] = CGCycleCollectionUnlinkForOwningUnionMethod(t)
# The order of items in CGList is important.
# Since the union structs friend the unlinkMethods, the forward-declaration
# for these methods should come before the class declaration. Otherwise
# some compilers treat the friend declaration as a forward-declaration in
# the class scope.
return (headers, implheaders, declarations,
SortedDictValues(traverseMethods), SortedDictValues(unlinkMethods),
SortedDictValues(unionStructs))
def UnionConversions(unionTypes, config):
"""
The unionTypes argument should be a list of tuples, each containing two
elements: a union type and a descriptor. This is typically the list
generated by UnionsForFile.
Returns a tuple containing a list of headers and a CGThing to declare all
union argument conversion helper structs.
"""
headers = set()
unionConversions = dict()
for t in unionTypes:
name = str(t)
if name not in unionConversions:
unionConversions[name] = CGUnionConversionStruct(t, config)
def addHeadersForType(f):
f = f.unroll()
if f.isInterface():
if f.isSpiderMonkeyInterface():
headers.add("jsfriendapi.h")
headers.add("mozilla/dom/TypedArray.h")
elif f.inner.isExternal():
try:
typeDesc = config.getDescriptor(f.inner.identifier.name)
except NoSuchDescriptorError:
return
headers.add(typeDesc.headerFile)
else:
headers.add(CGHeaders.getDeclarationFilename(f.inner))
elif f.isDictionary():
headers.add(CGHeaders.getDeclarationFilename(f.inner))
elif f.isPrimitive():
headers.add("mozilla/dom/PrimitiveConversions.h")
elif f.isMozMap():
headers.add("mozilla/dom/MozMap.h")
# And the internal type of the MozMap
addHeadersForType(f.inner)
# We plan to include UnionTypes.h no matter what, so it's
# OK if we throw it into the set here.
headers.add(CGHeaders.getUnionDeclarationFilename(config, t))
for f in t.flatMemberTypes:
addHeadersForType(f)
return (headers,
CGWrapper(CGList(SortedDictValues(unionConversions), "\n"),
post="\n\n"))
class Argument():
"""
A class for outputting the type and name of an argument
"""
def __init__(self, argType, name, default=None):
self.argType = argType
self.name = name
self.default = default
def declare(self):
string = self.argType + ' ' + self.name
if self.default is not None:
string += " = " + self.default
return string
def define(self):
return self.argType + ' ' + self.name
class CGAbstractMethod(CGThing):
"""
An abstract class for generating code for a method. Subclasses
should override definition_body to create the actual code.
descriptor is the descriptor for the interface the method is associated with
name is the name of the method as a string
returnType is the IDLType of the return value
args is a list of Argument objects
inline should be True to generate an inline method, whose body is
part of the declaration.
alwaysInline should be True to generate an inline method annotated with
MOZ_ALWAYS_INLINE.
static should be True to generate a static method, which only has
a definition.
If templateArgs is not None it should be a list of strings containing
template arguments, and the function will be templatized using those
arguments.
"""
def __init__(self, descriptor, name, returnType, args, inline=False, alwaysInline=False, static=False, templateArgs=None):
CGThing.__init__(self)
self.descriptor = descriptor
self.name = name
self.returnType = returnType
self.args = args
self.inline = inline
self.alwaysInline = alwaysInline
self.static = static
self.templateArgs = templateArgs
def _argstring(self, declare):
return ', '.join([a.declare() if declare else a.define() for a in self.args])
def _template(self):
if self.templateArgs is None:
return ''
return 'template <%s>\n' % ', '.join(self.templateArgs)
def _decorators(self):
decorators = []
if self.alwaysInline:
decorators.append('MOZ_ALWAYS_INLINE')
elif self.inline:
decorators.append('inline')
if self.static:
decorators.append('static')
decorators.append(self.returnType)
maybeNewline = " " if self.inline else "\n"
return ' '.join(decorators) + maybeNewline
def declare(self):
if self.inline:
return self._define(True)
return "%s%s%s(%s);\n" % (self._template(), self._decorators(), self.name, self._argstring(True))
def indent_body(self, body):
"""
Indent the code returned by self.definition_body(). Most classes
simply indent everything two spaces. This is here for
CGRegisterProtos, which needs custom indentation.
"""
return indent(body)
def _define(self, fromDeclare=False):
return (self.definition_prologue(fromDeclare) +
self.indent_body(self.definition_body()) +
self.definition_epilogue())
def define(self):
return "" if self.inline else self._define()
def definition_prologue(self, fromDeclare):
return "%s%s%s(%s)\n{\n" % (self._template(), self._decorators(),
self.name, self._argstring(fromDeclare))
def definition_epilogue(self):
return "}\n"
def definition_body(self):
assert False # Override me!
class CGAbstractStaticMethod(CGAbstractMethod):
"""
Abstract base class for codegen of implementation-only (no
declaration) static methods.
"""
def __init__(self, descriptor, name, returnType, args):
CGAbstractMethod.__init__(self, descriptor, name, returnType, args,
inline=False, static=True)
def declare(self):
# We only have implementation
return ""
class CGAbstractClassHook(CGAbstractStaticMethod):
"""
Meant for implementing JSClass hooks, like Finalize or Trace. Does very raw
'this' unwrapping as it assumes that the unwrapped type is always known.
"""
def __init__(self, descriptor, name, returnType, args):
CGAbstractStaticMethod.__init__(self, descriptor, name, returnType,
args)
def definition_body_prologue(self):
return ("%s* self = UnwrapPossiblyNotInitializedDOMObject<%s>(obj);\n" %
(self.descriptor.nativeType, self.descriptor.nativeType))
def definition_body(self):
return self.definition_body_prologue() + self.generate_code()
def generate_code(self):
assert False # Override me!
class CGGetJSClassMethod(CGAbstractMethod):
def __init__(self, descriptor):
CGAbstractMethod.__init__(self, descriptor, 'GetJSClass', 'const JSClass*',
[])
def definition_body(self):
return "return sClass.ToJSClass();\n"
class CGAddPropertyHook(CGAbstractClassHook):
"""
A hook for addProperty, used to preserve our wrapper from GC.
"""
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('JS::Handle<jsid>', 'id'),
Argument('JS::Handle<JS::Value>', 'val')]
CGAbstractClassHook.__init__(self, descriptor, ADDPROPERTY_HOOK_NAME,
'bool', args)
def generate_code(self):
assert self.descriptor.wrapperCache
return dedent("""
// We don't want to preserve if we don't have a wrapper, and we
// obviously can't preserve if we're not initialized.
if (self && self->GetWrapperPreserveColor()) {
PreserveWrapper(self);
}
return true;
""")
def finalizeHook(descriptor, hookName, freeOp):
finalize = ""
if descriptor.wrapperCache:
finalize += "ClearWrapper(self, self);\n"
if descriptor.interface.getExtendedAttribute('OverrideBuiltins'):
finalize += "self->mExpandoAndGeneration.expando = JS::UndefinedValue();\n"
if descriptor.isGlobal():
finalize += "mozilla::dom::FinalizeGlobal(CastToJSFreeOp(%s), obj);\n" % freeOp
finalize += ("AddForDeferredFinalization<%s>(self);\n" %
descriptor.nativeType)
return CGIfWrapper(CGGeneric(finalize), "self")
class CGClassFinalizeHook(CGAbstractClassHook):
"""
A hook for finalize, used to release our native object.
"""
def __init__(self, descriptor):
args = [Argument('js::FreeOp*', 'fop'), Argument('JSObject*', 'obj')]
CGAbstractClassHook.__init__(self, descriptor, FINALIZE_HOOK_NAME,
'void', args)
def generate_code(self):
return finalizeHook(self.descriptor, self.name, self.args[0].name).define()
class CGClassObjectMovedHook(CGAbstractClassHook):
"""
A hook for objectMovedOp, used to update the wrapper cache when an object it
is holding moves.
"""
def __init__(self, descriptor):
args = [Argument('JSObject*', 'obj'), Argument('const JSObject*', 'old')]
CGAbstractClassHook.__init__(self, descriptor, OBJECT_MOVED_HOOK_NAME,
'void', args)
def generate_code(self):
assert self.descriptor.wrapperCache
return CGIfWrapper(CGGeneric("UpdateWrapper(self, self, obj, old);\n"),
"self").define()
def JSNativeArguments():
return [Argument('JSContext*', 'cx'),
Argument('unsigned', 'argc'),
Argument('JS::Value*', 'vp')]
class CGClassConstructor(CGAbstractStaticMethod):
"""
JS-visible constructor for our objects
"""
def __init__(self, descriptor, ctor, name=CONSTRUCT_HOOK_NAME):
CGAbstractStaticMethod.__init__(self, descriptor, name, 'bool',
JSNativeArguments())
self._ctor = ctor
def define(self):
if not self._ctor:
return ""
return CGAbstractStaticMethod.define(self)
def definition_body(self):
return self.generate_code()
def generate_code(self):
# [ChromeOnly] interfaces may only be constructed by chrome.
chromeOnlyCheck = ""
if isChromeOnly(self._ctor):
chromeOnlyCheck = dedent("""
if (!nsContentUtils::ThreadsafeIsCallerChrome()) {
return ThrowingConstructor(cx, argc, vp);
}
""")
# Additionally, we want to throw if a caller does a bareword invocation
# of a constructor without |new|. We don't enforce this for chrome in
# realease builds to avoid the addon compat fallout of making that
# change. See bug 916644.
#
# Figure out the name of our constructor for error reporting purposes.
# For unnamed webidl constructors, identifier.name is "constructor" but
# the name JS sees is the interface name; for named constructors
# identifier.name is the actual name.
name = self._ctor.identifier.name
if name != "constructor":
ctorName = name
else:
ctorName = self.descriptor.interface.identifier.name
preamble = fill(
"""
JS::CallArgs args = JS::CallArgsFromVp(argc, vp);
JS::Rooted<JSObject*> obj(cx, &args.callee());
$*{chromeOnlyCheck}
if (!args.isConstructing()) {
// XXXbz wish I could get the name from the callee instead of
// Adding more relocations
return ThrowConstructorWithoutNew(cx, "${ctorName}");
}
JS::Rooted<JSObject*> desiredProto(cx);
if (!GetDesiredProto(cx, args, &desiredProto)) {
return false;
}
""",
chromeOnlyCheck=chromeOnlyCheck,
ctorName=ctorName)
name = self._ctor.identifier.name
nativeName = MakeNativeName(self.descriptor.binaryNameFor(name))
callGenerator = CGMethodCall(nativeName, True, self.descriptor,
self._ctor, isConstructor=True,
constructorName=ctorName)
return preamble + "\n" + callGenerator.define()
# Encapsulate the constructor in a helper method to share genConstructorBody with CGJSImplMethod.
class CGConstructNavigatorObject(CGAbstractMethod):
"""
Construct a new JS-implemented WebIDL DOM object, for use on navigator.
"""
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('ErrorResult&', 'aRv')]
rtype = 'already_AddRefed<%s>' % descriptor.name
CGAbstractMethod.__init__(self, descriptor, "ConstructNavigatorObject",
rtype, args)
def definition_body(self):
if not self.descriptor.interface.isJSImplemented():
raise TypeError("Only JS-implemented classes are currently supported "
"on navigator. See bug 856820.")
return dedent(
"""
GlobalObject global(cx, obj);
if (global.Failed()) {
aRv.Throw(NS_ERROR_FAILURE);
return nullptr;
}
""") + genConstructorBody(self.descriptor)
def NamedConstructorName(m):
return '_' + m.identifier.name
class CGNamedConstructors(CGThing):
def __init__(self, descriptor):
self.descriptor = descriptor
CGThing.__init__(self)
def declare(self):
return ""
def define(self):
if len(self.descriptor.interface.namedConstructors) == 0:
return ""
constructorID = "constructors::id::"
if self.descriptor.interface.hasInterfaceObject():
constructorID += self.descriptor.name
else:
constructorID += "_ID_Count"
namedConstructors = ""
for n in self.descriptor.interface.namedConstructors:
namedConstructors += (
"{ \"%s\", { %s, &sNamedConstructorNativePropertyHooks }, %i },\n" %
(n.identifier.name, NamedConstructorName(n), methodLength(n)))
return fill(
"""
const NativePropertyHooks sNamedConstructorNativePropertyHooks = {
nullptr,
nullptr,
{ nullptr, nullptr },
prototypes::id::${name},
${constructorID},
nullptr
};
static const NamedConstructor namedConstructors[] = {
$*{namedConstructors}
{ nullptr, { nullptr, nullptr }, 0 }
};
""",
name=self.descriptor.name,
constructorID=constructorID,
namedConstructors=namedConstructors)
class CGHasInstanceHook(CGAbstractStaticMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('unsigned', 'argc'),
Argument('JS::Value*', 'vp')]
assert descriptor.interface.hasInterfaceObject()
assert NeedsGeneratedHasInstance(descriptor)
CGAbstractStaticMethod.__init__(self, descriptor, HASINSTANCE_HOOK_NAME,
'bool', args)
def define(self):
return CGAbstractStaticMethod.define(self)
def definition_body(self):
return self.generate_code()
def generate_code(self):
header = dedent("""
JS::CallArgs args = JS::CallArgsFromVp(argc, vp);
if (!args.get(0).isObject()) {
args.rval().setBoolean(false);
return true;
}
JS::Rooted<JSObject*> instance(cx, &args[0].toObject());
""")
if self.descriptor.interface.hasInterfacePrototypeObject():
return (
header +
fill(
"""
static_assert(IsBaseOf<nsISupports, ${nativeType}>::value,
"HasInstance only works for nsISupports-based classes.");
bool ok = InterfaceHasInstance(cx, argc, vp);
if (!ok || args.rval().toBoolean()) {
return ok;
}
// FIXME Limit this to chrome by checking xpc::AccessCheck::isChrome(obj).
nsISupports* native =
nsContentUtils::XPConnect()->GetNativeOfWrapper(cx,
js::UncheckedUnwrap(instance, /* stopAtWindowProxy = */ false));
nsCOMPtr<nsIDOM${name}> qiResult = do_QueryInterface(native);
args.rval().setBoolean(!!qiResult);
return true;
""",
nativeType=self.descriptor.nativeType,
name=self.descriptor.interface.identifier.name))
hasInstanceCode = dedent("""
const DOMJSClass* domClass = GetDOMClass(js::UncheckedUnwrap(instance, /* stopAtWindowProxy = */ false));
if (!domClass) {
// Not a DOM object, so certainly not an instance of this interface
args.rval().setBoolean(false);
return true;
}
""")
if self.descriptor.interface.identifier.name == "ChromeWindow":
setRval = "args.rval().setBoolean(UnwrapDOMObject<nsGlobalWindow>(js::UncheckedUnwrap(instance, /* stopAtWindowProxy = */ false))->IsChromeWindow())"
else:
setRval = "args.rval().setBoolean(true)"
# Sort interaces implementing self by name so we get stable output.
for iface in sorted(self.descriptor.interface.interfacesImplementingSelf,
key=lambda iface: iface.identifier.name):
hasInstanceCode += fill(
"""
if (domClass->mInterfaceChain[PrototypeTraits<prototypes::id::${name}>::Depth] == prototypes::id::${name}) {
${setRval};
return true;
}
""",
name=iface.identifier.name,
setRval=setRval)
hasInstanceCode += ("args.rval().setBoolean(false);\n"
"return true;\n")
return header + hasInstanceCode
def isChromeOnly(m):
return m.getExtendedAttribute("ChromeOnly")
class MemberCondition:
"""
An object representing the condition for a member to actually be
exposed. Any of the arguments can be None. If not
None, they should have the following types:
pref: The name of the preference.
func: The name of the function.
secureContext: A bool indicating whether a secure context is required.
nonExposedGlobals: A set of names of globals. Can be empty, in which case
it's treated the same way as None.
"""
def __init__(self, pref=None, func=None, secureContext=False,
nonExposedGlobals=None):
assert pref is None or isinstance(pref, str)
assert func is None or isinstance(func, str)
assert isinstance(secureContext, bool)
assert nonExposedGlobals is None or isinstance(nonExposedGlobals, set)
self.pref = pref
self.secureContext = secureContext
def toFuncPtr(val):
if val is None:
return "nullptr"
return "&" + val
self.func = toFuncPtr(func)
if nonExposedGlobals:
# Nonempty set
self.nonExposedGlobals = " | ".join(
map(lambda g: "GlobalNames::%s" % g,
sorted(nonExposedGlobals)))
else:
self.nonExposedGlobals = "0"
def __eq__(self, other):
return (self.pref == other.pref and self.func == other.func and
self.secureContext == other.secureContext and
self.nonExposedGlobals == other.nonExposedGlobals)
def __ne__(self, other):
return not self.__eq__(other)
def hasDisablers(self):
return (self.pref is not None or
self.secureContext or
self.func != "nullptr" or
self.nonExposedGlobals != "0")
class PropertyDefiner:
"""
A common superclass for defining things on prototype objects.
Subclasses should implement generateArray to generate the actual arrays of
things we're defining. They should also set self.chrome to the list of
things only exposed to chrome and self.regular to the list of things exposed
to both chrome and web pages.
"""
def __init__(self, descriptor, name):
self.descriptor = descriptor
self.name = name
# self.prefCacheData will store an array of (prefname, bool*)
# pairs for our bool var caches. generateArray will fill it
# in as needed.
self.prefCacheData = []
def hasChromeOnly(self):
return len(self.chrome) > 0
def hasNonChromeOnly(self):
return len(self.regular) > 0
def variableName(self, chrome):
if chrome:
if self.hasChromeOnly():
return "sChrome" + self.name
else:
if self.hasNonChromeOnly():
return "s" + self.name
return "nullptr"
def usedForXrays(self):
return self.descriptor.wantsXrays
def __str__(self):
# We only need to generate id arrays for things that will end
# up used via ResolveProperty or EnumerateProperties.
str = self.generateArray(self.regular, self.variableName(False),
self.usedForXrays())
if self.hasChromeOnly():
str += self.generateArray(self.chrome, self.variableName(True),
self.usedForXrays())
return str
@staticmethod
def getStringAttr(member, name):
attr = member.getExtendedAttribute(name)
if attr is None:
return None
# It's a list of strings
assert len(attr) == 1
assert attr[0] is not None
return attr[0]
@staticmethod
def getControllingCondition(interfaceMember, descriptor):
interface = descriptor.interface
nonExposureSet = interface.exposureSet - interfaceMember.exposureSet
return MemberCondition(
PropertyDefiner.getStringAttr(interfaceMember,
"Pref"),
PropertyDefiner.getStringAttr(interfaceMember,
"Func"),
interfaceMember.getExtendedAttribute("SecureContext") is not None,
nonExposureSet)
def generatePrefableArray(self, array, name, specFormatter, specTerminator,
specType, getCondition, getDataTuple, doIdArrays):
"""
This method generates our various arrays.
array is an array of interface members as passed to generateArray
name is the name as passed to generateArray
specFormatter is a function that takes a single argument, a tuple,
and returns a string, a spec array entry
specTerminator is a terminator for the spec array (inserted every time
our controlling pref changes and at the end of the array)
specType is the actual typename of our spec
getCondition is a callback function that takes an array entry and
returns the corresponding MemberCondition.
getDataTuple is a callback function that takes an array entry and
returns a tuple suitable to be passed to specFormatter.
"""
# We want to generate a single list of specs, but with specTerminator
# inserted at every point where the pref name controlling the member
# changes. That will make sure the order of the properties as exposed
# on the interface and interface prototype objects does not change when
# pref control is added to members while still allowing us to define all
# the members in the smallest number of JSAPI calls.
assert len(array) != 0
# So we won't put a specTerminator at the very front of the list:
lastCondition = getCondition(array[0], self.descriptor)
specs = []
disablers = []
prefableSpecs = []
disablersTemplate = dedent(
"""
static PrefableDisablers %s_disablers%d = {
true, %s, %s, %s
};
""")
prefableWithDisablersTemplate = ' { &%s_disablers%d, &%s_specs[%d] }'
prefableWithoutDisablersTemplate = ' { nullptr, &%s_specs[%d] }'
prefCacheTemplate = '&%s[%d].disablers->enabled'
def switchToCondition(props, condition):
# Remember the info about where our pref-controlled
# booleans live.
if condition.pref is not None:
props.prefCacheData.append(
(condition.pref,
prefCacheTemplate % (name, len(prefableSpecs))))
# Set up pointers to the new sets of specs inside prefableSpecs
if condition.hasDisablers():
prefableSpecs.append(prefableWithDisablersTemplate %
(name, len(specs), name, len(specs)))
disablers.append(disablersTemplate %
(name, len(specs),
toStringBool(condition.secureContext),
condition.nonExposedGlobals,
condition.func))
else:
prefableSpecs.append(prefableWithoutDisablersTemplate %
(name, len(specs)))
switchToCondition(self, lastCondition)
for member in array:
curCondition = getCondition(member, self.descriptor)
if lastCondition != curCondition:
# Terminate previous list
specs.append(specTerminator)
# And switch to our new condition
switchToCondition(self, curCondition)
lastCondition = curCondition
# And the actual spec
specs.append(specFormatter(getDataTuple(member)))
specs.append(specTerminator)
prefableSpecs.append(" { nullptr, nullptr }")
specType = "const " + specType
arrays = fill(
"""
static ${specType} ${name}_specs[] = {
${specs}
};
${disablers}
// Can't be const because the pref-enabled boolean needs to be writable
static Prefable<${specType}> ${name}[] = {
${prefableSpecs}
};
""",
specType=specType,
name=name,
disablers='\n'.join(disablers),
specs=',\n'.join(specs),
prefableSpecs=',\n'.join(prefableSpecs))
if doIdArrays:
arrays += "static jsid %s_ids[%i];\n\n" % (name, len(specs))
return arrays
# The length of a method is the minimum of the lengths of the
# argument lists of all its overloads.
def overloadLength(arguments):
i = len(arguments)
while i > 0 and arguments[i - 1].optional:
i -= 1
return i
def methodLength(method):
signatures = method.signatures()
return min(overloadLength(arguments) for retType, arguments in signatures)
def clearableCachedAttrs(descriptor):
return (m for m in descriptor.interface.members if
m.isAttr() and
# Constants should never need clearing!
m.dependsOn != "Nothing" and
m.slotIndices is not None)
def MakeClearCachedValueNativeName(member):
return "ClearCached%sValue" % MakeNativeName(member.identifier.name)
def MakeJSImplClearCachedValueNativeName(member):
return "_" + MakeClearCachedValueNativeName(member)
def IDLToCIdentifier(name):
return name.replace("-", "_")
class MethodDefiner(PropertyDefiner):
"""
A class for defining methods on a prototype object.
"""
def __init__(self, descriptor, name, static, unforgeable=False):
assert not (static and unforgeable)
PropertyDefiner.__init__(self, descriptor, name)
# FIXME https://bugzilla.mozilla.org/show_bug.cgi?id=772822
# We should be able to check for special operations without an
# identifier. For now we check if the name starts with __
# Ignore non-static methods for interfaces without a proto object
if descriptor.interface.hasInterfacePrototypeObject() or static:
methods = [m for m in descriptor.interface.members if
m.isMethod() and m.isStatic() == static and
MemberIsUnforgeable(m, descriptor) == unforgeable and
not m.isIdentifierLess()]
else:
methods = []
self.chrome = []
self.regular = []
for m in methods:
if m.identifier.name == 'queryInterface':
if m.isStatic():
raise TypeError("Legacy queryInterface member shouldn't be static")
signatures = m.signatures()
def argTypeIsIID(arg):
return arg.type.inner.isExternal() and arg.type.inner.identifier.name == 'IID'
if len(signatures) > 1 or len(signatures[0][1]) > 1 or not argTypeIsIID(signatures[0][1][0]):
raise TypeError("There should be only one queryInterface method with 1 argument of type IID")
# Make sure to not stick QueryInterface on abstract interfaces that
# have hasXPConnectImpls (like EventTarget). So only put it on
# interfaces that are concrete and all of whose ancestors are abstract.
def allAncestorsAbstract(iface):
if not iface.parent:
return True
desc = self.descriptor.getDescriptor(iface.parent.identifier.name)
if desc.concrete:
return False
return allAncestorsAbstract(iface.parent)
if (not self.descriptor.interface.hasInterfacePrototypeObject() or
not self.descriptor.concrete or
not allAncestorsAbstract(self.descriptor.interface)):
raise TypeError("QueryInterface is only supported on "
"interfaces that are concrete and all "
"of whose ancestors are abstract: " +
self.descriptor.name)
condition = "WantsQueryInterface<%s>::Enabled" % descriptor.nativeType
self.regular.append({
"name": 'QueryInterface',
"methodInfo": False,
"length": 1,
"flags": "0",
"condition": MemberCondition(func=condition)
})
continue
# Iterable methods should be enumerable, maplike/setlike methods
# should not.
isMaplikeOrSetlikeMethod = (m.isMaplikeOrSetlikeOrIterableMethod() and
(m.maplikeOrSetlikeOrIterable.isMaplike() or
m.maplikeOrSetlikeOrIterable.isSetlike()))
method = {
"name": m.identifier.name,
"methodInfo": not m.isStatic(),
"length": methodLength(m),
# Methods generated for a maplike/setlike declaration are not
# enumerable.
"flags": "JSPROP_ENUMERATE" if not isMaplikeOrSetlikeMethod else "0",
"condition": PropertyDefiner.getControllingCondition(m, descriptor),
"allowCrossOriginThis": m.getExtendedAttribute("CrossOriginCallable"),
"returnsPromise": m.returnsPromise(),
"hasIteratorAlias": "@@iterator" in m.aliases
}
if m.isStatic():
method["nativeName"] = CppKeywords.checkMethodName(IDLToCIdentifier(m.identifier.name))
if isChromeOnly(m):
self.chrome.append(method)
else:
self.regular.append(method)
# TODO: Once iterable is implemented, use tiebreak rules instead of
# failing. Also, may be more tiebreak rules to implement once spec bug
# is resolved.
# https://www.w3.org/Bugs/Public/show_bug.cgi?id=28592
def hasIterator(methods, regular):
return (any("@@iterator" in m.aliases for m in methods) or
any("@@iterator" == r["name"] for r in regular))
# Check whether we need to output an @@iterator due to having an indexed
# getter. We only do this while outputting non-static and
# non-unforgeable methods, since the @@iterator function will be
# neither.
if (not static and
not unforgeable and
descriptor.supportsIndexedProperties()):
if hasIterator(methods, self.regular):
raise TypeError("Cannot have indexed getter/attr on "
"interface %s with other members "
"that generate @@iterator, such as "
"maplike/setlike or aliased functions." %
self.descriptor.interface.identifier.name)
self.regular.append({
"name": "@@iterator",
"methodInfo": False,
"selfHostedName": "ArrayValues",
"length": 0,
"flags": "JSPROP_ENUMERATE",
"condition": MemberCondition()
})
if (static and
not unforgeable and
descriptor.interface.hasInterfaceObject() and
NeedsGeneratedHasInstance(descriptor)):
self.regular.append({
"name": "@@hasInstance",
"methodInfo": False,
"nativeName": HASINSTANCE_HOOK_NAME,
"length": 1,
# Flags match those of Function[Symbol.hasInstance]
"flags": "JSPROP_READONLY | JSPROP_PERMANENT",
"condition": MemberCondition()
})
# Generate the keys/values/entries aliases for value iterables.
maplikeOrSetlikeOrIterable = descriptor.interface.maplikeOrSetlikeOrIterable
if (not static and
not unforgeable and
maplikeOrSetlikeOrIterable and
maplikeOrSetlikeOrIterable.isIterable() and
maplikeOrSetlikeOrIterable.isValueIterator()):
# Add our keys/values/entries/forEach
self.regular.append({
"name": "keys",
"methodInfo": False,
"selfHostedName": "ArrayKeys",
"length": 0,
"flags": "JSPROP_ENUMERATE",
"condition": PropertyDefiner.getControllingCondition(m,
descriptor)
})
self.regular.append({
"name": "values",
"methodInfo": False,
"selfHostedName": "ArrayValues",
"length": 0,
"flags": "JSPROP_ENUMERATE",
"condition": PropertyDefiner.getControllingCondition(m,
descriptor)
})
self.regular.append({
"name": "entries",
"methodInfo": False,
"selfHostedName": "ArrayEntries",
"length": 0,
"flags": "JSPROP_ENUMERATE",
"condition": PropertyDefiner.getControllingCondition(m,
descriptor)
})
self.regular.append({
"name": "forEach",
"methodInfo": False,
"selfHostedName": "ArrayForEach",
"length": 1,
"flags": "JSPROP_ENUMERATE",
"condition": PropertyDefiner.getControllingCondition(m,
descriptor)
})
if not static:
stringifier = descriptor.operations['Stringifier']
if (stringifier and
unforgeable == MemberIsUnforgeable(stringifier, descriptor)):
toStringDesc = {
"name": "toString",
"nativeName": stringifier.identifier.name,
"length": 0,
"flags": "JSPROP_ENUMERATE",
"condition": PropertyDefiner.getControllingCondition(stringifier, descriptor)
}
if isChromeOnly(stringifier):
self.chrome.append(toStringDesc)
else:
self.regular.append(toStringDesc)
jsonifier = descriptor.operations['Jsonifier']
if (jsonifier and
unforgeable == MemberIsUnforgeable(jsonifier, descriptor)):
toJSONDesc = {
"name": "toJSON",
"nativeName": jsonifier.identifier.name,
"length": 0,
"flags": "JSPROP_ENUMERATE",
"condition": PropertyDefiner.getControllingCondition(jsonifier, descriptor)
}
if isChromeOnly(jsonifier):
self.chrome.append(toJSONDesc)
else:
self.regular.append(toJSONDesc)
if (unforgeable and
descriptor.interface.getExtendedAttribute("Unforgeable")):
# Synthesize our valueOf method
self.regular.append({
"name": 'valueOf',
"nativeName": "UnforgeableValueOf",
"methodInfo": False,
"length": 0,
"flags": "JSPROP_ENUMERATE", # readonly/permanent added
# automatically.
"condition": MemberCondition()
})
if descriptor.interface.isJSImplemented():
if static:
if descriptor.interface.hasInterfaceObject():
self.chrome.append({
"name": '_create',
"nativeName": ("%s::_Create" % descriptor.name),
"methodInfo": False,
"length": 2,
"flags": "0",
"condition": MemberCondition()
})
else:
for m in clearableCachedAttrs(descriptor):
attrName = MakeNativeName(m.identifier.name)
self.chrome.append({
"name": "_clearCached%sValue" % attrName,
"nativeName": MakeJSImplClearCachedValueNativeName(m),
"methodInfo": False,
"length": "0",
"flags": "0",
"condition": MemberCondition()
})
self.unforgeable = unforgeable
if static:
if not descriptor.interface.hasInterfaceObject():
# static methods go on the interface object
assert not self.hasChromeOnly() and not self.hasNonChromeOnly()
else:
if not descriptor.interface.hasInterfacePrototypeObject():
# non-static methods go on the interface prototype object
assert not self.hasChromeOnly() and not self.hasNonChromeOnly()
def generateArray(self, array, name, doIdArrays):
if len(array) == 0:
return ""
def condition(m, d):
return m["condition"]
def flags(m):
unforgeable = " | JSPROP_PERMANENT | JSPROP_READONLY" if self.unforgeable else ""
return m["flags"] + unforgeable
def specData(m):
if "selfHostedName" in m:
selfHostedName = '"%s"' % m["selfHostedName"]
assert not m.get("methodInfo", True)
accessor = "nullptr"
jitinfo = "nullptr"
else:
selfHostedName = "nullptr"
# When defining symbols, function name may not match symbol name
methodName = m.get("methodName", m["name"])
accessor = m.get("nativeName", IDLToCIdentifier(methodName))
if m.get("methodInfo", True):
# Cast this in case the methodInfo is a
# JSTypedMethodJitInfo.
jitinfo = ("reinterpret_cast<const JSJitInfo*>(&%s_methodinfo)" % accessor)
if m.get("allowCrossOriginThis", False):
if m.get("returnsPromise", False):
raise TypeError("%s returns a Promise but should "
"be allowed cross-origin?" %
accessor)
accessor = "genericCrossOriginMethod"
elif self.descriptor.needsSpecialGenericOps():
if m.get("returnsPromise", False):
accessor = "genericPromiseReturningMethod"
else:
accessor = "genericMethod"
elif m.get("returnsPromise", False):
accessor = "GenericPromiseReturningBindingMethod"
else:
accessor = "GenericBindingMethod"
else:
if m.get("returnsPromise", False):
jitinfo = "&%s_methodinfo" % accessor
accessor = "StaticMethodPromiseWrapper"
else:
jitinfo = "nullptr"
return (m["name"], accessor, jitinfo, m["length"], flags(m), selfHostedName)
def formatSpec(fields):
if fields[0].startswith("@@"):
fields = (fields[0][2:],) + fields[1:]
return ' JS_SYM_FNSPEC(%s, %s, %s, %s, %s, %s)' % fields
return ' JS_FNSPEC("%s", %s, %s, %s, %s, %s)' % fields
return self.generatePrefableArray(
array, name,
formatSpec,
' JS_FS_END',
'JSFunctionSpec',
condition, specData, doIdArrays)
def IsCrossOriginWritable(attr, descriptor):
"""
Return whether the IDLAttribute in question is cross-origin writable on the
interface represented by descriptor. This is needed to handle the fact that
some, but not all, interfaces implementing URLUtils want a cross-origin
writable .href.
"""
crossOriginWritable = attr.getExtendedAttribute("CrossOriginWritable")
if not crossOriginWritable:
return False
if crossOriginWritable is True:
return True
assert (isinstance(crossOriginWritable, list) and
len(crossOriginWritable) == 1)
return crossOriginWritable[0] == descriptor.interface.identifier.name
def isNonExposedNavigatorObjectGetter(attr, descriptor):
return (attr.navigatorObjectGetter and
not descriptor.getDescriptor(attr.type.inner.identifier.name).register)
class AttrDefiner(PropertyDefiner):
def __init__(self, descriptor, name, static, unforgeable=False):
assert not (static and unforgeable)
PropertyDefiner.__init__(self, descriptor, name)
self.name = name
# Ignore non-static attributes for interfaces without a proto object
if descriptor.interface.hasInterfacePrototypeObject() or static:
attributes = [m for m in descriptor.interface.members if
m.isAttr() and m.isStatic() == static and
MemberIsUnforgeable(m, descriptor) == unforgeable and
not isNonExposedNavigatorObjectGetter(m, descriptor)]
else:
attributes = []
self.chrome = [m for m in attributes if isChromeOnly(m)]
self.regular = [m for m in attributes if not isChromeOnly(m)]
self.static = static
self.unforgeable = unforgeable
if static:
if not descriptor.interface.hasInterfaceObject():
# static attributes go on the interface object
assert not self.hasChromeOnly() and not self.hasNonChromeOnly()
else:
if not descriptor.interface.hasInterfacePrototypeObject():
# non-static attributes go on the interface prototype object
assert not self.hasChromeOnly() and not self.hasNonChromeOnly()
def generateArray(self, array, name, doIdArrays):
if len(array) == 0:
return ""
def flags(attr):
unforgeable = " | JSPROP_PERMANENT" if self.unforgeable else ""
# Attributes generated as part of a maplike/setlike declaration are
# not enumerable.
enumerable = " | JSPROP_ENUMERATE" if not attr.isMaplikeOrSetlikeAttr() else ""
return ("JSPROP_SHARED" + enumerable + unforgeable)
def getter(attr):
if self.static:
accessor = 'get_' + IDLToCIdentifier(attr.identifier.name)
jitinfo = "nullptr"
else:
if attr.hasLenientThis():
accessor = "genericLenientGetter"
elif attr.getExtendedAttribute("CrossOriginReadable"):
accessor = "genericCrossOriginGetter"
elif self.descriptor.needsSpecialGenericOps():
accessor = "genericGetter"
else:
accessor = "GenericBindingGetter"
jitinfo = ("&%s_getterinfo" %
IDLToCIdentifier(attr.identifier.name))
return "{ { %s, %s } }" % \
(accessor, jitinfo)
def setter(attr):
if (attr.readonly and
attr.getExtendedAttribute("PutForwards") is None and
attr.getExtendedAttribute("Replaceable") is None and
attr.getExtendedAttribute("LenientSetter") is None):
return "JSNATIVE_WRAPPER(nullptr)"
if self.static:
accessor = 'set_' + IDLToCIdentifier(attr.identifier.name)
jitinfo = "nullptr"
else:
if attr.hasLenientThis():
accessor = "genericLenientSetter"
elif IsCrossOriginWritable(attr, self.descriptor):
accessor = "genericCrossOriginSetter"
elif self.descriptor.needsSpecialGenericOps():
accessor = "genericSetter"
else:
accessor = "GenericBindingSetter"
jitinfo = "&%s_setterinfo" % IDLToCIdentifier(attr.identifier.name)
return "{ { %s, %s } }" % \
(accessor, jitinfo)
def specData(attr):
return (attr.identifier.name, flags(attr), getter(attr),
setter(attr))
return self.generatePrefableArray(
array, name,
lambda fields: ' { "%s", %s, %s, %s}' % fields,
' JS_PS_END',
'JSPropertySpec',
PropertyDefiner.getControllingCondition, specData, doIdArrays)
class ConstDefiner(PropertyDefiner):
"""
A class for definining constants on the interface object
"""
def __init__(self, descriptor, name):
PropertyDefiner.__init__(self, descriptor, name)
self.name = name
constants = [m for m in descriptor.interface.members if m.isConst()]
self.chrome = [m for m in constants if isChromeOnly(m)]
self.regular = [m for m in constants if not isChromeOnly(m)]
def generateArray(self, array, name, doIdArrays):
if len(array) == 0:
return ""
def specData(const):
return (const.identifier.name,
convertConstIDLValueToJSVal(const.value))
return self.generatePrefableArray(
array, name,
lambda fields: ' { "%s", %s }' % fields,
' { 0, JS::UndefinedValue() }',
'ConstantSpec',
PropertyDefiner.getControllingCondition, specData, doIdArrays)
class PropertyArrays():
def __init__(self, descriptor):
self.staticMethods = MethodDefiner(descriptor, "StaticMethods",
static=True)
self.staticAttrs = AttrDefiner(descriptor, "StaticAttributes",
static=True)
self.methods = MethodDefiner(descriptor, "Methods", static=False)
self.attrs = AttrDefiner(descriptor, "Attributes", static=False)
self.unforgeableMethods = MethodDefiner(descriptor, "UnforgeableMethods",
static=False, unforgeable=True)
self.unforgeableAttrs = AttrDefiner(descriptor, "UnforgeableAttributes",
static=False, unforgeable=True)
self.consts = ConstDefiner(descriptor, "Constants")
@staticmethod
def arrayNames():
return ["staticMethods", "staticAttrs", "methods", "attrs",
"unforgeableMethods", "unforgeableAttrs", "consts"]
def hasChromeOnly(self):
return any(getattr(self, a).hasChromeOnly() for a in self.arrayNames())
def hasNonChromeOnly(self):
return any(getattr(self, a).hasNonChromeOnly() for a in self.arrayNames())
def __str__(self):
define = ""
for array in self.arrayNames():
define += str(getattr(self, array))
return define
class CGNativeProperties(CGList):
def __init__(self, descriptor, properties):
def generateNativeProperties(name, chrome):
def check(p):
return p.hasChromeOnly() if chrome else p.hasNonChromeOnly()
nativePropsInts = []
nativePropsTrios = []
iteratorAliasIndex = -1
for index, item in enumerate(properties.methods.regular):
if item.get("hasIteratorAlias"):
iteratorAliasIndex = index
break
nativePropsInts.append(CGGeneric(str(iteratorAliasIndex)))
offset = 0
for array in properties.arrayNames():
propertyArray = getattr(properties, array)
if check(propertyArray):
varName = propertyArray.variableName(chrome)
bitfields = "true, %d /* %s */" % (offset, varName)
offset += 1
nativePropsInts.append(CGGeneric(bitfields))
if propertyArray.usedForXrays():
ids = "%(name)s_ids"
else:
ids = "nullptr"
trio = "{ %(name)s, " + ids + ", %(name)s_specs }"
trio = trio % {'name': varName}
nativePropsTrios.append(CGGeneric(trio))
else:
bitfields = "false, 0"
nativePropsInts.append(CGGeneric(bitfields))
nativePropsTrios = \
[CGWrapper(CGIndenter(CGList(nativePropsTrios, ",\n")),
pre='{\n', post='\n}')]
nativeProps = nativePropsInts + nativePropsTrios
pre = ("static const NativePropertiesN<%d> %s = {\n" %
(offset, name))
return CGWrapper(CGIndenter(CGList(nativeProps, ",\n")),
pre=pre, post="\n};\n")
nativeProperties = []
if properties.hasNonChromeOnly():
nativeProperties.append(
generateNativeProperties("sNativeProperties", False))
if properties.hasChromeOnly():
nativeProperties.append(
generateNativeProperties("sChromeOnlyNativeProperties", True))
CGList.__init__(self, nativeProperties, "\n")
def declare(self):
return ""
def define(self):
return CGList.define(self)
class CGJsonifyAttributesMethod(CGAbstractMethod):
"""
Generate the JsonifyAttributes method for an interface descriptor
"""
def __init__(self, descriptor):
args = [Argument('JSContext*', 'aCx'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('%s*' % descriptor.nativeType, 'self'),
Argument('JS::Rooted<JSObject*>&', 'aResult')]
CGAbstractMethod.__init__(self, descriptor, 'JsonifyAttributes', 'bool', args)
def definition_body(self):
ret = ''
interface = self.descriptor.interface
for m in interface.members:
if m.isAttr() and not m.isStatic() and m.type.isSerializable():
ret += fill(
"""
{ // scope for "temp"
JS::Rooted<JS::Value> temp(aCx);
if (!get_${name}(aCx, obj, self, JSJitGetterCallArgs(&temp))) {
return false;
}
if (!JS_DefineProperty(aCx, aResult, "${name}", temp, JSPROP_ENUMERATE)) {
return false;
}
}
""",
name=IDLToCIdentifier(m.identifier.name))
ret += 'return true;\n'
return ret
class CGCreateInterfaceObjectsMethod(CGAbstractMethod):
"""
Generate the CreateInterfaceObjects method for an interface descriptor.
properties should be a PropertyArrays instance.
"""
def __init__(self, descriptor, properties, haveUnscopables):
args = [Argument('JSContext*', 'aCx'),
Argument('JS::Handle<JSObject*>', 'aGlobal'),
Argument('ProtoAndIfaceCache&', 'aProtoAndIfaceCache'),
Argument('bool', 'aDefineOnGlobal')]
CGAbstractMethod.__init__(self, descriptor, 'CreateInterfaceObjects', 'void', args)
self.properties = properties
self.haveUnscopables = haveUnscopables
def definition_body(self):
(protoGetter, protoHandleGetter) = InterfacePrototypeObjectProtoGetter(self.descriptor)
if protoHandleGetter is None:
parentProtoType = "Rooted"
getParentProto = "aCx, " + protoGetter
else:
parentProtoType = "Handle"
getParentProto = protoHandleGetter
getParentProto = getParentProto + "(aCx)"
(protoGetter, protoHandleGetter) = InterfaceObjectProtoGetter(self.descriptor)
if protoHandleGetter is None:
getConstructorProto = "aCx, " + protoGetter
constructorProtoType = "Rooted"
else:
getConstructorProto = protoHandleGetter
constructorProtoType = "Handle"
getConstructorProto += "(aCx)"
needInterfaceObject = self.descriptor.interface.hasInterfaceObject()
needInterfacePrototypeObject = self.descriptor.interface.hasInterfacePrototypeObject()
# if we don't need to create anything, why are we generating this?
assert needInterfaceObject or needInterfacePrototypeObject
getParentProto = fill(
"""
JS::${type}<JSObject*> parentProto(${getParentProto});
if (!parentProto) {
return;
}
""",
type=parentProtoType,
getParentProto=getParentProto)
getConstructorProto = fill(
"""
JS::${type}<JSObject*> constructorProto(${getConstructorProto});
if (!constructorProto) {
return;
}
""",
type=constructorProtoType,
getConstructorProto=getConstructorProto)
idsToInit = []
# There is no need to init any IDs in bindings that don't want Xrays.
if self.descriptor.wantsXrays:
for var in self.properties.arrayNames():
props = getattr(self.properties, var)
# We only have non-chrome ids to init if we have no chrome ids.
if props.hasChromeOnly():
idsToInit.append(props.variableName(True))
if props.hasNonChromeOnly():
idsToInit.append(props.variableName(False))
if len(idsToInit) > 0:
initIdCalls = ["!InitIds(aCx, %s, %s_ids)" % (varname, varname)
for varname in idsToInit]
idsInitedFlag = CGGeneric("static bool sIdsInited = false;\n")
setFlag = CGGeneric("sIdsInited = true;\n")
initIdConditionals = [CGIfWrapper(CGGeneric("return;\n"), call)
for call in initIdCalls]
initIds = CGList([idsInitedFlag,
CGIfWrapper(CGList(initIdConditionals + [setFlag]),
"!sIdsInited && NS_IsMainThread()")])
else:
initIds = None
prefCacheData = []
for var in self.properties.arrayNames():
props = getattr(self.properties, var)
prefCacheData.extend(props.prefCacheData)
if len(prefCacheData) != 0:
prefCacheData = [
CGGeneric('Preferences::AddBoolVarCache(%s, "%s");\n' % (ptr, pref))
for pref, ptr in prefCacheData]
prefCache = CGWrapper(CGIndenter(CGList(prefCacheData)),
pre=("static bool sPrefCachesInited = false;\n"
"if (!sPrefCachesInited && NS_IsMainThread()) {\n"
" sPrefCachesInited = true;\n"),
post="}\n")
else:
prefCache = None
if self.descriptor.interface.ctor():
constructArgs = methodLength(self.descriptor.interface.ctor())
else:
constructArgs = 0
if len(self.descriptor.interface.namedConstructors) > 0:
namedConstructors = "namedConstructors"
else:
namedConstructors = "nullptr"
if needInterfacePrototypeObject:
protoClass = "&sPrototypeClass.mBase"
protoCache = "&aProtoAndIfaceCache.EntrySlotOrCreate(prototypes::id::%s)" % self.descriptor.name
parentProto = "parentProto"
getParentProto = CGGeneric(getParentProto)
else:
protoClass = "nullptr"
protoCache = "nullptr"
parentProto = "nullptr"
getParentProto = None
if needInterfaceObject:
interfaceClass = "&sInterfaceObjectClass.mBase"
interfaceCache = "&aProtoAndIfaceCache.EntrySlotOrCreate(constructors::id::%s)" % self.descriptor.name
getConstructorProto = CGGeneric(getConstructorProto)
constructorProto = "constructorProto"
else:
# We don't have slots to store the named constructors.
assert len(self.descriptor.interface.namedConstructors) == 0
interfaceClass = "nullptr"
interfaceCache = "nullptr"
getConstructorProto = None
constructorProto = "nullptr"
isGlobal = self.descriptor.isGlobal() is not None
if self.properties.hasNonChromeOnly():
properties = "sNativeProperties.Upcast()"
else:
properties = "nullptr"
if self.properties.hasChromeOnly():
chromeProperties = "nsContentUtils::ThreadsafeIsCallerChrome() ? sChromeOnlyNativeProperties.Upcast() : nullptr"
else:
chromeProperties = "nullptr"
call = fill(
"""
JS::Heap<JSObject*>* protoCache = ${protoCache};
JS::Heap<JSObject*>* interfaceCache = ${interfaceCache};
dom::CreateInterfaceObjects(aCx, aGlobal, ${parentProto},
${protoClass}, protoCache,
${constructorProto}, ${interfaceClass}, ${constructArgs}, ${namedConstructors},
interfaceCache,
${properties},
${chromeProperties},
${name}, aDefineOnGlobal,
${unscopableNames},
${isGlobal});
""",
protoClass=protoClass,
parentProto=parentProto,
protoCache=protoCache,
constructorProto=constructorProto,
interfaceClass=interfaceClass,
constructArgs=constructArgs,
namedConstructors=namedConstructors,
interfaceCache=interfaceCache,
properties=properties,
chromeProperties=chromeProperties,
name='"' + self.descriptor.interface.identifier.name + '"' if needInterfaceObject else "nullptr",
unscopableNames="unscopableNames" if self.haveUnscopables else "nullptr",
isGlobal=toStringBool(isGlobal))
# If we fail after here, we must clear interface and prototype caches
# using this code: intermediate failure must not expose the interface in
# partially-constructed state. Note that every case after here needs an
# interface prototype object.
failureCode = dedent(
"""
*protoCache = nullptr;
if (interfaceCache) {
*interfaceCache = nullptr;
}
return;
""")
aliasedMembers = [m for m in self.descriptor.interface.members if m.isMethod() and m.aliases]
if aliasedMembers:
assert needInterfacePrototypeObject
def defineAlias(alias):
if alias == "@@iterator":
symbolJSID = "SYMBOL_TO_JSID(JS::GetWellKnownSymbol(aCx, JS::SymbolCode::iterator))"
getSymbolJSID = CGGeneric(fill("JS::Rooted<jsid> iteratorId(aCx, ${symbolJSID});",
symbolJSID=symbolJSID))
defineFn = "JS_DefinePropertyById"
prop = "iteratorId"
elif alias.startswith("@@"):
raise TypeError("Can't handle any well-known Symbol other than @@iterator")
else:
getSymbolJSID = None
defineFn = "JS_DefineProperty"
prop = '"%s"' % alias
return CGList([
getSymbolJSID,
# XXX If we ever create non-enumerable properties that can
# be aliased, we should consider making the aliases
# match the enumerability of the property being aliased.
CGGeneric(fill(
"""
if (!${defineFn}(aCx, proto, ${prop}, aliasedVal, JSPROP_ENUMERATE)) {
$*{failureCode}
}
""",
defineFn=defineFn,
prop=prop,
failureCode=failureCode))
], "\n")
def defineAliasesFor(m):
return CGList([
CGGeneric(fill(
"""
if (!JS_GetProperty(aCx, proto, \"${prop}\", &aliasedVal)) {
$*{failureCode}
}
""",
failureCode=failureCode,
prop=m.identifier.name))
] + [defineAlias(alias) for alias in sorted(m.aliases)])
defineAliases = CGList([
CGGeneric(fill("""
// Set up aliases on the interface prototype object we just created.
JS::Handle<JSObject*> proto = GetProtoObjectHandle(aCx);
if (!proto) {
$*{failureCode}
}
""",
failureCode=failureCode)),
CGGeneric("JS::Rooted<JS::Value> aliasedVal(aCx);\n\n")
] + [defineAliasesFor(m) for m in sorted(aliasedMembers)])
else:
defineAliases = None
if self.descriptor.hasUnforgeableMembers:
assert needInterfacePrototypeObject
# We want to use the same JSClass and prototype as the object we'll
# end up defining the unforgeable properties on in the end, so that
# we can use JS_InitializePropertiesFromCompatibleNativeObject to do
# a fast copy. In the case of proxies that's null, because the
# expando object is a vanilla object, but in the case of other DOM
# objects it's whatever our class is.
#
# Also, for a global we can't use the global's class; just use
# nullpr and when we do the copy off the holder we'll take a slower
# path. This also means that we don't need to worry about matching
# the prototype.
if self.descriptor.proxy or self.descriptor.isGlobal():
holderClass = "nullptr"
holderProto = "nullptr"
else:
holderClass = "sClass.ToJSClass()"
holderProto = "*protoCache"
createUnforgeableHolder = CGGeneric(fill(
"""
JS::Rooted<JSObject*> unforgeableHolder(aCx);
{
JS::Rooted<JSObject*> holderProto(aCx, ${holderProto});
unforgeableHolder = JS_NewObjectWithoutMetadata(aCx, ${holderClass}, holderProto);
if (!unforgeableHolder) {
$*{failureCode}
}
}
""",
holderProto=holderProto,
holderClass=holderClass,
failureCode=failureCode))
defineUnforgeables = InitUnforgeablePropertiesOnHolder(self.descriptor,
self.properties,
failureCode)
createUnforgeableHolder = CGList(
[createUnforgeableHolder, defineUnforgeables])
installUnforgeableHolder = CGGeneric(dedent(
"""
if (*protoCache) {
js::SetReservedSlot(*protoCache, DOM_INTERFACE_PROTO_SLOTS_BASE,
JS::ObjectValue(*unforgeableHolder));
}
"""))
unforgeableHolderSetup = CGList(
[createUnforgeableHolder, installUnforgeableHolder], "\n")
else:
unforgeableHolderSetup = None
if self.descriptor.name == "Promise":
speciesSetup = CGGeneric(fill(
"""
#ifndef SPIDERMONKEY_PROMISE
JS::Rooted<JSObject*> promiseConstructor(aCx, *interfaceCache);
JS::Rooted<jsid> species(aCx,
SYMBOL_TO_JSID(JS::GetWellKnownSymbol(aCx, JS::SymbolCode::species)));
if (!JS_DefinePropertyById(aCx, promiseConstructor, species, JS::UndefinedHandleValue,
JSPROP_SHARED, Promise::PromiseSpecies, nullptr)) {
$*{failureCode}
}
#endif // SPIDERMONKEY_PROMISE
""",
failureCode=failureCode))
else:
speciesSetup = None
if (self.descriptor.interface.isOnGlobalProtoChain() and
needInterfacePrototypeObject):
makeProtoPrototypeImmutable = CGGeneric(fill(
"""
if (*${protoCache}) {
bool succeeded;
JS::Handle<JSObject*> prot = GetProtoObjectHandle(aCx);
if (!JS_SetImmutablePrototype(aCx, prot, &succeeded)) {
$*{failureCode}
}
MOZ_ASSERT(succeeded,
"making a fresh prototype object's [[Prototype]] "
"immutable can internally fail, but it should "
"never be unsuccessful");
}
""",
protoCache=protoCache,
failureCode=failureCode))
else:
makeProtoPrototypeImmutable = None
return CGList(
[getParentProto, getConstructorProto, initIds,
prefCache, CGGeneric(call), defineAliases, unforgeableHolderSetup,
speciesSetup, makeProtoPrototypeImmutable],
"\n").define()
class CGGetPerInterfaceObject(CGAbstractMethod):
"""
A method for getting a per-interface object (a prototype object or interface
constructor object).
"""
def __init__(self, descriptor, name, idPrefix="", extraArgs=[]):
args = [Argument('JSContext*', 'aCx')] + extraArgs
CGAbstractMethod.__init__(self, descriptor, name,
'JS::Handle<JSObject*>', args)
self.id = idPrefix + "id::" + self.descriptor.name
def definition_body(self):
return fill(
"""
/* Make sure our global is sane. Hopefully we can remove this sometime */
JSObject* global = JS::CurrentGlobalOrNull(aCx);
if (!(js::GetObjectClass(global)->flags & JSCLASS_DOM_GLOBAL)) {
return nullptr;
}
/* Check to see whether the interface objects are already installed */
ProtoAndIfaceCache& protoAndIfaceCache = *GetProtoAndIfaceCache(global);
if (!protoAndIfaceCache.EntrySlotIfExists(${id})) {
JS::Rooted<JSObject*> rootedGlobal(aCx, global);
CreateInterfaceObjects(aCx, rootedGlobal, protoAndIfaceCache, aDefineOnGlobal);
}
/*
* The object might _still_ be null, but that's OK.
*
* Calling fromMarkedLocation() is safe because protoAndIfaceCache is
* traced by TraceProtoAndIfaceCache() and its contents are never
* changed after they have been set.
*/
return JS::Handle<JSObject*>::fromMarkedLocation(protoAndIfaceCache.EntrySlotMustExist(${id}).address());
""",
id=self.id)
class CGGetProtoObjectHandleMethod(CGGetPerInterfaceObject):
"""
A method for getting the interface prototype object.
"""
def __init__(self, descriptor):
CGGetPerInterfaceObject.__init__(self, descriptor, "GetProtoObjectHandle",
"prototypes::")
def definition_body(self):
return dedent("""
/* Get the interface prototype object for this class. This will create the
object as needed. */
bool aDefineOnGlobal = true;
""") + CGGetPerInterfaceObject.definition_body(self)
class CGGetProtoObjectMethod(CGAbstractMethod):
"""
A method for getting the interface prototype object.
"""
def __init__(self, descriptor):
CGAbstractMethod.__init__(
self, descriptor, "GetProtoObject", "JSObject*",
[Argument('JSContext*', 'aCx')])
def definition_body(self):
return "return GetProtoObjectHandle(aCx);\n"
class CGGetConstructorObjectHandleMethod(CGGetPerInterfaceObject):
"""
A method for getting the interface constructor object.
"""
def __init__(self, descriptor):
CGGetPerInterfaceObject.__init__(
self, descriptor, "GetConstructorObjectHandle",
"constructors::",
extraArgs=[Argument("bool", "aDefineOnGlobal", "true")])
def definition_body(self):
return dedent("""
/* Get the interface object for this class. This will create the object as
needed. */
""") + CGGetPerInterfaceObject.definition_body(self)
class CGGetConstructorObjectMethod(CGAbstractMethod):
"""
A method for getting the interface constructor object.
"""
def __init__(self, descriptor):
CGAbstractMethod.__init__(
self, descriptor, "GetConstructorObject", "JSObject*",
[Argument('JSContext*', 'aCx')])
def definition_body(self):
return "return GetConstructorObjectHandle(aCx);\n"
class CGGetNamedPropertiesObjectMethod(CGAbstractStaticMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'aCx')]
CGAbstractStaticMethod.__init__(self, descriptor,
'GetNamedPropertiesObject',
'JSObject*', args)
def definition_body(self):
parentProtoName = self.descriptor.parentPrototypeName
if parentProtoName is None:
getParentProto = ""
parentProto = "nullptr"
else:
getParentProto = fill(
"""
JS::Rooted<JSObject*> parentProto(aCx, ${parent}::GetProtoObjectHandle(aCx));
if (!parentProto) {
return nullptr;
}
""",
parent=toBindingNamespace(parentProtoName))
parentProto = "parentProto"
return fill(
"""
/* Make sure our global is sane. Hopefully we can remove this sometime */
JSObject* global = JS::CurrentGlobalOrNull(aCx);
if (!(js::GetObjectClass(global)->flags & JSCLASS_DOM_GLOBAL)) {
return nullptr;
}
/* Check to see whether the named properties object has already been created */
ProtoAndIfaceCache& protoAndIfaceCache = *GetProtoAndIfaceCache(global);
JS::Heap<JSObject*>& namedPropertiesObject = protoAndIfaceCache.EntrySlotOrCreate(namedpropertiesobjects::id::${ifaceName});
if (!namedPropertiesObject) {
$*{getParentProto}
namedPropertiesObject = ${nativeType}::CreateNamedPropertiesObject(aCx, ${parentProto});
DebugOnly<const DOMIfaceAndProtoJSClass*> clasp =
DOMIfaceAndProtoJSClass::FromJSClass(js::GetObjectClass(namedPropertiesObject));
MOZ_ASSERT(clasp->mType == eNamedPropertiesObject,
"Expected ${nativeType}::CreateNamedPropertiesObject to return a named properties object");
MOZ_ASSERT(clasp->mNativeHooks,
"The named properties object for ${nativeType} should have NativePropertyHooks.");
MOZ_ASSERT(clasp->mNativeHooks->mResolveOwnProperty,
"Don't know how to resolve the properties of the named properties object for ${nativeType}.");
MOZ_ASSERT(clasp->mNativeHooks->mEnumerateOwnProperties,
"Don't know how to enumerate the properties of the named properties object for ${nativeType}.");
}
return namedPropertiesObject.get();
""",
getParentProto=getParentProto,
ifaceName=self.descriptor.name,
parentProto=parentProto,
nativeType=self.descriptor.nativeType)
class CGDefineDOMInterfaceMethod(CGAbstractMethod):
"""
A method for resolve hooks to try to lazily define the interface object for
a given interface.
"""
def __init__(self, descriptor):
args = [Argument('JSContext*', 'aCx'),
Argument('JS::Handle<JSObject*>', 'aGlobal'),
Argument('JS::Handle<jsid>', 'id'),
Argument('bool', 'aDefineOnGlobal')]
CGAbstractMethod.__init__(self, descriptor, 'DefineDOMInterface', 'JSObject*', args)
def definition_body(self):
if len(self.descriptor.interface.namedConstructors) > 0:
getConstructor = dedent("""
JSObject* interfaceObject = GetConstructorObjectHandle(aCx, aDefineOnGlobal);
if (!interfaceObject) {
return nullptr;
}
for (unsigned slot = DOM_INTERFACE_SLOTS_BASE; slot < JSCLASS_RESERVED_SLOTS(&sInterfaceObjectClass.mBase); ++slot) {
JSObject* constructor = &js::GetReservedSlot(interfaceObject, slot).toObject();
if (JS_GetFunctionId(JS_GetObjectFunction(constructor)) == JSID_TO_STRING(id)) {
return constructor;
}
}
return interfaceObject;
""")
else:
getConstructor = "return GetConstructorObjectHandle(aCx, aDefineOnGlobal);\n"
return getConstructor
def getConditionList(idlobj, cxName, objName):
"""
Get the list of conditions for idlobj (to be used in "is this enabled"
checks). This will be returned as a CGList with " &&\n" as the separator,
for readability.
objName is the name of the object that we're working with, because some of
our test functions want that.
"""
conditions = []
pref = idlobj.getExtendedAttribute("Pref")
if pref:
assert isinstance(pref, list) and len(pref) == 1
conditions.append('Preferences::GetBool("%s")' % pref[0])
if idlobj.getExtendedAttribute("ChromeOnly"):
conditions.append("nsContentUtils::ThreadsafeIsCallerChrome()")
func = idlobj.getExtendedAttribute("Func")
if func:
assert isinstance(func, list) and len(func) == 1
conditions.append("%s(%s, %s)" % (func[0], cxName, objName))
if idlobj.getExtendedAttribute("SecureContext"):
conditions.append("mozilla::dom::IsSecureContextOrObjectIsFromSecureContext(%s, %s)" % (cxName, objName))
return CGList((CGGeneric(cond) for cond in conditions), " &&\n")
class CGConstructorEnabled(CGAbstractMethod):
"""
A method for testing whether we should be exposing this interface
object or navigator property. This can perform various tests
depending on what conditions are specified on the interface.
"""
def __init__(self, descriptor):
CGAbstractMethod.__init__(self, descriptor,
'ConstructorEnabled', 'bool',
[Argument("JSContext*", "aCx"),
Argument("JS::Handle<JSObject*>", "aObj")])
def definition_body(self):
body = CGList([], "\n")
iface = self.descriptor.interface
if not iface.isExposedOnMainThread():
exposedInWindowCheck = dedent(
"""
MOZ_ASSERT(!NS_IsMainThread(), "Why did we even get called?");
""")
body.append(CGGeneric(exposedInWindowCheck))
if iface.isExposedInSomeButNotAllWorkers():
workerGlobals = sorted(iface.getWorkerExposureSet())
workerCondition = CGList((CGGeneric('strcmp(name, "%s")' % workerGlobal)
for workerGlobal in workerGlobals), " && ")
exposedInWorkerCheck = fill(
"""
const char* name = js::GetObjectClass(aObj)->name;
if (${workerCondition}) {
return false;
}
""", workerCondition=workerCondition.define())
exposedInWorkerCheck = CGGeneric(exposedInWorkerCheck)
if iface.isExposedOnMainThread():
exposedInWorkerCheck = CGIfWrapper(exposedInWorkerCheck,
"!NS_IsMainThread()")
body.append(exposedInWorkerCheck)
conditions = getConditionList(iface, "aCx", "aObj")
# We should really have some conditions
assert len(body) or len(conditions)
conditionsWrapper = ""
if len(conditions):
conditionsWrapper = CGWrapper(conditions,
pre="return ",
post=";\n",
reindent=True)
else:
conditionsWrapper = CGGeneric("return true;\n")
body.append(conditionsWrapper)
return body.define()
def CreateBindingJSObject(descriptor, properties):
objDecl = "BindingJSObjectCreator<%s> creator(aCx);\n" % descriptor.nativeType
# We don't always need to root obj, but there are a variety
# of cases where we do, so for simplicity, just always root it.
if descriptor.proxy:
create = dedent(
"""
creator.CreateProxyObject(aCx, &sClass.mBase, DOMProxyHandler::getInstance(),
proto, aObject, aReflector);
if (!aReflector) {
return false;
}
""")
if descriptor.interface.getExtendedAttribute('OverrideBuiltins'):
create += dedent("""
js::SetProxyExtra(aReflector, JSPROXYSLOT_EXPANDO,
JS::PrivateValue(&aObject->mExpandoAndGeneration));
""")
else:
create = dedent(
"""
creator.CreateObject(aCx, sClass.ToJSClass(), proto, aObject, aReflector);
if (!aReflector) {
return false;
}
""")
return objDecl + create
def InitUnforgeablePropertiesOnHolder(descriptor, properties, failureCode):
"""
Define the unforgeable properties on the unforgeable holder for
the interface represented by descriptor.
properties is a PropertyArrays instance.
