# 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 https://mozilla.org/MPL/2.0/. # Common codegen classes. from collections import defaultdict from itertools import groupby import operator import os import re import string import textwrap import functools from WebIDL import ( BuiltinTypes, IDLBuiltinType, IDLEmptySequenceValue, IDLInterfaceMember, IDLNullableType, IDLNullValue, IDLObject, IDLPromiseType, IDLType, IDLUndefinedValue, IDLWrapperType, ) from Configuration import ( MakeNativeName, MemberIsUnforgeable, getModuleFromObject, getTypesFromCallback, getTypesFromDescriptor, getTypesFromDictionary, iteratorNativeType ) AUTOGENERATED_WARNING_COMMENT = \ "/* THIS FILE IS AUTOGENERATED - DO NOT EDIT */\n\n" FINALIZE_HOOK_NAME = '_finalize' TRACE_HOOK_NAME = '_trace' CONSTRUCT_HOOK_NAME = '_constructor' HASINSTANCE_HOOK_NAME = '_hasInstance' RUST_KEYWORDS = {"abstract", "alignof", "as", "become", "box", "break", "const", "continue", "else", "enum", "extern", "false", "final", "fn", "for", "if", "impl", "in", "let", "loop", "macro", "match", "mod", "move", "mut", "offsetof", "override", "priv", "proc", "pub", "pure", "ref", "return", "static", "self", "sizeof", "struct", "super", "true", "trait", "type", "typeof", "unsafe", "unsized", "use", "virtual", "where", "while", "yield"} def replaceFileIfChanged(filename, newContents): """ Read a copy of the old file, so that we don't touch it if it hasn't changed. Returns True if the file was updated, false otherwise. """ # XXXjdm This doesn't play well with make right now. # Force the file to always be updated, or else changing CodegenRust.py # will cause many autogenerated bindings to be regenerated perpetually # until the result is actually different. # oldFileContents = "" # try: # with open(filename, 'rb') as oldFile: # oldFileContents = ''.join(oldFile.readlines()) # except: # pass # if newContents == oldFileContents: # return False with open(filename, 'wb') as f: f.write(newContents) return True def toStringBool(arg): return str(not not arg).lower() def toBindingNamespace(arg): return re.sub("((_workers)?$)", "Binding\\1", MakeNativeName(arg)) def stripTrailingWhitespace(text): tail = '\n' if text.endswith('\n') else '' lines = text.splitlines() for i in range(len(lines)): lines[i] = lines[i].rstrip() return '\n'.join(lines) + tail def innerContainerType(type): assert type.isSequence() or type.isRecord() return type.inner.inner if type.nullable() else type.inner def wrapInNativeContainerType(type, inner): if type.isSequence(): containerType = "Vec" elif type.isRecord(): containerType = "MozMap" else: raise TypeError("Unexpected container type %s", type) return CGWrapper(inner, pre=containerType + "<", post=">") builtinNames = { IDLType.Tags.bool: 'bool', IDLType.Tags.int8: 'i8', IDLType.Tags.int16: 'i16', IDLType.Tags.int32: 'i32', IDLType.Tags.int64: 'i64', IDLType.Tags.uint8: 'u8', IDLType.Tags.uint16: 'u16', IDLType.Tags.uint32: 'u32', IDLType.Tags.uint64: 'u64', IDLType.Tags.unrestricted_float: 'f32', IDLType.Tags.float: 'Finite', IDLType.Tags.unrestricted_double: 'f64', IDLType.Tags.double: 'Finite' } numericTags = [ IDLType.Tags.int8, IDLType.Tags.uint8, IDLType.Tags.int16, IDLType.Tags.uint16, IDLType.Tags.int32, IDLType.Tags.uint32, IDLType.Tags.int64, IDLType.Tags.uint64, IDLType.Tags.unrestricted_float, IDLType.Tags.unrestricted_double ] # 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)?") @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) 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 define(self): """Produce code for a Rust file.""" raise NotImplementedError # Override me! 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, argsPre, nativeMethodName, static, descriptor, method): CGThing.__init__(self) methodName = '\\"%s.%s\\"' % (descriptor.interface.identifier.name, method.identifier.name) 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 signatures = method.signatures() def getPerSignatureCall(signature, argConversionStartsAt=0): signatureIndex = signatures.index(signature) return CGPerSignatureCall(signature[0], argsPre, signature[1], nativeMethodName + '_' * signatureIndex, static, descriptor, method, argConversionStartsAt) 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) if requiredArgs > 0: code = ( "if argc < %d {\n" " throw_type_error(cx, \"Not enough arguments to %s.\");\n" " return false;\n" "}" % (requiredArgs, methodName)) self.cgRoot.prepend( CGWrapper(CGGeneric(code), pre="\n", post="\n")) return # Need to find the right overload maxArgCount = method.maxArgCount allowedArgCounts = method.allowedArgCounts argCountCases = [] for argCount in allowedArgCounts: possibleSignatures = method.signaturesForArgCount(argCount) if len(possibleSignatures) == 1: # easy case! signature = possibleSignatures[0] argCountCases.append(CGCase(str(argCount), getPerSignatureCall(signature))) continue distinguishingIndex = method.distinguishingIndexForArgCount(argCount) # We can't handle unions of non-object values at the distinguishing index. for (returnType, args) in possibleSignatures: type = args[distinguishingIndex].type if type.isUnion(): if type.nullable(): type = type.inner for type in type.flatMemberTypes: if not (type.isObject() or type.isNonCallbackInterface()): raise TypeError("No support for unions with non-object variants " "as distinguishing arguments yet: %s", args[distinguishingIndex].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, "args", "argc", descriptor) for i in range(0, distinguishingIndex)] # Select the right overload from our set. distinguishingArg = "HandleValue::from_raw(args.get(%d))" % distinguishingIndex def pickFirstSignature(condition, filterLambda): sigs = filter(filterLambda, possibleSignatures) assert len(sigs) < 2 if len(sigs) > 0: call = getPerSignatureCall(sigs[0], distinguishingIndex) if condition is None: caseBody.append(call) else: caseBody.append(CGGeneric("if " + condition + " {")) caseBody.append(CGIndenter(call)) caseBody.append(CGGeneric("}")) return True return False # First check for null or undefined pickFirstSignature("%s.get().is_null_or_undefined()" % distinguishingArg, lambda s: (s[1][distinguishingIndex].type.nullable() or s[1][distinguishingIndex].type.isDictionary())) # Now check for distinguishingArg being an object that implements a # non-callback interface. That includes typed arrays and # arraybuffers. interfacesSigs = [ s for s in possibleSignatures if (s[1][distinguishingIndex].type.isObject() or s[1][distinguishingIndex].type.isUnion() or s[1][distinguishingIndex].type.isNonCallbackInterface())] # There might be more than one of these; we need to check # which ones we unwrap to. if len(interfacesSigs) > 0: # The spec says that we should check for "platform objects # implementing an interface", but it's enough to guard on these # being an object. The code for unwrapping non-callback # interfaces and typed arrays will just bail out and move on to # the next overload if the object fails to unwrap correctly. 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.get().is_object() {" % (distinguishingArg))) for idx, sig in enumerate(interfacesSigs): caseBody.append(CGIndenter(CGGeneric("loop {"))) type = sig[1][distinguishingIndex].type # 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. info = getJSToNativeConversionInfo( type, descriptor, failureCode="break;", isDefinitelyObject=True) template = info.template declType = info.declType testCode = instantiateJSToNativeConversionTemplate( template, {"val": distinguishingArg}, declType, "arg%d" % distinguishingIndex, needsAutoRoot=type_needs_auto_root(type)) # Indent by 4, since we need to indent further than our "do" statement caseBody.append(CGIndenter(testCode, 4)) # If we got this far, we know we unwrapped to the right # interface, so just do the call. Start conversion with # distinguishingIndex + 1, since we already converted # distinguishingIndex. caseBody.append(CGIndenter( getPerSignatureCall(sig, distinguishingIndex + 1), 4)) caseBody.append(CGIndenter(CGGeneric("}"))) caseBody.append(CGGeneric("}")) # XXXbz Now we're supposed to check for distinguishingArg being # an array or a platform object that supports indexed # properties... skip that last for now. It's a bit of a pain. pickFirstSignature("%s.get().is_object() && is_array_like(cx, %s)" % (distinguishingArg, distinguishingArg), lambda s: (s[1][distinguishingIndex].type.isSequence() or s[1][distinguishingIndex].type.isObject())) # Check for Date objects # XXXbz Do we need to worry about security wrappers around the Date? pickFirstSignature("%s.get().is_object() && " "{ rooted!(in(cx) let obj = %s.get().to_object()); " "let mut is_date = false; " "assert!(ObjectIsDate(cx, obj.handle(), &mut is_date)); " "is_date }" % (distinguishingArg, distinguishingArg), lambda s: (s[1][distinguishingIndex].type.isDate() or s[1][distinguishingIndex].type.isObject())) # Check for vanilla JS objects # XXXbz Do we need to worry about security wrappers? pickFirstSignature("%s.get().is_object() && !is_platform_object(%s.get().to_object(), cx)" % (distinguishingArg, distinguishingArg), lambda s: (s[1][distinguishingIndex].type.isCallback() or s[1][distinguishingIndex].type.isCallbackInterface() or s[1][distinguishingIndex].type.isDictionary() or s[1][distinguishingIndex].type.isObject())) # The remaining cases are mutually exclusive. The # pickFirstSignature calls are what change caseBody # Check for strings or enums if pickFirstSignature(None, lambda s: (s[1][distinguishingIndex].type.isString() or s[1][distinguishingIndex].type.isEnum())): pass # Check for primitives elif pickFirstSignature(None, lambda s: s[1][distinguishingIndex].type.isPrimitive()): pass # Check for "any" elif pickFirstSignature(None, lambda s: s[1][distinguishingIndex].type.isAny()): pass else: # Just throw; we have no idea what we're supposed to # do with this. caseBody.append(CGGeneric("throw_internal_error(cx, \"Could not convert JavaScript argument\");\n" "return false;")) argCountCases.append(CGCase(str(argCount), CGList(caseBody, "\n"))) overloadCGThings = [] overloadCGThings.append( CGGeneric("let argcount = cmp::min(argc, %d);" % maxArgCount)) overloadCGThings.append( CGSwitch("argcount", argCountCases, CGGeneric("throw_type_error(cx, \"Not enough arguments to %s.\");\n" "return false;" % methodName))) # XXXjdm Avoid unreachable statement warnings # overloadCGThings.append( # CGGeneric('panic!("We have an always-returning default case");\n' # 'return false;')) self.cgRoot = CGWrapper(CGList(overloadCGThings, "\n"), pre="\n") def define(self): return self.cgRoot.define() def dictionaryHasSequenceMember(dictionary): return (any(typeIsSequenceOrHasSequenceMember(m.type) for m in dictionary.members) or (dictionary.parent and dictionaryHasSequenceMember(dictionary.parent))) def typeIsSequenceOrHasSequenceMember(type): if type.nullable(): type = type.inner if type.isSequence(): return True if type.isDictionary(): return dictionaryHasSequenceMember(type.inner) if type.isUnion(): return any(typeIsSequenceOrHasSequenceMember(m.type) for m in type.flatMemberTypes) return False def union_native_type(t): name = t.unroll().name return 'UnionTypes::%s' % name class JSToNativeConversionInfo(): """ An object representing information about a JS-to-native conversion. """ def __init__(self, template, default=None, declType=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 default: A string or None representing rust code for default value(if any). 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. """ assert isinstance(template, str) assert declType is None or isinstance(declType, CGThing) self.template = template self.default = default self.declType = declType def getJSToNativeConversionInfo(type, descriptorProvider, failureCode=None, isDefinitelyObject=False, isMember=False, isArgument=False, isAutoRooted=False, invalidEnumValueFatal=True, defaultValue=None, exceptionCode=None, allowTreatNonObjectAsNull=False, isCallbackReturnValue=False, sourceDescription="value"): """ 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. If isDefinitelyObject is True, that means we know the value isObject() and we have no need to recheck that. isMember is `False`, "Dictionary", "Union" or "Variadic", and affects whether this function returns code suitable for an on-stack rooted binding or suitable for storing in an appropriate larger structure. 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 allowTreatNonObjectAsNull is true, then [TreatNonObjectAsNull] extended attributes on nullable callback functions will be honored. The return value from this function is an object of JSToNativeConversionInfo consisting of four things: 1) A string representing the conversion code. This will have template substitution performed on it as follows: ${val} replaced by an expression for the JS::Value in question 2) A string or None representing Rust code for the default value (if any). 3) A CGThing representing the native C++ type we're converting to (declType). This is allowed to be None if the conversion code is supposed to be used as-is. 4) A boolean indicating whether the caller has to root the result. """ # We should not have a defaultValue if we know we're an object assert not isDefinitelyObject or defaultValue is None isEnforceRange = type.enforceRange isClamp = type.clamp if type.treatNullAsEmpty: treatNullAs = "EmptyString" else: treatNullAs = "Default" # 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" if failureCode is None: failOrPropagate = "throw_type_error(cx, &error);\n%s" % exceptionCode else: failOrPropagate = failureCode def handleOptional(template, declType, default): assert (defaultValue is None) == (default is None) return JSToNativeConversionInfo(template, default, declType) # 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 CGWrapper( CGGeneric( failureCode or ('throw_type_error(cx, "%s is not an object.");\n' '%s' % (firstCap(sourceDescription), exceptionCode))), post="\n") def onFailureInvalidEnumValue(failureCode, passedVarName): return CGGeneric( failureCode or ('throw_type_error(cx, &format!("\'{}\' is not a valid enum value for enumeration \'%s\'.", %s)); %s' % (type.name, passedVarName, exceptionCode))) def onFailureNotCallable(failureCode): return CGGeneric( failureCode or ('throw_type_error(cx, \"%s is not callable.\");\n' '%s' % (firstCap(sourceDescription), exceptionCode))) # A helper function for handling default values. def handleDefault(nullValue): if defaultValue is None: return None if isinstance(defaultValue, IDLNullValue): assert type.nullable() or type.isDictionary() return nullValue elif isinstance(defaultValue, IDLEmptySequenceValue): assert type.isSequence() return "Vec::new()" raise TypeError("Can't handle non-null or non-empty sequence default value here") # A helper function for wrapping up the template body for # possibly-nullable objecty stuff def wrapObjectTemplate(templateBody, nullValue, isDefinitelyObject, type, failureCode=None): if not isDefinitelyObject: # Handle the non-object cases by wrapping up the whole # thing in an if cascade. templateBody = ( "if ${val}.get().is_object() {\n" + CGIndenter(CGGeneric(templateBody)).define() + "\n") if type.nullable(): templateBody += ( "} else if ${val}.get().is_null_or_undefined() {\n" " %s\n") % nullValue templateBody += ( "} else {\n" + CGIndenter(onFailureNotAnObject(failureCode)).define() + "}") return templateBody assert not (isEnforceRange and isClamp) # These are mutually exclusive if type.isSequence() or type.isRecord(): innerInfo = getJSToNativeConversionInfo(innerContainerType(type), descriptorProvider, isMember=isMember, isAutoRooted=isAutoRooted) declType = wrapInNativeContainerType(type, innerInfo.declType) config = getConversionConfigForType(type, isEnforceRange, isClamp, treatNullAs) if type.nullable(): declType = CGWrapper(declType, pre="Option<", post=" >") templateBody = ("match FromJSValConvertible::from_jsval(cx, ${val}, %s) {\n" " Ok(ConversionResult::Success(value)) => value,\n" " Ok(ConversionResult::Failure(error)) => {\n" "%s\n" " }\n" " _ => { %s },\n" "}" % (config, indent(failOrPropagate, 8), exceptionCode)) return handleOptional(templateBody, declType, handleDefault("None")) if type.isUnion(): declType = CGGeneric(union_native_type(type)) if type.nullable(): declType = CGWrapper(declType, pre="Option<", post=" >") templateBody = ("match FromJSValConvertible::from_jsval(cx, ${val}, ()) {\n" " Ok(ConversionResult::Success(value)) => value,\n" " Ok(ConversionResult::Failure(error)) => {\n" "%s\n" " }\n" " _ => { %s },\n" "}" % (indent(failOrPropagate, 8), exceptionCode)) dictionaries = [ memberType for memberType in type.unroll().flatMemberTypes if memberType.isDictionary() ] if defaultValue and not isinstance(defaultValue, IDLNullValue): tag = defaultValue.type.tag() if tag is IDLType.Tags.bool: default = "%s::Boolean(%s)" % ( union_native_type(type), "true" if defaultValue.value else "false") else: raise("We don't currently support default values that aren't null or boolean") elif dictionaries: if defaultValue: assert isinstance(defaultValue, IDLNullValue) dictionary, = dictionaries default = "%s::%s(%s::%s::empty())" % ( union_native_type(type), dictionary.name, CGDictionary.makeModuleName(dictionary.inner), CGDictionary.makeDictionaryName(dictionary.inner)) else: default = None else: default = handleDefault("None") return handleOptional(templateBody, declType, default) if type.isPromise(): assert not type.nullable() # 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 # a couple 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) 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. templateBody = fill( """ { // Scope for our JSAutoRealm. rooted!(in(cx) let globalObj = CurrentGlobalOrNull(cx)); let promiseGlobal = GlobalScope::from_object_maybe_wrapped(globalObj.handle().get(), cx); rooted!(in(cx) let mut valueToResolve = $${val}.get()); if !JS_WrapValue(cx, valueToResolve.handle_mut()) { $*{exceptionCode} } match Promise::new_resolved(&promiseGlobal, cx, valueToResolve.handle()) { Ok(value) => value, Err(error) => { throw_dom_exception(cx, &promiseGlobal, error); $*{exceptionCode} } } } """, exceptionCode=exceptionCode) if isArgument: declType = CGGeneric("&Promise") else: declType = CGGeneric("Rc") return handleOptional(templateBody, declType, handleDefault("None")) if type.isGeckoInterface(): assert not isEnforceRange and not isClamp descriptor = descriptorProvider.getDescriptor( type.unroll().inner.identifier.name) if descriptor.interface.isCallback(): name = descriptor.nativeType declType = CGWrapper(CGGeneric(name), pre="Rc<", post=">") template = "%s::new(cx, ${val}.get().to_object())" % name if type.nullable(): declType = CGWrapper(declType, pre="Option<", post=">") template = wrapObjectTemplate("Some(%s)" % template, "None", isDefinitelyObject, type, failureCode) return handleOptional(template, declType, handleDefault("None")) conversionFunction = "root_from_handlevalue" descriptorType = descriptor.returnType if isMember == "Variadic": conversionFunction = "native_from_handlevalue" descriptorType = descriptor.nativeType elif isArgument: descriptorType = descriptor.argumentType if descriptor.interface.isConsequential(): raise TypeError("Consequential interface %s being used as an " "argument" % descriptor.interface.identifier.name) if failureCode is None: substitutions = { "sourceDescription": sourceDescription, "interface": descriptor.interface.identifier.name, "exceptionCode": exceptionCode, } unwrapFailureCode = string.Template( 'throw_type_error(cx, "${sourceDescription} does not ' 'implement interface ${interface}.");\n' '${exceptionCode}').substitute(substitutions) else: unwrapFailureCode = failureCode templateBody = fill( """ match ${function}($${val}, cx) { Ok(val) => val, Err(()) => { $*{failureCode} } } """, failureCode=unwrapFailureCode + "\n", function=conversionFunction) declType = CGGeneric(descriptorType) if type.nullable(): templateBody = "Some(%s)" % templateBody declType = CGWrapper(declType, pre="Option<", post=">") templateBody = wrapObjectTemplate(templateBody, "None", isDefinitelyObject, type, failureCode) return handleOptional(templateBody, declType, handleDefault("None")) if is_typed_array(type): if failureCode is None: substitutions = { "sourceDescription": sourceDescription, "exceptionCode": exceptionCode, } unwrapFailureCode = string.Template( 'throw_type_error(cx, "${sourceDescription} is not a typed array.");\n' '${exceptionCode}').substitute(substitutions) else: unwrapFailureCode = failureCode typeName = type.unroll().name # unroll because it may be nullable if isMember == "Union": typeName = "Heap" + typeName templateBody = fill( """ match typedarray::${ty}::from($${val}.get().to_object()) { Ok(val) => val, Err(()) => { $*{failureCode} } } """, ty=typeName, failureCode=unwrapFailureCode + "\n", ) if isMember == "Union": templateBody = "RootedTraceableBox::new(%s)" % templateBody declType = CGGeneric("typedarray::%s" % typeName) if type.nullable(): templateBody = "Some(%s)" % templateBody declType = CGWrapper(declType, pre="Option<", post=">") templateBody = wrapObjectTemplate(templateBody, "None", isDefinitelyObject, type, failureCode) return handleOptional(templateBody, declType, handleDefault("None")) elif type.isSpiderMonkeyInterface(): raise TypeError("Can't handle SpiderMonkey interface arguments other than typed arrays yet") if type.isDOMString(): nullBehavior = getConversionConfigForType(type, isEnforceRange, isClamp, treatNullAs) conversionCode = ( "match FromJSValConvertible::from_jsval(cx, ${val}, %s) {\n" " Ok(ConversionResult::Success(strval)) => strval,\n" " Ok(ConversionResult::Failure(error)) => {\n" "%s\n" " }\n" " _ => { %s },\n" "}" % (nullBehavior, indent(failOrPropagate, 8), exceptionCode)) if defaultValue is None: default = None elif isinstance(defaultValue, IDLNullValue): assert type.nullable() default = "None" else: assert defaultValue.type.tag() == IDLType.Tags.domstring default = 'DOMString::from("%s")' % defaultValue.value if type.nullable(): default = "Some(%s)" % default declType = "DOMString" if type.nullable(): declType = "Option<%s>" % declType return handleOptional(conversionCode, CGGeneric(declType), default) if type.isUSVString(): assert not isEnforceRange and not isClamp conversionCode = ( "match FromJSValConvertible::from_jsval(cx, ${val}, ()) {\n" " Ok(ConversionResult::Success(strval)) => strval,\n" " Ok(ConversionResult::Failure(error)) => {\n" "%s\n" " }\n" " _ => { %s },\n" "}" % (indent(failOrPropagate, 8), exceptionCode)) if defaultValue is None: default = None elif isinstance(defaultValue, IDLNullValue): assert type.nullable() default = "None" else: assert defaultValue.type.tag() in (IDLType.Tags.domstring, IDLType.Tags.usvstring) default = 'USVString("%s".to_owned())' % defaultValue.value if type.nullable(): default = "Some(%s)" % default declType = "USVString" if type.nullable(): declType = "Option<%s>" % declType return handleOptional(conversionCode, CGGeneric(declType), default) if type.isByteString(): assert not isEnforceRange and not isClamp conversionCode = ( "match FromJSValConvertible::from_jsval(cx, ${val}, ()) {\n" " Ok(ConversionResult::Success(strval)) => strval,\n" " Ok(ConversionResult::Failure(error)) => {\n" "%s\n" " }\n" " _ => { %s },\n" "}" % (indent(failOrPropagate, 8), exceptionCode)) if defaultValue is None: default = None elif isinstance(defaultValue, IDLNullValue): assert type.nullable() default = "None" else: assert defaultValue.type.tag() in (IDLType.Tags.domstring, IDLType.Tags.bytestring) default = 'ByteString::new(b"%s".to_vec())' % defaultValue.value if type.nullable(): default = "Some(%s)" % default declType = "ByteString" if type.nullable(): declType = "Option<%s>" % declType return handleOptional(conversionCode, CGGeneric(declType), default) if type.isEnum(): assert not isEnforceRange and not isClamp if type.nullable(): raise TypeError("We don't support nullable enumerated arguments " "yet") enum = type.inner.identifier.name if invalidEnumValueFatal: handleInvalidEnumValueCode = onFailureInvalidEnumValue(failureCode, 'search').define() else: handleInvalidEnumValueCode = "return true;" template = ( "match find_enum_value(cx, ${val}, %(pairs)s) {\n" " Err(_) => { %(exceptionCode)s },\n" " Ok((None, search)) => { %(handleInvalidEnumValueCode)s },\n" " Ok((Some(&value), _)) => value,\n" "}" % {"pairs": enum + "Values::pairs", "exceptionCode": exceptionCode, "handleInvalidEnumValueCode": handleInvalidEnumValueCode}) if defaultValue is not None: assert defaultValue.type.tag() == IDLType.Tags.domstring default = "%s::%s" % (enum, getEnumValueName(defaultValue.value)) else: default = None return handleOptional(template, CGGeneric(enum), default) if type.isCallback(): assert not isEnforceRange and not isClamp assert not type.treatNonCallableAsNull() assert not type.treatNonObjectAsNull() or type.nullable() assert not type.treatNonObjectAsNull() or not type.treatNonCallableAsNull() callback = type.unroll().callback declType = CGGeneric(callback.identifier.name) finalDeclType = CGTemplatedType("Rc", declType) conversion = CGCallbackTempRoot(declType.define()) if type.nullable(): declType = CGTemplatedType("Option", declType) finalDeclType = CGTemplatedType("Option", finalDeclType) conversion = CGWrapper(conversion, pre="Some(", post=")") if allowTreatNonObjectAsNull and type.treatNonObjectAsNull(): if not isDefinitelyObject: haveObject = "${val}.get().is_object()" template = CGIfElseWrapper(haveObject, conversion, CGGeneric("None")).define() else: template = conversion else: template = CGIfElseWrapper("IsCallable(${val}.get().to_object())", conversion, onFailureNotCallable(failureCode)).define() template = wrapObjectTemplate( template, "None", isDefinitelyObject, type, failureCode) if defaultValue is not None: assert allowTreatNonObjectAsNull assert type.treatNonObjectAsNull() assert type.nullable() assert isinstance(defaultValue, IDLNullValue) default = "None" else: default = None return JSToNativeConversionInfo(template, default, finalDeclType) if type.isAny(): assert not isEnforceRange and not isClamp assert isMember != "Union" if isMember == "Dictionary" or isAutoRooted: templateBody = "${val}.get()" if defaultValue is None: default = None elif isinstance(defaultValue, IDLNullValue): default = "NullValue()" elif isinstance(defaultValue, IDLUndefinedValue): default = "UndefinedValue()" else: raise TypeError("Can't handle non-null, non-undefined default value here") if isMember == "Dictionary": templateBody = "RootedTraceableBox::from_box(Heap::boxed(%s))" % templateBody if default is not None: default = "RootedTraceableBox::from_box(Heap::boxed(%s))" % default declType = CGGeneric("RootedTraceableBox>") # AutoRooter can trace properly inner raw GC thing pointers else: declType = CGGeneric("JSVal") return handleOptional(templateBody, declType, default) declType = CGGeneric("HandleValue") if defaultValue is None: default = None elif isinstance(defaultValue, IDLNullValue): default = "HandleValue::null()" elif isinstance(defaultValue, IDLUndefinedValue): default = "HandleValue::undefined()" else: raise TypeError("Can't handle non-null, non-undefined default value here") return handleOptional("${val}", declType, default) if type.isObject(): assert not isEnforceRange and not isClamp templateBody = "${val}.get().to_object()" default = "ptr::null_mut()" if isMember in ("Dictionary", "Union"): templateBody = "RootedTraceableBox::from_box(Heap::boxed(%s))" % templateBody default = "RootedTraceableBox::new(Heap::default())" declType = CGGeneric("RootedTraceableBox>") else: # TODO: Need to root somehow # https://github.com/servo/servo/issues/6382 declType = CGGeneric("*mut JSObject") templateBody = wrapObjectTemplate(templateBody, default, isDefinitelyObject, type, failureCode) return handleOptional(templateBody, declType, handleDefault(default)) if type.isDictionary(): # There are no nullable dictionaries assert not type.nullable() typeName = "%s::%s" % (CGDictionary.makeModuleName(type.inner), CGDictionary.makeDictionaryName(type.inner)) declType = CGGeneric(typeName) empty = "%s::empty()" % typeName if type_needs_tracing(type): declType = CGTemplatedType("RootedTraceableBox", declType) template = ("match FromJSValConvertible::from_jsval(cx, ${val}, ()) {\n" " Ok(ConversionResult::Success(dictionary)) => dictionary,\n" " Ok(ConversionResult::Failure(error)) => {\n" "%s\n" " }\n" " _ => { %s },\n" "}" % (indent(failOrPropagate, 8), exceptionCode)) return handleOptional(template, declType, handleDefault(empty)) if type.isVoid(): # This one only happens for return values, and its easy: Just # ignore the jsval. return JSToNativeConversionInfo("", None, None) if not type.isPrimitive(): raise TypeError("Need conversion for argument type '%s'" % str(type)) conversionBehavior = getConversionConfigForType(type, isEnforceRange, isClamp, treatNullAs) if failureCode is None: failureCode = 'return false' declType = CGGeneric(builtinNames[type.tag()]) if type.nullable(): declType = CGWrapper(declType, pre="Option<", post=">") template = ( "match FromJSValConvertible::from_jsval(cx, ${val}, %s) {\n" " Ok(ConversionResult::Success(v)) => v,\n" " Ok(ConversionResult::Failure(error)) => {\n" "%s\n" " }\n" " _ => { %s }\n" "}" % (conversionBehavior, indent(failOrPropagate, 8), exceptionCode)) if defaultValue is not None: if isinstance(defaultValue, IDLNullValue): assert type.nullable() defaultStr = "None" else: tag = defaultValue.type.tag() if tag in [IDLType.Tags.float, IDLType.Tags.double]: defaultStr = "Finite::wrap(%s)" % defaultValue.value elif tag in numericTags: defaultStr = str(defaultValue.value) else: assert tag == IDLType.Tags.bool defaultStr = toStringBool(defaultValue.value) if type.nullable(): defaultStr = "Some(%s)" % defaultStr else: defaultStr = None return handleOptional(template, declType, defaultStr) def instantiateJSToNativeConversionTemplate(templateBody, replacements, declType, declName, needsAutoRoot=False): """ Take the templateBody and declType as returned by getJSToNativeConversionInfo, a set of replacements as required by the strings in such a templateBody, and a declName, and generate code to convert into a stack Rust binding with that name. """ result = CGList([], "\n") conversion = CGGeneric(string.Template(templateBody).substitute(replacements)) if declType is not None: newDecl = [ CGGeneric("let "), CGGeneric(declName), CGGeneric(": "), declType, CGGeneric(" = "), conversion, CGGeneric(";"), ] result.append(CGList(newDecl)) else: result.append(conversion) if needsAutoRoot: result.append(CGGeneric("auto_root!(in(cx) let %s = %s);" % (declName, declName))) # Add an empty CGGeneric to get an extra newline after the argument # conversion. result.append(CGGeneric("")) return result def convertConstIDLValueToJSVal(value): if isinstance(value, IDLNullValue): return "ConstantVal::NullVal" tag = value.type.tag() if tag in [IDLType.Tags.int8, IDLType.Tags.uint8, IDLType.Tags.int16, IDLType.Tags.uint16, IDLType.Tags.int32]: return "ConstantVal::IntVal(%s)" % (value.value) if tag == IDLType.Tags.uint32: return "ConstantVal::UintVal(%s)" % (value.value) if tag in [IDLType.Tags.int64, IDLType.Tags.uint64]: return "ConstantVal::DoubleVal(%s as f64)" % (value.value) if tag == IDLType.Tags.bool: return "ConstantVal::BoolVal(true)" if value.value else "ConstantVal::BoolVal(false)" if tag in [IDLType.Tags.unrestricted_float, IDLType.Tags.float, IDLType.Tags.unrestricted_double, IDLType.Tags.double]: return "ConstantVal::DoubleVal(%s as f64)" % (value.value) raise TypeError("Const value of unhandled type: " + value.type) class CGArgumentConverter(CGThing): """ A class that takes an IDL argument object, its index in the argument list, and the argv and argc strings and generates code to unwrap the argument to the right native type. """ def __init__(self, argument, index, args, argc, descriptorProvider, invalidEnumValueFatal=True): CGThing.__init__(self) assert not argument.defaultValue or argument.optional replacer = { "index": index, "argc": argc, "args": args } replacementVariables = { "val": string.Template("HandleValue::from_raw(${args}.get(${index}))").substitute(replacer), } info = getJSToNativeConversionInfo( argument.type, descriptorProvider, invalidEnumValueFatal=invalidEnumValueFatal, defaultValue=argument.defaultValue, isMember="Variadic" if argument.variadic else False, isAutoRooted=type_needs_auto_root(argument.type), allowTreatNonObjectAsNull=argument.allowTreatNonCallableAsNull()) template = info.template default = info.default declType = info.declType if not argument.variadic: if argument.optional: condition = "{args}.get({index}).is_undefined()".format(**replacer) if argument.defaultValue: assert default template = CGIfElseWrapper(condition, CGGeneric(default), CGGeneric(template)).define() else: assert not default declType = CGWrapper(declType, pre="Option<", post=">") template = CGIfElseWrapper(condition, CGGeneric("None"), CGGeneric("Some(%s)" % template)).define() else: assert not default arg = "arg%d" % index self.converter = instantiateJSToNativeConversionTemplate( template, replacementVariables, declType, arg, needsAutoRoot=type_needs_auto_root(argument.type)) else: assert argument.optional variadicConversion = { "val": string.Template("HandleValue::from_raw(${args}.get(variadicArg))").substitute(replacer), } innerConverter = [instantiateJSToNativeConversionTemplate( template, variadicConversion, declType, "slot")] arg = "arg%d" % index if argument.type.isGeckoInterface(): init = "rooted_vec!(let mut %s)" % arg innerConverter.append(CGGeneric("%s.push(Dom::from_ref(&*slot));" % arg)) else: init = "let mut %s = vec![]" % arg innerConverter.append(CGGeneric("%s.push(slot);" % arg)) inner = CGIndenter(CGList(innerConverter, "\n"), 8).define() self.converter = CGGeneric("""\ %(init)s; if %(argc)s > %(index)s { %(arg)s.reserve(%(argc)s as usize - %(index)s); for variadicArg in %(index)s..%(argc)s { %(inner)s } }""" % {'arg': arg, 'argc': argc, 'index': index, 'inner': inner, 'init': init}) def define(self): return self.converter.define() def wrapForType(jsvalRef, result='result', successCode='return true;', pre=''): """ Reflect a Rust value into JS. * 'jsvalRef': a MutableHandleValue in which to store the result of the conversion; * 'result': the name of the variable in which the Rust value is stored; * 'successCode': the code to run once we have done the conversion. * 'pre': code to run before the conversion if rooting is necessary """ wrap = "%s\n(%s).to_jsval(cx, %s);" % (pre, result, jsvalRef) if successCode: wrap += "\n%s" % successCode return wrap def typeNeedsCx(type, retVal=False): if type is None: return False if type.nullable(): type = type.inner if type.isSequence(): type = type.inner if type.isUnion(): return any(typeNeedsCx(t) for t in type.unroll().flatMemberTypes) if retVal and type.isSpiderMonkeyInterface(): return True return type.isAny() or type.isObject() # Returns a conversion behavior suitable for a type def getConversionConfigForType(type, isEnforceRange, isClamp, treatNullAs): if type.isSequence() or type.isRecord(): return getConversionConfigForType(innerContainerType(type), isEnforceRange, isClamp, treatNullAs) if type.isDOMString(): assert not isEnforceRange and not isClamp treatAs = { "Default": "StringificationBehavior::Default", "EmptyString": "StringificationBehavior::Empty", } if treatNullAs not in treatAs: raise TypeError("We don't support [TreatNullAs=%s]" % treatNullAs) if type.nullable(): # Note: the actual behavior passed here doesn't matter for nullable # strings. return "StringificationBehavior::Default" else: return treatAs[treatNullAs] if type.isPrimitive() and type.isInteger(): if isEnforceRange: return "ConversionBehavior::EnforceRange" elif isClamp: return "ConversionBehavior::Clamp" else: return "ConversionBehavior::Default" assert not isEnforceRange and not isClamp return "()" # Returns a CGThing containing the type of the return value. def getRetvalDeclarationForType(returnType, descriptorProvider): if returnType is None or returnType.isVoid(): # Nothing to declare return CGGeneric("()") if returnType.isPrimitive() and returnType.tag() in builtinNames: result = CGGeneric(builtinNames[returnType.tag()]) if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result if returnType.isDOMString(): result = CGGeneric("DOMString") if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result if returnType.isUSVString(): result = CGGeneric("USVString") if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result if returnType.isByteString(): result = CGGeneric("ByteString") if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result if returnType.isEnum(): result = CGGeneric(returnType.unroll().inner.identifier.name) if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result