"""
assert (properties.unforgeableAttrs.hasNonChromeOnly() or
properties.unforgeableAttrs.hasChromeOnly() or
properties.unforgeableMethods.hasNonChromeOnly() or
properties.unforgeableMethods.hasChromeOnly())
unforgeables = []
defineUnforgeableAttrs = fill(
"""
if (!DefineUnforgeableAttributes(aCx, unforgeableHolder, %s)) {
$*{failureCode}
}
""",
failureCode=failureCode)
defineUnforgeableMethods = fill(
"""
if (!DefineUnforgeableMethods(aCx, unforgeableHolder, %s)) {
$*{failureCode}
}
""",
failureCode=failureCode)
unforgeableMembers = [
(defineUnforgeableAttrs, properties.unforgeableAttrs),
(defineUnforgeableMethods, properties.unforgeableMethods)
]
for (template, array) in unforgeableMembers:
if array.hasNonChromeOnly():
unforgeables.append(CGGeneric(template % array.variableName(False)))
if array.hasChromeOnly():
unforgeables.append(
CGIfWrapper(CGGeneric(template % array.variableName(True)),
"nsContentUtils::ThreadsafeIsCallerChrome()"))
if descriptor.interface.getExtendedAttribute("Unforgeable"):
# We do our undefined toJSON and toPrimitive here, not as a regular
# property because we don't have a concept of value props anywhere in
# IDL.
unforgeables.append(CGGeneric(fill(
"""
JS::RootedId toPrimitive(aCx,
SYMBOL_TO_JSID(JS::GetWellKnownSymbol(aCx, JS::SymbolCode::toPrimitive)));
if (!JS_DefinePropertyById(aCx, unforgeableHolder, toPrimitive,
JS::UndefinedHandleValue,
JSPROP_READONLY | JSPROP_PERMANENT) ||
!JS_DefineProperty(aCx, unforgeableHolder, "toJSON",
JS::UndefinedHandleValue,
JSPROP_READONLY | JSPROP_ENUMERATE | JSPROP_PERMANENT)) {
$*{failureCode}
}
""",
failureCode=failureCode)))
return CGWrapper(CGList(unforgeables), pre="\n")
def CopyUnforgeablePropertiesToInstance(descriptor, wrapperCache):
"""
Copy the unforgeable properties from the unforgeable holder for
this interface to the instance object we have.
"""
if not descriptor.hasUnforgeableMembers:
return ""
copyCode = [
CGGeneric(dedent(
"""
// Important: do unforgeable property setup after we have handed
// over ownership of the C++ object to obj as needed, so that if
// we fail and it ends up GCed it won't have problems in the
// finalizer trying to drop its ownership of the C++ object.
"""))
]
if wrapperCache:
cleanup = dedent(
"""
aCache->ReleaseWrapper(aObject);
aCache->ClearWrapper();
""")
else:
cleanup = ""
# For proxies, we want to define on the expando object, not directly on the
# reflector, so we can make sure we don't get confused by named getters.
if descriptor.proxy:
copyCode.append(CGGeneric(fill(
"""
JS::Rooted<JSObject*> expando(aCx,
DOMProxyHandler::EnsureExpandoObject(aCx, aReflector));
if (!expando) {
$*{cleanup}
return false;
}
""",
cleanup=cleanup)))
obj = "expando"
else:
obj = "aReflector"
# We can't do the fast copy for globals, because we can't allocate the
# unforgeable holder for those with the right JSClass. Luckily, there
# aren't too many globals being created.
if descriptor.isGlobal():
copyFunc = "JS_CopyPropertiesFrom"
else:
copyFunc = "JS_InitializePropertiesFromCompatibleNativeObject"
copyCode.append(CGGeneric(fill(
"""
JS::Rooted<JSObject*> unforgeableHolder(aCx,
&js::GetReservedSlot(canonicalProto, DOM_INTERFACE_PROTO_SLOTS_BASE).toObject());
if (!${copyFunc}(aCx, ${obj}, unforgeableHolder)) {
$*{cleanup}
return false;
}
""",
copyFunc=copyFunc,
obj=obj,
cleanup=cleanup)))
return CGWrapper(CGList(copyCode), pre="\n").define()
def AssertInheritanceChain(descriptor):
asserts = ""
iface = descriptor.interface
while iface:
desc = descriptor.getDescriptor(iface.identifier.name)
asserts += (
"MOZ_ASSERT(static_cast<%s*>(aObject) == \n"
" reinterpret_cast<%s*>(aObject),\n"
" \"Multiple inheritance for %s is broken.\");\n" %
(desc.nativeType, desc.nativeType, desc.nativeType))
iface = iface.parent
asserts += "MOZ_ASSERT(ToSupportsIsCorrect(aObject));\n"
return asserts
def InitMemberSlots(descriptor, wrapperCache):
"""
Initialize member slots on our JS object if we're supposed to have some.
Note that this is called after the SetWrapper() call in the
wrapperCache case, since that can affect how our getters behave
and we plan to invoke them here. So if we fail, we need to
ClearWrapper.
"""
if not descriptor.interface.hasMembersInSlots():
return ""
if wrapperCache:
clearWrapper = dedent(
"""
aCache->ReleaseWrapper(aObject);
aCache->ClearWrapper();
""")
else:
clearWrapper = ""
return fill(
"""
if (!UpdateMemberSlots(aCx, aReflector, aObject)) {
$*{clearWrapper}
return false;
}
""",
clearWrapper=clearWrapper)
def DeclareProto():
"""
Declare the canonicalProto and proto we have for our wrapping operation.
"""
return dedent(
"""
JS::Handle<JSObject*> canonicalProto = GetProtoObjectHandle(aCx);
if (!canonicalProto) {
return false;
}
JS::Rooted<JSObject*> proto(aCx);
if (aGivenProto) {
proto = aGivenProto;
// Unfortunately, while aGivenProto was in the compartment of aCx
// coming in, we changed compartments to that of "parent" so may need
// to wrap the proto here.
if (js::GetContextCompartment(aCx) != js::GetObjectCompartment(proto)) {
if (!JS_WrapObject(aCx, &proto)) {
return false;
}
}
} else {
proto = canonicalProto;
}
""")
class CGWrapWithCacheMethod(CGAbstractMethod):
"""
Create a wrapper JSObject for a given native that implements nsWrapperCache.
properties should be a PropertyArrays instance.
"""
def __init__(self, descriptor, properties):
assert descriptor.interface.hasInterfacePrototypeObject()
args = [Argument('JSContext*', 'aCx'),
Argument(descriptor.nativeType + '*', 'aObject'),
Argument('nsWrapperCache*', 'aCache'),
Argument('JS::Handle<JSObject*>', 'aGivenProto'),
Argument('JS::MutableHandle<JSObject*>', 'aReflector')]
CGAbstractMethod.__init__(self, descriptor, 'Wrap', 'bool', args)
self.properties = properties
def definition_body(self):
if self.descriptor.proxy:
preserveWrapper = dedent(
"""
// For DOM proxies, the only reliable way to preserve the wrapper
// is to force creation of the expando object.
JS::Rooted<JSObject*> unused(aCx,
DOMProxyHandler::EnsureExpandoObject(aCx, aReflector));
""")
else:
preserveWrapper = "PreserveWrapper(aObject);\n"
return fill(
"""
$*{assertInheritance}
MOZ_ASSERT(!aCache->GetWrapper(),
"You should probably not be using Wrap() directly; use "
"GetOrCreateDOMReflector instead");
MOZ_ASSERT(ToSupportsIsOnPrimaryInheritanceChain(aObject, aCache),
"nsISupports must be on our primary inheritance chain");
JS::Rooted<JSObject*> global(aCx, FindAssociatedGlobal(aCx, aObject->GetParentObject()));
if (!global) {
return false;
}
MOZ_ASSERT(JS_IsGlobalObject(global));
MOZ_ASSERT(!JS::ObjectIsMarkedGray(global));
// That might have ended up wrapping us already, due to the wonders
// of XBL. Check for that, and bail out as needed.
aReflector.set(aCache->GetWrapper());
if (aReflector) {
#ifdef DEBUG
binding_detail::AssertReflectorHasGivenProto(aCx, aReflector, aGivenProto);
#endif // DEBUG
return true;
}
JSAutoCompartment ac(aCx, global);
$*{declareProto}
$*{createObject}
aCache->SetWrapper(aReflector);
$*{unforgeable}
$*{slots}
creator.InitializationSucceeded();
MOZ_ASSERT(aCache->GetWrapperPreserveColor() &&
aCache->GetWrapperPreserveColor() == aReflector);
// If proto != canonicalProto, we have to preserve our wrapper;
// otherwise we won't be able to properly recreate it later, since
// we won't know what proto to use. Note that we don't check
// aGivenProto here, since it's entirely possible (and even
// somewhat common) to have a non-null aGivenProto which is the
// same as canonicalProto.
if (proto != canonicalProto) {
$*{preserveWrapper}
}
return true;
""",
assertInheritance=AssertInheritanceChain(self.descriptor),
declareProto=DeclareProto(),
createObject=CreateBindingJSObject(self.descriptor, self.properties),
unforgeable=CopyUnforgeablePropertiesToInstance(self.descriptor, True),
slots=InitMemberSlots(self.descriptor, True),
preserveWrapper=preserveWrapper)
class CGWrapMethod(CGAbstractMethod):
def __init__(self, descriptor):
# XXX can we wrap if we don't have an interface prototype object?
assert descriptor.interface.hasInterfacePrototypeObject()
args = [Argument('JSContext*', 'aCx'),
Argument('T*', 'aObject'),
Argument('JS::Handle<JSObject*>', 'aGivenProto')]
CGAbstractMethod.__init__(self, descriptor, 'Wrap', 'JSObject*', args,
inline=True, templateArgs=["class T"])
def definition_body(self):
return dedent("""
JS::Rooted<JSObject*> reflector(aCx);
return Wrap(aCx, aObject, aObject, aGivenProto, &reflector) ? reflector.get() : nullptr;
""")
class CGWrapNonWrapperCacheMethod(CGAbstractMethod):
"""
Create a wrapper JSObject for a given native that does not implement
nsWrapperCache.
properties should be a PropertyArrays instance.
"""
def __init__(self, descriptor, properties):
# XXX can we wrap if we don't have an interface prototype object?
assert descriptor.interface.hasInterfacePrototypeObject()
args = [Argument('JSContext*', 'aCx'),
Argument(descriptor.nativeType + '*', 'aObject'),
Argument('JS::Handle<JSObject*>', 'aGivenProto'),
Argument('JS::MutableHandle<JSObject*>', 'aReflector')]
CGAbstractMethod.__init__(self, descriptor, 'Wrap', 'bool', args)
self.properties = properties
def definition_body(self):
return fill(
"""
$*{assertions}
JS::Rooted<JSObject*> global(aCx, JS::CurrentGlobalOrNull(aCx));
$*{declareProto}
$*{createObject}
$*{unforgeable}
$*{slots}
creator.InitializationSucceeded();
return true;
""",
assertions=AssertInheritanceChain(self.descriptor),
declareProto=DeclareProto(),
createObject=CreateBindingJSObject(self.descriptor, self.properties),
unforgeable=CopyUnforgeablePropertiesToInstance(self.descriptor, False),
slots=InitMemberSlots(self.descriptor, False))
class CGWrapGlobalMethod(CGAbstractMethod):
"""
Create a wrapper JSObject for a global. The global must implement
nsWrapperCache.
properties should be a PropertyArrays instance.
"""
def __init__(self, descriptor, properties):
assert descriptor.interface.hasInterfacePrototypeObject()
args = [Argument('JSContext*', 'aCx'),
Argument(descriptor.nativeType + '*', 'aObject'),
Argument('nsWrapperCache*', 'aCache'),
Argument('JS::CompartmentOptions&', 'aOptions'),
Argument('JSPrincipals*', 'aPrincipal'),
Argument('bool', 'aInitStandardClasses'),
Argument('JS::MutableHandle<JSObject*>', 'aReflector')]
CGAbstractMethod.__init__(self, descriptor, 'Wrap', 'bool', args)
self.descriptor = descriptor
self.properties = properties
def definition_body(self):
if self.properties.hasNonChromeOnly():
properties = "sNativeProperties.Upcast()"
else:
properties = "nullptr"
if self.properties.hasChromeOnly():
chromeProperties = "nsContentUtils::ThreadsafeIsCallerChrome() ? sChromeOnlyNativeProperties.Upcast() : nullptr"
else:
chromeProperties = "nullptr"
if self.descriptor.hasUnforgeableMembers:
declareProto = "JS::Handle<JSObject*> canonicalProto =\n"
assertProto = (
"MOZ_ASSERT(canonicalProto &&\n"
" IsDOMIfaceAndProtoClass(js::GetObjectClass(canonicalProto)));\n")
else:
declareProto = ""
assertProto = ""
return fill(
"""
$*{assertions}
MOZ_ASSERT(ToSupportsIsOnPrimaryInheritanceChain(aObject, aCache),
"nsISupports must be on our primary inheritance chain");
$*{declareProto}
CreateGlobal<${nativeType}, GetProtoObjectHandle>(aCx,
aObject,
aCache,
sClass.ToJSClass(),
aOptions,
aPrincipal,
aInitStandardClasses,
aReflector);
if (!aReflector) {
return false;
}
$*{assertProto}
// aReflector is a new global, so has a new compartment. Enter it
// before doing anything with it.
JSAutoCompartment ac(aCx, aReflector);
if (!DefineProperties(aCx, aReflector, ${properties}, ${chromeProperties})) {
return false;
}
$*{unforgeable}
$*{slots}
return true;
""",
assertions=AssertInheritanceChain(self.descriptor),
nativeType=self.descriptor.nativeType,
declareProto=declareProto,
assertProto=assertProto,
properties=properties,
chromeProperties=chromeProperties,
unforgeable=CopyUnforgeablePropertiesToInstance(self.descriptor, True),
slots=InitMemberSlots(self.descriptor, True))
class CGUpdateMemberSlotsMethod(CGAbstractStaticMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'aCx'),
Argument('JS::Handle<JSObject*>', 'aWrapper'),
Argument(descriptor.nativeType + '*', 'aObject')]
CGAbstractStaticMethod.__init__(self, descriptor, 'UpdateMemberSlots', 'bool', args)
def definition_body(self):
body = ("JS::Rooted<JS::Value> temp(aCx);\n"
"JSJitGetterCallArgs args(&temp);\n")
for m in self.descriptor.interface.members:
if m.isAttr() and m.getExtendedAttribute("StoreInSlot"):
# Skip doing this for the "window" and "self" attributes on the
# Window interface, because those can't be gotten safely until
# we have hooked it up correctly to the outer window. The
# window code handles doing the get itself.
if (self.descriptor.interface.identifier.name == "Window" and
(m.identifier.name == "window" or m.identifier.name == "self")):
continue
body += fill(
"""
if (!get_${member}(aCx, aWrapper, aObject, args)) {
return false;
}
// Getter handled setting our reserved slots
""",
member=m.identifier.name)
body += "\nreturn true;\n"
return body
class CGClearCachedValueMethod(CGAbstractMethod):
def __init__(self, descriptor, member):
self.member = member
# If we're StoreInSlot, we'll need to call the getter
if member.getExtendedAttribute("StoreInSlot"):
args = [Argument('JSContext*', 'aCx')]
returnType = 'bool'
else:
args = []
returnType = 'void'
args.append(Argument(descriptor.nativeType + '*', 'aObject'))
name = MakeClearCachedValueNativeName(member)
CGAbstractMethod.__init__(self, descriptor, name, returnType, args)
def definition_body(self):
slotIndex = memberReservedSlot(self.member, self.descriptor)
if self.member.getExtendedAttribute("StoreInSlot"):
# We have to root things and save the old value in case
# regetting fails, so we can restore it.
declObj = "JS::Rooted<JSObject*> obj(aCx);\n"
noopRetval = " true"
saveMember = (
"JS::Rooted<JS::Value> oldValue(aCx, js::GetReservedSlot(obj, %s));\n" %
slotIndex)
regetMember = fill(
"""
JS::Rooted<JS::Value> temp(aCx);
JSJitGetterCallArgs args(&temp);
JSAutoCompartment ac(aCx, obj);
if (!get_${name}(aCx, obj, aObject, args)) {
js::SetReservedSlot(obj, ${slotIndex}, oldValue);
return false;
}
return true;
""",
name=self.member.identifier.name,
slotIndex=slotIndex)
else:
declObj = "JSObject* obj;\n"
noopRetval = ""
saveMember = ""
regetMember = ""
return fill(
"""
$*{declObj}
obj = aObject->GetWrapper();
if (!obj) {
return${noopRetval};
}
$*{saveMember}
js::SetReservedSlot(obj, ${slotIndex}, JS::UndefinedValue());
$*{regetMember}
""",
declObj=declObj,
noopRetval=noopRetval,
saveMember=saveMember,
slotIndex=slotIndex,
regetMember=regetMember)
class CGIsPermittedMethod(CGAbstractMethod):
"""
crossOriginGetters/Setters/Methods are sets of names of the relevant members.
"""
def __init__(self, descriptor, crossOriginGetters, crossOriginSetters,
crossOriginMethods):
self.crossOriginGetters = crossOriginGetters
self.crossOriginSetters = crossOriginSetters
self.crossOriginMethods = crossOriginMethods
args = [Argument("JSFlatString*", "prop"),
Argument("char16_t", "propFirstChar"),
Argument("bool", "set")]
CGAbstractMethod.__init__(self, descriptor, "IsPermitted", "bool", args,
inline=True)
def definition_body(self):
allNames = self.crossOriginGetters | self.crossOriginSetters | self.crossOriginMethods
readwrite = self.crossOriginGetters & self.crossOriginSetters
readonly = (self.crossOriginGetters - self.crossOriginSetters) | self.crossOriginMethods
writeonly = self.crossOriginSetters - self.crossOriginGetters
cases = {}
for name in sorted(allNames):
cond = 'JS_FlatStringEqualsAscii(prop, "%s")' % name
if name in readonly:
cond = "!set && %s" % cond
elif name in writeonly:
cond = "set && %s" % cond
else:
assert name in readwrite
firstLetter = name[0]
case = cases.get(firstLetter, CGList([]))
case.append(CGGeneric("if (%s) {\n"
" return true;\n"
"}\n" % cond))
cases[firstLetter] = case
caseList = []
for firstLetter in sorted(cases.keys()):
caseList.append(CGCase("'%s'" % firstLetter, cases[firstLetter]))
switch = CGSwitch("propFirstChar", caseList)
return switch.define() + "\nreturn false;\n"
class CGCycleCollectionTraverseForOwningUnionMethod(CGAbstractMethod):
"""
ImplCycleCollectionUnlink for owning union type.
"""
def __init__(self, type):
self.type = type
args = [Argument("nsCycleCollectionTraversalCallback&", "aCallback"),
Argument("%s&" % CGUnionStruct.unionTypeName(type, True), "aUnion"),
Argument("const char*", "aName"),
Argument("uint32_t", "aFlags", "0")]
CGAbstractMethod.__init__(self, None, "ImplCycleCollectionTraverse", "void", args)
def deps(self):
return self.type.getDeps()
def definition_body(self):
memberNames = [getUnionMemberName(t)
for t in self.type.flatMemberTypes
if idlTypeNeedsCycleCollection(t)]
assert memberNames
conditionTemplate = 'aUnion.Is%s()'
functionCallTemplate = 'ImplCycleCollectionTraverse(aCallback, aUnion.GetAs%s(), "m%s", aFlags);\n'
ifStaments = (CGIfWrapper(CGGeneric(functionCallTemplate % (m, m)),
conditionTemplate % m)
for m in memberNames)
return CGElseChain(ifStaments).define()
class CGCycleCollectionUnlinkForOwningUnionMethod(CGAbstractMethod):
"""
ImplCycleCollectionUnlink for owning union type.
"""
def __init__(self, type):
self.type = type
args = [Argument("%s&" % CGUnionStruct.unionTypeName(type, True), "aUnion")]
CGAbstractMethod.__init__(self, None, "ImplCycleCollectionUnlink", "void", args)
def deps(self):
return self.type.getDeps()
def definition_body(self):
return "aUnion.Uninit();\n"
builtinNames = {
IDLType.Tags.bool: 'bool',
IDLType.Tags.int8: 'int8_t',
IDLType.Tags.int16: 'int16_t',
IDLType.Tags.int32: 'int32_t',
IDLType.Tags.int64: 'int64_t',
IDLType.Tags.uint8: 'uint8_t',
IDLType.Tags.uint16: 'uint16_t',
IDLType.Tags.uint32: 'uint32_t',
IDLType.Tags.uint64: 'uint64_t',
IDLType.Tags.unrestricted_float: 'float',
IDLType.Tags.float: 'float',
IDLType.Tags.unrestricted_double: 'double',
IDLType.Tags.double: 'double'
}
numericSuffixes = {
IDLType.Tags.int8: '',
IDLType.Tags.uint8: '',
IDLType.Tags.int16: '',
IDLType.Tags.uint16: '',
IDLType.Tags.int32: '',
IDLType.Tags.uint32: 'U',
IDLType.Tags.int64: 'LL',
IDLType.Tags.uint64: 'ULL',
IDLType.Tags.unrestricted_float: 'F',
IDLType.Tags.float: 'F',
IDLType.Tags.unrestricted_double: '',
IDLType.Tags.double: ''
}
def numericValue(t, v):
if (t == IDLType.Tags.unrestricted_double or
t == IDLType.Tags.unrestricted_float):
typeName = builtinNames[t]
if v == float("inf"):
return "mozilla::PositiveInfinity<%s>()" % typeName
if v == float("-inf"):
return "mozilla::NegativeInfinity<%s>()" % typeName
if math.isnan(v):
return "mozilla::UnspecifiedNaN<%s>()" % typeName
return "%s%s" % (v, numericSuffixes[t])
class CastableObjectUnwrapper():
"""
A class for unwrapping an object named by the "source" argument
based on the passed-in descriptor and storing it in a variable
called by the name in the "target" argument.
codeOnFailure is the code to run if unwrapping fails.
If isCallbackReturnValue is "JSImpl" and our descriptor is also
JS-implemented, fall back to just creating the right object if what we
have isn't one already.
If allowCrossOriginObj is True, then we'll first do an
UncheckedUnwrap and then operate on the result.
"""
def __init__(self, descriptor, source, target, codeOnFailure,
exceptionCode=None, isCallbackReturnValue=False,
allowCrossOriginObj=False):
self.substitution = {
"type": descriptor.nativeType,
"protoID": "prototypes::id::" + descriptor.name,
"target": target,
"codeOnFailure": codeOnFailure,
}
if allowCrossOriginObj:
self.substitution["uncheckedObjDecl"] = fill(
"""
JS::Rooted<JSObject*> maybeUncheckedObj(cx);
if (xpc::WrapperFactory::IsXrayWrapper(${source})) {
maybeUncheckedObj = js::UncheckedUnwrap(${source});
} else {
maybeUncheckedObj = js::CheckedUnwrap(${source});
if (!maybeUncheckedObj) {
$*{codeOnFailure}
}
}
""",
source=source,
codeOnFailure=(codeOnFailure % { 'securityError': 'true'}))
self.substitution["source"] = "maybeUncheckedObj"
xpconnectUnwrap = dedent("""
nsresult rv;
{ // Scope for the JSAutoCompartment, because we only
// want to be in that compartment for the UnwrapArg call.
JS::Rooted<JSObject*> source(cx, ${source});
JSAutoCompartment ac(cx, ${source});
rv = UnwrapArg<${type}>(source, getter_AddRefs(objPtr));
}
""")
else:
self.substitution["uncheckedObjDecl"] = ""
self.substitution["source"] = source
xpconnectUnwrap = (
"JS::Rooted<JSObject*> source(cx, ${source});\n"
"nsresult rv = UnwrapArg<${type}>(source, getter_AddRefs(objPtr));\n")
if descriptor.hasXPConnectImpls:
self.substitution["codeOnFailure"] = string.Template(
"RefPtr<${type}> objPtr;\n" +
xpconnectUnwrap +
"if (NS_FAILED(rv)) {\n"
"${indentedCodeOnFailure}"
"}\n"
"// We should have an object\n"
"MOZ_ASSERT(objPtr);\n"
"${target} = objPtr;\n"
).substitute(self.substitution,
indentedCodeOnFailure=indent(codeOnFailure))
elif (isCallbackReturnValue == "JSImpl" and
descriptor.interface.isJSImplemented()):
exceptionCode = exceptionCode or codeOnFailure
self.substitution["codeOnFailure"] = fill(
"""
// Be careful to not wrap random DOM objects here, even if
// they're wrapped in opaque security wrappers for some reason.
// XXXbz Wish we could check for a JS-implemented object
// that already has a content reflection...
if (!IsDOMObject(js::UncheckedUnwrap(${source}))) {
nsCOMPtr<nsIGlobalObject> contentGlobal;
if (!GetContentGlobalForJSImplementedObject(cx, Callback(), getter_AddRefs(contentGlobal))) {
$*{exceptionCode}
}
JS::Rooted<JSObject*> jsImplSourceObj(cx, ${source});
${target} = new ${type}(jsImplSourceObj, contentGlobal);
} else {
$*{codeOnFailure}
}
""",
exceptionCode=exceptionCode,
**self.substitution)
else:
self.substitution["codeOnFailure"] = codeOnFailure
def __str__(self):
substitution = self.substitution.copy()
substitution["codeOnFailure"] %= {
'securityError': 'rv == NS_ERROR_XPC_SECURITY_MANAGER_VETO'
}
return fill(
"""
{
$*{uncheckedObjDecl}
nsresult rv = UnwrapObject<${protoID}, ${type}>(${source}, ${target});
if (NS_FAILED(rv)) {
$*{codeOnFailure}
}
}
""",
**substitution)
class FailureFatalCastableObjectUnwrapper(CastableObjectUnwrapper):
"""
As CastableObjectUnwrapper, but defaulting to throwing if unwrapping fails
"""
def __init__(self, descriptor, source, target, exceptionCode,
isCallbackReturnValue, sourceDescription):
CastableObjectUnwrapper.__init__(
self, descriptor, source, target,
'ThrowErrorMessage(cx, MSG_DOES_NOT_IMPLEMENT_INTERFACE, "%s", "%s");\n'
'%s' % (sourceDescription, descriptor.interface.identifier.name,
exceptionCode),
exceptionCode,
isCallbackReturnValue)
class CGCallbackTempRoot(CGGeneric):
def __init__(self, name):
define = dedent("""
{ // Scope for tempRoot
JS::Rooted<JSObject*> tempRoot(cx, &${val}.toObject());
${declName} = new %s(cx, tempRoot, mozilla::dom::GetIncumbentGlobal());
}
""") % name
CGGeneric.__init__(self, define=define)
def getCallbackConversionInfo(type, idlObject, isMember, isCallbackReturnValue,
isOptional):
"""
Returns a tuple containing the declType, declArgs, and basic
conversion for the given callback type, with the given callback
idl object in the given context (isMember/isCallbackReturnValue/isOptional).
"""
name = idlObject.identifier.name
# We can't use fast callbacks if isOptional because then we get an
# Optional<RootedCallback> thing, which is not transparent to consumers.
useFastCallback = (not isMember and not isCallbackReturnValue and
not isOptional)
if useFastCallback:
name = "binding_detail::Fast%s" % name
if type.nullable() or isCallbackReturnValue:
declType = CGGeneric("RefPtr<%s>" % name)
else:
declType = CGGeneric("OwningNonNull<%s>" % name)
if useFastCallback:
declType = CGTemplatedType("RootedCallback", declType)
declArgs = "cx"
else:
declArgs = None
conversion = indent(CGCallbackTempRoot(name).define())
return (declType, declArgs, conversion)
class JSToNativeConversionInfo():
"""
An object representing information about a JS-to-native conversion.
"""
def __init__(self, template, declType=None, holderType=None,
dealWithOptional=False, declArgs=None,
holderArgs=None):
"""
template: A string representing the conversion code. This will have
template substitution performed on it as follows:
${val} is a handle to the JS::Value in question
${holderName} replaced by the holder's name, if any
${declName} replaced by the declaration's name
${haveValue} replaced by an expression that evaluates to a boolean
for whether we have a JS::Value. Only used when
defaultValue is not None or when True is passed for
checkForValue to instantiateJSToNativeConversion.
${passedToJSImpl} replaced by an expression that evaluates to a boolean
for whether this value is being passed to a JS-
implemented interface.
declType: A CGThing representing the native C++ type we're converting
to. This is allowed to be None if the conversion code is
supposed to be used as-is.
holderType: A CGThing representing the type of a "holder" which will
hold a possible reference to the C++ thing whose type we
returned in declType, or None if no such holder is needed.
dealWithOptional: A boolean indicating whether the caller has to do
optional-argument handling. This should only be set
to true if the JS-to-native conversion is being done
for an optional argument or dictionary member with no
default value and if the returned template expects
both declType and holderType to be wrapped in
Optional<>, with ${declName} and ${holderName}
adjusted to point to the Value() of the Optional, and
Construct() calls to be made on the Optional<>s as
needed.
declArgs: If not None, the arguments to pass to the ${declName}
constructor. These will have template substitution performed
on them so you can use things like ${val}. This is a
single string, not a list of strings.
holderArgs: If not None, the arguments to pass to the ${holderName}
constructor. These will have template substitution
performed on them so you can use things like ${val}.
This is a single string, not a list of strings.
${declName} must be in scope before the code from 'template' is entered.
If holderType is not None then ${holderName} must be in scope before
the code from 'template' is entered.
"""
assert isinstance(template, str)
assert declType is None or isinstance(declType, CGThing)
assert holderType is None or isinstance(holderType, CGThing)
self.template = template
self.declType = declType
self.holderType = holderType
self.dealWithOptional = dealWithOptional
self.declArgs = declArgs
self.holderArgs = holderArgs
def getHandleDefault(defaultValue):
tag = defaultValue.type.tag()
if tag in numericSuffixes:
# Some numeric literals require a suffix to compile without warnings
return numericValue(tag, defaultValue.value)
assert tag == IDLType.Tags.bool
return toStringBool(defaultValue.value)
def handleDefaultStringValue(defaultValue, method):
"""
Returns a string which ends up calling 'method' with a (char16_t*, length)
pair that sets this string default value. This string is suitable for
passing as the second argument of handleDefault; in particular it does not
end with a ';'
"""
assert defaultValue.type.isDOMString()
return ("static const char16_t data[] = { %s };\n"
"%s(data, ArrayLength(data) - 1)" %
(", ".join(["'" + char + "'" for char in
defaultValue.value] + ["0"]),
method))
# If this function is modified, modify CGNativeMember.getArg and
# CGNativeMember.getRetvalInfo accordingly. The latter cares about the decltype
# and holdertype we end up using, because it needs to be able to return the code
# that will convert those to the actual return value of the callback function.
def getJSToNativeConversionInfo(type, descriptorProvider, failureCode=None,
isDefinitelyObject=False,
isMember=False,
isOptional=False,
invalidEnumValueFatal=True,
defaultValue=None,
treatNullAs="Default",
isEnforceRange=False,
isClamp=False,
isNullOrUndefined=False,
exceptionCode=None,
lenientFloatCode=None,
allowTreatNonCallableAsNull=False,
isCallbackReturnValue=False,
sourceDescription="value",
nestingLevel=""):
"""
Get a template for converting a JS value to a native object based on the
given type and descriptor. If failureCode is given, then we're actually
testing whether we can convert the argument to the desired type. That
means that failures to convert due to the JS value being the wrong type of
value need to use failureCode instead of throwing exceptions. Failures to
convert that are due to JS exceptions (from toString or valueOf methods) or
out of memory conditions need to throw exceptions no matter what
failureCode is. However what actually happens when throwing an exception
can be controlled by exceptionCode. The only requirement on that is that
exceptionCode must end up doing a return, and every return from this
function must happen via exceptionCode if exceptionCode is not None.
If isDefinitelyObject is True, that means we know the value
isObject() and we have no need to recheck that.
if isMember is not False, we're being converted from a property of some JS
object, not from an actual method argument, so we can't rely on our jsval
being rooted or outliving us in any way. Callers can pass "Dictionary",
"Variadic", "Sequence", or "OwningUnion" to indicate that the conversion is
for something that is a dictionary member, a variadic argument, a sequence,
or an owning union respectively.
If isOptional is true, then we are doing conversion of an optional
argument with no default value.
invalidEnumValueFatal controls whether an invalid enum value conversion
attempt will throw (if true) or simply return without doing anything (if
false).
If defaultValue is not None, it's the IDL default value for this conversion
If isEnforceRange is true, we're converting an integer and throwing if the
value is out of range.
If isClamp is true, we're converting an integer and clamping if the
value is out of range.
If lenientFloatCode is not None, it should be used in cases when
we're a non-finite float that's not unrestricted.
If allowTreatNonCallableAsNull is true, then [TreatNonCallableAsNull] and
[TreatNonObjectAsNull] extended attributes on nullable callback functions
will be honored.
If isCallbackReturnValue is "JSImpl" or "Callback", then the declType may be
adjusted to make it easier to return from a callback. Since that type is
never directly observable by any consumers of the callback code, this is OK.
Furthermore, if isCallbackReturnValue is "JSImpl", that affects the behavior
of the FailureFatalCastableObjectUnwrapper conversion; this is used for
implementing auto-wrapping of JS-implemented return values from a
JS-implemented interface.
sourceDescription is a description of what this JS value represents, to be
used in error reporting. Callers should assume that it might get placed in
the middle of a sentence. If it ends up at the beginning of a sentence, its
first character will be automatically uppercased.
The return value from this function is a JSToNativeConversionInfo.
"""
# If we have a defaultValue then we're not actually optional for
# purposes of what we need to be declared as.
assert defaultValue is None or not isOptional
# Also, we should not have a defaultValue if we know we're an object
assert not isDefinitelyObject or defaultValue is None
# And we can't both be an object and be null or undefined
assert not isDefinitelyObject or not isNullOrUndefined
# If exceptionCode is not set, we'll just rethrow the exception we got.
# Note that we can't just set failureCode to exceptionCode, because setting
# failureCode will prevent pending exceptions from being set in cases when
# they really should be!
if exceptionCode is None:
exceptionCode = "return false;\n"
# Unfortunately, .capitalize() on a string will lowercase things inside the
# string, which we do not want.
def firstCap(string):
return string[0].upper() + string[1:]
# Helper functions for dealing with failures due to the JS value being the
# wrong type of value
def onFailureNotAnObject(failureCode):
return CGGeneric(
failureCode or
('ThrowErrorMessage(cx, MSG_NOT_OBJECT, "%s");\n'
'%s' % (firstCap(sourceDescription), exceptionCode)))
def onFailureBadType(failureCode, typeName):
return CGGeneric(
failureCode or
('ThrowErrorMessage(cx, MSG_DOES_NOT_IMPLEMENT_INTERFACE, "%s", "%s");\n'
'%s' % (firstCap(sourceDescription), typeName, exceptionCode)))
def onFailureNotCallable(failureCode):
return CGGeneric(
failureCode or
('ThrowErrorMessage(cx, MSG_NOT_CALLABLE, "%s");\n'
'%s' % (firstCap(sourceDescription), exceptionCode)))
# A helper function for handling default values. Takes a template
# body and the C++ code to set the default value and wraps the
# given template body in handling for the default value.
def handleDefault(template, setDefault):
if defaultValue is None:
return template
return (
"if (${haveValue}) {\n" +
indent(template) +
"} else {\n" +
indent(setDefault) +
"}\n")
# A helper function for wrapping up the template body for
# possibly-nullable objecty stuff
def wrapObjectTemplate(templateBody, type, codeToSetNull, failureCode=None):
if isNullOrUndefined and type.nullable():
# Just ignore templateBody and set ourselves to null.
# Note that we don't have to worry about default values
# here either, since we already examined this value.
return codeToSetNull
if not isDefinitelyObject:
# Handle the non-object cases by wrapping up the whole
# thing in an if cascade.
if type.nullable():
elifLine = "} else if (${val}.isNullOrUndefined()) {\n"
elifBody = codeToSetNull
else:
elifLine = ""
elifBody = ""
# Note that $${val} below expands to ${val}. This string is
# used as a template later, and val will be filled in then.
templateBody = fill(
"""
if ($${val}.isObject()) {
$*{templateBody}
$*{elifLine}
$*{elifBody}
} else {
$*{failureBody}
}
""",
templateBody=templateBody,
elifLine=elifLine,
elifBody=elifBody,
failureBody=onFailureNotAnObject(failureCode).define())
if isinstance(defaultValue, IDLNullValue):
assert type.nullable() # Parser should enforce this
templateBody = handleDefault(templateBody, codeToSetNull)
elif isinstance(defaultValue, IDLEmptySequenceValue):
# Our caller will handle it
pass
else:
assert defaultValue is None
return templateBody
# A helper function for converting things that look like a JSObject*.
def handleJSObjectType(type, isMember, failureCode, exceptionCode, sourceDescription):
if not isMember:
if isOptional:
# We have a specialization of Optional that will use a
# Rooted for the storage here.
declType = CGGeneric("JS::Handle<JSObject*>")
else:
declType = CGGeneric("JS::Rooted<JSObject*>")
declArgs = "cx"
else:
assert (isMember in
("Sequence", "Variadic", "Dictionary", "OwningUnion", "MozMap"))
# We'll get traced by the sequence or dictionary or union tracer
declType = CGGeneric("JSObject*")
declArgs = None
templateBody = "${declName} = &${val}.toObject();\n"
# For JS-implemented APIs, we refuse to allow passing objects that the
# API consumer does not subsume. The extra parens around
# ($${passedToJSImpl}) suppress unreachable code warnings when
# $${passedToJSImpl} is the literal `false`.
if not isinstance(descriptorProvider, Descriptor) or descriptorProvider.interface.isJSImplemented():
templateBody = fill(
"""
if (($${passedToJSImpl}) && !CallerSubsumes($${val})) {
ThrowErrorMessage(cx, MSG_PERMISSION_DENIED_TO_PASS_ARG, "${sourceDescription}");
$*{exceptionCode}
}
""",
sourceDescription=sourceDescription,
exceptionCode=exceptionCode) + templateBody
setToNullCode = "${declName} = nullptr;\n"
template = wrapObjectTemplate(templateBody, type, setToNullCode,
failureCode)
return JSToNativeConversionInfo(template, declType=declType,
dealWithOptional=isOptional,
declArgs=declArgs)
def incrementNestingLevel():
if nestingLevel is "":
return 1
return nestingLevel + 1
assert not (isEnforceRange and isClamp) # These are mutually exclusive
if type.isArray():
raise TypeError("Can't handle array arguments yet")
if type.isSequence():
assert not isEnforceRange and not isClamp
if failureCode is None:
notSequence = ('ThrowErrorMessage(cx, MSG_NOT_SEQUENCE, "%s");\n'
"%s" % (firstCap(sourceDescription), exceptionCode))
else:
notSequence = failureCode
nullable = type.nullable()
# Be very careful not to change "type": we need it later
if nullable:
elementType = type.inner.inner
else:
elementType = type.inner
# We want to use auto arrays if we can, but we have to be careful with
# reallocation behavior for arrays. In particular, if we use auto
# arrays for sequences and have a sequence of elements which are
# themselves sequences or have sequences as members, we have a problem.
# In that case, resizing the outermost AutoTArray to the right size
# will memmove its elements, but AutoTArrays are not memmovable and
# hence will end up with pointers to bogus memory, which is bad. To
# deal with this, we typically map WebIDL sequences to our Sequence
# type, which is in fact memmovable. The one exception is when we're
# passing in a sequence directly as an argument without any sort of
# optional or nullable complexity going on. In that situation, we can
# use an AutoSequence instead. We have to keep using Sequence in the
# nullable and optional cases because we don't want to leak the
# AutoSequence type to consumers, which would be unavoidable with
# Nullable<AutoSequence> or Optional<AutoSequence>.
if isMember or isOptional or nullable or isCallbackReturnValue:
sequenceClass = "Sequence"
else:
sequenceClass = "binding_detail::AutoSequence"
# XXXbz we can't include the index in the sourceDescription, because
# we don't really have a way to pass one in dynamically at runtime...
elementInfo = getJSToNativeConversionInfo(
elementType, descriptorProvider, isMember="Sequence",
exceptionCode=exceptionCode, lenientFloatCode=lenientFloatCode,
isCallbackReturnValue=isCallbackReturnValue,
sourceDescription="element of %s" % sourceDescription,
nestingLevel=incrementNestingLevel())
if elementInfo.dealWithOptional:
raise TypeError("Shouldn't have optional things in sequences")
if elementInfo.holderType is not None:
raise TypeError("Shouldn't need holders for sequences")
typeName = CGTemplatedType(sequenceClass, elementInfo.declType)
sequenceType = typeName.define()
if nullable:
typeName = CGTemplatedType("Nullable", typeName)
arrayRef = "${declName}.SetValue()"
else:
arrayRef = "${declName}"
elementConversion = string.Template(elementInfo.template).substitute({
"val": "temp" + str(nestingLevel),
"declName": "slot" + str(nestingLevel),
# We only need holderName here to handle isExternal()
# interfaces, which use an internal holder for the
# conversion even when forceOwningType ends up true.
"holderName": "tempHolder" + str(nestingLevel),
"passedToJSImpl": "${passedToJSImpl}"
})
# NOTE: Keep this in sync with variadic conversions as needed
templateBody = fill(
"""
JS::ForOfIterator iter${nestingLevel}(cx);
if (!iter${nestingLevel}.init($${val}, JS::ForOfIterator::AllowNonIterable)) {
$*{exceptionCode}
}
if (!iter${nestingLevel}.valueIsIterable()) {
$*{notSequence}
}
${sequenceType} &arr${nestingLevel} = ${arrayRef};
JS::Rooted<JS::Value> temp${nestingLevel}(cx);
while (true) {
bool done${nestingLevel};
if (!iter${nestingLevel}.next(&temp${nestingLevel}, &done${nestingLevel})) {
$*{exceptionCode}
}
if (done${nestingLevel}) {
break;
}
${elementType}* slotPtr${nestingLevel} = arr${nestingLevel}.AppendElement(mozilla::fallible);
if (!slotPtr${nestingLevel}) {
JS_ReportOutOfMemory(cx);
$*{exceptionCode}
}
${elementType}& slot${nestingLevel} = *slotPtr${nestingLevel};
$*{elementConversion}
}
""",
exceptionCode=exceptionCode,
notSequence=notSequence,
sequenceType=sequenceType,
arrayRef=arrayRef,
elementType=elementInfo.declType.define(),
elementConversion=elementConversion,
nestingLevel=str(nestingLevel))
templateBody = wrapObjectTemplate(templateBody, type,
"${declName}.SetNull();\n", notSequence)
if isinstance(defaultValue, IDLEmptySequenceValue):
if type.nullable():
codeToSetEmpty = "${declName}.SetValue();\n"
else:
codeToSetEmpty = "/* Array is already empty; nothing to do */\n"
templateBody = handleDefault(templateBody, codeToSetEmpty)
# Sequence arguments that might contain traceable things need
# to get traced
if not isMember and typeNeedsRooting(elementType):
holderType = CGTemplatedType("SequenceRooter", elementInfo.declType)
# If our sequence is nullable, this will set the Nullable to be
# not-null, but that's ok because we make an explicit SetNull() call
# on it as needed if our JS value is actually null.
holderArgs = "cx, &%s" % arrayRef
else:
holderType = None
holderArgs = None
return JSToNativeConversionInfo(templateBody, declType=typeName,
holderType=holderType,
dealWithOptional=isOptional,
holderArgs=holderArgs)
if type.isMozMap():
assert not isEnforceRange and not isClamp
if failureCode is None:
notMozMap = ('ThrowErrorMessage(cx, MSG_NOT_OBJECT, "%s");\n'
"%s" % (firstCap(sourceDescription), exceptionCode))
else:
notMozMap = failureCode
nullable = type.nullable()
# Be very careful not to change "type": we need it later
if nullable:
valueType = type.inner.inner
else:
valueType = type.inner
valueInfo = getJSToNativeConversionInfo(
valueType, descriptorProvider, isMember="MozMap",
exceptionCode=exceptionCode, lenientFloatCode=lenientFloatCode,
isCallbackReturnValue=isCallbackReturnValue,
sourceDescription="value in %s" % sourceDescription,
nestingLevel=incrementNestingLevel())
if valueInfo.dealWithOptional:
raise TypeError("Shouldn't have optional things in MozMap")
if valueInfo.holderType is not None:
raise TypeError("Shouldn't need holders for MozMap")
typeName = CGTemplatedType("MozMap", valueInfo.declType)
mozMapType = typeName.define()
if nullable:
typeName = CGTemplatedType("Nullable", typeName)
mozMapRef = "${declName}.SetValue()"
else:
mozMapRef = "${declName}"
valueConversion = string.Template(valueInfo.template).substitute({
"val": "temp",
"declName": "slot",
# We only need holderName here to handle isExternal()
# interfaces, which use an internal holder for the
# conversion even when forceOwningType ends up true.
"holderName": "tempHolder",
"passedToJSImpl": "${passedToJSImpl}"
})
templateBody = fill(
"""
${mozMapType} &mozMap = ${mozMapRef};
JS::Rooted<JSObject*> mozMapObj(cx, &$${val}.toObject());
JS::Rooted<JS::IdVector> ids(cx, JS::IdVector(cx));
if (!JS_Enumerate(cx, mozMapObj, &ids)) {
$*{exceptionCode}
}
JS::Rooted<JS::Value> propNameValue(cx);
JS::Rooted<JS::Value> temp(cx);
JS::Rooted<jsid> curId(cx);
for (size_t i = 0; i < ids.length(); ++i) {
// Make sure we get the value before converting the name, since
// getting the value can trigger GC but our name is a dependent
// string.
curId = ids[i];
binding_detail::FakeString propName;
bool isSymbol;
if (!ConvertIdToString(cx, curId, propName, isSymbol) ||
(!isSymbol && !JS_GetPropertyById(cx, mozMapObj, curId, &temp))) {
$*{exceptionCode}
}
if (isSymbol) {
continue;
}
${valueType}* slotPtr = mozMap.AddEntry(propName);
if (!slotPtr) {
JS_ReportOutOfMemory(cx);
$*{exceptionCode}
}
${valueType}& slot = *slotPtr;
$*{valueConversion}
}
""",
exceptionCode=exceptionCode,
mozMapType=mozMapType,
mozMapRef=mozMapRef,
valueType=valueInfo.declType.define(),
valueConversion=valueConversion)
templateBody = wrapObjectTemplate(templateBody, type,
"${declName}.SetNull();\n",
notMozMap)
declType = typeName
declArgs = None
holderType = None
holderArgs = None
# MozMap arguments that might contain traceable things need
# to get traced
if not isMember and isCallbackReturnValue:
# Go ahead and just convert directly into our actual return value
declType = CGWrapper(declType, post="&")
declArgs = "aRetVal"
elif not isMember and typeNeedsRooting(valueType):
holderType = CGTemplatedType("MozMapRooter", valueInfo.declType)
# If our MozMap is nullable, this will set the Nullable to be
# not-null, but that's ok because we make an explicit SetNull() call
# on it as needed if our JS value is actually null.
holderArgs = "cx, &%s" % mozMapRef
return JSToNativeConversionInfo(templateBody, declType=declType,
declArgs=declArgs,
holderType=holderType,
dealWithOptional=isOptional,
holderArgs=holderArgs)
if type.isUnion():
nullable = type.nullable()
if nullable:
type = type.inner
isOwningUnion = isMember or isCallbackReturnValue
unionArgumentObj = "${declName}" if isOwningUnion else "${holderName}"
if nullable:
# If we're owning, we're a Nullable, which hasn't been told it has
# a value. Otherwise we're an already-constructed Maybe.
unionArgumentObj += ".SetValue()" if isOwningUnion else ".ref()"
memberTypes = type.flatMemberTypes
names = []
interfaceMemberTypes = filter(lambda t: t.isNonCallbackInterface(), memberTypes)
if len(interfaceMemberTypes) > 0:
interfaceObject = []
for memberType in interfaceMemberTypes:
name = getUnionMemberName(memberType)
interfaceObject.append(
CGGeneric("(failed = !%s.TrySetTo%s(cx, ${val}, tryNext, ${passedToJSImpl})) || !tryNext" %
(unionArgumentObj, name)))
names.append(name)
interfaceObject = CGWrapper(CGList(interfaceObject, " ||\n"),
pre="done = ", post=";\n\n", reindent=True)
else:
interfaceObject = None
arrayObjectMemberTypes = filter(lambda t: t.isArray() or t.isSequence(), memberTypes)
if len(arrayObjectMemberTypes) > 0:
assert len(arrayObjectMemberTypes) == 1
name = getUnionMemberName(arrayObjectMemberTypes[0])
arrayObject = CGGeneric(
"done = (failed = !%s.TrySetTo%s(cx, ${val}, tryNext, ${passedToJSImpl})) || !tryNext;\n" %
(unionArgumentObj, name))
names.append(name)
else:
arrayObject = None
dateObjectMemberTypes = filter(lambda t: t.isDate(), memberTypes)
if len(dateObjectMemberTypes) > 0:
assert len(dateObjectMemberTypes) == 1
memberType = dateObjectMemberTypes[0]
name = getUnionMemberName(memberType)
dateObject = CGGeneric("%s.SetTo%s(cx, ${val});\n"
"done = true;\n" % (unionArgumentObj, name))
dateObject = CGIfWrapper(dateObject, "JS_ObjectIsDate(cx, argObj)")
names.append(name)
else:
dateObject = None
callbackMemberTypes = filter(lambda t: t.isCallback() or t.isCallbackInterface(), memberTypes)
if len(callbackMemberTypes) > 0:
assert len(callbackMemberTypes) == 1
memberType = callbackMemberTypes[0]
name = getUnionMemberName(memberType)
callbackObject = CGGeneric(
"done = (failed = !%s.TrySetTo%s(cx, ${val}, tryNext, ${passedToJSImpl})) || !tryNext;\n" %
(unionArgumentObj, name))
names.append(name)
else:
callbackObject = None
dictionaryMemberTypes = filter(lambda t: t.isDictionary(), memberTypes)
if len(dictionaryMemberTypes) > 0:
assert len(dictionaryMemberTypes) == 1
name = getUnionMemberName(dictionaryMemberTypes[0])
setDictionary = CGGeneric(
"done = (failed = !%s.TrySetTo%s(cx, ${val}, tryNext, ${passedToJSImpl})) || !tryNext;\n" %
(unionArgumentObj, name))
names.append(name)
else:
setDictionary = None
mozMapMemberTypes = filter(lambda t: t.isMozMap(), memberTypes)
if len(mozMapMemberTypes) > 0:
assert len(mozMapMemberTypes) == 1
name = getUnionMemberName(mozMapMemberTypes[0])
mozMapObject = CGGeneric(
"done = (failed = !%s.TrySetTo%s(cx, ${val}, tryNext, ${passedToJSImpl})) || !tryNext;\n" %
(unionArgumentObj, name))
names.append(name)
else:
mozMapObject = None
objectMemberTypes = filter(lambda t: t.isObject(), memberTypes)
if len(objectMemberTypes) > 0:
assert len(objectMemberTypes) == 1
# Very important to NOT construct a temporary Rooted here, since the
# SetToObject call can call a Rooted constructor and we need to keep
# stack discipline for Rooted.
object = CGGeneric("if (!%s.SetToObject(cx, &${val}.toObject(), ${passedToJSImpl})) {\n"
"%s"
"}\n"
"done = true;\n" % (unionArgumentObj, indent(exceptionCode)))
names.append(objectMemberTypes[0].name)
else:
object = None
hasObjectTypes = interfaceObject or arrayObject or dateObject or callbackObject or object or mozMapObject
if hasObjectTypes:
# "object" is not distinguishable from other types
assert not object or not (interfaceObject or arrayObject or dateObject or callbackObject or mozMapObject)
if arrayObject or dateObject or callbackObject:
# An object can be both an array object and a callback or
# dictionary, but we shouldn't have both in the union's members
# because they are not distinguishable.
assert not (arrayObject and callbackObject)
templateBody = CGElseChain([arrayObject, dateObject, callbackObject])
else:
templateBody = None
if interfaceObject:
assert not object
if templateBody:
templateBody = CGIfWrapper(templateBody, "!done")
templateBody = CGList([interfaceObject, templateBody])
else:
templateBody = CGList([templateBody, object])
if dateObject:
templateBody.prepend(CGGeneric("JS::Rooted<JSObject*> argObj(cx, &${val}.toObject());\n"))
if mozMapObject:
templateBody = CGList([templateBody,
CGIfWrapper(mozMapObject, "!done")])
templateBody = CGIfWrapper(templateBody, "${val}.isObject()")
else:
templateBody = CGGeneric()
if setDictionary:
assert not object
templateBody = CGList([templateBody,
CGIfWrapper(setDictionary, "!done")])
stringTypes = [t for t in memberTypes if t.isString() or t.isEnum()]
numericTypes = [t for t in memberTypes if t.isNumeric()]
booleanTypes = [t for t in memberTypes if t.isBoolean()]
if stringTypes or numericTypes or booleanTypes:
assert len(stringTypes) <= 1
assert len(numericTypes) <= 1
assert len(booleanTypes) <= 1
# We will wrap all this stuff in a do { } while (0); so we
# can use "break" for flow control.
def getStringOrPrimitiveConversion(memberType):
name = getUnionMemberName(memberType)
return CGGeneric("done = (failed = !%s.TrySetTo%s(cx, ${val}, tryNext)) || !tryNext;\n"
"break;\n" % (unionArgumentObj, name))
other = CGList([])
stringConversion = map(getStringOrPrimitiveConversion, stringTypes)
numericConversion = map(getStringOrPrimitiveConversion, numericTypes)
booleanConversion = map(getStringOrPrimitiveConversion, booleanTypes)
if stringConversion:
if booleanConversion:
other.append(CGIfWrapper(booleanConversion[0],
"${val}.isBoolean()"))
if numericConversion:
other.append(CGIfWrapper(numericConversion[0],
"${val}.isNumber()"))
other.append(stringConversion[0])
elif numericConversion:
if booleanConversion:
other.append(CGIfWrapper(booleanConversion[0],
"${val}.isBoolean()"))
other.append(numericConversion[0])
else:
assert booleanConversion
other.append(booleanConversion[0])
other = CGWrapper(CGIndenter(other), pre="do {\n", post="} while (0);\n")
if hasObjectTypes or setDictionary:
other = CGWrapper(CGIndenter(other), "{\n", post="}\n")
if object:
templateBody = CGElseChain([templateBody, other])
else:
other = CGWrapper(other, pre="if (!done) ")
templateBody = CGList([templateBody, other])
else:
assert templateBody.define() == ""
templateBody = other
else:
other = None
templateBody = CGWrapper(templateBody, pre="bool done = false, failed = false, tryNext;\n")
throw = CGGeneric(fill(
"""
if (failed) {
$*{exceptionCode}
}
if (!done) {
ThrowErrorMessage(cx, MSG_NOT_IN_UNION, "${desc}", "${names}");
$*{exceptionCode}
}
""",
exceptionCode=exceptionCode,
desc=firstCap(sourceDescription),
names=", ".join(names)))
templateBody = CGWrapper(CGIndenter(CGList([templateBody, throw])), pre="{\n", post="}\n")
typeName = CGUnionStruct.unionTypeDecl(type, isOwningUnion)
argumentTypeName = typeName + "Argument"
if nullable:
typeName = "Nullable<" + typeName + " >"
def handleNull(templateBody, setToNullVar, extraConditionForNull=""):
nullTest = "%s${val}.isNullOrUndefined()" % extraConditionForNull
return CGIfElseWrapper(nullTest,
CGGeneric("%s.SetNull();\n" % setToNullVar),
templateBody)
if type.hasNullableType:
assert not nullable
# Make sure to handle a null default value here
if defaultValue and isinstance(defaultValue, IDLNullValue):
assert defaultValue.type == type
extraConditionForNull = "!(${haveValue}) || "
else:
extraConditionForNull = ""
templateBody = handleNull(templateBody, unionArgumentObj,
extraConditionForNull=extraConditionForNull)
declType = CGGeneric(typeName)
if isOwningUnion:
holderType = None
else:
holderType = CGGeneric(argumentTypeName)
if nullable:
holderType = CGTemplatedType("Maybe", holderType)
# If we're isOptional and not nullable the normal optional handling will
# handle lazy construction of our holder. If we're nullable and not
# owning we do it all by hand because we do not want our holder
# constructed if we're null. But if we're owning we don't have a
# holder anyway, so we can do the normal Optional codepath.
declLoc = "${declName}"
constructDecl = None
if nullable:
if isOptional and not isOwningUnion:
holderArgs = "${declName}.Value().SetValue()"
declType = CGTemplatedType("Optional", declType)
constructDecl = CGGeneric("${declName}.Construct();\n")
declLoc = "${declName}.Value()"
else:
holderArgs = "${declName}.SetValue()"
if holderType is not None:
constructHolder = CGGeneric("${holderName}.emplace(%s);\n" % holderArgs)
else:
constructHolder = None
# Don't need to pass those args when the holder is being constructed
holderArgs = None
else:
holderArgs = "${declName}"
constructHolder = None
if not isMember and isCallbackReturnValue:
declType = CGWrapper(declType, post="&")
declArgs = "aRetVal"
else:
declArgs = None
if defaultValue and not isinstance(defaultValue, IDLNullValue):
tag = defaultValue.type.tag()
if tag in numericSuffixes or tag is IDLType.Tags.bool:
defaultStr = getHandleDefault(defaultValue)
# Make sure we actually construct the thing inside the nullable.
value = declLoc + (".SetValue()" if nullable else "")
name = getUnionMemberName(defaultValue.type)
default = CGGeneric("%s.RawSetAs%s() = %s;\n" %
(value, name, defaultStr))
elif isinstance(defaultValue, IDLEmptySequenceValue):
name = getUnionMemberName(defaultValue.type)
# Make sure we actually construct the thing inside the nullable.
value = declLoc + (".SetValue()" if nullable else "")
# It's enough to set us to the right type; that will
# create an empty array, which is all we need here.
default = CGGeneric("%s.RawSetAs%s();\n" %
(value, name))
else:
default = CGGeneric(
handleDefaultStringValue(
defaultValue, "%s.SetStringData" % unionArgumentObj) +
";\n")
templateBody = CGIfElseWrapper("!(${haveValue})", default, templateBody)
templateBody = CGList([constructHolder, templateBody])
if nullable:
if defaultValue:
if isinstance(defaultValue, IDLNullValue):
extraConditionForNull = "!(${haveValue}) || "
else:
extraConditionForNull = "${haveValue} && "
else:
extraConditionForNull = ""
templateBody = handleNull(templateBody, declLoc,
extraConditionForNull=extraConditionForNull)
elif (not type.hasNullableType and defaultValue and
isinstance(defaultValue, IDLNullValue)):
assert type.hasDictionaryType()
assert defaultValue.type.isDictionary()
if not isOwningUnion and typeNeedsRooting(defaultValue.type):
ctorArgs = "cx"
else:
ctorArgs = ""
initDictionaryWithNull = CGIfWrapper(
CGGeneric("return false;\n"),
('!%s.RawSetAs%s(%s).Init(cx, JS::NullHandleValue, "Member of %s")'
% (declLoc, getUnionMemberName(defaultValue.type),
ctorArgs, type)))
templateBody = CGIfElseWrapper("!(${haveValue})",
initDictionaryWithNull,
templateBody)
templateBody = CGList([constructDecl, templateBody])
return JSToNativeConversionInfo(templateBody.define(),
declType=declType,
declArgs=declArgs,
holderType=holderType,
holderArgs=holderArgs,
dealWithOptional=isOptional and (not nullable or isOwningUnion))
if type.isGeckoInterface():
assert not isEnforceRange and not isClamp
descriptor = descriptorProvider.getDescriptor(
type.unroll().inner.identifier.name)
assert descriptor.nativeType != 'JSObject'
if descriptor.interface.isCallback():
(declType, declArgs,
conversion) = getCallbackConversionInfo(type, descriptor.interface,
isMember,
isCallbackReturnValue,
isOptional)
template = wrapObjectTemplate(conversion, type,
"${declName} = nullptr;\n",
failureCode)
return JSToNativeConversionInfo(template, declType=declType,
declArgs=declArgs,
dealWithOptional=isOptional)
# This is an interface that we implement as a concrete class
# or an XPCOM interface.
# Allow null pointers for nullable types and old-binding classes, and
# use an RefPtr or raw pointer for callback return values to make
# them easier to return.
argIsPointer = (type.nullable() or type.unroll().inner.isExternal() or
isCallbackReturnValue)
# Sequence and dictionary members, as well as owning unions (which can
# appear here as return values in JS-implemented interfaces) have to
# hold a strong ref to the thing being passed down. Those all set
# isMember.
#
# Also, callback return values always end up addrefing anyway, so there
# is no point trying to avoid it here and it makes other things simpler
# since we can assume the return value is a strong ref.
#
# Finally, promises need to hold a strong ref because that's what
# Promise.resolve returns.
assert not descriptor.interface.isCallback()
isPromise = descriptor.interface.identifier.name == "Promise"
forceOwningType = isMember or isCallbackReturnValue or isPromise
typeName = descriptor.nativeType
typePtr = typeName + "*"
# Compute a few things:
# - declType is the type we want to return as the first element of our
# tuple.
# - holderType is the type we want to return as the third element
# of our tuple.
# Set up some sensible defaults for these things insofar as we can.
holderType = None
if argIsPointer:
if forceOwningType:
declType = "RefPtr<" + typeName + ">"
else:
declType = typePtr
else:
if forceOwningType:
declType = "OwningNonNull<" + typeName + ">"
else:
declType = "NonNull<" + typeName + ">"
templateBody = ""
if forceOwningType:
templateBody += 'static_assert(IsRefcounted<%s>::value, "We can only store refcounted classes.");' % typeName
if isPromise:
# Per spec, what we're supposed to do is take the original
# Promise.resolve and call it with the original Promise as this
# value to make a Promise out of whatever value we actually have
# here. The question is which global we should use. There are
# several cases to consider:
#
# 1) Normal call to API with a Promise argument. This is a case the
# spec covers, and we should be using the current Realm's
# Promise. That means the current compartment.
# 2) Call to API with a Promise argument over Xrays. In practice,
# this sort of thing seems to be used for giving an API
# implementation a way to wait for conclusion of an asyc
# operation, _not_ to expose the Promise to content code. So we
# probably want to allow callers to use such an API in a
# "natural" way, by passing chrome-side promises; indeed, that
# may be all that the caller has to represent their async
# operation. That means we really need to do the
# Promise.resolve() in the caller (chrome) compartment: if we do
# it in the content compartment, we will try to call .then() on
# the chrome promise while in the content compartment, which will
# throw and we'll just get a rejected Promise. Note that this is
# also the reason why a caller who has a chrome Promise
# representing an async operation can't itself convert it to a
# content-side Promise (at least not without some serious
# gyrations).
# 3) Promise return value from a callback or callback interface.
# This is in theory a case the spec covers but in practice it
# really doesn't define behavior here because it doesn't define
# what Realm we're in after the callback returns, which is when
# the argument conversion happens. We will use the current
# compartment, which is the compartment of the callable (which
# may itself be a cross-compartment wrapper itself), which makes
# as much sense as anything else. In practice, such an API would
# once again be providing a Promise to signal completion of an
# operation, which would then not be exposed to anyone other than
# our own implementation code.
# 4) Return value from a JS-implemented interface. In this case we
# have a problem. Our current compartment is the compartment of
# the JS implementation. But if the JS implementation returned
# a page-side Promise (which is a totally sane thing to do, and
# in fact the right thing to do given that this return value is
# going right to content script) then we don't want to
# Promise.resolve with our current compartment Promise, because
# that will wrap it up in a chrome-side Promise, which is
# decidedly _not_ what's desired here. So in that case we
# should really unwrap the return value and use the global of
# the result. CheckedUnwrap should be good enough for that; if
# it fails, then we're failing unwrap while in a
# system-privileged compartment, so presumably we have a dead
# object wrapper. Just error out. Do NOT fall back to using
# the current compartment instead: that will return a
# system-privileged rejected (because getting .then inside
# resolve() failed) Promise to the caller, which they won't be
# able to touch. That's not helpful. If we error out, on the
# other hand, they will get a content-side rejected promise.
# Same thing if the value returned is not even an object.
if isCallbackReturnValue == "JSImpl":
# Case 4 above. Note that globalObj defaults to the current
# compartment global. Note that we don't use $*{exceptionCode}
# here because that will try to aRv.Throw(NS_ERROR_UNEXPECTED)
# which we don't really want here.
assert exceptionCode == "aRv.Throw(NS_ERROR_UNEXPECTED);\nreturn nullptr;\n"
getPromiseGlobal = fill(
"""
if (!$${val}.isObject()) {
aRv.ThrowTypeError<MSG_NOT_OBJECT>(NS_LITERAL_STRING("${sourceDescription}"));
return nullptr;
}
JSObject* unwrappedVal = js::CheckedUnwrap(&$${val}.toObject());
if (!unwrappedVal) {
// A slight lie, but not much of one, for a dead object wrapper.
aRv.ThrowTypeError<MSG_NOT_OBJECT>(NS_LITERAL_STRING("${sourceDescription}"));
return nullptr;
}
globalObj = js::GetGlobalForObjectCrossCompartment(unwrappedVal);
""",
sourceDescription=sourceDescription)
else:
getPromiseGlobal = ""
templateBody = fill(
"""
{ // Scope for our GlobalObject, FastErrorResult, JSAutoCompartment,
// etc.
JS::Rooted<JSObject*> globalObj(cx, JS::CurrentGlobalOrNull(cx));
$*{getPromiseGlobal}
JSAutoCompartment ac(cx, globalObj);
GlobalObject promiseGlobal(cx, globalObj);
if (promiseGlobal.Failed()) {
$*{exceptionCode}
}
JS::Rooted<JS::Value> valueToResolve(cx, $${val});
if (!JS_WrapValue(cx, &valueToResolve)) {
$*{exceptionCode}
}
binding_detail::FastErrorResult promiseRv;
#ifdef SPIDERMONKEY_PROMISE
nsCOMPtr<nsIGlobalObject> global =
do_QueryInterface(promiseGlobal.GetAsSupports());
if (!global) {
promiseRv.Throw(NS_ERROR_UNEXPECTED);
promiseRv.MaybeSetPendingException(cx);
$*{exceptionCode}
}
$${declName} = Promise::Resolve(global, cx, valueToResolve,
promiseRv);
if (promiseRv.MaybeSetPendingException(cx)) {
$*{exceptionCode}
}
#else
JS::Handle<JSObject*> promiseCtor =
PromiseBinding::GetConstructorObjectHandle(cx);
if (!promiseCtor) {
$*{exceptionCode}
}
JS::Rooted<JS::Value> resolveThisv(cx, JS::ObjectValue(*promiseCtor));
JS::Rooted<JS::Value> resolveResult(cx);
Promise::Resolve(promiseGlobal, resolveThisv, valueToResolve,
&resolveResult, promiseRv);
if (promiseRv.MaybeSetPendingException(cx)) {
$*{exceptionCode}
}
nsresult unwrapRv = UNWRAP_OBJECT(Promise, &resolveResult.toObject(), $${declName});
if (NS_FAILED(unwrapRv)) { // Quite odd
promiseRv.Throw(unwrapRv);
promiseRv.MaybeSetPendingException(cx);
$*{exceptionCode}
}
#endif // SPIDERMONKEY_PROMISE
}
""",
getPromiseGlobal=getPromiseGlobal,
exceptionCode=exceptionCode)
elif not descriptor.interface.isConsequential() and not descriptor.interface.isExternal():
if failureCode is not None:
templateBody += str(CastableObjectUnwrapper(
descriptor,
"&${val}.toObject()",
"${declName}",
failureCode))
else:
templateBody += str(FailureFatalCastableObjectUnwrapper(
descriptor,
"&${val}.toObject()",
"${declName}",
exceptionCode,
isCallbackReturnValue,
firstCap(sourceDescription)))
else:
# Either external, or new-binding non-castable. We always have a
# holder for these, because we don't actually know whether we have
# to addref when unwrapping or not. So we just pass an
# getter_AddRefs(RefPtr) to XPConnect and if we'll need a release
# it'll put a non-null pointer in there.
if forceOwningType:
# Don't return a holderType in this case; our declName
# will just own stuff.
templateBody += "RefPtr<" + typeName + "> ${holderName};\n"
else:
holderType = "RefPtr<" + typeName + ">"
templateBody += (
"JS::Rooted<JSObject*> source(cx, &${val}.toObject());\n" +
"if (NS_FAILED(UnwrapArg<" + typeName + ">(source, getter_AddRefs(${holderName})))) {\n")
templateBody += CGIndenter(onFailureBadType(failureCode,
descriptor.interface.identifier.name)).define()
templateBody += ("}\n"
"MOZ_ASSERT(${holderName});\n")
# And store our value in ${declName}
templateBody += "${declName} = ${holderName};\n"
if isPromise:
if type.nullable():
codeToSetNull = "${declName} = nullptr;\n"
templateBody = CGIfElseWrapper(
"${val}.isNullOrUndefined()",
CGGeneric(codeToSetNull),
CGGeneric(templateBody)).define()
if isinstance(defaultValue, IDLNullValue):
templateBody = handleDefault(templateBody, codeToSetNull)
else:
assert defaultValue is None
else:
# Just pass failureCode, not onFailureBadType, here, so we'll report
# the thing as not an object as opposed to not implementing whatever
# our interface is.
templateBody = wrapObjectTemplate(templateBody, type,
"${declName} = nullptr;\n",
failureCode)
declType = CGGeneric(declType)
if holderType is not None:
holderType = CGGeneric(holderType)
return JSToNativeConversionInfo(templateBody,
declType=declType,
holderType=holderType,
dealWithOptional=isOptional)
if type.isSpiderMonkeyInterface():
assert not isEnforceRange and not isClamp
name = type.unroll().name # unroll() because it may be nullable
arrayType = CGGeneric(name)
declType = arrayType
if type.nullable():
declType = CGTemplatedType("Nullable", declType)
objRef = "${declName}.SetValue()"
else:
objRef = "${declName}"
# Again, this is a bit strange since we are actually building a
# template string here. ${objRef} and $*{badType} below are filled in
# right now; $${val} expands to ${val}, to be filled in later.
template = fill(
"""
if (!${objRef}.Init(&$${val}.toObject())) {
$*{badType}
}
""",
objRef=objRef,
badType=onFailureBadType(failureCode, type.name).define())
template = wrapObjectTemplate(template, type, "${declName}.SetNull();\n",
failureCode)
if not isMember:
# This is a bit annoying. In a union we don't want to have a
# holder, since unions don't support that. But if we're optional we
# want to have a holder, so that the callee doesn't see
# Optional<RootedTypedArray<ArrayType> >. So do a holder if we're
# optional and use a RootedTypedArray otherwise.
if isOptional:
holderType = CGTemplatedType("TypedArrayRooter", arrayType)
# If our typed array is nullable, this will set the Nullable to
# be not-null, but that's ok because we make an explicit
# SetNull() call on it as needed if our JS value is actually
# null. XXXbz Because "Maybe" takes const refs for constructor
# arguments, we can't pass a reference here; have to pass a
# pointer.
holderArgs = "cx, &%s" % objRef
declArgs = None
else:
holderType = None
holderArgs = None
declType = CGTemplatedType("RootedTypedArray", declType)
declArgs = "cx"
else:
holderType = None
holderArgs = None
declArgs = None
return JSToNativeConversionInfo(template,
declType=declType,
holderType=holderType,
dealWithOptional=isOptional,
declArgs=declArgs,
holderArgs=holderArgs)
if type.isDOMString() or type.isUSVString():
assert not isEnforceRange and not isClamp
treatAs = {
"Default": "eStringify",
"EmptyString": "eEmpty",
"Null": "eNull",
}
if type.nullable():
# For nullable strings null becomes a null string.
treatNullAs = "Null"
# For nullable strings undefined also becomes a null string.
undefinedBehavior = "eNull"
else:
undefinedBehavior = "eStringify"
nullBehavior = treatAs[treatNullAs]
def getConversionCode(varName):
normalizeCode = ""
if type.isUSVString():
normalizeCode = "NormalizeUSVString(cx, %s);\n" % varName
conversionCode = fill("""
if (!ConvertJSValueToString(cx, $${val}, ${nullBehavior}, ${undefinedBehavior}, ${varName})) {
$*{exceptionCode}
}
$*{normalizeCode}
"""
,
nullBehavior=nullBehavior,
undefinedBehavior=undefinedBehavior,
varName=varName,
exceptionCode=exceptionCode,
normalizeCode=normalizeCode)
if defaultValue is None:
return conversionCode
if isinstance(defaultValue, IDLNullValue):
assert(type.nullable())
defaultCode = "%s.SetIsVoid(true)" % varName
else:
defaultCode = handleDefaultStringValue(defaultValue,
"%s.Rebind" % varName)
return handleDefault(conversionCode, defaultCode + ";\n")
if isMember:
# Convert directly into the nsString member we have.
declType = CGGeneric("nsString")
return JSToNativeConversionInfo(
getConversionCode("${declName}"),
declType=declType,
dealWithOptional=isOptional)
if isOptional:
declType = "Optional<nsAString>"
holderType = CGGeneric("binding_detail::FakeString")
conversionCode = ("%s"
"${declName} = &${holderName};\n" %
getConversionCode("${holderName}"))
else:
declType = "binding_detail::FakeString"
holderType = None
conversionCode = getConversionCode("${declName}")
# No need to deal with optional here; we handled it already
return JSToNativeConversionInfo(
conversionCode,
declType=CGGeneric(declType),
holderType=holderType)
if type.isByteString():
assert not isEnforceRange and not isClamp
nullable = toStringBool(type.nullable())
conversionCode = fill("""
if (!ConvertJSValueToByteString(cx, $${val}, ${nullable}, $${declName})) {
$*{exceptionCode}
}
""",
nullable=nullable,
exceptionCode=exceptionCode)
# ByteString arguments cannot have a default value.
assert defaultValue is None
return JSToNativeConversionInfo(
conversionCode,
declType=CGGeneric("nsCString"),
dealWithOptional=isOptional)
if type.isEnum():
assert not isEnforceRange and not isClamp
enumName = type.unroll().inner.identifier.name
declType = CGGeneric(enumName)
if type.nullable():
declType = CGTemplatedType("Nullable", declType)
declType = declType.define()
enumLoc = "${declName}.SetValue()"
else:
enumLoc = "${declName}"
declType = declType.define()
if invalidEnumValueFatal:
handleInvalidEnumValueCode = "MOZ_ASSERT(index >= 0);\n"
else:
# invalidEnumValueFatal is false only for attributes. So we won't
# have a non-default exceptionCode here unless attribute "arg
# conversion" code starts passing in an exceptionCode. At which
# point we'll need to figure out what that even means.
assert exceptionCode == "return false;\n"
handleInvalidEnumValueCode = dedent("""
if (index < 0) {
return true;
}
""")
template = fill(
"""
{
bool ok;
int index = FindEnumStringIndex<${invalidEnumValueFatal}>(cx, $${val}, ${values}, "${enumtype}", "${sourceDescription}", &ok);
if (!ok) {
$*{exceptionCode}
}
$*{handleInvalidEnumValueCode}
${enumLoc} = static_cast<${enumtype}>(index);
}
""",
enumtype=enumName,
values=enumName + "Values::" + ENUM_ENTRY_VARIABLE_NAME,
invalidEnumValueFatal=toStringBool(invalidEnumValueFatal),
handleInvalidEnumValueCode=handleInvalidEnumValueCode,
exceptionCode=exceptionCode,
enumLoc=enumLoc,
sourceDescription=firstCap(sourceDescription))
setNull = "${declName}.SetNull();\n"
if type.nullable():
template = CGIfElseWrapper("${val}.isNullOrUndefined()",
CGGeneric(setNull),
CGGeneric(template)).define()
if defaultValue is not None:
if isinstance(defaultValue, IDLNullValue):
assert type.nullable()
template = handleDefault(template, setNull)
else:
assert(defaultValue.type.tag() == IDLType.Tags.domstring)
template = handleDefault(template,
("%s = %s::%s;\n" %
(enumLoc, enumName,
getEnumValueName(defaultValue.value))))
return JSToNativeConversionInfo(template, declType=CGGeneric(declType),
dealWithOptional=isOptional)
if type.isCallback():
assert not isEnforceRange and not isClamp
assert not type.treatNonCallableAsNull() or type.nullable()
assert not type.treatNonObjectAsNull() or type.nullable()
assert not type.treatNonObjectAsNull() or not type.treatNonCallableAsNull()
callback = type.unroll().callback
name = callback.identifier.name
(declType, declArgs,
conversion) = getCallbackConversionInfo(type, callback, isMember,
isCallbackReturnValue,
isOptional)
if allowTreatNonCallableAsNull and type.treatNonCallableAsNull():
haveCallable = "JS::IsCallable(&${val}.toObject())"
if not isDefinitelyObject:
haveCallable = "${val}.isObject() && " + haveCallable
if defaultValue is not None:
assert(isinstance(defaultValue, IDLNullValue))
haveCallable = "${haveValue} && " + haveCallable
template = (
("if (%s) {\n" % haveCallable) +
conversion +
"} else {\n"
" ${declName} = nullptr;\n"
"}\n")
elif allowTreatNonCallableAsNull and type.treatNonObjectAsNull():
if not isDefinitelyObject:
haveObject = "${val}.isObject()"
if defaultValue is not None:
assert(isinstance(defaultValue, IDLNullValue))
haveObject = "${haveValue} && " + haveObject
template = CGIfElseWrapper(haveObject,
CGGeneric(conversion),
CGGeneric("${declName} = nullptr;\n")).define()
else:
template = conversion
else:
template = wrapObjectTemplate(
"if (JS::IsCallable(&${val}.toObject())) {\n" +
conversion +
"} else {\n" +
indent(onFailureNotCallable(failureCode).define()) +
"}\n",
type,
"${declName} = nullptr;\n",
failureCode)
return JSToNativeConversionInfo(template, declType=declType,
declArgs=declArgs,
dealWithOptional=isOptional)
if type.isAny():
assert not isEnforceRange and not isClamp
declArgs = None
if isMember in ("Variadic", "Sequence", "Dictionary", "MozMap"):
# Rooting is handled by the sequence and dictionary tracers.
declType = "JS::Value"
else:
assert not isMember
declType = "JS::Rooted<JS::Value>"
declArgs = "cx"
assert not isOptional
templateBody = "${declName} = ${val};\n"
# For JS-implemented APIs, we refuse to allow passing objects that the
# API consumer does not subsume. The extra parens around
# ($${passedToJSImpl}) suppress unreachable code warnings when
# $${passedToJSImpl} is the literal `false`.
if not isinstance(descriptorProvider, Descriptor) or descriptorProvider.interface.isJSImplemented():
templateBody = fill(
"""
if (($${passedToJSImpl}) && !CallerSubsumes($${val})) {
ThrowErrorMessage(cx, MSG_PERMISSION_DENIED_TO_PASS_ARG, "${sourceDescription}");
$*{exceptionCode}
}
""",
sourceDescription=sourceDescription,
exceptionCode=exceptionCode) + templateBody
# We may not have a default value if we're being converted for
# a setter, say.
if defaultValue:
if isinstance(defaultValue, IDLNullValue):
defaultHandling = "${declName} = JS::NullValue();\n"
else:
assert isinstance(defaultValue, IDLUndefinedValue)
defaultHandling = "${declName} = JS::UndefinedValue();\n"
templateBody = handleDefault(templateBody, defaultHandling)
return JSToNativeConversionInfo(templateBody,
declType=CGGeneric(declType),
declArgs=declArgs)
if type.isObject():
assert not isEnforceRange and not isClamp
return handleJSObjectType(type, isMember, failureCode, exceptionCode, sourceDescription)
if type.isDictionary():
# There are no nullable dictionaries
assert not type.nullable() or isCallbackReturnValue
# All optional dictionaries always have default values, so we
# should be able to assume not isOptional here.
assert not isOptional
# In the callback return value case we never have to worry
# about a default value; we always have a value.
assert not isCallbackReturnValue or defaultValue is None
typeName = CGDictionary.makeDictionaryName(type.unroll().inner)
if not isMember and not isCallbackReturnValue:
# Since we're not a member and not nullable or optional, no one will
# see our real type, so we can do the fast version of the dictionary
# that doesn't pre-initialize members.
typeName = "binding_detail::Fast" + typeName
declType = CGGeneric(typeName)
# We do manual default value handling here, because we
# actually do want a jsval, and we only handle null anyway
# NOTE: if isNullOrUndefined or isDefinitelyObject are true,
# we know we have a value, so we don't have to worry about the
# default value.
if (not isNullOrUndefined and not isDefinitelyObject and
defaultValue is not None):
assert(isinstance(defaultValue, IDLNullValue))
val = "(${haveValue}) ? ${val} : JS::NullHandleValue"
else:
val = "${val}"
dictLoc = "${declName}"
if type.nullable():
dictLoc += ".SetValue()"
conversionCode = fill("""
if (!${dictLoc}.Init(cx, ${val}, "${desc}", $${passedToJSImpl})) {
$*{exceptionCode}
}
""",
dictLoc=dictLoc,
val=val,
desc=firstCap(sourceDescription),
exceptionCode=exceptionCode)
if failureCode is not None:
if isDefinitelyObject:
dictionaryTest = "IsObjectValueConvertibleToDictionary"
else:
dictionaryTest = "IsConvertibleToDictionary"
template = fill("""
{ // scope for isConvertible
bool isConvertible;
if (!${testConvertible}(cx, ${val}, &isConvertible)) {
$*{exceptionCode}
}
if (!isConvertible) {
$*{failureCode}
}
$*{conversionCode}
}
""",
testConvertible=dictionaryTest,
val=val,
exceptionCode=exceptionCode,
failureCode=failureCode,
conversionCode=conversionCode)
else:
template = conversionCode
if type.nullable():
declType = CGTemplatedType("Nullable", declType)
template = CGIfElseWrapper("${val}.isNullOrUndefined()",
CGGeneric("${declName}.SetNull();\n"),
CGGeneric(template)).define()
# Dictionary arguments that might contain traceable things need to get
# traced
if not isMember and isCallbackReturnValue:
# Go ahead and just convert directly into our actual return value
declType = CGWrapper(declType, post="&")
declArgs = "aRetVal"
elif not isMember and typeNeedsRooting(type):
declType = CGTemplatedType("RootedDictionary", declType)
declArgs = "cx"
else:
declArgs = None
return JSToNativeConversionInfo(template, declType=declType,
declArgs=declArgs)
if type.isVoid():
assert not isOptional
# This one only happens for return values, and its easy: Just
# ignore the jsval.
return JSToNativeConversionInfo("")
if type.isDate():
assert not isEnforceRange and not isClamp
declType = CGGeneric("Date")
if type.nullable():
declType = CGTemplatedType("Nullable", declType)
dateVal = "${declName}.SetValue()"
else:
dateVal = "${declName}"
if failureCode is None:
notDate = ('ThrowErrorMessage(cx, MSG_NOT_DATE, "%s");\n'
"%s" % (firstCap(sourceDescription), exceptionCode))
else:
notDate = failureCode
conversion = fill(
"""
JS::Rooted<JSObject*> possibleDateObject(cx, &$${val}.toObject());
{ // scope for isDate
bool isDate;
if (!JS_ObjectIsDate(cx, possibleDateObject, &isDate)) {
$*{exceptionCode}
}
if (!isDate) {
$*{notDate}
}
if (!${dateVal}.SetTimeStamp(cx, possibleDateObject)) {
$*{exceptionCode}
}
}
""",
exceptionCode=exceptionCode,
dateVal=dateVal,
notDate=notDate)
conversion = wrapObjectTemplate(conversion, type,
"${declName}.SetNull();\n", notDate)
return JSToNativeConversionInfo(conversion,
declType=declType,
dealWithOptional=isOptional)
if not type.isPrimitive():
raise TypeError("Need conversion for argument type '%s'" % str(type))
typeName = builtinNames[type.tag()]
conversionBehavior = "eDefault"
if isEnforceRange:
assert type.isInteger()
conversionBehavior = "eEnforceRange"
elif isClamp:
assert type.isInteger()
conversionBehavior = "eClamp"
if type.nullable():
declType = CGGeneric("Nullable<" + typeName + ">")
writeLoc = "${declName}.SetValue()"
readLoc = "${declName}.Value()"
nullCondition = "${val}.isNullOrUndefined()"
if defaultValue is not None and isinstance(defaultValue, IDLNullValue):
nullCondition = "!(${haveValue}) || " + nullCondition
template = fill("""
if (${nullCondition}) {
$${declName}.SetNull();
} else if (!ValueToPrimitive<${typeName}, ${conversionBehavior}>(cx, $${val}, &${writeLoc})) {
$*{exceptionCode}
}
""",
nullCondition=nullCondition,
typeName=typeName,
conversionBehavior=conversionBehavior,
writeLoc=writeLoc,
exceptionCode=exceptionCode)
else:
assert(defaultValue is None or
not isinstance(defaultValue, IDLNullValue))
writeLoc = "${declName}"
readLoc = writeLoc
template = fill("""
if (!ValueToPrimitive<${typeName}, ${conversionBehavior}>(cx, $${val}, &${writeLoc})) {
$*{exceptionCode}
}
""",
typeName=typeName,
conversionBehavior=conversionBehavior,
writeLoc=writeLoc,
exceptionCode=exceptionCode)
declType = CGGeneric(typeName)
if type.isFloat() and not type.isUnrestricted():
if lenientFloatCode is not None:
nonFiniteCode = lenientFloatCode
else:
nonFiniteCode = ('ThrowErrorMessage(cx, MSG_NOT_FINITE, "%s");\n'
"%s" % (firstCap(sourceDescription), exceptionCode))
# We're appending to an if-block brace, so strip trailing whitespace
# and add an extra space before the else.
template = template.rstrip()
template += fill("""
else if (!mozilla::IsFinite(${readLoc})) {
$*{nonFiniteCode}
}
""",
readLoc=readLoc,
nonFiniteCode=nonFiniteCode)
if (defaultValue is not None and
# We already handled IDLNullValue, so just deal with the other ones
not isinstance(defaultValue, IDLNullValue)):
tag = defaultValue.type.tag()
defaultStr = getHandleDefault(defaultValue)
template = CGIfElseWrapper(
"${haveValue}",
CGGeneric(template),
CGGeneric("%s = %s;\n" % (writeLoc, defaultStr))).define()
return JSToNativeConversionInfo(template, declType=declType,
dealWithOptional=isOptional)
def instantiateJSToNativeConversion(info, replacements, checkForValue=False):
"""
Take a JSToNativeConversionInfo as returned by getJSToNativeConversionInfo
and a set of replacements as required by the strings in such an object, and
generate code to convert into stack C++ types.
If checkForValue is True, then the conversion will get wrapped in
a check for ${haveValue}.
"""
templateBody, declType, holderType, dealWithOptional = (
info.template, info.declType, info.holderType, info.dealWithOptional)
if dealWithOptional and not checkForValue:
raise TypeError("Have to deal with optional things, but don't know how")
if checkForValue and declType is None:
raise TypeError("Need to predeclare optional things, so they will be "
"outside the check for big enough arg count!")
# We can't precompute our holder constructor arguments, since
# those might depend on ${declName}, which we change below. Just
# compute arguments at the point when we need them as we go.
def getArgsCGThing(args):
return CGGeneric(string.Template(args).substitute(replacements))
result = CGList([])
# Make a copy of "replacements" since we may be about to start modifying it
replacements = dict(replacements)
originalDeclName = replacements["declName"]
if declType is not None:
if dealWithOptional:
replacements["declName"] = "%s.Value()" % originalDeclName
declType = CGTemplatedType("Optional", declType)
declCtorArgs = None
elif info.declArgs is not None:
declCtorArgs = CGWrapper(getArgsCGThing(info.declArgs),
pre="(", post=")")
else:
declCtorArgs = None
result.append(
CGList([declType, CGGeneric(" "),
CGGeneric(originalDeclName),
declCtorArgs, CGGeneric(";\n")]))
originalHolderName = replacements["holderName"]
if holderType is not None:
if dealWithOptional:
replacements["holderName"] = "%s.ref()" % originalHolderName
holderType = CGTemplatedType("Maybe", holderType)
holderCtorArgs = None
elif info.holderArgs is not None:
holderCtorArgs = CGWrapper(getArgsCGThing(info.holderArgs),
pre="(", post=")")
else:
holderCtorArgs = None
result.append(
CGList([holderType, CGGeneric(" "),
CGGeneric(originalHolderName),
holderCtorArgs, CGGeneric(";\n")]))
conversion = CGGeneric(
string.Template(templateBody).substitute(replacements))
if checkForValue:
if dealWithOptional:
declConstruct = CGIndenter(
CGGeneric("%s.Construct(%s);\n" %
(originalDeclName,
getArgsCGThing(info.declArgs).define() if
info.declArgs else "")))
if holderType is not None:
holderConstruct = CGIndenter(
CGGeneric("%s.emplace(%s);\n" %
(originalHolderName,
getArgsCGThing(info.holderArgs).define() if
info.holderArgs else "")))
else:
holderConstruct = None
else:
declConstruct = None
holderConstruct = None
conversion = CGList([
CGGeneric(
string.Template("if (${haveValue}) {\n").substitute(replacements)),
declConstruct,
holderConstruct,
CGIndenter(conversion),
CGGeneric("}\n")
])
result.append(conversion)
return result
def convertConstIDLValueToJSVal(value):
if isinstance(value, IDLNullValue):
return "JS::NullValue()"
if isinstance(value, IDLUndefinedValue):
return "JS::UndefinedValue()"
tag = value.type.tag()
if tag in [IDLType.Tags.int8, IDLType.Tags.uint8, IDLType.Tags.int16,
IDLType.Tags.uint16, IDLType.Tags.int32]:
return "JS::Int32Value(%s)" % (value.value)
if tag == IDLType.Tags.uint32:
return "JS::NumberValue(%sU)" % (value.value)
if tag in [IDLType.Tags.int64, IDLType.Tags.uint64]:
return "JS::CanonicalizedDoubleValue(%s)" % numericValue(tag, value.value)
if tag == IDLType.Tags.bool:
return "JS::BooleanValue(true)" if value.value else "JS::BooleanValue(false)"
if tag in [IDLType.Tags.float, IDLType.Tags.double]:
return "JS::CanonicalizedDoubleValue(%s)" % (value.value)
raise TypeError("Const value of unhandled type: %s" % value.type)
class CGArgumentConverter(CGThing):
"""
A class that takes an IDL argument object and its index in the
argument list and generates code to unwrap the argument to the
right native type.
argDescription is a description of the argument for error-reporting
purposes. Callers should assume that it might get placed in the middle of a
sentence. If it ends up at the beginning of a sentence, its first character
will be automatically uppercased.
"""
def __init__(self, argument, index, descriptorProvider,
argDescription, member,
invalidEnumValueFatal=True, lenientFloatCode=None):
CGThing.__init__(self)
self.argument = argument
self.argDescription = argDescription
assert(not argument.defaultValue or argument.optional)
replacer = {
"index": index,
"argc": "args.length()"
}
self.replacementVariables = {
"declName": "arg%d" % index,
"holderName": ("arg%d" % index) + "_holder",
"obj": "obj",
"passedToJSImpl": toStringBool(isJSImplementedDescriptor(descriptorProvider))
}
# If we have a method generated by the maplike/setlike portion of an
# interface, arguments can possibly be undefined, but will need to be
# converted to the key/value type of the backing object. In this case,
# use .get() instead of direct access to the argument. This won't
# matter for iterable since generated functions for those interface
# don't take arguments.
if member.isMethod() and member.isMaplikeOrSetlikeOrIterableMethod():
self.replacementVariables["val"] = string.Template(
"args.get(${index})").substitute(replacer)
else:
self.replacementVariables["val"] = string.Template(
"args[${index}]").substitute(replacer)
haveValueCheck = string.Template(
"args.hasDefined(${index})").substitute(replacer)
self.replacementVariables["haveValue"] = haveValueCheck
self.descriptorProvider = descriptorProvider
if self.argument.canHaveMissingValue():
self.argcAndIndex = replacer
else:
self.argcAndIndex = None
self.invalidEnumValueFatal = invalidEnumValueFatal
self.lenientFloatCode = lenientFloatCode
def define(self):
typeConversion = getJSToNativeConversionInfo(
self.argument.type,
self.descriptorProvider,
isOptional=(self.argcAndIndex is not None and
not self.argument.variadic),
invalidEnumValueFatal=self.invalidEnumValueFatal,
defaultValue=self.argument.defaultValue,
treatNullAs=self.argument.treatNullAs,
isEnforceRange=self.argument.enforceRange,
isClamp=self.argument.clamp,
lenientFloatCode=self.lenientFloatCode,
isMember="Variadic" if self.argument.variadic else False,
allowTreatNonCallableAsNull=self.argument.allowTreatNonCallableAsNull(),
sourceDescription=self.argDescription)
if not self.argument.variadic:
return instantiateJSToNativeConversion(
typeConversion,
self.replacementVariables,
self.argcAndIndex is not None).define()
# Variadic arguments get turned into a sequence.
if typeConversion.dealWithOptional:
raise TypeError("Shouldn't have optional things in variadics")
if typeConversion.holderType is not None:
raise TypeError("Shouldn't need holders for variadics")
replacer = dict(self.argcAndIndex, **self.replacementVariables)
replacer["seqType"] = CGTemplatedType("binding_detail::AutoSequence",
typeConversion.declType).define()
if typeNeedsRooting(self.argument.type):
rooterDecl = ("SequenceRooter<%s> ${holderName}(cx, &${declName});\n" %
typeConversion.declType.define())
else:
rooterDecl = ""
replacer["elemType"] = typeConversion.declType.define()
# NOTE: Keep this in sync with sequence conversions as needed
variadicConversion = string.Template(
"${seqType} ${declName};\n" +
rooterDecl +
dedent("""
if (${argc} > ${index}) {
if (!${declName}.SetCapacity(${argc} - ${index}, mozilla::fallible)) {
JS_ReportOutOfMemory(cx);
return false;
}
for (uint32_t variadicArg = ${index}; variadicArg < ${argc}; ++variadicArg) {
${elemType}& slot = *${declName}.AppendElement(mozilla::fallible);
""")
).substitute(replacer)
val = string.Template("args[variadicArg]").substitute(replacer)
variadicConversion += indent(
string.Template(typeConversion.template).substitute({
"val": val,
"declName": "slot",
# We only need holderName here to handle isExternal()
# interfaces, which use an internal holder for the
# conversion even when forceOwningType ends up true.
"holderName": "tempHolder",
# Use the same ${obj} as for the variadic arg itself
"obj": replacer["obj"],
"passedToJSImpl": toStringBool(isJSImplementedDescriptor(self.descriptorProvider))
}), 4)
variadicConversion += (" }\n"
"}\n")
return variadicConversion
def getMaybeWrapValueFuncForType(type):
# Callbacks might actually be DOM objects; nothing prevents a page from
# doing that.
if type.isCallback() or type.isCallbackInterface() or type.isObject():
if type.nullable():
return "MaybeWrapObjectOrNullValue"
return "MaybeWrapObjectValue"
# Spidermonkey interfaces are never DOM objects. Neither are sequences or
# dictionaries, since those are always plain JS objects.
if type.isSpiderMonkeyInterface() or type.isDictionary() or type.isSequence():
if type.nullable():
return "MaybeWrapNonDOMObjectOrNullValue"
return "MaybeWrapNonDOMObjectValue"
if type.isAny():
return "MaybeWrapValue"
# For other types, just go ahead an fall back on MaybeWrapValue for now:
# it's always safe to do, and shouldn't be particularly slow for any of
# them
return "MaybeWrapValue"
sequenceWrapLevel = 0
mozMapWrapLevel = 0
def getWrapTemplateForType(type, descriptorProvider, result, successCode,
returnsNewObject, exceptionCode, typedArraysAreStructs,
isConstructorRetval=False):
"""
Reflect a C++ value stored in "result", of IDL type "type" into JS. The
"successCode" is the code to run once we have successfully done the
conversion and must guarantee that execution of the conversion template
stops once the successCode has executed (e.g. by doing a 'return', or by
doing a 'break' if the entire conversion template is inside a block that
the 'break' will exit).
If typedArraysAreStructs is true, then if the type is a typed array,
"result" is one of the dom::TypedArray subclasses, not a JSObject*.
The resulting string should be used with string.Template. It
needs the following keys when substituting:
jsvalHandle: something that can be passed to methods taking a
JS::MutableHandle<JS::Value>. This can be a
JS::MutableHandle<JS::Value> or a JS::Rooted<JS::Value>*.
jsvalRef: something that can have .address() called on it to get a
JS::Value* and .set() called on it to set it to a JS::Value.
This can be a JS::MutableHandle<JS::Value> or a
JS::Rooted<JS::Value>.
obj: a JS::Handle<JSObject*>.
Returns (templateString, infallibility of conversion template)
"""
if successCode is None:
successCode = "return true;\n"
def setUndefined():
return _setValue("", setter="setUndefined")
def setNull():
return _setValue("", setter="setNull")
def setInt32(value):
return _setValue(value, setter="setInt32")
def setString(value):
return _setValue(value, setter="setString")
def setObject(value, wrapAsType=None):
return _setValue(value, wrapAsType=wrapAsType, setter="setObject")
def setObjectOrNull(value, wrapAsType=None):
return _setValue(value, wrapAsType=wrapAsType, setter="setObjectOrNull")
def setUint32(value):
return _setValue(value, setter="setNumber")
def setDouble(value):
return _setValue("JS_NumberValue(%s)" % value)
def setBoolean(value):
return _setValue(value, setter="setBoolean")
def _setValue(value, wrapAsType=None, setter="set"):
"""
Returns the code to set the jsval to value.
If wrapAsType is not None, then will wrap the resulting value using the
function that getMaybeWrapValueFuncForType(wrapAsType) returns.
Otherwise, no wrapping will be done.
"""
if wrapAsType is None:
tail = successCode
else:
tail = fill(
"""
if (!${maybeWrap}(cx, $${jsvalHandle})) {
$*{exceptionCode}
}
$*{successCode}
""",
maybeWrap=getMaybeWrapValueFuncForType(wrapAsType),
exceptionCode=exceptionCode,
successCode=successCode)
return ("${jsvalRef}.%s(%s);\n" % (setter, value)) + tail
def wrapAndSetPtr(wrapCall, failureCode=None):
"""
Returns the code to set the jsval by calling "wrapCall". "failureCode"
is the code to run if calling "wrapCall" fails
"""
if failureCode is None:
failureCode = exceptionCode
return fill(
"""
if (!${wrapCall}) {
$*{failureCode}
}
$*{successCode}
""",
wrapCall=wrapCall,
failureCode=failureCode,
successCode=successCode)
if type is None or type.isVoid():
return (setUndefined(), True)
if type.isArray():
raise TypeError("Can't handle array return values yet")
if (type.isSequence() or type.isMozMap()) and type.nullable():
# These are both wrapped in Nullable<>
recTemplate, recInfall = getWrapTemplateForType(type.inner, descriptorProvider,
"%s.Value()" % result, successCode,
returnsNewObject, exceptionCode,
typedArraysAreStructs)
code = fill(
"""
if (${result}.IsNull()) {
$*{setNull}
}
$*{recTemplate}
""",
result=result,
setNull=setNull(),
recTemplate=recTemplate)
return code, recInfall
if type.isSequence():
# Now do non-nullable sequences. Our success code is just to break to
# where we set the element in the array. Note that we bump the
# sequenceWrapLevel around this call so that nested sequence conversions
# will use different iteration variables.
global sequenceWrapLevel
index = "sequenceIdx%d" % sequenceWrapLevel
sequenceWrapLevel += 1
innerTemplate = wrapForType(
type.inner, descriptorProvider,
{
'result': "%s[%s]" % (result, index),
'successCode': "break;\n",
'jsvalRef': "tmp",
'jsvalHandle': "&tmp",
'returnsNewObject': returnsNewObject,
'exceptionCode': exceptionCode,
'obj': "returnArray",
'typedArraysAreStructs': typedArraysAreStructs
})
sequenceWrapLevel -= 1
code = fill(
"""
uint32_t length = ${result}.Length();
JS::Rooted<JSObject*> returnArray(cx, JS_NewArrayObject(cx, length));
if (!returnArray) {
$*{exceptionCode}
}
// Scope for 'tmp'
{
JS::Rooted<JS::Value> tmp(cx);
for (uint32_t ${index} = 0; ${index} < length; ++${index}) {
// Control block to let us common up the JS_DefineElement calls when there
// are different ways to succeed at wrapping the object.
do {
$*{innerTemplate}
} while (0);
if (!JS_DefineElement(cx, returnArray, ${index}, tmp,
JSPROP_ENUMERATE)) {
$*{exceptionCode}
}
}
}
$*{set}
""",
result=result,
exceptionCode=exceptionCode,
index=index,
innerTemplate=innerTemplate,
set=setObject("*returnArray"))
return (code, False)
if type.isMozMap():
# Now do non-nullable MozMap. Our success code is just to break to
# where we define the property on the object. Note that we bump the
# mozMapWrapLevel around this call so that nested MozMap conversions
# will use different temp value names.
global mozMapWrapLevel
valueName = "mozMapValue%d" % mozMapWrapLevel
mozMapWrapLevel += 1
innerTemplate = wrapForType(
type.inner, descriptorProvider,
{
'result': valueName,
'successCode': "break;\n",
'jsvalRef': "tmp",
'jsvalHandle': "&tmp",
'returnsNewObject': returnsNewObject,
'exceptionCode': exceptionCode,
'obj': "returnObj",
'typedArraysAreStructs': typedArraysAreStructs
})
mozMapWrapLevel -= 1
code = fill(
"""
nsTArray<nsString> keys;
${result}.GetKeys(keys);
JS::Rooted<JSObject*> returnObj(cx, JS_NewPlainObject(cx));
if (!returnObj) {
$*{exceptionCode}
}
// Scope for 'tmp'
{
JS::Rooted<JS::Value> tmp(cx);
for (size_t idx = 0; idx < keys.Length(); ++idx) {
auto& ${valueName} = ${result}.Get(keys[idx]);
// Control block to let us common up the JS_DefineUCProperty calls when there
// are different ways to succeed at wrapping the value.
do {
$*{innerTemplate}
} while (0);
if (!JS_DefineUCProperty(cx, returnObj, keys[idx].get(),
keys[idx].Length(), tmp,
JSPROP_ENUMERATE)) {
$*{exceptionCode}
}
}
}
$*{set}
""",
result=result,
exceptionCode=exceptionCode,
valueName=valueName,
innerTemplate=innerTemplate,
set=setObject("*returnObj"))
return (code, False)
if type.isGeckoInterface() and not type.isCallbackInterface():
descriptor = descriptorProvider.getDescriptor(type.unroll().inner.identifier.name)
if type.nullable():
wrappingCode = ("if (!%s) {\n" % (result) +
indent(setNull()) +
"}\n")
else:
wrappingCode = ""
if not descriptor.interface.isExternal():
if descriptor.wrapperCache:
wrapMethod = "GetOrCreateDOMReflector"
wrapArgs = "cx, %s, ${jsvalHandle}" % result
else:
# Hack: the "Promise" interface is OK to return from
# non-newobject things even when it's not wrappercached; that
# happens when using SpiderMonkey promises, and the WrapObject()
# method will just return the existing reflector, which is just
# not stored in a wrappercache.
if (not returnsNewObject and
descriptor.interface.identifier.name != "Promise"):
raise MethodNotNewObjectError(descriptor.interface.identifier.name)
wrapMethod = "WrapNewBindingNonWrapperCachedObject"
wrapArgs = "cx, ${obj}, %s, ${jsvalHandle}" % result
if isConstructorRetval:
wrapArgs += ", desiredProto"
wrap = "%s(%s)" % (wrapMethod, wrapArgs)
if not descriptor.hasXPConnectImpls:
# Can only fail to wrap as a new-binding object
# if they already threw an exception.
# XXX Assertion disabled for now, see bug 991271.
failed = ("MOZ_ASSERT(true || JS_IsExceptionPending(cx));\n" +
exceptionCode)
else:
if descriptor.notflattened:
raise TypeError("%s has XPConnect impls but not flattened; "
"fallback won't work correctly" %
descriptor.interface.identifier.name)
# Try old-style wrapping for bindings which might be XPConnect impls.
failed = wrapAndSetPtr("HandleNewBindingWrappingFailure(cx, ${obj}, %s, ${jsvalHandle})" % result)
else:
if descriptor.notflattened:
getIID = "&NS_GET_IID(%s), " % descriptor.nativeType
else:
getIID = ""
wrap = "WrapObject(cx, %s, %s${jsvalHandle})" % (result, getIID)
failed = None
wrappingCode += wrapAndSetPtr(wrap, failed)
return (wrappingCode, False)
if type.isDOMString() or type.isUSVString():
if type.nullable():
return (wrapAndSetPtr("xpc::StringToJsval(cx, %s, ${jsvalHandle})" % result), False)
else:
return (wrapAndSetPtr("xpc::NonVoidStringToJsval(cx, %s, ${jsvalHandle})" % result), False)
if type.isByteString():
if type.nullable():
return (wrapAndSetPtr("ByteStringToJsval(cx, %s, ${jsvalHandle})" % result), False)
else:
return (wrapAndSetPtr("NonVoidByteStringToJsval(cx, %s, ${jsvalHandle})" % result), False)
if type.isEnum():
if type.nullable():
resultLoc = "%s.Value()" % result
else:
resultLoc = result
conversion = fill(
"""
if (!ToJSValue(cx, ${result}, $${jsvalHandle})) {
$*{exceptionCode}
}
$*{successCode}
""",
result=resultLoc,
exceptionCode=exceptionCode,
successCode=successCode)
if type.nullable():
conversion = CGIfElseWrapper(
"%s.IsNull()" % result,
CGGeneric(setNull()),
CGGeneric(conversion)).define()
return conversion, False
if type.isCallback() or type.isCallbackInterface():
wrapCode = setObject(
"*GetCallbackFromCallbackObject(%(result)s)",
wrapAsType=type)
if type.nullable():
wrapCode = (
"if (%(result)s) {\n" +
indent(wrapCode) +
"} else {\n" +
indent(setNull()) +
"}\n")
wrapCode = wrapCode % {"result": result}
return wrapCode, False
if type.isAny():
# See comments in GetOrCreateDOMReflector explaining why we need
# to wrap here.
# NB: _setValue(..., type-that-is-any) calls JS_WrapValue(), so is fallible
head = "JS::ExposeValueToActiveJS(%s);\n" % result
return (head + _setValue(result, wrapAsType=type), False)
if (type.isObject() or (type.isSpiderMonkeyInterface() and
not typedArraysAreStructs)):
# See comments in GetOrCreateDOMReflector explaining why we need
# to wrap here.
if type.nullable():
toValue = "%s"
setter = setObjectOrNull
head = """if (%s) {
JS::ExposeObjectToActiveJS(%s);
}
""" % (result, result)
else:
toValue = "*%s"
setter = setObject
head = "JS::ExposeObjectToActiveJS(%s);\n" % result
# NB: setObject{,OrNull}(..., some-object-type) calls JS_WrapValue(), so is fallible
return (head + setter(toValue % result, wrapAsType=type), False)
if not (type.isUnion() or type.isPrimitive() or type.isDictionary() or
type.isDate() or
(type.isSpiderMonkeyInterface() and typedArraysAreStructs)):
raise TypeError("Need to learn to wrap %s" % type)
if type.nullable():
recTemplate, recInfal = getWrapTemplateForType(type.inner, descriptorProvider,
"%s.Value()" % result, successCode,
returnsNewObject, exceptionCode,
typedArraysAreStructs)
return ("if (%s.IsNull()) {\n" % result +
indent(setNull()) +
"}\n" +
recTemplate, recInfal)
if type.isSpiderMonkeyInterface():
assert typedArraysAreStructs
# See comments in GetOrCreateDOMReflector explaining why we need
# to wrap here.
# NB: setObject(..., some-object-type) calls JS_WrapValue(), so is fallible
return (setObject("*%s.Obj()" % result,
wrapAsType=type), False)
if type.isUnion():
return (wrapAndSetPtr("%s.ToJSVal(cx, ${obj}, ${jsvalHandle})" % result),
False)
if type.isDictionary():
return (wrapAndSetPtr("%s.ToObjectInternal(cx, ${jsvalHandle})" % result),
False)
if type.isDate():
return (wrapAndSetPtr("%s.ToDateObject(cx, ${jsvalHandle})" % result),
False)
tag = type.tag()
if tag in [IDLType.Tags.int8, IDLType.Tags.uint8, IDLType.Tags.int16,
IDLType.Tags.uint16, IDLType.Tags.int32]:
return (setInt32("int32_t(%s)" % result), True)
elif tag in [IDLType.Tags.int64, IDLType.Tags.uint64,
IDLType.Tags.unrestricted_float, IDLType.Tags.float,
IDLType.Tags.unrestricted_double, IDLType.Tags.double]:
# XXXbz will cast to double do the "even significand" thing that webidl
# calls for for 64-bit ints? Do we care?
return (setDouble("double(%s)" % result), True)
elif tag == IDLType.Tags.uint32:
return (setUint32(result), True)
elif tag == IDLType.Tags.bool:
return (setBoolean(result), True)
else:
raise TypeError("Need to learn to wrap primitive: %s" % type)
def wrapForType(type, descriptorProvider, templateValues):
"""
Reflect a C++ value of IDL type "type" into JS. TemplateValues is a dict
that should contain:
* 'jsvalRef': something that can have .address() called on it to get a
JS::Value* and .set() called on it to set it to a JS::Value.
This can be a JS::MutableHandle<JS::Value> or a
JS::Rooted<JS::Value>.
* 'jsvalHandle': something that can be passed to methods taking a
JS::MutableHandle<JS::Value>. This can be a
JS::MutableHandle<JS::Value> or a JS::Rooted<JS::Value>*.
* 'obj' (optional): the name of the variable that contains the JSObject to
use as a scope when wrapping, if not supplied 'obj'
will be used as the name
* 'result' (optional): the name of the variable in which the C++ value is
stored, if not supplied 'result' will be used as
the name
* 'successCode' (optional): the code to run once we have successfully
done the conversion, if not supplied 'return
true;' will be used as the code. The
successCode must ensure that once it runs no
more of the conversion template will be
executed (e.g. by doing a 'return' or 'break'
as appropriate).
* 'returnsNewObject' (optional): If true, we're wrapping for the return
value of a [NewObject] method. Assumed
false if not set.
* 'exceptionCode' (optional): Code to run when a JS exception is thrown.
The default is "return false;". The code
passed here must return.
* 'isConstructorRetval' (optional): If true, we're wrapping a constructor
return value.
"""
wrap = getWrapTemplateForType(
type, descriptorProvider,
templateValues.get('result', 'result'),
templateValues.get('successCode', None),
templateValues.get('returnsNewObject', False),
templateValues.get('exceptionCode', "return false;\n"),
templateValues.get('typedArraysAreStructs', False),
isConstructorRetval=templateValues.get('isConstructorRetval', False))[0]
defaultValues = {'obj': 'obj'}
return string.Template(wrap).substitute(defaultValues, **templateValues)
def infallibleForMember(member, type, descriptorProvider):
"""
Determine the fallibility of changing a C++ value of IDL type "type" into
JS for the given attribute. Apart from returnsNewObject, all the defaults
are used, since the fallbility does not change based on the boolean values,
and the template will be discarded.
CURRENT ASSUMPTIONS:
We assume that successCode for wrapping up return values cannot contain
failure conditions.
"""
return getWrapTemplateForType(type, descriptorProvider, 'result', None,
memberReturnsNewObject(member), "return false;\n",
False)[1]
def leafTypeNeedsCx(type, retVal):
return (type.isAny() or type.isObject() or
(retVal and type.isSpiderMonkeyInterface()))
def leafTypeNeedsScopeObject(type, retVal):
return retVal and type.isSpiderMonkeyInterface()
def leafTypeNeedsRooting(type):
return leafTypeNeedsCx(type, False) or type.isSpiderMonkeyInterface()
def typeNeedsRooting(type):
return typeMatchesLambda(type,
lambda t: leafTypeNeedsRooting(t))
def typeNeedsCx(type, retVal=False):
return typeMatchesLambda(type,
lambda t: leafTypeNeedsCx(t, retVal))
def typeNeedsScopeObject(type, retVal=False):
return typeMatchesLambda(type,
lambda t: leafTypeNeedsScopeObject(t, retVal))
def typeMatchesLambda(type, func):
if type is None:
return False
if type.nullable():
return typeMatchesLambda(type.inner, func)
if type.isSequence() or type.isMozMap() or type.isArray():
return typeMatchesLambda(type.inner, func)
if type.isUnion():
return any(typeMatchesLambda(t, func) for t in
type.unroll().flatMemberTypes)
if type.isDictionary():
return dictionaryMatchesLambda(type.inner, func)
return func(type)
def dictionaryMatchesLambda(dictionary, func):
return (any(typeMatchesLambda(m.type, func) for m in dictionary.members) or
(dictionary.parent and dictionaryMatchesLambda(dictionary.parent, func)))
# Whenever this is modified, please update CGNativeMember.getRetvalInfo as
# needed to keep the types compatible.
def getRetvalDeclarationForType(returnType, descriptorProvider,
isMember=False):
"""
Returns a tuple containing five things:
1) A CGThing for the type of the return value, or None if there is no need
for a return value.
2) A value indicating the kind of ourparam to pass the value as. Valid
options are None to not pass as an out param at all, "ref" (to pass a
reference as an out param), and "ptr" (to pass a pointer as an out
param).
3) A CGThing for a tracer for the return value, or None if no tracing is
needed.
4) An argument string to pass to the retval declaration
constructor or None if there are no arguments.
5) The name of a function that needs to be called with the return value
before using it, or None if no function needs to be called.
"""
if returnType is None or returnType.isVoid():
# Nothing to declare
return None, None, None, None, None
if returnType.isPrimitive() and returnType.tag() in builtinNames:
result = CGGeneric(builtinNames[returnType.tag()])
if returnType.nullable():
result = CGTemplatedType("Nullable", result)
return result, None, None, None, None
if returnType.isDOMString() or returnType.isUSVString():
if isMember:
return CGGeneric("nsString"), "ref", None, None, None
return CGGeneric("DOMString"), "ref", None, None, None
if returnType.isByteString():
return CGGeneric("nsCString"), "ref", None, None, None
if returnType.isEnum():
result = CGGeneric(returnType.unroll().inner.identifier.name)
if returnType.nullable():
result = CGTemplatedType("Nullable", result)
return result, None, None, None, None
if returnType.isGeckoInterface():
result = CGGeneric(descriptorProvider.getDescriptor(
returnType.unroll().inner.identifier.name).nativeType)
conversion = None
if isMember:
result = CGGeneric("StrongPtrForMember<%s>::Type" % result.define())
else:
conversion = CGGeneric("StrongOrRawPtr<%s>" % result.define())
result = CGGeneric("auto")
return result, None, None, None, conversion
if returnType.isCallback():
name = returnType.unroll().callback.identifier.name
return CGGeneric("RefPtr<%s>" % name), None, None, None, None
if returnType.isAny():
if isMember:
return CGGeneric("JS::Value"), None, None, None, None
return CGGeneric("JS::Rooted<JS::Value>"), "ptr", None, "cx", None
if returnType.isObject() or returnType.isSpiderMonkeyInterface():
if isMember:
return CGGeneric("JSObject*"), None, None, None, None
return CGGeneric("JS::Rooted<JSObject*>"), "ptr", None, "cx", None
if returnType.isSequence():
nullable = returnType.nullable()
if nullable:
returnType = returnType.inner
result, _, _, _, _ = getRetvalDeclarationForType(returnType.inner,
descriptorProvider,
isMember="Sequence")
# While we have our inner type, set up our rooter, if needed
if not isMember and typeNeedsRooting(returnType):
rooter = CGGeneric("SequenceRooter<%s > resultRooter(cx, &result);\n" %
result.define())
else:
rooter = None
result = CGTemplatedType("nsTArray", result)
if nullable:
result = CGTemplatedType("Nullable", result)
return result, "ref", rooter, None, None
if returnType.isMozMap():
nullable = returnType.nullable()
if nullable:
returnType = returnType.inner
result, _, _, _, _ = getRetvalDeclarationForType(returnType.inner,
descriptorProvider,
isMember="MozMap")
# While we have our inner type, set up our rooter, if needed
if not isMember and typeNeedsRooting(returnType):
rooter = CGGeneric("MozMapRooter<%s> resultRooter(cx, &result);\n" %
result.define())
else:
rooter = None
result = CGTemplatedType("MozMap", result)
if nullable:
result = CGTemplatedType("Nullable", result)
return result, "ref", rooter, None, None
if returnType.isDictionary():
nullable = returnType.nullable()
dictName = CGDictionary.makeDictionaryName(returnType.unroll().inner)
result = CGGeneric(dictName)
if not isMember and typeNeedsRooting(returnType):
if nullable:
result = CGTemplatedType("NullableRootedDictionary", result)
else:
result = CGTemplatedType("RootedDictionary", result)
resultArgs = "cx"
else:
if nullable:
result = CGTemplatedType("Nullable", result)
resultArgs = None
return result, "ref", None, resultArgs, None
if returnType.isUnion():
result = CGGeneric(CGUnionStruct.unionTypeName(returnType.unroll(), True))
if not isMember and typeNeedsRooting(returnType):
if returnType.nullable():
result = CGTemplatedType("NullableRootedUnion", result)
else:
result = CGTemplatedType("RootedUnion", result)
resultArgs = "cx"
else:
if returnType.nullable():
result = CGTemplatedType("Nullable", result)
resultArgs = None
return result, "ref", None, resultArgs, None
if returnType.isDate():
result = CGGeneric("Date")
if returnType.nullable():
result = CGTemplatedType("Nullable", result)
return result, None, None, None, None
raise TypeError("Don't know how to declare return value for %s" %
returnType)
def needCx(returnType, arguments, extendedAttributes, considerTypes,
static=False):
return (not static and considerTypes and
(typeNeedsCx(returnType, True) or
any(typeNeedsCx(a.type) for a in arguments)) or
'implicitJSContext' in extendedAttributes)
def needScopeObject(returnType, arguments, extendedAttributes,
isWrapperCached, considerTypes, isMember):
"""
isMember should be true if we're dealing with an attribute
annotated as [StoreInSlot].
"""
return (considerTypes and not isWrapperCached and
((not isMember and typeNeedsScopeObject(returnType, True)) or
any(typeNeedsScopeObject(a.type) for a in arguments)))
class CGCallGenerator(CGThing):
"""
A class to generate an actual call to a C++ object. Assumes that the C++
object is stored in a variable whose name is given by the |object| argument.
isFallible is a boolean indicating whether the call should be fallible.
resultVar: If the returnType is not void, then the result of the call is
stored in a C++ variable named by resultVar. The caller is responsible for
declaring the result variable. If the caller doesn't care about the result
value, resultVar can be omitted.
"""
def __init__(self, isFallible, arguments, argsPre, returnType,
extendedAttributes, descriptorProvider, nativeMethodName,
static, object="self", argsPost=[], resultVar=None):
CGThing.__init__(self)
result, resultOutParam, resultRooter, resultArgs, resultConversion = \
getRetvalDeclarationForType(returnType, descriptorProvider)
args = CGList([CGGeneric(arg) for arg in argsPre], ", ")
for a, name in arguments:
arg = CGGeneric(name)
# Now constify the things that need it
def needsConst(a):
if a.type.isDictionary():
return True
if a.type.isSequence():
return True
if a.type.isMozMap():
return True
# isObject() types are always a JS::Rooted, whether
# nullable or not, and it turns out a const JS::Rooted
# is not very helpful at all (in particular, it won't
# even convert to a JS::Handle).
# XXX bz Well, why not???
if a.type.nullable() and not a.type.isObject():
return True
if a.type.isString():
return True
if a.canHaveMissingValue():
# This will need an Optional or it's a variadic;
# in both cases it should be const.
return True
if a.type.isUnion():
return True
if a.type.isSpiderMonkeyInterface():
return True
return False
if needsConst(a):
arg = CGWrapper(arg, pre="Constify(", post=")")
# And convert NonNull<T> to T&
if (((a.type.isGeckoInterface() or a.type.isCallback()) and not a.type.nullable()) or
a.type.isDOMString()):
arg = CGWrapper(arg, pre="NonNullHelper(", post=")")
args.append(arg)
needResultDecl = False
# Return values that go in outparams go here
if resultOutParam is not None:
if resultVar is None:
needResultDecl = True
resultVar = "result"
if resultOutParam == "ref":
args.append(CGGeneric(resultVar))
else:
assert resultOutParam == "ptr"
args.append(CGGeneric("&" + resultVar))
if isFallible:
args.append(CGGeneric("rv"))
args.extend(CGGeneric(arg) for arg in argsPost)
# Build up our actual call
self.cgRoot = CGList([])
call = CGGeneric(nativeMethodName)
if not static:
call = CGWrapper(call, pre="%s->" % object)
call = CGList([call, CGWrapper(args, pre="(", post=")")])
if resultConversion is not None:
call = CGList([resultConversion, CGWrapper(call, pre="(", post=")")])
if resultVar is None and result is not None:
needResultDecl = True
resultVar = "result"
if needResultDecl:
if resultRooter is not None:
self.cgRoot.prepend(resultRooter)
if resultArgs is not None:
resultArgsStr = "(%s)" % resultArgs
else:
resultArgsStr = ""
result = CGWrapper(result, post=(" %s%s" % (resultVar, resultArgsStr)))
if resultOutParam is None and resultArgs is None:
call = CGList([result, CGWrapper(call, pre="(", post=")")])
else:
self.cgRoot.prepend(CGWrapper(result, post=";\n"))
if resultOutParam is None:
call = CGWrapper(call, pre=resultVar + " = ")
elif result is not None:
assert resultOutParam is None
call = CGWrapper(call, pre=resultVar + " = ")
call = CGWrapper(call, post=";\n")
self.cgRoot.append(call)
if isFallible:
self.cgRoot.prepend(CGGeneric("binding_detail::FastErrorResult rv;\n"))
self.cgRoot.append(CGGeneric(dedent(
"""
if (MOZ_UNLIKELY(rv.MaybeSetPendingException(cx))) {
return false;
}
""")))
self.cgRoot.append(CGGeneric("MOZ_ASSERT(!JS_IsExceptionPending(cx));\n"))
def define(self):
return self.cgRoot.define()
def getUnionMemberName(type):
if type.isGeckoInterface():
return type.inner.identifier.name
if type.isEnum():
return type.inner.identifier.name
return type.name
class MethodNotNewObjectError(Exception):
def __init__(self, typename):
self.typename = typename
# A counter for making sure that when we're wrapping up things in
# nested sequences we don't use the same variable name to iterate over
# different sequences.
sequenceWrapLevel = 0
mapWrapLevel = 0
def wrapTypeIntoCurrentCompartment(type, value, isMember=True):
"""
Take the thing named by "value" and if it contains "any",
"object", or spidermonkey-interface types inside return a CGThing
that will wrap them into the current compartment.
"""
if type.isAny():
assert not type.nullable()
if isMember:
value = "JS::MutableHandle<JS::Value>::fromMarkedLocation(&%s)" % value
else:
value = "&" + value
return CGGeneric("if (!JS_WrapValue(cx, %s)) {\n"
" return false;\n"
"}\n" % value)
if type.isObject():
if isMember:
value = "JS::MutableHandle<JSObject*>::fromMarkedLocation(&%s)" % value
else:
value = "&" + value
return CGGeneric("if (!JS_WrapObject(cx, %s)) {\n"
" return false;\n"
"}\n" % value)
if type.isSpiderMonkeyInterface():
origValue = value
if type.nullable():
value = "%s.Value()" % value
wrapCode = CGGeneric("if (!%s.WrapIntoNewCompartment(cx)) {\n"
" return false;\n"
"}\n" % value)
if type.nullable():
wrapCode = CGIfWrapper(wrapCode, "!%s.IsNull()" % origValue)
return wrapCode
if type.isSequence():
origValue = value
origType = type
if type.nullable():
type = type.inner
value = "%s.Value()" % value
global sequenceWrapLevel
index = "indexName%d" % sequenceWrapLevel
sequenceWrapLevel += 1
wrapElement = wrapTypeIntoCurrentCompartment(type.inner,
"%s[%s]" % (value, index))
sequenceWrapLevel -= 1
if not wrapElement:
return None
wrapCode = CGWrapper(CGIndenter(wrapElement),
pre=("for (uint32_t %s = 0; %s < %s.Length(); ++%s) {\n" %
(index, index, value, index)),
post="}\n")
if origType.nullable():
wrapCode = CGIfWrapper(wrapCode, "!%s.IsNull()" % origValue)
return wrapCode
if type.isMozMap():
origValue = value
origType = type
if type.nullable():
type = type.inner
value = "%s.Value()" % value
global mapWrapLevel
key = "mapName%d" % mapWrapLevel
mapWrapLevel += 1
wrapElement = wrapTypeIntoCurrentCompartment(type.inner,
"%s.Get(%sKeys[%sIndex])" % (value, key, key))
mapWrapLevel -= 1
if not wrapElement:
return None
wrapCode = CGWrapper(CGIndenter(wrapElement),
pre=("""
nsTArray<nsString> %sKeys;
%s.GetKeys(%sKeys);
for (uint32_t %sIndex = 0; %sIndex < %sKeys.Length(); ++%sIndex) {
""" % (key, value, key, key, key, key, key)),
post="}\n")
if origType.nullable():
wrapCode = CGIfWrapper(wrapCode, "!%s.IsNull()" % origValue)
return wrapCode
if type.isDictionary():
assert not type.nullable()
myDict = type.inner
memberWraps = []
while myDict:
for member in myDict.members:
memberWrap = wrapArgIntoCurrentCompartment(
member,
"%s.%s" % (value, CGDictionary.makeMemberName(member.identifier.name)))
if memberWrap:
memberWraps.append(memberWrap)
myDict = myDict.parent
return CGList(memberWraps) if len(memberWraps) != 0 else None
if type.isUnion():
memberWraps = []
if type.nullable():
type = type.inner
value = "%s.Value()" % value
for member in type.flatMemberTypes:
memberName = getUnionMemberName(member)
memberWrap = wrapTypeIntoCurrentCompartment(
member, "%s.GetAs%s()" % (value, memberName))
if memberWrap:
memberWrap = CGIfWrapper(
memberWrap, "%s.Is%s()" % (value, memberName))
memberWraps.append(memberWrap)
return CGList(memberWraps, "else ") if len(memberWraps) != 0 else None
if (type.isString() or type.isPrimitive() or type.isEnum() or
type.isGeckoInterface() or type.isCallback() or type.isDate()):
# All of these don't need wrapping
return None
raise TypeError("Unknown type; we don't know how to wrap it in constructor "
"arguments: %s" % type)
def wrapArgIntoCurrentCompartment(arg, value, isMember=True):
"""
As wrapTypeIntoCurrentCompartment but handles things being optional
"""
origValue = value
isOptional = arg.canHaveMissingValue()
if isOptional:
value = value + ".Value()"
wrap = wrapTypeIntoCurrentCompartment(arg.type, value, isMember)
if wrap and isOptional:
wrap = CGIfWrapper(wrap, "%s.WasPassed()" % origValue)
return wrap
class CGPerSignatureCall(CGThing):
"""
This class handles the guts of generating code for a particular
call signature. A call signature consists of four things:
1) A return type, which can be None to indicate that there is no
actual return value (e.g. this is an attribute setter) or an
IDLType if there's an IDL type involved (including |void|).
2) An argument list, which is allowed to be empty.
3) A name of a native method to call.
4) Whether or not this method is static. Note that this only controls how
the method is called (|self->nativeMethodName(...)| vs
|nativeMethodName(...)|).
We also need to know whether this is a method or a getter/setter
to do error reporting correctly.