if returnType.isPromise(): assert not returnType.nullable() return CGGeneric("Rc") if returnType.isGeckoInterface(): descriptor = descriptorProvider.getDescriptor( returnType.unroll().inner.identifier.name) result = CGGeneric(descriptor.returnType) if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result if returnType.isCallback(): callback = returnType.unroll().callback result = CGGeneric('Rc<%s::%s>' % (getModuleFromObject(callback), callback.identifier.name)) if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result if returnType.isUnion(): result = CGGeneric(union_native_type(returnType)) if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result # TODO: Return the value through a MutableHandleValue outparam # https://github.com/servo/servo/issues/6307 if returnType.isAny(): return CGGeneric("JSVal") if returnType.isObject() or returnType.isSpiderMonkeyInterface(): result = CGGeneric("NonNull") if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result if returnType.isSequence() or returnType.isRecord(): result = getRetvalDeclarationForType(innerContainerType(returnType), descriptorProvider) result = wrapInNativeContainerType(returnType, result) if returnType.nullable(): result = CGWrapper(result, pre="Option<", post=">") return result if returnType.isDictionary(): nullable = returnType.nullable() dictName = returnType.inner.name if nullable else returnType.name result = CGGeneric(dictName) if type_needs_tracing(returnType): result = CGWrapper(result, pre="RootedTraceableBox<", post=">") if nullable: result = CGWrapper(result, pre="Option<", post=">") return result raise TypeError("Don't know how to declare return value for %s" % returnType) def MemberCondition(pref, func): """ A string 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. """ assert pref is None or isinstance(pref, str) assert func is None or isinstance(func, str) assert func is None or pref is None if pref: return 'Condition::Pref("%s")' % pref if func: return 'Condition::Func(%s)' % func return "Condition::Satisfied" 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.regular to the list of things exposed to web pages. """ def __init__(self, descriptor, name): self.descriptor = descriptor self.name = name def variableName(self): return "s" + self.name def length(self): return len(self.regular) def __str__(self): # We only need to generate id arrays for things that will end # up used via ResolveProperty or EnumerateProperties. return self.generateArray(self.regular, self.variableName()) @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): return MemberCondition( PropertyDefiner.getStringAttr(interfaceMember, "Pref"), PropertyDefiner.getStringAttr(interfaceMember, "Func")) def generateGuardedArray(self, array, name, specTemplate, specTerminator, specType, getCondition, getDataTuple): """ 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 specTemplate is a template for each entry of the spec array specTerminator is a terminator for the spec array (inserted at the end of the array), or None specType is the actual typename of our spec getDataTuple is a callback function that takes an array entry and returns a tuple suitable for substitution into specTemplate. """ # We generate an all-encompassing list of lists of specs, with each sublist # representing a group of members that share a common pref name. 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 specs = [] prefableSpecs = [] prefableTemplate = ' Guard::new(%s, %s[%d])' for cond, members in groupby(array, lambda m: getCondition(m, self.descriptor)): currentSpecs = [specTemplate % getDataTuple(m) for m in members] if specTerminator: currentSpecs.append(specTerminator) specs.append("&[\n" + ",\n".join(currentSpecs) + "]\n") prefableSpecs.append( prefableTemplate % (cond, name + "_specs", len(specs) - 1)) specsArray = ("const %s_specs: &'static [&'static[%s]] = &[\n" + ",\n".join(specs) + "\n" + "];\n") % (name, specType) prefArray = ("const %s: &'static [Guard<&'static [%s]>] = &[\n" + ",\n".join(prefableSpecs) + "\n" + "];\n") % (name, specType) return specsArray + prefArray # The length of a method is the minimum of the lengths of the # argument lists of all its overloads. def methodLength(method): signatures = method.signatures() return min( len([arg for arg in arguments if not arg.optional and not arg.variadic]) for (_, arguments) in signatures) class MethodDefiner(PropertyDefiner): """ A class for defining methods on a prototype object. """ def __init__(self, descriptor, name, static, unforgeable): 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 callback interfaces if not descriptor.interface.isCallback() or static: methods = [m for m in descriptor.interface.members if m.isMethod() and m.isStatic() == static and not m.isIdentifierLess() and MemberIsUnforgeable(m, descriptor) == unforgeable] else: methods = [] self.regular = [{"name": m.identifier.name, "methodInfo": not m.isStatic(), "length": methodLength(m), "condition": PropertyDefiner.getControllingCondition(m, descriptor)} for m in methods] # FIXME Check for an existing iterator on the interface first. if any(m.isGetter() and m.isIndexed() for m in methods): self.regular.append({"name": '@@iterator', "methodInfo": False, "selfHostedName": "ArrayValues", "length": 0, "condition": "Condition::Satisfied"}) # 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, "condition": PropertyDefiner.getControllingCondition(m, descriptor) }) self.regular.append({ "name": "values", "methodInfo": False, "selfHostedName": "ArrayValues", "length": 0, "condition": PropertyDefiner.getControllingCondition(m, descriptor) }) self.regular.append({ "name": "entries", "methodInfo": False, "selfHostedName": "ArrayEntries", "length": 0, "condition": PropertyDefiner.getControllingCondition(m, descriptor) }) self.regular.append({ "name": "forEach", "methodInfo": False, "selfHostedName": "ArrayForEach", "length": 1, "condition": PropertyDefiner.getControllingCondition(m, descriptor) }) isUnforgeableInterface = bool(descriptor.interface.getExtendedAttribute("Unforgeable")) if not static and unforgeable == isUnforgeableInterface: stringifier = descriptor.operations['Stringifier'] if stringifier: self.regular.append({ "name": "toString", "nativeName": stringifier.identifier.name, "length": 0, "condition": PropertyDefiner.getControllingCondition(stringifier, descriptor) }) self.unforgeable = unforgeable def generateArray(self, array, name): if len(array) == 0: return "" def condition(m, d): return m["condition"] flags = "JSPROP_ENUMERATE" if self.unforgeable: flags += " | JSPROP_PERMANENT | JSPROP_READONLY" def specData(m): # TODO: Use something like JS_FNSPEC # https://github.com/servo/servo/issues/6391 if "selfHostedName" in m: selfHostedName = '%s as *const u8 as *const libc::c_char' % str_to_const_array(m["selfHostedName"]) assert not m.get("methodInfo", True) accessor = "None" jitinfo = "0 as *const JSJitInfo" else: selfHostedName = "0 as *const libc::c_char" if m.get("methodInfo", True): identifier = m.get("nativeName", m["name"]) # Go through an intermediate type here, because it's not # easy to tell whether the methodinfo is a JSJitInfo or # a JSTypedMethodJitInfo here. The compiler knows, though, # so let it do the work. jitinfo = "&%s_methodinfo as *const _ as *const JSJitInfo" % identifier accessor = "Some(generic_method)" else: jitinfo = "0 as *const JSJitInfo" accessor = 'Some(%s)' % m.get("nativeName", m["name"]) if m["name"].startswith("@@"): return ('(SymbolCode::%s as i32 + 1)' % m["name"][2:], accessor, jitinfo, m["length"], flags, selfHostedName) return (str_to_const_array(m["name"]), accessor, jitinfo, m["length"], flags, selfHostedName) return self.generateGuardedArray( array, name, ' JSFunctionSpec {\n' ' name: %s as *const u8 as *const libc::c_char,\n' ' call: JSNativeWrapper { op: %s, info: %s },\n' ' nargs: %s,\n' ' flags: (%s) as u16,\n' ' selfHostedName: %s\n' ' }', ' JSFunctionSpec {\n' ' name: 0 as *const libc::c_char,\n' ' call: JSNativeWrapper { op: None, info: 0 as *const JSJitInfo },\n' ' nargs: 0,\n' ' flags: 0,\n' ' selfHostedName: 0 as *const libc::c_char\n' ' }', 'JSFunctionSpec', condition, specData) class AttrDefiner(PropertyDefiner): def __init__(self, descriptor, name, static, unforgeable): assert not (static and unforgeable) PropertyDefiner.__init__(self, descriptor, name) self.name = name self.descriptor = descriptor self.regular = [ m for m in descriptor.interface.members if m.isAttr() and m.isStatic() == static and MemberIsUnforgeable(m, descriptor) == unforgeable ] self.static = static self.unforgeable = unforgeable def generateArray(self, array, name): if len(array) == 0: return "" flags = "JSPROP_ENUMERATE" if self.unforgeable: flags += " | JSPROP_PERMANENT" def getter(attr): if self.static: accessor = 'get_' + self.descriptor.internalNameFor(attr.identifier.name) jitinfo = "0 as *const JSJitInfo" else: if attr.hasLenientThis(): accessor = "generic_lenient_getter" else: accessor = "generic_getter" jitinfo = "&%s_getterinfo" % self.descriptor.internalNameFor(attr.identifier.name) return ("JSNativeWrapper { op: Some(%(native)s), info: %(info)s }" % {"info": jitinfo, "native": accessor}) def setter(attr): if (attr.readonly and not attr.getExtendedAttribute("PutForwards") and not attr.getExtendedAttribute("Replaceable")): return "JSNativeWrapper { op: None, info: 0 as *const JSJitInfo }" if self.static: accessor = 'set_' + self.descriptor.internalNameFor(attr.identifier.name) jitinfo = "0 as *const JSJitInfo" else: if attr.hasLenientThis(): accessor = "generic_lenient_setter" else: accessor = "generic_setter" jitinfo = "&%s_setterinfo" % self.descriptor.internalNameFor(attr.identifier.name) return ("JSNativeWrapper { op: Some(%(native)s), info: %(info)s }" % {"info": jitinfo, "native": accessor}) def specData(attr): return (str_to_const_array(attr.identifier.name), flags, getter(attr), setter(attr)) return self.generateGuardedArray( array, name, ' JSPropertySpec {\n' ' name: %s as *const u8 as *const libc::c_char,\n' ' flags: (%s) as u8,\n' ' __bindgen_anon_1: JSPropertySpec__bindgen_ty_1 {\n' ' accessors: JSPropertySpec__bindgen_ty_1__bindgen_ty_1 {\n' ' getter: JSPropertySpec__bindgen_ty_1__bindgen_ty_1__bindgen_ty_1 {\n' ' native: %s,\n' ' },\n' ' setter: JSPropertySpec__bindgen_ty_1__bindgen_ty_1__bindgen_ty_2 {\n' ' native: %s,\n' ' }\n' ' }\n' ' }\n' ' }', ' JSPropertySpec::ZERO', 'JSPropertySpec', PropertyDefiner.getControllingCondition, specData) 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 self.regular = [m for m in descriptor.interface.members if m.isConst()] def generateArray(self, array, name): if len(array) == 0: return "" def specData(const): return (str_to_const_array(const.identifier.name), convertConstIDLValueToJSVal(const.value)) return self.generateGuardedArray( array, name, ' ConstantSpec { name: %s, value: %s }', None, 'ConstantSpec', PropertyDefiner.getControllingCondition, specData) # 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) 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=4): CGThing.__init__(self) self.child = child self.indent = " " * indentLevel def define(self): defn = self.child.define() if defn != "": return re.sub(lineStartDetector, self.indent, defn) else: return defn class CGWrapper(CGThing): """ Generic CGThing that wraps other CGThings with pre and post text. """ def __init__(self, child, pre="", post="", reindent=False): CGThing.__init__(self) self.child = child self.pre = pre self.post = post self.reindent = reindent def define(self): defn = self.child.define() if self.reindent: # We don't use lineStartDetector because we don't want to # insert whitespace at the beginning of our _first_ line. defn = stripTrailingWhitespace( defn.replace("\n", "\n" + (" " * len(self.pre)))) return self.pre + defn + self.post class CGImports(CGWrapper): """ Generates the appropriate import/use statements. """ def __init__(self, child, descriptors, callbacks, dictionaries, enums, typedefs, imports, config, ignored_warnings=None): """ Adds a set of imports. """ if ignored_warnings is None: ignored_warnings = [ 'non_camel_case_types', 'non_upper_case_globals', 'unused_imports', 'unused_variables', 'unused_assignments', 'unused_mut', ] def componentTypes(type): if type.isType() and type.nullable(): type = type.unroll() if type.isUnion(): return type.flatMemberTypes if type.isDictionary(): return [type] + getTypesFromDictionary(type) if type.isSequence(): return componentTypes(type.inner) return [type] def isImportable(type): if not type.isType(): assert (type.isInterface() or type.isDictionary() or type.isEnum() or type.isNamespace()) return True return not (type.builtin or type.isSequence() or type.isUnion()) def relatedTypesForSignatures(method): types = [] for (returnType, arguments) in method.signatures(): types += componentTypes(returnType) for arg in arguments: types += componentTypes(arg.type) return types def getIdentifier(t): if t.isType(): if t.nullable(): t = t.inner if t.isCallback(): return t.callback.identifier return t.identifier assert t.isInterface() or t.isDictionary() or t.isEnum() or t.isNamespace() return t.identifier def removeWrapperAndNullableTypes(types): normalized = [] for t in types: while (t.isType() and t.nullable()) or isinstance(t, IDLWrapperType): t = t.inner if isImportable(t): normalized += [t] return normalized types = [] for d in descriptors: if not d.interface.isCallback(): types += [d.interface] if d.interface.isIteratorInterface(): types += [d.interface.iterableInterface] members = d.interface.members + d.interface.namedConstructors constructor = d.interface.ctor() if constructor: members += [constructor] if d.proxy: members += [o for o in d.operations.values() if o] for m in members: if m.isMethod(): types += relatedTypesForSignatures(m) elif m.isAttr(): types += componentTypes(m.type) # Import the type names used in the callbacks that are being defined. for c in callbacks: types += relatedTypesForSignatures(c) # Import the type names used in the dictionaries that are being defined. for d in dictionaries: types += componentTypes(d) # Import the type names used in the typedefs that are being defined. for t in typedefs: if not t.innerType.isCallback(): types += componentTypes(t.innerType) # Normalize the types we've collected and remove any ones which can't be imported. types = removeWrapperAndNullableTypes(types) descriptorProvider = config.getDescriptorProvider() extras = [] for t in types: # Importing these types in the same module that defines them is an error. if t in dictionaries or t in enums: continue if t.isInterface() or t.isNamespace(): name = getIdentifier(t).name descriptor = descriptorProvider.getDescriptor(name) if name != 'GlobalScope': extras += [descriptor.path] parentName = descriptor.getParentName() if parentName: descriptor = descriptorProvider.getDescriptor(parentName) extras += [descriptor.path, descriptor.bindingPath] elif t.isType() and t.isRecord(): extras += ['crate::dom::bindings::mozmap::MozMap'] elif isinstance(t, IDLPromiseType): extras += ['crate::dom::promise::Promise'] else: if t.isEnum(): extras += [getModuleFromObject(t) + '::' + getIdentifier(t).name + 'Values'] extras += [getModuleFromObject(t) + '::' + getIdentifier(t).name] statements = [] if len(ignored_warnings) > 0: statements.append('#![allow(%s)]' % ','.join(ignored_warnings)) statements.extend('use %s;' % i for i in sorted(set(imports + extras))) CGWrapper.__init__(self, child, pre='\n'.join(statements) + '\n\n') class CGIfWrapper(CGWrapper): def __init__(self, condition, child): pre = CGWrapper(CGGeneric(condition), pre="if ", post=" {\n", reindent=True) CGWrapper.__init__(self, CGIndenter(child), pre=pre.define(), post="\n}") class CGTemplatedType(CGWrapper): def __init__(self, templateName, child): CGWrapper.__init__(self, child, pre=templateName + "<", post=">") class CGNamespace(CGWrapper): def __init__(self, namespace, child, public=False): pre = "%smod %s {\n" % ("pub " if public else "", namespace) post = "} // mod %s" % namespace CGWrapper.__init__(self, child, pre=pre, post=post) @staticmethod def build(namespaces, child, public=False): """ Static helper method to build multiple wrapped namespaces. """ if not namespaces: return child inner = CGNamespace.build(namespaces[1:], child, public=public) return CGNamespace(namespaces[0], inner, public=public) def DOMClassTypeId(desc): protochain = desc.prototypeChain inner = "" if desc.hasDescendants(): if desc.interface.getExtendedAttribute("Abstract"): return "crate::dom::bindings::codegen::InheritTypes::TopTypeId { abstract_: () }" name = desc.interface.identifier.name inner = "(crate::dom::bindings::codegen::InheritTypes::%sTypeId::%s)" % (name, name) elif len(protochain) == 1: return "crate::dom::bindings::codegen::InheritTypes::TopTypeId { alone: () }" reversed_protochain = list(reversed(protochain)) for (child, parent) in zip(reversed_protochain, reversed_protochain[1:]): inner = "(crate::dom::bindings::codegen::InheritTypes::%sTypeId::%s%s)" % (parent, child, inner) return "crate::dom::bindings::codegen::InheritTypes::TopTypeId { %s: %s }" % (protochain[0].lower(), inner) def DOMClass(descriptor): protoList = ['PrototypeList::ID::' + proto for proto in descriptor.prototypeChain] # Pad out the list to the right length with ID::Last so we # guarantee that all the lists are the same length. ID::Last # is never the ID of any prototype, so it's safe to use as # padding. protoList.extend(['PrototypeList::ID::Last'] * (descriptor.config.maxProtoChainLength - len(protoList))) prototypeChainString = ', '.join(protoList) mallocSizeOf = 'malloc_size_of_including_raw_self::<%s>' % descriptor.concreteType if descriptor.isGlobal(): globals_ = camel_to_upper_snake(descriptor.name) else: globals_ = 'EMPTY' return """\ DOMClass { interface_chain: [ %s ], type_id: %s, malloc_size_of: %s as unsafe fn(&mut _, _) -> _, global: InterfaceObjectMap::Globals::%s, }""" % (prototypeChainString, DOMClassTypeId(descriptor), mallocSizeOf, globals_) class CGDOMJSClass(CGThing): """ Generate a DOMJSClass for a given descriptor """ def __init__(self, descriptor): CGThing.