The idlNode parameter can be either a method or an attr. We can query
|idlNode.identifier| in both cases, so we can be agnostic between the two.
"""
# XXXbz For now each entry in the argument list is either an
# IDLArgument or a FakeArgument, but longer-term we may want to
# have ways of flagging things like JSContext* or optional_argc in
# there.
def __init__(self, returnType, arguments, nativeMethodName, static,
descriptor, idlNode, argConversionStartsAt=0, getter=False,
setter=False, isConstructor=False, useCounterName=None,
resultVar=None):
assert idlNode.isMethod() == (not getter and not setter)
assert idlNode.isAttr() == (getter or setter)
# Constructors are always static
assert not isConstructor or static
CGThing.__init__(self)
self.returnType = returnType
self.descriptor = descriptor
self.idlNode = idlNode
self.extendedAttributes = descriptor.getExtendedAttributes(idlNode,
getter=getter,
setter=setter)
self.arguments = arguments
self.argCount = len(arguments)
self.isConstructor = isConstructor
cgThings = []
# Here, we check if the current getter, setter, method, interface or
# inherited interfaces have the UnsafeInPrerendering extended attribute
# and if so, we add a check to make sure it is safe.
if (idlNode.getExtendedAttribute("UnsafeInPrerendering") or
descriptor.interface.getExtendedAttribute("UnsafeInPrerendering") or
any(i.getExtendedAttribute("UnsafeInPrerendering")
for i in descriptor.interface.getInheritedInterfaces())):
cgThings.append(CGGeneric(dedent(
"""
if (!mozilla::dom::EnforceNotInPrerendering(cx, obj)) {
// Return false from the JSNative in order to trigger
// an uncatchable exception.
MOZ_ASSERT(!JS_IsExceptionPending(cx));
return false;
}
""")))
deprecated = (idlNode.getExtendedAttribute("Deprecated") or
(idlNode.isStatic() and descriptor.interface.getExtendedAttribute("Deprecated")))
if deprecated:
cgThings.append(CGGeneric(dedent(
"""
DeprecationWarning(cx, obj, nsIDocument::e%s);
""" % deprecated[0])))
lenientFloatCode = None
if idlNode.getExtendedAttribute('LenientFloat') is not None:
if setter:
lenientFloatCode = "return true;\n"
elif idlNode.isMethod():
lenientFloatCode = ("args.rval().setUndefined();\n"
"return true;\n")
argsPre = []
if idlNode.isStatic():
# If we're a constructor, "obj" may not be a function, so calling
# XrayAwareCalleeGlobal() on it is not safe. Of course in the
# constructor case either "obj" is an Xray or we're already in the
# content compartment, not the Xray compartment, so just
# constructing the GlobalObject from "obj" is fine.
if isConstructor:
objForGlobalObject = "obj"
else:
objForGlobalObject = "xpc::XrayAwareCalleeGlobal(obj)"
cgThings.append(CGGeneric(fill(
"""
GlobalObject global(cx, ${obj});
if (global.Failed()) {
return false;
}
""",
obj=objForGlobalObject)))
argsPre.append("global")
# For JS-implemented interfaces we do not want to base the
# needsCx decision on the types involved, just on our extended
# attributes. Also, JSContext is not needed for the static case
# since GlobalObject already contains the context.
needsCx = needCx(returnType, arguments, self.extendedAttributes,
not descriptor.interface.isJSImplemented(), static)
if needsCx:
argsPre.append("cx")
# Hack for making Promise.prototype.then work well over Xrays.
if (not idlNode.isStatic() and
descriptor.name == "Promise" and
idlNode.isMethod() and
idlNode.identifier.name == "then"):
cgThings.append(CGGeneric(dedent(
"""
JS::Rooted<JSObject*> calleeGlobal(cx, xpc::XrayAwareCalleeGlobal(&args.callee()));
""")))
argsPre.append("calleeGlobal")
needsUnwrap = False
argsPost = []
if isConstructor:
if descriptor.name == "Promise":
# Hack for Promise for now: pass in our desired proto so the
# implementation can create the reflector with the right proto.
argsPost.append("desiredProto")
# Also, we do not want to enter the content compartment when the
# Promise constructor is called via Xrays, because we want to
# create our callback functions that we will hand to our caller
# in the Xray compartment. The reason we want to do that is the
# following situation, over Xrays:
#
# contentWindow.Promise.race([Promise.resolve(5)])
#
# Ideally this would work. Internally, race() does a
# contentWindow.Promise.resolve() on everything in the array.
# Per spec, to support subclassing,
# contentWindow.Promise.resolve has to do:
#
# var resolve, reject;
# var p = new contentWindow.Promise(function(a, b) {
# resolve = a;
# reject = b;
# });
# resolve(arg);
# return p;
#
# where "arg" is, in this case, the chrome-side return value of
# Promise.resolve(5). But if the "resolve" function in that
# case were created in the content compartment, then calling it
# would wrap "arg" in an opaque wrapper, and that function tries
# to get .then off the argument, which would throw. So we need
# to create the "resolve" function in the chrome compartment,
# and hence want to be running the entire Promise constructor
# (which creates that function) in the chrome compartment in
# this case. So don't set needsUnwrap here.
else:
needsUnwrap = True
needsUnwrappedVar = False
unwrappedVar = "obj"
elif descriptor.interface.isJSImplemented():
if not idlNode.isStatic():
needsUnwrap = True
needsUnwrappedVar = True
argsPost.append("js::GetObjectCompartment(unwrappedObj ? *unwrappedObj : obj)")
elif needScopeObject(returnType, arguments, self.extendedAttributes,
descriptor.wrapperCache, True,
idlNode.getExtendedAttribute("StoreInSlot")):
needsUnwrap = True
needsUnwrappedVar = True
argsPre.append("unwrappedObj ? *unwrappedObj : obj")
if idlNode.isStatic() and not isConstructor and descriptor.name == "Promise":
# Hack for Promise for now: pass in the "this" value to
# Promise static methods.
argsPre.append("args.thisv()")
if needsUnwrap and needsUnwrappedVar:
# We cannot assign into obj because it's a Handle, not a
# MutableHandle, so we need a separate Rooted.
cgThings.append(CGGeneric("Maybe<JS::Rooted<JSObject*> > unwrappedObj;\n"))
unwrappedVar = "unwrappedObj.ref()"
if idlNode.isMethod() and idlNode.isLegacycaller():
# If we can have legacycaller with identifier, we can't
# just use the idlNode to determine whether we're
# generating code for the legacycaller or not.
assert idlNode.isIdentifierLess()
# Pass in our thisVal
argsPre.append("args.thisv()")
ourName = "%s.%s" % (descriptor.interface.identifier.name,
idlNode.identifier.name)
if idlNode.isMethod():
argDescription = "argument %(index)d of " + ourName
elif setter:
argDescription = "value being assigned to %s" % ourName
else:
assert self.argCount == 0
if needsUnwrap:
# It's very important that we construct our unwrappedObj, if we need
# to do it, before we might start setting up Rooted things for our
# arguments, so that we don't violate the stack discipline Rooted
# depends on.
cgThings.append(CGGeneric(
"bool objIsXray = xpc::WrapperFactory::IsXrayWrapper(obj);\n"))
if needsUnwrappedVar:
cgThings.append(CGIfWrapper(
CGGeneric("unwrappedObj.emplace(cx, obj);\n"),
"objIsXray"))
for i in range(argConversionStartsAt, self.argCount):
cgThings.append(
CGArgumentConverter(arguments[i], i, self.descriptor,
argDescription % {"index": i + 1},
idlNode, invalidEnumValueFatal=not setter,
lenientFloatCode=lenientFloatCode))
if needsUnwrap:
# Something depends on having the unwrapped object, so unwrap it now.
xraySteps = []
# XXXkhuey we should be able to MOZ_ASSERT that ${obj} is
# not null.
xraySteps.append(
CGGeneric(fill(
"""
${obj} = js::CheckedUnwrap(${obj});
if (!${obj}) {
return false;
}
""",
obj=unwrappedVar)))
if isConstructor:
# If we're called via an xray, we need to enter the underlying
# object's compartment and then wrap up all of our arguments into
# that compartment as needed. This is all happening after we've
# already done the conversions from JS values to WebIDL (C++)
# values, so we only need to worry about cases where there are 'any'
# or 'object' types, or other things that we represent as actual
# JSAPI types, present. Effectively, we're emulating a
# CrossCompartmentWrapper, but working with the C++ types, not the
# original list of JS::Values.
cgThings.append(CGGeneric("Maybe<JSAutoCompartment> ac;\n"))
xraySteps.append(CGGeneric("ac.emplace(cx, obj);\n"))
xraySteps.append(CGGeneric(dedent(
"""
if (!JS_WrapObject(cx, &desiredProto)) {
return false;
}
""")))
xraySteps.extend(
wrapArgIntoCurrentCompartment(arg, argname, isMember=False)
for arg, argname in self.getArguments())
cgThings.append(
CGIfWrapper(CGList(xraySteps),
"objIsXray"))
# If this is a method that was generated by a maplike/setlike
# interface, use the maplike/setlike generator to fill in the body.
# Otherwise, use CGCallGenerator to call the native method.
if idlNode.isMethod() and idlNode.isMaplikeOrSetlikeOrIterableMethod():
if (idlNode.maplikeOrSetlikeOrIterable.isMaplike() or
idlNode.maplikeOrSetlikeOrIterable.isSetlike()):
cgThings.append(CGMaplikeOrSetlikeMethodGenerator(descriptor,
idlNode.maplikeOrSetlikeOrIterable,
idlNode.identifier.name))
else:
cgThings.append(CGIterableMethodGenerator(descriptor,
idlNode.maplikeOrSetlikeOrIterable,
idlNode.identifier.name))
else:
cgThings.append(CGCallGenerator(
self.isFallible(),
self.getArguments(), argsPre, returnType,
self.extendedAttributes, descriptor,
nativeMethodName,
static, argsPost=argsPost, resultVar=resultVar))
if useCounterName:
# Generate a telemetry call for when [UseCounter] is used.
code = "SetDocumentAndPageUseCounter(cx, obj, eUseCounter_%s);\n" % useCounterName
cgThings.append(CGGeneric(code))
self.cgRoot = CGList(cgThings)
def getArguments(self):
return [(a, "arg" + str(i)) for i, a in enumerate(self.arguments)]
def isFallible(self):
return 'infallible' not in self.extendedAttributes
def wrap_return_value(self):
wrapCode = ""
returnsNewObject = memberReturnsNewObject(self.idlNode)
if (returnsNewObject and
self.returnType.isGeckoInterface()):
wrapCode += dedent(
"""
static_assert(!IsPointer<decltype(result)>::value,
"NewObject implies that we need to keep the object alive with a strong reference.");
""")
setSlot = self.idlNode.isAttr() and self.idlNode.slotIndices is not None
if setSlot:
# For attributes in slots, we want to do some
# post-processing once we've wrapped them.
successCode = "break;\n"
else:
successCode = None
resultTemplateValues = {
'jsvalRef': 'args.rval()',
'jsvalHandle': 'args.rval()',
'returnsNewObject': returnsNewObject,
'isConstructorRetval': self.isConstructor,
'successCode': successCode,
'obj': "reflector" if setSlot else "obj"
}
try:
wrapCode += wrapForType(self.returnType, self.descriptor, resultTemplateValues)
except MethodNotNewObjectError, err:
assert not returnsNewObject
raise TypeError("%s being returned from non-NewObject method or property %s.%s" %
(err.typename,
self.descriptor.interface.identifier.name,
self.idlNode.identifier.name))
if setSlot:
# We need to make sure that our initial wrapping is done in the
# reflector compartment, but that we finally set args.rval() in the
# caller compartment. We also need to make sure that the actual
# wrapping steps happen inside a do/while that they can break out
# of.
# postSteps are the steps that run while we're still in the
# reflector compartment but after we've finished the initial
# wrapping into args.rval().
postSteps = ""
if self.idlNode.getExtendedAttribute("Frozen"):
assert self.idlNode.type.isSequence() or self.idlNode.type.isDictionary()
freezeValue = CGGeneric(
"JS::Rooted<JSObject*> rvalObj(cx, &args.rval().toObject());\n"
"if (!JS_FreezeObject(cx, rvalObj)) {\n"
" return false;\n"
"}\n")
if self.idlNode.type.nullable():
freezeValue = CGIfWrapper(freezeValue,
"args.rval().isObject()")
postSteps += freezeValue.define()
postSteps += ("js::SetReservedSlot(reflector, %s, args.rval());\n" %
memberReservedSlot(self.idlNode, self.descriptor))
# For the case of Cached attributes, go ahead and preserve our
# wrapper if needed. We need to do this because otherwise the
# wrapper could get garbage-collected and the cached value would
# suddenly disappear, but the whole premise of cached values is that
# they never change without explicit action on someone's part. We
# don't do this for StoreInSlot, since those get dealt with during
# wrapper setup, and failure would involve us trying to clear an
# already-preserved wrapper.
if (self.idlNode.getExtendedAttribute("Cached") and
self.descriptor.wrapperCache):
postSteps += "PreserveWrapper(self);\n"
wrapCode = fill(
"""
{ // Make sure we wrap and store in the slot in reflector's compartment
JSAutoCompartment ac(cx, reflector);
do { // block we break out of when done wrapping
$*{wrapCode}
} while (0);
$*{postSteps}
}
// And now make sure args.rval() is in the caller compartment
return ${maybeWrap}(cx, args.rval());
""",
wrapCode=wrapCode,
postSteps=postSteps,
maybeWrap=getMaybeWrapValueFuncForType(self.idlNode.type))
return wrapCode
def define(self):
return (self.cgRoot.define() + self.wrap_return_value())
class CGSwitch(CGList):
"""
A class to generate code for a switch statement.
Takes three constructor arguments: an expression, a list of cases,
and an optional default.
Each case is a CGCase. The default is a CGThing for the body of
the default case, if any.
"""
def __init__(self, expression, cases, default=None):
CGList.__init__(self, [CGIndenter(c) for c in cases])
self.prepend(CGGeneric("switch (" + expression + ") {\n"))
if default is not None:
self.append(
CGIndenter(
CGWrapper(
CGIndenter(default),
pre="default: {\n",
post=" break;\n}\n")))
self.append(CGGeneric("}\n"))
class CGCase(CGList):
"""
A class to generate code for a case statement.
Takes three constructor arguments: an expression, a CGThing for
the body (allowed to be None if there is no body), and an optional
argument (defaulting to False) for whether to fall through.
"""
def __init__(self, expression, body, fallThrough=False):
CGList.__init__(self, [])
self.append(CGGeneric("case " + expression + ": {\n"))
bodyList = CGList([body])
if fallThrough:
bodyList.append(CGGeneric("MOZ_FALLTHROUGH;\n"))
else:
bodyList.append(CGGeneric("break;\n"))
self.append(CGIndenter(bodyList))
self.append(CGGeneric("}\n"))
class CGMethodCall(CGThing):
"""
A class to generate selection of a method signature from a set of
signatures and generation of a call to that signature.
"""
def __init__(self, nativeMethodName, static, descriptor, method,
isConstructor=False, constructorName=None):
CGThing.__init__(self)
if isConstructor:
assert constructorName is not None
methodName = constructorName
else:
methodName = "%s.%s" % (descriptor.interface.identifier.name, method.identifier.name)
argDesc = "argument %d of " + methodName
if method.getExtendedAttribute("UseCounter"):
useCounterName = methodName.replace(".", "_")
else:
useCounterName = None
if method.isStatic():
nativeType = descriptor.nativeType
staticTypeOverride = PropertyDefiner.getStringAttr(method, "StaticClassOverride")
if (staticTypeOverride):
nativeType = staticTypeOverride
nativeMethodName = "%s::%s" % (nativeType, nativeMethodName)
def requiredArgCount(signature):
arguments = signature[1]
if len(arguments) == 0:
return 0
requiredArgs = len(arguments)
while requiredArgs and arguments[requiredArgs-1].optional:
requiredArgs -= 1
return requiredArgs
def getPerSignatureCall(signature, argConversionStartsAt=0):
return CGPerSignatureCall(signature[0], signature[1],
nativeMethodName, static, descriptor,
method,
argConversionStartsAt=argConversionStartsAt,
isConstructor=isConstructor,
useCounterName=useCounterName)
signatures = method.signatures()
if len(signatures) == 1:
# Special case: we can just do a per-signature method call
# here for our one signature and not worry about switching
# on anything.
signature = signatures[0]
self.cgRoot = CGList([getPerSignatureCall(signature)])
requiredArgs = requiredArgCount(signature)
# Skip required arguments check for maplike/setlike interfaces, as
# they can have arguments which are not passed, and are treated as
# if undefined had been explicitly passed.
if requiredArgs > 0 and not method.isMaplikeOrSetlikeOrIterableMethod():
code = fill(
"""
if (MOZ_UNLIKELY(args.length() < ${requiredArgs})) {
return ThrowErrorMessage(cx, MSG_MISSING_ARGUMENTS, "${methodName}");
}
""",
requiredArgs=requiredArgs,
methodName=methodName)
self.cgRoot.prepend(CGGeneric(code))
return
# Need to find the right overload
maxArgCount = method.maxArgCount
allowedArgCounts = method.allowedArgCounts
argCountCases = []
for argCountIdx, argCount in enumerate(allowedArgCounts):
possibleSignatures = method.signaturesForArgCount(argCount)
# Try to optimize away cases when the next argCount in the list
# will have the same code as us; if it does, we can fall through to
# that case.
if argCountIdx+1 < len(allowedArgCounts):
nextPossibleSignatures = method.signaturesForArgCount(allowedArgCounts[argCountIdx+1])
else:
nextPossibleSignatures = None
if possibleSignatures == nextPossibleSignatures:
# Same set of signatures means we better have the same
# distinguishing index. So we can in fact just fall through to
# the next case here.
assert (len(possibleSignatures) == 1 or
(method.distinguishingIndexForArgCount(argCount) ==
method.distinguishingIndexForArgCount(allowedArgCounts[argCountIdx+1])))
argCountCases.append(CGCase(str(argCount), None, True))
continue
if len(possibleSignatures) == 1:
# easy case!
signature = possibleSignatures[0]
argCountCases.append(
CGCase(str(argCount), getPerSignatureCall(signature)))
continue
distinguishingIndex = method.distinguishingIndexForArgCount(argCount)
def distinguishingArgument(signature):
args = signature[1]
if distinguishingIndex < len(args):
return args[distinguishingIndex]
assert args[-1].variadic
return args[-1]
def distinguishingType(signature):
return distinguishingArgument(signature).type
for sig in possibleSignatures:
# We should not have "any" args at distinguishingIndex,
# since we have multiple possible signatures remaining,
# but "any" is never distinguishable from anything else.
assert not distinguishingType(sig).isAny()
# We can't handle unions at the distinguishing index.
if distinguishingType(sig).isUnion():
raise TypeError("No support for unions as distinguishing "
"arguments yet: %s" %
distinguishingArgument(sig).location)
# We don't support variadics as the distinguishingArgument yet.
# If you want to add support, consider this case:
#
# void(long... foo);
# void(long bar, Int32Array baz);
#
# in which we have to convert argument 0 to long before picking
# an overload... but all the variadic stuff needs to go into a
# single array in case we pick that overload, so we have to have
# machinery for converting argument 0 to long and then either
# placing it in the variadic bit or not. Or something. We may
# be able to loosen this restriction if the variadic arg is in
# fact at distinguishingIndex, perhaps. Would need to
# double-check.
if distinguishingArgument(sig).variadic:
raise TypeError("No support for variadics as distinguishing "
"arguments yet: %s" %
distinguishingArgument(sig).location)
# Convert all our arguments up to the distinguishing index.
# Doesn't matter which of the possible signatures we use, since
# they all have the same types up to that point; just use
# possibleSignatures[0]
caseBody = [CGArgumentConverter(possibleSignatures[0][1][i],
i, descriptor,
argDesc % (i + 1), method)
for i in range(0, distinguishingIndex)]
# Select the right overload from our set.
distinguishingArg = "args[%d]" % distinguishingIndex
def tryCall(signature, indent, isDefinitelyObject=False,
isNullOrUndefined=False):
assert not isDefinitelyObject or not isNullOrUndefined
assert isDefinitelyObject or isNullOrUndefined
if isDefinitelyObject:
failureCode = "break;\n"
else:
failureCode = None
type = distinguishingType(signature)
# The argument at index distinguishingIndex can't possibly be
# unset here, because we've already checked that argc is large
# enough that we can examine this argument. But note that we
# still want to claim that optional arguments are optional, in
# case undefined was passed in.
argIsOptional = distinguishingArgument(signature).canHaveMissingValue()
testCode = instantiateJSToNativeConversion(
getJSToNativeConversionInfo(type, descriptor,
failureCode=failureCode,
isDefinitelyObject=isDefinitelyObject,
isNullOrUndefined=isNullOrUndefined,
isOptional=argIsOptional,
sourceDescription=(argDesc % (distinguishingIndex + 1))),
{
"declName": "arg%d" % distinguishingIndex,
"holderName": ("arg%d" % distinguishingIndex) + "_holder",
"val": distinguishingArg,
"obj": "obj",
"haveValue": "args.hasDefined(%d)" % distinguishingIndex,
"passedToJSImpl": toStringBool(isJSImplementedDescriptor(descriptor))
},
checkForValue=argIsOptional)
caseBody.append(CGIndenter(testCode, indent))
# If we got this far, we know we unwrapped to the right
# C++ type, so just do the call. Start conversion with
# distinguishingIndex + 1, since we already converted
# distinguishingIndex.
caseBody.append(CGIndenter(
getPerSignatureCall(signature, distinguishingIndex + 1),
indent))
def hasConditionalConversion(type):
"""
Return whether the argument conversion for this type will be
conditional on the type of incoming JS value. For example, for
interface types the conversion is conditional on the incoming
value being isObject().
For the types for which this returns false, we do not have to
output extra isUndefined() or isNullOrUndefined() cases, because
null/undefined values will just fall through into our
unconditional conversion.
"""
if type.isString() or type.isEnum():
return False
if type.isBoolean():
distinguishingTypes = (distinguishingType(s) for s in
possibleSignatures)
return any(t.isString() or t.isEnum() or t.isNumeric()
for t in distinguishingTypes)
if type.isNumeric():
distinguishingTypes = (distinguishingType(s) for s in
possibleSignatures)
return any(t.isString() or t.isEnum()
for t in distinguishingTypes)
return True
def needsNullOrUndefinedCase(type):
"""
Return true if the type needs a special isNullOrUndefined() case
"""
return ((type.nullable() and
hasConditionalConversion(type)) or
type.isDictionary())
# First check for undefined and optional distinguishing arguments
# and output a special branch for that case. Note that we don't
# use distinguishingArgument here because we actualy want to
# exclude variadic arguments. Also note that we skip this check if
# we plan to output a isNullOrUndefined() special case for this
# argument anyway, since that will subsume our isUndefined() check.
# This is safe, because there can be at most one nullable
# distinguishing argument, so if we're it we'll definitely get
# picked up by the nullable handling. Also, we can skip this check
# if the argument has an unconditional conversion later on.
undefSigs = [s for s in possibleSignatures if
distinguishingIndex < len(s[1]) and
s[1][distinguishingIndex].optional and
hasConditionalConversion(s[1][distinguishingIndex].type) and
not needsNullOrUndefinedCase(s[1][distinguishingIndex].type)]
# Can't have multiple signatures with an optional argument at the
# same index.
assert len(undefSigs) < 2
if len(undefSigs) > 0:
caseBody.append(CGGeneric("if (%s.isUndefined()) {\n" %
distinguishingArg))
tryCall(undefSigs[0], 2, isNullOrUndefined=True)
caseBody.append(CGGeneric("}\n"))
# Next, check for null or undefined. That means looking for
# nullable arguments at the distinguishing index and outputting a
# separate branch for them. But if the nullable argument has an
# unconditional conversion, we don't need to do that. The reason
# for that is that at most one argument at the distinguishing index
# is nullable (since two nullable arguments are not
# distinguishable), and null/undefined values will always fall
# through to the unconditional conversion we have, if any, since
# they will fail whatever the conditions on the input value are for
# our other conversions.
nullOrUndefSigs = [s for s in possibleSignatures
if needsNullOrUndefinedCase(distinguishingType(s))]
# Can't have multiple nullable types here
assert len(nullOrUndefSigs) < 2
if len(nullOrUndefSigs) > 0:
caseBody.append(CGGeneric("if (%s.isNullOrUndefined()) {\n" %
distinguishingArg))
tryCall(nullOrUndefSigs[0], 2, isNullOrUndefined=True)
caseBody.append(CGGeneric("}\n"))
# Now check for distinguishingArg being various kinds of objects.
# The spec says to check for the following things in order:
# 1) A platform object that's not a platform array object, being
# passed to an interface or "object" arg.
# 2) A Date object being passed to a Date or "object" arg.
# 3) A RegExp object being passed to a RegExp or "object" arg.
# 4) A callable object being passed to a callback or "object" arg.
# 5) An iterable object being passed to a sequence arg.
# 6) Any non-Date and non-RegExp object being passed to a
# array or callback interface or dictionary or
# "object" arg.
# First grab all the overloads that have a non-callback interface
# (which includes typed arrays and arraybuffers) at the
# distinguishing index. We can also include the ones that have an
# "object" here, since if those are present no other object-typed
# argument will be.
objectSigs = [
s for s in possibleSignatures
if (distinguishingType(s).isObject() or
distinguishingType(s).isNonCallbackInterface())]
# And all the overloads that take Date
objectSigs.extend(s for s in possibleSignatures
if distinguishingType(s).isDate())
# And all the overloads that take callbacks
objectSigs.extend(s for s in possibleSignatures
if distinguishingType(s).isCallback())
# And all the overloads that take sequences
objectSigs.extend(s for s in possibleSignatures
if distinguishingType(s).isSequence())
# Now append all the overloads that take an array or dictionary or
# callback interface or MozMap. There should be only one of these!
genericObjectSigs = [
s for s in possibleSignatures
if (distinguishingType(s).isArray() or
distinguishingType(s).isDictionary() or
distinguishingType(s).isMozMap() or
distinguishingType(s).isCallbackInterface())]
assert len(genericObjectSigs) <= 1
objectSigs.extend(genericObjectSigs)
# There might be more than one thing in objectSigs; we need to check
# which ones we unwrap to.
if len(objectSigs) > 0:
# Here it's enough to guard on our argument being an object. The
# code for unwrapping non-callback interfaces, typed arrays,
# sequences, arrays, and Dates will just bail out and move on to
# the next overload if the object fails to unwrap correctly,
# while "object" accepts any object anyway. We could even not
# do the isObject() check up front here, but in cases where we
# have multiple object overloads it makes sense to do it only
# once instead of for each overload. That will also allow the
# unwrapping test to skip having to do codegen for the
# null-or-undefined case, which we already handled above.
caseBody.append(CGGeneric("if (%s.isObject()) {\n" %
distinguishingArg))
for sig in objectSigs:
caseBody.append(CGIndenter(CGGeneric("do {\n")))
# Indent by 4, since we need to indent further
# than our "do" statement
tryCall(sig, 4, isDefinitelyObject=True)
caseBody.append(CGIndenter(CGGeneric("} while (0);\n")))
caseBody.append(CGGeneric("}\n"))
# Now we only have to consider booleans, numerics, and strings. If
# we only have one of them, then we can just output it. But if not,
# then we need to output some of the cases conditionally: if we have
# a string overload, then boolean and numeric are conditional, and
# if not then boolean is conditional if we have a numeric overload.
def findUniqueSignature(filterLambda):
sigs = filter(filterLambda, possibleSignatures)
assert len(sigs) < 2
if len(sigs) > 0:
return sigs[0]
return None
stringSignature = findUniqueSignature(
lambda s: (distinguishingType(s).isString() or
distinguishingType(s).isEnum()))
numericSignature = findUniqueSignature(
lambda s: distinguishingType(s).isNumeric())
booleanSignature = findUniqueSignature(
lambda s: distinguishingType(s).isBoolean())
if stringSignature or numericSignature:
booleanCondition = "%s.isBoolean()"
else:
booleanCondition = None
if stringSignature:
numericCondition = "%s.isNumber()"
else:
numericCondition = None
def addCase(sig, condition):
sigCode = getPerSignatureCall(sig, distinguishingIndex)
if condition:
sigCode = CGIfWrapper(sigCode,
condition % distinguishingArg)
caseBody.append(sigCode)
if booleanSignature:
addCase(booleanSignature, booleanCondition)
if numericSignature:
addCase(numericSignature, numericCondition)
if stringSignature:
addCase(stringSignature, None)
if (not booleanSignature and not numericSignature and
not stringSignature):
# Just throw; we have no idea what we're supposed to
# do with this.
caseBody.append(CGGeneric(
'return ThrowErrorMessage(cx, MSG_OVERLOAD_RESOLUTION_FAILED, "%d", "%d", "%s");\n' %
(distinguishingIndex + 1, argCount, methodName)))
argCountCases.append(CGCase(str(argCount), CGList(caseBody)))
overloadCGThings = []
overloadCGThings.append(
CGGeneric("unsigned argcount = std::min(args.length(), %du);\n" %
maxArgCount))
overloadCGThings.append(
CGSwitch("argcount",
argCountCases,
CGGeneric('return ThrowErrorMessage(cx, MSG_MISSING_ARGUMENTS, "%s");\n' %
methodName)))
overloadCGThings.append(
CGGeneric('MOZ_CRASH("We have an always-returning default case");\n'
'return false;\n'))
self.cgRoot = CGList(overloadCGThings)
def define(self):
return self.cgRoot.define()
class CGGetterCall(CGPerSignatureCall):
"""
A class to generate a native object getter call for a particular IDL
getter.
"""
def __init__(self, returnType, nativeMethodName, descriptor, attr):
if attr.getExtendedAttribute("UseCounter"):
useCounterName = "%s_%s_getter" % (descriptor.interface.identifier.name,
attr.identifier.name)
else:
useCounterName = None
if attr.isStatic():
nativeMethodName = "%s::%s" % (descriptor.nativeType, nativeMethodName)
CGPerSignatureCall.__init__(self, returnType, [], nativeMethodName,
attr.isStatic(), descriptor, attr,
getter=True, useCounterName=useCounterName)
class CGNavigatorGetterCall(CGPerSignatureCall):
"""
A class to generate a native object getter call for an IDL getter for a
property generated by NavigatorProperty.
"""
def __init__(self, returnType, _, descriptor, attr):
nativeMethodName = "%s::ConstructNavigatorObject" % (toBindingNamespace(returnType.inner.identifier.name))
CGPerSignatureCall.__init__(self, returnType, [], nativeMethodName,
True, descriptor, attr, getter=True)
def getArguments(self):
return [(FakeArgument(BuiltinTypes[IDLBuiltinType.Types.object], self.idlNode), "reflector")]
class FakeIdentifier():
def __init__(self, name):
self.name = name
class FakeArgument():
"""
A class that quacks like an IDLArgument. This is used to make
setters look like method calls or for special operations.
"""
def __init__(self, type, interfaceMember, name="arg", allowTreatNonCallableAsNull=False):
self.type = type
self.optional = False
self.variadic = False
self.defaultValue = None
self._allowTreatNonCallableAsNull = allowTreatNonCallableAsNull
# For FakeArguments generated by maplike/setlike convenience functions,
# we won't have an interfaceMember to pass in.
if interfaceMember:
self.treatNullAs = interfaceMember.treatNullAs
else:
self.treatNullAs = "Default"
if isinstance(interfaceMember, IDLAttribute):
self.enforceRange = interfaceMember.enforceRange
self.clamp = interfaceMember.clamp
else:
self.enforceRange = False
self.clamp = False
self.identifier = FakeIdentifier(name)
def allowTreatNonCallableAsNull(self):
return self._allowTreatNonCallableAsNull
def canHaveMissingValue(self):
return False
class CGSetterCall(CGPerSignatureCall):
"""
A class to generate a native object setter call for a particular IDL
setter.
"""
def __init__(self, argType, nativeMethodName, descriptor, attr):
if attr.getExtendedAttribute("UseCounter"):
useCounterName = "%s_%s_setter" % (descriptor.interface.identifier.name,
attr.identifier.name)
else:
useCounterName = None
if attr.isStatic():
nativeMethodName = "%s::%s" % (descriptor.nativeType, nativeMethodName)
CGPerSignatureCall.__init__(self, None,
[FakeArgument(argType, attr, allowTreatNonCallableAsNull=True)],
nativeMethodName, attr.isStatic(),
descriptor, attr, setter=True, useCounterName=useCounterName)
def wrap_return_value(self):
attr = self.idlNode
if self.descriptor.wrapperCache and attr.slotIndices is not None:
if attr.getExtendedAttribute("StoreInSlot"):
args = "cx, self"
else:
args = "self"
clearSlot = ("%s(%s);\n" %
(MakeClearCachedValueNativeName(self.idlNode), args))
else:
clearSlot = ""
# We have no return value
return ("\n"
"%s"
"return true;\n" % clearSlot)
class CGAbstractBindingMethod(CGAbstractStaticMethod):
"""
Common class to generate the JSNatives for all our methods, getters, and
setters. This will generate the function declaration and unwrap the
|this| object. Subclasses are expected to override the generate_code
function to do the rest of the work. This function should return a
CGThing which is already properly indented.
getThisObj should be code for getting a JSObject* for the binding
object. If this is None, we will auto-generate code based on
descriptor to do the right thing. "" can be passed in if the
binding object is already stored in 'obj'.
callArgs should be code for getting a JS::CallArgs into a variable
called 'args'. This can be "" if there is already such a variable
around.
If allowCrossOriginThis is true, then this-unwrapping will first do an
UncheckedUnwrap and after that operate on the result.
"""
def __init__(self, descriptor, name, args, unwrapFailureCode=None,
getThisObj=None,
callArgs="JS::CallArgs args = JS::CallArgsFromVp(argc, vp);\n",
allowCrossOriginThis=False):
CGAbstractStaticMethod.__init__(self, descriptor, name, "bool", args)
if unwrapFailureCode is None:
self.unwrapFailureCode = 'return ThrowErrorMessage(cx, MSG_THIS_DOES_NOT_IMPLEMENT_INTERFACE, "Value", "%s");\n' % descriptor.interface.identifier.name
else:
self.unwrapFailureCode = unwrapFailureCode
if getThisObj == "":
self.getThisObj = None
else:
if getThisObj is None:
if descriptor.interface.isOnGlobalProtoChain():
ensureCondition = "!args.thisv().isNullOrUndefined() && !args.thisv().isObject()"
getThisObj = "args.thisv().isObject() ? &args.thisv().toObject() : js::GetGlobalForObjectCrossCompartment(&args.callee())"
else:
ensureCondition = "!args.thisv().isObject()"
getThisObj = "&args.thisv().toObject()"
unwrapFailureCode = self.unwrapFailureCode % {'securityError': 'false'}
ensureThisObj = CGIfWrapper(CGGeneric(unwrapFailureCode),
ensureCondition)
else:
ensureThisObj = None
self.getThisObj = CGList(
[ensureThisObj,
CGGeneric("JS::Rooted<JSObject*> obj(cx, %s);\n" %
getThisObj)])
self.callArgs = callArgs
self.allowCrossOriginThis = allowCrossOriginThis
def definition_body(self):
body = self.callArgs
if self.getThisObj is not None:
body += self.getThisObj.define() + "\n"
body += "%s* self;\n" % self.descriptor.nativeType
# Our descriptor might claim that we're not castable, simply because
# we're someone's consequential interface. But for this-unwrapping, we
# know that we're the real deal. So fake a descriptor here for
# consumption by CastableObjectUnwrapper.
body += str(CastableObjectUnwrapper(
self.descriptor,
"obj", "self", self.unwrapFailureCode,
allowCrossOriginObj=self.allowCrossOriginThis))
return body + self.generate_code().define()
def generate_code(self):
assert False # Override me
class CGAbstractStaticBindingMethod(CGAbstractStaticMethod):
"""
Common class to generate the JSNatives for all our static methods, getters
and setters. This will generate the function declaration and unwrap the
global object. Subclasses are expected to override the generate_code
function to do the rest of the work. This function should return a
CGThing which is already properly indented.
"""
def __init__(self, descriptor, name):
CGAbstractStaticMethod.__init__(self, descriptor, name, "bool",
JSNativeArguments())
def definition_body(self):
# Make sure that "obj" is in the same compartment as "cx", since we'll
# later use it to wrap return values.
unwrap = dedent("""
JS::CallArgs args = JS::CallArgsFromVp(argc, vp);
JS::Rooted<JSObject*> obj(cx, &args.callee());
""")
return unwrap + self.generate_code().define()
def generate_code(self):
assert False # Override me
def MakeNativeName(name):
return name[0].upper() + IDLToCIdentifier(name[1:])
class CGGenericMethod(CGAbstractBindingMethod):
"""
A class for generating the C++ code for an IDL method.
If allowCrossOriginThis is true, then this-unwrapping will first do an
UncheckedUnwrap and after that operate on the result.
"""
def __init__(self, descriptor, allowCrossOriginThis=False):
unwrapFailureCode = (
'return ThrowInvalidThis(cx, args, %%(securityError)s, "%s");\n' %
descriptor.interface.identifier.name)
name = "genericCrossOriginMethod" if allowCrossOriginThis else "genericMethod"
CGAbstractBindingMethod.__init__(self, descriptor, name,
JSNativeArguments(),
unwrapFailureCode=unwrapFailureCode,
allowCrossOriginThis=allowCrossOriginThis)
def generate_code(self):
return CGGeneric(dedent("""
const JSJitInfo *info = FUNCTION_VALUE_TO_JITINFO(args.calleev());
MOZ_ASSERT(info->type() == JSJitInfo::Method);
JSJitMethodOp method = info->method;
bool ok = method(cx, obj, self, JSJitMethodCallArgs(args));
#ifdef DEBUG
if (ok) {
AssertReturnTypeMatchesJitinfo(info, args.rval());
}
#endif
return ok;
"""))
class CGGenericPromiseReturningMethod(CGAbstractBindingMethod):
"""
A class for generating the C++ code for an IDL method that returns a Promise.
Does not handle cross-origin this.
"""
def __init__(self, descriptor):
unwrapFailureCode = dedent("""
ThrowInvalidThis(cx, args, %%(securityError)s, "%s");\n
return ConvertExceptionToPromise(cx, xpc::XrayAwareCalleeGlobal(callee),
args.rval());\n""" %
descriptor.interface.identifier.name)
name = "genericPromiseReturningMethod"
customCallArgs = dedent("""
JS::CallArgs args = JS::CallArgsFromVp(argc, vp);
// Make sure to save the callee before someone maybe messes with rval().
JS::Rooted<JSObject*> callee(cx, &args.callee());
""")
CGAbstractBindingMethod.__init__(self, descriptor, name,
JSNativeArguments(),
callArgs=customCallArgs,
unwrapFailureCode=unwrapFailureCode)
def generate_code(self):
return CGGeneric(dedent("""
const JSJitInfo *info = FUNCTION_VALUE_TO_JITINFO(args.calleev());
MOZ_ASSERT(info->type() == JSJitInfo::Method);
JSJitMethodOp method = info->method;
bool ok = method(cx, obj, self, JSJitMethodCallArgs(args));
if (ok) {
#ifdef DEBUG
AssertReturnTypeMatchesJitinfo(info, args.rval());
#endif
return true;
}
MOZ_ASSERT(info->returnType() == JSVAL_TYPE_OBJECT);
return ConvertExceptionToPromise(cx, xpc::XrayAwareCalleeGlobal(callee),
args.rval());
"""))
class CGSpecializedMethod(CGAbstractStaticMethod):
"""
A class for generating the C++ code for a specialized method that the JIT
can call with lower overhead.
"""
def __init__(self, descriptor, method):
self.method = method
name = CppKeywords.checkMethodName(IDLToCIdentifier(method.identifier.name))
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('%s*' % descriptor.nativeType, 'self'),
Argument('const JSJitMethodCallArgs&', 'args')]
CGAbstractStaticMethod.__init__(self, descriptor, name, 'bool', args)
def definition_body(self):
nativeName = CGSpecializedMethod.makeNativeName(self.descriptor,
self.method)
return CGMethodCall(nativeName, self.method.isStatic(), self.descriptor,
self.method).define()
@staticmethod
def makeNativeName(descriptor, method):
name = method.identifier.name
return MakeNativeName(descriptor.binaryNameFor(name))
class CGMethodPromiseWrapper(CGAbstractStaticMethod):
"""
A class for generating a wrapper around another method that will
convert exceptions to promises.
"""
def __init__(self, descriptor, methodToWrap):
self.method = methodToWrap
name = self.makeName(methodToWrap.name)
args = list(methodToWrap.args)
CGAbstractStaticMethod.__init__(self, descriptor, name, 'bool', args)
def definition_body(self):
return fill(
"""
// Make sure to save the callee before someone maybe messes
// with rval().
JS::Rooted<JSObject*> callee(cx, &args.callee());
bool ok = ${methodName}(${args});
if (ok) {
return true;
}
return ConvertExceptionToPromise(cx, xpc::XrayAwareCalleeGlobal(callee),
args.rval());
""",
methodName=self.method.name,
args=", ".join(arg.name for arg in self.args))
@staticmethod
def makeName(methodName):
return methodName + "_promiseWrapper"
class CGJsonifierMethod(CGSpecializedMethod):
def __init__(self, descriptor, method):
assert method.isJsonifier()
CGSpecializedMethod.__init__(self, descriptor, method)
def definition_body(self):
ret = dedent("""
JS::Rooted<JSObject*> result(cx, JS_NewPlainObject(cx));
if (!result) {
return false;
}
""")
jsonDescriptors = [self.descriptor]
interface = self.descriptor.interface.parent
while interface:
descriptor = self.descriptor.getDescriptor(interface.identifier.name)
if descriptor.operations['Jsonifier']:
jsonDescriptors.append(descriptor)
interface = interface.parent
# Iterate the array in reverse: oldest ancestor first
for descriptor in jsonDescriptors[::-1]:
ret += fill(
"""
if (!${parentclass}::JsonifyAttributes(cx, obj, self, result)) {
return false;
}
""",
parentclass=toBindingNamespace(descriptor.name)
)
ret += ('args.rval().setObject(*result);\n'
'return true;\n')
return ret
class CGLegacyCallHook(CGAbstractBindingMethod):
"""
Call hook for our object
"""
def __init__(self, descriptor):
self._legacycaller = descriptor.operations["LegacyCaller"]
# Our "self" is actually the callee in this case, not the thisval.
CGAbstractBindingMethod.__init__(
self, descriptor, LEGACYCALLER_HOOK_NAME,
JSNativeArguments(), getThisObj="&args.callee()")
def define(self):
if not self._legacycaller:
return ""
return CGAbstractBindingMethod.define(self)
def generate_code(self):
name = self._legacycaller.identifier.name
nativeName = MakeNativeName(self.descriptor.binaryNameFor(name))
return CGMethodCall(nativeName, False, self.descriptor,
self._legacycaller)
class CGResolveHook(CGAbstractClassHook):
"""
Resolve hook for objects that have the NeedResolve extended attribute.
"""
def __init__(self, descriptor):
assert descriptor.interface.getExtendedAttribute("NeedResolve")
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('JS::Handle<jsid>', 'id'),
Argument('bool*', 'resolvedp')]
CGAbstractClassHook.__init__(self, descriptor, RESOLVE_HOOK_NAME,
"bool", args)
def generate_code(self):
return dedent("""
JS::Rooted<JS::PropertyDescriptor> desc(cx);
if (!self->DoResolve(cx, obj, id, &desc)) {
return false;
}
if (!desc.object()) {
return true;
}
// If desc.value() is undefined, then the DoResolve call
// has already defined it on the object. Don't try to also
// define it.
if (!desc.value().isUndefined()) {
desc.attributesRef() |= JSPROP_RESOLVING;
if (!JS_DefinePropertyById(cx, obj, id, desc)) {
return false;
}
}
*resolvedp = true;
return true;
""")
def definition_body(self):
if self.descriptor.isGlobal():
# Resolve standard classes
prefix = dedent("""
if (!ResolveGlobal(cx, obj, id, resolvedp)) {
return false;
}
if (*resolvedp) {
return true;
}
""")
else:
prefix = ""
return prefix + CGAbstractClassHook.definition_body(self)
class CGMayResolveHook(CGAbstractStaticMethod):
"""
Resolve hook for objects that have the NeedResolve extended attribute.
"""
def __init__(self, descriptor):
assert descriptor.interface.getExtendedAttribute("NeedResolve")
args = [Argument('const JSAtomState&', 'names'),
Argument('jsid', 'id'),
Argument('JSObject*', 'maybeObj')]
CGAbstractStaticMethod.__init__(self, descriptor, MAY_RESOLVE_HOOK_NAME,
"bool", args)
def definition_body(self):
if self.descriptor.isGlobal():
# Check whether this would resolve as a standard class.
prefix = dedent("""
if (MayResolveGlobal(names, id, maybeObj)) {
return true;
}
""")
else:
prefix = ""
return (prefix +
"return %s::MayResolve(id);\n" % self.descriptor.nativeType)
class CGEnumerateHook(CGAbstractBindingMethod):
"""
Enumerate hook for objects with custom hooks.
"""
def __init__(self, descriptor):
assert descriptor.interface.getExtendedAttribute("NeedResolve")
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'obj')]
# Our "self" is actually the "obj" argument in this case, not the thisval.
CGAbstractBindingMethod.__init__(
self, descriptor, ENUMERATE_HOOK_NAME,
args, getThisObj="", callArgs="")
def generate_code(self):
return CGGeneric(dedent("""
AutoTArray<nsString, 8> names;
binding_detail::FastErrorResult rv;
self->GetOwnPropertyNames(cx, names, rv);
if (rv.MaybeSetPendingException(cx)) {
return false;
}
bool dummy;
for (uint32_t i = 0; i < names.Length(); ++i) {
if (!JS_HasUCProperty(cx, obj, names[i].get(), names[i].Length(), &dummy)) {
return false;
}
}
return true;
"""))
def definition_body(self):
if self.descriptor.isGlobal():
# Enumerate standard classes
prefix = dedent("""
if (!EnumerateGlobal(cx, obj)) {
return false;
}
""")
else:
prefix = ""
return prefix + CGAbstractBindingMethod.definition_body(self)
class CppKeywords():
"""
A class for checking if method names declared in webidl
are not in conflict with C++ keywords.
"""
keywords = frozenset([
'alignas', 'alignof', 'and', 'and_eq', 'asm', 'assert', 'auto', 'bitand', 'bitor', 'bool',
'break', 'case', 'catch', 'char', 'char16_t', 'char32_t', 'class', 'compl', 'const',
'constexpr', 'const_cast', 'continue', 'decltype', 'default', 'delete', 'do', 'double',
'dynamic_cast', 'else', 'enum', 'explicit', 'export', 'extern', 'false', 'final', 'float',
'for', 'friend', 'goto', 'if', 'inline', 'int', 'long', 'mutable', 'namespace', 'new',
'noexcept', 'not', 'not_eq', 'nullptr', 'operator', 'or', 'or_eq', 'override', 'private',
'protected', 'public', 'register', 'reinterpret_cast', 'return', 'short', 'signed',
'sizeof', 'static', 'static_assert', 'static_cast', 'struct', 'switch', 'template', 'this',
'thread_local', 'throw', 'true', 'try', 'typedef', 'typeid', 'typename', 'union',
'unsigned', 'using', 'virtual', 'void', 'volatile', 'wchar_t', 'while', 'xor', 'xor_eq'])
@staticmethod
def checkMethodName(name):
# Double '_' because 'assert' and '_assert' cannot be used in MS2013 compiler.
# Bug 964892 and bug 963560.
if name in CppKeywords.keywords:
name = '_' + name + '_'
return name
class CGStaticMethod(CGAbstractStaticBindingMethod):
"""
A class for generating the C++ code for an IDL static method.
"""
def __init__(self, descriptor, method):
self.method = method
name = CppKeywords.checkMethodName(IDLToCIdentifier(method.identifier.name))
CGAbstractStaticBindingMethod.__init__(self, descriptor, name)
def generate_code(self):
nativeName = CGSpecializedMethod.makeNativeName(self.descriptor,
self.method)
return CGMethodCall(nativeName, True, self.descriptor, self.method)
class CGGenericGetter(CGAbstractBindingMethod):
"""
A class for generating the C++ code for an IDL attribute getter.
"""
def __init__(self, descriptor, lenientThis=False, allowCrossOriginThis=False):
if lenientThis:
name = "genericLenientGetter"
unwrapFailureCode = dedent("""
MOZ_ASSERT(!JS_IsExceptionPending(cx));
if (!ReportLenientThisUnwrappingFailure(cx, &args.callee())) {
return false;
}
args.rval().set(JS::UndefinedValue());
return true;
""")
else:
if allowCrossOriginThis:
name = "genericCrossOriginGetter"
else:
name = "genericGetter"
unwrapFailureCode = (
'return ThrowInvalidThis(cx, args, %%(securityError)s, "%s");\n' %
descriptor.interface.identifier.name)
CGAbstractBindingMethod.__init__(self, descriptor, name, JSNativeArguments(),
unwrapFailureCode,
allowCrossOriginThis=allowCrossOriginThis)
def generate_code(self):
return CGGeneric(dedent("""
const JSJitInfo *info = FUNCTION_VALUE_TO_JITINFO(args.calleev());
MOZ_ASSERT(info->type() == JSJitInfo::Getter);
JSJitGetterOp getter = info->getter;
bool ok = getter(cx, obj, self, JSJitGetterCallArgs(args));
#ifdef DEBUG
if (ok) {
AssertReturnTypeMatchesJitinfo(info, args.rval());
}
#endif
return ok;
"""))
class CGSpecializedGetter(CGAbstractStaticMethod):
"""
A class for generating the code for a specialized attribute getter
that the JIT can call with lower overhead.
"""
def __init__(self, descriptor, attr):
self.attr = attr
name = 'get_' + IDLToCIdentifier(attr.identifier.name)
args = [
Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('%s*' % descriptor.nativeType, 'self'),
Argument('JSJitGetterCallArgs', 'args')
]
CGAbstractStaticMethod.__init__(self, descriptor, name, "bool", args)
def definition_body(self):
if self.attr.isMaplikeOrSetlikeAttr():
# If the interface is maplike/setlike, there will be one getter
# method for the size property of the backing object. Due to having
# to unpack the backing object from the slot, this requires its own
# generator.
return getMaplikeOrSetlikeSizeGetterBody(self.descriptor, self.attr)
nativeName = CGSpecializedGetter.makeNativeName(self.descriptor,
self.attr)
if self.attr.slotIndices is not None:
if self.descriptor.hasXPConnectImpls:
raise TypeError("Interface '%s' has XPConnect impls, so we "
"can't use our slot for property '%s'!" %
(self.descriptor.interface.identifier.name,
self.attr.identifier.name))
prefix = fill(
"""
// Have to either root across the getter call or reget after.
JS::Rooted<JSObject*> reflector(cx);
// Safe to do an unchecked unwrap, since we've gotten this far.
// Also make sure to unwrap outer windows, since we want the
// real DOM object.
reflector = IsDOMObject(obj) ? obj : js::UncheckedUnwrap(obj, /* stopAtWindowProxy = */ false);
{
// Scope for cachedVal
JS::Value cachedVal = js::GetReservedSlot(reflector, ${slot});
if (!cachedVal.isUndefined()) {
args.rval().set(cachedVal);
// The cached value is in the compartment of reflector,
// so wrap into the caller compartment as needed.
return ${maybeWrap}(cx, args.rval());
}
}
""",
slot=memberReservedSlot(self.attr, self.descriptor),
maybeWrap=getMaybeWrapValueFuncForType(self.attr.type))
else:
prefix = ""
if self.attr.navigatorObjectGetter:
cgGetterCall = CGNavigatorGetterCall
else:
cgGetterCall = CGGetterCall
return (prefix +
cgGetterCall(self.attr.type, nativeName,
self.descriptor, self.attr).define())
@staticmethod
def makeNativeName(descriptor, attr):
name = attr.identifier.name
nativeName = MakeNativeName(descriptor.binaryNameFor(name))
_, resultOutParam, _, _, _ = getRetvalDeclarationForType(attr.type,
descriptor)
infallible = ('infallible' in
descriptor.getExtendedAttributes(attr, getter=True))
if resultOutParam or attr.type.nullable() or not infallible:
nativeName = "Get" + nativeName
return nativeName
class CGStaticGetter(CGAbstractStaticBindingMethod):
"""
A class for generating the C++ code for an IDL static attribute getter.
"""
def __init__(self, descriptor, attr):
self.attr = attr
name = 'get_' + IDLToCIdentifier(attr.identifier.name)
CGAbstractStaticBindingMethod.__init__(self, descriptor, name)
def generate_code(self):
nativeName = CGSpecializedGetter.makeNativeName(self.descriptor,
self.attr)
return CGGetterCall(self.attr.type, nativeName, self.descriptor,
self.attr)
class CGGenericSetter(CGAbstractBindingMethod):
"""
A class for generating the C++ code for an IDL attribute setter.
"""
def __init__(self, descriptor, lenientThis=False, allowCrossOriginThis=False):
if lenientThis:
name = "genericLenientSetter"
unwrapFailureCode = dedent("""
MOZ_ASSERT(!JS_IsExceptionPending(cx));
if (!ReportLenientThisUnwrappingFailure(cx, &args.callee())) {
return false;
}
args.rval().set(JS::UndefinedValue());
return true;
""")
else:
if allowCrossOriginThis:
name = "genericCrossOriginSetter"
else:
name = "genericSetter"
unwrapFailureCode = (
'return ThrowInvalidThis(cx, args, %%(securityError)s, "%s");\n' %
descriptor.interface.identifier.name)
CGAbstractBindingMethod.__init__(self, descriptor, name, JSNativeArguments(),
unwrapFailureCode,
allowCrossOriginThis=allowCrossOriginThis)
def generate_code(self):
return CGGeneric(fill(
"""
if (args.length() == 0) {
return ThrowErrorMessage(cx, MSG_MISSING_ARGUMENTS, "${name} attribute setter");
}
const JSJitInfo *info = FUNCTION_VALUE_TO_JITINFO(args.calleev());
MOZ_ASSERT(info->type() == JSJitInfo::Setter);
JSJitSetterOp setter = info->setter;
if (!setter(cx, obj, self, JSJitSetterCallArgs(args))) {
return false;
}
args.rval().setUndefined();
#ifdef DEBUG
AssertReturnTypeMatchesJitinfo(info, args.rval());
#endif
return true;
""",
name=self.descriptor.interface.identifier.name))
class CGSpecializedSetter(CGAbstractStaticMethod):
"""
A class for generating the code for a specialized attribute setter
that the JIT can call with lower overhead.
"""
def __init__(self, descriptor, attr):
self.attr = attr
name = 'set_' + IDLToCIdentifier(attr.identifier.name)
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('%s*' % descriptor.nativeType, 'self'),
Argument('JSJitSetterCallArgs', 'args')]
CGAbstractStaticMethod.__init__(self, descriptor, name, "bool", args)
def definition_body(self):
nativeName = CGSpecializedSetter.makeNativeName(self.descriptor,
self.attr)
return CGSetterCall(self.attr.type, nativeName, self.descriptor,
self.attr).define()
@staticmethod
def makeNativeName(descriptor, attr):
name = attr.identifier.name
return "Set" + MakeNativeName(descriptor.binaryNameFor(name))
class CGStaticSetter(CGAbstractStaticBindingMethod):
"""
A class for generating the C++ code for an IDL static attribute setter.
"""
def __init__(self, descriptor, attr):
self.attr = attr
name = 'set_' + IDLToCIdentifier(attr.identifier.name)
CGAbstractStaticBindingMethod.__init__(self, descriptor, name)
def generate_code(self):
nativeName = CGSpecializedSetter.makeNativeName(self.descriptor,
self.attr)
checkForArg = CGGeneric(fill(
"""
if (args.length() == 0) {
return ThrowErrorMessage(cx, MSG_MISSING_ARGUMENTS, "${name} setter");
}
""",
name=self.attr.identifier.name))
call = CGSetterCall(self.attr.type, nativeName, self.descriptor,
self.attr)
return CGList([checkForArg, call])
class CGSpecializedForwardingSetter(CGSpecializedSetter):
"""
A class for generating the code for a specialized attribute setter with
PutForwards that the JIT can call with lower overhead.
"""
def __init__(self, descriptor, attr):
CGSpecializedSetter.__init__(self, descriptor, attr)
def definition_body(self):
attrName = self.attr.identifier.name
forwardToAttrName = self.attr.getExtendedAttribute("PutForwards")[0]
# JS_GetProperty and JS_SetProperty can only deal with ASCII
assert all(ord(c) < 128 for c in attrName)
assert all(ord(c) < 128 for c in forwardToAttrName)
return fill(
"""
JS::Rooted<JS::Value> v(cx);
if (!JS_GetProperty(cx, obj, "${attr}", &v)) {
return false;
}
if (!v.isObject()) {
return ThrowErrorMessage(cx, MSG_NOT_OBJECT, "${interface}.${attr}");
}
JS::Rooted<JSObject*> targetObj(cx, &v.toObject());
return JS_SetProperty(cx, targetObj, "${forwardToAttrName}", args[0]);
""",
attr=attrName,
interface=self.descriptor.interface.identifier.name,
forwardToAttrName=forwardToAttrName)
class CGSpecializedReplaceableSetter(CGSpecializedSetter):
"""
A class for generating the code for a specialized attribute setter with
Replaceable that the JIT can call with lower overhead.
"""
def __init__(self, descriptor, attr):
CGSpecializedSetter.__init__(self, descriptor, attr)
def definition_body(self):
attrName = self.attr.identifier.name
# JS_DefineProperty can only deal with ASCII
assert all(ord(c) < 128 for c in attrName)
return ('return JS_DefineProperty(cx, obj, "%s", args[0], JSPROP_ENUMERATE);\n' %
attrName)
class CGSpecializedLenientSetter(CGSpecializedSetter):
"""
A class for generating the code for a specialized attribute setter with
LenientSetter that the JIT can call with lower overhead.
"""
def __init__(self, descriptor, attr):
CGSpecializedSetter.__init__(self, descriptor, attr)
def definition_body(self):
attrName = self.attr.identifier.name
# JS_DefineProperty can only deal with ASCII
assert all(ord(c) < 128 for c in attrName)
return dedent("""
DeprecationWarning(cx, obj, nsIDocument::eLenientSetter);
return true;
""")
def memberReturnsNewObject(member):
return member.getExtendedAttribute("NewObject") is not None
class CGMemberJITInfo(CGThing):
"""
A class for generating the JITInfo for a property that points to
our specialized getter and setter.
"""
def __init__(self, descriptor, member):
self.member = member
self.descriptor = descriptor
def declare(self):
return ""
def defineJitInfo(self, infoName, opName, opType, infallible, movable,
eliminatable, aliasSet, alwaysInSlot, lazilyInSlot,
slotIndex, returnTypes, args):
"""
aliasSet is a JSJitInfo::AliasSet value, without the "JSJitInfo::" bit.
args is None if we don't want to output argTypes for some
reason (e.g. we have overloads or we're not a method) and
otherwise an iterable of the arguments for this method.
"""
assert(not movable or aliasSet != "AliasEverything") # Can't move write-aliasing things
assert(not alwaysInSlot or movable) # Things always in slots had better be movable
assert(not eliminatable or aliasSet != "AliasEverything") # Can't eliminate write-aliasing things
assert(not alwaysInSlot or eliminatable) # Things always in slots had better be eliminatable
def jitInfoInitializer(isTypedMethod):
initializer = fill(
"""
{
{ ${opName} },
{ prototypes::id::${name} },
{ PrototypeTraits<prototypes::id::${name}>::Depth },
JSJitInfo::${opType},
JSJitInfo::${aliasSet}, /* aliasSet. Not relevant for setters. */
${returnType}, /* returnType. Not relevant for setters. */
${isInfallible}, /* isInfallible. False in setters. */
${isMovable}, /* isMovable. Not relevant for setters. */
${isEliminatable}, /* isEliminatable. Not relevant for setters. */
${isAlwaysInSlot}, /* isAlwaysInSlot. Only relevant for getters. */
${isLazilyCachedInSlot}, /* isLazilyCachedInSlot. Only relevant for getters. */
${isTypedMethod}, /* isTypedMethod. Only relevant for methods. */
${slotIndex} /* Reserved slot index, if we're stored in a slot, else 0. */
}
""",
opName=opName,
name=self.descriptor.name,
opType=opType,
aliasSet=aliasSet,
returnType=reduce(CGMemberJITInfo.getSingleReturnType, returnTypes,
""),
isInfallible=toStringBool(infallible),
isMovable=toStringBool(movable),
isEliminatable=toStringBool(eliminatable),
isAlwaysInSlot=toStringBool(alwaysInSlot),
isLazilyCachedInSlot=toStringBool(lazilyInSlot),
isTypedMethod=toStringBool(isTypedMethod),
slotIndex=slotIndex)
return initializer.rstrip()
slotAssert = fill(
"""
static_assert(${slotIndex} <= JSJitInfo::maxSlotIndex, "We won't fit");
static_assert(${slotIndex} < ${classReservedSlots}, "There is no slot for us");
""",
slotIndex=slotIndex,
classReservedSlots=INSTANCE_RESERVED_SLOTS + self.descriptor.interface.totalMembersInSlots)
if args is not None:
argTypes = "%s_argTypes" % infoName
args = [CGMemberJITInfo.getJSArgType(arg.type) for arg in args]
args.append("JSJitInfo::ArgTypeListEnd")
argTypesDecl = (
"static const JSJitInfo::ArgType %s[] = { %s };\n" %
(argTypes, ", ".join(args)))
return fill(
"""
$*{argTypesDecl}
static const JSTypedMethodJitInfo ${infoName} = {
${jitInfo},
${argTypes}
};
$*{slotAssert}
""",
argTypesDecl=argTypesDecl,
infoName=infoName,
jitInfo=indent(jitInfoInitializer(True)),
argTypes=argTypes,
slotAssert=slotAssert)
return fill(
"""
static const JSJitInfo ${infoName} = ${jitInfo};
$*{slotAssert}
""",
infoName=infoName,
jitInfo=jitInfoInitializer(False),
slotAssert=slotAssert)
def define(self):
if self.member.isAttr():
getterinfo = ("%s_getterinfo" %
IDLToCIdentifier(self.member.identifier.name))
# We need the cast here because JSJitGetterOp has a "void* self"
# while we have the right type.
getter = ("(JSJitGetterOp)get_%s" %
IDLToCIdentifier(self.member.identifier.name))
getterinfal = "infallible" in self.descriptor.getExtendedAttributes(self.member, getter=True)
movable = self.mayBeMovable() and getterinfal
eliminatable = self.mayBeEliminatable() and getterinfal
aliasSet = self.aliasSet()
getterinfal = getterinfal and infallibleForMember(self.member, self.member.type, self.descriptor)
isAlwaysInSlot = self.member.getExtendedAttribute("StoreInSlot")
if self.member.slotIndices is not None:
assert isAlwaysInSlot or self.member.getExtendedAttribute("Cached")
isLazilyCachedInSlot = not isAlwaysInSlot
slotIndex = memberReservedSlot(self.member, self.descriptor)
# We'll statically assert that this is not too big in
# CGUpdateMemberSlotsMethod, in the case when
# isAlwaysInSlot is true.
else:
isLazilyCachedInSlot = False
slotIndex = "0"
result = self.defineJitInfo(getterinfo, getter, "Getter",
getterinfal, movable, eliminatable,
aliasSet, isAlwaysInSlot,
isLazilyCachedInSlot, slotIndex,
[self.member.type], None)
if (not self.member.readonly or
self.member.getExtendedAttribute("PutForwards") is not None or
self.member.getExtendedAttribute("Replaceable") is not None or
self.member.getExtendedAttribute("LenientSetter") is not None):
setterinfo = ("%s_setterinfo" %
IDLToCIdentifier(self.member.identifier.name))
# Actually a JSJitSetterOp, but JSJitGetterOp is first in the
# union.
setter = ("(JSJitGetterOp)set_%s" %
IDLToCIdentifier(self.member.identifier.name))
# Setters are always fallible, since they have to do a typed unwrap.
result += self.defineJitInfo(setterinfo, setter, "Setter",
False, False, False, "AliasEverything",
False, False, "0",
[BuiltinTypes[IDLBuiltinType.Types.void]],
None)
return result
if self.member.isMethod():
methodinfo = ("%s_methodinfo" %
IDLToCIdentifier(self.member.identifier.name))
name = CppKeywords.checkMethodName(
IDLToCIdentifier(self.member.identifier.name))
if self.member.returnsPromise():
name = CGMethodPromiseWrapper.makeName(name)
# Actually a JSJitMethodOp, but JSJitGetterOp is first in the union.
method = ("(JSJitGetterOp)%s" % name)
# Methods are infallible if they are infallible, have no arguments
# to unwrap, and have a return type that's infallible to wrap up for
# return.
sigs = self.member.signatures()
if len(sigs) != 1:
# Don't handle overloading. If there's more than one signature,
# one of them must take arguments.
methodInfal = False
args = None
movable = False
eliminatable = False
else:
sig = sigs[0]
# For methods that affect nothing, it's OK to set movable to our
# notion of infallible on the C++ side, without considering
# argument conversions, since argument conversions that can
# reliably throw would be effectful anyway and the jit doesn't
# move effectful things.
hasInfallibleImpl = "infallible" in self.descriptor.getExtendedAttributes(self.member)
movable = self.mayBeMovable() and hasInfallibleImpl
eliminatable = self.mayBeEliminatable() and hasInfallibleImpl
# XXXbz can we move the smarts about fallibility due to arg
# conversions into the JIT, using our new args stuff?
if (len(sig[1]) != 0 or
not infallibleForMember(self.member, sig[0], self.descriptor)):
# We have arguments or our return-value boxing can fail
methodInfal = False
else:
methodInfal = hasInfallibleImpl
# For now, only bother to output args if we're side-effect-free.
if self.member.affects == "Nothing":
args = sig[1]
else:
args = None
aliasSet = self.aliasSet()
result = self.defineJitInfo(methodinfo, method, "Method",
methodInfal, movable, eliminatable,
aliasSet, False, False, "0",
[s[0] for s in sigs], args)
return result
raise TypeError("Illegal member type to CGPropertyJITInfo")
def mayBeMovable(self):
"""
Returns whether this attribute or method may be movable, just
based on Affects/DependsOn annotations.