__init__(self) self.descriptor = descriptor def define(self): parentName = self.descriptor.getParentName() if not parentName: parentName = "crate::dom::bindings::reflector::Reflector" args = { "domClass": DOMClass(self.descriptor), "enumerateHook": "None", "finalizeHook": FINALIZE_HOOK_NAME, "flags": "JSCLASS_FOREGROUND_FINALIZE", "name": str_to_const_array(self.descriptor.interface.identifier.name), "resolveHook": "None", "slots": "1", "traceHook": TRACE_HOOK_NAME, } if self.descriptor.isGlobal(): assert not self.descriptor.weakReferenceable args["enumerateHook"] = "Some(enumerate_global)" args["flags"] = "JSCLASS_IS_GLOBAL | JSCLASS_DOM_GLOBAL | JSCLASS_FOREGROUND_FINALIZE" args["slots"] = "JSCLASS_GLOBAL_SLOT_COUNT + 1" args["resolveHook"] = "Some(resolve_global)" args["traceHook"] = "js::jsapi::JS_GlobalObjectTraceHook" elif self.descriptor.weakReferenceable: args["slots"] = "2" return """\ static CLASS_OPS: js::jsapi::JSClassOps = js::jsapi::JSClassOps { addProperty: None, delProperty: None, enumerate: None, newEnumerate: %(enumerateHook)s, resolve: %(resolveHook)s, mayResolve: None, finalize: Some(%(finalizeHook)s), call: None, hasInstance: None, construct: None, trace: Some(%(traceHook)s), }; static Class: DOMJSClass = DOMJSClass { base: js::jsapi::JSClass { name: %(name)s as *const u8 as *const libc::c_char, flags: JSCLASS_IS_DOMJSCLASS | %(flags)s | (((%(slots)s) & JSCLASS_RESERVED_SLOTS_MASK) << JSCLASS_RESERVED_SLOTS_SHIFT) /* JSCLASS_HAS_RESERVED_SLOTS(%(slots)s) */, cOps: &CLASS_OPS, reserved: [0 as *mut _; 3], }, dom_class: %(domClass)s }; """ % args class CGAssertInheritance(CGThing): """ Generate a type assertion for inheritance """ def __init__(self, descriptor): CGThing.__init__(self) self.descriptor = descriptor def define(self): parent = self.descriptor.interface.parent parentName = "" if parent: parentName = parent.identifier.name else: parentName = "crate::dom::bindings::reflector::Reflector" selfName = self.descriptor.interface.identifier.name if selfName == "PaintRenderingContext2D": # PaintRenderingContext2D embeds a CanvasRenderingContext2D # instead of a Reflector as an optimization, # but this is fine since CanvasRenderingContext2D # also has a reflector # # FIXME *RenderingContext2D should use Inline parentName = "crate::dom::canvasrenderingcontext2d::CanvasRenderingContext2D" args = { "parentName": parentName, "selfName": selfName, } return """\ impl %(selfName)s { fn __assert_parent_type(&self) { use crate::dom::bindings::inheritance::HasParent; // If this type assertion fails, make sure the first field of your // DOM struct is of the correct type -- it must be the parent class. let _: &%(parentName)s = self.as_parent(); } } """ % args def str_to_const_array(s): return "b\"%s\\0\"" % s class CGPrototypeJSClass(CGThing): def __init__(self, descriptor): CGThing.__init__(self) self.descriptor = descriptor def define(self): name = str_to_const_array(self.descriptor.interface.identifier.name + "Prototype") slotCount = 0 if self.descriptor.hasUnforgeableMembers: slotCount += 1 return """\ static PrototypeClass: JSClass = JSClass { name: %(name)s as *const u8 as *const libc::c_char, flags: // JSCLASS_HAS_RESERVED_SLOTS(%(slotCount)s) (%(slotCount)s & JSCLASS_RESERVED_SLOTS_MASK) << JSCLASS_RESERVED_SLOTS_SHIFT, cOps: 0 as *const _, reserved: [0 as *mut os::raw::c_void; 3] }; """ % {'name': name, 'slotCount': slotCount} class CGInterfaceObjectJSClass(CGThing): def __init__(self, descriptor): assert descriptor.interface.hasInterfaceObject() and not descriptor.interface.isCallback() CGThing.__init__(self) self.descriptor = descriptor def define(self): if self.descriptor.interface.isNamespace(): classString = self.descriptor.interface.getExtendedAttribute("ClassString") if classString: classString = classString[0] else: classString = "Object" return """\ static NAMESPACE_OBJECT_CLASS: NamespaceObjectClass = unsafe { NamespaceObjectClass::new(%s) }; """ % str_to_const_array(classString) if self.descriptor.interface.ctor(): constructorBehavior = "InterfaceConstructorBehavior::call(%s)" % CONSTRUCT_HOOK_NAME else: constructorBehavior = "InterfaceConstructorBehavior::throw()" name = self.descriptor.interface.identifier.name args = { "constructorBehavior": constructorBehavior, "id": name, "representation": 'b"function %s() {\\n [native code]\\n}"' % name, "depth": self.descriptor.prototypeDepth } return """\ static INTERFACE_OBJECT_CLASS: NonCallbackInterfaceObjectClass = NonCallbackInterfaceObjectClass::new( { // Intermediate `const` because as of nightly-2018-10-05, // rustc is conservative in promotion to `'static` of the return values of `const fn`s: // https://github.com/rust-lang/rust/issues/54846 // https://github.com/rust-lang/rust/pull/53851 const BEHAVIOR: InterfaceConstructorBehavior = %(constructorBehavior)s; &BEHAVIOR }, %(representation)s, PrototypeList::ID::%(id)s, %(depth)s); """ % args 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 join(self, iterable): return self.joiner.join(s for s in iterable if len(s) > 0) def define(self): return self.join(child.define() for child in self.children if child is not None) def __len__(self): return len(self.children) class CGIfElseWrapper(CGList): def __init__(self, condition, ifTrue, ifFalse): kids = [CGIfWrapper(condition, ifTrue), CGWrapper(CGIndenter(ifFalse), pre=" else {\n", post="\n}")] CGList.__init__(self, kids) 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, text): self.text = text def define(self): return self.text class CGCallbackTempRoot(CGGeneric): def __init__(self, name): CGGeneric.__init__(self, "%s::new(cx, ${val}.get().to_object())" % name) def getAllTypes(descriptors, dictionaries, callbacks, typedefs): """ Generate all the types we're dealing with. For each type, a tuple containing type, descriptor, dictionary is yielded. The descriptor and dictionary can be None if the type does not come from a descriptor or dictionary; they will never both be non-None. """ for d in descriptors: for t in getTypesFromDescriptor(d): yield (t, d, None) for dictionary in dictionaries: for t in getTypesFromDictionary(dictionary): yield (t, None, dictionary) for callback in callbacks: for t in getTypesFromCallback(callback): yield (t, None, None) for typedef in typedefs: yield (typedef.innerType, None, None) def UnionTypes(descriptors, dictionaries, callbacks, typedefs, config): """ Returns a CGList containing CGUnionStructs for every union. """ imports = [ 'crate::dom', 'crate::dom::bindings::codegen::PrototypeList', 'crate::dom::bindings::conversions::ConversionResult', 'crate::dom::bindings::conversions::FromJSValConvertible', 'crate::dom::bindings::conversions::ToJSValConvertible', 'crate::dom::bindings::conversions::ConversionBehavior', 'crate::dom::bindings::conversions::StringificationBehavior', 'crate::dom::bindings::conversions::root_from_handlevalue', 'std::ptr::NonNull', 'crate::dom::bindings::mozmap::MozMap', 'crate::dom::bindings::num::Finite', 'crate::dom::bindings::root::DomRoot', 'crate::dom::bindings::str::ByteString', 'crate::dom::bindings::str::DOMString', 'crate::dom::bindings::str::USVString', 'crate::dom::bindings::trace::RootedTraceableBox', 'crate::dom::types::*', 'js::error::throw_type_error', 'js::rust::HandleValue', 'js::jsapi::Heap', 'js::jsapi::JSContext', 'js::jsapi::JSObject', 'js::rust::MutableHandleValue', 'js::jsval::JSVal', 'js::typedarray' ] # Now find all the things we'll need as arguments and return values because # we need to wrap or unwrap them. unionStructs = dict() for (t, descriptor, dictionary) in getAllTypes(descriptors, dictionaries, callbacks, typedefs): if dictionary: imports.append("%s::%s" % (CGDictionary.makeModuleName(dictionary), CGDictionary.makeDictionaryName(dictionary))) t = t.unroll() if not t.isUnion(): continue name = str(t) if name not in unionStructs: provider = descriptor or config.getDescriptorProvider() unionStructs[name] = CGList([ CGUnionStruct(t, provider), CGUnionConversionStruct(t, provider) ]) # Sort unionStructs by key, retrieve value unionStructs = (i[1] for i in sorted(unionStructs.items(), key=operator.itemgetter(0))) return CGImports(CGList(unionStructs, "\n\n"), descriptors=[], callbacks=[], dictionaries=[], enums=[], typedefs=[], imports=imports, config=config, ignored_warnings=[]) class Argument(): """ A class for outputting the type and name of an argument """ def __init__(self, argType, name, default=None, mutable=False): self.argType = argType self.name = name self.default = default self.mutable = mutable def declare(self): string = ('mut ' if self.mutable else '') + self.name + ((': ' + self.argType) if self.argType else '') # XXXjdm Support default arguments somehow :/ # 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. If templateArgs is not None it should be a list of strings containing template arguments, and the function will be templatized using those arguments. docs is None or documentation for the method in a string. unsafe is used to add the decorator 'unsafe' to a function, giving as a result an 'unsafe fn()' declaration. """ def __init__(self, descriptor, name, returnType, args, inline=False, alwaysInline=False, extern=False, unsafe=False, pub=False, templateArgs=None, docs=None, doesNotPanic=False): CGThing.__init__(self) self.descriptor = descriptor self.name = name self.returnType = returnType self.args = args self.alwaysInline = alwaysInline self.extern = extern self.unsafe = extern or unsafe self.templateArgs = templateArgs self.pub = pub self.docs = docs self.catchPanic = self.extern and not doesNotPanic def _argstring(self): return ', '.join([a.declare() for a in self.args]) def _template(self): if self.templateArgs is None: return '' return '<%s>\n' % ', '.join(self.templateArgs) def _docs(self): if self.docs is None: return '' lines = self.docs.splitlines() return ''.join('/// %s\n' % line for line in lines) def _decorators(self): decorators = [] if self.alwaysInline: decorators.append('#[inline]') if self.pub: decorators.append('pub') if self.unsafe: decorators.append('unsafe') if self.extern: decorators.append('extern') if not decorators: return '' return ' '.join(decorators) + ' ' def _returnType(self): return (" -> %s" % self.returnType) if self.returnType != "void" else "" def define(self): body = self.definition_body() if self.catchPanic: body = CGWrapper(CGIndenter(body), pre="return wrap_panic(panic::AssertUnwindSafe(|| {\n", post=("""\n}), %s);""" % ("()" if self.returnType == "void" else "false"))) return CGWrapper(CGIndenter(body), pre=self.definition_prologue(), post=self.definition_epilogue()).define() def definition_prologue(self): return "%s%sfn %s%s(%s)%s {\n" % (self._docs(), self._decorators(), self.name, self._template(), self._argstring(), self._returnType()) def definition_epilogue(self): return "\n}\n" def definition_body(self): raise NotImplementedError # Override me! class CGConstructorEnabled(CGAbstractMethod): """ A method for testing whether we should be exposing this interface object. 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("*mut JSContext", "aCx"), Argument("HandleObject", "aObj")], unsafe=True) def definition_body(self): conditions = [] iface = self.descriptor.interface bits = " | ".join(sorted( "InterfaceObjectMap::Globals::" + camel_to_upper_snake(i) for i in iface.exposureSet )) conditions.append("is_exposed_in(aObj, %s)" % bits) pref = iface.getExtendedAttribute("Pref") if pref: assert isinstance(pref, list) and len(pref) == 1 conditions.append('prefs::pref_map().get("%s").as_bool().unwrap_or(false)' % pref[0]) func = iface.getExtendedAttribute("Func") if func: assert isinstance(func, list) and len(func) == 1 conditions.append("%s(aCx, aObj)" % func[0]) return CGList((CGGeneric(cond) for cond in conditions), " &&\n") def CreateBindingJSObject(descriptor): assert not descriptor.isGlobal() create = "let raw = Box::into_raw(object);\nlet _rt = RootedTraceable::new(&*raw);\n" if descriptor.proxy: create += """ let handler = RegisterBindings::PROXY_HANDLERS[PrototypeList::Proxies::%s as usize]; rooted!(in(cx) let private = PrivateValue(raw as *const libc::c_void)); let obj = NewProxyObject(cx, handler, Handle::from_raw(UndefinedHandleValue), proto.get()); assert!(!obj.is_null()); SetProxyReservedSlot(obj, 0, &private.get()); rooted!(in(cx) let obj = obj);\ """ % (descriptor.name) else: create += ("rooted!(in(cx) let obj = JS_NewObjectWithGivenProto(\n" " cx, &Class.base as *const JSClass, proto.handle()));\n" "assert!(!obj.is_null());\n" "\n" "let val = PrivateValue(raw as *const libc::c_void);\n" "\n" "JS_SetReservedSlot(obj.get(), DOM_OBJECT_SLOT, &val);") if descriptor.weakReferenceable: create += """ let val = PrivateValue(ptr::null()); JS_SetReservedSlot(obj.get(), DOM_WEAK_SLOT, &val);""" return create def InitUnforgeablePropertiesOnHolder(descriptor, properties): """ Define the unforgeable properties on the unforgeable holder for the interface represented by descriptor. properties is a PropertyArrays instance. """ unforgeables = [] defineUnforgeableAttrs = "define_guarded_properties(cx, unforgeable_holder.handle(), %s);" defineUnforgeableMethods = "define_guarded_methods(cx, unforgeable_holder.handle(), %s);" unforgeableMembers = [ (defineUnforgeableAttrs, properties.unforgeable_attrs), (defineUnforgeableMethods, properties.unforgeable_methods), ] for template, array in unforgeableMembers: if array.length() > 0: unforgeables.append(CGGeneric(template % array.variableName())) return CGList(unforgeables, "\n") def CopyUnforgeablePropertiesToInstance(descriptor): """ Copy the unforgeable properties from the unforgeable holder for this interface to the instance object we have. """ if not descriptor.hasUnforgeableMembers: return "" copyCode = "" # 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 += """\ rooted!(in(cx) let mut expando = ptr::null_mut::()); ensure_expando_object(cx, obj.handle().into(), expando.handle_mut()); """ obj = "expando" else: obj = "obj" # 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 += """\ let mut slot = UndefinedValue(); JS_GetReservedSlot(proto.get(), DOM_PROTO_UNFORGEABLE_HOLDER_SLOT, &mut slot); rooted!(in(cx) let mut unforgeable_holder = ptr::null_mut::()); unforgeable_holder.handle_mut().set(slot.to_object()); assert!(%(copyFunc)s(cx, %(obj)s.handle(), unforgeable_holder.handle())); """ % {'copyFunc': copyFunc, 'obj': obj} return copyCode class CGWrapMethod(CGAbstractMethod): """ Class that generates the FooBinding::Wrap function for non-callback interfaces. """ def __init__(self, descriptor): assert not descriptor.interface.isCallback() assert not descriptor.isGlobal() args = [Argument('*mut JSContext', 'cx'), Argument('&GlobalScope', 'scope'), Argument("Box<%s>" % descriptor.concreteType, 'object')] retval = 'DomRoot<%s>' % descriptor.concreteType CGAbstractMethod.__init__(self, descriptor, 'Wrap', retval, args, pub=True, unsafe=True) def definition_body(self): unforgeable = CopyUnforgeablePropertiesToInstance(self.descriptor) create = CreateBindingJSObject(self.descriptor) return CGGeneric("""\ let scope = scope.reflector().get_jsobject(); assert!(!scope.get().is_null()); assert!(((*get_object_class(scope.get())).flags & JSCLASS_IS_GLOBAL) != 0); rooted!(in(cx) let mut proto = ptr::null_mut::()); let _ac = JSAutoRealm::new(cx, scope.get()); GetProtoObject(cx, scope, proto.handle_mut()); assert!(!proto.is_null()); %(createObject)s %(copyUnforgeable)s (*raw).init_reflector(obj.get()); DomRoot::from_ref(&*raw)""" % {'copyUnforgeable': unforgeable, 'createObject': create}) class CGWrapGlobalMethod(CGAbstractMethod): """ Class that generates the FooBinding::Wrap function for global interfaces. """ def __init__(self, descriptor, properties): assert not descriptor.interface.isCallback() assert descriptor.isGlobal() args = [Argument('*mut JSContext', 'cx'), Argument("Box<%s>" % descriptor.concreteType, 'object')] retval = 'DomRoot<%s>' % descriptor.concreteType CGAbstractMethod.__init__(self, descriptor, 'Wrap', retval, args, pub=True, unsafe=True) self.properties = properties def definition_body(self): values = { "unforgeable": CopyUnforgeablePropertiesToInstance(self.descriptor) } pairs = [ ("define_guarded_properties", self.properties.attrs), ("define_guarded_methods", self.properties.methods), ("define_guarded_constants", self.properties.consts) ] members = ["%s(cx, obj.handle(), %s);" % (function, array.variableName()) for (function, array) in pairs if array.length() > 0] values["members"] = "\n".join(members) return CGGeneric("""\ let raw = Box::into_raw(object); let _rt = RootedTraceable::new(&*raw); rooted!(in(cx) let mut obj = ptr::null_mut::()); create_global_object( cx, &Class.base, raw as *const libc::c_void, _trace, obj.handle_mut()); assert!(!obj.is_null()); (*raw).init_reflector(obj.get()); let _ac = JSAutoRealm::new(cx, obj.get()); rooted!(in(cx) let mut proto = ptr::null_mut::()); GetProtoObject(cx, obj.handle(), proto.handle_mut()); assert!(JS_SplicePrototype(cx, obj.handle(), proto.handle())); let mut immutable = false; assert!(JS_SetImmutablePrototype(cx, obj.handle(), &mut immutable)); assert!(immutable); %(members)s %(unforgeable)s DomRoot::from_ref(&*raw)\ """ % values) class CGIDLInterface(CGThing): """ Class for codegen of an implementation of the IDLInterface trait. """ def __init__(self, descriptor): CGThing.__init__(self) self.descriptor = descriptor def define(self): interface = self.descriptor.interface name = self.descriptor.concreteType if (interface.getUserData("hasConcreteDescendant", False) or interface.getUserData("hasProxyDescendant", False)): depth = self.descriptor.prototypeDepth check = "class.interface_chain[%s] == PrototypeList::ID::%s" % (depth, name) elif self.descriptor.proxy: check = "class as *const _ == &Class as *const _" else: check = "class as *const _ == &Class.dom_class as *const _" return """\ impl IDLInterface for %(name)s { #[inline] fn derives(class: &'static DOMClass) -> bool { %(check)s } } impl PartialEq for %(name)s { fn eq(&self, other: &%(name)s) -> bool { self as *const %(name)s == &*other } } """ % {'check': check, 'name': name} class CGAbstractExternMethod(CGAbstractMethod): """ Abstract base class for codegen of implementation-only (no declaration) static methods. """ def __init__(self, descriptor, name, returnType, args, doesNotPanic=False): CGAbstractMethod.