"""
affects = self.member.affects
dependsOn = self.member.dependsOn
assert affects in IDLInterfaceMember.AffectsValues
assert dependsOn in IDLInterfaceMember.DependsOnValues
# Things that are DependsOn=DeviceState are not movable, because we
# don't want them coalesced with each other or loop-hoisted, since
# their return value can change even if nothing is going on from our
# point of view.
return (affects == "Nothing" and
(dependsOn != "Everything" and dependsOn != "DeviceState"))
def mayBeEliminatable(self):
"""
Returns whether this attribute or method may be eliminatable, just
based on Affects/DependsOn annotations.
"""
# dependsOn shouldn't affect this decision at all, except in jitinfo we
# have no way to express "Depends on everything, affects nothing",
# because we only have three alias set values: AliasNone ("depends on
# nothing, affects nothing"), AliasDOMSets ("depends on DOM sets,
# affects nothing"), AliasEverything ("depends on everything, affects
# everything"). So the [Affects=Nothing, DependsOn=Everything] case
# gets encoded as AliasEverything and defineJitInfo asserts that if our
# alias state is AliasEverything then we're not eliminatable (because it
# thinks we might have side-effects at that point). Bug 1155796 is
# tracking possible solutions for this.
affects = self.member.affects
dependsOn = self.member.dependsOn
assert affects in IDLInterfaceMember.AffectsValues
assert dependsOn in IDLInterfaceMember.DependsOnValues
return affects == "Nothing" and dependsOn != "Everything"
def aliasSet(self):
"""
Returns the alias set to store in the jitinfo. This may not be the
effective alias set the JIT uses, depending on whether we have enough
information about our args to allow the JIT to prove that effectful
argument conversions won't happen.
"""
dependsOn = self.member.dependsOn
assert dependsOn in IDLInterfaceMember.DependsOnValues
if dependsOn == "Nothing" or dependsOn == "DeviceState":
assert self.member.affects == "Nothing"
return "AliasNone"
if dependsOn == "DOMState":
assert self.member.affects == "Nothing"
return "AliasDOMSets"
return "AliasEverything"
@staticmethod
def getJSReturnTypeTag(t):
if t.nullable():
# Sometimes it might return null, sometimes not
return "JSVAL_TYPE_UNKNOWN"
if t.isVoid():
# No return, every time
return "JSVAL_TYPE_UNDEFINED"
if t.isArray():
# No idea yet
assert False
if t.isSequence():
return "JSVAL_TYPE_OBJECT"
if t.isMozMap():
return "JSVAL_TYPE_OBJECT"
if t.isGeckoInterface():
return "JSVAL_TYPE_OBJECT"
if t.isString():
return "JSVAL_TYPE_STRING"
if t.isEnum():
return "JSVAL_TYPE_STRING"
if t.isCallback():
return "JSVAL_TYPE_OBJECT"
if t.isAny():
# The whole point is to return various stuff
return "JSVAL_TYPE_UNKNOWN"
if t.isObject():
return "JSVAL_TYPE_OBJECT"
if t.isSpiderMonkeyInterface():
return "JSVAL_TYPE_OBJECT"
if t.isUnion():
u = t.unroll()
if u.hasNullableType:
# Might be null or not
return "JSVAL_TYPE_UNKNOWN"
return reduce(CGMemberJITInfo.getSingleReturnType,
u.flatMemberTypes, "")
if t.isDictionary():
return "JSVAL_TYPE_OBJECT"
if t.isDate():
return "JSVAL_TYPE_OBJECT"
if not t.isPrimitive():
raise TypeError("No idea what type " + str(t) + " is.")
tag = t.tag()
if tag == IDLType.Tags.bool:
return "JSVAL_TYPE_BOOLEAN"
if tag in [IDLType.Tags.int8, IDLType.Tags.uint8,
IDLType.Tags.int16, IDLType.Tags.uint16,
IDLType.Tags.int32]:
return "JSVAL_TYPE_INT32"
if tag in [IDLType.Tags.int64, IDLType.Tags.uint64,
IDLType.Tags.unrestricted_float, IDLType.Tags.float,
IDLType.Tags.unrestricted_double, IDLType.Tags.double]:
# These all use JS_NumberValue, which can return int or double.
# But TI treats "double" as meaning "int or double", so we're
# good to return JSVAL_TYPE_DOUBLE here.
return "JSVAL_TYPE_DOUBLE"
if tag != IDLType.Tags.uint32:
raise TypeError("No idea what type " + str(t) + " is.")
# uint32 is sometimes int and sometimes double.
return "JSVAL_TYPE_DOUBLE"
@staticmethod
def getSingleReturnType(existingType, t):
type = CGMemberJITInfo.getJSReturnTypeTag(t)
if existingType == "":
# First element of the list; just return its type
return type
if type == existingType:
return existingType
if ((type == "JSVAL_TYPE_DOUBLE" and
existingType == "JSVAL_TYPE_INT32") or
(existingType == "JSVAL_TYPE_DOUBLE" and
type == "JSVAL_TYPE_INT32")):
# Promote INT32 to DOUBLE as needed
return "JSVAL_TYPE_DOUBLE"
# Different types
return "JSVAL_TYPE_UNKNOWN"
@staticmethod
def getJSArgType(t):
assert not t.isVoid()
if t.nullable():
# Sometimes it might return null, sometimes not
return "JSJitInfo::ArgType(JSJitInfo::Null | %s)" % CGMemberJITInfo.getJSArgType(t.inner)
if t.isArray():
# No idea yet
assert False
if t.isSequence():
return "JSJitInfo::Object"
if t.isGeckoInterface():
return "JSJitInfo::Object"
if t.isString():
return "JSJitInfo::String"
if t.isEnum():
return "JSJitInfo::String"
if t.isCallback():
return "JSJitInfo::Object"
if t.isAny():
# The whole point is to return various stuff
return "JSJitInfo::Any"
if t.isObject():
return "JSJitInfo::Object"
if t.isSpiderMonkeyInterface():
return "JSJitInfo::Object"
if t.isUnion():
u = t.unroll()
type = "JSJitInfo::Null" if u.hasNullableType else ""
return ("JSJitInfo::ArgType(%s)" %
reduce(CGMemberJITInfo.getSingleArgType,
u.flatMemberTypes, type))
if t.isDictionary():
return "JSJitInfo::Object"
if t.isDate():
return "JSJitInfo::Object"
if not t.isPrimitive():
raise TypeError("No idea what type " + str(t) + " is.")
tag = t.tag()
if tag == IDLType.Tags.bool:
return "JSJitInfo::Boolean"
if tag in [IDLType.Tags.int8, IDLType.Tags.uint8,
IDLType.Tags.int16, IDLType.Tags.uint16,
IDLType.Tags.int32]:
return "JSJitInfo::Integer"
if tag in [IDLType.Tags.int64, IDLType.Tags.uint64,
IDLType.Tags.unrestricted_float, IDLType.Tags.float,
IDLType.Tags.unrestricted_double, IDLType.Tags.double]:
# These all use JS_NumberValue, which can return int or double.
# But TI treats "double" as meaning "int or double", so we're
# good to return JSVAL_TYPE_DOUBLE here.
return "JSJitInfo::Double"
if tag != IDLType.Tags.uint32:
raise TypeError("No idea what type " + str(t) + " is.")
# uint32 is sometimes int and sometimes double.
return "JSJitInfo::Double"
@staticmethod
def getSingleArgType(existingType, t):
type = CGMemberJITInfo.getJSArgType(t)
if existingType == "":
# First element of the list; just return its type
return type
if type == existingType:
return existingType
return "%s | %s" % (existingType, type)
class CGStaticMethodJitinfo(CGGeneric):
"""
A class for generating the JITInfo for a promise-returning static method.
"""
def __init__(self, method):
CGGeneric.__init__(
self,
"\n"
"static const JSJitInfo %s_methodinfo = {\n"
" { (JSJitGetterOp)%s },\n"
" { prototypes::id::_ID_Count }, { 0 }, JSJitInfo::StaticMethod,\n"
" JSJitInfo::AliasEverything, JSVAL_TYPE_MISSING, false, false,\n"
" false, false, 0\n"
"};\n" %
(IDLToCIdentifier(method.identifier.name),
CppKeywords.checkMethodName(
IDLToCIdentifier(method.identifier.name))))
def getEnumValueName(value):
# Some enum values can be empty strings. Others might have weird
# characters in them. Deal with the former by returning "_empty",
# deal with possible name collisions from that by throwing if the
# enum value is actually "_empty", and throw on any value
# containing non-ASCII chars for now. Replace all chars other than
# [0-9A-Za-z_] with '_'.
if re.match("[^\x20-\x7E]", value):
raise SyntaxError('Enum value "' + value + '" contains non-ASCII characters')
if re.match("^[0-9]", value):
return '_' + value
value = re.sub(r'[^0-9A-Za-z_]', '_', value)
if re.match("^_[A-Z]|__", value):
raise SyntaxError('Enum value "' + value + '" is reserved by the C++ spec')
if value == "_empty":
raise SyntaxError('"_empty" is not an IDL enum value we support yet')
if value == "":
return "_empty"
nativeName = MakeNativeName(value)
if nativeName == "EndGuard_":
raise SyntaxError('Enum value "' + value + '" cannot be used because it'
' collides with our internal EndGuard_ value. Please'
' rename our internal EndGuard_ to something else')
return nativeName
class CGEnumToJSValue(CGAbstractMethod):
def __init__(self, enum):
enumType = enum.identifier.name
self.stringsArray = enumType + "Values::" + ENUM_ENTRY_VARIABLE_NAME
CGAbstractMethod.__init__(self, None, "ToJSValue", "bool",
[Argument("JSContext*", "aCx"),
Argument(enumType, "aArgument"),
Argument("JS::MutableHandle<JS::Value>",
"aValue")])
def definition_body(self):
return fill(
"""
MOZ_ASSERT(uint32_t(aArgument) < ArrayLength(${strings}));
JSString* resultStr =
JS_NewStringCopyN(aCx, ${strings}[uint32_t(aArgument)].value,
${strings}[uint32_t(aArgument)].length);
if (!resultStr) {
return false;
}
aValue.setString(resultStr);
return true;
""",
strings=self.stringsArray)
class CGEnum(CGThing):
def __init__(self, enum):
CGThing.__init__(self)
self.enum = enum
strings = CGNamespace(
self.stringsNamespace(),
CGGeneric(declare=("extern const EnumEntry %s[%d];\n" %
(ENUM_ENTRY_VARIABLE_NAME, self.nEnumStrings())),
define=fill(
"""
extern const EnumEntry ${name}[${count}] = {
$*{entries}
{ nullptr, 0 }
};
""",
name=ENUM_ENTRY_VARIABLE_NAME,
count=self.nEnumStrings(),
entries=''.join('{"%s", %d},\n' % (val, len(val))
for val in self.enum.values()))))
toJSValue = CGEnumToJSValue(enum)
self.cgThings = CGList([strings, toJSValue], "\n")
def stringsNamespace(self):
return self.enum.identifier.name + "Values"
def nEnumStrings(self):
return len(self.enum.values()) + 1
def declare(self):
decl = fill(
"""
enum class ${name} : uint32_t {
$*{enums}
EndGuard_
};
""",
name=self.enum.identifier.name,
enums=",\n".join(map(getEnumValueName, self.enum.values())) + ",\n")
strings = CGNamespace(self.stringsNamespace(),
CGGeneric(declare="extern const EnumEntry %s[%d];\n"
% (ENUM_ENTRY_VARIABLE_NAME, self.nEnumStrings())))
return decl + "\n" + self.cgThings.declare()
def define(self):
return self.cgThings.define()
def deps(self):
return self.enum.getDeps()
def getUnionAccessorSignatureType(type, descriptorProvider):
"""
Returns the types that are used in the getter and setter signatures for
union types
"""
# Flat member types have already unwrapped nullables.
assert not type.nullable()
if type.isArray():
raise TypeError("Can't handle array arguments yet")
if type.isSequence() or type.isMozMap():
if type.isSequence():
wrapperType = "Sequence"
else:
wrapperType = "MozMap"
# We don't use the returned template here, so it's OK to just pass no
# sourceDescription.
elementInfo = getJSToNativeConversionInfo(type.inner,
descriptorProvider,
isMember=wrapperType)
return CGTemplatedType(wrapperType, elementInfo.declType,
isConst=True, isReference=True)
# Nested unions are unwrapped automatically into our flatMemberTypes.
assert not type.isUnion()
if type.isGeckoInterface():
descriptor = descriptorProvider.getDescriptor(
type.unroll().inner.identifier.name)
typeName = CGGeneric(descriptor.nativeType)
# Allow null pointers for old-binding classes.
if type.unroll().inner.isExternal():
typeName = CGWrapper(typeName, post="*")
else:
typeName = CGWrapper(typeName, post="&")
return typeName
if type.isSpiderMonkeyInterface():
typeName = CGGeneric(type.name)
return CGWrapper(typeName, post=" const &")
if type.isDOMString() or type.isUSVString():
return CGGeneric("const nsAString&")
if type.isByteString():
return CGGeneric("const nsCString&")
if type.isEnum():
return CGGeneric(type.inner.identifier.name)
if type.isCallback():
return CGGeneric("%s&" % type.unroll().callback.identifier.name)
if type.isAny():
return CGGeneric("JS::Value")
if type.isObject():
return CGGeneric("JSObject*")
if type.isDictionary():
return CGGeneric("const %s&" % type.inner.identifier.name)
if not type.isPrimitive():
raise TypeError("Need native type for argument type '%s'" % str(type))
return CGGeneric(builtinNames[type.tag()])
def getUnionTypeTemplateVars(unionType, type, descriptorProvider,
ownsMembers=False):
name = getUnionMemberName(type)
holderName = "m" + name + "Holder"
# By the time tryNextCode is invoked, we're guaranteed the union has been
# constructed as some type, since we've been trying to convert into the
# corresponding member.
prefix = "" if ownsMembers else "mUnion."
tryNextCode = ("$*{destroyHolder}\n"
"%sDestroy%s();\n"
"tryNext = true;\n"
"return true;\n" % (prefix, name))
conversionInfo = getJSToNativeConversionInfo(
type, descriptorProvider, failureCode=tryNextCode,
isDefinitelyObject=not type.isDictionary(),
isMember=("OwningUnion" if ownsMembers else None),
sourceDescription="member of %s" % unionType)
if conversionInfo.holderType is not None:
assert not ownsMembers
destroyHolder = "%s.reset();\n" % holderName
else:
destroyHolder = ""
ctorNeedsCx = conversionInfo.declArgs == "cx"
ctorArgs = "cx" if ctorNeedsCx else ""
structType = conversionInfo.declType.define()
externalType = getUnionAccessorSignatureType(type, descriptorProvider).define()
if type.isObject():
if ownsMembers:
body = dedent("""
MOZ_ASSERT(mType == eUninitialized);
mValue.mObject.SetValue(obj);
mType = eObject;
""")
else:
body = dedent("""
MOZ_ASSERT(mUnion.mType == mUnion.eUninitialized);
mUnion.mValue.mObject.SetValue(cx, obj);
mUnion.mType = mUnion.eObject;
""")
# It's a bit sketchy to do the security check after setting the value,
# but it keeps the code cleaner and lets us avoid rooting |obj| over the
# call to CallerSubsumes().
body = body + dedent("""
if (passedToJSImpl && !CallerSubsumes(obj)) {
ThrowErrorMessage(cx, MSG_PERMISSION_DENIED_TO_PASS_ARG, "%s");
return false;
}
return true;
""")
setter = ClassMethod("SetToObject", "bool",
[Argument("JSContext*", "cx"),
Argument("JSObject*", "obj"),
Argument("bool", "passedToJSImpl", default="false")],
inline=True, bodyInHeader=True,
body=body)
else:
# Important: we need to not have our declName involve
# maybe-GCing operations.
if conversionInfo.holderType is not None:
holderArgs = conversionInfo.holderArgs
if holderArgs is None:
holderArgs = ""
initHolder = "%s.emplace(%s);\n" % (holderName, holderArgs)
else:
initHolder = ""
jsConversion = fill(
initHolder + conversionInfo.template,
val="value",
declName="memberSlot",
holderName=(holderName if ownsMembers else "%s.ref()" % holderName),
destroyHolder=destroyHolder,
passedToJSImpl="passedToJSImpl")
jsConversion = fill(
"""
tryNext = false;
{ // scope for memberSlot
${structType}& memberSlot = RawSetAs${name}(${ctorArgs});
$*{jsConversion}
}
return true;
""",
structType=structType,
name=name,
ctorArgs=ctorArgs,
jsConversion=jsConversion)
setter = ClassMethod("TrySetTo" + name, "bool",
[Argument("JSContext*", "cx"),
Argument("JS::Handle<JS::Value>", "value"),
Argument("bool&", "tryNext"),
Argument("bool", "passedToJSImpl", default="false")],
inline=not ownsMembers,
bodyInHeader=not ownsMembers,
body=jsConversion)
return {
"name": name,
"structType": structType,
"externalType": externalType,
"setter": setter,
"holderType": conversionInfo.holderType.define() if conversionInfo.holderType else None,
"ctorArgs": ctorArgs,
"ctorArgList": [Argument("JSContext*", "cx")] if ctorNeedsCx else []
}
class CGUnionStruct(CGThing):
def __init__(self, type, descriptorProvider, ownsMembers=False):
CGThing.__init__(self)
self.type = type.unroll()
self.descriptorProvider = descriptorProvider
self.ownsMembers = ownsMembers
self.struct = self.getStruct()
def declare(self):
return self.struct.declare()
def define(self):
return self.struct.define()
def deps(self):
return self.type.getDeps()
def getStruct(self):
members = [ClassMember("mType", "Type", body="eUninitialized"),
ClassMember("mValue", "Value")]
ctor = ClassConstructor([], bodyInHeader=True, visibility="public",
explicit=True)
methods = []
enumValues = ["eUninitialized"]
toJSValCases = [CGCase("eUninitialized", CGGeneric("return false;\n"))]
destructorCases = [CGCase("eUninitialized", None)]
assignmentCases = [
CGCase("eUninitialized",
CGGeneric('MOZ_ASSERT(mType == eUninitialized,\n'
' "We need to destroy ourselves?");\n'))]
traceCases = []
unionValues = []
if self.type.hasNullableType:
enumValues.append("eNull")
methods.append(ClassMethod("IsNull", "bool", [], const=True, inline=True,
body="return mType == eNull;\n",
bodyInHeader=True))
methods.append(ClassMethod("SetNull", "void", [], inline=True,
body=("Uninit();\n"
"mType = eNull;\n"),
bodyInHeader=True))
destructorCases.append(CGCase("eNull", None))
assignmentCases.append(CGCase("eNull",
CGGeneric("MOZ_ASSERT(mType == eUninitialized);\n"
"mType = eNull;\n")))
toJSValCases.append(CGCase("eNull", CGGeneric("rval.setNull();\n"
"return true;\n")))
hasObjectType = any(t.isObject() for t in self.type.flatMemberTypes)
for t in self.type.flatMemberTypes:
vars = getUnionTypeTemplateVars(self.type,
t, self.descriptorProvider,
ownsMembers=self.ownsMembers)
if vars["name"] != "Object" or self.ownsMembers:
body = fill(
"""
if (mType == e${name}) {
return mValue.m${name}.Value();
}
%s
mType = e${name};
return mValue.m${name}.SetValue(${ctorArgs});
""",
**vars)
# bodyInHeader must be false for return values because they own
# their union members and we don't want include headers in
# UnionTypes.h just to call Addref/Release
methods.append(ClassMethod(
"RawSetAs" + vars["name"],
vars["structType"] + "&",
vars["ctorArgList"],
bodyInHeader=not self.ownsMembers,
body=body % "MOZ_ASSERT(mType == eUninitialized);"))
uninit = "Uninit();"
if hasObjectType and not self.ownsMembers:
uninit = 'MOZ_ASSERT(mType != eObject, "This will not play well with Rooted");\n' + uninit
methods.append(ClassMethod(
"SetAs" + vars["name"],
vars["structType"] + "&",
vars["ctorArgList"],
bodyInHeader=not self.ownsMembers,
body=body % uninit))
if self.ownsMembers:
methods.append(vars["setter"])
# Provide a SetStringData() method to support string defaults.
# Exclude ByteString here because it does not support defaults
# and only supports narrow nsCString.
if t.isString() and not t.isByteString():
methods.append(
ClassMethod("SetStringData", "void",
[Argument("const nsString::char_type*", "aData"),
Argument("nsString::size_type", "aLength")],
inline=True, bodyInHeader=True,
body="RawSetAs%s().Assign(aData, aLength);\n" % t.name))
body = fill(
"""
MOZ_ASSERT(Is${name}(), "Wrong type!");
mValue.m${name}.Destroy();
mType = eUninitialized;
""",
**vars)
methods.append(ClassMethod("Destroy" + vars["name"],
"void",
[],
visibility="private",
bodyInHeader=not self.ownsMembers,
body=body))
body = fill("return mType == e${name};\n", **vars)
methods.append(ClassMethod("Is" + vars["name"],
"bool",
[],
const=True,
bodyInHeader=True,
body=body))
body = fill(
"""
MOZ_ASSERT(Is${name}(), "Wrong type!");
return mValue.m${name}.Value();
""",
**vars)
# The non-const version of GetAs* returns our internal type
getterReturnType = "%s&" % vars["structType"]
methods.append(ClassMethod("GetAs" + vars["name"],
getterReturnType,
[],
bodyInHeader=True,
body=body))
# The const version of GetAs* returns our internal type
# for owning unions, but our external type for non-owning
# ones.
if self.ownsMembers:
getterReturnType = "%s const &" % vars["structType"]
else:
getterReturnType = vars["externalType"]
methods.append(ClassMethod("GetAs" + vars["name"],
getterReturnType,
[],
const=True,
bodyInHeader=True,
body=body))
unionValues.append(
fill("UnionMember<${structType} > m${name}", **vars))
enumValues.append("e" + vars["name"])
skipToJSVal = False
try:
toJSValCases.append(
CGCase("e" + vars["name"],
self.getConversionToJS(vars, t)))
except MethodNotNewObjectError:
# If we can't have a ToJSVal() because one of our members can
# only be returned from [NewObject] methods, then just skip
# generating ToJSVal.
skipToJSVal = True
destructorCases.append(
CGCase("e" + vars["name"],
CGGeneric("Destroy%s();\n" % vars["name"])))
assignmentCases.append(
CGCase("e" + vars["name"],
CGGeneric("SetAs%s() = aOther.GetAs%s();\n" %
(vars["name"], vars["name"]))))
if self.ownsMembers and typeNeedsRooting(t):
if t.isObject():
traceCases.append(
CGCase("e" + vars["name"],
CGGeneric('JS::UnsafeTraceRoot(trc, %s, "%s");\n' %
("&mValue.m" + vars["name"] + ".Value()",
"mValue.m" + vars["name"]))))
elif t.isDictionary():
traceCases.append(
CGCase("e" + vars["name"],
CGGeneric("mValue.m%s.Value().TraceDictionary(trc);\n" %
vars["name"])))
elif t.isSequence():
traceCases.append(
CGCase("e" + vars["name"],
CGGeneric("DoTraceSequence(trc, mValue.m%s.Value());\n" %
vars["name"])))
elif t.isMozMap():
traceCases.append(
CGCase("e" + vars["name"],
CGGeneric("TraceMozMap(trc, mValue.m%s.Value());\n" %
vars["name"])))
else:
assert t.isSpiderMonkeyInterface()
traceCases.append(
CGCase("e" + vars["name"],
CGGeneric("mValue.m%s.Value().TraceSelf(trc);\n" %
vars["name"])))
dtor = CGSwitch("mType", destructorCases).define()
methods.append(ClassMethod("Uninit", "void", [],
visibility="public", body=dtor,
bodyInHeader=not self.ownsMembers,
inline=not self.ownsMembers))
if not skipToJSVal:
methods.append(
ClassMethod(
"ToJSVal",
"bool",
[
Argument("JSContext*", "cx"),
Argument("JS::Handle<JSObject*>", "scopeObj"),
Argument("JS::MutableHandle<JS::Value>", "rval")
],
body=CGSwitch("mType", toJSValCases,
default=CGGeneric("return false;\n")).define() + "\nreturn false;\n",
const=True))
constructors = [ctor]
selfName = CGUnionStruct.unionTypeName(self.type, self.ownsMembers)
if self.ownsMembers:
if traceCases:
traceBody = CGSwitch("mType", traceCases,
default=CGGeneric("")).define()
else:
traceBody = ""
methods.append(ClassMethod("TraceUnion", "void",
[Argument("JSTracer*", "trc")],
body=traceBody))
if CGUnionStruct.isUnionCopyConstructible(self.type):
constructors.append(
ClassConstructor(
[Argument("const %s&" % selfName, "aOther")],
bodyInHeader=True,
visibility="public",
explicit=True,
body="*this = aOther;\n"))
methods.append(ClassMethod(
"operator=", "void",
[Argument("const %s&" % selfName, "aOther")],
body=CGSwitch("aOther.mType", assignmentCases).define()))
disallowCopyConstruction = False
else:
disallowCopyConstruction = True
else:
disallowCopyConstruction = True
if self.ownsMembers:
friend = " friend void ImplCycleCollectionUnlink(%s& aUnion);\n" % CGUnionStruct.unionTypeName(self.type, True)
else:
friend = " friend class %sArgument;\n" % str(self.type)
bases = [ClassBase("AllOwningUnionBase")] if self.ownsMembers else []
return CGClass(selfName,
bases=bases,
members=members,
constructors=constructors,
methods=methods,
disallowCopyConstruction=disallowCopyConstruction,
extradeclarations=friend,
destructor=ClassDestructor(visibility="public",
body="Uninit();\n",
bodyInHeader=True),
enums=[ClassEnum("Type", enumValues, visibility="private")],
unions=[ClassUnion("Value", unionValues, visibility="private")])
def getConversionToJS(self, templateVars, type):
assert not type.nullable() # flatMemberTypes never has nullable types
val = "mValue.m%(name)s.Value()" % templateVars
wrapCode = wrapForType(
type, self.descriptorProvider,
{
"jsvalRef": "rval",
"jsvalHandle": "rval",
"obj": "scopeObj",
"result": val,
"typedArraysAreStructs": True
})
return CGGeneric(wrapCode)
@staticmethod
def isUnionCopyConstructible(type):
return all(isTypeCopyConstructible(t) for t in type.flatMemberTypes)
@staticmethod
def unionTypeName(type, ownsMembers):
"""
Returns a string name for this known union type.
"""
assert type.isUnion() and not type.nullable()
return ("Owning" if ownsMembers else "") + type.name
@staticmethod
def unionTypeDecl(type, ownsMembers):
"""
Returns a string for declaring this possibly-nullable union type.
"""
assert type.isUnion()
nullable = type.nullable()
if nullable:
type = type.inner
decl = CGGeneric(CGUnionStruct.unionTypeName(type, ownsMembers))
if nullable:
decl = CGTemplatedType("Nullable", decl)
return decl.define()
class CGUnionConversionStruct(CGThing):
def __init__(self, type, descriptorProvider):
CGThing.__init__(self)
self.type = type.unroll()
self.descriptorProvider = descriptorProvider
def declare(self):
structName = str(self.type)
members = [ClassMember("mUnion", structName + "&",
body="const_cast<%s&>(aUnion)" % structName)]
# Argument needs to be a const ref because that's all Maybe<> allows
ctor = ClassConstructor([Argument("const %s&" % structName, "aUnion")],
bodyInHeader=True,
visibility="public",
explicit=True)
methods = []
if self.type.hasNullableType:
methods.append(ClassMethod("SetNull", "bool", [],
body=("MOZ_ASSERT(mUnion.mType == mUnion.eUninitialized);\n"
"mUnion.mType = mUnion.eNull;\n"
"return true;\n"),
inline=True, bodyInHeader=True))
for t in self.type.flatMemberTypes:
vars = getUnionTypeTemplateVars(self.type,
t, self.descriptorProvider)
methods.append(vars["setter"])
if vars["name"] != "Object":
body = fill(
"""
MOZ_ASSERT(mUnion.mType == mUnion.eUninitialized);
mUnion.mType = mUnion.e${name};
return mUnion.mValue.m${name}.SetValue(${ctorArgs});
""",
**vars)
methods.append(ClassMethod("RawSetAs" + vars["name"],
vars["structType"] + "&",
vars["ctorArgList"],
bodyInHeader=True,
body=body,
visibility="private"))
# Provide a SetStringData() method to support string defaults.
# Exclude ByteString here because it does not support defaults
# and only supports narrow nsCString.
if t.isString() and not t.isByteString():
methods.append(
ClassMethod("SetStringData", "void",
[Argument("const nsDependentString::char_type*", "aData"),
Argument("nsDependentString::size_type", "aLength")],
inline=True, bodyInHeader=True,
body="RawSetAs%s().Rebind(aData, aLength);\n" % t.name))
if vars["holderType"] is not None:
holderType = CGTemplatedType("Maybe",
CGGeneric(vars["holderType"])).define()
members.append(ClassMember("m%sHolder" % vars["name"],
holderType))
return CGClass(structName + "Argument",
members=members,
constructors=[ctor],
methods=methods,
disallowCopyConstruction=True).declare()
def define(self):
return ""
def deps(self):
return set()
class ClassItem:
""" Use with CGClass """
def __init__(self, name, visibility):
self.name = name
self.visibility = visibility
def declare(self, cgClass):
assert False
def define(self, cgClass):
assert False
class ClassBase(ClassItem):
def __init__(self, name, visibility='public'):
ClassItem.__init__(self, name, visibility)
def declare(self, cgClass):
return '%s %s' % (self.visibility, self.name)
def define(self, cgClass):
# Only in the header
return ''
class ClassMethod(ClassItem):
def __init__(self, name, returnType, args, inline=False, static=False,
virtual=False, const=False, bodyInHeader=False,
templateArgs=None, visibility='public', body=None,
breakAfterReturnDecl="\n",
breakAfterSelf="\n", override=False):
"""
override indicates whether to flag the method as override
"""
assert not override or virtual
assert not (override and static)
self.returnType = returnType
self.args = args
self.inline = inline or bodyInHeader
self.static = static
self.virtual = virtual
self.const = const
self.bodyInHeader = bodyInHeader
self.templateArgs = templateArgs
self.body = body
self.breakAfterReturnDecl = breakAfterReturnDecl
self.breakAfterSelf = breakAfterSelf
self.override = override
ClassItem.__init__(self, name, visibility)
def getDecorators(self, declaring):
decorators = []
if self.inline:
decorators.append('inline')
if declaring:
if self.static:
decorators.append('static')
if self.virtual:
decorators.append('virtual')
if decorators:
return ' '.join(decorators) + ' '
return ''
def getBody(self):
# Override me or pass a string to constructor
assert self.body is not None
return self.body
def declare(self, cgClass):
templateClause = ('template <%s>\n' % ', '.join(self.templateArgs)
if self.bodyInHeader and self.templateArgs else '')
args = ', '.join([a.declare() for a in self.args])
if self.bodyInHeader:
body = indent(self.getBody())
body = '\n{\n' + body + '}\n'
else:
body = ';\n'
return fill(
"${templateClause}${decorators}${returnType}${breakAfterReturnDecl}"
"${name}(${args})${const}${override}${body}"
"${breakAfterSelf}",
templateClause=templateClause,
decorators=self.getDecorators(True),
returnType=self.returnType,
breakAfterReturnDecl=self.breakAfterReturnDecl,
name=self.name,
args=args,
const=' const' if self.const else '',
override=' override' if self.override else '',
body=body,
breakAfterSelf=self.breakAfterSelf)
def define(self, cgClass):
if self.bodyInHeader:
return ''
templateArgs = cgClass.templateArgs
if templateArgs:
if cgClass.templateSpecialization:
templateArgs = \
templateArgs[len(cgClass.templateSpecialization):]
if templateArgs:
templateClause = \
'template <%s>\n' % ', '.join([str(a) for a in templateArgs])
else:
templateClause = ''
return fill(
"""
${templateClause}${decorators}${returnType}
${className}::${name}(${args})${const}
{
$*{body}
}
""",
templateClause=templateClause,
decorators=self.getDecorators(False),
returnType=self.returnType,
className=cgClass.getNameString(),
name=self.name,
args=', '.join([a.define() for a in self.args]),
const=' const' if self.const else '',
body=self.getBody())
class ClassUsingDeclaration(ClassItem):
"""
Used for importing a name from a base class into a CGClass
baseClass is the name of the base class to import the name from
name is the name to import
visibility determines the visibility of the name (public,
protected, private), defaults to public.
"""
def __init__(self, baseClass, name, visibility='public'):
self.baseClass = baseClass
ClassItem.__init__(self, name, visibility)
def declare(self, cgClass):
return "using %s::%s;\n\n" % (self.baseClass, self.name)
def define(self, cgClass):
return ''
class ClassConstructor(ClassItem):
"""
Used for adding a constructor to a CGClass.
args is a list of Argument objects that are the arguments taken by the
constructor.
inline should be True if the constructor should be marked inline.
bodyInHeader should be True if the body should be placed in the class
declaration in the header.
visibility determines the visibility of the constructor (public,
protected, private), defaults to private.
explicit should be True if the constructor should be marked explicit.
baseConstructors is a list of strings containing calls to base constructors,
defaults to None.
body contains a string with the code for the constructor, defaults to empty.
"""
def __init__(self, args, inline=False, bodyInHeader=False,
visibility="private", explicit=False, constexpr=False, baseConstructors=None,
body=""):
assert not (inline and constexpr)
assert not (bodyInHeader and constexpr)
self.args = args
self.inline = inline or bodyInHeader
self.bodyInHeader = bodyInHeader or constexpr
self.explicit = explicit
self.constexpr = constexpr
self.baseConstructors = baseConstructors or []
self.body = body
ClassItem.__init__(self, None, visibility)
def getDecorators(self, declaring):
decorators = []
if self.explicit:
decorators.append('explicit')
if self.inline and declaring:
decorators.append('inline')
if self.constexpr and declaring:
decorators.append('constexpr')
if decorators:
return ' '.join(decorators) + ' '
return ''
def getInitializationList(self, cgClass):
items = [str(c) for c in self.baseConstructors]
for m in cgClass.members:
if not m.static:
initialize = m.body
if initialize:
items.append(m.name + "(" + initialize + ")")
if len(items) > 0:
return '\n : ' + ',\n '.join(items)
return ''
def getBody(self):
return self.body
def declare(self, cgClass):
args = ', '.join([a.declare() for a in self.args])
if self.bodyInHeader:
body = self.getInitializationList(cgClass) + '\n{\n' + indent(self.getBody()) + '}\n'
else:
body = ';\n'
return fill(
"${decorators}${className}(${args})${body}\n",
decorators=self.getDecorators(True),
className=cgClass.getNameString(),
args=args,
body=body)
def define(self, cgClass):
if self.bodyInHeader:
return ''
return fill(
"""
${decorators}
${className}::${className}(${args})${initializationList}
{
$*{body}
}
""",
decorators=self.getDecorators(False),
className=cgClass.getNameString(),
args=', '.join([a.define() for a in self.args]),
initializationList=self.getInitializationList(cgClass),
body=self.getBody())
class ClassDestructor(ClassItem):
"""
Used for adding a destructor to a CGClass.
inline should be True if the destructor should be marked inline.
bodyInHeader should be True if the body should be placed in the class
declaration in the header.
visibility determines the visibility of the destructor (public,
protected, private), defaults to private.
body contains a string with the code for the destructor, defaults to empty.
virtual determines whether the destructor is virtual, defaults to False.
"""
def __init__(self, inline=False, bodyInHeader=False,
visibility="private", body='', virtual=False):
self.inline = inline or bodyInHeader
self.bodyInHeader = bodyInHeader
self.body = body
self.virtual = virtual
ClassItem.__init__(self, None, visibility)
def getDecorators(self, declaring):
decorators = []
if self.virtual and declaring:
decorators.append('virtual')
if self.inline and declaring:
decorators.append('inline')
if decorators:
return ' '.join(decorators) + ' '
return ''
def getBody(self):
return self.body
def declare(self, cgClass):
if self.bodyInHeader:
body = '\n{\n' + indent(self.getBody()) + '}\n'
else:
body = ';\n'
return fill(
"${decorators}~${className}()${body}\n",
decorators=self.getDecorators(True),
className=cgClass.getNameString(),
body=body)
def define(self, cgClass):
if self.bodyInHeader:
return ''
return fill(
"""
${decorators}
${className}::~${className}()
{
$*{body}
}
""",
decorators=self.getDecorators(False),
className=cgClass.getNameString(),
body=self.getBody())
class ClassMember(ClassItem):
def __init__(self, name, type, visibility="private", static=False,
body=None):
self.type = type
self.static = static
self.body = body
ClassItem.__init__(self, name, visibility)
def declare(self, cgClass):
return '%s%s %s;\n' % ('static ' if self.static else '', self.type,
self.name)
def define(self, cgClass):
if not self.static:
return ''
if self.body:
body = " = " + self.body
else:
body = ""
return '%s %s::%s%s;\n' % (self.type, cgClass.getNameString(),
self.name, body)
class ClassTypedef(ClassItem):
def __init__(self, name, type, visibility="public"):
self.type = type
ClassItem.__init__(self, name, visibility)
def declare(self, cgClass):
return 'typedef %s %s;\n' % (self.type, self.name)
def define(self, cgClass):
# Only goes in the header
return ''
class ClassEnum(ClassItem):
def __init__(self, name, entries, values=None, visibility="public"):
self.entries = entries
self.values = values
ClassItem.__init__(self, name, visibility)
def declare(self, cgClass):
entries = []
for i in range(0, len(self.entries)):
if not self.values or i >= len(self.values):
entry = '%s' % self.entries[i]
else:
entry = '%s = %s' % (self.entries[i], self.values[i])
entries.append(entry)
name = '' if not self.name else ' ' + self.name
return 'enum%s\n{\n%s\n};\n' % (name, indent(',\n'.join(entries)))
def define(self, cgClass):
# Only goes in the header
return ''
class ClassUnion(ClassItem):
def __init__(self, name, entries, visibility="public"):
self.entries = [entry + ";\n" for entry in entries]
ClassItem.__init__(self, name, visibility)
def declare(self, cgClass):
return "union %s\n{\n%s\n};\n" % (self.name, indent(''.join(self.entries)))
def define(self, cgClass):
# Only goes in the header
return ''
class CGClass(CGThing):
def __init__(self, name, bases=[], members=[], constructors=[],
destructor=None, methods=[],
typedefs=[], enums=[], unions=[], templateArgs=[],
templateSpecialization=[], isStruct=False,
disallowCopyConstruction=False, indent='',
decorators='',
extradeclarations='',
extradefinitions=''):
CGThing.__init__(self)
self.name = name
self.bases = bases
self.members = members
self.constructors = constructors
# We store our single destructor in a list, since all of our
# code wants lists of members.
self.destructors = [destructor] if destructor else []
self.methods = methods
self.typedefs = typedefs
self.enums = enums
self.unions = unions
self.templateArgs = templateArgs
self.templateSpecialization = templateSpecialization
self.isStruct = isStruct
self.disallowCopyConstruction = disallowCopyConstruction
self.indent = indent
self.defaultVisibility = 'public' if isStruct else 'private'
self.decorators = decorators
self.extradeclarations = extradeclarations
self.extradefinitions = extradefinitions
def getNameString(self):
className = self.name
if self.templateSpecialization:
className += '<%s>' % ', '.join([str(a)
for a in self.templateSpecialization])
return className
def declare(self):
result = ''
if self.templateArgs:
templateArgs = [a.declare() for a in self.templateArgs]
templateArgs = templateArgs[len(self.templateSpecialization):]
result += ('template <%s>\n' %
','.join([str(a) for a in templateArgs]))
type = 'struct' if self.isStruct else 'class'
if self.templateSpecialization:
specialization = \
'<%s>' % ', '.join([str(a) for a in self.templateSpecialization])
else:
specialization = ''
myself = '%s %s%s' % (type, self.name, specialization)
if self.decorators != '':
myself += " " + self.decorators
result += myself
if self.bases:
inherit = ' : '
result += inherit
# Grab our first base
baseItems = [CGGeneric(b.declare(self)) for b in self.bases]
bases = baseItems[:1]
# Indent the rest
bases.extend(CGIndenter(b, len(myself) + len(inherit))
for b in baseItems[1:])
result += ",\n".join(b.define() for b in bases)
result += '\n{\n'
result += self.extradeclarations
def declareMembers(cgClass, memberList, defaultVisibility):
members = {'private': [], 'protected': [], 'public': []}
for member in memberList:
members[member.visibility].append(member)
if defaultVisibility == 'public':
order = ['public', 'protected', 'private']
else:
order = ['private', 'protected', 'public']
result = ''
lastVisibility = defaultVisibility
for visibility in order:
list = members[visibility]
if list:
if visibility != lastVisibility:
result += visibility + ':\n'
for member in list:
result += indent(member.declare(cgClass))
lastVisibility = visibility
return (result, lastVisibility)
if self.disallowCopyConstruction:
class DisallowedCopyConstructor(object):
def __init__(self):
self.visibility = "private"
def declare(self, cgClass):
name = cgClass.getNameString()
return ("%s(const %s&) = delete;\n"
"void operator=(const %s) = delete;\n" % (name, name, name))
disallowedCopyConstructors = [DisallowedCopyConstructor()]
else:
disallowedCopyConstructors = []
order = [self.enums, self.unions,
self.typedefs, self.members,
self.constructors + disallowedCopyConstructors,
self.destructors, self.methods]
lastVisibility = self.defaultVisibility
pieces = []
for memberList in order:
code, lastVisibility = declareMembers(self, memberList, lastVisibility)
if code:
code = code.rstrip() + "\n" # remove extra blank lines at the end
pieces.append(code)
result += '\n'.join(pieces)
result += '};\n'
result = indent(result, len(self.indent))
return result
def define(self):
def defineMembers(cgClass, memberList, itemCount, separator=''):
result = ''
for member in memberList:
if itemCount != 0:
result = result + separator
definition = member.define(cgClass)
if definition:
# Member variables would only produce empty lines here.
result += definition
itemCount += 1
return (result, itemCount)
order = [(self.members, ''), (self.constructors, '\n'),
(self.destructors, '\n'), (self.methods, '\n')]
result = self.extradefinitions
itemCount = 0
for memberList, separator in order:
memberString, itemCount = defineMembers(self, memberList,
itemCount, separator)
result = result + memberString
return result
class CGResolveOwnProperty(CGAbstractStaticMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'wrapper'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('JS::Handle<jsid>', 'id'),
Argument('JS::MutableHandle<JS::PropertyDescriptor>', 'desc'),
]
CGAbstractStaticMethod.__init__(self, descriptor, "ResolveOwnProperty",
"bool", args)
def definition_body(self):
return "return js::GetProxyHandler(obj)->getOwnPropertyDescriptor(cx, wrapper, id, desc);\n"
class CGResolveOwnPropertyViaResolve(CGAbstractBindingMethod):
"""
An implementation of Xray ResolveOwnProperty stuff for things that have a
resolve hook.
"""
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'wrapper'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('JS::Handle<jsid>', 'id'),
Argument('JS::MutableHandle<JS::PropertyDescriptor>', 'desc')]
CGAbstractBindingMethod.__init__(self, descriptor,
"ResolveOwnPropertyViaResolve",
args, getThisObj="",
callArgs="")
def generate_code(self):
return CGGeneric(dedent("""
{
// Since we're dealing with an Xray, do the resolve on the
// underlying object first. That gives it a chance to
// define properties on the actual object as needed, and
// then use the fact that it created the objects as a flag
// to avoid re-resolving the properties if someone deletes
// them.
JSAutoCompartment ac(cx, obj);
JS::Rooted<JS::PropertyDescriptor> objDesc(cx);
if (!self->DoResolve(cx, obj, id, &objDesc)) {
return false;
}
// If desc.value() is undefined, then the DoResolve call
// has already defined the property on the object. Don't
// try to also define it.
if (objDesc.object() &&
!objDesc.value().isUndefined() &&
!JS_DefinePropertyById(cx, obj, id, objDesc)) {
return false;
}
}
return self->DoResolve(cx, wrapper, id, desc);
"""))
class CGEnumerateOwnProperties(CGAbstractStaticMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'wrapper'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('JS::AutoIdVector&', 'props')]
CGAbstractStaticMethod.__init__(self, descriptor,
"EnumerateOwnProperties", "bool", args)
def definition_body(self):
return "return js::GetProxyHandler(obj)->ownPropertyKeys(cx, wrapper, props);\n"
class CGEnumerateOwnPropertiesViaGetOwnPropertyNames(CGAbstractBindingMethod):
"""
An implementation of Xray EnumerateOwnProperties stuff for things
that have a resolve hook.
"""
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'wrapper'),
Argument('JS::Handle<JSObject*>', 'obj'),
Argument('JS::AutoIdVector&', 'props')]
CGAbstractBindingMethod.__init__(self, descriptor,
"EnumerateOwnPropertiesViaGetOwnPropertyNames",
args, getThisObj="",
callArgs="")
def generate_code(self):
return CGGeneric(dedent("""
AutoTArray<nsString, 8> names;
binding_detail::FastErrorResult rv;
self->GetOwnPropertyNames(cx, names, rv);
if (rv.MaybeSetPendingException(cx)) {
return false;
}
// OK to pass null as "proxy" because it's ignored if
// shadowPrototypeProperties is true
return AppendNamedPropertyIds(cx, nullptr, names, true, props);
"""))
class CGPrototypeTraitsClass(CGClass):
def __init__(self, descriptor, indent=''):
templateArgs = [Argument('prototypes::ID', 'PrototypeID')]
templateSpecialization = ['prototypes::id::' + descriptor.name]
enums = [ClassEnum('', ['Depth'],
[descriptor.interface.inheritanceDepth()])]
CGClass.__init__(self, 'PrototypeTraits', indent=indent,
templateArgs=templateArgs,
templateSpecialization=templateSpecialization,
enums=enums, isStruct=True)
def deps(self):
return set()
class CGClassForwardDeclare(CGThing):
def __init__(self, name, isStruct=False):
CGThing.__init__(self)
self.name = name
self.isStruct = isStruct
def declare(self):
type = 'struct' if self.isStruct else 'class'
return '%s %s;\n' % (type, self.name)
def define(self):
# Header only
return ''
def deps(self):
return set()
class CGProxySpecialOperation(CGPerSignatureCall):
"""
Base class for classes for calling an indexed or named special operation
(don't use this directly, use the derived classes below).
If checkFound is False, will just assert that the prop is found instead of
checking that it is before wrapping the value.
resultVar: See the docstring for CGCallGenerator.
foundVar: For getters and deleters, the generated code can also set a bool
variable, declared by the caller, if the given indexed or named property
already existed. If the caller wants this, it should pass the name of the
bool variable as the foundVar keyword argument to the constructor. The
caller is responsible for declaring the variable and initializing it to
false.
"""
def __init__(self, descriptor, operation, checkFound=True,
argumentHandleValue=None, resultVar=None, foundVar=None):
self.checkFound = checkFound
self.foundVar = foundVar or "found"
nativeName = MakeNativeName(descriptor.binaryNameFor(operation))
operation = descriptor.operations[operation]
assert len(operation.signatures()) == 1
signature = operation.signatures()[0]
returnType, arguments = signature
# We pass len(arguments) as the final argument so that the
# CGPerSignatureCall won't do any argument conversion of its own.
CGPerSignatureCall.__init__(self, returnType, arguments, nativeName,
False, descriptor, operation,
len(arguments), resultVar=resultVar)
if operation.isSetter() or operation.isCreator():
# arguments[0] is the index or name of the item that we're setting.
argument = arguments[1]
info = getJSToNativeConversionInfo(
argument.type, descriptor,
treatNullAs=argument.treatNullAs,
sourceDescription=("value being assigned to %s setter" %
descriptor.interface.identifier.name))
if argumentHandleValue is None:
argumentHandleValue = "desc.value()"
templateValues = {
"declName": argument.identifier.name,
"holderName": argument.identifier.name + "_holder",
"val": argumentHandleValue,
"obj": "obj",
"passedToJSImpl": "false"
}
self.cgRoot.prepend(instantiateJSToNativeConversion(info, templateValues))
elif operation.isGetter() or operation.isDeleter():
if foundVar is None:
self.cgRoot.prepend(CGGeneric("bool found = false;\n"))
def getArguments(self):
args = [(a, a.identifier.name) for a in self.arguments]
if self.idlNode.isGetter() or self.idlNode.isDeleter():
args.append((FakeArgument(BuiltinTypes[IDLBuiltinType.Types.boolean],
self.idlNode),
self.foundVar))
return args
def wrap_return_value(self):
if not self.idlNode.isGetter() or self.templateValues is None:
return ""
wrap = CGGeneric(wrapForType(self.returnType, self.descriptor, self.templateValues))
if self.checkFound:
wrap = CGIfWrapper(wrap, self.foundVar)
else:
wrap = CGList([CGGeneric("MOZ_ASSERT(" + self.foundVar + ");\n"), wrap])
return "\n" + wrap.define()
class CGProxyIndexedOperation(CGProxySpecialOperation):
"""
Class to generate a call to an indexed operation.
If doUnwrap is False, the caller is responsible for making sure a variable
named 'self' holds the C++ object somewhere where the code we generate
will see it.
If checkFound is False, will just assert that the prop is found instead of
checking that it is before wrapping the value.
resultVar: See the docstring for CGCallGenerator.
foundVar: See the docstring for CGProxySpecialOperation.
"""
def __init__(self, descriptor, name, doUnwrap=True, checkFound=True,
argumentHandleValue=None, resultVar=None, foundVar=None):
self.doUnwrap = doUnwrap
CGProxySpecialOperation.__init__(self, descriptor, name, checkFound,
argumentHandleValue=argumentHandleValue,
resultVar=resultVar,
foundVar=foundVar)
def define(self):
# Our first argument is the id we're getting.
argName = self.arguments[0].identifier.name
if argName == "index":
# We already have our index in a variable with that name
setIndex = ""
else:
setIndex = "uint32_t %s = index;\n" % argName
if self.doUnwrap:
unwrap = "%s* self = UnwrapProxy(proxy);\n" % self.descriptor.nativeType
else:
unwrap = ""
return (setIndex + unwrap +
CGProxySpecialOperation.define(self))
class CGProxyIndexedGetter(CGProxyIndexedOperation):
"""
Class to generate a call to an indexed getter. If templateValues is not None
the returned value will be wrapped with wrapForType using templateValues.
If doUnwrap is False, the caller is responsible for making sure a variable
named 'self' holds the C++ object somewhere where the code we generate
will see it.
If checkFound is False, will just assert that the prop is found instead of
checking that it is before wrapping the value.
foundVar: See the docstring for CGProxySpecialOperation.
"""
def __init__(self, descriptor, templateValues=None, doUnwrap=True,
checkFound=True, foundVar=None):
self.templateValues = templateValues
CGProxyIndexedOperation.__init__(self, descriptor, 'IndexedGetter',
doUnwrap, checkFound, foundVar=foundVar)
class CGProxyIndexedPresenceChecker(CGProxyIndexedGetter):
"""
Class to generate a call that checks whether an indexed property exists.
For now, we just delegate to CGProxyIndexedGetter
foundVar: See the docstring for CGProxySpecialOperation.
"""
def __init__(self, descriptor, foundVar):
CGProxyIndexedGetter.__init__(self, descriptor, foundVar=foundVar)
self.cgRoot.append(CGGeneric("(void)result;\n"))
class CGProxyIndexedSetter(CGProxyIndexedOperation):
"""
Class to generate a call to an indexed setter.
"""
def __init__(self, descriptor, argumentHandleValue=None):
CGProxyIndexedOperation.__init__(self, descriptor, 'IndexedSetter',
argumentHandleValue=argumentHandleValue)
class CGProxyIndexedDeleter(CGProxyIndexedOperation):
"""
Class to generate a call to an indexed deleter.
resultVar: See the docstring for CGCallGenerator.
foundVar: See the docstring for CGProxySpecialOperation.
"""
def __init__(self, descriptor, resultVar=None, foundVar=None):
CGProxyIndexedOperation.__init__(self, descriptor, 'IndexedDeleter',
resultVar=resultVar,
foundVar=foundVar)
class CGProxyNamedOperation(CGProxySpecialOperation):
"""
Class to generate a call to a named operation.
'value' is the jsval to use for the name; None indicates that it should be
gotten from the property id.
resultVar: See the docstring for CGCallGenerator.
foundVar: See the docstring for CGProxySpecialOperation.
"""
def __init__(self, descriptor, name, value=None, argumentHandleValue=None,
resultVar=None, foundVar=None):
CGProxySpecialOperation.__init__(self, descriptor, name,
argumentHandleValue=argumentHandleValue,
resultVar=resultVar,
foundVar=foundVar)
self.value = value
def define(self):
# Our first argument is the id we're getting.
argName = self.arguments[0].identifier.name
if argName == "id":
# deal with the name collision
decls = "JS::Rooted<jsid> id_(cx, id);\n"
idName = "id_"
else:
decls = ""
idName = "id"
decls += "binding_detail::FakeString %s;\n" % argName
main = fill(
"""
${nativeType}* self = UnwrapProxy(proxy);
$*{op}
""",
nativeType=self.descriptor.nativeType,
op=CGProxySpecialOperation.define(self))
if self.value is None:
return fill(
"""
$*{decls}
bool isSymbol;
if (!ConvertIdToString(cx, ${idName}, ${argName}, isSymbol)) {
return false;
}
if (!isSymbol) {
$*{main}
}
""",
decls=decls,
idName=idName,
argName=argName,
main=main)
# Sadly, we have to set up nameVal even if we have an atom id,
# because we don't know for sure, and we can end up needing it
# so it needs to be higher up the stack. Using a Maybe here
# seems like probable overkill.
return fill(
"""
$*{decls}
JS::Rooted<JS::Value> nameVal(cx, ${value});
if (!nameVal.isSymbol()) {
if (!ConvertJSValueToString(cx, nameVal, eStringify, eStringify,
${argName})) {
return false;
}
$*{main}
}
""",
decls=decls,
value=self.value,
argName=argName,
main=main)
class CGProxyNamedGetter(CGProxyNamedOperation):
"""
Class to generate a call to an named getter. If templateValues is not None
the returned value will be wrapped with wrapForType using templateValues.
'value' is the jsval to use for the name; None indicates that it should be
gotten from the property id.
foundVar: See the docstring for CGProxySpecialOperation.
"""
def __init__(self, descriptor, templateValues=None, value=None,
foundVar=None):
self.templateValues = templateValues
CGProxyNamedOperation.__init__(self, descriptor, 'NamedGetter', value,
foundVar=foundVar)
class CGProxyNamedPresenceChecker(CGProxyNamedGetter):
"""
Class to generate a call that checks whether a named property exists.
For now, we just delegate to CGProxyNamedGetter
foundVar: See the docstring for CGProxySpecialOperation.
"""
def __init__(self, descriptor, foundVar=None):
CGProxyNamedGetter.__init__(self, descriptor, foundVar=foundVar)
self.cgRoot.append(CGGeneric("(void)result;\n"))
class CGProxyNamedSetter(CGProxyNamedOperation):
"""
Class to generate a call to a named setter.
"""
def __init__(self, descriptor, argumentHandleValue=None):
CGProxyNamedOperation.__init__(self, descriptor, 'NamedSetter',
argumentHandleValue=argumentHandleValue)
class CGProxyNamedDeleter(CGProxyNamedOperation):
"""
Class to generate a call to a named deleter.
resultVar: See the docstring for CGCallGenerator.
foundVar: See the docstring for CGProxySpecialOperation.
"""
def __init__(self, descriptor, resultVar=None, foundVar=None):
CGProxyNamedOperation.__init__(self, descriptor, 'NamedDeleter',
resultVar=resultVar,
foundVar=foundVar)
class CGProxyIsProxy(CGAbstractMethod):
def __init__(self, descriptor):
args = [Argument('JSObject*', 'obj')]
CGAbstractMethod.__init__(self, descriptor, "IsProxy", "bool", args, alwaysInline=True)
def declare(self):
return ""
def definition_body(self):
return "return js::IsProxy(obj) && js::GetProxyHandler(obj) == DOMProxyHandler::getInstance();\n"
class CGProxyUnwrap(CGAbstractMethod):
def __init__(self, descriptor):
args = [Argument('JSObject*', 'obj')]
CGAbstractMethod.__init__(self, descriptor, "UnwrapProxy", descriptor.nativeType + '*', args, alwaysInline=True)
def declare(self):
return ""
def definition_body(self):
return fill(
"""
MOZ_ASSERT(js::IsProxy(obj));
if (js::GetProxyHandler(obj) != DOMProxyHandler::getInstance()) {
MOZ_ASSERT(xpc::WrapperFactory::IsXrayWrapper(obj));
obj = js::UncheckedUnwrap(obj);
}
MOZ_ASSERT(IsProxy(obj));
return static_cast<${type}*>(js::GetProxyPrivate(obj).toPrivate());
""",
type=self.descriptor.nativeType)
class CGDOMJSProxyHandler_getOwnPropDescriptor(ClassMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('JS::Handle<jsid>', 'id'),
Argument('bool', 'ignoreNamedProps'),
Argument('JS::MutableHandle<JS::PropertyDescriptor>', 'desc')]
ClassMethod.__init__(self, "getOwnPropDescriptor", "bool", args,
virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
indexedGetter = self.descriptor.operations['IndexedGetter']
indexedSetter = self.descriptor.operations['IndexedSetter']
if self.descriptor.supportsIndexedProperties():
readonly = toStringBool(indexedSetter is None)
fillDescriptor = "FillPropertyDescriptor(desc, proxy, %s);\nreturn true;\n" % readonly
templateValues = {
'jsvalRef': 'desc.value()',
'jsvalHandle': 'desc.value()',
'obj': 'proxy',
'successCode': fillDescriptor
}
getIndexed = fill(
"""
uint32_t index = GetArrayIndexFromId(cx, id);
if (IsArrayIndex(index)) {
$*{callGetter}
}
""",
callGetter=CGProxyIndexedGetter(self.descriptor, templateValues).define())
else:
getIndexed = ""
if self.descriptor.supportsNamedProperties():
operations = self.descriptor.operations
readonly = toStringBool(operations['NamedSetter'] is None)
fillDescriptor = (
"FillPropertyDescriptor(desc, proxy, %s, %s);\n"
"return true;\n" %
(readonly,
toStringBool(self.descriptor.namedPropertiesEnumerable)))
templateValues = {'jsvalRef': 'desc.value()', 'jsvalHandle': 'desc.value()',
'obj': 'proxy', 'successCode': fillDescriptor}
computeCondition = dedent("""
bool hasOnProto;
if (!HasPropertyOnPrototype(cx, proxy, id, &hasOnProto)) {
return false;
}
callNamedGetter = !hasOnProto;
""")
if self.descriptor.interface.getExtendedAttribute('OverrideBuiltins'):
computeCondition = fill(
"""
if (!isXray) {
callNamedGetter = true;
} else {
$*{hasOnProto}
}
""",
hasOnProto=computeCondition)
outerCondition = "!ignoreNamedProps"
if self.descriptor.supportsIndexedProperties():
outerCondition = "!IsArrayIndex(index) && " + outerCondition
namedGetCode = CGProxyNamedGetter(self.descriptor,
templateValues).define()
namedGet = fill("""
bool callNamedGetter = false;
if (${outerCondition}) {
$*{computeCondition}
}
if (callNamedGetter) {
$*{namedGetCode}
}
""",
outerCondition=outerCondition,
computeCondition=computeCondition,
namedGetCode=namedGetCode)
namedGet += "\n"
else:
namedGet = ""
return fill(
"""
bool isXray = xpc::WrapperFactory::IsXrayWrapper(proxy);
$*{getIndexed}
JS::Rooted<JSObject*> expando(cx);
if (!isXray && (expando = GetExpandoObject(proxy))) {
if (!JS_GetOwnPropertyDescriptorById(cx, expando, id, desc)) {
return false;
}
if (desc.object()) {
// Pretend the property lives on the wrapper.
desc.object().set(proxy);
return true;
}
}
$*{namedGet}
desc.object().set(nullptr);
return true;
""",
getIndexed=getIndexed,
namedGet=namedGet)
class CGDOMJSProxyHandler_defineProperty(ClassMethod):
def __init__(self, descriptor):
# The usual convention is to name the ObjectOpResult out-parameter
# `result`, but that name is a bit overloaded around here.
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('JS::Handle<jsid>', 'id'),
Argument('JS::Handle<JS::PropertyDescriptor>', 'desc'),
Argument('JS::ObjectOpResult&', 'opresult'),
Argument('bool*', 'defined')]
ClassMethod.__init__(self, "defineProperty", "bool", args, virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
set = ""
indexedSetter = self.descriptor.operations['IndexedSetter']
if indexedSetter:
if self.descriptor.operations['IndexedCreator'] is not indexedSetter:
raise TypeError("Can't handle creator that's different from the setter")
set += fill(
"""
uint32_t index = GetArrayIndexFromId(cx, id);
if (IsArrayIndex(index)) {
*defined = true;
$*{callSetter}
return opresult.succeed();
}
""",
callSetter=CGProxyIndexedSetter(self.descriptor).define())
elif self.descriptor.supportsIndexedProperties():
# We allow untrusted content to prevent Xrays from setting a
# property if that property is an indexed property and we have no
# indexed setter. That's how the object would normally behave if
# you tried to set the property on it. That means we don't need to
# do anything special for Xrays here.
set += dedent(
"""
if (IsArrayIndex(GetArrayIndexFromId(cx, id))) {
*defined = true;
return opresult.failNoIndexedSetter();
}
""")
namedSetter = self.descriptor.operations['NamedSetter']
if namedSetter:
if self.descriptor.hasUnforgeableMembers:
raise TypeError("Can't handle a named setter on an interface "
"that has unforgeables. Figure out how that "
"should work!")
if self.descriptor.operations['NamedCreator'] is not namedSetter:
raise TypeError("Can't handle creator that's different from the setter")
# If we support indexed properties, we won't get down here for
# indices, so we can just do our setter unconditionally here.
set += fill(
"""
*defined = true;
$*{callSetter}
return opresult.succeed();
""",
callSetter=CGProxyNamedSetter(self.descriptor).define())
else:
# We allow untrusted content to prevent Xrays from setting a
# property if that property is already a named property on the
# object and we have no named setter. That's how the object would
# normally behave if you tried to set the property on it. That
# means we don't need to do anything special for Xrays here.
if self.descriptor.supportsNamedProperties():
set += fill(
"""
bool found = false;
$*{presenceChecker}
if (found) {
*defined = true;
return opresult.failNoNamedSetter();
}
""",
presenceChecker=CGProxyNamedPresenceChecker(self.descriptor, foundVar="found").define())
set += ("return mozilla::dom::DOMProxyHandler::defineProperty(%s);\n" %
", ".join(a.name for a in self.args))
return set
class CGDOMJSProxyHandler_delete(ClassMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('JS::Handle<jsid>', 'id'),
Argument('JS::ObjectOpResult&', 'opresult')]
ClassMethod.__init__(self, "delete_", "bool", args,
virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
def getDeleterBody(type, foundVar=None):
"""
type should be "Named" or "Indexed"
The possible outcomes:
- an error happened (the emitted code returns false)
- own property not found (foundVar=false, deleteSucceeded=true)
- own property found and deleted (foundVar=true, deleteSucceeded=true)
- own property found but can't be deleted (foundVar=true, deleteSucceeded=false)
"""
assert type in ("Named", "Indexed")
deleter = self.descriptor.operations[type + 'Deleter']
if deleter:
if self.descriptor.hasUnforgeableMembers:
raise TypeError("Can't handle a deleter on an interface "
"that has unforgeables. Figure out how "
"that should work!")