__init__(self, descriptor, name, returnType, args, inline=False, extern=True, doesNotPanic=doesNotPanic) class PropertyArrays(): def __init__(self, descriptor): self.static_methods = MethodDefiner(descriptor, "StaticMethods", static=True, unforgeable=False) self.static_attrs = AttrDefiner(descriptor, "StaticAttributes", static=True, unforgeable=False) self.methods = MethodDefiner(descriptor, "Methods", static=False, unforgeable=False) self.unforgeable_methods = MethodDefiner(descriptor, "UnforgeableMethods", static=False, unforgeable=True) self.attrs = AttrDefiner(descriptor, "Attributes", static=False, unforgeable=False) self.unforgeable_attrs = AttrDefiner(descriptor, "UnforgeableAttributes", static=False, unforgeable=True) self.consts = ConstDefiner(descriptor, "Constants") pass @staticmethod def arrayNames(): return [ "static_methods", "static_attrs", "methods", "unforgeable_methods", "attrs", "unforgeable_attrs", "consts", ] def variableNames(self): names = {} for array in self.arrayNames(): names[array] = getattr(self, array).variableName() return names def __str__(self): define = "" for array in self.arrayNames(): define += str(getattr(self, array)) return define 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('*mut JSContext', 'cx'), Argument('HandleObject', 'global'), Argument('*mut ProtoOrIfaceArray', 'cache')] CGAbstractMethod.__init__(self, descriptor, 'CreateInterfaceObjects', 'void', args, unsafe=True) self.properties = properties self.haveUnscopables = haveUnscopables def definition_body(self): name = self.descriptor.interface.identifier.name if self.descriptor.interface.isNamespace(): if self.descriptor.interface.getExtendedAttribute("ProtoObjectHack"): proto = "GetRealmObjectPrototype(cx)" else: proto = "JS_NewPlainObject(cx)" if self.properties.static_methods.length(): methods = self.properties.static_methods.variableName() else: methods = "&[]" return CGGeneric("""\ rooted!(in(cx) let proto = %(proto)s); assert!(!proto.is_null()); rooted!(in(cx) let mut namespace = ptr::null_mut::()); create_namespace_object(cx, global, proto.handle(), &NAMESPACE_OBJECT_CLASS, %(methods)s, %(name)s, namespace.handle_mut()); assert!(!namespace.is_null()); assert!((*cache)[PrototypeList::Constructor::%(id)s as usize].is_null()); (*cache)[PrototypeList::Constructor::%(id)s as usize] = namespace.get(); <*mut JSObject>::post_barrier((*cache).as_mut_ptr().offset(PrototypeList::Constructor::%(id)s as isize), ptr::null_mut(), namespace.get()); """ % {"id": MakeNativeName(name), "methods": methods, "name": str_to_const_array(name), "proto": proto}) if self.descriptor.interface.isCallback(): assert not self.descriptor.interface.ctor() and self.descriptor.interface.hasConstants() return CGGeneric("""\ rooted!(in(cx) let mut interface = ptr::null_mut::()); create_callback_interface_object(cx, global, sConstants, %(name)s, interface.handle_mut()); assert!(!interface.is_null()); assert!((*cache)[PrototypeList::Constructor::%(id)s as usize].is_null()); (*cache)[PrototypeList::Constructor::%(id)s as usize] = interface.get(); <*mut JSObject>::post_barrier((*cache).as_mut_ptr().offset(PrototypeList::Constructor::%(id)s as isize), ptr::null_mut(), interface.get()); """ % {"id": name, "name": str_to_const_array(name)}) parentName = self.descriptor.getParentName() if not parentName: if self.descriptor.interface.getExtendedAttribute("ExceptionClass"): protoGetter = "GetRealmErrorPrototype" elif self.descriptor.interface.isIteratorInterface(): protoGetter = "GetRealmIteratorPrototype" else: protoGetter = "GetRealmObjectPrototype" getPrototypeProto = "prototype_proto.set(%s(cx))" % protoGetter else: getPrototypeProto = ("%s::GetProtoObject(cx, global, prototype_proto.handle_mut())" % toBindingNamespace(parentName)) code = [CGGeneric("""\ rooted!(in(cx) let mut prototype_proto = ptr::null_mut::()); %s; assert!(!prototype_proto.is_null());""" % getPrototypeProto)] properties = { "id": name, "unscopables": "unscopable_names" if self.haveUnscopables else "&[]" } for arrayName in self.properties.arrayNames(): array = getattr(self.properties, arrayName) if array.length(): properties[arrayName] = array.variableName() else: properties[arrayName] = "&[]" if self.descriptor.isGlobal(): assert not self.haveUnscopables proto_properties = { "attrs": "&[]", "consts": "&[]", "id": name, "methods": "&[]", "unscopables": "&[]", } else: proto_properties = properties code.append(CGGeneric(""" rooted!(in(cx) let mut prototype = ptr::null_mut::()); create_interface_prototype_object(cx, prototype_proto.handle().into(), &PrototypeClass, %(methods)s, %(attrs)s, %(consts)s, %(unscopables)s, prototype.handle_mut().into()); assert!(!prototype.is_null()); assert!((*cache)[PrototypeList::ID::%(id)s as usize].is_null()); (*cache)[PrototypeList::ID::%(id)s as usize] = prototype.get(); <*mut JSObject>::post_barrier((*cache).as_mut_ptr().offset(PrototypeList::ID::%(id)s as isize), ptr::null_mut(), prototype.get()); """ % proto_properties)) if self.descriptor.interface.hasInterfaceObject(): properties["name"] = str_to_const_array(name) if self.descriptor.interface.ctor(): properties["length"] = methodLength(self.descriptor.interface.ctor()) else: properties["length"] = 0 parentName = self.descriptor.getParentName() code.append(CGGeneric("rooted!(in(cx) let mut interface_proto = ptr::null_mut::());")) if parentName: parentName = toBindingNamespace(parentName) code.append(CGGeneric(""" %s::GetConstructorObject(cx, global, interface_proto.handle_mut());""" % parentName)) else: code.append(CGGeneric("interface_proto.set(GetRealmFunctionPrototype(cx));")) code.append(CGGeneric("""\ assert!(!interface_proto.is_null()); rooted!(in(cx) let mut interface = ptr::null_mut::()); create_noncallback_interface_object(cx, global.into(), interface_proto.handle(), &INTERFACE_OBJECT_CLASS, %(static_methods)s, %(static_attrs)s, %(consts)s, prototype.handle(), %(name)s, %(length)s, interface.handle_mut()); assert!(!interface.is_null());""" % properties)) if self.descriptor.shouldCacheConstructor(): code.append(CGGeneric("""\ assert!((*cache)[PrototypeList::Constructor::%(id)s as usize].is_null()); (*cache)[PrototypeList::Constructor::%(id)s as usize] = interface.get(); <*mut JSObject>::post_barrier((*cache).as_mut_ptr().offset(PrototypeList::Constructor::%(id)s as isize), ptr::null_mut(), interface.get()); """ % properties)) aliasedMembers = [m for m in self.descriptor.interface.members if m.isMethod() and m.aliases] if aliasedMembers: def defineAlias(alias): if alias == "@@iterator": symbolJSID = "RUST_SYMBOL_TO_JSID(GetWellKnownSymbol(cx, SymbolCode::iterator))" getSymbolJSID = CGGeneric(fill("rooted!(in(cx) let iteratorId = ${symbolJSID});", symbolJSID=symbolJSID)) defineFn = "JS_DefinePropertyById2" prop = "iteratorId.handle()" elif alias.startswith("@@"): raise TypeError("Can't handle any well-known Symbol other than @@iterator") else: getSymbolJSID = None defineFn = "JS_DefineProperty" prop = '"%s"' % alias return CGList([ getSymbolJSID, # XXX If we ever create non-enumerable properties that can # be aliased, we should consider making the aliases # match the enumerability of the property being aliased. CGGeneric(fill( """ assert!(${defineFn}(cx, prototype.handle(), ${prop}, aliasedVal.handle(), JSPROP_ENUMERATE as u32)); """, defineFn=defineFn, prop=prop)) ], "\n") def defineAliasesFor(m): return CGList([ CGGeneric(fill( """ assert!(JS_GetProperty(cx, prototype.handle(), ${prop} as *const u8 as *const _, aliasedVal.handle_mut())); """, prop=str_to_const_array(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. """)), CGGeneric("rooted!(in(cx) let mut aliasedVal = UndefinedValue());\n\n") ] + [defineAliasesFor(m) for m in sorted(aliasedMembers)]) code.append(defineAliases) constructors = self.descriptor.interface.namedConstructors if constructors: decl = "let named_constructors: [(ConstructorClassHook, &'static [u8], u32); %d]" % len(constructors) specs = [] for constructor in constructors: hook = CONSTRUCT_HOOK_NAME + "_" + constructor.identifier.name name = str_to_const_array(constructor.identifier.name) length = methodLength(constructor) specs.append(CGGeneric("(%s as ConstructorClassHook, %s, %d)" % (hook, name, length))) values = CGIndenter(CGList(specs, "\n"), 4) code.append(CGWrapper(values, pre="%s = [\n" % decl, post="\n];")) code.append(CGGeneric("create_named_constructors(cx, global, &named_constructors, prototype.handle());")) if self.descriptor.hasUnforgeableMembers: # 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 = "ptr::null()" holderProto = "HandleObject::null()" else: holderClass = "&Class.base as *const JSClass" holderProto = "prototype.handle()" code.append(CGGeneric(""" rooted!(in(cx) let mut unforgeable_holder = ptr::null_mut::()); unforgeable_holder.handle_mut().set( JS_NewObjectWithoutMetadata(cx, %(holderClass)s, %(holderProto)s)); assert!(!unforgeable_holder.is_null()); """ % {'holderClass': holderClass, 'holderProto': holderProto})) code.append(InitUnforgeablePropertiesOnHolder(self.descriptor, self.properties)) code.append(CGGeneric("""\ let val = ObjectValue(unforgeable_holder.get()); JS_SetReservedSlot(prototype.get(), DOM_PROTO_UNFORGEABLE_HOLDER_SLOT, &val)""")) return CGList(code, "\n") class CGGetPerInterfaceObject(CGAbstractMethod): """ A method for getting a per-interface object (a prototype object or interface constructor object). """ def __init__(self, descriptor, name, idPrefix="", pub=False): args = [Argument('*mut JSContext', 'cx'), Argument('HandleObject', 'global'), Argument('MutableHandleObject', 'mut rval')] CGAbstractMethod.__init__(self, descriptor, name, 'void', args, pub=pub, unsafe=True) self.id = idPrefix + "::" + MakeNativeName(self.descriptor.name) def definition_body(self): return CGGeneric(""" assert!(((*get_object_class(global.get())).flags & JSCLASS_DOM_GLOBAL) != 0); /* Check to see whether the interface objects are already installed */ let proto_or_iface_array = get_proto_or_iface_array(global.get()); rval.set((*proto_or_iface_array)[%(id)s as usize]); if !rval.get().is_null() { return; } CreateInterfaceObjects(cx, global, proto_or_iface_array); rval.set((*proto_or_iface_array)[%(id)s as usize]); assert!(!rval.get().is_null()); """ % {"id": self.id}) class CGGetProtoObjectMethod(CGGetPerInterfaceObject): """ A method for getting the interface prototype object. """ def __init__(self, descriptor): CGGetPerInterfaceObject.__init__(self, descriptor, "GetProtoObject", "PrototypeList::ID", pub=True) def definition_body(self): return CGList([ CGGeneric("""\ /* Get the interface prototype object for this class. This will create the object as needed. */"""), CGGetPerInterfaceObject.definition_body(self), ]) class CGGetConstructorObjectMethod(CGGetPerInterfaceObject): """ A method for getting the interface constructor object. """ def __init__(self, descriptor): CGGetPerInterfaceObject.__init__(self, descriptor, "GetConstructorObject", "PrototypeList::Constructor", pub=True) def definition_body(self): return CGList([ CGGeneric("""\ /* Get the interface object for this class. This will create the object as needed. */"""), CGGetPerInterfaceObject.definition_body(self), ]) class CGDefineProxyHandler(CGAbstractMethod): """ A method to create and cache the proxy trap for a given interface. """ def __init__(self, descriptor): assert descriptor.proxy CGAbstractMethod.__init__(self, descriptor, 'DefineProxyHandler', '*const libc::c_void', [], pub=True, unsafe=True) def define(self): return CGAbstractMethod.define(self) def definition_body(self): customDefineProperty = 'proxyhandler::define_property' if self.descriptor.operations['IndexedSetter'] or self.descriptor.operations['NamedSetter']: customDefineProperty = 'defineProperty' customDelete = 'proxyhandler::delete' if self.descriptor.operations['NamedDeleter']: customDelete = 'delete' getOwnEnumerablePropertyKeys = "own_property_keys" if self.descriptor.interface.getExtendedAttribute("LegacyUnenumerableNamedProperties"): getOwnEnumerablePropertyKeys = "getOwnEnumerablePropertyKeys" args = { "defineProperty": customDefineProperty, "delete": customDelete, "getOwnEnumerablePropertyKeys": getOwnEnumerablePropertyKeys, "trace": TRACE_HOOK_NAME, "finalize": FINALIZE_HOOK_NAME, } return CGGeneric("""\ let traps = ProxyTraps { enter: None, getOwnPropertyDescriptor: Some(getOwnPropertyDescriptor), defineProperty: Some(%(defineProperty)s), ownPropertyKeys: Some(own_property_keys), delete_: Some(%(delete)s), enumerate: None, getPrototypeIfOrdinary: Some(proxyhandler::get_prototype_if_ordinary), preventExtensions: Some(proxyhandler::prevent_extensions), isExtensible: Some(proxyhandler::is_extensible), has: None, get: Some(get), set: None, call: None, construct: None, hasOwn: Some(hasOwn), getOwnEnumerablePropertyKeys: Some(%(getOwnEnumerablePropertyKeys)s), nativeCall: None, hasInstance: None, objectClassIs: None, className: Some(className), fun_toString: None, boxedValue_unbox: None, defaultValue: None, trace: Some(%(trace)s), finalize: Some(%(finalize)s), objectMoved: None, isCallable: None, isConstructor: None, }; CreateProxyHandler(&traps, Class.as_void_ptr())\ """ % args) class CGDefineDOMInterfaceMethod(CGAbstractMethod): """ A method for resolve hooks to try to lazily define the interface object for a given interface. """ def __init__(self, descriptor): assert descriptor.interface.hasInterfaceObject() args = [ Argument('*mut JSContext', 'cx'), Argument('HandleObject', 'global'), ] CGAbstractMethod.__init__(self, descriptor, 'DefineDOMInterface', 'void', args, pub=True, unsafe=True) def define(self): return CGAbstractMethod.define(self) def definition_body(self): if self.descriptor.interface.isCallback() or self.descriptor.interface.isNamespace(): function = "GetConstructorObject" else: function = "GetProtoObject" return CGGeneric("""\ assert!(!global.get().is_null()); if !ConstructorEnabled(cx, global) { return; } rooted!(in(cx) let mut proto = ptr::null_mut::()); %s(cx, global, proto.handle_mut()); assert!(!proto.is_null());""" % (function,)) def needCx(returnType, arguments, considerTypes): return (considerTypes and (typeNeedsCx(returnType, True) or any(typeNeedsCx(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. errorResult should be a string for the value to return in case of an exception from the native code, or None if no error reporting is needed. """ def __init__(self, errorResult, arguments, argsPre, returnType, extendedAttributes, descriptor, nativeMethodName, static, object="this", hasCEReactions=False): CGThing.__init__(self) assert errorResult is None or isinstance(errorResult, str) isFallible = errorResult is not None result = getRetvalDeclarationForType(returnType, descriptor) if isFallible: result = CGWrapper(result, pre="Result<", post=", Error>") args = CGList([CGGeneric(arg) for arg in argsPre], ", ") for (a, name) in arguments: # XXXjdm Perhaps we should pass all nontrivial types by borrowed pointer if a.type.isDictionary() and not type_needs_tracing(a.type): name = "&" + name args.append(CGGeneric(name)) needsCx = needCx(returnType, (a for (a, _) in arguments), True) if "cx" not in argsPre and needsCx: args.prepend(CGGeneric("cx")) if nativeMethodName in descriptor.inCompartmentMethods: args.append(CGGeneric("InCompartment::in_compartment(&AlreadyInCompartment::assert_for_cx(cx))")) # Build up our actual call self.cgRoot = CGList([], "\n") call = CGGeneric(nativeMethodName) if static: call = CGWrapper(call, pre="%s::" % MakeNativeName(descriptor.interface.identifier.name)) else: call = CGWrapper(call, pre="%s." % object) call = CGList([call, CGWrapper(args, pre="(", post=")")]) if hasCEReactions: self.cgRoot.append(CGGeneric("push_new_element_queue();\n")) self.cgRoot.append(CGList([ CGGeneric("let result: "), result, CGGeneric(" = "), call, CGGeneric(";"), ])) if hasCEReactions: self.cgRoot.append(CGGeneric("pop_current_element_queue();\n")) if isFallible: if static: glob = "global.upcast::()" else: glob = "&this.global()" self.cgRoot.append(CGGeneric( "let result = match result {\n" " Ok(result) => result,\n" " Err(e) => {\n" " throw_dom_exception(cx, %s, e);\n" " return%s;\n" " },\n" "};" % (glob, errorResult))) def define(self): return self.cgRoot.define() 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. 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, argsPre, arguments, nativeMethodName, static, descriptor, idlNode, argConversionStartsAt=0, getter=False, setter=False): CGThing.__init__(self) self.returnType = returnType self.descriptor = descriptor self.idlNode = idlNode self.extendedAttributes = descriptor.getExtendedAttributes(idlNode, getter=getter, setter=setter) self.argsPre = argsPre self.arguments = arguments self.argCount = len(arguments) cgThings = [] cgThings.extend([CGArgumentConverter(arguments[i], i, self.getArgs(), self.getArgc(), self.descriptor, invalidEnumValueFatal=not setter) for i in range(argConversionStartsAt, self.argCount)]) errorResult = None if self.isFallible(): errorResult = " false" if idlNode.isMethod() and idlNode.isMaplikeOrSetlikeOrIterableMethod(): if idlNode.maplikeOrSetlikeOrIterable.isMaplike() or \ idlNode.maplikeOrSetlikeOrIterable.isSetlike(): raise TypeError('Maplike/Setlike methods are not supported yet') else: cgThings.append(CGIterableMethodGenerator(descriptor, idlNode.maplikeOrSetlikeOrIterable, idlNode.identifier.name)) else: hasCEReactions = idlNode.getExtendedAttribute("CEReactions") cgThings.append(CGCallGenerator( errorResult, self.getArguments(), self.argsPre, returnType, self.extendedAttributes, descriptor, nativeMethodName, static, hasCEReactions=hasCEReactions)) self.cgRoot = CGList(cgThings, "\n") def getArgs(self): return "args" if self.argCount > 0 else "" def getArgc(self): return "argc" def getArguments(self): return [(a, process_arg("arg" + str(i), a)) for (i, a) in enumerate(self.arguments)] def isFallible(self): return 'infallible' not in self.extendedAttributes def wrap_return_value(self): return wrapForType('MutableHandleValue::from_raw(args.rval())') def define(self): return (self.cgRoot.define() + "\n" + 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], "\n") self.prepend(CGWrapper(CGGeneric(expression), pre="match ", post=" {")) if default is not None: self.append( CGIndenter( CGWrapper( CGIndenter(default), pre="_ => {\n", post="\n}" ) ) ) self.append(CGGeneric("}")) 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, [], "\n") self.append(CGWrapper(CGGeneric(expression), post=" => {")) bodyList = CGList([body], "\n") if fallThrough: raise TypeError("fall through required but unsupported") # bodyList.append(CGGeneric('panic!("fall through unsupported"); /* Fall through */')) self.append(CGIndenter(bodyList)) self.append(CGGeneric("}")) class CGGetterCall(CGPerSignatureCall): """ A class to generate a native object getter call for a particular IDL getter. """ def __init__(self, argsPre, returnType, nativeMethodName, descriptor, attr): CGPerSignatureCall.__init__(self, returnType, argsPre, [], nativeMethodName, attr.isStatic(), descriptor, attr, getter=True) 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, allowTreatNonObjectAsNull=False): self.type = type self.optional = False self.variadic = False self.defaultValue = None self._allowTreatNonObjectAsNull = allowTreatNonObjectAsNull def allowTreatNonCallableAsNull(self): return self._allowTreatNonObjectAsNull class CGSetterCall(CGPerSignatureCall): """ A class to generate a native object setter call for a particular IDL setter. """ def __init__(self, argsPre, argType, nativeMethodName, descriptor, attr): CGPerSignatureCall.__init__(self, None, argsPre, [FakeArgument(argType, attr, allowTreatNonObjectAsNull=True)], nativeMethodName, attr.isStatic(), descriptor, attr, setter=True) def wrap_return_value(self): # We have no return value return "\nreturn true;" def getArgc(self): return "1" class CGAbstractStaticBindingMethod(CGAbstractMethod): """ 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): args = [ Argument('*mut JSContext', 'cx'), Argument('libc::c_uint', 'argc'), Argument('*mut JSVal', 'vp'), ] CGAbstractMethod.__init__(self, descriptor, name, "bool", args, extern=True) self.exposureSet = descriptor.interface.exposureSet def definition_body(self): preamble = """\ let args = CallArgs::from_vp(vp, argc); let global = GlobalScope::from_object(args.callee()); """ if len(self.exposureSet) == 1: preamble += ("let global = DomRoot::downcast::(global).unwrap();\n" % list(self.exposureSet)[0]) return CGList([CGGeneric(preamble), self.generate_code()]) def generate_code(self): raise NotImplementedError # Override me! class CGSpecializedMethod(CGAbstractExternMethod): """ 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 = method.identifier.name args = [Argument('*mut JSContext', 'cx'), Argument('HandleObject', '_obj'), Argument('*const %s' % descriptor.concreteType, 'this'), Argument('*const JSJitMethodCallArgs', 'args')] CGAbstractExternMethod.__init__(self, descriptor, name, 'bool', args) def definition_body(self): nativeName = CGSpecializedMethod.makeNativeName(self.descriptor, self.method) return CGWrapper(CGMethodCall([], nativeName, self.method.isStatic(), self.descriptor, self.method), pre="let this = &*this;\n" "let args = &*args;\n" "let argc = args.argc_;\n") @staticmethod def makeNativeName(descriptor, method): name = method.identifier.name nativeName = descriptor.binaryNameFor(name) if nativeName == name: nativeName = descriptor.internalNameFor(name) return MakeNativeName(nativeName) class CGStaticMethod(CGAbstractStaticBindingMethod): """ A class for generating the Rust code for an IDL static method. """ def __init__(self, descriptor, method): self.method = method name = method.identifier.name CGAbstractStaticBindingMethod.__init__(self, descriptor, name) def generate_code(self): nativeName = CGSpecializedMethod.makeNativeName(self.descriptor, self.method) setupArgs = CGGeneric("let args = CallArgs::from_vp(vp, argc);\n") call = CGMethodCall(["&global"], nativeName, True, self.descriptor, self.method) return CGList([setupArgs, call]) class CGSpecializedGetter(CGAbstractExternMethod): """ 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_' + descriptor.internalNameFor(attr.identifier.name) args = [Argument('*mut JSContext', 'cx'), Argument('HandleObject', '_obj'), Argument('*const %s' % descriptor.concreteType, 'this'), Argument('JSJitGetterCallArgs', 'args')] CGAbstractExternMethod.__init__(self, descriptor, name, "bool", args) def definition_body(self): nativeName = CGSpecializedGetter.makeNativeName(self.descriptor, self.attr) return CGWrapper(CGGetterCall([], self.attr.type, nativeName, self.descriptor, self.attr), pre="let this = &*this;\n") @staticmethod def makeNativeName(descriptor, attr): name = attr.identifier.name nativeName = descriptor.binaryNameFor(name) if nativeName == name: nativeName = descriptor.internalNameFor(name) nativeName = MakeNativeName(nativeName) infallible = ('infallible' in descriptor.getExtendedAttributes(attr, getter=True)) if attr.type.nullable() or not infallible: return "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_' + attr.identifier.name CGAbstractStaticBindingMethod.__init__(self, descriptor, name) def generate_code(self): nativeName = CGSpecializedGetter.makeNativeName(self.descriptor, self.attr) setupArgs = CGGeneric("let args = CallArgs::from_vp(vp, argc);\n") call = CGGetterCall(["&global"], self.attr.type, nativeName, self.descriptor, self.attr) return CGList([setupArgs, call]) class CGSpecializedSetter(CGAbstractExternMethod): """ 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_' + descriptor.internalNameFor(attr.identifier.name) args = [Argument('*mut JSContext', 'cx'), Argument('HandleObject', 'obj'), Argument('*const %s' % descriptor.concreteType, 'this'), Argument('JSJitSetterCallArgs', 'args')] CGAbstractExternMethod.__init__(self, descriptor, name, "bool", args) def definition_body(self): nativeName = CGSpecializedSetter.makeNativeName(self.descriptor, self.attr) return CGWrapper(CGSetterCall([], self.attr.type, nativeName, self.descriptor, self.attr), pre="let this = &*this;\n") @staticmethod def makeNativeName(descriptor, attr): name = attr.identifier.name nativeName = descriptor.binaryNameFor(name) if nativeName == name: nativeName = descriptor.internalNameFor(name) return "Set" + MakeNativeName(nativeName) 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_' + attr.identifier.name CGAbstractStaticBindingMethod.__init__(self, descriptor, name) def generate_code(self): nativeName = CGSpecializedSetter.makeNativeName(self.descriptor, self.attr) checkForArg = CGGeneric( "let args = CallArgs::from_vp(vp, argc);\n" "if argc == 0 {\n" " throw_type_error(cx, \"Not enough arguments to %s setter.\");\n" " return false;\n" "}" % self.attr.identifier.name) call = CGSetterCall(["&global"], self.attr.type, nativeName, self.descriptor, self.attr) return CGList([checkForArg, call]) class CGSpecializedForwardingSetter(CGSpecializedSetter): """ A class for generating the code for an IDL attribute forwarding setter. """ 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 CGGeneric("""\ rooted!(in(cx) let mut v = UndefinedValue()); if !JS_GetProperty(cx, obj, %s as *const u8 as *const libc::c_char, v.handle_mut()) { return false; } if !v.is_object() { throw_type_error(cx, "Value.%s is not an object."); return false; } rooted!(in(cx) let target_obj = v.to_object()); JS_SetProperty(cx, target_obj.handle(), %s as *const u8 as *const libc::c_char, HandleValue::from_raw(args.get(0))) """ % (str_to_const_array(attrName), attrName, str_to_const_array(forwardToAttrName))) class CGSpecializedReplaceableSetter(CGSpecializedSetter): """ A class for generating the code for an IDL replaceable attribute setter. """ def __init__(self, descriptor, attr): CGSpecializedSetter.__init__(self, descriptor, attr) def definition_body(self): assert self.attr.readonly name = str_to_const_array(self.attr.identifier.name) # JS_DefineProperty can only deal with ASCII. assert all(ord(c) < 128 for c in name) return CGGeneric("""\ JS_DefineProperty(cx, obj, %s as *const u8 as *const libc::c_char, HandleValue::from_raw(args.get(0)), JSPROP_ENUMERATE as u32)""" % name) 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 defineJitInfo(self, infoName, opName, opType, infallible, movable, aliasSet, alwaysInSlot, lazilyInSlot, slotIndex, returnTypes, args): """ aliasSet is a JSJitInfo_AliasSet value, without the "JSJitInfo_AliasSet::" 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 def jitInfoInitializer(isTypedMethod): initializer = fill( """ JSJitInfo { call: ${opName} as *const os::raw::c_void, protoID: PrototypeList::ID::${name} as u16, depth: ${depth}, _bitfield_1: new_jsjitinfo_bitfield_1!( JSJitInfo_OpType::${opType} as u8, JSJitInfo_AliasSet::${aliasSet} as u8, JSValueType::${returnType} as u8, ${isInfallible}, ${isMovable}, ${isEliminatable}, ${isAlwaysInSlot}, ${isLazilyCachedInSlot}, ${isTypedMethod}, ${slotIndex}, ), } """, opName=opName, name=self.descriptor.name, depth=self.descriptor.interface.inheritanceDepth(), opType=opType, aliasSet=aliasSet, returnType=reduce(CGMemberJITInfo.getSingleReturnType, returnTypes, ""), isInfallible=toStringBool(infallible), isMovable=toStringBool(movable), # FIXME(nox): https://github.com/servo/servo/issues/10991 isEliminatable=toStringBool(False), isAlwaysInSlot=toStringBool(alwaysInSlot), isLazilyCachedInSlot=toStringBool(lazilyInSlot), isTypedMethod=toStringBool(isTypedMethod), slotIndex=slotIndex) return initializer.rstrip() if args is not None: argTypes = "%s_argTypes" % infoName args = [CGMemberJITInfo.getJSArgType(arg.type) for arg in args] args.append("JSJitInfo_ArgType::ArgTypeListEnd as i32") argTypesDecl = ( "const %s: [i32; %d] = [ %s ];\n" % (argTypes, len(args), ", ".join(args))) return fill( """ $*{argTypesDecl} const ${infoName}: JSTypedMethodJitInfo = JSTypedMethodJitInfo { base: ${jitInfo}, argTypes: &${argTypes} as *const _ as *const JSJitInfo_ArgType, }; """, argTypesDecl=argTypesDecl, infoName=infoName, jitInfo=indent(jitInfoInitializer(True)), argTypes=argTypes) return ("\n" "const %s: JSJitInfo = %s;\n" % (infoName, jitInfoInitializer(False))) def define(self): if self.member.isAttr(): internalMemberName = self.descriptor.internalNameFor(self.member.identifier.name) getterinfo = ("%s_getterinfo" % internalMemberName) getter = ("get_%s" % internalMemberName) getterinfal = "infallible" in self.descriptor.getExtendedAttributes(self.member, getter=True) movable = self.mayBeMovable() and getterinfal aliasSet = self.aliasSet() 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) # noqa:FIXME: memberReservedSlot is not defined # 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, aliasSet, isAlwaysInSlot, isLazilyCachedInSlot, slotIndex, [self.member.type], None) if (not self.member.readonly or self.member.getExtendedAttribute("PutForwards") or self.member.getExtendedAttribute("Replaceable")): setterinfo = ("%s_setterinfo" % internalMemberName) setter = ("set_%s" % internalMemberName) # Setters are always fallible, since they have to do a typed unwrap. result += self.defineJitInfo(setterinfo, setter, "Setter", False, False, "AliasEverything", False, False, "0", [BuiltinTypes[IDLBuiltinType.Types.void]], None) return result if self.member.isMethod(): methodinfo = ("%s_methodinfo" % self.member.identifier.name) method = ("%s" % self.member.identifier.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 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 # 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): # 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, 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 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.isSequence(): return "JSVAL_TYPE_OBJECT" if t.isRecord(): return "JSVAL_TYPE_OBJECT" if t.isPromise(): 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::Null as i32 | %s" % CGMemberJITInfo.getJSArgType(t.inner) if t.isSequence(): return "JSJitInfo_ArgType::Object as i32" if t.isGeckoInterface(): return "JSJitInfo_ArgType::Object as i32" if t.isString(): return "JSJitInfo_ArgType::String as i32" if t.isEnum(): return "JSJitInfo_ArgType::String as i32" if t.isCallback(): return "JSJitInfo_ArgType::Object as i32" if t.isAny(): # The whole point is to return various stuff return "JSJitInfo_ArgType::Any as i32" if t.isObject(): return "JSJitInfo_ArgType::Object as i32" if t.isSpiderMonkeyInterface(): return "JSJitInfo_ArgType::Object as i32" if t.isUnion(): u = t.unroll() type = "JSJitInfo::Null as i32" if u.hasNullableType else "" return reduce(CGMemberJITInfo.getSingleArgType, u.flatMemberTypes, type) if t.isDictionary(): return "JSJitInfo_ArgType::Object as i32" if t.isDate(): return "JSJitInfo_ArgType::Object as i32" if not t.isPrimitive(): raise TypeError("No idea what type " + str(t) + " is.") tag = t.tag() if tag == IDLType.Tags.bool: return "JSJitInfo_ArgType::Boolean as i32" if tag in [IDLType.Tags.int8, IDLType.Tags.uint8, IDLType.Tags.int16, IDLType.Tags.uint16, IDLType.Tags.int32]: return "JSJitInfo_ArgType::Integer as i32" 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_ArgType::Double as i32" if tag != IDLType.Tags.uint32: raise TypeError("No idea what type " + str(t) + " is.") # uint32 is sometimes int and sometimes double. return "JSJitInfo_ArgType::Double as i32" @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) 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): raise SyntaxError('Enum value "' + value + '" starts with a digit') 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" return MakeNativeName(value) class CGEnum(CGThing): def __init__(self, enum): CGThing.__init__(self) ident = enum.identifier.name decl = """\ #[repr(usize)] #[derive(Copy, Clone, Debug, JSTraceable, MallocSizeOf, PartialEq)] pub enum %s { %s } """ % (ident, ",\n ".join(map(getEnumValueName, enum.values()))) pairs = ",\n ".join(['("%s", super::%s::%s)' % (val, ident, getEnumValueName(val)) for val in enum.values()]) inner = string.Template("""\ use crate::dom::bindings::conversions::ToJSValConvertible; use js::jsapi::JSContext; use js::rust::MutableHandleValue; use js::jsval::JSVal; pub const pairs: &'static [(&'static str, super::${ident})] = &[ ${pairs}, ]; impl super::${ident} { pub fn as_str(&self) -> &'static str { pairs[*self as usize].0 } } impl Default for super::${ident} { fn default() -> super::${ident} { pairs[0].1 } } impl ToJSValConvertible for super::${ident} { unsafe fn to_jsval(&self, cx: *mut JSContext, rval: MutableHandleValue) { pairs[*self as usize].0.to_jsval(cx, rval); } } """).substitute({ 'ident': ident, 'pairs': pairs }) self.cgRoot = CGList([ CGGeneric(decl), CGNamespace.build([ident + "Values"], CGIndenter(CGGeneric(inner)), public=True), ]) def define(self): return self.cgRoot.define() def convertConstIDLValueToRust(value): tag = value.type.tag() if tag in [IDLType.Tags.int8, IDLType.Tags.uint8, IDLType.Tags.int16, IDLType.Tags.uint16, IDLType.Tags.int32, IDLType.Tags.uint32, IDLType.Tags.int64, IDLType.Tags.uint64, IDLType.Tags.unrestricted_float, IDLType.Tags.float, IDLType.Tags.unrestricted_double, IDLType.Tags.double]: return str(value.value) if tag == IDLType.Tags.bool: return toStringBool(value.value) raise TypeError("Const value of unhandled type: " + value.type) class CGConstant(CGThing): def __init__(self, constant): CGThing.__init__(self) self.constant = constant def define(self): name = self.constant.identifier.name value = convertConstIDLValueToRust(self.constant.value) tag = self.constant.value.type.tag() const_type = builtinNames[self.constant.value.type.tag()] # Finite or Finite cannot be used un a constant declaration. # Remote the Finite type from restricted float and double tag declarations. if tag == IDLType.Tags.float: const_type = "f32" elif tag == IDLType.Tags.double: const_type = "f64" return "pub const %s: %s = %s;\n" % (name, const_type, value) def getUnionTypeTemplateVars(type, descriptorProvider): if type.isGeckoInterface(): name = type.inner.identifier.name typeName = descriptorProvider.getDescriptor(name).returnType elif type.isEnum(): name = type.inner.identifier.name typeName = name elif type.isDictionary(): name = type.name typeName = name elif type.isSequence() or type.isRecord(): name = type.name inner = getUnionTypeTemplateVars(innerContainerType(type), descriptorProvider) typeName = wrapInNativeContainerType(type, CGGeneric(inner["typeName"])).define() elif type.isByteString(): name = type.name typeName = "ByteString" elif type.isDOMString(): name = type.name typeName = "DOMString" elif type.isUSVString(): name = type.name typeName = "USVString" elif type.isPrimitive(): name = type.name typeName = builtinNames[type.tag()] elif type.isObject(): name = type.name typeName = "Heap<*mut JSObject>" elif is_typed_array(type): name = type.name typeName = "typedarray::Heap" + name else: raise TypeError("Can't handle %s in unions yet" % type) info = getJSToNativeConversionInfo( type, descriptorProvider, failureCode="return Ok(None);", exceptionCode='return Err(());', isDefinitelyObject=True, isMember="Union") template = info.template jsConversion = string.Template(template).substitute({ "val": "value", }) jsConversion = CGWrapper(CGGeneric(jsConversion), pre="Ok(Some(", post="))") return { "name": name, "typeName": typeName, "jsConversion": jsConversion, } class CGUnionStruct(CGThing): def __init__(self, type, descriptorProvider): assert not type.nullable() assert not type.hasNullableType CGThing.__init__(self) self.type = type self.descriptorProvider = descriptorProvider def membersNeedTracing(self): for t in self.type.flatMemberTypes: if type_needs_tracing(t): return True return False def define(self): templateVars = map(lambda t: (getUnionTypeTemplateVars(t, self.descriptorProvider), type_needs_tracing(t)), self.type.flatMemberTypes) enumValues = [ " %s(%s)," % (v["name"], "RootedTraceableBox<%s>" % v["typeName"] if trace else v["typeName"]) for (v, trace) in templateVars ] enumConversions = [ " %s::%s(ref inner) => inner.to_jsval(cx, rval)," % (self.type, v["name"]) for (v, _) in templateVars ] return ("""\ #[derive(JSTraceable)] pub enum %s { %s } impl ToJSValConvertible for %s { unsafe fn to_jsval(&self, cx: *mut JSContext, rval: MutableHandleValue) { match *self { %s } } } """) % (self.type, "\n".join(enumValues), self.type, "\n".join(enumConversions)) class CGUnionConversionStruct(CGThing): def __init__(self, type, descriptorProvider): assert not type.nullable() assert not type.hasNullableType CGThing.