# See if the deleter method is fallible.
t = deleter.signatures()[0][0]
if t.isPrimitive() and not t.nullable() and t.tag() == IDLType.Tags.bool:
# The deleter method has a boolean out-parameter. When a
# property is found, the out-param indicates whether it was
# successfully deleted.
decls = ""
if foundVar is None:
foundVar = "found"
decls += "bool found = false;\n"
setDS = fill(
"""
if (!${foundVar}) {
deleteSucceeded = true;
}
""",
foundVar=foundVar)
else:
# No boolean out-parameter: if a property is found,
# deleting it always succeeds.
decls = ""
setDS = "deleteSucceeded = true;\n"
deleterClass = globals()["CGProxy%sDeleter" % type]
body = (decls +
deleterClass(self.descriptor, resultVar="deleteSucceeded",
foundVar=foundVar).define() +
setDS)
elif getattr(self.descriptor, "supports%sProperties" % type)():
presenceCheckerClass = globals()["CGProxy%sPresenceChecker" % type]
foundDecl = ""
if foundVar is None:
foundVar = "found"
foundDecl = "bool found = false;\n"
body = fill(
"""
$*{foundDecl}
$*{presenceChecker}
deleteSucceeded = !${foundVar};
""",
foundDecl=foundDecl,
presenceChecker=presenceCheckerClass(self.descriptor, foundVar=foundVar).define(),
foundVar=foundVar)
else:
body = None
return body
delete = dedent("""
MOZ_ASSERT(!xpc::WrapperFactory::IsXrayWrapper(proxy),
"Should not have a XrayWrapper here");
""")
indexedBody = getDeleterBody("Indexed")
if indexedBody is not None:
delete += fill(
"""
uint32_t index = GetArrayIndexFromId(cx, id);
if (IsArrayIndex(index)) {
bool deleteSucceeded;
$*{indexedBody}
return deleteSucceeded ? opresult.succeed() : opresult.failCantDelete();
}
""",
indexedBody=indexedBody)
namedBody = getDeleterBody("Named", foundVar="found")
if namedBody is not None:
# We always return above for an index id in the case when we support
# indexed properties, so we can just treat the id as a name
# unconditionally here.
delete += fill(
"""
bool found = false;
bool deleteSucceeded;
$*{namedBody}
if (found) {
return deleteSucceeded ? opresult.succeed() : opresult.failCantDelete();
}
""",
namedBody=namedBody)
if not self.descriptor.interface.getExtendedAttribute('OverrideBuiltins'):
delete = fill(
"""
bool hasOnProto;
if (!HasPropertyOnPrototype(cx, proxy, id, &hasOnProto)) {
return false;
}
if (!hasOnProto) {
$*{delete}
}
""",
delete=delete)
delete += dedent("""
return dom::DOMProxyHandler::delete_(cx, proxy, id, opresult);
""")
return delete
class CGDOMJSProxyHandler_ownPropNames(ClassMethod):
def __init__(self, descriptor, ):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('unsigned', 'flags'),
Argument('JS::AutoIdVector&', 'props')]
ClassMethod.__init__(self, "ownPropNames", "bool", args,
virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
# Per spec, we do indices, then named props, then everything else
if self.descriptor.supportsIndexedProperties():
addIndices = dedent("""
uint32_t length = UnwrapProxy(proxy)->Length();
MOZ_ASSERT(int32_t(length) >= 0);
for (int32_t i = 0; i < int32_t(length); ++i) {
if (!props.append(INT_TO_JSID(i))) {
return false;
}
}
""")
else:
addIndices = ""
if self.descriptor.supportsNamedProperties():
if self.descriptor.interface.getExtendedAttribute('OverrideBuiltins'):
shadow = "!isXray"
else:
shadow = "false"
addNames = fill(
"""
nsTArray<nsString> names;
UnwrapProxy(proxy)->GetSupportedNames(names);
if (!AppendNamedPropertyIds(cx, proxy, names, ${shadow}, props)) {
return false;
}
""",
shadow=shadow)
if not self.descriptor.namedPropertiesEnumerable:
addNames = CGIfWrapper(CGGeneric(addNames),
"flags & JSITER_HIDDEN").define()
addNames = "\n" + addNames
else:
addNames = ""
return fill(
"""
bool isXray = xpc::WrapperFactory::IsXrayWrapper(proxy);
$*{addIndices}
$*{addNames}
JS::Rooted<JSObject*> expando(cx);
if (!isXray && (expando = DOMProxyHandler::GetExpandoObject(proxy)) &&
!js::GetPropertyKeys(cx, expando, flags, &props)) {
return false;
}
return true;
""",
addIndices=addIndices,
addNames=addNames)
class CGDOMJSProxyHandler_hasOwn(ClassMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('JS::Handle<jsid>', 'id'),
Argument('bool*', 'bp')]
ClassMethod.__init__(self, "hasOwn", "bool", args,
virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
if self.descriptor.supportsIndexedProperties():
indexed = fill(
"""
uint32_t index = GetArrayIndexFromId(cx, id);
if (IsArrayIndex(index)) {
bool found = false;
$*{presenceChecker}
*bp = found;
return true;
}
""",
presenceChecker=CGProxyIndexedPresenceChecker(self.descriptor, foundVar="found").define())
else:
indexed = ""
if self.descriptor.supportsNamedProperties():
# If we support indexed properties we always return above for index
# property names, so no need to check for those here.
named = fill(
"""
bool found = false;
$*{presenceChecker}
*bp = found;
""",
presenceChecker=CGProxyNamedPresenceChecker(self.descriptor, foundVar="found").define())
if not self.descriptor.interface.getExtendedAttribute('OverrideBuiltins'):
named = fill(
"""
bool hasOnProto;
if (!HasPropertyOnPrototype(cx, proxy, id, &hasOnProto)) {
return false;
}
if (!hasOnProto) {
$*{protoLacksProperty}
return true;
}
""",
protoLacksProperty=named)
named += "*bp = false;\n"
else:
named += "\n"
else:
named = "*bp = false;\n"
return fill(
"""
MOZ_ASSERT(!xpc::WrapperFactory::IsXrayWrapper(proxy),
"Should not have a XrayWrapper here");
$*{indexed}
JS::Rooted<JSObject*> expando(cx, GetExpandoObject(proxy));
if (expando) {
bool b = true;
bool ok = JS_HasPropertyById(cx, expando, id, &b);
*bp = !!b;
if (!ok || *bp) {
return ok;
}
}
$*{named}
return true;
""",
indexed=indexed,
named=named)
class CGDOMJSProxyHandler_get(ClassMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('JS::Handle<JS::Value>', 'receiver'),
Argument('JS::Handle<jsid>', 'id'),
Argument('JS::MutableHandle<JS::Value>', 'vp')]
ClassMethod.__init__(self, "get", "bool", args,
virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
getUnforgeableOrExpando = dedent("""
{ // Scope for expando
JS::Rooted<JSObject*> expando(cx, DOMProxyHandler::GetExpandoObject(proxy));
if (expando) {
bool hasProp;
if (!JS_HasPropertyById(cx, expando, id, &hasProp)) {
return false;
}
if (hasProp) {
// Forward the get to the expando object, but our receiver is whatever our
// receiver is.
return JS_ForwardGetPropertyTo(cx, expando, id, receiver, vp);
}
}
}
""")
templateValues = {'jsvalRef': 'vp', 'jsvalHandle': 'vp', 'obj': 'proxy'}
if self.descriptor.supportsIndexedProperties():
getIndexedOrExpando = fill(
"""
uint32_t index = GetArrayIndexFromId(cx, id);
if (IsArrayIndex(index)) {
$*{callGetter}
// Even if we don't have this index, we don't forward the
// get on to our expando object.
} else {
$*{getUnforgeableOrExpando}
}
""",
callGetter=CGProxyIndexedGetter(self.descriptor, templateValues).define(),
getUnforgeableOrExpando=getUnforgeableOrExpando)
else:
getIndexedOrExpando = getUnforgeableOrExpando
if self.descriptor.supportsNamedProperties():
getNamed = CGProxyNamedGetter(self.descriptor, templateValues)
if self.descriptor.supportsIndexedProperties():
getNamed = CGIfWrapper(getNamed, "!IsArrayIndex(index)")
getNamed = getNamed.define() + "\n"
else:
getNamed = ""
getOnPrototype = dedent("""
bool foundOnPrototype;
if (!GetPropertyOnPrototype(cx, proxy, receiver, id, &foundOnPrototype, vp)) {
return false;
}
if (foundOnPrototype) {
return true;
}
""")
if self.descriptor.interface.getExtendedAttribute('OverrideBuiltins'):
getNamed = getNamed + getOnPrototype
else:
getNamed = getOnPrototype + getNamed
return fill(
"""
MOZ_ASSERT(!xpc::WrapperFactory::IsXrayWrapper(proxy),
"Should not have a XrayWrapper here");
$*{indexedOrExpando}
$*{named}
vp.setUndefined();
return true;
""",
indexedOrExpando=getIndexedOrExpando,
named=getNamed)
class CGDOMJSProxyHandler_setCustom(ClassMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('JS::Handle<jsid>', 'id'),
Argument('JS::Handle<JS::Value>', 'v'),
Argument('bool*', 'done')]
ClassMethod.__init__(self, "setCustom", "bool", args, virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
assertion = ("MOZ_ASSERT(!xpc::WrapperFactory::IsXrayWrapper(proxy),\n"
' "Should not have a XrayWrapper here");\n')
# Correctness first. If we have a NamedSetter and [OverrideBuiltins],
# always call the NamedSetter and never do anything else.
namedSetter = self.descriptor.operations['NamedSetter']
if (namedSetter is not None and
self.descriptor.interface.getExtendedAttribute('OverrideBuiltins')):
# Check assumptions.
if self.descriptor.supportsIndexedProperties():
raise ValueError("In interface " + self.descriptor.name + ": " +
"Can't cope with [OverrideBuiltins] and an indexed getter")
if self.descriptor.operations['NamedCreator'] is not namedSetter:
raise ValueError("In interface " + self.descriptor.name + ": " +
"Can't cope with named setter that is not also a named creator")
if self.descriptor.hasUnforgeableMembers:
raise ValueError("In interface " + self.descriptor.name + ": " +
"Can't cope with [OverrideBuiltins] and unforgeable members")
callSetter = CGProxyNamedSetter(self.descriptor, argumentHandleValue="v")
return (assertion +
callSetter.define() +
"*done = true;\n"
"return true;\n")
# As an optimization, if we are going to call an IndexedSetter, go
# ahead and call it and have done.
indexedSetter = self.descriptor.operations['IndexedSetter']
if indexedSetter is not None:
if self.descriptor.operations['IndexedCreator'] is not indexedSetter:
raise ValueError("In interface " + self.descriptor.name + ": " +
"Can't cope with indexed setter that is not " +
"also an indexed creator")
setIndexed = fill(
"""
uint32_t index = GetArrayIndexFromId(cx, id);
if (IsArrayIndex(index)) {
$*{callSetter}
*done = true;
return true;
}
""",
callSetter=CGProxyIndexedSetter(self.descriptor,
argumentHandleValue="v").define())
else:
setIndexed = ""
return (assertion +
setIndexed +
"*done = false;\n"
"return true;\n")
class CGDOMJSProxyHandler_className(ClassMethod):
def __init__(self, descriptor):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy')]
ClassMethod.__init__(self, "className", "const char*", args,
virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
return 'return "%s";\n' % self.descriptor.name
class CGDOMJSProxyHandler_finalizeInBackground(ClassMethod):
def __init__(self, descriptor):
args = [Argument('JS::Value', 'priv')]
ClassMethod.__init__(self, "finalizeInBackground", "bool", args,
virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
return "return false;\n"
class CGDOMJSProxyHandler_finalize(ClassMethod):
def __init__(self, descriptor):
args = [Argument('JSFreeOp*', 'fop'), Argument('JSObject*', 'proxy')]
ClassMethod.__init__(self, "finalize", "void", args,
virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
return (("%s* self = UnwrapPossiblyNotInitializedDOMObject<%s>(proxy);\n" %
(self.descriptor.nativeType, self.descriptor.nativeType)) +
finalizeHook(self.descriptor, FINALIZE_HOOK_NAME, self.args[0].name).define())
class CGDOMJSProxyHandler_getElements(ClassMethod):
def __init__(self, descriptor):
assert descriptor.supportsIndexedProperties()
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('uint32_t', 'begin'),
Argument('uint32_t', 'end'),
Argument('js::ElementAdder*', 'adder')]
ClassMethod.__init__(self, "getElements", "bool", args, virtual=True, override=True, const=True)
self.descriptor = descriptor
def getBody(self):
# Just like ownPropertyKeys we'll assume that we have no holes, so
# we have all properties from 0 to length. If that ever changes
# (unlikely), we'll need to do something a bit more clever with how we
# forward on to our ancestor.
templateValues = {
'jsvalRef': 'temp',
'jsvalHandle': '&temp',
'obj': 'proxy',
'successCode': ("if (!adder->append(cx, temp)) return false;\n"
"continue;\n")
}
get = CGProxyIndexedGetter(self.descriptor, templateValues, False, False).define()
return fill(
"""
JS::Rooted<JS::Value> temp(cx);
MOZ_ASSERT(!xpc::WrapperFactory::IsXrayWrapper(proxy),
"Should not have a XrayWrapper here");
${nativeType}* self = UnwrapProxy(proxy);
uint32_t length = self->Length();
// Compute the end of the indices we'll get ourselves
uint32_t ourEnd = std::max(begin, std::min(end, length));
for (uint32_t index = begin; index < ourEnd; ++index) {
$*{get}
}
if (end > ourEnd) {
JS::Rooted<JSObject*> proto(cx);
if (!js::GetObjectProto(cx, proxy, &proto)) {
return false;
}
return js::GetElementsWithAdder(cx, proto, proxy, ourEnd, end, adder);
}
return true;
""",
nativeType=self.descriptor.nativeType,
get=get)
class CGDOMJSProxyHandler_getInstance(ClassMethod):
def __init__(self):
ClassMethod.__init__(self, "getInstance", "const DOMProxyHandler*", [], static=True)
def getBody(self):
return dedent("""
static const DOMProxyHandler instance;
return &instance;
""")
class CGDOMJSProxyHandler_getPrototypeIfOrdinary(ClassMethod):
def __init__(self):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('bool*', 'isOrdinary'),
Argument('JS::MutableHandle<JSObject*>', 'proto')]
ClassMethod.__init__(self, "getPrototypeIfOrdinary", "bool", args,
virtual=True, override=True, const=True)
def getBody(self):
return dedent("""
*isOrdinary = false;
return true;
""")
class CGDOMJSProxyHandler_call(ClassMethod):
def __init__(self):
args = [Argument('JSContext*', 'cx'),
Argument('JS::Handle<JSObject*>', 'proxy'),
Argument('const JS::CallArgs&', 'args')]
ClassMethod.__init__(self, "call", "bool", args, virtual=True, override=True, const=True)
def getBody(self):
return fill(
"""
return js::ForwardToNative(cx, ${legacyCaller}, args);
""",
legacyCaller=LEGACYCALLER_HOOK_NAME)
class CGDOMJSProxyHandler_isCallable(ClassMethod):
def __init__(self):
ClassMethod.__init__(self, "isCallable", "bool",
[Argument('JSObject*', 'obj')],
virtual=True, override=True, const=True)
def getBody(self):
return dedent("""
return true;
""")
class CGDOMJSProxyHandler(CGClass):
def __init__(self, descriptor):
assert (descriptor.supportsIndexedProperties() or
descriptor.supportsNamedProperties() or
descriptor.hasNonOrdinaryGetPrototypeOf())
methods = [CGDOMJSProxyHandler_getOwnPropDescriptor(descriptor),
CGDOMJSProxyHandler_defineProperty(descriptor),
ClassUsingDeclaration("mozilla::dom::DOMProxyHandler",
"defineProperty"),
CGDOMJSProxyHandler_ownPropNames(descriptor),
CGDOMJSProxyHandler_hasOwn(descriptor),
CGDOMJSProxyHandler_get(descriptor),
CGDOMJSProxyHandler_className(descriptor),
CGDOMJSProxyHandler_finalizeInBackground(descriptor),
CGDOMJSProxyHandler_finalize(descriptor),
CGDOMJSProxyHandler_getInstance(),
CGDOMJSProxyHandler_delete(descriptor)]
constructors = [
ClassConstructor(
[],
constexpr=True,
visibility="public",
explicit=True)
]
if descriptor.supportsIndexedProperties():
methods.append(CGDOMJSProxyHandler_getElements(descriptor))
if (descriptor.operations['IndexedSetter'] is not None or
(descriptor.operations['NamedSetter'] is not None and
descriptor.interface.getExtendedAttribute('OverrideBuiltins'))):
methods.append(CGDOMJSProxyHandler_setCustom(descriptor))
if descriptor.hasNonOrdinaryGetPrototypeOf():
methods.append(CGDOMJSProxyHandler_getPrototypeIfOrdinary())
if descriptor.operations['LegacyCaller']:
methods.append(CGDOMJSProxyHandler_call())
methods.append(CGDOMJSProxyHandler_isCallable())
if descriptor.interface.getExtendedAttribute('OverrideBuiltins'):
parentClass = 'ShadowingDOMProxyHandler'
else:
parentClass = 'mozilla::dom::DOMProxyHandler'
CGClass.__init__(self, 'DOMProxyHandler',
bases=[ClassBase(parentClass)],
constructors=constructors,
methods=methods)
class CGDOMJSProxyHandlerDeclarer(CGThing):
"""
A class for declaring a DOMProxyHandler.
"""
def __init__(self, handlerThing):
self.handlerThing = handlerThing
def declare(self):
# Our class declaration should happen when we're defining
return ""
def define(self):
return self.handlerThing.declare()
class CGDOMJSProxyHandlerDefiner(CGThing):
"""
A class for defining a DOMProxyHandler.
"""
def __init__(self, handlerThing):
self.handlerThing = handlerThing
def declare(self):
return ""
def define(self):
return self.handlerThing.define()
def stripTrailingWhitespace(text):
tail = '\n' if text.endswith('\n') else ''
lines = text.splitlines()
return '\n'.join(line.rstrip() for line in lines) + tail
class MemberProperties:
def __init__(self):
self.isGenericMethod = False
self.isCrossOriginMethod = False
self.isPromiseReturningMethod = False
self.isGenericGetter = False
self.isLenientGetter = False
self.isCrossOriginGetter = False
self.isGenericSetter = False
self.isLenientSetter = False
self.isCrossOriginSetter = False
self.isJsonifier = False
def memberProperties(m, descriptor):
props = MemberProperties()
if m.isMethod():
if m == descriptor.operations['Jsonifier']:
props.isGenericMethod = descriptor.needsSpecialGenericOps()
props.isJsonifier = True
elif (not m.isIdentifierLess() or m == descriptor.operations['Stringifier']):
if not m.isStatic() and descriptor.interface.hasInterfacePrototypeObject():
if descriptor.needsSpecialGenericOps():
if m.returnsPromise():
props.isPromiseReturningMethod = True
else:
props.isGenericMethod = True
if m.getExtendedAttribute("CrossOriginCallable"):
props.isCrossOriginMethod = True
elif m.isAttr():
if not m.isStatic() and descriptor.interface.hasInterfacePrototypeObject():
if m.hasLenientThis():
props.isLenientGetter = True
elif m.getExtendedAttribute("CrossOriginReadable"):
props.isCrossOriginGetter = True
elif descriptor.needsSpecialGenericOps():
props.isGenericGetter = True
if not m.readonly:
if not m.isStatic() and descriptor.interface.hasInterfacePrototypeObject():
if m.hasLenientThis():
props.isLenientSetter = True
elif IsCrossOriginWritable(m, descriptor):
props.isCrossOriginSetter = True
elif descriptor.needsSpecialGenericOps():
props.isGenericSetter = True
elif m.getExtendedAttribute("PutForwards"):
if IsCrossOriginWritable(m, descriptor):
props.isCrossOriginSetter = True
elif descriptor.needsSpecialGenericOps():
props.isGenericSetter = True
elif (m.getExtendedAttribute("Replaceable") or
m.getExtendedAttribute("LenientSetter")):
if descriptor.needsSpecialGenericOps():
props.isGenericSetter = True
return props
class CGDescriptor(CGThing):
def __init__(self, descriptor):
CGThing.__init__(self)
assert not descriptor.concrete or descriptor.interface.hasInterfacePrototypeObject()
self._deps = descriptor.interface.getDeps()
cgThings = []
cgThings.append(CGGeneric(declare="typedef %s NativeType;\n" %
descriptor.nativeType))
parent = descriptor.interface.parent
if parent:
cgThings.append(CGGeneric("static_assert(IsRefcounted<NativeType>::value == IsRefcounted<%s::NativeType>::value,\n"
" \"Can't inherit from an interface with a different ownership model.\");\n" %
toBindingNamespace(descriptor.parentPrototypeName)))
# These are set to true if at least one non-static
# method/getter/setter or jsonifier exist on the interface.
(hasMethod, hasGetter, hasLenientGetter, hasSetter, hasLenientSetter,
hasPromiseReturningMethod) = False, False, False, False, False, False
jsonifierMethod = None
crossOriginMethods, crossOriginGetters, crossOriginSetters = set(), set(), set()
unscopableNames = list()
for n in descriptor.interface.namedConstructors:
cgThings.append(CGClassConstructor(descriptor, n,
NamedConstructorName(n)))
for m in descriptor.interface.members:
if m.isMethod() and m.identifier.name == 'queryInterface':
continue
props = memberProperties(m, descriptor)
if m.isMethod():
if m.getExtendedAttribute("Unscopable"):
assert not m.isStatic()
unscopableNames.append(m.identifier.name)
if props.isJsonifier:
jsonifierMethod = m
elif not m.isIdentifierLess() or m == descriptor.operations['Stringifier']:
if m.isStatic():
assert descriptor.interface.hasInterfaceObject()
cgThings.append(CGStaticMethod(descriptor, m))
if m.returnsPromise():
cgThings.append(CGStaticMethodJitinfo(m))
elif descriptor.interface.hasInterfacePrototypeObject():
specializedMethod = CGSpecializedMethod(descriptor, m)
cgThings.append(specializedMethod)
if m.returnsPromise():
cgThings.append(CGMethodPromiseWrapper(descriptor, specializedMethod))
cgThings.append(CGMemberJITInfo(descriptor, m))
if props.isCrossOriginMethod:
crossOriginMethods.add(m.identifier.name)
# If we've hit the maplike/setlike member itself, go ahead and
# generate its convenience functions.
elif m.isMaplikeOrSetlike():
cgThings.append(CGMaplikeOrSetlikeHelperGenerator(descriptor, m))
elif m.isAttr():
if m.stringifier:
raise TypeError("Stringifier attributes not supported yet. "
"See bug 824857.\n"
"%s" % m.location)
if m.getExtendedAttribute("Unscopable"):
assert not m.isStatic()
unscopableNames.append(m.identifier.name)
if m.isStatic():
assert descriptor.interface.hasInterfaceObject()
cgThings.append(CGStaticGetter(descriptor, m))
elif descriptor.interface.hasInterfacePrototypeObject():
if isNonExposedNavigatorObjectGetter(m, descriptor):
continue
cgThings.append(CGSpecializedGetter(descriptor, m))
if props.isCrossOriginGetter:
crossOriginGetters.add(m.identifier.name)
if not m.readonly:
if m.isStatic():
assert descriptor.interface.hasInterfaceObject()
cgThings.append(CGStaticSetter(descriptor, m))
elif descriptor.interface.hasInterfacePrototypeObject():
cgThings.append(CGSpecializedSetter(descriptor, m))
if props.isCrossOriginSetter:
crossOriginSetters.add(m.identifier.name)
elif m.getExtendedAttribute("PutForwards"):
cgThings.append(CGSpecializedForwardingSetter(descriptor, m))
if props.isCrossOriginSetter:
crossOriginSetters.add(m.identifier.name)
elif m.getExtendedAttribute("Replaceable"):
cgThings.append(CGSpecializedReplaceableSetter(descriptor, m))
elif m.getExtendedAttribute("LenientSetter"):
cgThings.append(CGSpecializedLenientSetter(descriptor, m))
if (not m.isStatic() and
descriptor.interface.hasInterfacePrototypeObject()):
cgThings.append(CGMemberJITInfo(descriptor, m))
hasMethod = hasMethod or props.isGenericMethod
hasPromiseReturningMethod = (hasPromiseReturningMethod or
props.isPromiseReturningMethod)
hasGetter = hasGetter or props.isGenericGetter
hasLenientGetter = hasLenientGetter or props.isLenientGetter
hasSetter = hasSetter or props.isGenericSetter
hasLenientSetter = hasLenientSetter or props.isLenientSetter
if jsonifierMethod:
cgThings.append(CGJsonifyAttributesMethod(descriptor))
cgThings.append(CGJsonifierMethod(descriptor, jsonifierMethod))
cgThings.append(CGMemberJITInfo(descriptor, jsonifierMethod))
if hasMethod:
cgThings.append(CGGenericMethod(descriptor))
if hasPromiseReturningMethod:
cgThings.append(CGGenericPromiseReturningMethod(descriptor))
if len(crossOriginMethods):
cgThings.append(CGGenericMethod(descriptor,
allowCrossOriginThis=True))
if hasGetter:
cgThings.append(CGGenericGetter(descriptor))
if hasLenientGetter:
cgThings.append(CGGenericGetter(descriptor, lenientThis=True))
if len(crossOriginGetters):
cgThings.append(CGGenericGetter(descriptor,
allowCrossOriginThis=True))
if hasSetter:
cgThings.append(CGGenericSetter(descriptor))
if hasLenientSetter:
cgThings.append(CGGenericSetter(descriptor, lenientThis=True))
if len(crossOriginSetters):
cgThings.append(CGGenericSetter(descriptor,
allowCrossOriginThis=True))
if descriptor.interface.isNavigatorProperty():
cgThings.append(CGConstructNavigatorObject(descriptor))
if descriptor.concrete and not descriptor.proxy:
if wantsAddProperty(descriptor):
cgThings.append(CGAddPropertyHook(descriptor))
# Always have a finalize hook, regardless of whether the class
# wants a custom hook.
cgThings.append(CGClassFinalizeHook(descriptor))
if descriptor.concrete and descriptor.wrapperCache:
cgThings.append(CGClassObjectMovedHook(descriptor))
# Generate the _ClearCachedFooValue methods before the property arrays that use them.
if descriptor.interface.isJSImplemented():
for m in clearableCachedAttrs(descriptor):
cgThings.append(CGJSImplClearCachedValueMethod(descriptor, m))
# Need to output our generated hasinstance bits before
# PropertyArrays tries to use them.
if (descriptor.interface.hasInterfaceObject() and
NeedsGeneratedHasInstance(descriptor)):
cgThings.append(CGHasInstanceHook(descriptor))
properties = PropertyArrays(descriptor)
cgThings.append(CGGeneric(define=str(properties)))
cgThings.append(CGNativeProperties(descriptor, properties))
# Set up our Xray callbacks as needed.
if descriptor.wantsXrays:
if descriptor.concrete and descriptor.proxy:
cgThings.append(CGResolveOwnProperty(descriptor))
cgThings.append(CGEnumerateOwnProperties(descriptor))
elif descriptor.needsXrayResolveHooks():
cgThings.append(CGResolveOwnPropertyViaResolve(descriptor))
cgThings.append(CGEnumerateOwnPropertiesViaGetOwnPropertyNames(descriptor))
# Now that we have our ResolveOwnProperty/EnumerateOwnProperties stuff
# done, set up our NativePropertyHooks.
cgThings.append(CGNativePropertyHooks(descriptor, properties))
if descriptor.interface.hasInterfaceObject():
cgThings.append(CGClassConstructor(descriptor,
descriptor.interface.ctor()))
cgThings.append(CGInterfaceObjectJSClass(descriptor, properties))
cgThings.append(CGNamedConstructors(descriptor))
cgThings.append(CGLegacyCallHook(descriptor))
if descriptor.interface.getExtendedAttribute("NeedResolve"):
cgThings.append(CGResolveHook(descriptor))
cgThings.append(CGMayResolveHook(descriptor))
cgThings.append(CGEnumerateHook(descriptor))
if descriptor.hasNamedPropertiesObject:
cgThings.append(CGGetNamedPropertiesObjectMethod(descriptor))
if descriptor.interface.hasInterfacePrototypeObject():
cgThings.append(CGPrototypeJSClass(descriptor, properties))
if ((descriptor.interface.hasInterfaceObject() or descriptor.interface.isNavigatorProperty()) and
not descriptor.interface.isExternal() and
descriptor.isExposedConditionally()):
cgThings.append(CGConstructorEnabled(descriptor))
if descriptor.registersGlobalNamesOnWindow:
cgThings.append(CGDefineDOMInterfaceMethod(descriptor))
if (descriptor.interface.hasMembersInSlots() and
descriptor.interface.hasChildInterfaces()):
raise TypeError("We don't support members in slots on "
"non-leaf interfaces like %s" %
descriptor.interface.identifier.name)
if descriptor.concrete:
if descriptor.proxy:
if descriptor.interface.totalMembersInSlots != 0:
raise TypeError("We can't have extra reserved slots for "
"proxy interface %s" %
descriptor.interface.identifier.name)
cgThings.append(CGGeneric(fill(
"""
static_assert(IsBaseOf<nsISupports, ${nativeType} >::value,
"We don't support non-nsISupports native classes for "
"proxy-based bindings yet");
""",
nativeType=descriptor.nativeType)))
if not descriptor.wrapperCache:
raise TypeError("We need a wrappercache to support expandos for proxy-based "
"bindings (" + descriptor.name + ")")
handlerThing = CGDOMJSProxyHandler(descriptor)
cgThings.append(CGDOMJSProxyHandlerDeclarer(handlerThing))
cgThings.append(CGProxyIsProxy(descriptor))
cgThings.append(CGProxyUnwrap(descriptor))
cgThings.append(CGDOMJSProxyHandlerDefiner(handlerThing))
cgThings.append(CGDOMProxyJSClass(descriptor))
else:
cgThings.append(CGDOMJSClass(descriptor))
cgThings.append(CGGetJSClassMethod(descriptor))
if descriptor.interface.hasMembersInSlots():
cgThings.append(CGUpdateMemberSlotsMethod(descriptor))
if descriptor.isGlobal():
assert descriptor.wrapperCache
cgThings.append(CGWrapGlobalMethod(descriptor, properties))
elif descriptor.wrapperCache:
cgThings.append(CGWrapWithCacheMethod(descriptor, properties))
cgThings.append(CGWrapMethod(descriptor))
else:
cgThings.append(CGWrapNonWrapperCacheMethod(descriptor,
properties))
# If we're not wrappercached, we don't know how to clear our
# cached values, since we can't get at the JSObject.
if descriptor.wrapperCache:
cgThings.extend(CGClearCachedValueMethod(descriptor, m) for
m in clearableCachedAttrs(descriptor))
haveUnscopables = (len(unscopableNames) != 0 and
descriptor.interface.hasInterfacePrototypeObject())
if haveUnscopables:
cgThings.append(
CGList([CGGeneric("static const char* const unscopableNames[] = {"),
CGIndenter(CGList([CGGeneric('"%s"' % name) for
name in unscopableNames] +
[CGGeneric("nullptr")], ",\n")),
CGGeneric("};\n")], "\n"))
# CGCreateInterfaceObjectsMethod needs to come after our
# CGDOMJSClass and unscopables, if any.
cgThings.append(CGCreateInterfaceObjectsMethod(descriptor, properties,
haveUnscopables))
# CGGetProtoObjectMethod and CGGetConstructorObjectMethod need
# to come after CGCreateInterfaceObjectsMethod.
if descriptor.interface.hasInterfacePrototypeObject():
cgThings.append(CGGetProtoObjectHandleMethod(descriptor))
if descriptor.interface.hasChildInterfaces():
cgThings.append(CGGetProtoObjectMethod(descriptor))
if descriptor.interface.hasInterfaceObject():
cgThings.append(CGGetConstructorObjectHandleMethod(descriptor))
cgThings.append(CGGetConstructorObjectMethod(descriptor))
# See whether we need we need to generate an IsPermitted method
if crossOriginGetters or crossOriginSetters or crossOriginMethods:
cgThings.append(CGIsPermittedMethod(descriptor,
crossOriginGetters,
crossOriginSetters,
crossOriginMethods))
cgThings = CGList((CGIndenter(t, declareOnly=True) for t in cgThings), "\n")
cgThings = CGWrapper(cgThings, pre='\n', post='\n')
self.cgRoot = CGWrapper(CGNamespace(toBindingNamespace(descriptor.name),
cgThings),
post='\n')
def declare(self):
return self.cgRoot.declare()
def define(self):
return self.cgRoot.define()
def deps(self):
return self._deps
class CGNamespacedEnum(CGThing):
def __init__(self, namespace, enumName, names, values, comment=""):
if not values:
values = []
# Account for explicit enum values.
entries = []
for i in range(0, len(names)):
if len(values) > i and values[i] is not None:
entry = "%s = %s" % (names[i], values[i])
else:
entry = names[i]
entries.append(entry)
# Append a Count.
entries.append('_' + enumName + '_Count')
# Indent.
entries = [' ' + e for e in entries]
# Build the enum body.
enumstr = comment + 'enum %s : uint16_t\n{\n%s\n};\n' % (enumName, ',\n'.join(entries))
curr = CGGeneric(declare=enumstr)
# Add some whitespace padding.
curr = CGWrapper(curr, pre='\n', post='\n')
# Add the namespace.
curr = CGNamespace(namespace, curr)
# Add the typedef
typedef = '\ntypedef %s::%s %s;\n\n' % (namespace, enumName, enumName)
curr = CGList([curr, CGGeneric(declare=typedef)])
# Save the result.
self.node = curr
def declare(self):
return self.node.declare()
def define(self):
return ""
def initIdsClassMethod(identifiers, atomCacheName):
idinit = ['!atomsCache->%s.init(cx, "%s")' %
(CGDictionary.makeIdName(id),
id)
for id in identifiers]
idinit.reverse()
body = fill(
"""
MOZ_ASSERT(!*reinterpret_cast<jsid**>(atomsCache));
// Initialize these in reverse order so that any failure leaves the first one
// uninitialized.
if (${idinit}) {
return false;
}
return true;
""",
idinit=" ||\n ".join(idinit))
return ClassMethod("InitIds", "bool", [
Argument("JSContext*", "cx"),
Argument("%s*" % atomCacheName, "atomsCache")
], static=True, body=body, visibility="private")
class CGDictionary(CGThing):
def __init__(self, dictionary, descriptorProvider):
self.dictionary = dictionary
self.descriptorProvider = descriptorProvider
self.needToInitIds = len(dictionary.members) > 0
self.memberInfo = [
(member,
getJSToNativeConversionInfo(
member.type,
descriptorProvider,
isEnforceRange=member.enforceRange,
isClamp=member.clamp,
isMember="Dictionary",
isOptional=member.canHaveMissingValue(),
defaultValue=member.defaultValue,
sourceDescription=self.getMemberSourceDescription(member)))
for member in dictionary.members]
# If we have a union member containing something in the same
# file as us, bail: the C++ includes won't work out.
for member in dictionary.members:
type = member.type.unroll()
if type.isUnion():
for t in type.flatMemberTypes:
if (t.isDictionary() and
CGHeaders.getDeclarationFilename(t.inner) ==
CGHeaders.getDeclarationFilename(dictionary)):
raise TypeError(
"Dictionary contains a union that contains a "
"dictionary in the same WebIDL file. This won't "
"compile. Move the inner dictionary to a "
"different file.\n%s\n%s" %
(t.location, t.inner.location))
self.structs = self.getStructs()
def declare(self):
return self.structs.declare()
def define(self):
return self.structs.define()
def base(self):
if self.dictionary.parent:
return self.makeClassName(self.dictionary.parent)
return "DictionaryBase"
def initMethod(self):
"""
This function outputs the body of the Init() method for the dictionary.
For the most part, this is some bookkeeping for our atoms so
we can avoid atomizing strings all the time, then we just spit
out the getMemberConversion() output for each member,
separated by newlines.
"""
body = dedent("""
// Passing a null JSContext is OK only if we're initing from null,
// Since in that case we will not have to do any property gets
MOZ_ASSERT_IF(!cx, val.isNull());
""")
if self.needToInitIds:
body += fill(
"""
${dictName}Atoms* atomsCache = nullptr;
if (cx) {
atomsCache = GetAtomCache<${dictName}Atoms>(cx);
if (!*reinterpret_cast<jsid**>(atomsCache) && !InitIds(cx, atomsCache)) {
return false;
}
}
""",
dictName=self.makeClassName(self.dictionary))
if self.dictionary.parent:
body += fill(
"""
// Per spec, we init the parent's members first
if (!${dictName}::Init(cx, val)) {
return false;
}
""",
dictName=self.makeClassName(self.dictionary.parent))
else:
body += dedent(
"""
{ // scope for isConvertible
bool isConvertible;
if (!IsConvertibleToDictionary(cx, val, &isConvertible)) {
return false;
}
if (!isConvertible) {
return ThrowErrorMessage(cx, MSG_NOT_DICTIONARY, sourceDescription);
}
}
""")
memberInits = [self.getMemberConversion(m).define()
for m in self.memberInfo]
if memberInits:
body += fill(
"""
bool isNull = val.isNullOrUndefined();
// We only need these if !isNull, in which case we have |cx|.
Maybe<JS::Rooted<JSObject *> > object;
Maybe<JS::Rooted<JS::Value> > temp;
if (!isNull) {
object.emplace(cx, &val.toObject());
temp.emplace(cx);
}
$*{memberInits}
""",
memberInits="\n".join(memberInits))
body += "return true;\n"
return ClassMethod("Init", "bool", [
Argument('JSContext*', 'cx'),
Argument('JS::Handle<JS::Value>', 'val'),
Argument('const char*', 'sourceDescription', default='"Value"'),
Argument('bool', 'passedToJSImpl', default='false')
], body=body)
def initFromJSONMethod(self):
return ClassMethod(
"Init", "bool",
[Argument('const nsAString&', 'aJSON')],
body=dedent("""
AutoJSAPI jsapi;
JSObject* cleanGlobal = SimpleGlobalObject::Create(SimpleGlobalObject::GlobalType::BindingDetail);
if (!cleanGlobal) {
return false;
}
if (!jsapi.Init(cleanGlobal)) {
return false;
}
JSContext* cx = jsapi.cx();
JS::Rooted<JS::Value> json(cx);
bool ok = ParseJSON(cx, aJSON, &json);
NS_ENSURE_TRUE(ok, false);
return Init(cx, json);
"""))
def toJSONMethod(self):
return ClassMethod(
"ToJSON", "bool",
[Argument('nsAString&', 'aJSON')],
body=dedent("""
AutoJSAPI jsapi;
jsapi.Init();
JSContext *cx = jsapi.cx();
// It's safe to use UnprivilegedJunkScopeOrWorkerGlobal here
// because we'll only be creating objects, in ways that have no
// side-effects, followed by a call to JS::ToJSONMaybeSafely,
// which likewise guarantees no side-effects for the sorts of
// things we will pass it.
JSAutoCompartment ac(cx, binding_detail::UnprivilegedJunkScopeOrWorkerGlobal());
JS::Rooted<JS::Value> val(cx);
if (!ToObjectInternal(cx, &val)) {
return false;
}
JS::Rooted<JSObject*> obj(cx, &val.toObject());
return StringifyToJSON(cx, obj, aJSON);
"""), const=True)
def toObjectInternalMethod(self):
body = ""
if self.needToInitIds:
body += fill(
"""
${dictName}Atoms* atomsCache = GetAtomCache<${dictName}Atoms>(cx);
if (!*reinterpret_cast<jsid**>(atomsCache) && !InitIds(cx, atomsCache)) {
return false;
}
""",
dictName=self.makeClassName(self.dictionary))
if self.dictionary.parent:
body += fill(
"""
// Per spec, we define the parent's members first
if (!${dictName}::ToObjectInternal(cx, rval)) {
return false;
}
JS::Rooted<JSObject*> obj(cx, &rval.toObject());
""",
dictName=self.makeClassName(self.dictionary.parent))
else:
body += dedent(
"""
JS::Rooted<JSObject*> obj(cx, JS_NewPlainObject(cx));
if (!obj) {
return false;
}
rval.set(JS::ObjectValue(*obj));
""")
if self.memberInfo:
body += "\n".join(self.getMemberDefinition(m).define()
for m in self.memberInfo)
body += "\nreturn true;\n"
return ClassMethod("ToObjectInternal", "bool", [
Argument('JSContext*', 'cx'),
Argument('JS::MutableHandle<JS::Value>', 'rval'),
], const=True, body=body)
def initIdsMethod(self):
assert self.needToInitIds
return initIdsClassMethod([m.identifier.name for m in self.dictionary.members],
"%sAtoms" % self.makeClassName(self.dictionary))
def traceDictionaryMethod(self):
body = ""
if self.dictionary.parent:
cls = self.makeClassName(self.dictionary.parent)
body += "%s::TraceDictionary(trc);\n" % cls
memberTraces = [self.getMemberTrace(m)
for m in self.dictionary.members
if typeNeedsRooting(m.type)]
if memberTraces:
body += "\n".join(memberTraces)
return ClassMethod("TraceDictionary", "void", [
Argument("JSTracer*", "trc"),
], body=body)
def assignmentOperator(self):
body = CGList([])
if self.dictionary.parent:
body.append(CGGeneric(
"%s::operator=(aOther);\n" %
self.makeClassName(self.dictionary.parent)))
for m, _ in self.memberInfo:
memberName = self.makeMemberName(m.identifier.name)
if m.canHaveMissingValue():
memberAssign = CGGeneric(fill(
"""
${name}.Reset();
if (aOther.${name}.WasPassed()) {
${name}.Construct(aOther.${name}.Value());
}
""",
name=memberName))
else:
memberAssign = CGGeneric(
"%s = aOther.%s;\n" % (memberName, memberName))
body.append(memberAssign)
return ClassMethod(
"operator=", "void",
[Argument("const %s&" % self.makeClassName(self.dictionary),
"aOther")],
body=body.define())
def getStructs(self):
d = self.dictionary
selfName = self.makeClassName(d)
members = [ClassMember(self.makeMemberName(m[0].identifier.name),
self.getMemberType(m),
visibility="public",
body=self.getMemberInitializer(m))
for m in self.memberInfo]
if d.parent:
# We always want to init our parent with our non-initializing
# constructor arg, because either we're about to init ourselves (and
# hence our parent) or we don't want any init happening.
baseConstructors = [
"%s(%s)" % (self.makeClassName(d.parent),
self.getNonInitializingCtorArg())
]
else:
baseConstructors = None
ctors = [
ClassConstructor(
[],
visibility="public",
baseConstructors=baseConstructors,
body=(
"// Safe to pass a null context if we pass a null value\n"
"Init(nullptr, JS::NullHandleValue);\n")),
ClassConstructor(
[Argument("const FastDictionaryInitializer&", "")],
visibility="public",
baseConstructors=baseConstructors,
explicit=True,
bodyInHeader=True,
body='// Do nothing here; this is used by our "Fast" subclass\n')
]
methods = []
if self.needToInitIds:
methods.append(self.initIdsMethod())
methods.append(self.initMethod())
canBeRepresentedAsJSON = self.dictionarySafeToJSONify(self.dictionary)
if canBeRepresentedAsJSON:
methods.append(self.initFromJSONMethod())
try:
methods.append(self.toObjectInternalMethod())
if canBeRepresentedAsJSON:
methods.append(self.toJSONMethod())
except MethodNotNewObjectError:
# If we can't have a ToObjectInternal() because one of our members
# can only be returned from [NewObject] methods, then just skip
# generating ToObjectInternal() and ToJSON (since the latter depens
# on the former).
pass
methods.append(self.traceDictionaryMethod())
if CGDictionary.isDictionaryCopyConstructible(d):
disallowCopyConstruction = False
# Note: no base constructors because our operator= will
# deal with that.
ctors.append(ClassConstructor([Argument("const %s&" % selfName,
"aOther")],
bodyInHeader=True,
visibility="public",
explicit=True,
body="*this = aOther;\n"))
methods.append(self.assignmentOperator())
else:
disallowCopyConstruction = True
struct = CGClass(selfName,
bases=[ClassBase(self.base())],
members=members,
constructors=ctors,
methods=methods,
isStruct=True,
disallowCopyConstruction=disallowCopyConstruction)
fastDictionaryCtor = ClassConstructor(
[],
visibility="public",
bodyInHeader=True,
baseConstructors=["%s(%s)" %
(selfName,
self.getNonInitializingCtorArg())],
body="// Doesn't matter what int we pass to the parent constructor\n")
fastStruct = CGClass("Fast" + selfName,
bases=[ClassBase(selfName)],
constructors=[fastDictionaryCtor],
isStruct=True)
return CGList([struct,
CGNamespace('binding_detail', fastStruct)],
"\n")
def deps(self):
return self.dictionary.getDeps()
@staticmethod
def makeDictionaryName(dictionary):
return dictionary.identifier.name
def makeClassName(self, dictionary):
return self.makeDictionaryName(dictionary)
@staticmethod
def makeMemberName(name):
return "m" + name[0].upper() + IDLToCIdentifier(name[1:])
def getMemberType(self, memberInfo):
_, conversionInfo = memberInfo
# We can't handle having a holderType here
assert conversionInfo.holderType is None
declType = conversionInfo.declType
if conversionInfo.dealWithOptional:
declType = CGTemplatedType("Optional", declType)
return declType.define()
def getMemberConversion(self, memberInfo):
"""
A function that outputs the initialization of a single dictionary
member from the given dictionary value.
We start with our conversionInfo, which tells us how to
convert a JS::Value to whatever type this member is. We
substiture the template from the conversionInfo with values
that point to our "temp" JS::Value and our member (which is
the C++ value we want to produce). The output is a string of
code to do the conversion. We store this string in
conversionReplacements["convert"].
Now we have three different ways we might use (or skip) this
string of code, depending on whether the value is required,
optional with default value, or optional without default
value. We set up a template in the 'conversion' variable for
exactly how to do this, then substitute into it from the
conversionReplacements dictionary.
"""
member, conversionInfo = memberInfo
replacements = {
"val": "temp.ref()",
"declName": self.makeMemberName(member.identifier.name),
# We need a holder name for external interfaces, but
# it's scoped down to the conversion so we can just use
# anything we want.
"holderName": "holder",
"passedToJSImpl": "passedToJSImpl"
}
# We can't handle having a holderType here
assert conversionInfo.holderType is None
if conversionInfo.dealWithOptional:
replacements["declName"] = "(" + replacements["declName"] + ".Value())"
if member.defaultValue:
replacements["haveValue"] = "!isNull && !temp->isUndefined()"
propId = self.makeIdName(member.identifier.name)
propGet = ("JS_GetPropertyById(cx, *object, atomsCache->%s, temp.ptr())" %
propId)
conversionReplacements = {
"prop": self.makeMemberName(member.identifier.name),
"convert": string.Template(conversionInfo.template).substitute(replacements),
"propGet": propGet
}
# The conversion code will only run where a default value or a value passed
# by the author needs to get converted, so we can remember if we have any
# members present here.
conversionReplacements["convert"] += "mIsAnyMemberPresent = true;\n"
setTempValue = CGGeneric(dedent(
"""
if (!${propGet}) {
return false;
}
"""))
conditions = getConditionList(member, "cx", "*object")
if len(conditions) != 0:
setTempValue = CGIfElseWrapper(conditions.define(),
setTempValue,
CGGeneric("temp->setUndefined();\n"))
setTempValue = CGIfWrapper(setTempValue, "!isNull")
conversion = setTempValue.define()
if member.defaultValue:
if (member.type.isUnion() and
(not member.type.nullable() or
not isinstance(member.defaultValue, IDLNullValue))):
# Since this has a default value, it might have been initialized
# already. Go ahead and uninit it before we try to init it
# again.
memberName = self.makeMemberName(member.identifier.name)
if member.type.nullable():
conversion += fill(
"""
if (!${memberName}.IsNull()) {
${memberName}.Value().Uninit();
}
""",
memberName=memberName)
else:
conversion += "%s.Uninit();\n" % memberName
conversion += "${convert}"
elif not conversionInfo.dealWithOptional:
# We're required, but have no default value. Make sure
# that we throw if we have no value provided.
conversion += dedent(
"""
if (!isNull && !temp->isUndefined()) {
${convert}
} else if (cx) {
// Don't error out if we have no cx. In that
// situation the caller is default-constructing us and we'll
// just assume they know what they're doing.
return ThrowErrorMessage(cx, MSG_MISSING_REQUIRED_DICTIONARY_MEMBER,
"%s");
}
""" % self.getMemberSourceDescription(member))
conversionReplacements["convert"] = indent(conversionReplacements["convert"]).rstrip()
else:
conversion += (
"if (!isNull && !temp->isUndefined()) {\n"
" ${prop}.Construct();\n"
"${convert}"
"}\n")
conversionReplacements["convert"] = indent(conversionReplacements["convert"])
return CGGeneric(
string.Template(conversion).substitute(conversionReplacements))
def getMemberDefinition(self, memberInfo):
member = memberInfo[0]
declType = memberInfo[1].declType
memberLoc = self.makeMemberName(member.identifier.name)
if not member.canHaveMissingValue():
memberData = memberLoc
else:
# The data is inside the Optional<>
memberData = "%s.InternalValue()" % memberLoc
# If you have to change this list (which you shouldn't!), make sure it
# continues to match the list in test_Object.prototype_props.html
if (member.identifier.name in
["constructor", "toSource", "toString", "toLocaleString", "valueOf",
"watch", "unwatch", "hasOwnProperty", "isPrototypeOf",
"propertyIsEnumerable", "__defineGetter__", "__defineSetter__",
"__lookupGetter__", "__lookupSetter__", "__proto__"]):
raise TypeError("'%s' member of %s dictionary shadows "
"a property of Object.prototype, and Xrays to "
"Object can't handle that.\n"
"%s" %
(member.identifier.name,
self.dictionary.identifier.name,
member.location))
propDef = (
'JS_DefinePropertyById(cx, obj, atomsCache->%s, temp, JSPROP_ENUMERATE)' %
self.makeIdName(member.identifier.name))
innerTemplate = wrapForType(
member.type, self.descriptorProvider,
{
'result': "currentValue",
'successCode': ("if (!%s) {\n"
" return false;\n"
"}\n"
"break;\n" % propDef),
'jsvalRef': "temp",
'jsvalHandle': "&temp",
'returnsNewObject': False,
# 'obj' can just be allowed to be the string "obj", since that
# will be our dictionary object, which is presumably itself in
# the right scope.
'typedArraysAreStructs': True
})
conversion = CGGeneric(innerTemplate)
conversion = CGWrapper(conversion,
pre=("JS::Rooted<JS::Value> temp(cx);\n"
"%s const & currentValue = %s;\n" %
(declType.define(), memberData)
))
# Now make sure that our successCode can actually break out of the
# conversion. This incidentally gives us a scope for 'temp' and
# 'currentValue'.
conversion = CGWrapper(
CGIndenter(conversion),
pre=("do {\n"
" // block for our 'break' successCode and scope for 'temp' and 'currentValue'\n"),
post="} while(0);\n")
if member.canHaveMissingValue():
# Only do the conversion if we have a value
conversion = CGIfWrapper(conversion, "%s.WasPassed()" % memberLoc)
conditions = getConditionList(member, "cx", "obj")
if len(conditions) != 0:
conversion = CGIfWrapper(conversion, conditions.define())
return conversion
def getMemberTrace(self, member):
type = member.type
assert typeNeedsRooting(type)
memberLoc = self.makeMemberName(member.identifier.name)
if not member.canHaveMissingValue():
memberData = memberLoc
else:
# The data is inside the Optional<>
memberData = "%s.Value()" % memberLoc
memberName = "%s.%s" % (self.makeClassName(self.dictionary),
memberLoc)
if type.isObject():
trace = CGGeneric('JS::UnsafeTraceRoot(trc, %s, "%s");\n' %
("&"+memberData, memberName))
if type.nullable():
trace = CGIfWrapper(trace, memberData)
elif type.isAny():
trace = CGGeneric('JS::UnsafeTraceRoot(trc, %s, "%s");\n' %
("&"+memberData, memberName))
elif (type.isSequence() or type.isDictionary() or
type.isSpiderMonkeyInterface() or type.isUnion()):
if type.nullable():
memberNullable = memberData
memberData = "%s.Value()" % memberData
if type.isSequence():
trace = CGGeneric('DoTraceSequence(trc, %s);\n' % memberData)
elif type.isDictionary():
trace = CGGeneric('%s.TraceDictionary(trc);\n' % memberData)
elif type.isUnion():
trace = CGGeneric('%s.TraceUnion(trc);\n' % memberData)
else:
assert type.isSpiderMonkeyInterface()
trace = CGGeneric('%s.TraceSelf(trc);\n' % memberData)
if type.nullable():
trace = CGIfWrapper(trace, "!%s.IsNull()" % memberNullable)
elif type.isMozMap():
# If you implement this, add a MozMap<object> to
# TestInterfaceJSDictionary and test it in test_bug1036214.html
# to make sure we end up with the correct security properties.
assert False
else:
assert False # unknown type
if member.canHaveMissingValue():
trace = CGIfWrapper(trace, "%s.WasPassed()" % memberLoc)
return trace.define()
def getMemberInitializer(self, memberInfo):
"""
Get the right initializer for the member. Most members don't need one,
but we need to pre-initialize 'any' and 'object' that have a default
value, so they're safe to trace at all times.
"""
member, _ = memberInfo
if member.canHaveMissingValue():
# Allowed missing value means no need to set it up front, since it's
# inside an Optional and won't get traced until it's actually set
# up.
return None
type = member.type
if type.isAny():
return "JS::UndefinedValue()"
if type.isObject():
return "nullptr"
if type.isDictionary():
# When we construct ourselves, we don't want to init our member
# dictionaries. Either we're being constructed-but-not-initialized
# ourselves (and then we don't want to init them) or we're about to
# init ourselves and then we'll init them anyway.
return CGDictionary.getNonInitializingCtorArg()
return None
def getMemberSourceDescription(self, member):
return ("'%s' member of %s" %
(member.identifier.name, self.dictionary.identifier.name))
@staticmethod
def makeIdName(name):
return IDLToCIdentifier(name) + "_id"
@staticmethod
def getNonInitializingCtorArg():
return "FastDictionaryInitializer()"
@staticmethod
def isDictionaryCopyConstructible(dictionary):
if (dictionary.parent and
not CGDictionary.isDictionaryCopyConstructible(dictionary.parent)):
return False
return all(isTypeCopyConstructible(m.type) for m in dictionary.members)
@staticmethod
def typeSafeToJSONify(type):
"""
Determine whether the given type is safe to convert to JSON. The
restriction is that this needs to be safe while in a global controlled
by an adversary, and "safe" means no side-effects when the JS
representation of this type is converted to JSON. That means that we
have to be pretty restrictive about what things we can allow. For
example, "object" is out, because it may have accessor properties on it.
"""
if type.nullable():
# Converting null to JSON is always OK.
return CGDictionary.typeSafeToJSONify(type.inner)
if type.isSequence():
# Sequences are arrays we create ourselves, with no holes. They
# should be safe if their contents are safe, as long as we suppress
# invocation of .toJSON on objects.
return CGDictionary.typeSafeToJSONify(type.inner)
if type.isUnion():
# OK if everything in it is ok.
return all(CGDictionary.typeSafeToJSONify(t)
for t in type.flatMemberTypes)
if type.isDictionary():
# OK if the dictionary is OK
return CGDictionary.dictionarySafeToJSONify(type.inner)
if type.isString() or type.isEnum():
# Strings are always OK.
return True
if type.isPrimitive():
# Primitives (numbers and booleans) are ok, as long as
# they're not unrestricted float/double.
return not type.isFloat() or not type.isUnrestricted()
return False
@staticmethod
def dictionarySafeToJSONify(dictionary):
# The dictionary itself is OK, so we're good if all our types are.
return all(CGDictionary.typeSafeToJSONify(m.type)
for m in dictionary.members)
class CGRegisterWorkerBindings(CGAbstractMethod):
def __init__(self, config):
CGAbstractMethod.__init__(self, None, 'RegisterWorkerBindings', 'bool',
[Argument('JSContext*', 'aCx'),
Argument('JS::Handle<JSObject*>', 'aObj')])
self.config = config
def definition_body(self):
descriptors = self.config.getDescriptors(hasInterfaceObject=True,
isExposedInAnyWorker=True,
register=True)
conditions = []
for desc in descriptors:
bindingNS = toBindingNamespace(desc.name)
condition = "!%s::GetConstructorObject(aCx)" % bindingNS
if desc.isExposedConditionally():
condition = (
"%s::ConstructorEnabled(aCx, aObj) && " % bindingNS
+ condition)
conditions.append(condition)
lines = [CGIfWrapper(CGGeneric("return false;\n"), condition) for
condition in conditions]
lines.append(CGGeneric("return true;\n"))
return CGList(lines, "\n").define()
class CGRegisterWorkerDebuggerBindings(CGAbstractMethod):
def __init__(self, config):
CGAbstractMethod.__init__(self, None, 'RegisterWorkerDebuggerBindings', 'bool',
[Argument('JSContext*', 'aCx'),
Argument('JS::Handle<JSObject*>', 'aObj')])
self.config = config
def definition_body(self):
descriptors = self.config.getDescriptors(hasInterfaceObject=True,
isExposedInWorkerDebugger=True,
register=True)
conditions = []
for desc in descriptors:
bindingNS = toBindingNamespace(desc.name)
condition = "!%s::GetConstructorObject(aCx)" % bindingNS
if desc.isExposedConditionally():
condition = (
"%s::ConstructorEnabled(aCx, aObj) && " % bindingNS
+ condition)
conditions.append(condition)
lines = [CGIfWrapper(CGGeneric("return false;\n"), condition) for
condition in conditions]
lines.append(CGGeneric("return true;\n"))
return CGList(lines, "\n").define()
class CGResolveSystemBinding(CGAbstractMethod):
def __init__(self, config):
CGAbstractMethod.__init__(self, None, 'ResolveSystemBinding', 'bool',
[Argument('JSContext*', 'aCx'),
Argument('JS::Handle<JSObject*>', 'aObj'),
Argument('JS::Handle<jsid>', 'aId'),
Argument('bool*', 'aResolvedp')])
self.config = config
def definition_body(self):
descriptors = self.config.getDescriptors(hasInterfaceObject=True,
isExposedInSystemGlobals=True,
register=True)
def descNameToId(name):
return "s%s_id" % name
jsidNames = [descNameToId(desc.name) for desc in descriptors]
jsidDecls = CGList(CGGeneric("static jsid %s;\n" % name)
for name in jsidNames)
jsidInits = CGList(
(CGIfWrapper(
CGGeneric("return false;\n"),
'!AtomizeAndPinJSString(aCx, %s, "%s")' %
(descNameToId(desc.name), desc.interface.identifier.name))
for desc in descriptors),
"\n")
jsidInits.append(CGGeneric("idsInited = true;\n"))
jsidInits = CGIfWrapper(jsidInits, "!idsInited")
jsidInits = CGList([CGGeneric("static bool idsInited = false;\n"),
jsidInits])
definitions = CGList([], "\n")
for desc in descriptors:
bindingNS = toBindingNamespace(desc.name)
defineCode = "!%s::GetConstructorObject(aCx)" % bindingNS
defineCode = CGIfWrapper(CGGeneric("return false;\n"), defineCode)
defineCode = CGList([defineCode,
CGGeneric("*aResolvedp = true;\n")])
condition = "JSID_IS_VOID(aId) || aId == %s" % descNameToId(desc.name)
if desc.isExposedConditionally():
condition = "(%s) && %s::ConstructorEnabled(aCx, aObj)" % (condition, bindingNS)
definitions.append(CGIfWrapper(defineCode, condition))
return CGList([CGGeneric("MOZ_ASSERT(NS_IsMainThread());\n"),
jsidDecls,
jsidInits,
definitions,
CGGeneric("return true;\n")],
"\n").define()
def getGlobalNames(config):
names = []
for desc in config.getDescriptors(registersGlobalNamesOnWindow=True):
names.append((desc.name, desc))
names.extend((n.identifier.name, desc) for n in desc.interface.namedConstructors)
return names
class CGGlobalNamesString(CGGeneric):
def __init__(self, config):
globalNames = getGlobalNames(config)
currentOffset = 0
strings = []
for (name, _) in globalNames:
strings.append('/* %i */ "%s\\0"' % (currentOffset, name))
currentOffset += len(name) + 1 # Add trailing null.
define = fill("""
const uint32_t WebIDLGlobalNameHash::sCount = ${count};
const char WebIDLGlobalNameHash::sNames[] =
$*{strings}
""",
count=len(globalNames),
strings="\n".join(strings) + ";\n")
CGGeneric.__init__(self, define=define)
class CGRegisterGlobalNames(CGAbstractMethod):
def __init__(self, config):
CGAbstractMethod.__init__(self, None, 'RegisterWebIDLGlobalNames',
'void', [])
self.config = config
def definition_body(self):
def getCheck(desc):
if not desc.isExposedConditionally():
return "nullptr"
return "%sBinding::ConstructorEnabled" % desc.name
define = ""
currentOffset = 0
for (name, desc) in getGlobalNames(self.config):
length = len(name)
define += "WebIDLGlobalNameHash::Register(%i, %i, %sBinding::DefineDOMInterface, %s);\n" % (currentOffset, length, desc.name, getCheck(desc))
currentOffset += length + 1 # Add trailing null.
return define
def dependencySortObjects(objects, dependencyGetter, nameGetter):
"""
Sort IDL objects with dependencies on each other such that if A
depends on B then B will come before A. This is needed for
declaring C++ classes in the right order, for example. Objects
that have no dependencies are just sorted by name.
objects should be something that can produce a set of objects
(e.g. a set, iterator, list, etc).
dependencyGetter is something that, given an object, should return
the set of objects it depends on.
"""
# XXXbz this will fail if we have two webidl files F1 and F2 such that F1
# declares an object which depends on an object in F2, and F2 declares an
# object (possibly a different one!) that depends on an object in F1. The
# good news is that I expect this to never happen.
sortedObjects = []
objects = set(objects)
while len(objects) != 0:
# Find the dictionaries that don't depend on anything else
# anymore and move them over.
toMove = [o for o in objects if
len(dependencyGetter(o) & objects) == 0]
if len(toMove) == 0:
raise TypeError("Loop in dependency graph\n" +
"\n".join(o.location for o in objects))
objects = objects - set(toMove)
sortedObjects.extend(sorted(toMove, key=nameGetter))
return sortedObjects
class ForwardDeclarationBuilder:
"""
Create a canonical representation of a set of namespaced forward
declarations.
"""
def __init__(self):
"""
The set of declarations is represented as a tree of nested namespaces.
Each tree node has a set of declarations |decls| and a dict |children|.