__init__(self) self.type = type self.descriptorProvider = descriptorProvider def membersNeedTracing(self): for t in self.type.flatMemberTypes: if type_needs_tracing(t): return True return False def from_jsval(self): memberTypes = self.type.flatMemberTypes names = [] conversions = [] def get_name(memberType): if self.type.isGeckoInterface(): return memberType.inner.identifier.name return memberType.name def get_match(name): return ( "match %s::TryConvertTo%s(cx, value) {\n" " Err(_) => return Err(()),\n" " Ok(Some(value)) => return Ok(ConversionResult::Success(%s::%s(value))),\n" " Ok(None) => (),\n" "}\n") % (self.type, name, self.type, name) interfaceMemberTypes = filter(lambda t: t.isNonCallbackInterface(), memberTypes) if len(interfaceMemberTypes) > 0: typeNames = [get_name(memberType) for memberType in interfaceMemberTypes] interfaceObject = CGList(CGGeneric(get_match(typeName)) for typeName in typeNames) names.extend(typeNames) else: interfaceObject = None arrayObjectMemberTypes = filter(lambda t: t.isSequence(), memberTypes) if len(arrayObjectMemberTypes) > 0: assert len(arrayObjectMemberTypes) == 1 typeName = arrayObjectMemberTypes[0].name arrayObject = CGGeneric(get_match(typeName)) names.append(typeName) else: arrayObject = None dateObjectMemberTypes = filter(lambda t: t.isDate(), memberTypes) if len(dateObjectMemberTypes) > 0: assert len(dateObjectMemberTypes) == 1 raise TypeError("Can't handle dates in unions.") else: dateObject = None callbackMemberTypes = filter(lambda t: t.isCallback() or t.isCallbackInterface(), memberTypes) if len(callbackMemberTypes) > 0: assert len(callbackMemberTypes) == 1 raise TypeError("Can't handle callbacks in unions.") else: callbackObject = None dictionaryMemberTypes = filter(lambda t: t.isDictionary(), memberTypes) if len(dictionaryMemberTypes) > 0: assert len(dictionaryMemberTypes) == 1 typeName = dictionaryMemberTypes[0].name dictionaryObject = CGGeneric(get_match(typeName)) names.append(typeName) else: dictionaryObject = None objectMemberTypes = filter(lambda t: t.isObject(), memberTypes) if len(objectMemberTypes) > 0: assert len(objectMemberTypes) == 1 typeName = objectMemberTypes[0].name object = CGGeneric(get_match(typeName)) names.append(typeName) else: object = None mozMapMemberTypes = filter(lambda t: t.isRecord(), memberTypes) if len(mozMapMemberTypes) > 0: assert len(mozMapMemberTypes) == 1 typeName = mozMapMemberTypes[0].name mozMapObject = CGGeneric(get_match(typeName)) names.append(typeName) else: mozMapObject = None hasObjectTypes = object or interfaceObject or arrayObject or dateObject 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) templateBody = CGList([], "\n") if object: templateBody.append(object) if interfaceObject: templateBody.append(interfaceObject) if arrayObject: templateBody.append(arrayObject) if mozMapObject: templateBody.append(mozMapObject) conversions.append(CGIfWrapper("value.get().is_object()", templateBody)) if dictionaryObject: assert not hasObjectTypes conversions.append(dictionaryObject) 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 def getStringOrPrimitiveConversion(memberType): typename = get_name(memberType) return CGGeneric(get_match(typename)) other = [] stringConversion = map(getStringOrPrimitiveConversion, stringTypes) numericConversion = map(getStringOrPrimitiveConversion, numericTypes) booleanConversion = map(getStringOrPrimitiveConversion, booleanTypes) if stringConversion: if booleanConversion: other.append(CGIfWrapper("value.get().is_boolean()", booleanConversion[0])) if numericConversion: other.append(CGIfWrapper("value.get().is_number()", numericConversion[0])) other.append(stringConversion[0]) elif numericConversion: if booleanConversion: other.append(CGIfWrapper("value.get().is_boolean()", booleanConversion[0])) other.append(numericConversion[0]) else: assert booleanConversion other.append(booleanConversion[0]) conversions.append(CGList(other, "\n\n")) conversions.append(CGGeneric( "Ok(ConversionResult::Failure(\"argument could not be converted to any of: %s\".into()))" % ", ".join(names) )) method = CGWrapper( CGIndenter(CGList(conversions, "\n\n")), pre="unsafe fn from_jsval(cx: *mut JSContext,\n" " value: HandleValue,\n" " _option: ())\n" " -> Result, ()> {\n" % self.type, post="\n}") return CGWrapper( CGIndenter(CGList([ CGGeneric("type Config = ();"), method, ], "\n")), pre="impl FromJSValConvertible for %s {\n" % self.type, post="\n}") def try_method(self, t): templateVars = getUnionTypeTemplateVars(t, self.descriptorProvider) actualType = templateVars["typeName"] if type_needs_tracing(t): actualType = "RootedTraceableBox<%s>" % actualType returnType = "Result, ()>" % actualType jsConversion = templateVars["jsConversion"] return CGWrapper( CGIndenter(jsConversion, 4), pre="unsafe fn TryConvertTo%s(cx: *mut JSContext, value: HandleValue) -> %s {\n" % (t.name, returnType), post="\n}") def define(self): from_jsval = self.from_jsval() methods = CGIndenter(CGList([ self.try_method(t) for t in self.type.flatMemberTypes ], "\n\n")) return """ %s impl %s { %s } """ % (from_jsval.define(), self.type, methods.define()) 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='pub'): 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", unsafe=False, breakAfterSelf="\n", override=False): """ override indicates whether to flag the method as MOZ_OVERRIDE """ assert not override or virtual assert not (override and static) self.returnType = returnType self.args = args self.inline = False self.static = static self.virtual = virtual self.const = const self.bodyInHeader = True self.templateArgs = templateArgs self.body = body self.breakAfterReturnDecl = breakAfterReturnDecl self.breakAfterSelf = breakAfterSelf self.override = override self.unsafe = unsafe 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 = '<%s>' % ', '.join(self.templateArgs) \ if self.bodyInHeader and self.templateArgs else '' args = ', '.join([a.declare() for a in self.args]) if self.bodyInHeader: body = CGIndenter(CGGeneric(self.getBody())).define() body = ' {\n' + body + '\n}' else: body = ';' return string.Template( "${decorators}%s" "${visibility}${unsafe}fn ${name}${templateClause}(${args})${returnType}${const}${override}${body}%s" % (self.breakAfterReturnDecl, self.breakAfterSelf) ).substitute({ 'templateClause': templateClause, 'decorators': self.getDecorators(True), 'returnType': (" -> %s" % self.returnType) if self.returnType else "", 'name': self.name, 'const': ' const' if self.const else '', 'override': ' MOZ_OVERRIDE' if self.override else '', 'args': args, 'body': body, 'visibility': self.visibility + ' ' if self.visibility != 'priv' else '', 'unsafe': "unsafe " if self.unsafe else "", }) def define(self, cgClass): pass 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="priv", explicit=False, baseConstructors=None, body=""): self.args = args self.inline = False self.bodyInHeader = bodyInHeader self.explicit = explicit 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 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, cgClass): initializers = [" parent: %s" % str(self.baseConstructors[0])] return (self.body + ( "let mut ret = Rc::new(%s {\n" "%s\n" "});\n" "// Note: callback cannot be moved after calling init.\n" "match Rc::get_mut(&mut ret) {\n" " Some(ref mut callback) => callback.parent.init(%s, %s),\n" " None => unreachable!(),\n" "};\n" "ret") % (cgClass.name, '\n'.join(initializers), self.args[0].name, self.args[1].name)) def declare(self, cgClass): args = ', '.join([a.declare() for a in self.args]) body = ' ' + self.getBody(cgClass) body = stripTrailingWhitespace(body.replace('\n', '\n ')) if len(body) > 0: body += '\n' body = ' {\n' + body + '}' return string.Template("""\ pub unsafe fn ${decorators}new(${args}) -> Rc<${className}>${body} """).substitute({'decorators': self.getDecorators(True), 'className': cgClass.getNameString(), 'args': args, 'body': body}) def define(self, cgClass): if self.bodyInHeader: return '' args = ', '.join([a.define() for a in self.args]) body = ' ' + self.getBody() body = '\n' + stripTrailingWhitespace(body.replace('\n', '\n ')) if len(body) > 0: body += '\n' return string.Template("""\ ${decorators} ${className}::${className}(${args})${initializationList} {${body}} """).substitute({'decorators': self.getDecorators(False), 'className': cgClass.getNameString(), 'args': args, 'initializationList': self.getInitializationList(cgClass), 'body': body}) class ClassMember(ClassItem): def __init__(self, name, type, visibility="priv", 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' % (self.visibility, self.name, self.type) 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 CGClass(CGThing): def __init__(self, name, bases=[], members=[], constructors=[], destructor=None, methods=[], typedefs=[], enums=[], unions=[], templateArgs=[], templateSpecialization=[], disallowCopyConstruction=False, indent='', decorators='', extradeclarations=''): 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.disallowCopyConstruction = disallowCopyConstruction self.indent = indent self.decorators = decorators self.extradeclarations = extradeclarations def getNameString(self): className = self.name if self.templateSpecialization: className = className + \ '<%s>' % ', '.join([str(a) for a in self.templateSpecialization]) return className def define(self): result = '' if self.templateArgs: templateArgs = [a.declare() for a in self.templateArgs] templateArgs = templateArgs[len(self.templateSpecialization):] result = result + self.indent + 'template <%s>\n' % ','.join([str(a) for a in templateArgs]) if self.templateSpecialization: specialization = \ '<%s>' % ', '.join([str(a) for a in self.templateSpecialization]) else: specialization = '' myself = '' if self.decorators != '': myself += self.decorators + '\n' myself += '%spub struct %s%s' % (self.indent, self.name, specialization) result += myself assert len(self.bases) == 1 # XXjdm Can we support multiple inheritance? result += ' {\n' if self.bases: self.members = [ClassMember("parent", self.bases[0].name, "pub")] + self.members result += CGIndenter(CGGeneric(self.extradeclarations), len(self.indent)).define() def declareMembers(cgClass, memberList): result = '' for member in memberList: declaration = member.declare(cgClass) declaration = CGIndenter(CGGeneric(declaration)).define() result = result + declaration return result if self.disallowCopyConstruction: class DisallowedCopyConstructor(object): def __init__(self): self.visibility = "private" def declare(self, cgClass): name = cgClass.getNameString() return ("%s(const %s&) MOZ_DELETE;\n" "void operator=(const %s) MOZ_DELETE;\n" % (name, name, name)) disallowedCopyConstructors = [DisallowedCopyConstructor()] else: disallowedCopyConstructors = [] order = [(self.enums, ''), (self.unions, ''), (self.typedefs, ''), (self.members, '')] for (memberList, separator) in order: memberString = declareMembers(self, memberList) if self.indent: memberString = CGIndenter(CGGeneric(memberString), len(self.indent)).define() result = result + memberString result += self.indent + '}\n\n' result += 'impl %s {\n' % self.name order = [(self.constructors + disallowedCopyConstructors, '\n'), (self.destructors, '\n'), (self.methods, '\n)')] for (memberList, separator) in order: memberString = declareMembers(self, memberList) if self.indent: memberString = CGIndenter(CGGeneric(memberString), len(self.indent)).define() result = result + memberString result += "}" return result 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). """ def __init__(self, descriptor, operation): nativeName = MakeNativeName(descriptor.binaryNameFor(operation)) operation = descriptor.operations[operation] assert len(operation.signatures()) == 1 signature = operation.signatures()[0] (returnType, arguments) = signature if operation.isGetter() and not returnType.nullable(): returnType = IDLNullableType(returnType.location, returnType) # 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)) if operation.isSetter(): # arguments[0] is the index or name of the item that we're setting. argument = arguments[1] info = getJSToNativeConversionInfo( argument.type, descriptor, exceptionCode="return false;") template = info.template declType = info.declType templateValues = { "val": "value.handle()", } self.cgRoot.prepend(instantiateJSToNativeConversionTemplate( template, templateValues, declType, argument.identifier.name)) self.cgRoot.prepend(CGGeneric("rooted!(in(cx) let value = desc.value);")) def getArguments(self): args = [(a, process_arg(a.identifier.name, a)) for a in self.arguments] return args def wrap_return_value(self): if not self.idlNode.isGetter() or self.templateValues is None: return "" wrap = CGGeneric(wrapForType(**self.templateValues)) wrap = CGIfWrapper("let Some(result) = result", wrap) return "\n" + wrap.define() class CGProxyIndexedGetter(CGProxySpecialOperation): """ Class to generate a call to an indexed getter. If templateValues is not None the returned value will be wrapped with wrapForType using templateValues. """ def __init__(self, descriptor, templateValues=None): self.templateValues = templateValues CGProxySpecialOperation.__init__(self, descriptor, 'IndexedGetter') class CGProxyIndexedSetter(CGProxySpecialOperation): """ Class to generate a call to an indexed setter. """ def __init__(self, descriptor): CGProxySpecialOperation.__init__(self, descriptor, 'IndexedSetter') class CGProxyNamedOperation(CGProxySpecialOperation): """ Class to generate a call to a named operation. """ def __init__(self, descriptor, name): CGProxySpecialOperation.__init__(self, descriptor, name) def define(self): # Our first argument is the id we're getting. argName = self.arguments[0].identifier.name return ("let %s = jsid_to_string(cx, Handle::from_raw(id)).expect(\"Not a string-convertible JSID?\");\n" "let this = UnwrapProxy(proxy);\n" "let this = &*this;\n" % argName + CGProxySpecialOperation.define(self)) 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. """ def __init__(self, descriptor, templateValues=None): self.templateValues = templateValues CGProxySpecialOperation.__init__(self, descriptor, 'NamedGetter') class CGProxyNamedPresenceChecker(CGProxyNamedGetter): """ Class to generate a call that checks whether a named property exists. For now, we just delegate to CGProxyNamedGetter """ def __init__(self, descriptor): CGProxyNamedGetter.__init__(self, descriptor) class CGProxyNamedSetter(CGProxyNamedOperation): """ Class to generate a call to a named setter. """ def __init__(self, descriptor): CGProxySpecialOperation.__init__(self, descriptor, 'NamedSetter') class CGProxyNamedDeleter(CGProxyNamedOperation): """ Class to generate a call to a named deleter. """ def __init__(self, descriptor): CGProxySpecialOperation.__init__(self, descriptor, 'NamedDeleter') class CGProxyUnwrap(CGAbstractMethod): def __init__(self, descriptor): args = [Argument('RawHandleObject', 'obj')] CGAbstractMethod.__init__(self, descriptor, "UnwrapProxy", '*const ' + descriptor.concreteType, args, alwaysInline=True, unsafe=True) def definition_body(self): return CGGeneric("""\ let mut slot = UndefinedValue(); GetProxyReservedSlot(obj.get(), 0, &mut slot); let box_ = slot.to_private() as *const %s; return box_;""" % self.descriptor.concreteType) class CGDOMJSProxyHandler_getOwnPropertyDescriptor(CGAbstractExternMethod): def __init__(self, descriptor): args = [Argument('*mut JSContext', 'cx'), Argument('RawHandleObject', 'proxy'), Argument('RawHandleId', 'id'), Argument('RawMutableHandle', 'mut desc')] CGAbstractExternMethod.__init__(self, descriptor, "getOwnPropertyDescriptor", "bool", args) self.descriptor = descriptor # https://heycam.github.io/webidl/#LegacyPlatformObjectGetOwnProperty def getBody(self): indexedGetter = self.descriptor.operations['IndexedGetter'] get = "" if indexedGetter: get = "let index = get_array_index_from_id(cx, Handle::from_raw(id));\n" attrs = "JSPROP_ENUMERATE" if self.descriptor.operations['IndexedSetter'] is None: attrs += " | JSPROP_READONLY" # FIXME(#11868) Should assign to desc.value, desc.get() is a copy. fillDescriptor = ("desc.get().value = result_root.get();\n" "fill_property_descriptor(MutableHandle::from_raw(desc), proxy.get(), (%s) as u32);\n" "return true;" % attrs) templateValues = { 'jsvalRef': 'result_root.handle_mut()', 'successCode': fillDescriptor, 'pre': 'rooted!(in(cx) let mut result_root = UndefinedValue());' } get += ("if let Some(index) = index {\n" + " let this = UnwrapProxy(proxy);\n" + " let this = &*this;\n" + CGIndenter(CGProxyIndexedGetter(self.descriptor, templateValues)).define() + "\n" + "}\n") namedGetter = self.descriptor.operations['NamedGetter'] if namedGetter: attrs = [] if not self.descriptor.interface.getExtendedAttribute("LegacyUnenumerableNamedProperties"): attrs.append("JSPROP_ENUMERATE") if self.descriptor.operations['NamedSetter'] is None: attrs.append("JSPROP_READONLY") if attrs: attrs = " | ".join(attrs) else: attrs = "0" # FIXME(#11868) Should assign to desc.value, desc.get() is a copy. fillDescriptor = ("desc.get().value = result_root.get();\n" "fill_property_descriptor(MutableHandle::from_raw(desc), proxy.get(), (%s) as u32);\n" "return true;" % attrs) templateValues = { 'jsvalRef': 'result_root.handle_mut()', 'successCode': fillDescriptor, 'pre': 'rooted!(in(cx) let mut result_root = UndefinedValue());' } # See the similar-looking in CGDOMJSProxyHandler_get for the spec quote. condition = "RUST_JSID_IS_STRING(id) || RUST_JSID_IS_INT(id)" if indexedGetter: condition = "index.is_none() && (%s)" % condition # Once we start supporting OverrideBuiltins we need to make # ResolveOwnProperty or EnumerateOwnProperties filter out named # properties that shadow prototype properties. namedGet = """ if %s { let mut has_on_proto = false; if !has_property_on_prototype(cx, proxy_lt, id_lt, &mut has_on_proto) { return false; } if !has_on_proto { %s } } """ % (condition, CGIndenter(CGProxyNamedGetter(self.descriptor, templateValues), 8).define()) else: namedGet = "" return get + """\ rooted!(in(cx) let mut expando = ptr::null_mut::()); get_expando_object(proxy, expando.handle_mut()); //if (!xpc::WrapperFactory::IsXrayWrapper(proxy) && (expando = GetExpandoObject(proxy))) { let proxy_lt = Handle::from_raw(proxy); let id_lt = Handle::from_raw(id); if !expando.is_null() { if !JS_GetPropertyDescriptorById(cx, expando.handle().into(), id, desc) { return false; } if !desc.obj.is_null() { // Pretend the property lives on the wrapper. desc.obj = proxy.get(); return true; } } """ + namedGet + """\ desc.get().obj = ptr::null_mut(); return true;""" def definition_body(self): return CGGeneric(self.getBody()) class CGDOMJSProxyHandler_defineProperty(CGAbstractExternMethod): def __init__(self, descriptor): args = [Argument('*mut JSContext', 'cx'), Argument('RawHandleObject', 'proxy'), Argument('RawHandleId', 'id'), Argument('RawHandle', 'desc'), Argument('*mut ObjectOpResult', 'opresult')] CGAbstractExternMethod.