Each declaration is a pair consisting of the class name and a boolean
that is true iff the class is really a struct. |children| maps the
names of inner namespaces to the declarations in that namespace.
"""
self.decls = set()
self.children = {}
def _ensureNonTemplateType(self, type):
if "<" in type:
# This is a templated type. We don't really know how to
# forward-declare those, and trying to do it naively is not going to
# go well (e.g. we may have :: characters inside the type we're
# templated on!). Just bail out.
raise TypeError("Attempt to use ForwardDeclarationBuilder on "
"templated type %s. We don't know how to do that "
"yet." % type)
def _listAdd(self, namespaces, name, isStruct=False):
"""
Add a forward declaration, where |namespaces| is a list of namespaces.
|name| should not contain any other namespaces.
"""
if namespaces:
child = self.children.setdefault(namespaces[0], ForwardDeclarationBuilder())
child._listAdd(namespaces[1:], name, isStruct)
else:
assert '::' not in name
self.decls.add((name, isStruct))
def addInMozillaDom(self, name, isStruct=False):
"""
Add a forward declaration to the mozilla::dom:: namespace. |name| should not
contain any other namespaces.
"""
self._ensureNonTemplateType(name);
self._listAdd(["mozilla", "dom"], name, isStruct)
def add(self, nativeType, isStruct=False):
"""
Add a forward declaration, where |nativeType| is a string containing
the type and its namespaces, in the usual C++ way.
"""
self._ensureNonTemplateType(nativeType);
components = nativeType.split('::')
self._listAdd(components[:-1], components[-1], isStruct)
def _build(self, atTopLevel):
"""
Return a codegenerator for the forward declarations.
"""
decls = []
if self.decls:
decls.append(CGList([CGClassForwardDeclare(cname, isStruct)
for cname, isStruct in sorted(self.decls)]))
for namespace, child in sorted(self.children.iteritems()):
decls.append(CGNamespace(namespace, child._build(atTopLevel=False), declareOnly=True))
cg = CGList(decls, "\n")
if not atTopLevel and len(decls) + len(self.decls) > 1:
cg = CGWrapper(cg, pre='\n', post='\n')
return cg
def build(self):
return self._build(atTopLevel=True)
def forwardDeclareForType(self, t, config):
t = t.unroll()
if t.isGeckoInterface():
name = t.inner.identifier.name
try:
desc = config.getDescriptor(name)
self.add(desc.nativeType)
except NoSuchDescriptorError:
pass
# Note: Spidermonkey interfaces are typedefs, so can't be
# forward-declared
elif t.isCallback():
self.addInMozillaDom(t.callback.identifier.name)
elif t.isDictionary():
self.addInMozillaDom(t.inner.identifier.name, isStruct=True)
elif t.isCallbackInterface():
self.addInMozillaDom(t.inner.identifier.name)
elif t.isUnion():
# Forward declare both the owning and non-owning version,
# since we don't know which one we might want
self.addInMozillaDom(CGUnionStruct.unionTypeName(t, False))
self.addInMozillaDom(CGUnionStruct.unionTypeName(t, True))
elif t.isMozMap():
self.forwardDeclareForType(t.inner, config)
# Don't need to do anything for void, primitive, string, any or object.
# There may be some other cases we are missing.
class CGForwardDeclarations(CGWrapper):
"""
Code generate the forward declarations for a header file.
additionalDeclarations is a list of tuples containing a classname and a
boolean. If the boolean is true we will declare a struct, otherwise we'll
declare a class.
"""
def __init__(self, config, descriptors, callbacks,
dictionaries, callbackInterfaces, additionalDeclarations=[]):
builder = ForwardDeclarationBuilder()
# Needed for at least Wrap.
for d in descriptors:
# If this is a generated iterator interface, we only create these
# in the generated bindings, and don't need to forward declare.
if d.interface.isIteratorInterface():
continue
builder.add(d.nativeType)
# If we're an interface and we have a maplike/setlike declaration,
# we'll have helper functions exposed to the native side of our
# bindings, which will need to show up in the header. If either of
# our key/value types are interfaces, they'll be passed as
# arguments to helper functions, and they'll need to be forward
# declared in the header.
if d.interface.maplikeOrSetlikeOrIterable:
if d.interface.maplikeOrSetlikeOrIterable.hasKeyType():
builder.forwardDeclareForType(d.interface.maplikeOrSetlikeOrIterable.keyType,
config)
if d.interface.maplikeOrSetlikeOrIterable.hasValueType():
builder.forwardDeclareForType(d.interface.maplikeOrSetlikeOrIterable.valueType,
config)
# We just about always need NativePropertyHooks
builder.addInMozillaDom("NativePropertyHooks", isStruct=True)
builder.addInMozillaDom("ProtoAndIfaceCache")
# Add the atoms cache type, even if we don't need it.
for d in descriptors:
# Iterators have native types that are template classes, so
# creating an 'Atoms' cache type doesn't work for them, and is one
# of the cases where we don't need it anyways.
if d.interface.isIteratorInterface():
continue
builder.add(d.nativeType + "Atoms", isStruct=True)
for callback in callbacks:
builder.addInMozillaDom(callback.identifier.name)
for t in getTypesFromCallback(callback):
builder.forwardDeclareForType(t, config)
for d in callbackInterfaces:
builder.add(d.nativeType)
builder.add(d.nativeType + "Atoms", isStruct=True)
for t in getTypesFromDescriptor(d):
builder.forwardDeclareForType(t, config)
for d in dictionaries:
if len(d.members) > 0:
builder.addInMozillaDom(d.identifier.name + "Atoms", isStruct=True)
for t in getTypesFromDictionary(d):
builder.forwardDeclareForType(t, config)
for className, isStruct in additionalDeclarations:
builder.add(className, isStruct=isStruct)
CGWrapper.__init__(self, builder.build())
class CGBindingRoot(CGThing):
"""
Root codegen class for binding generation. Instantiate the class, and call
declare or define to generate header or cpp code (respectively).
"""
def __init__(self, config, prefix, webIDLFile):
bindingHeaders = dict.fromkeys((
'mozilla/dom/NonRefcountedDOMObject.h',
),
True)
bindingDeclareHeaders = dict.fromkeys((
'mozilla/dom/BindingDeclarations.h',
'mozilla/dom/Nullable.h',
'mozilla/ErrorResult.h',
),
True)
descriptors = config.getDescriptors(webIDLFile=webIDLFile,
hasInterfaceOrInterfacePrototypeObject=True)
unionTypes = UnionsForFile(config, webIDLFile)
(unionHeaders, unionImplheaders, unionDeclarations, traverseMethods,
unlinkMethods, unionStructs) = UnionTypes(unionTypes, config)
bindingDeclareHeaders.update(dict.fromkeys(unionHeaders, True))
bindingHeaders.update(dict.fromkeys(unionImplheaders, True))
bindingDeclareHeaders["mozilla/dom/UnionMember.h"] = len(unionStructs) > 0
bindingDeclareHeaders["mozilla/dom/BindingUtils.h"] = len(unionStructs) > 0
bindingDeclareHeaders["mozilla/dom/IterableIterator.h"] = any(d.interface.isIteratorInterface() or
d.interface.isIterable() for d in descriptors)
def descriptorHasCrossOriginProperties(desc):
def hasCrossOriginProperty(m):
props = memberProperties(m, desc)
return (props.isCrossOriginMethod or
props.isCrossOriginGetter or
props.isCrossOriginSetter)
return any(hasCrossOriginProperty(m) for m in desc.interface.members)
bindingDeclareHeaders["jsapi.h"] = any(descriptorHasCrossOriginProperties(d) for d in descriptors)
bindingDeclareHeaders["jspubtd.h"] = not bindingDeclareHeaders["jsapi.h"]
bindingDeclareHeaders["js/RootingAPI.h"] = not bindingDeclareHeaders["jsapi.h"]
def descriptorRequiresPreferences(desc):
iface = desc.interface
return any(m.getExtendedAttribute("Pref") for m in iface.members + [iface])
def descriptorDeprecated(desc):
iface = desc.interface
return any(m.getExtendedAttribute("Deprecated") for m in iface.members + [iface])
bindingHeaders["nsIDocument.h"] = any(
descriptorDeprecated(d) for d in descriptors)
bindingHeaders["mozilla/Preferences.h"] = any(
descriptorRequiresPreferences(d) for d in descriptors)
bindingHeaders["mozilla/dom/DOMJSProxyHandler.h"] = any(
d.concrete and d.proxy for d in descriptors)
def descriptorHasChromeOnly(desc):
ctor = desc.interface.ctor()
return (any(isChromeOnly(a) for a in desc.interface.members) or
desc.interface.getExtendedAttribute("ChromeOnly") is not None or
# JS-implemented interfaces with an interface object get a
# chromeonly _create method. And interfaces with an
# interface object might have a ChromeOnly constructor.
(desc.interface.hasInterfaceObject() and
(desc.interface.isJSImplemented() or
(ctor and isChromeOnly(ctor)))) or
# JS-implemented interfaces with clearable cached
# attrs have chromeonly _clearFoo methods.
(desc.interface.isJSImplemented() and
any(clearableCachedAttrs(desc))))
# XXXkhuey ugly hack but this is going away soon.
bindingHeaders['xpcprivate.h'] = webIDLFile.endswith("EventTarget.webidl")
hasThreadChecks = any(d.hasThreadChecks() for d in descriptors)
bindingHeaders["nsThreadUtils.h"] = hasThreadChecks
dictionaries = config.getDictionaries(webIDLFile)
def dictionaryHasChromeOnly(dictionary):
while dictionary:
if (any(isChromeOnly(m) for m in dictionary.members)):
return True
dictionary = dictionary.parent
return False
bindingHeaders["nsContentUtils.h"] = (
any(descriptorHasChromeOnly(d) for d in descriptors) or
any(dictionaryHasChromeOnly(d) for d in dictionaries))
hasNonEmptyDictionaries = any(
len(dict.members) > 0 for dict in dictionaries)
callbacks = config.getCallbacks(webIDLFile)
callbackDescriptors = config.getDescriptors(webIDLFile=webIDLFile,
isCallback=True)
jsImplemented = config.getDescriptors(webIDLFile=webIDLFile,
isJSImplemented=True)
bindingDeclareHeaders["nsWeakReference.h"] = jsImplemented
bindingHeaders["nsIGlobalObject.h"] = jsImplemented
bindingHeaders["AtomList.h"] = hasNonEmptyDictionaries or jsImplemented or callbackDescriptors
def descriptorClearsPropsInSlots(descriptor):
if not descriptor.wrapperCache:
return False
return any(m.isAttr() and m.getExtendedAttribute("StoreInSlot")
for m in descriptor.interface.members)
bindingHeaders["nsJSUtils.h"] = any(descriptorClearsPropsInSlots(d) for d in descriptors)
# Do codegen for all the enums
enums = config.getEnums(webIDLFile)
cgthings = [CGEnum(e) for e in enums]
hasCode = (descriptors or callbackDescriptors or dictionaries or
callbacks)
bindingHeaders["mozilla/dom/BindingUtils.h"] = hasCode
bindingHeaders["mozilla/OwningNonNull.h"] = hasCode
bindingHeaders["mozilla/dom/BindingDeclarations.h"] = (
not hasCode and enums)
bindingHeaders["WrapperFactory.h"] = descriptors
bindingHeaders["mozilla/dom/DOMJSClass.h"] = descriptors
bindingHeaders["mozilla/dom/ScriptSettings.h"] = dictionaries # AutoJSAPI
# Ensure we see our enums in the generated .cpp file, for the ToJSValue
# method body. Also ensure that we see jsapi.h.
if enums:
bindingHeaders[CGHeaders.getDeclarationFilename(enums[0])] = True
bindingHeaders["jsapi.h"] = True
# For things that have [UseCounter]
def descriptorRequiresTelemetry(desc):
iface = desc.interface
return any(m.getExtendedAttribute("UseCounter") for m in iface.members)
bindingHeaders["mozilla/UseCounter.h"] = any(
descriptorRequiresTelemetry(d) for d in descriptors)
bindingHeaders["mozilla/dom/SimpleGlobalObject.h"] = any(
CGDictionary.dictionarySafeToJSONify(d) for d in dictionaries)
cgthings.extend(traverseMethods)
cgthings.extend(unlinkMethods)
# Do codegen for all the dictionaries. We have to be a bit careful
# here, because we have to generate these in order from least derived
# to most derived so that class inheritance works out. We also have to
# generate members before the dictionary that contains them.
def getDependenciesFromType(type):
if type.isDictionary():
return set([type.unroll().inner])
if type.isSequence() or type.isArray():
return getDependenciesFromType(type.unroll())
if type.isUnion():
return set([type.unroll()])
return set()
def getDependencies(unionTypeOrDictionary):
if isinstance(unionTypeOrDictionary, IDLDictionary):
deps = set()
if unionTypeOrDictionary.parent:
deps.add(unionTypeOrDictionary.parent)
for member in unionTypeOrDictionary.members:
deps |= getDependenciesFromType(member.type)
return deps
assert unionTypeOrDictionary.isType() and unionTypeOrDictionary.isUnion()
deps = set()
for member in unionTypeOrDictionary.flatMemberTypes:
deps |= getDependenciesFromType(member)
return deps
def getName(unionTypeOrDictionary):
if isinstance(unionTypeOrDictionary, IDLDictionary):
return unionTypeOrDictionary.identifier.name
assert unionTypeOrDictionary.isType() and unionTypeOrDictionary.isUnion()
return unionTypeOrDictionary.name
for t in dependencySortObjects(dictionaries + unionStructs, getDependencies, getName):
if t.isDictionary():
cgthings.append(CGDictionary(t, config))
else:
assert t.isUnion()
cgthings.append(CGUnionStruct(t, config))
cgthings.append(CGUnionStruct(t, config, True))
# Do codegen for all the callbacks.
cgthings.extend(CGCallbackFunction(c, config) for c in callbacks)
cgthings.extend([CGNamespace('binding_detail', CGFastCallback(c))
for c in callbacks])
# Do codegen for all the descriptors
cgthings.extend([CGDescriptor(x) for x in descriptors])
# Do codegen for all the callback interfaces.
cgthings.extend([CGCallbackInterface(x) for x in callbackDescriptors])
cgthings.extend([CGNamespace('binding_detail',
CGFastCallback(x.interface))
for x in callbackDescriptors])
# Do codegen for JS implemented classes
def getParentDescriptor(desc):
if not desc.interface.parent:
return set()
return {desc.getDescriptor(desc.interface.parent.identifier.name)}
for x in dependencySortObjects(jsImplemented, getParentDescriptor,
lambda d: d.interface.identifier.name):
cgthings.append(CGCallbackInterface(x, typedArraysAreStructs=True))
cgthings.append(CGJSImplClass(x))
# And make sure we have the right number of newlines at the end
curr = CGWrapper(CGList(cgthings, "\n\n"), post="\n\n")
# Wrap all of that in our namespaces.
curr = CGNamespace.build(['mozilla', 'dom'],
CGWrapper(curr, pre="\n"))
curr = CGList([CGForwardDeclarations(config, descriptors,
callbacks,
dictionaries,
callbackDescriptors + jsImplemented,
additionalDeclarations=unionDeclarations),
curr],
"\n")
# Add header includes.
bindingHeaders = [header
for header, include in bindingHeaders.iteritems()
if include]
bindingDeclareHeaders = [header
for header, include in bindingDeclareHeaders.iteritems()
if include]
curr = CGHeaders(descriptors,
dictionaries,
callbacks,
callbackDescriptors,
bindingDeclareHeaders,
bindingHeaders,
prefix,
curr,
config,
jsImplemented)
# Add include guards.
curr = CGIncludeGuard(prefix, curr)
# Add the auto-generated comment.
curr = CGWrapper(
curr,
pre=(AUTOGENERATED_WITH_SOURCE_WARNING_COMMENT %
os.path.basename(webIDLFile)))
# Store the final result.
self.root = curr
def declare(self):
return stripTrailingWhitespace(self.root.declare())
def define(self):
return stripTrailingWhitespace(self.root.define())
def deps(self):
return self.root.deps()
class CGNativeMember(ClassMethod):
def __init__(self, descriptorProvider, member, name, signature, extendedAttrs,
breakAfter=True, passJSBitsAsNeeded=True, visibility="public",
typedArraysAreStructs=True, variadicIsSequence=False,
resultNotAddRefed=False,
virtual=False,
override=False):
"""
If typedArraysAreStructs is false, typed arrays will be passed as
JS::Handle<JSObject*>. If it's true they will be passed as one of the
dom::TypedArray subclasses.
If passJSBitsAsNeeded is false, we don't automatically pass in a
JSContext* or a JSObject* based on the return and argument types. We
can still pass it based on 'implicitJSContext' annotations.
"""
self.descriptorProvider = descriptorProvider
self.member = member
self.extendedAttrs = extendedAttrs
self.resultAlreadyAddRefed = not resultNotAddRefed
self.passJSBitsAsNeeded = passJSBitsAsNeeded
self.typedArraysAreStructs = typedArraysAreStructs
self.variadicIsSequence = variadicIsSequence
breakAfterSelf = "\n" if breakAfter else ""
ClassMethod.__init__(self, name,
self.getReturnType(signature[0], False),
self.getArgs(signature[0], signature[1]),
static=member.isStatic(),
# Mark our getters, which are attrs that
# have a non-void return type, as const.
const=(not member.isStatic() and member.isAttr() and
not signature[0].isVoid()),
breakAfterReturnDecl=" ",
breakAfterSelf=breakAfterSelf,
visibility=visibility,
virtual=virtual,
override=override)
def getReturnType(self, type, isMember):
return self.getRetvalInfo(type, isMember)[0]
def getRetvalInfo(self, type, isMember):
"""
Returns a tuple:
The first element is the type declaration for the retval
The second element is a default value that can be used on error returns.
For cases whose behavior depends on isMember, the second element will be
None if isMember is true.
The third element is a template for actually returning a value stored in
"${declName}" and "${holderName}". This means actually returning it if
we're not outparam, else assigning to the "retval" outparam. If
isMember is true, this can be None, since in that case the caller will
never examine this value.
"""
if type.isVoid():
return "void", "", ""
if type.isPrimitive() and type.tag() in builtinNames:
result = CGGeneric(builtinNames[type.tag()])
defaultReturnArg = "0"
if type.nullable():
result = CGTemplatedType("Nullable", result)
defaultReturnArg = ""
return (result.define(),
"%s(%s)" % (result.define(), defaultReturnArg),
"return ${declName};\n")
if type.isDOMString() or type.isUSVString():
if isMember:
# No need for a third element in the isMember case
return "nsString", None, None
# Outparam
return "void", "", "aRetVal = ${declName};\n"
if type.isByteString():
if isMember:
# No need for a third element in the isMember case
return "nsCString", None, None
# Outparam
return "void", "", "aRetVal = ${declName};\n"
if type.isEnum():
enumName = type.unroll().inner.identifier.name
if type.nullable():
enumName = CGTemplatedType("Nullable",
CGGeneric(enumName)).define()
defaultValue = "%s()" % enumName
else:
defaultValue = "%s(0)" % enumName
return enumName, defaultValue, "return ${declName};\n"
if type.isGeckoInterface():
iface = type.unroll().inner
result = CGGeneric(self.descriptorProvider.getDescriptor(
iface.identifier.name).prettyNativeType)
if self.resultAlreadyAddRefed:
if isMember:
holder = "RefPtr"
else:
holder = "already_AddRefed"
if memberReturnsNewObject(self.member) or isMember:
warning = ""
else:
warning = "// Return a raw pointer here to avoid refcounting, but make sure it's safe (the object should be kept alive by the callee).\n"
result = CGWrapper(result,
pre=("%s%s<" % (warning, holder)),
post=">")
else:
result = CGWrapper(result, post="*")
# Since we always force an owning type for callback return values,
# our ${declName} is an OwningNonNull or RefPtr. So we can just
# .forget() to get our already_AddRefed.
return result.define(), "nullptr", "return ${declName}.forget();\n"
if type.isCallback():
return ("already_AddRefed<%s>" % type.unroll().callback.identifier.name,
"nullptr", "return ${declName}.forget();\n")
if type.isAny():
if isMember:
# No need for a third element in the isMember case
return "JS::Value", None, None
# Outparam
return "void", "", "aRetVal.set(${declName});\n"
if type.isObject():
if isMember:
# No need for a third element in the isMember case
return "JSObject*", None, None
return "void", "", "aRetVal.set(${declName});\n"
if type.isSpiderMonkeyInterface():
if isMember:
# No need for a third element in the isMember case
return "JSObject*", None, None
if type.nullable():
returnCode = "${declName}.IsNull() ? nullptr : ${declName}.Value().Obj()"
else:
returnCode = "${declName}.Obj()"
return "void", "", "aRetVal.set(%s);\n" % returnCode
if type.isSequence():
# If we want to handle sequence-of-sequences return values, we're
# going to need to fix example codegen to not produce nsTArray<void>
# for the relevant argument...
assert not isMember
# Outparam.
if type.nullable():
returnCode = dedent("""
if (${declName}.IsNull()) {
aRetVal.SetNull();
} else {
aRetVal.SetValue().SwapElements(${declName}.Value());
}
""")
else:
returnCode = "aRetVal.SwapElements(${declName});\n"
return "void", "", returnCode
if type.isMozMap():
# If we want to handle MozMap-of-MozMap return values, we're
# going to need to fix example codegen to not produce MozMap<void>
# for the relevant argument...
assert not isMember
# In this case we convert directly into our outparam to start with
return "void", "", ""
if type.isDate():
result = CGGeneric("Date")
if type.nullable():
result = CGTemplatedType("Nullable", result)
return (result.define(), "%s()" % result.define(),
"return ${declName};\n")
if type.isDictionary():
if isMember:
# Only the first member of the tuple matters here, but return
# bogus values for the others in case someone decides to use
# them.
return CGDictionary.makeDictionaryName(type.inner), None, None
# In this case we convert directly into our outparam to start with
return "void", "", ""
if type.isUnion():
if isMember:
# Only the first member of the tuple matters here, but return
# bogus values for the others in case someone decides to use
# them.
return CGUnionStruct.unionTypeDecl(type, True), None, None
# In this case we convert directly into our outparam to start with
return "void", "", ""
raise TypeError("Don't know how to declare return value for %s" %
type)
def getArgs(self, returnType, argList):
args = [self.getArg(arg) for arg in argList]
# Now the outparams
if returnType.isDOMString() or returnType.isUSVString():
args.append(Argument("nsString&", "aRetVal"))
elif returnType.isByteString():
args.append(Argument("nsCString&", "aRetVal"))
elif returnType.isSequence():
nullable = returnType.nullable()
if nullable:
returnType = returnType.inner
# And now the actual underlying type
elementDecl = self.getReturnType(returnType.inner, True)
type = CGTemplatedType("nsTArray", CGGeneric(elementDecl))
if nullable:
type = CGTemplatedType("Nullable", type)
args.append(Argument("%s&" % type.define(), "aRetVal"))
elif returnType.isMozMap():
nullable = returnType.nullable()
if nullable:
returnType = returnType.inner
# And now the actual underlying type
elementDecl = self.getReturnType(returnType.inner, True)
type = CGTemplatedType("MozMap", CGGeneric(elementDecl))
if nullable:
type = CGTemplatedType("Nullable", type)
args.append(Argument("%s&" % type.define(), "aRetVal"))
elif returnType.isDictionary():
nullable = returnType.nullable()
if nullable:
returnType = returnType.inner
dictType = CGGeneric(CGDictionary.makeDictionaryName(returnType.inner))
if nullable:
dictType = CGTemplatedType("Nullable", dictType)
args.append(Argument("%s&" % dictType.define(), "aRetVal"))
elif returnType.isUnion():
args.append(Argument("%s&" %
CGUnionStruct.unionTypeDecl(returnType, True),
"aRetVal"))
elif returnType.isAny():
args.append(Argument("JS::MutableHandle<JS::Value>", "aRetVal"))
elif returnType.isObject() or returnType.isSpiderMonkeyInterface():
args.append(Argument("JS::MutableHandle<JSObject*>", "aRetVal"))
# And the ErrorResult
if 'infallible' not in self.extendedAttrs:
# Use aRv so it won't conflict with local vars named "rv"
args.append(Argument("ErrorResult&", "aRv"))
# The legacycaller thisval
if self.member.isMethod() and self.member.isLegacycaller():
# If it has an identifier, we can't deal with it yet
assert self.member.isIdentifierLess()
args.insert(0, Argument("JS::Value", "aThisVal"))
# And jscontext bits.
if needCx(returnType, argList, self.extendedAttrs,
self.passJSBitsAsNeeded, self.member.isStatic()):
args.insert(0, Argument("JSContext*", "cx"))
if needScopeObject(returnType, argList, self.extendedAttrs,
self.descriptorProvider.wrapperCache,
self.passJSBitsAsNeeded,
self.member.getExtendedAttribute("StoreInSlot")):
args.insert(1, Argument("JS::Handle<JSObject*>", "obj"))
# And if we're static, a global
if self.member.isStatic():
args.insert(0, Argument("const GlobalObject&", "global"))
return args
def doGetArgType(self, type, optional, isMember):
"""
The main work of getArgType. Returns a string type decl, whether this
is a const ref, as well as whether the type should be wrapped in
Nullable as needed.
isMember can be false or one of the strings "Sequence", "Variadic",
"MozMap"
"""
if type.isArray():
raise TypeError("Can't handle array arguments yet")
if type.isSequence():
nullable = type.nullable()
if nullable:
type = type.inner
elementType = type.inner
argType = self.getArgType(elementType, False, "Sequence")[0]
decl = CGTemplatedType("Sequence", argType)
return decl.define(), True, True
if type.isMozMap():
nullable = type.nullable()
if nullable:
type = type.inner
elementType = type.inner
argType = self.getArgType(elementType, False, "MozMap")[0]
decl = CGTemplatedType("MozMap", argType)
return decl.define(), True, True
if type.isUnion():
# unionTypeDecl will handle nullable types, so return False for
# auto-wrapping in Nullable
return CGUnionStruct.unionTypeDecl(type, isMember), True, False
if type.isGeckoInterface() and not type.isCallbackInterface():
iface = type.unroll().inner
argIsPointer = type.nullable() or iface.isExternal()
forceOwningType = (iface.isCallback() or isMember or
iface.identifier.name == "Promise")
if argIsPointer:
if (optional or isMember) and forceOwningType:
typeDecl = "RefPtr<%s>"
else:
typeDecl = "%s*"
else:
if optional or isMember:
if forceOwningType:
typeDecl = "OwningNonNull<%s>"
else:
typeDecl = "NonNull<%s>"
else:
typeDecl = "%s&"
return ((typeDecl %
self.descriptorProvider.getDescriptor(iface.identifier.name).prettyNativeType),
False, False)
if type.isSpiderMonkeyInterface():
if not self.typedArraysAreStructs:
return "JS::Handle<JSObject*>", False, False
# Unroll for the name, in case we're nullable.
return type.unroll().name, True, True
if type.isDOMString() or type.isUSVString():
if isMember:
declType = "nsString"
else:
declType = "nsAString"
return declType, True, False
if type.isByteString():
declType = "nsCString"
return declType, True, False
if type.isEnum():
return type.unroll().inner.identifier.name, False, True
if type.isCallback() or type.isCallbackInterface():
forceOwningType = optional or isMember
if type.nullable():
if forceOwningType:
declType = "RefPtr<%s>"
else:
declType = "%s*"
else:
if forceOwningType:
declType = "OwningNonNull<%s>"
else:
declType = "%s&"
if type.isCallback():
name = type.unroll().callback.identifier.name
else:
name = type.unroll().inner.identifier.name
return declType % name, False, False
if type.isAny():
# Don't do the rooting stuff for variadics for now
if isMember:
declType = "JS::Value"
else:
declType = "JS::Handle<JS::Value>"
return declType, False, False
if type.isObject():
if isMember:
declType = "JSObject*"
else:
declType = "JS::Handle<JSObject*>"
return declType, False, False
if type.isDictionary():
typeName = CGDictionary.makeDictionaryName(type.inner)
return typeName, True, True
if type.isDate():
return "Date", False, True
assert type.isPrimitive()
return builtinNames[type.tag()], False, True
def getArgType(self, type, optional, isMember):
"""
Get the type of an argument declaration. Returns the type CGThing, and
whether this should be a const ref.
isMember can be False, "Sequence", or "Variadic"
"""
decl, ref, handleNullable = self.doGetArgType(type, optional, isMember)
decl = CGGeneric(decl)
if handleNullable and type.nullable():
decl = CGTemplatedType("Nullable", decl)
ref = True
if isMember == "Variadic":
arrayType = "Sequence" if self.variadicIsSequence else "nsTArray"
decl = CGTemplatedType(arrayType, decl)
ref = True
elif optional:
# Note: All variadic args claim to be optional, but we can just use
# empty arrays to represent them not being present.
decl = CGTemplatedType("Optional", decl)
ref = True
return (decl, ref)
def getArg(self, arg):
"""
Get the full argument declaration for an argument
"""
decl, ref = self.getArgType(arg.type, arg.canHaveMissingValue(),
"Variadic" if arg.variadic else False)
if ref:
decl = CGWrapper(decl, pre="const ", post="&")
return Argument(decl.define(), arg.identifier.name)
def arguments(self):
return self.member.signatures()[0][1]
class CGExampleMethod(CGNativeMember):
def __init__(self, descriptor, method, signature, isConstructor, breakAfter=True):
CGNativeMember.__init__(self, descriptor, method,
CGSpecializedMethod.makeNativeName(descriptor,
method),
signature,
descriptor.getExtendedAttributes(method),
breakAfter=breakAfter,
variadicIsSequence=True)
def declare(self, cgClass):
assert self.member.isMethod()
# We skip declaring ourselves if this is a maplike/setlike/iterable
# method, because those get implemented automatically by the binding
# machinery, so the implementor of the interface doesn't have to worry
# about it.
if self.member.isMaplikeOrSetlikeOrIterableMethod():
return ''
return CGNativeMember.declare(self, cgClass);
def define(self, cgClass):
return ''
class CGExampleGetter(CGNativeMember):
def __init__(self, descriptor, attr):
CGNativeMember.__init__(self, descriptor, attr,
CGSpecializedGetter.makeNativeName(descriptor,
attr),
(attr.type, []),
descriptor.getExtendedAttributes(attr,
getter=True))
def declare(self, cgClass):
assert self.member.isAttr()
# We skip declaring ourselves if this is a maplike/setlike attr (in
# practice, "size"), because those get implemented automatically by the
# binding machinery, so the implementor of the interface doesn't have to
# worry about it.
if self.member.isMaplikeOrSetlikeAttr():
return ''
return CGNativeMember.declare(self, cgClass);
def define(self, cgClass):
return ''
class CGExampleSetter(CGNativeMember):
def __init__(self, descriptor, attr):
CGNativeMember.__init__(self, descriptor, attr,
CGSpecializedSetter.makeNativeName(descriptor,
attr),
(BuiltinTypes[IDLBuiltinType.Types.void],
[FakeArgument(attr.type, attr)]),
descriptor.getExtendedAttributes(attr,
setter=True))
def define(self, cgClass):
return ''
class CGBindingImplClass(CGClass):
"""
Common codegen for generating a C++ implementation of a WebIDL interface
"""
def __init__(self, descriptor, cgMethod, cgGetter, cgSetter, wantGetParent=True, wrapMethodName="WrapObject", skipStaticMethods=False):
"""
cgMethod, cgGetter and cgSetter are classes used to codegen methods,
getters and setters.
"""
self.descriptor = descriptor
self._deps = descriptor.interface.getDeps()
iface = descriptor.interface
self.methodDecls = []
def appendMethod(m, isConstructor=False):
sigs = m.signatures()
for s in sigs[:-1]:
# Don't put a blank line after overloads, until we
# get to the last one.
self.methodDecls.append(cgMethod(descriptor, m, s,
isConstructor,
breakAfter=False))
self.methodDecls.append(cgMethod(descriptor, m, sigs[-1],
isConstructor))
if iface.ctor():
appendMethod(iface.ctor(), isConstructor=True)
for n in iface.namedConstructors:
appendMethod(n, isConstructor=True)
for m in iface.members:
if m.isMethod():
if m.isIdentifierLess():
continue
if not m.isStatic() or not skipStaticMethods:
appendMethod(m)
elif m.isAttr():
self.methodDecls.append(cgGetter(descriptor, m))
if not m.readonly:
self.methodDecls.append(cgSetter(descriptor, m))
# Now do the special operations
def appendSpecialOperation(name, op):
if op is None:
return
if name == "IndexedCreator" or name == "NamedCreator":
# These are identical to the setters
return
assert len(op.signatures()) == 1
returnType, args = op.signatures()[0]
# Make a copy of the args, since we plan to modify them.
args = list(args)
if op.isGetter() or op.isDeleter():
# This is a total hack. The '&' belongs with the
# type, not the name! But it works, and is simpler
# than trying to somehow make this pretty.
args.append(FakeArgument(BuiltinTypes[IDLBuiltinType.Types.boolean],
op, name="&found"))
if name == "Stringifier":
if op.isIdentifierLess():
# XXXbz I wish we were consistent about our renaming here.
name = "Stringify"
else:
# We already added this method
return
if name == "LegacyCaller":
if op.isIdentifierLess():
# XXXbz I wish we were consistent about our renaming here.
name = "LegacyCall"
else:
# We already added this method
return
if name == "Jsonifier":
# We already added this method
return
self.methodDecls.append(
CGNativeMember(descriptor, op,
name,
(returnType, args),
descriptor.getExtendedAttributes(op)))
# Sort things by name so we get stable ordering in the output.
ops = descriptor.operations.items()
ops.sort(key=lambda x: x[0])
for name, op in ops:
appendSpecialOperation(name, op)
# If we support indexed properties, then we need a Length()
# method so we know which indices are supported.
if descriptor.supportsIndexedProperties():
# But we don't need it if we already have an infallible
# "length" attribute, which we often do.
haveLengthAttr = any(
m for m in iface.members if m.isAttr() and
CGSpecializedGetter.makeNativeName(descriptor, m) == "Length")
if not haveLengthAttr:
self.methodDecls.append(
CGNativeMember(descriptor, FakeMember(),
"Length",
(BuiltinTypes[IDLBuiltinType.Types.unsigned_long],
[]),
{"infallible": True}))
# And if we support named properties we need to be able to
# enumerate the supported names.
if descriptor.supportsNamedProperties():
self.methodDecls.append(
CGNativeMember(
descriptor, FakeMember(),
"GetSupportedNames",
(IDLSequenceType(None,
BuiltinTypes[IDLBuiltinType.Types.domstring]),
[]),
{"infallible": True}))
wrapArgs = [Argument('JSContext*', 'aCx'),
Argument('JS::Handle<JSObject*>', 'aGivenProto')]
if not descriptor.wrapperCache:
wrapReturnType = "bool"
wrapArgs.append(Argument('JS::MutableHandle<JSObject*>',
'aReflector'))
else:
wrapReturnType = "JSObject*"
self.methodDecls.insert(0,
ClassMethod(wrapMethodName, wrapReturnType,
wrapArgs, virtual=descriptor.wrapperCache,
breakAfterReturnDecl=" ",
override=descriptor.wrapperCache,
body=self.getWrapObjectBody()))
if wantGetParent:
self.methodDecls.insert(0,
ClassMethod("GetParentObject",
self.getGetParentObjectReturnType(),
[], const=True,
breakAfterReturnDecl=" ",
body=self.getGetParentObjectBody()))
# Invoke CGClass.__init__ in any subclasses afterwards to do the actual codegen.
def getWrapObjectBody(self):
return None
def getGetParentObjectReturnType(self):
return ("// TODO: return something sensible here, and change the return type\n"
"%s*" % self.descriptor.nativeType.split('::')[-1])
def getGetParentObjectBody(self):
return None
def deps(self):
return self._deps
class CGExampleClass(CGBindingImplClass):
"""
Codegen for the actual example class implementation for this descriptor
"""
def __init__(self, descriptor):
CGBindingImplClass.__init__(self, descriptor,
CGExampleMethod, CGExampleGetter, CGExampleSetter,
wantGetParent=descriptor.wrapperCache)
self.parentIface = descriptor.interface.parent
if self.parentIface:
self.parentDesc = descriptor.getDescriptor(
self.parentIface.identifier.name)
bases = [ClassBase(self.nativeLeafName(self.parentDesc))]
else:
bases = [ClassBase("nsISupports /* or NonRefcountedDOMObject if this is a non-refcounted object */")]
if descriptor.wrapperCache:
bases.append(ClassBase("nsWrapperCache /* Change wrapperCache in the binding configuration if you don't want this */"))
destructorVisibility = "protected"
if self.parentIface:
extradeclarations = (
"public:\n"
" NS_DECL_ISUPPORTS_INHERITED\n"
" NS_DECL_CYCLE_COLLECTION_SCRIPT_HOLDER_CLASS_INHERITED(%s, %s)\n"
"\n" % (self.nativeLeafName(descriptor),
self.nativeLeafName(self.parentDesc)))
else:
extradeclarations = (
"public:\n"
" NS_DECL_CYCLE_COLLECTING_ISUPPORTS\n"
" NS_DECL_CYCLE_COLLECTION_SCRIPT_HOLDER_CLASS(%s)\n"
"\n" % self.nativeLeafName(descriptor))
if descriptor.interface.hasChildInterfaces():
decorators = ""
else:
decorators = "final"
CGClass.__init__(self, self.nativeLeafName(descriptor),
bases=bases,
constructors=[ClassConstructor([],
visibility="public")],
destructor=ClassDestructor(visibility=destructorVisibility),
methods=self.methodDecls,
decorators=decorators,
extradeclarations=extradeclarations)
def define(self):
# Just override CGClass and do our own thing
ctordtor = dedent("""
${nativeType}::${nativeType}()
{
// Add |MOZ_COUNT_CTOR(${nativeType});| for a non-refcounted object.
}
${nativeType}::~${nativeType}()
{
// Add |MOZ_COUNT_DTOR(${nativeType});| for a non-refcounted object.
}
""")
if self.parentIface:
ccImpl = dedent("""
// Only needed for refcounted objects.
# error "If you don't have members that need cycle collection,
# then remove all the cycle collection bits from this
# implementation and the corresponding header. If you do, you
# want NS_IMPL_CYCLE_COLLECTION_INHERITED(${nativeType},
# ${parentType}, your, members, here)"
NS_IMPL_ADDREF_INHERITED(${nativeType}, ${parentType})
NS_IMPL_RELEASE_INHERITED(${nativeType}, ${parentType})
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(${nativeType})
NS_INTERFACE_MAP_END_INHERITING(${parentType})
""")
else:
ccImpl = dedent("""
// Only needed for refcounted objects.
NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE_0(${nativeType})
NS_IMPL_CYCLE_COLLECTING_ADDREF(${nativeType})
NS_IMPL_CYCLE_COLLECTING_RELEASE(${nativeType})
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(${nativeType})
NS_WRAPPERCACHE_INTERFACE_MAP_ENTRY
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END
""")
if self.descriptor.wrapperCache:
reflectorArg = ""
reflectorPassArg = ""
returnType = "JSObject*"
else:
reflectorArg = ", JS::MutableHandle<JSObject*> aReflector"
reflectorPassArg = ", aReflector"
returnType = "bool"
classImpl = ccImpl + ctordtor + "\n" + dedent("""
${returnType}
${nativeType}::WrapObject(JSContext* aCx, JS::Handle<JSObject*> aGivenProto${reflectorArg})
{
return ${ifaceName}Binding::Wrap(aCx, this, aGivenProto${reflectorPassArg});
}
""")
return string.Template(classImpl).substitute(
ifaceName=self.descriptor.name,
nativeType=self.nativeLeafName(self.descriptor),
parentType=self.nativeLeafName(self.parentDesc) if self.parentIface else "",
returnType=returnType,
reflectorArg=reflectorArg,
reflectorPassArg=reflectorPassArg)
@staticmethod
def nativeLeafName(descriptor):
return descriptor.nativeType.split('::')[-1]
class CGExampleRoot(CGThing):
"""
Root codegen class for example implementation generation. Instantiate the
class and call declare or define to generate header or cpp code,
respectively.
"""
def __init__(self, config, interfaceName):
descriptor = config.getDescriptor(interfaceName)
self.root = CGWrapper(CGExampleClass(descriptor),
pre="\n", post="\n")
self.root = CGNamespace.build(["mozilla", "dom"], self.root)
builder = ForwardDeclarationBuilder()
for member in descriptor.interface.members:
if not member.isAttr() and not member.isMethod():
continue
if member.isStatic():
builder.addInMozillaDom("GlobalObject")
if member.isAttr() and not member.isMaplikeOrSetlikeAttr():
builder.forwardDeclareForType(member.type, config)
else:
assert member.isMethod()
if not member.isMaplikeOrSetlikeOrIterableMethod():
for sig in member.signatures():
builder.forwardDeclareForType(sig[0], config)
for arg in sig[1]:
builder.forwardDeclareForType(arg.type, config)
self.root = CGList([builder.build(),
self.root], "\n")
# Throw in our #includes
self.root = CGHeaders([], [], [], [],
["nsWrapperCache.h",
"nsCycleCollectionParticipant.h",
"mozilla/Attributes.h",
"mozilla/ErrorResult.h",
"mozilla/dom/BindingDeclarations.h",
"js/TypeDecls.h"],
["mozilla/dom/%s.h" % interfaceName,
("mozilla/dom/%s" %
CGHeaders.getDeclarationFilename(descriptor.interface))], "", self.root)
# And now some include guards
self.root = CGIncludeGuard(interfaceName, self.root)
# And our license block comes before everything else
self.root = CGWrapper(self.root, pre=dedent("""
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
"""))
def declare(self):
return self.root.declare()
def define(self):
return self.root.define()
def jsImplName(name):
return name + "JSImpl"
class CGJSImplMember(CGNativeMember):
"""
Base class for generating code for the members of the implementation class
for a JS-implemented WebIDL interface.
"""
def __init__(self, descriptorProvider, member, name, signature,
extendedAttrs, breakAfter=True, passJSBitsAsNeeded=True,
visibility="public", variadicIsSequence=False,
virtual=False, override=False):
CGNativeMember.__init__(self, descriptorProvider, member, name,
signature, extendedAttrs, breakAfter=breakAfter,
passJSBitsAsNeeded=passJSBitsAsNeeded,
visibility=visibility,
variadicIsSequence=variadicIsSequence,
virtual=virtual,
override=override)
self.body = self.getImpl()
def getArgs(self, returnType, argList):
args = CGNativeMember.getArgs(self, returnType, argList)
args.append(Argument("JSCompartment*", "aCompartment", "nullptr"))
return args
class CGJSImplMethod(CGJSImplMember):
"""
Class for generating code for the methods for a JS-implemented WebIDL
interface.
"""
def __init__(self, descriptor, method, signature, isConstructor, breakAfter=True):
virtual = False
override = False
if (method.identifier.name == "eventListenerWasAdded" or
method.identifier.name == "eventListenerWasRemoved"):
virtual = True
override = True
self.signature = signature
self.descriptor = descriptor
self.isConstructor = isConstructor
CGJSImplMember.__init__(self, descriptor, method,
CGSpecializedMethod.makeNativeName(descriptor,
method),
signature,
descriptor.getExtendedAttributes(method),
breakAfter=breakAfter,
variadicIsSequence=True,
passJSBitsAsNeeded=False,
virtual=virtual,
override=override)
def getArgs(self, returnType, argList):
if self.isConstructor:
# Skip the JSCompartment bits for constructors; it's handled
# manually in getImpl.
return CGNativeMember.getArgs(self, returnType, argList)
return CGJSImplMember.getArgs(self, returnType, argList)
def getImpl(self):
args = self.getArgs(self.signature[0], self.signature[1])
if not self.isConstructor:
return 'return mImpl->%s(%s);\n' % (self.name, ", ".join(arg.name for arg in args))
assert self.descriptor.interface.isJSImplemented()
if self.name != 'Constructor':
raise TypeError("Named constructors are not supported for JS implemented WebIDL. See bug 851287.")
if len(self.signature[1]) != 0:
# The first two arguments to the constructor implementation are not
# arguments to the WebIDL constructor, so don't pass them to __Init()
assert args[0].argType == 'const GlobalObject&'
assert args[1].argType == 'JSContext*'
constructorArgs = [arg.name for arg in args[2:]]
constructorArgs.append("js::GetObjectCompartment(scopeObj)")
initCall = fill(
"""
// Wrap the object before calling __Init so that __DOM_IMPL__ is available.
JS::Rooted<JSObject*> scopeObj(cx, globalHolder->GetGlobalJSObject());
MOZ_ASSERT(js::IsObjectInContextCompartment(scopeObj, cx));
JS::Rooted<JS::Value> wrappedVal(cx);
if (!GetOrCreateDOMReflector(cx, impl, &wrappedVal)) {
//XXX Assertion disabled for now, see bug 991271.
MOZ_ASSERT(true || JS_IsExceptionPending(cx));
aRv.Throw(NS_ERROR_UNEXPECTED);
return nullptr;
}
// Initialize the object with the constructor arguments.
impl->mImpl->__Init(${args});
if (aRv.Failed()) {
return nullptr;
}
""",
args=", ".join(constructorArgs))
else:
initCall = ""
return genConstructorBody(self.descriptor, initCall)
def genConstructorBody(descriptor, initCall=""):
return fill(
"""
JS::Rooted<JSObject*> jsImplObj(cx);
nsCOMPtr<nsIGlobalObject> globalHolder =
ConstructJSImplementation("${contractId}", global, &jsImplObj, aRv);
if (aRv.Failed()) {
return nullptr;
}
// Build the C++ implementation.
RefPtr<${implClass}> impl = new ${implClass}(jsImplObj, globalHolder);
$*{initCall}
return impl.forget();
""",
contractId=descriptor.interface.getJSImplementation(),
implClass=descriptor.name,
initCall=initCall)
# We're always fallible
def callbackGetterName(attr, descriptor):
return "Get" + MakeNativeName(
descriptor.binaryNameFor(attr.identifier.name))
def callbackSetterName(attr, descriptor):
return "Set" + MakeNativeName(
descriptor.binaryNameFor(attr.identifier.name))
class CGJSImplClearCachedValueMethod(CGAbstractBindingMethod):
def __init__(self, descriptor, attr):
if attr.getExtendedAttribute("StoreInSlot"):
raise TypeError("[StoreInSlot] is not supported for JS-implemented WebIDL. See bug 1056325.")
CGAbstractBindingMethod.__init__(self, descriptor,
MakeJSImplClearCachedValueNativeName(attr),
JSNativeArguments())
self.attr = attr
def generate_code(self):
return CGGeneric(fill(
"""
${bindingNamespace}::${fnName}(self);
args.rval().setUndefined();
return true;
""",
bindingNamespace=toBindingNamespace(self.descriptor.name),
fnName=MakeClearCachedValueNativeName(self.attr)))
class CGJSImplGetter(CGJSImplMember):
"""
Class for generating code for the getters of attributes for a JS-implemented
WebIDL interface.
"""
def __init__(self, descriptor, attr):
CGJSImplMember.__init__(self, descriptor, attr,
CGSpecializedGetter.makeNativeName(descriptor,
attr),
(attr.type, []),
descriptor.getExtendedAttributes(attr,
getter=True),
passJSBitsAsNeeded=False)
def getImpl(self):
callbackArgs = [arg.name for arg in self.getArgs(self.member.type, [])]
return 'return mImpl->%s(%s);\n' % (
callbackGetterName(self.member, self.descriptorProvider),
", ".join(callbackArgs))
class CGJSImplSetter(CGJSImplMember):
"""
Class for generating code for the setters of attributes for a JS-implemented
WebIDL interface.
"""
def __init__(self, descriptor, attr):
CGJSImplMember.__init__(self, descriptor, attr,
CGSpecializedSetter.makeNativeName(descriptor,
attr),
(BuiltinTypes[IDLBuiltinType.Types.void],
[FakeArgument(attr.type, attr)]),
descriptor.getExtendedAttributes(attr,
setter=True),
passJSBitsAsNeeded=False)
def getImpl(self):
callbackArgs = [arg.name for arg in self.getArgs(BuiltinTypes[IDLBuiltinType.Types.void],
[FakeArgument(self.member.type, self.member)])]
return 'mImpl->%s(%s);\n' % (
callbackSetterName(self.member, self.descriptorProvider),
", ".join(callbackArgs))
class CGJSImplClass(CGBindingImplClass):
def __init__(self, descriptor):
CGBindingImplClass.__init__(self, descriptor, CGJSImplMethod, CGJSImplGetter, CGJSImplSetter, skipStaticMethods=True)
if descriptor.interface.parent:
parentClass = descriptor.getDescriptor(
descriptor.interface.parent.identifier.name).jsImplParent
baseClasses = [ClassBase(parentClass)]
isupportsDecl = "NS_DECL_ISUPPORTS_INHERITED\n"
ccDecl = ("NS_DECL_CYCLE_COLLECTION_CLASS_INHERITED(%s, %s)\n" %
(descriptor.name, parentClass))
constructorBody = dedent("""
// Make sure we're an nsWrapperCache already
MOZ_ASSERT(static_cast<nsWrapperCache*>(this));
// And that our ancestor has not called SetIsNotDOMBinding()
MOZ_ASSERT(IsDOMBinding());
""")
extradefinitions = fill(
"""
NS_IMPL_CYCLE_COLLECTION_INHERITED(${ifaceName}, ${parentClass}, mImpl, mParent)
NS_IMPL_ADDREF_INHERITED(${ifaceName}, ${parentClass})
NS_IMPL_RELEASE_INHERITED(${ifaceName}, ${parentClass})
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION_INHERITED(${ifaceName})
NS_INTERFACE_MAP_END_INHERITING(${parentClass})
""",
ifaceName=self.descriptor.name,
parentClass=parentClass)
else:
baseClasses = [ClassBase("nsSupportsWeakReference"),
ClassBase("nsWrapperCache")]
isupportsDecl = "NS_DECL_CYCLE_COLLECTING_ISUPPORTS\n"
ccDecl = ("NS_DECL_CYCLE_COLLECTION_SCRIPT_HOLDER_CLASS(%s)\n" %
descriptor.name)
extradefinitions = fill(
"""
NS_IMPL_CYCLE_COLLECTION_CLASS(${ifaceName})
NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(${ifaceName})
NS_IMPL_CYCLE_COLLECTION_UNLINK(mImpl)
NS_IMPL_CYCLE_COLLECTION_UNLINK(mParent)
NS_IMPL_CYCLE_COLLECTION_UNLINK_PRESERVED_WRAPPER
tmp->ClearWeakReferences();
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(${ifaceName})
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mImpl)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mParent)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_SCRIPT_OBJECTS
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END
NS_IMPL_CYCLE_COLLECTION_TRACE_WRAPPERCACHE(${ifaceName})
NS_IMPL_CYCLE_COLLECTING_ADDREF(${ifaceName})
NS_IMPL_CYCLE_COLLECTING_RELEASE(${ifaceName})
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(${ifaceName})
NS_WRAPPERCACHE_INTERFACE_MAP_ENTRY
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_ENTRY(nsISupportsWeakReference)
NS_INTERFACE_MAP_END
""",
ifaceName=self.descriptor.name)
extradeclarations = fill(
"""
public:
$*{isupportsDecl}
$*{ccDecl}
private:
RefPtr<${jsImplName}> mImpl;
nsCOMPtr<nsISupports> mParent;
""",
isupportsDecl=isupportsDecl,
ccDecl=ccDecl,
jsImplName=jsImplName(descriptor.name))
if descriptor.interface.hasChildInterfaces():
decorators = ""
# We need a protected virtual destructor our subclasses can use
destructor = ClassDestructor(virtual=True, visibility="protected")
else:
decorators = "final"
destructor = ClassDestructor(virtual=False, visibility="private")
baseConstructors = [
("mImpl(new %s(nullptr, aJSImplObject, /* aIncumbentGlobal = */ nullptr))" %
jsImplName(descriptor.name)),
"mParent(aParent)"]
parentInterface = descriptor.interface.parent
while parentInterface:
if parentInterface.isJSImplemented():
baseConstructors.insert(
0, "%s(aJSImplObject, aParent)" % parentClass)
break
parentInterface = parentInterface.parent
if not parentInterface and descriptor.interface.parent:
# We only have C++ ancestors, so only pass along the window
baseConstructors.insert(0,
"%s(aParent)" % parentClass)
constructor = ClassConstructor(
[Argument("JS::Handle<JSObject*>", "aJSImplObject"),
Argument("nsIGlobalObject*", "aParent")],
visibility="public",
baseConstructors=baseConstructors)
self.methodDecls.append(
ClassMethod("_Create",
"bool",
JSNativeArguments(),
static=True,
body=self.getCreateFromExistingBody()))
CGClass.__init__(self, descriptor.name,
bases=baseClasses,
constructors=[constructor],
destructor=destructor,
methods=self.methodDecls,
decorators=decorators,
extradeclarations=extradeclarations,
extradefinitions=extradefinitions)
def getWrapObjectBody(self):
return fill(
"""
JS::Rooted<JSObject*> obj(aCx, ${name}Binding::Wrap(aCx, this, aGivenProto));
if (!obj) {
return nullptr;
}
// Now define it on our chrome object
JSAutoCompartment ac(aCx, mImpl->Callback());
if (!JS_WrapObject(aCx, &obj)) {
return nullptr;
}
if (!JS_DefineProperty(aCx, mImpl->Callback(), "__DOM_IMPL__", obj, 0)) {
return nullptr;
}
return obj;
""",
name=self.descriptor.name)
def getGetParentObjectReturnType(self):
return "nsISupports*"
def getGetParentObjectBody(self):
return "return mParent;\n"
def getCreateFromExistingBody(self):
# XXXbz we could try to get parts of this (e.g. the argument
# conversions) auto-generated by somehow creating an IDLMethod and
# adding it to our interface, but we'd still need to special-case the
# implementation slightly to have it not try to forward to the JS
# object...
return fill(
"""
JS::CallArgs args = JS::CallArgsFromVp(argc, vp);
if (args.length() < 2) {
return ThrowErrorMessage(cx, MSG_MISSING_ARGUMENTS, "${ifaceName}._create");
}
if (!args[0].isObject()) {
return ThrowErrorMessage(cx, MSG_NOT_OBJECT, "Argument 1 of ${ifaceName}._create");
}
if (!args[1].isObject()) {
return ThrowErrorMessage(cx, MSG_NOT_OBJECT, "Argument 2 of ${ifaceName}._create");
}
// GlobalObject will go through wrappers as needed for us, and
// is simpler than the right UnwrapArg incantation.
GlobalObject global(cx, &args[0].toObject());
if (global.Failed()) {
return false;
}
nsCOMPtr<nsIGlobalObject> globalHolder = do_QueryInterface(global.GetAsSupports());
MOZ_ASSERT(globalHolder);
JS::Rooted<JSObject*> arg(cx, &args[1].toObject());
RefPtr<${implName}> impl = new ${implName}(arg, globalHolder);
MOZ_ASSERT(js::IsObjectInContextCompartment(arg, cx));
return GetOrCreateDOMReflector(cx, impl, args.rval());
""",
ifaceName=self.descriptor.interface.identifier.name,
implName=self.descriptor.name)
def isJSImplementedDescriptor(descriptorProvider):
return (isinstance(descriptorProvider, Descriptor) and
descriptorProvider.interface.isJSImplemented())
class CGCallback(CGClass):
def __init__(self, idlObject, descriptorProvider, baseName, methods,
getters=[], setters=[]):
self.baseName = baseName
self._deps = idlObject.getDeps()
self.idlObject = idlObject
self.name = idlObject.identifier.name
if isJSImplementedDescriptor(descriptorProvider):
self.name = jsImplName(self.name)
# For our public methods that needThisHandling we want most of the
# same args and the same return type as what CallbackMember
# generates. So we want to take advantage of all its
# CGNativeMember infrastructure, but that infrastructure can't deal
# with templates and most especially template arguments. So just
# cheat and have CallbackMember compute all those things for us.
realMethods = []
for method in methods:
if not isinstance(method, CallbackMember) or not method.needThisHandling:
realMethods.append(method)
else:
realMethods.extend(self.getMethodImpls(method))
realMethods.append(
ClassMethod("operator==", "bool",
[Argument("const %s&" % self.name, "aOther")],
inline=True, bodyInHeader=True,
const=True,
body=("return %s::operator==(aOther);\n" % baseName)))
CGClass.__init__(self, self.name,
bases=[ClassBase(baseName)],
constructors=self.getConstructors(),
methods=realMethods+getters+setters)
def getConstructors(self):
if (not self.idlObject.isInterface() and
not self.idlObject._treatNonObjectAsNull):
body = "MOZ_ASSERT(JS::IsCallable(mCallback));\n"
else:
# Not much we can assert about it, other than not being null, and
# CallbackObject does that already.
body = ""
return [
ClassConstructor(
[Argument("JSContext*", "aCx"),
Argument("JS::Handle<JSObject*>", "aCallback"),
Argument("nsIGlobalObject*", "aIncumbentGlobal")],
bodyInHeader=True,
visibility="public",
explicit=True,
baseConstructors=[
"%s(aCx, aCallback, aIncumbentGlobal)" % self.baseName,
],
body=body),
ClassConstructor(
[Argument("JSContext*", "aCx"),
Argument("JS::Handle<JSObject*>", "aCallback"),
Argument("nsIGlobalObject*", "aIncumbentGlobal"),
Argument("const FastCallbackConstructor&", "")],
bodyInHeader=True,
visibility="public",
explicit=True,
baseConstructors=[
"%s(aCx, aCallback, aIncumbentGlobal, FastCallbackConstructor())" % self.baseName,
],
body=body),
ClassConstructor(
[Argument("JS::Handle<JSObject*>", "aCallback"),
Argument("JS::Handle<JSObject*>", "aAsyncStack"),
Argument("nsIGlobalObject*", "aIncumbentGlobal")],
bodyInHeader=True,
visibility="public",
explicit=True,
baseConstructors=[
"%s(aCallback, aAsyncStack, aIncumbentGlobal)" % self.baseName,
],
body=body)]
def getMethodImpls(self, method):
assert method.needThisHandling
args = list(method.args)
# Strip out the JSContext*/JSObject* args
# that got added.
assert args[0].name == "cx" and args[0].argType == "JSContext*"
assert args[1].name == "aThisVal" and args[1].argType == "JS::Handle<JS::Value>"
args = args[2:]
# Now remember which index the ErrorResult argument is at;
# we'll need this below.
assert args[-1].name == "aRv" and args[-1].argType == "ErrorResult&"
rvIndex = len(args) - 1
assert rvIndex >= 0
# Record the names of all the arguments, so we can use them when we call
# the private method.
argnames = [arg.name for arg in args]
argnamesWithThis = ["s.GetContext()", "thisValJS"] + argnames
argnamesWithoutThis = ["s.GetContext()", "JS::UndefinedHandleValue"] + argnames
# Now that we've recorded the argnames for our call to our private
# method, insert our optional argument for the execution reason.
args.append(Argument("const char*", "aExecutionReason",
"nullptr"))
# Make copies of the arg list for the two "without rv" overloads. Note
# that those don't need aExceptionHandling or aCompartment arguments
# because those would make not sense anyway: the only sane thing to do
# with exceptions in the "without rv" cases is to report them.
argsWithoutRv = list(args)
argsWithoutRv.pop(rvIndex)
argsWithoutThisAndRv = list(argsWithoutRv)
# Add the potional argument for deciding whether the CallSetup should
# re-throw exceptions on aRv.
args.append(Argument("ExceptionHandling", "aExceptionHandling",
"eReportExceptions"))
# And the argument for communicating when exceptions should really be
# rethrown. In particular, even when aExceptionHandling is
# eRethrowExceptions they won't get rethrown if aCompartment is provided
# and its principal doesn't subsume either the callback or the
# exception.
args.append(Argument("JSCompartment*", "aCompartment", "nullptr"))
# And now insert our template argument.
argsWithoutThis = list(args)
args.insert(0, Argument("const T&", "thisVal"))
argsWithoutRv.insert(0, Argument("const T&", "thisVal"))
argnamesWithoutThisAndRv = [arg.name for arg in argsWithoutThisAndRv]
argnamesWithoutThisAndRv.insert(rvIndex, "rv");
# If we just leave things like that, and have no actual arguments in the
# IDL, we will end up trying to call the templated "without rv" overload
# with "rv" as the thisVal. That's no good. So explicitly append the
# aExceptionHandling and aCompartment values we need to end up matching
# the signature of our non-templated "with rv" overload.
argnamesWithoutThisAndRv.extend(["eReportExceptions", "nullptr"])
argnamesWithoutRv = [arg.name for arg in argsWithoutRv]
# Note that we need to insert at rvIndex + 1, since we inserted a
# thisVal arg at the start.
argnamesWithoutRv.insert(rvIndex + 1, "rv")
errorReturn = method.getDefaultRetval()
setupCall = fill(
"""
if (!aExecutionReason) {
aExecutionReason = "${executionReason}";
}
CallSetup s(this, aRv, aExecutionReason, aExceptionHandling, aCompartment);
if (!s.GetContext()) {
MOZ_ASSERT(aRv.Failed());
return${errorReturn};
}
""",
errorReturn=errorReturn,
executionReason=method.getPrettyName())
bodyWithThis = fill(
"""
$*{setupCall}
JS::Rooted<JS::Value> thisValJS(s.GetContext());
if (!ToJSValue(s.GetContext(), thisVal, &thisValJS)) {
aRv.Throw(NS_ERROR_FAILURE);
return${errorReturn};
}
return ${methodName}(${callArgs});
""",
setupCall=setupCall,
errorReturn=errorReturn,
methodName=method.name,
callArgs=", ".join(argnamesWithThis))
bodyWithoutThis = fill(
"""
$*{setupCall}
return ${methodName}(${callArgs});
""",
setupCall=setupCall,
errorReturn=errorReturn,
methodName=method.name,
callArgs=", ".join(argnamesWithoutThis))
bodyWithThisWithoutRv = fill(
"""
IgnoredErrorResult rv;
return ${methodName}(${callArgs});
""",
methodName=method.name,
callArgs=", ".join(argnamesWithoutRv))
bodyWithoutThisAndRv = fill(
"""
IgnoredErrorResult rv;
return ${methodName}(${callArgs});
""",
methodName=method.name,
callArgs=", ".join(argnamesWithoutThisAndRv))
return [ClassMethod(method.name, method.returnType, args,
bodyInHeader=True,
templateArgs=["typename T"],
body=bodyWithThis),
ClassMethod(method.name, method.returnType, argsWithoutThis,
bodyInHeader=True,
body=bodyWithoutThis),
ClassMethod(method.name, method.returnType, argsWithoutRv,
bodyInHeader=True,
templateArgs=["typename T"],
body=bodyWithThisWithoutRv),
ClassMethod(method.name, method.returnType, argsWithoutThisAndRv,
bodyInHeader=True,
body=bodyWithoutThisAndRv),
method]
def deps(self):
return self._deps
class CGCallbackFunction(CGCallback):
def __init__(self, callback, descriptorProvider):
self.callback = callback
CGCallback.__init__(self, callback, descriptorProvider,
"CallbackFunction",
methods=[CallCallback(callback, descriptorProvider)])
def getConstructors(self):
return CGCallback.getConstructors(self) + [
ClassConstructor(
[Argument("CallbackFunction*", "aOther")],
bodyInHeader=True,
visibility="public",
explicit=True,
baseConstructors=["CallbackFunction(aOther)"])]
class CGFastCallback(CGClass):
def __init__(self, idlObject):
self._deps = idlObject.getDeps()
baseName = idlObject.identifier.name
constructor = ClassConstructor(
[Argument("JSContext*", "aCx"),
Argument("JS::Handle<JSObject*>", "aCallback"),
Argument("nsIGlobalObject*", "aIncumbentGlobal")],
bodyInHeader=True,
visibility="public",
explicit=True,
baseConstructors=[
"%s(aCx, aCallback, aIncumbentGlobal, FastCallbackConstructor())" %
baseName,
],
body="")
traceMethod = ClassMethod("Trace", "void",
[Argument("JSTracer*", "aTracer")],
inline=True,
bodyInHeader=True,
visibility="public",
body="%s::Trace(aTracer);\n" % baseName)
holdMethod = ClassMethod("HoldJSObjectsIfMoreThanOneOwner", "void",
[],
inline=True,
bodyInHeader=True,
visibility="public",
body=(
"%s::HoldJSObjectsIfMoreThanOneOwner();\n" %
baseName))
CGClass.__init__(self, "Fast%s" % baseName,
bases=[ClassBase(baseName)],
constructors=[constructor],
methods=[traceMethod, holdMethod])
def deps(self):
return self._deps
class CGCallbackInterface(CGCallback):
def __init__(self, descriptor, typedArraysAreStructs=False):
iface = descriptor.interface
attrs = [m for m in iface.members if m.isAttr() and not m.isStatic()]
getters = [CallbackGetter(a, descriptor, typedArraysAreStructs)
for a in attrs]
setters = [CallbackSetter(a, descriptor, typedArraysAreStructs)
for a in attrs if not a.readonly]
methods = [m for m in iface.members
if m.isMethod() and not m.isStatic() and not m.isIdentifierLess()]
methods = [CallbackOperation(m, sig, descriptor, typedArraysAreStructs)
for m in methods for sig in m.signatures()]
if iface.isJSImplemented() and iface.ctor():
sigs = descriptor.interface.ctor().signatures()
if len(sigs) != 1:
raise TypeError("We only handle one constructor. See bug 869268.")
methods.append(CGJSImplInitOperation(sigs[0], descriptor))
if any(m.isAttr() or m.isMethod() for m in iface.members) or (iface.isJSImplemented() and iface.ctor()):
methods.append(initIdsClassMethod([descriptor.binaryNameFor(m.identifier.name)
for m in iface.members
if m.isAttr() or m.isMethod()] +
(["__init"] if iface.isJSImplemented() and iface.ctor() else []),
iface.identifier.name + "Atoms"))
CGCallback.__init__(self, iface, descriptor, "CallbackInterface",
methods, getters=getters, setters=setters)
class FakeMember():
def __init__(self, name=None):
self.treatNullAs = "Default"
if name is not None:
self.identifier = FakeIdentifier(name)
def isStatic(self):
return False
def isAttr(self):
return False
def isMethod(self):
return False
def getExtendedAttribute(self, name):
# Claim to be a [NewObject] so we can avoid the "return a raw pointer"
# comments CGNativeMember codegen would otherwise stick in.
if name == "NewObject":
return True
return None
class CallbackMember(CGNativeMember):
# XXXbz It's OK to use CallbackKnownNotGray for wrapScope because
# CallSetup already handled the unmark-gray bits for us. we don't have
# anything better to use for 'obj', really...
def __init__(self, sig, name, descriptorProvider, needThisHandling,
rethrowContentException=False, typedArraysAreStructs=False,
wrapScope='CallbackKnownNotGray()'):
"""
needThisHandling is True if we need to be able to accept a specified
thisObj, False otherwise.
"""
assert not rethrowContentException or not needThisHandling
self.retvalType = sig[0]
self.originalSig = sig
args = sig[1]
self.argCount = len(args)
if self.argCount > 0:
# Check for variadic arguments
lastArg = args[self.argCount-1]
if lastArg.variadic:
self.argCountStr = ("(%d - 1) + %s.Length()" %
(self.argCount, lastArg.identifier.name))
else:
self.argCountStr = "%d" % self.argCount
self.needThisHandling = needThisHandling
# If needThisHandling, we generate ourselves as private and the caller
# will handle generating public versions that handle the "this" stuff.
visibility = "private" if needThisHandling else "public"
self.rethrowContentException = rethrowContentException
self.wrapScope = wrapScope
# We don't care, for callback codegen, whether our original member was
# a method or attribute or whatnot. Just always pass FakeMember()
# here.
CGNativeMember.__init__(self, descriptorProvider, FakeMember(),
name, (self.retvalType, args),
extendedAttrs={},
passJSBitsAsNeeded=False,
visibility=visibility,
typedArraysAreStructs=typedArraysAreStructs)
# We have to do all the generation of our body now, because
# the caller relies on us throwing if we can't manage it.
self.exceptionCode = ("aRv.Throw(NS_ERROR_UNEXPECTED);\n"
"return%s;\n" % self.getDefaultRetval())
self.body = self.getImpl()
def getImpl(self):
setupCall = self.getCallSetup()
declRval = self.getRvalDecl()
if self.argCount > 0:
argvDecl = fill(
"""
JS::AutoValueVector argv(cx);
if (!argv.resize(${argCount})) {
aRv.Throw(NS_ERROR_OUT_OF_MEMORY);
return${errorReturn};
}
""",
argCount=self.argCountStr,
errorReturn=self.getDefaultRetval())
else:
# Avoid weird 0-sized arrays
argvDecl = ""
convertArgs = self.getArgConversions()
doCall = self.getCall()
returnResult = self.getResultConversion()
return setupCall + declRval + argvDecl + convertArgs + doCall + returnResult
def getResultConversion(self):
replacements = {
"val": "rval",
"holderName": "rvalHolder",
"declName": "rvalDecl",
# We actually want to pass in a null scope object here, because
# wrapping things into our current compartment (that of mCallback)
# is what we want.
"obj": "nullptr",
"passedToJSImpl": "false"
}
if isJSImplementedDescriptor(self.descriptorProvider):
isCallbackReturnValue = "JSImpl"
else:
isCallbackReturnValue = "Callback"
sourceDescription = "return value of %s" % self.getPrettyName()
convertType = instantiateJSToNativeConversion(
getJSToNativeConversionInfo(self.retvalType,
self.descriptorProvider,
exceptionCode=self.exceptionCode,
isCallbackReturnValue=isCallbackReturnValue,
# Allow returning a callback type that
# allows non-callable objects.
allowTreatNonCallableAsNull=True,
sourceDescription=sourceDescription),
replacements)
assignRetval = string.Template(
self.getRetvalInfo(self.retvalType,
False)[2]).substitute(replacements)
type = convertType.define()
return type + assignRetval
def getArgConversions(self):
# Just reget the arglist from self.originalSig, because our superclasses
# just have way to many members they like to clobber, so I can't find a
# safe member name to store it in.
argConversions = [self.getArgConversion(i, arg)
for i, arg in enumerate(self.originalSig[1])]
if not argConversions:
return "\n"
# Do them back to front, so our argc modifications will work
# correctly, because we examine trailing arguments first.
argConversions.reverse()
# Wrap each one in a scope so that any locals it has don't leak out, and
# also so that we can just "break;" for our successCode.
argConversions = [CGWrapper(CGIndenter(CGGeneric(c)),
pre="do {\n",
post="} while (0);\n")
for c in argConversions]
if self.argCount > 0:
argConversions.insert(0, self.getArgcDecl())
# And slap them together.
return CGList(argConversions, "\n").define() + "\n"
def getArgConversion(self, i, arg):
argval = arg.identifier.name
if arg.variadic:
argval = argval + "[idx]"
jsvalIndex = "%d + idx" % i
else:
jsvalIndex = "%d" % i
if arg.canHaveMissingValue():
argval += ".Value()"
if arg.type.isDOMString():
# XPConnect string-to-JS conversion wants to mutate the string. So
# let's give it a string it can mutate
# XXXbz if we try to do a sequence of strings, this will kinda fail.
result = "mutableStr"
prepend = "nsString mutableStr(%s);\n" % argval
else:
result = argval
prepend = ""
try:
conversion = prepend + wrapForType(
arg.type, self.descriptorProvider,
{
'result': result,
'successCode': "continue;\n" if arg.variadic else "break;\n",
'jsvalRef': "argv[%s]" % jsvalIndex,
'jsvalHandle': "argv[%s]" % jsvalIndex,
'obj': self.wrapScope,
'returnsNewObject': False,
'exceptionCode': self.exceptionCode,
'typedArraysAreStructs': self.typedArraysAreStructs
})
except MethodNotNewObjectError as err:
raise TypeError("%s being passed as an argument to %s but is not "
"wrapper cached, so can't be reliably converted to "
"a JS object." %
(err.typename, self.getPrettyName()))
if arg.variadic:
conversion = fill(
"""
for (uint32_t idx = 0; idx < ${arg}.Length(); ++idx) {
$*{conversion}
}
break;
""",
arg=arg.identifier.name,
conversion=conversion)
elif arg.canHaveMissingValue():
conversion = fill(
"""
if (${argName}.WasPassed()) {
$*{conversion}
} else if (argc == ${iPlus1}) {
// This is our current trailing argument; reduce argc
--argc;
} else {
argv[${i}].setUndefined();
}
""",
argName=arg.identifier.name,
conversion=conversion,
iPlus1=i + 1,
i=i)
return conversion
def getDefaultRetval(self):
default = self.getRetvalInfo(self.retvalType, False)[1]
if len(default) != 0:
default = " " + default
return default
def getArgs(self, returnType, argList):
args = CGNativeMember.getArgs(self, returnType, argList)
if not self.needThisHandling:
# Since we don't need this handling, we're the actual method that
# will be called, so we need an aRethrowExceptions argument.
if not self.rethrowContentException:
args.append(Argument("const char*", "aExecutionReason",
"nullptr"))
args.append(Argument("ExceptionHandling", "aExceptionHandling",
"eReportExceptions"))
args.append(Argument("JSCompartment*", "aCompartment", "nullptr"))
return args
# We want to allow the caller to pass in a "this" value, as
# well as a JSContext.
return [Argument("JSContext*", "cx"),
Argument("JS::Handle<JS::Value>", "aThisVal")] + args
def getCallSetup(self):
if self.needThisHandling:
# It's been done for us already
return ""
callSetup = "CallSetup s(this, aRv"
if self.rethrowContentException:
# getArgs doesn't add the aExceptionHandling argument but does add
# aCompartment for us.
callSetup += ', "%s", eRethrowContentExceptions, aCompartment, /* aIsJSImplementedWebIDL = */ ' % self.getPrettyName()
callSetup += toStringBool(isJSImplementedDescriptor(self.descriptorProvider))
else:
callSetup += ', "%s", aExceptionHandling, aCompartment' % self.getPrettyName()
callSetup += ");\n"
return fill(
"""
$*{callSetup}
JSContext* cx = s.GetContext();
if (!cx) {
MOZ_ASSERT(aRv.Failed());
return${errorReturn};
}
""",
callSetup=callSetup,
errorReturn=self.getDefaultRetval())
def getArgcDecl(self):
return CGGeneric("unsigned argc = %s;\n" % self.argCountStr)
@staticmethod
def ensureASCIIName(idlObject):
type = "attribute" if idlObject.isAttr() else "operation"
if re.match("[^\x20-\x7E]", idlObject.identifier.name):
raise SyntaxError('Callback %s name "%s" contains non-ASCII '
"characters. We can't handle that. %s" %
(type, idlObject.identifier.name,
idlObject.location))
if re.match('"', idlObject.identifier.name):
raise SyntaxError("Callback %s name '%s' contains "
"double-quote character. We can't handle "
"that. %s" %
(type, idlObject.identifier.name,
idlObject.location))
class CallbackMethod(CallbackMember):
def __init__(self, sig, name, descriptorProvider, needThisHandling,
rethrowContentException=False, typedArraysAreStructs=False):
CallbackMember.__init__(self, sig, name, descriptorProvider,
needThisHandling, rethrowContentException,
typedArraysAreStructs=typedArraysAreStructs)
def getRvalDecl(self):
return "JS::Rooted<JS::Value> rval(cx, JS::UndefinedValue());\n"
def getCall(self):
if self.argCount > 0:
args = "JS::HandleValueArray::subarray(argv, 0, argc)"
else:
args = "JS::HandleValueArray::empty()"
return fill(
"""
$*{declCallable}
$*{declThis}
if (${callGuard}!JS::Call(cx, ${thisVal}, callable,
${args}, &rval)) {
aRv.NoteJSContextException(cx);
return${errorReturn};
}
""",
declCallable=self.getCallableDecl(),
declThis=self.getThisDecl(),
callGuard=self.getCallGuard(),
thisVal=self.getThisVal(),
args=args,
errorReturn=self.getDefaultRetval())
class CallCallback(CallbackMethod):
def __init__(self, callback, descriptorProvider):
self.callback = callback
CallbackMethod.__init__(self, callback.signatures()[0], "Call",
descriptorProvider, needThisHandling=True)
def getThisDecl(self):
return ""
def getThisVal(self):
return "aThisVal"
def getCallableDecl(self):
return "JS::Rooted<JS::Value> callable(cx, JS::ObjectValue(*mCallback));\n"
def getPrettyName(self):
return self.callback.identifier.name
def getCallGuard(self):
if self.callback._treatNonObjectAsNull:
return "JS::IsCallable(mCallback) && "
return ""
class CallbackOperationBase(CallbackMethod):
"""
Common class for implementing various callback operations.
"""
def __init__(self, signature, jsName, nativeName, descriptor,
singleOperation, rethrowContentException=False,
typedArraysAreStructs=False):
self.singleOperation = singleOperation
self.methodName = descriptor.binaryNameFor(jsName)
CallbackMethod.__init__(self, signature, nativeName, descriptor,
singleOperation, rethrowContentException,
typedArraysAreStructs=typedArraysAreStructs)
def getThisDecl(self):
if not self.singleOperation:
return "JS::Rooted<JS::Value> thisValue(cx, JS::ObjectValue(*mCallback));\n"
# This relies on getCallableDecl declaring a boolean
# isCallable in the case when we're a single-operation
# interface.
return dedent("""
JS::Rooted<JS::Value> thisValue(cx, isCallable ? aThisVal.get()
: JS::ObjectValue(*mCallback));
""")
def getThisVal(self):
return "thisValue"
def getCallableDecl(self):
getCallableFromProp = fill(
"""
${atomCacheName}* atomsCache = GetAtomCache<${atomCacheName}>(cx);
if ((!*reinterpret_cast<jsid**>(atomsCache) && !InitIds(cx, atomsCache)) ||
!GetCallableProperty(cx, atomsCache->${methodAtomName}, &callable)) {
aRv.Throw(NS_ERROR_UNEXPECTED);
return${errorReturn};
}
""",
methodAtomName=CGDictionary.makeIdName(self.methodName),
atomCacheName=self.descriptorProvider.interface.identifier.name + "Atoms",
errorReturn=self.getDefaultRetval())
if not self.singleOperation:
return 'JS::Rooted<JS::Value> callable(cx);\n' + getCallableFromProp
return fill(
"""
bool isCallable = JS::IsCallable(mCallback);
JS::Rooted<JS::Value> callable(cx);
if (isCallable) {
callable = JS::ObjectValue(*mCallback);
} else {
$*{getCallableFromProp}
}
""",
getCallableFromProp=getCallableFromProp)
def getCallGuard(self):
return ""
class CallbackOperation(CallbackOperationBase):
"""
Codegen actual WebIDL operations on callback interfaces.
"""
def __init__(self, method, signature, descriptor, typedArraysAreStructs):
self.ensureASCIIName(method)
self.method = method
jsName = method.identifier.name
CallbackOperationBase.__init__(self, signature,
jsName,
MakeNativeName(descriptor.binaryNameFor(jsName)),
descriptor, descriptor.interface.isSingleOperationInterface(),
rethrowContentException=descriptor.interface.isJSImplemented(),
typedArraysAreStructs=typedArraysAreStructs)
def getPrettyName(self):
return "%s.%s" % (self.descriptorProvider.interface.identifier.name,
self.method.identifier.name)
class CallbackAccessor(CallbackMember):
"""
Shared superclass for CallbackGetter and CallbackSetter.
"""
def __init__(self, attr, sig, name, descriptor, typedArraysAreStructs):
self.ensureASCIIName(attr)
self.attrName = attr.identifier.name
CallbackMember.__init__(self, sig, name, descriptor,
needThisHandling=False,
rethrowContentException=descriptor.interface.isJSImplemented(),
typedArraysAreStructs=typedArraysAreStructs)
def getPrettyName(self):
return "%s.%s" % (self.descriptorProvider.interface.identifier.name,
self.attrName)
class CallbackGetter(CallbackAccessor):
def __init__(self, attr, descriptor, typedArraysAreStructs):
CallbackAccessor.__init__(self, attr,
(attr.type, []),
callbackGetterName(attr, descriptor),
descriptor,
typedArraysAreStructs)
def getRvalDecl(self):
return "JS::Rooted<JS::Value> rval(cx, JS::UndefinedValue());\n"
def getCall(self):
return fill(
"""
JS::Rooted<JSObject *> callback(cx, mCallback);
${atomCacheName}* atomsCache = GetAtomCache<${atomCacheName}>(cx);
if ((!*reinterpret_cast<jsid**>(atomsCache) && !InitIds(cx, atomsCache)) ||
!JS_GetPropertyById(cx, callback, atomsCache->${attrAtomName}, &rval)) {
aRv.Throw(NS_ERROR_UNEXPECTED);
return${errorReturn};
}
""",
atomCacheName=self.descriptorProvider.interface.identifier.name + "Atoms",
attrAtomName=CGDictionary.makeIdName(self.descriptorProvider.binaryNameFor(self.attrName)),
errorReturn=self.getDefaultRetval())
class CallbackSetter(CallbackAccessor):
def __init__(self, attr, descriptor, typedArraysAreStructs):
CallbackAccessor.__init__(self, attr,
(BuiltinTypes[IDLBuiltinType.Types.void],
[FakeArgument(attr.type, attr)]),
callbackSetterName(attr, descriptor),
descriptor, typedArraysAreStructs)
def getRvalDecl(self):
# We don't need an rval
return ""
def getCall(self):
return fill(
"""
MOZ_ASSERT(argv.length() == 1);
${atomCacheName}* atomsCache = GetAtomCache<${atomCacheName}>(cx);
if ((!*reinterpret_cast<jsid**>(atomsCache) && !InitIds(cx, atomsCache)) ||
!JS_SetPropertyById(cx, CallbackKnownNotGray(), atomsCache->${attrAtomName}, argv[0])) {
aRv.Throw(NS_ERROR_UNEXPECTED);
return${errorReturn};
}
""",
atomCacheName=self.descriptorProvider.interface.identifier.name + "Atoms",
attrAtomName=CGDictionary.makeIdName(self.descriptorProvider.binaryNameFor(self.attrName)),
errorReturn=self.getDefaultRetval())
def getArgcDecl(self):
return None
class CGJSImplInitOperation(CallbackOperationBase):
"""
Codegen the __Init() method used to pass along constructor arguments for JS-implemented WebIDL.
"""
def __init__(self, sig, descriptor):
assert sig in descriptor.interface.ctor().signatures()
CallbackOperationBase.__init__(self, (BuiltinTypes[IDLBuiltinType.Types.void], sig[1]),
"__init", "__Init", descriptor,
singleOperation=False,
rethrowContentException=True,
typedArraysAreStructs=True)
def getPrettyName(self):
return "__init"
def getMaplikeOrSetlikeErrorReturn(helperImpl):
"""
Generate return values based on whether a maplike or setlike generated
method is an interface method (which returns bool) or a helper function
(which uses ErrorResult).
"""
if helperImpl:
return dedent(
"""
aRv.Throw(NS_ERROR_UNEXPECTED);
return%s;
""" % helperImpl.getDefaultRetval())
return "return false;\n"
def getMaplikeOrSetlikeBackingObject(descriptor, maplikeOrSetlike, helperImpl=None):
"""
Generate code to get/create a JS backing object for a maplike/setlike
declaration from the declaration slot.
"""
func_prefix = maplikeOrSetlike.maplikeOrSetlikeOrIterableType.title()
ret = fill(
"""
JS::Rooted<JSObject*> backingObj(cx);
bool created = false;
if (!Get${func_prefix}BackingObject(cx, obj, ${slot}, &backingObj, &created)) {
$*{errorReturn}
}
if (created) {
PreserveWrapper<${selfType}>(self);
}
""",
slot=memberReservedSlot(maplikeOrSetlike, descriptor),
func_prefix=func_prefix,
errorReturn=getMaplikeOrSetlikeErrorReturn(helperImpl),
selfType=descriptor.nativeType)
return ret
def getMaplikeOrSetlikeSizeGetterBody(descriptor, attr):
"""
Creates the body for the size getter method of maplike/setlike interfaces.
"""
# We should only have one declaration attribute currently
assert attr.identifier.name == "size"
assert attr.isMaplikeOrSetlikeAttr()
return fill(
"""
$*{getBackingObj}
uint32_t result = JS::${funcPrefix}Size(cx, backingObj);
MOZ_ASSERT(!JS_IsExceptionPending(cx));
args.rval().setNumber(result);
return true;
""",
getBackingObj=getMaplikeOrSetlikeBackingObject(descriptor,
attr.maplikeOrSetlike),
funcPrefix=attr.maplikeOrSetlike.prefix)
class CGMaplikeOrSetlikeMethodGenerator(CGThing):
"""
Creates methods for maplike/setlike interfaces. It is expected that all
methods will be have a maplike/setlike object attached. Unwrapping/wrapping
will be taken care of by the usual method generation machinery in
CGMethodCall/CGPerSignatureCall. Functionality is filled in here instead of
using CGCallGenerator.
"""
def __init__(self, descriptor, maplikeOrSetlike, methodName,
helperImpl=None):
CGThing.__init__(self)
# True if this will be the body of a C++ helper function.
self.helperImpl = helperImpl
self.descriptor = descriptor
self.maplikeOrSetlike = maplikeOrSetlike
self.cgRoot = CGList([])
impl_method_name = methodName
if impl_method_name[0] == "_":
# double underscore means this is a js-implemented chrome only rw
# function. Truncate the double underscore so calling the right
# underlying JSAPI function still works.
impl_method_name = impl_method_name[2:]
self.cgRoot.append(CGGeneric(
getMaplikeOrSetlikeBackingObject(self.descriptor,
self.maplikeOrSetlike,
self.helperImpl)))
self.returnStmt = getMaplikeOrSetlikeErrorReturn(self.helperImpl)
# Generates required code for the method. Method descriptions included
# in definitions below. Throw if we don't have a method to fill in what
# we're looking for.
try:
methodGenerator = getattr(self, impl_method_name)
except AttributeError:
raise TypeError("Missing %s method definition '%s'" %
(self.maplikeOrSetlike.maplikeOrSetlikeType,
methodName))
# Method generator returns tuple, containing:
#
# - a list of CGThings representing setup code for preparing to call
# the JS API function
# - a list of arguments needed for the JS API function we're calling
# - list of code CGThings needed for return value conversion.
(setupCode, arguments, setResult) = methodGenerator()
# Create the actual method call, and then wrap it with the code to
# return the value if needed.
funcName = (self.maplikeOrSetlike.prefix +
MakeNativeName(impl_method_name))
# Append the list of setup code CGThings
self.cgRoot.append(CGList(setupCode))
# Create the JS API call
self.cgRoot.append(CGWrapper(
CGGeneric(fill(
"""
if (!JS::${funcName}(${args})) {
$*{errorReturn}
}
""",
funcName=funcName,
args=", ".join(["cx", "backingObj"] + arguments),
errorReturn=self.returnStmt))))
# Append result conversion
self.cgRoot.append(CGList(setResult))
def mergeTuples(self, a, b):
"""
Expecting to take 2 tuples were all elements are lists, append the lists in
the second tuple to the lists in the first.
"""
return tuple([x + y for x, y in zip(a, b)])
def appendArgConversion(self, name):
"""
Generate code to convert arguments to JS::Values, so they can be
passed into JSAPI functions.
"""
return CGGeneric(fill(
"""
JS::Rooted<JS::Value> ${name}Val(cx);
if (!ToJSValue(cx, ${name}, &${name}Val)) {
$*{errorReturn}
}
""",
name=name,
errorReturn=self.returnStmt))
def appendKeyArgConversion(self):
"""
Generates the key argument for methods. Helper functions will use
an AutoValueVector, while interface methods have seperate JS::Values.
"""
if self.helperImpl:
return ([], ["argv[0]"], [])
return ([self.appendArgConversion("arg0")], ["arg0Val"], [])
def appendKeyAndValueArgConversion(self):
"""
Generates arguments for methods that require a key and value. Helper
functions will use an AutoValueVector, while interface methods have
seperate JS::Values.
"""
r = self.appendKeyArgConversion()
if self.helperImpl:
return self.mergeTuples(r, ([], ["argv[1]"], []))
return self.mergeTuples(r, ([self.appendArgConversion("arg1")],
["arg1Val"],
[]))
def appendIteratorResult(self):
"""
Generate code to output JSObject* return values, needed for functions that
return iterators. Iterators cannot currently be wrapped via Xrays. If
something that would return an iterator is called via Xray, fail early.
"""
# TODO: Bug 1173651 - Remove check once bug 1023984 is fixed.
code = CGGeneric(dedent(
"""
// TODO (Bug 1173651): Xrays currently cannot wrap iterators. Change
// after bug 1023984 is fixed.
if (xpc::WrapperFactory::IsXrayWrapper(obj)) {
JS_ReportError(cx, "Xray wrapping of iterators not supported.");
return false;
}
JS::Rooted<JSObject*> result(cx);
JS::Rooted<JS::Value> v(cx);
"""))
arguments = "&v"
setResult = CGGeneric(dedent(
"""
result = &v.toObject();
"""))
return ([code], [arguments], [setResult])
def appendSelfResult(self):
"""
Generate code to return the interface object itself.
"""
code = CGGeneric(dedent(
"""
JS::Rooted<JSObject*> result(cx);
"""))
setResult = CGGeneric(dedent(
"""
result = obj;
"""))
return ([code], [], [setResult])
def appendBoolResult(self):
if self.helperImpl:
return ([CGGeneric()], ["&aRetVal"], [])
return ([CGGeneric("bool result;\n")], ["&result"], [])
def forEach(self):
"""
void forEach(callback c, any thisval);
ForEach takes a callback, and a possible value to use as 'this'. The
callback needs to take value, key, and the interface object
implementing maplike/setlike. In order to make sure that the third arg
is our interface object instead of the map/set backing object, we
create a js function with the callback and original object in its
storage slots, then use a helper function in BindingUtils to make sure
the callback is called correctly.
"""
assert(not self.helperImpl)
code = [CGGeneric(dedent(
"""
// Create a wrapper function.
JSFunction* func = js::NewFunctionWithReserved(cx, ForEachHandler, 3, 0, nullptr);
if (!func) {
return false;
}
JS::Rooted<JSObject*> funcObj(cx, JS_GetFunctionObject(func));
JS::Rooted<JS::Value> funcVal(cx, JS::ObjectValue(*funcObj));
js::SetFunctionNativeReserved(funcObj, FOREACH_CALLBACK_SLOT,
JS::ObjectValue(*arg0));
js::SetFunctionNativeReserved(funcObj, FOREACH_MAPLIKEORSETLIKEOBJ_SLOT,
JS::ObjectValue(*obj));
"""))]
arguments = ["funcVal", "arg1"]
return (code, arguments, [])
def set(self):
"""
object set(key, value);
Maplike only function, takes key and sets value to it, returns
interface object unless being called from a C++ helper.
"""
assert self.maplikeOrSetlike.isMaplike()
r = self.appendKeyAndValueArgConversion()
if self.helperImpl:
return r
return self.mergeTuples(r, self.appendSelfResult())
def add(self):
"""
object add(value);
Setlike only function, adds value to set, returns interface object
unless being called from a C++ helper
"""
assert self.maplikeOrSetlike.isSetlike()
r = self.appendKeyArgConversion()
if self.helperImpl:
return r
return self.mergeTuples(r, self.appendSelfResult())
def get(self):
"""
type? get(key);
Retrieves a value from a backing object based on the key. Returns value
if key is in backing object, undefined otherwise.
"""
assert self.maplikeOrSetlike.isMaplike()
r = self.appendKeyArgConversion()
code = [CGGeneric(dedent(
"""
JS::Rooted<JS::Value> result(cx);
"""))]
arguments = ["&result"]
return self.mergeTuples(r, (code, arguments, []))
def has(self):
"""
bool has(key);
Check if an entry exists in the backing object. Returns true if value
exists in backing object, false otherwise.
"""
return self.mergeTuples(self.appendKeyArgConversion(),
self.appendBoolResult())
def keys(self):
"""
object keys();
Returns new object iterator with all keys from backing object.
"""
return self.appendIteratorResult()
def values(self):
"""
object values();
Returns new object iterator with all values from backing object.
"""
return self.appendIteratorResult()
def entries(self):
"""
object entries();
Returns new object iterator with all keys and values from backing
object. Keys will be null for set.
"""
return self.appendIteratorResult()
def clear(self):
"""
void clear();
Removes all entries from map/set.
"""
return ([], [], [])
def delete(self):
"""
bool delete(key);
Deletes an entry from the backing object. Returns true if value existed
in backing object, false otherwise.
"""
return self.mergeTuples(self.appendKeyArgConversion(),
self.appendBoolResult())
def define(self):
return self.cgRoot.define()
class CGMaplikeOrSetlikeHelperFunctionGenerator(CallbackMember):
"""
Generates code to allow C++ to perform operations on backing objects. Gets
a context from the binding wrapper, turns arguments into JS::Values (via
CallbackMember/CGNativeMember argument conversion), then uses
CGMaplikeOrSetlikeMethodGenerator to generate the body.
"""
class HelperFunction(CGAbstractMethod):
"""
Generates context retrieval code and rooted JSObject for interface for
CGMaplikeOrSetlikeMethodGenerator to use
"""
def __init__(self, descriptor, name, args, code, needsBoolReturn=False):
self.code = code
CGAbstractMethod.__init__(self, descriptor, name,
"bool" if needsBoolReturn else "void",
args)
def definition_body(self):
return self.code
def __init__(self, descriptor, maplikeOrSetlike, name, needsKeyArg=False,
needsValueArg=False, needsBoolReturn=False):
args = []
self.maplikeOrSetlike = maplikeOrSetlike
self.needsBoolReturn = needsBoolReturn
if needsKeyArg:
args.append(FakeArgument(maplikeOrSetlike.keyType, None, 'aKey'))
if needsValueArg:
assert needsKeyArg
args.append(FakeArgument(maplikeOrSetlike.valueType, None, 'aValue'))
# Run CallbackMember init function to generate argument conversion code.
# wrapScope is set to 'obj' when generating maplike or setlike helper
# functions, as we don't have access to the CallbackPreserveColor
# method.
CallbackMember.__init__(self,
[BuiltinTypes[IDLBuiltinType.Types.void], args],
name, descriptor, False,
wrapScope='obj')
# Wrap CallbackMember body code into a CGAbstractMethod to make
# generation easier.
self.implMethod = CGMaplikeOrSetlikeHelperFunctionGenerator.HelperFunction(
descriptor, name, self.args, self.body, needsBoolReturn)
def getCallSetup(self):
return dedent(
"""
MOZ_ASSERT(self);
AutoJSAPI jsapi;
jsapi.Init();
JSContext* cx = jsapi.cx();
// It's safe to use UnprivilegedJunkScopeOrWorkerGlobal here because
// all we want is to wrap into _some_ scope and then unwrap to find
// the reflector, and wrapping has no side-effects.
JSAutoCompartment tempCompartment(cx, binding_detail::UnprivilegedJunkScopeOrWorkerGlobal());
JS::Rooted<JS::Value> v(cx);
if(!ToJSValue(cx, self, &v)) {
aRv.Throw(NS_ERROR_UNEXPECTED);
return%s;
}
// This is a reflector, but due to trying to name things
// similarly across method generators, it's called obj here.
JS::Rooted<JSObject*> obj(cx);
obj = js::UncheckedUnwrap(&v.toObject(), /* stopAtWindowProxy = */ false);
JSAutoCompartment reflectorCompartment(cx, obj);
""" % self.getDefaultRetval())
def getArgs(self, returnType, argList):
# We don't need the context or the value. We'll generate those instead.
args = CGNativeMember.getArgs(self, returnType, argList)
# Prepend a pointer to the binding object onto the arguments
return [Argument(self.descriptorProvider.nativeType + "*", "self")] + args
def getResultConversion(self):
if self.needsBoolReturn:
return "return aRetVal;\n"
return "return;\n"
def getRvalDecl(self):
if self.needsBoolReturn:
return "bool aRetVal;\n"
return ""
def getArgcDecl(self):
# Don't need argc for anything.
return None
def getDefaultRetval(self):
if self.needsBoolReturn:
return " false"
return ""
def getCall(self):
return CGMaplikeOrSetlikeMethodGenerator(self.descriptorProvider,
self.maplikeOrSetlike,
self.name.lower(),
helperImpl=self).define()
def getPrettyName(self):
return self.name
def declare(self):
return self.implMethod.declare()
def define(self):
return self.implMethod.define()
class CGMaplikeOrSetlikeHelperGenerator(CGNamespace):
"""
Declares and defines convenience methods for accessing backing objects on
setlike/maplike interface. Generates function signatures, un/packs
backing objects from slot, etc.
"""
def __init__(self, descriptor, maplikeOrSetlike):
self.descriptor = descriptor
# Since iterables are folded in with maplike/setlike, make sure we've
# got the right type here.
assert maplikeOrSetlike.isMaplike() or maplikeOrSetlike.isSetlike()
self.maplikeOrSetlike = maplikeOrSetlike
self.namespace = "%sHelpers" % (self.maplikeOrSetlike.maplikeOrSetlikeOrIterableType.title())
self.helpers = [
CGMaplikeOrSetlikeHelperFunctionGenerator(descriptor,
maplikeOrSetlike,
"Clear"),
CGMaplikeOrSetlikeHelperFunctionGenerator(descriptor,
maplikeOrSetlike,
"Delete",
needsKeyArg=True,
needsBoolReturn=True),
CGMaplikeOrSetlikeHelperFunctionGenerator(descriptor,
maplikeOrSetlike,
"Has",
needsKeyArg=True,
needsBoolReturn=True)]
if self.maplikeOrSetlike.isMaplike():
self.helpers.append(
CGMaplikeOrSetlikeHelperFunctionGenerator(descriptor,
maplikeOrSetlike,
"Set",
needsKeyArg=True,
needsValueArg=True))
else:
assert(self.maplikeOrSetlike.isSetlike())
self.helpers.append(
CGMaplikeOrSetlikeHelperFunctionGenerator(descriptor,
maplikeOrSetlike,
"Add",
needsKeyArg=True))
CGNamespace.__init__(self, self.namespace, CGList(self.helpers))
class CGIterableMethodGenerator(CGGeneric):
"""
Creates methods for iterable interfaces. Unwrapping/wrapping
will be taken care of by the usual method generation machinery in
CGMethodCall/CGPerSignatureCall. Functionality is filled in here instead of
using CGCallGenerator.
"""
def __init__(self, descriptor, iterable, methodName):
if methodName == "forEach":
CGGeneric.__init__(self, fill(
"""
if (!JS::IsCallable(arg0)) {
ThrowErrorMessage(cx, MSG_NOT_CALLABLE, "Argument 1 of ${ifaceName}.forEach");
return false;
}
JS::AutoValueArray<3> callArgs(cx);
callArgs[2].setObject(*obj);
JS::Rooted<JS::Value> ignoredReturnVal(cx);
for (size_t i = 0; i < self->GetIterableLength(); ++i) {
if (!ToJSValue(cx, self->GetValueAtIndex(i), callArgs[0])) {
return false;
}
if (!ToJSValue(cx, self->GetKeyAtIndex(i), callArgs[1])) {
return false;
}
if (!JS::Call(cx, arg1, arg0, JS::HandleValueArray(callArgs),
&ignoredReturnVal)) {
return false;
}
}
""",
ifaceName=descriptor.interface.identifier.name))
return
CGGeneric.__init__(self, fill(
"""
typedef ${iterClass} itrType;
RefPtr<itrType> result(new itrType(self,
itrType::IterableIteratorType::${itrMethod},
&${ifaceName}IteratorBinding::Wrap));
""",
iterClass=iteratorNativeType(descriptor),
ifaceName=descriptor.interface.identifier.name,
itrMethod=methodName.title()))
class GlobalGenRoots():
"""
Roots for global codegen.
To generate code, call the method associated with the target, and then
call the appropriate define/declare method.
"""
@staticmethod
def GeneratedAtomList(config):
# Atom enum
dictionaries = config.dictionaries
structs = []
def memberToAtomCacheMember(binaryNameFor, m):
binaryMemberName = binaryNameFor(m.identifier.name)
return ClassMember(CGDictionary.makeIdName(binaryMemberName),
"PinnedStringId", visibility="public")
def buildAtomCacheStructure(idlobj, binaryNameFor, members):
classMembers = [memberToAtomCacheMember(binaryNameFor, m)
for m in members]
structName = idlobj.identifier.name + "Atoms"
return (structName,
CGWrapper(CGClass(structName,
bases=None,
isStruct=True,
members=classMembers), post='\n'))
for dict in dictionaries:
if len(dict.members) == 0:
continue
structs.append(buildAtomCacheStructure(dict, lambda x: x, dict.members))
for d in (config.getDescriptors(isJSImplemented=True) +
config.getDescriptors(isCallback=True)):
members = [m for m in d.interface.members if m.isAttr() or m.isMethod()]
if d.interface.isJSImplemented() and d.interface.ctor():
# We'll have an __init() method.
members.append(FakeMember('__init'))
if len(members) == 0:
continue
structs.append(buildAtomCacheStructure(d.interface,
lambda x: d.binaryNameFor(x),
members))
structs.sort()
generatedStructs = [struct for structName, struct in structs]
structNames = [structName for structName, struct in structs]
mainStruct = CGWrapper(CGClass("PerThreadAtomCache",
bases=[ClassBase(structName) for structName in structNames],
isStruct=True),
post='\n')
structs = CGList(generatedStructs + [mainStruct])
# Wrap all of that in our namespaces.
curr = CGNamespace.build(['mozilla', 'dom'],
CGWrapper(structs, pre='\n'))
curr = CGWrapper(curr, post='\n')
# Add include statement for PinnedStringId.
declareIncludes = ['mozilla/dom/BindingUtils.h']
curr = CGHeaders([], [], [], [], declareIncludes, [], 'GeneratedAtomList',
curr)
# Add include guards.
curr = CGIncludeGuard('GeneratedAtomList', curr)
# Add the auto-generated comment.
curr = CGWrapper(curr, pre=AUTOGENERATED_WARNING_COMMENT)
# Done.
return curr
@staticmethod
def GeneratedEventList(config):
eventList = CGList([])
for generatedEvent in config.generatedEvents:
eventList.append(CGGeneric(declare=("GENERATED_EVENT(%s)\n" % generatedEvent)))
return eventList
@staticmethod
def PrototypeList(config):
# Prototype ID enum.
descriptorsWithPrototype = config.getDescriptors(hasInterfacePrototypeObject=True)
protos = [d.name for d in descriptorsWithPrototype]
idEnum = CGNamespacedEnum('id', 'ID', ['_ID_Start'] + protos,
[0, '_ID_Start'])
idEnum = CGList([idEnum])
def fieldSizeAssert(amount, jitInfoField, message):
maxFieldValue = "(uint64_t(1) << (sizeof(((JSJitInfo*)nullptr)->%s) * 8))" % jitInfoField
return CGGeneric(declare="static_assert(%s < %s, \"%s\");\n\n"
% (amount, maxFieldValue, message))
idEnum.append(fieldSizeAssert("id::_ID_Count", "protoID",
"Too many prototypes!"))
# Wrap all of that in our namespaces.
idEnum = CGNamespace.build(['mozilla', 'dom', 'prototypes'],
CGWrapper(idEnum, pre='\n'))
idEnum = CGWrapper(idEnum, post='\n')
curr = CGList([CGGeneric(define="#include <stdint.h>\n\n"),
idEnum])
# Let things know the maximum length of the prototype chain.
maxMacroName = "MAX_PROTOTYPE_CHAIN_LENGTH"
maxMacro = CGGeneric(declare="#define " + maxMacroName + " " + str(config.maxProtoChainLength))
curr.append(CGWrapper(maxMacro, post='\n\n'))
curr.append(fieldSizeAssert(maxMacroName, "depth",
"Some inheritance chain is too long!"))
# Constructor ID enum.
constructors = [d.name for d in config.getDescriptors(hasInterfaceObject=True)]
idEnum = CGNamespacedEnum('id', 'ID', ['_ID_Start'] + constructors,
['prototypes::id::_ID_Count', '_ID_Start'])
# Wrap all of that in our namespaces.
idEnum = CGNamespace.build(['mozilla', 'dom', 'constructors'],
CGWrapper(idEnum, pre='\n'))
idEnum = CGWrapper(idEnum, post='\n')
curr.append(idEnum)
# Named properties object enum.
namedPropertiesObjects = [d.name for d in config.getDescriptors(hasNamedPropertiesObject=True)]
idEnum = CGNamespacedEnum('id', 'ID', ['_ID_Start'] + namedPropertiesObjects,
['constructors::id::_ID_Count', '_ID_Start'])
# Wrap all of that in our namespaces.
idEnum = CGNamespace.build(['mozilla', 'dom', 'namedpropertiesobjects'],
CGWrapper(idEnum, pre='\n'))
idEnum = CGWrapper(idEnum, post='\n')
curr.append(idEnum)
traitsDecls = [CGGeneric(declare=dedent("""
template <prototypes::ID PrototypeID>
struct PrototypeTraits;
"""))]
traitsDecls.extend(CGPrototypeTraitsClass(d) for d in descriptorsWithPrototype)
ifaceNamesWithProto = [d.interface.identifier.name
for d in descriptorsWithPrototype]
traitsDecls.append(CGStringTable("NamesOfInterfacesWithProtos",
ifaceNamesWithProto))
traitsDecl = CGNamespace.build(['mozilla', 'dom'],
CGList(traitsDecls))
curr.append(traitsDecl)
# Add include guards.
curr = CGIncludeGuard('PrototypeList', curr)
# Add the auto-generated comment.
curr = CGWrapper(curr, pre=AUTOGENERATED_WARNING_COMMENT)
# Done.
return curr
@staticmethod
def RegisterBindings(config):
curr = CGList([CGGlobalNamesString(config), CGRegisterGlobalNames(config)])
# Wrap all of that in our namespaces.
curr = CGNamespace.build(['mozilla', 'dom'],
CGWrapper(curr, post='\n'))
curr = CGWrapper(curr, post='\n')
# Add the includes
defineIncludes = [CGHeaders.getDeclarationFilename(desc.interface)
for desc in config.getDescriptors(hasInterfaceObject=True,
isExposedInWindow=True,
register=True)]
defineIncludes.append('mozilla/dom/WebIDLGlobalNameHash.h')
defineIncludes.extend([CGHeaders.getDeclarationFilename(desc.interface)
for desc in config.getDescriptors(isNavigatorProperty=True,
register=True)])
curr = CGHeaders([], [], [], [], [], defineIncludes, 'RegisterBindings',
curr)
# Add include guards.
curr = CGIncludeGuard('RegisterBindings', curr)
# Done.
return curr
@staticmethod
def RegisterWorkerBindings(config):
curr = CGRegisterWorkerBindings(config)
# Wrap all of that in our namespaces.
curr = CGNamespace.build(['mozilla', 'dom'],
CGWrapper(curr, post='\n'))
curr = CGWrapper(curr, post='\n')
# Add the includes
defineIncludes = [CGHeaders.getDeclarationFilename(desc.interface)
for desc in config.getDescriptors(hasInterfaceObject=True,
register=True,
isExposedInAnyWorker=True)]
curr = CGHeaders([], [], [], [], [], defineIncludes,
'RegisterWorkerBindings', curr)
# Add include guards.
curr = CGIncludeGuard('RegisterWorkerBindings', curr)
# Done.
return curr
@staticmethod
def RegisterWorkerDebuggerBindings(config):
curr = CGRegisterWorkerDebuggerBindings(config)
# Wrap all of that in our namespaces.
curr = CGNamespace.build(['mozilla', 'dom'],
CGWrapper(curr, post='\n'))
curr = CGWrapper(curr, post='\n')
# Add the includes
defineIncludes = [CGHeaders.getDeclarationFilename(desc.interface)
for desc in config.getDescriptors(hasInterfaceObject=True,
register=True,
isExposedInWorkerDebugger=True)]
curr = CGHeaders([], [], [], [], [], defineIncludes,
'RegisterWorkerDebuggerBindings', curr)
# Add include guards.
curr = CGIncludeGuard('RegisterWorkerDebuggerBindings', curr)
# Done.
return curr
@staticmethod
def ResolveSystemBinding(config):
curr = CGResolveSystemBinding(config)
# Wrap all of that in our namespaces.
curr = CGNamespace.build(['mozilla', 'dom'],
CGWrapper(curr, post='\n'))
curr = CGWrapper(curr, post='\n')
# Add the includes
defineIncludes = [CGHeaders.getDeclarationFilename(desc.interface)
for desc in config.getDescriptors(hasInterfaceObject=True,
register=True,
isExposedInSystemGlobals=True)]
defineIncludes.append("nsThreadUtils.h") # For NS_IsMainThread
defineIncludes.append("js/Id.h") # For jsid
defineIncludes.append("mozilla/dom/BindingUtils.h") # AtomizeAndPinJSString
curr = CGHeaders([], [], [], [], [], defineIncludes,
'ResolveSystemBinding', curr)
# Add include guards.
curr = CGIncludeGuard('ResolveSystemBinding', curr)
# Done.
return curr
@staticmethod
def UnionTypes(config):
unionTypes = UnionsForFile(config, None)
(includes, implincludes, declarations,
traverseMethods, unlinkMethods,
unionStructs) = UnionTypes(unionTypes, config)
unions = CGList(traverseMethods +
unlinkMethods +
[CGUnionStruct(t, config) for t in unionStructs] +
[CGUnionStruct(t, config, True) for t in unionStructs],
"\n")
includes.add("mozilla/OwningNonNull.h")
includes.add("mozilla/dom/UnionMember.h")
includes.add("mozilla/dom/BindingDeclarations.h")
# Need BindingUtils.h for FakeString
includes.add("mozilla/dom/BindingUtils.h")
implincludes.add("mozilla/dom/PrimitiveConversions.h")
# Wrap all of that in our namespaces.
curr = CGNamespace.build(['mozilla', 'dom'], unions)
curr = CGWrapper(curr, post='\n')
builder = ForwardDeclarationBuilder()
for className, isStruct in declarations:
builder.add(className, isStruct=isStruct)
curr = CGList([builder.build(), curr], "\n")
curr = CGHeaders([], [], [], [], includes, implincludes, 'UnionTypes',
curr)
# Add include guards.
curr = CGIncludeGuard('UnionTypes', curr)
# Done.
return curr
@staticmethod
def UnionConversions(config):
unionTypes = []
for l in config.unionsPerFilename.itervalues():
unionTypes.extend(l)
unionTypes.sort(key=lambda u: u.name)
headers, unions = UnionConversions(unionTypes,
config)
# Wrap all of that in our namespaces.
curr = CGNamespace.build(['mozilla', 'dom'], unions)
curr = CGWrapper(curr, post='\n')
headers.update(["nsDebug.h", "mozilla/dom/UnionTypes.h"])
curr = CGHeaders([], [], [], [], headers, [], 'UnionConversions', curr)
# Add include guards.
curr = CGIncludeGuard('UnionConversions', curr)
# Done.
return curr
# Code generator for simple events
class CGEventGetter(CGNativeMember):
def __init__(self, descriptor, attr):
ea = descriptor.getExtendedAttributes(attr, getter=True)
CGNativeMember.__init__(self, descriptor, attr,
CGSpecializedGetter.makeNativeName(descriptor,
attr),
(attr.type, []),
ea,
resultNotAddRefed=not attr.type.isSequence())
self.body = self.getMethodBody()
def getArgs(self, returnType, argList):
if 'infallible' not in self.extendedAttrs:
raise TypeError("Event code generator does not support [Throws]!")
if not self.member.isAttr():
raise TypeError("Event code generator does not support methods")
if self.member.isStatic():
raise TypeError("Event code generators does not support static attributes")
return CGNativeMember.getArgs(self, returnType, argList)
def getMethodBody(self):
type = self.member.type
memberName = CGDictionary.makeMemberName(self.member.identifier.name)
if (type.isPrimitive() and type.tag() in builtinNames) or type.isEnum() or type.isGeckoInterface():
return "return " + memberName + ";\n"
if type.isDOMString() or type.isByteString() or type.isUSVString():
return "aRetVal = " + memberName + ";\n"
if type.isSpiderMonkeyInterface() or type.isObject():
return fill(
"""
if (${memberName}) {
JS::ExposeObjectToActiveJS(${memberName});
}
aRetVal.set(${memberName});
return;
""",
memberName=memberName)
if type.isAny():
return fill(
"""
${selfName}(aRetVal);
""",
selfName=self.name)
if type.isUnion():
return "aRetVal = " + memberName + ";\n"
if type.isSequence():
return "aRetVal = " + memberName + ";\n"
raise TypeError("Event code generator does not support this type!")
def declare(self, cgClass):
if getattr(self.member, "originatingInterface",
cgClass.descriptor.interface) != cgClass.descriptor.interface:
return ""
return CGNativeMember.declare(self, cgClass)
def define(self, cgClass):
if getattr(self.member, "originatingInterface",
cgClass.descriptor.interface) != cgClass.descriptor.interface:
return ""
return CGNativeMember.define(self, cgClass)
class CGEventSetter(CGNativeMember):
def __init__(self):
raise TypeError("Event code generator does not support setters!")
class CGEventMethod(CGNativeMember):
def __init__(self, descriptor, method, signature, isConstructor, breakAfter=True):
self.isInit = False
CGNativeMember.__init__(self, descriptor, method,
CGSpecializedMethod.makeNativeName(descriptor,
method),
signature,
descriptor.getExtendedAttributes(method),
breakAfter=breakAfter,
variadicIsSequence=True)
self.originalArgs = list(self.args)
iface = descriptor.interface
allowed = isConstructor
if not allowed and iface.getExtendedAttribute("LegacyEventInit"):
# Allow it, only if it fits the initFooEvent profile exactly
# We could check the arg types but it's not worth the effort.
if (method.identifier.name == "init" + iface.identifier.name and
signature[1][0].type.isDOMString() and
signature[1][1].type.isBoolean() and
signature[1][2].type.isBoolean() and
# -3 on the left to ignore the type, bubbles, and cancelable parameters
# -1 on the right to ignore the .trusted property which bleeds through
# here because it is [Unforgeable].
len(signature[1]) - 3 == len(filter(lambda x: x.isAttr(), iface.members)) - 1):
allowed = True
self.isInit = True
if not allowed:
raise TypeError("Event code generator does not support methods!")
def getArgs(self, returnType, argList):
args = [self.getArg(arg) for arg in argList]
return args
def getArg(self, arg):
decl, ref = self.getArgType(arg.type,
arg.canHaveMissingValue(),
"Variadic" if arg.variadic else False)
if ref:
decl = CGWrapper(decl, pre="const ", post="&")
name = arg.identifier.name
name = "a" + name[0].upper() + name[1:]
return Argument(decl.define(), name)
def declare(self, cgClass):
if self.isInit:
constructorForNativeCaller = ""
else:
self.args = list(self.originalArgs)
self.args.insert(0, Argument("mozilla::dom::EventTarget*", "aOwner"))
constructorForNativeCaller = CGNativeMember.declare(self, cgClass)
self.args = list(self.originalArgs)
if needCx(None, self.arguments(), [], considerTypes=True, static=True):
self.args.insert(0, Argument("JSContext*", "aCx"))
if not self.isInit:
self.args.insert(0, Argument("const GlobalObject&", "aGlobal"))
self.args.append(Argument('ErrorResult&', 'aRv'))
return constructorForNativeCaller + CGNativeMember.declare(self, cgClass)
def defineInit(self, cgClass):
iface = self.descriptorProvider.interface
members = ""
while iface.identifier.name != "Event":
i = 3 # Skip the boilerplate args: type, bubble,s cancelable.
for m in iface.members:
if m.isAttr():
# We need to initialize all the member variables that do
# not come from Event.
if getattr(m, "originatingInterface",
iface).identifier.name == "Event":
continue
name = CGDictionary.makeMemberName(m.identifier.name)
members += "%s = %s;\n" % (name, self.args[i].name)
i += 1
iface = iface.parent
self.body = fill(
"""
InitEvent(${typeArg}, ${bubblesArg}, ${cancelableArg});
${members}
""",
typeArg=self.args[0].name,
bubblesArg=self.args[1].name,
cancelableArg=self.args[2].name,
members=members)
return CGNativeMember.define(self, cgClass)
def define(self, cgClass):
self.args = list(self.originalArgs)
if self.isInit:
return self.defineInit(cgClass)
members = ""
holdJS = ""
iface = self.descriptorProvider.interface
while iface.identifier.name != "Event":
for m in self.descriptorProvider.getDescriptor(iface.identifier.name).interface.members:
if m.isAttr():
# We initialize all the other member variables in the
# Constructor except those ones coming from the Event.
if getattr(m, "originatingInterface",
cgClass.descriptor.interface).identifier.name == "Event":
continue
name = CGDictionary.makeMemberName(m.identifier.name)
if m.type.isSequence():
# For sequences we may not be able to do a simple
# assignment because the underlying types may not match.
# For example, the argument can be a
# Sequence<OwningNonNull<SomeInterface>> while our
# member is an nsTArray<RefPtr<SomeInterface>>. So
# use AppendElements, which is actually a template on
# the incoming type on nsTArray and does the right thing
# for this case.
target = name
source = "%s.%s" % (self.args[1].name, name)
sequenceCopy = "e->%s.AppendElements(%s);\n"
if m.type.nullable():
sequenceCopy = CGIfWrapper(
CGGeneric(sequenceCopy),
"!%s.IsNull()" % source).define()
target += ".SetValue()"
source += ".Value()"
members += sequenceCopy % (target, source)
elif m.type.isSpiderMonkeyInterface():
srcname = "%s.%s" % (self.args[1].name, name)
if m.type.nullable():
members += fill(
"""
if (${srcname}.IsNull()) {
e->${varname} = nullptr;
} else {
e->${varname} = ${srcname}.Value().Obj();
}
""",
varname=name,
srcname=srcname)
else:
members += fill(
"""
e->${varname}.set(${srcname}.Obj());
""",
varname=name, srcname=srcname)
else:
members += "e->%s = %s.%s;\n" % (name, self.args[1].name, name)
if m.type.isAny() or m.type.isObject() or m.type.isSpiderMonkeyInterface():
holdJS = "mozilla::HoldJSObjects(e.get());\n"
iface = iface.parent
self.body = fill(
"""
RefPtr<${nativeType}> e = new ${nativeType}(aOwner);
bool trusted = e->Init(aOwner);
e->InitEvent(${eventType}, ${eventInit}.mBubbles, ${eventInit}.mCancelable);
$*{members}
e->SetTrusted(trusted);
$*{holdJS}
return e.forget();
""",
nativeType=self.descriptorProvider.nativeType.split('::')[-1],
eventType=self.args[0].name,
eventInit=self.args[1].name,
members=members,
holdJS=holdJS)
self.args.insert(0, Argument("mozilla::dom::EventTarget*", "aOwner"))
constructorForNativeCaller = CGNativeMember.define(self, cgClass) + "\n"
self.args = list(self.originalArgs)
self.body = fill(
"""
nsCOMPtr<mozilla::dom::EventTarget> owner = do_QueryInterface(aGlobal.GetAsSupports());
return Constructor(owner, ${arg0}, ${arg1});
""",
arg0=self.args[0].name,
arg1=self.args[1].name)
if needCx(None, self.arguments(), [], considerTypes=True, static=True):
self.args.insert(0, Argument("JSContext*", "aCx"))
self.args.insert(0, Argument("const GlobalObject&", "aGlobal"))
self.args.append(Argument('ErrorResult&', 'aRv'))
return constructorForNativeCaller + CGNativeMember.define(self, cgClass)
class CGEventClass(CGBindingImplClass):
"""
Codegen for the actual Event class implementation for this descriptor
"""
def __init__(self, descriptor):
CGBindingImplClass.__init__(self, descriptor, CGEventMethod, CGEventGetter, CGEventSetter, False, "WrapObjectInternal")
members = []
extraMethods = []
for m in descriptor.interface.members:
if m.isAttr():
if m.type.isAny():
# Add a getter that doesn't need a JSContext. Note that we
# don't need to do this if our originating interface is not
# the descriptor's interface, because in that case we
# wouldn't generate the getter that _does_ need a JSContext
# either.
extraMethods.append(
ClassMethod(
CGSpecializedGetter.makeNativeName(descriptor, m),
"void",
[Argument("JS::MutableHandle<JS::Value>",
"aRetVal")],
const=True,
body=fill(
"""
JS::ExposeValueToActiveJS(${memberName});
aRetVal.set(${memberName});
""",
memberName=CGDictionary.makeMemberName(m.identifier.name))))
if getattr(m, "originatingInterface",
descriptor.interface) != descriptor.interface:
continue
nativeType = self.getNativeTypeForIDLType(m.type).define()
members.append(ClassMember(CGDictionary.makeMemberName(m.identifier.name),
nativeType,
visibility="private",
body="body"))
parent = self.descriptor.interface.parent
self.parentType = self.descriptor.getDescriptor(parent.identifier.name).nativeType.split('::')[-1]
baseDeclarations = fill(
"""
public:
NS_DECL_ISUPPORTS_INHERITED
NS_DECL_CYCLE_COLLECTION_SCRIPT_HOLDER_CLASS_INHERITED(${nativeType}, ${parentType})
protected:
virtual ~${nativeType}();
explicit ${nativeType}(mozilla::dom::EventTarget* aOwner);
""",
nativeType=self.descriptor.nativeType.split('::')[-1],
parentType=self.parentType)
className = descriptor.nativeType.split('::')[-1]
asConcreteTypeMethod = ClassMethod("As%s" % className,
"%s*" % className,
[],
virtual=True,
body="return this;\n",
breakAfterReturnDecl=" ",
override=True)
extraMethods.append(asConcreteTypeMethod)
CGClass.__init__(self, className,
bases=[ClassBase(self.parentType)],
methods=extraMethods+self.methodDecls,
members=members,
extradeclarations=baseDeclarations)
def getWrapObjectBody(self):
return "return %sBinding::Wrap(aCx, this, aGivenProto);\n" % self.descriptor.name
def implTraverse(self):
retVal = ""
for m in self.descriptor.interface.members:
# Unroll the type so we pick up sequences of interfaces too.
if m.isAttr() and idlTypeNeedsCycleCollection(m.type):
retVal += (" NS_IMPL_CYCLE_COLLECTION_TRAVERSE(" +
CGDictionary.makeMemberName(m.identifier.name) +
")\n")
return retVal
def implUnlink(self):
retVal = ""
for m in self.descriptor.interface.members:
if m.isAttr():
name = CGDictionary.makeMemberName(m.identifier.name)
# Unroll the type so we pick up sequences of interfaces too.
if idlTypeNeedsCycleCollection(m.type):
retVal += " NS_IMPL_CYCLE_COLLECTION_UNLINK(" + name + ")\n"
elif m.type.isAny():
retVal += " tmp->" + name + ".setUndefined();\n"
elif m.type.isObject() or m.type.isSpiderMonkeyInterface():
retVal += " tmp->" + name + " = nullptr;\n"
return retVal
def implTrace(self):
retVal = ""
for m in self.descriptor.interface.members:
if m.isAttr():
name = CGDictionary.makeMemberName(m.identifier.name)
if m.type.isAny() or m.type.isObject() or m.type.isSpiderMonkeyInterface():
retVal += " NS_IMPL_CYCLE_COLLECTION_TRACE_JS_MEMBER_CALLBACK(" + name + ")\n"
elif typeNeedsRooting(m.type):
raise TypeError("Need to implement tracing for event "
"member of type %s" % m.type)
return retVal
def define(self):
dropJS = ""
for m in self.descriptor.interface.members:
if m.isAttr():
member = CGDictionary.makeMemberName(m.identifier.name)
if m.type.isAny():
dropJS += member + " = JS::UndefinedValue();\n"
elif m.type.isObject() or m.type.isSpiderMonkeyInterface():
dropJS += member + " = nullptr;\n"
if dropJS != "":
dropJS += "mozilla::DropJSObjects(this);\n"
# Just override CGClass and do our own thing
nativeType = self.descriptor.nativeType.split('::')[-1]
ctorParams = ("aOwner, nullptr, nullptr" if self.parentType == "Event"
else "aOwner")
classImpl = fill(
"""
NS_IMPL_CYCLE_COLLECTION_CLASS(${nativeType})
NS_IMPL_ADDREF_INHERITED(${nativeType}, ${parentType})
NS_IMPL_RELEASE_INHERITED(${nativeType}, ${parentType})
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN_INHERITED(${nativeType}, ${parentType})
$*{traverse}
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END
NS_IMPL_CYCLE_COLLECTION_TRACE_BEGIN_INHERITED(${nativeType}, ${parentType})
$*{trace}
NS_IMPL_CYCLE_COLLECTION_TRACE_END
NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN_INHERITED(${nativeType}, ${parentType})
$*{unlink}
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION_INHERITED(${nativeType})
NS_INTERFACE_MAP_END_INHERITING(${parentType})
${nativeType}::${nativeType}(mozilla::dom::EventTarget* aOwner)
: ${parentType}(${ctorParams})
{
}
${nativeType}::~${nativeType}()
{
$*{dropJS}
}
""",
ifaceName=self.descriptor.name,
nativeType=nativeType,
ctorParams=ctorParams,
parentType=self.parentType,
traverse=self.implTraverse(),
unlink=self.implUnlink(),
trace=self.implTrace(),
dropJS=dropJS)
return classImpl + CGBindingImplClass.define(self)
def getNativeTypeForIDLType(self, type):
if type.isPrimitive() and type.tag() in builtinNames:
nativeType = CGGeneric(builtinNames[type.tag()])
if type.nullable():
nativeType = CGTemplatedType("Nullable", nativeType)
elif type.isEnum():
nativeType = CGGeneric(type.unroll().inner.identifier.name)
if type.nullable():
nativeType = CGTemplatedType("Nullable", nativeType)
elif type.isDOMString() or type.isUSVString():
nativeType = CGGeneric("nsString")
elif type.isByteString():
nativeType = CGGeneric("nsCString")
elif type.isGeckoInterface():
iface = type.unroll().inner
nativeType = self.descriptor.getDescriptor(
iface.identifier.name).nativeType
# Now trim off unnecessary namespaces
nativeType = nativeType.split("::")
if nativeType[0] == "mozilla":
nativeType.pop(0)
if nativeType[0] == "dom":
nativeType.pop(0)
nativeType = CGWrapper(CGGeneric("::".join(nativeType)), pre="RefPtr<", post=">")
elif type.isAny():
nativeType = CGGeneric("JS::Heap<JS::Value>")
elif type.isObject() or type.isSpiderMonkeyInterface():
nativeType = CGGeneric("JS::Heap<JSObject*>")
elif type.isUnion():
nativeType = CGGeneric(CGUnionStruct.unionTypeDecl(type, True))
elif type.isSequence():
if type.nullable():
innerType = type.inner.inner
else:
innerType = type.inner
if (not innerType.isPrimitive() and not innerType.isEnum() and
not innerType.isDOMString() and not innerType.isByteString() and
not innerType.isGeckoInterface()):
raise TypeError("Don't know how to properly manage GC/CC for "
"event member of type %s" %
type)
nativeType = CGTemplatedType(
"nsTArray",
self.getNativeTypeForIDLType(innerType))
if type.nullable():
nativeType = CGTemplatedType("Nullable", nativeType)
else:
raise TypeError("Don't know how to declare event member of type %s" %
type)
return nativeType
class CGEventRoot(CGThing):
def __init__(self, config, interfaceName):
descriptor = config.getDescriptor(interfaceName)
self.root = CGWrapper(CGEventClass(descriptor),
pre="\n", post="\n")
self.root = CGNamespace.build(["mozilla", "dom"], self.root)
self.root = CGList([CGClassForwardDeclare("JSContext", isStruct=True),
self.root])
parent = descriptor.interface.parent.identifier.name
# Throw in our #includes
self.root = CGHeaders(
[descriptor],
[],
[],
[],
[
config.getDescriptor(parent).headerFile,
"mozilla/Attributes.h",
"mozilla/ErrorResult.h",
"mozilla/dom/%sBinding.h" % interfaceName,
'mozilla/dom/BindingUtils.h',
],
[
"%s.h" % interfaceName,
"js/GCAPI.h",
'mozilla/dom/Nullable.h',
],
"", self.root, config)
# And now some include guards
self.root = CGIncludeGuard(interfaceName, self.root)
self.root = CGWrapper(
self.root,
pre=(AUTOGENERATED_WITH_SOURCE_WARNING_COMMENT %
os.path.basename(descriptor.interface.filename())))
self.root = CGWrapper(self.root, pre=dedent("""
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
"""))
def declare(self):
return self.root.declare()
def define(self):
return self.root.define()
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