__init__(self, descriptor, "defineProperty", "bool", args) self.descriptor = descriptor def getBody(self): set = "" indexedSetter = self.descriptor.operations['IndexedSetter'] if indexedSetter: set += ("let index = get_array_index_from_id(cx, Handle::from_raw(id));\n" + "if let Some(index) = index {\n" + " let this = UnwrapProxy(proxy);\n" + " let this = &*this;\n" + CGIndenter(CGProxyIndexedSetter(self.descriptor)).define() + " return (*opresult).succeed();\n" + "}\n") elif self.descriptor.operations['IndexedGetter']: set += ("if get_array_index_from_id(cx, Handle::from_raw(id)).is_some() {\n" + " return (*opresult).failNoIndexedSetter();\n" + "}\n") 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!") set += ("if RUST_JSID_IS_STRING(id) || RUST_JSID_IS_INT(id) {\n" + CGIndenter(CGProxyNamedSetter(self.descriptor)).define() + " return (*opresult).succeed();\n" + "}\n") else: set += ("if RUST_JSID_IS_STRING(id) || RUST_JSID_IS_INT(id) {\n" + CGIndenter(CGProxyNamedGetter(self.descriptor)).define() + " if result.is_some() {\n" " return (*opresult).failNoNamedSetter();\n" " }\n" "}\n") set += "return proxyhandler::define_property(%s);" % ", ".join(a.name for a in self.args) return set def definition_body(self): return CGGeneric(self.getBody()) class CGDOMJSProxyHandler_delete(CGAbstractExternMethod): def __init__(self, descriptor): args = [Argument('*mut JSContext', 'cx'), Argument('RawHandleObject', 'proxy'), Argument('RawHandleId', 'id'), Argument('*mut ObjectOpResult', 'res')] CGAbstractExternMethod.__init__(self, descriptor, "delete", "bool", args) self.descriptor = descriptor def getBody(self): set = "" if self.descriptor.operations['NamedDeleter']: if self.descriptor.hasUnforgeableMembers: raise TypeError("Can't handle a deleter on an interface that has " "unforgeables. Figure out how that should work!") set += CGProxyNamedDeleter(self.descriptor).define() set += "return proxyhandler::delete(%s);" % ", ".join(a.name for a in self.args) return set def definition_body(self): return CGGeneric(self.getBody()) class CGDOMJSProxyHandler_ownPropertyKeys(CGAbstractExternMethod): def __init__(self, descriptor): args = [Argument('*mut JSContext', 'cx'), Argument('RawHandleObject', 'proxy'), Argument('*mut AutoIdVector', 'props')] CGAbstractExternMethod.__init__(self, descriptor, "own_property_keys", "bool", args) self.descriptor = descriptor def getBody(self): body = dedent( """ let unwrapped_proxy = UnwrapProxy(proxy); """) if self.descriptor.operations['IndexedGetter']: body += dedent( """ for i in 0..(*unwrapped_proxy).Length() { rooted!(in(cx) let rooted_jsid = int_to_jsid(i as i32)); AppendToAutoIdVector(props, rooted_jsid.handle().get()); } """) if self.descriptor.operations['NamedGetter']: body += dedent( """ for name in (*unwrapped_proxy).SupportedPropertyNames() { let cstring = CString::new(name).unwrap(); let jsstring = JS_AtomizeAndPinString(cx, cstring.as_ptr()); rooted!(in(cx) let rooted = jsstring); let jsid = INTERNED_STRING_TO_JSID(cx, rooted.handle().get()); rooted!(in(cx) let rooted_jsid = jsid); AppendToAutoIdVector(props, rooted_jsid.handle().get()); } """) body += dedent( """ rooted!(in(cx) let mut expando = ptr::null_mut::()); get_expando_object(proxy, expando.handle_mut()); if !expando.is_null() { GetPropertyKeys(cx, expando.handle(), JSITER_OWNONLY | JSITER_HIDDEN | JSITER_SYMBOLS, props); } return true; """) return body def definition_body(self): return CGGeneric(self.getBody()) class CGDOMJSProxyHandler_getOwnEnumerablePropertyKeys(CGAbstractExternMethod): def __init__(self, descriptor): assert (descriptor.operations["IndexedGetter"] and descriptor.interface.getExtendedAttribute("LegacyUnenumerableNamedProperties")) args = [Argument('*mut JSContext', 'cx'), Argument('RawHandleObject', 'proxy'), Argument('*mut AutoIdVector', 'props')] CGAbstractExternMethod.__init__(self, descriptor, "getOwnEnumerablePropertyKeys", "bool", args) self.descriptor = descriptor def getBody(self): body = dedent( """ let unwrapped_proxy = UnwrapProxy(proxy); """) if self.descriptor.operations['IndexedGetter']: body += dedent( """ for i in 0..(*unwrapped_proxy).Length() { rooted!(in(cx) let rooted_jsid = int_to_jsid(i as i32)); AppendToAutoIdVector(props, rooted_jsid.handle().get()); } """) body += dedent( """ rooted!(in(cx) let mut expando = ptr::null_mut::()); get_expando_object(proxy, expando.handle_mut()); if !expando.is_null() { GetPropertyKeys(cx, expando.handle(), JSITER_OWNONLY | JSITER_HIDDEN | JSITER_SYMBOLS, props); } return true; """) return body def definition_body(self): return CGGeneric(self.getBody()) class CGDOMJSProxyHandler_hasOwn(CGAbstractExternMethod): def __init__(self, descriptor): args = [Argument('*mut JSContext', 'cx'), Argument('RawHandleObject', 'proxy'), Argument('RawHandleId', 'id'), Argument('*mut bool', 'bp')] CGAbstractExternMethod.__init__(self, descriptor, "hasOwn", "bool", args) self.descriptor = descriptor def getBody(self): indexedGetter = self.descriptor.operations['IndexedGetter'] if indexedGetter: indexed = ("let index = get_array_index_from_id(cx, Handle::from_raw(id));\n" + "if let Some(index) = index {\n" + " let this = UnwrapProxy(proxy);\n" + " let this = &*this;\n" + CGIndenter(CGProxyIndexedGetter(self.descriptor)).define() + "\n" + " *bp = result.is_some();\n" + " return true;\n" + "}\n\n") else: indexed = "" namedGetter = self.descriptor.operations['NamedGetter'] condition = "RUST_JSID_IS_STRING(id) || RUST_JSID_IS_INT(id)" if indexedGetter: condition = "index.is_none() && (%s)" % condition if namedGetter: named = """\ if %s { let mut has_on_proto = false; if !has_property_on_prototype(cx, proxy_lt, id_lt, &mut has_on_proto) { return false; } if !has_on_proto { %s *bp = result.is_some(); return true; } } """ % (condition, CGIndenter(CGProxyNamedGetter(self.descriptor), 8).define()) else: named = "" return indexed + """\ rooted!(in(cx) let mut expando = ptr::null_mut::()); let proxy_lt = Handle::from_raw(proxy); let id_lt = Handle::from_raw(id); get_expando_object(proxy, expando.handle_mut()); if !expando.is_null() { let ok = JS_HasPropertyById(cx, expando.handle().into(), id, bp); if !ok || *bp { return ok; } } """ + named + """\ *bp = false; return true;""" def definition_body(self): return CGGeneric(self.getBody()) class CGDOMJSProxyHandler_get(CGAbstractExternMethod): def __init__(self, descriptor): args = [Argument('*mut JSContext', 'cx'), Argument('RawHandleObject', 'proxy'), Argument('RawHandleValue', 'receiver'), Argument('RawHandleId', 'id'), Argument('RawMutableHandleValue', 'vp')] CGAbstractExternMethod.__init__(self, descriptor, "get", "bool", args) self.descriptor = descriptor # https://heycam.github.io/webidl/#LegacyPlatformObjectGetOwnProperty def getBody(self): getFromExpando = """\ rooted!(in(cx) let mut expando = ptr::null_mut::()); get_expando_object(proxy, expando.handle_mut()); if !expando.is_null() { let mut hasProp = false; if !JS_HasPropertyById(cx, expando.handle().into(), id, &mut hasProp) { return false; } if hasProp { return JS_ForwardGetPropertyTo(cx, expando.handle().into(), id, receiver, vp); } }""" templateValues = { 'jsvalRef': 'vp_lt', 'successCode': 'return true;', } indexedGetter = self.descriptor.operations['IndexedGetter'] if indexedGetter: getIndexedOrExpando = ("let index = get_array_index_from_id(cx, id_lt);\n" + "if let Some(index) = index {\n" + " let this = UnwrapProxy(proxy);\n" + " let this = &*this;\n" + CGIndenter(CGProxyIndexedGetter(self.descriptor, templateValues)).define()) getIndexedOrExpando += """\ // Even if we don't have this index, we don't forward the // get on to our expando object. } else { %s } """ % (stripTrailingWhitespace(getFromExpando.replace('\n', '\n '))) else: getIndexedOrExpando = getFromExpando + "\n" namedGetter = self.descriptor.operations['NamedGetter'] if namedGetter: condition = "RUST_JSID_IS_STRING(id) || RUST_JSID_IS_INT(id)" # From step 1: # If O supports indexed properties and P is an array index, then: # # 3. Set ignoreNamedProps to true. if indexedGetter: condition = "index.is_none() && (%s)" % condition getNamed = ("if %s {\n" + CGIndenter(CGProxyNamedGetter(self.descriptor, templateValues)).define() + "}\n") % condition else: getNamed = "" return """\ //MOZ_ASSERT(!xpc::WrapperFactory::IsXrayWrapper(proxy), //"Should not have a XrayWrapper here"); let proxy_lt = Handle::from_raw(proxy); let vp_lt = MutableHandle::from_raw(vp); let id_lt = Handle::from_raw(id); let receiver_lt = Handle::from_raw(receiver); %s let mut found = false; if !get_property_on_prototype(cx, proxy_lt, receiver_lt, id_lt, &mut found, vp_lt) { return false; } if found { return true; } %s vp.set(UndefinedValue()); return true;""" % (getIndexedOrExpando, getNamed) def definition_body(self): return CGGeneric(self.getBody()) class CGDOMJSProxyHandler_className(CGAbstractExternMethod): def __init__(self, descriptor): args = [Argument('*mut JSContext', 'cx'), Argument('RawHandleObject', '_proxy')] CGAbstractExternMethod.__init__(self, descriptor, "className", "*const i8", args, doesNotPanic=True) self.descriptor = descriptor def getBody(self): return '%s as *const u8 as *const i8' % str_to_const_array(self.descriptor.name) def definition_body(self): return CGGeneric(self.getBody()) class CGAbstractClassHook(CGAbstractExternMethod): """ 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, doesNotPanic=False): CGAbstractExternMethod.__init__(self, descriptor, name, returnType, args) def definition_body_prologue(self): return CGGeneric(""" let this = native_from_object_static::<%s>(obj).unwrap(); """ % self.descriptor.concreteType) def definition_body(self): return CGList([ self.definition_body_prologue(), self.generate_code(), ]) def generate_code(self): raise NotImplementedError # Override me! def finalizeHook(descriptor, hookName, context): release = "" if descriptor.isGlobal(): release += """\ finalize_global(obj); """ elif descriptor.weakReferenceable: release += """\ let mut slot = UndefinedValue(); JS_GetReservedSlot(obj, DOM_WEAK_SLOT, &mut slot); let weak_box_ptr = slot.to_private() as *mut WeakBox<%s>; if !weak_box_ptr.is_null() { let count = { let weak_box = &*weak_box_ptr; assert!(weak_box.value.get().is_some()); assert!(weak_box.count.get() > 0); weak_box.value.set(None); let count = weak_box.count.get() - 1; weak_box.count.set(count); count }; if count == 0 { mem::drop(Box::from_raw(weak_box_ptr)); } } """ % descriptor.concreteType release += """\ if !this.is_null() { // The pointer can be null if the object is the unforgeable holder of that interface. let _ = Box::from_raw(this as *mut %s); } debug!("%s finalize: {:p}", this);\ """ % (descriptor.concreteType, descriptor.concreteType) return release class CGClassTraceHook(CGAbstractClassHook): """ A hook to trace through our native object; used for GC and CC """ def __init__(self, descriptor): args = [Argument('*mut JSTracer', 'trc'), Argument('*mut JSObject', 'obj')] CGAbstractClassHook.__init__(self, descriptor, TRACE_HOOK_NAME, 'void', args, doesNotPanic=True) self.traceGlobal = descriptor.isGlobal() def generate_code(self): body = [CGGeneric("if this.is_null() { return; } // GC during obj creation\n" "(*this).trace(%s);" % self.args[0].name)] if self.traceGlobal: body += [CGGeneric("trace_global(trc, obj);")] return CGList(body, "\n") class CGClassConstructHook(CGAbstractExternMethod): """ JS-visible constructor for our objects """ def __init__(self, descriptor, constructor=None): args = [Argument('*mut JSContext', 'cx'), Argument('u32', 'argc'), Argument('*mut JSVal', 'vp')] name = CONSTRUCT_HOOK_NAME if constructor: name += "_" + constructor.identifier.name else: constructor = descriptor.interface.ctor() assert constructor CGAbstractExternMethod.__init__(self, descriptor, name, 'bool', args) self.constructor = constructor self.exposureSet = descriptor.interface.exposureSet def definition_body(self): preamble = """let global = GlobalScope::from_object(JS_CALLEE(cx, vp).to_object());\n""" if len(self.exposureSet) == 1: preamble += """\ let global = DomRoot::downcast::(global).unwrap(); """ % list(self.exposureSet)[0] preamble += """let args = CallArgs::from_vp(vp, argc);\n""" preamble = CGGeneric(preamble) if self.constructor.isHTMLConstructor(): signatures = self.constructor.signatures() assert len(signatures) == 1 constructorCall = CGGeneric("""\ // Step 2 https://html.spec.whatwg.org/multipage/#htmlconstructor // The custom element definition cannot use an element interface as its constructor // The new_target might be a cross-compartment wrapper. Get the underlying object // so we can do the spec's object-identity checks. rooted!(in(cx) let new_target = UnwrapObjectDynamic(args.new_target().to_object(), cx, 1)); if new_target.is_null() { throw_dom_exception(cx, global.upcast::(), Error::Type("new.target is null".to_owned())); return false; } if args.callee() == new_target.get() { throw_dom_exception(cx, global.upcast::(), Error::Type("new.target must not be the active function object".to_owned())); return false; } // Step 6 rooted!(in(cx) let mut prototype = ptr::null_mut::()); { rooted!(in(cx) let mut proto_val = UndefinedValue()); let _ac = JSAutoRealm::new(cx, new_target.get()); if !JS_GetProperty(cx, new_target.handle(), b"prototype\\0".as_ptr() as *const _, proto_val.handle_mut()) { return false; } if !proto_val.is_object() { // Step 7 of https://html.spec.whatwg.org/multipage/#htmlconstructor. // This fallback behavior is designed to match analogous behavior for the // JavaScript built-ins. So we enter the compartment of our underlying // newTarget object and fall back to the prototype object from that global. // XXX The spec says to use GetFunctionRealm(), which is not actually // the same thing as what we have here (e.g. in the case of scripted callable proxies // whose target is not same-compartment with the proxy, or bound functions, etc). // https://bugzilla.mozilla.org/show_bug.cgi?id=1317658 rooted!(in(cx) let global_object = CurrentGlobalOrNull(cx)); GetProtoObject(cx, global_object.handle(), prototype.handle_mut()); } else { // Step 6 prototype.set(proto_val.to_object()); }; } // Wrap prototype in this context since it is from the newTarget compartment if !JS_WrapObject(cx, prototype.handle_mut()) { return false; } let result: Result, Error> = html_constructor(&global, &args); let result = match result { Ok(result) => result, Err(e) => { throw_dom_exception(cx, global.upcast::(), e); return false; }, }; rooted!(in(cx) let mut element = result.reflector().get_jsobject().get()); if !JS_WrapObject(cx, element.handle_mut()) { return false; } JS_SetPrototype(cx, element.handle(), prototype.handle()); (result).to_jsval(cx, MutableHandleValue::from_raw(args.rval())); return true; """ % self.descriptor.name) else: name = self.constructor.identifier.name nativeName = MakeNativeName(self.descriptor.binaryNameFor(name)) constructorCall = CGMethodCall(["&global"], nativeName, True, self.descriptor, self.constructor) return CGList([preamble, constructorCall]) class CGClassFinalizeHook(CGAbstractClassHook): """ A hook for finalize, used to release our native object. """ def __init__(self, descriptor): args = [Argument('*mut JSFreeOp', '_fop'), Argument('*mut JSObject', 'obj')] CGAbstractClassHook.__init__(self, descriptor, FINALIZE_HOOK_NAME, 'void', args) def generate_code(self): return CGGeneric(finalizeHook(self.descriptor, self.name, self.args[0].name)) class CGDOMJSProxyHandlerDOMClass(CGThing): def __init__(self, descriptor): CGThing.__init__(self) self.descriptor = descriptor def define(self): return "static Class: DOMClass = " + DOMClass(self.descriptor) + ";\n" class CGInterfaceTrait(CGThing): def __init__(self, descriptor): CGThing.__init__(self) def attribute_arguments(needCx, argument=None, inCompartment=False): if needCx: yield "cx", "*mut JSContext" if argument: yield "value", argument_type(descriptor, argument) if inCompartment: yield "_comp", "InCompartment" def members(): for m in descriptor.interface.members: if (m.isMethod() and not m.isStatic() and not m.isMaplikeOrSetlikeOrIterableMethod() and (not m.isIdentifierLess() or m.isStringifier())): name = CGSpecializedMethod.makeNativeName(descriptor, m) infallible = 'infallible' in descriptor.getExtendedAttributes(m) for idx, (rettype, arguments) in enumerate(m.signatures()): arguments = method_arguments(descriptor, rettype, arguments, inCompartment=name in descriptor.inCompartmentMethods) rettype = return_type(descriptor, rettype, infallible) yield name + ('_' * idx), arguments, rettype elif m.isAttr() and not m.isStatic(): name = CGSpecializedGetter.makeNativeName(descriptor, m) infallible = 'infallible' in descriptor.getExtendedAttributes(m, getter=True) yield (name, attribute_arguments( typeNeedsCx(m.type, True), inCompartment=name in descriptor.inCompartmentMethods ), return_type(descriptor, m.type, infallible)) if not m.readonly: name = CGSpecializedSetter.makeNativeName(descriptor, m) infallible = 'infallible' in descriptor.getExtendedAttributes(m, setter=True) if infallible: rettype = "()" else: rettype = "ErrorResult" yield (name, attribute_arguments( typeNeedsCx(m.type, False), m.type, inCompartment=name in descriptor.inCompartmentMethods ), rettype) if descriptor.proxy: for name, operation in descriptor.operations.iteritems(): if not operation or operation.isStringifier(): continue assert len(operation.signatures()) == 1 rettype, arguments = operation.signatures()[0] infallible = 'infallible' in descriptor.getExtendedAttributes(operation) if operation.isGetter(): if not rettype.nullable(): rettype = IDLNullableType(rettype.location, rettype) arguments = method_arguments(descriptor, rettype, arguments, inCompartment=name in descriptor.inCompartmentMethods) # If this interface 'supports named properties', then we # should be able to access 'supported property names' # # WebIDL, Second Draft, section 3.2.4.5 # https://heycam.github.io/webidl/#idl-named-properties if operation.isNamed(): yield "SupportedPropertyNames", [], "Vec" else: arguments = method_arguments(descriptor, rettype, arguments, inCompartment=name in descriptor.inCompartmentMethods) rettype = return_type(descriptor, rettype, infallible) yield name, arguments, rettype def fmt(arguments): keywords = {"async"} return "".join( ", %s: %s" % (name if name not in keywords else "r#" + name, type_) for name, type_ in arguments ) def contains_unsafe_arg(arguments): if not arguments or len(arguments) == 0: return False return reduce((lambda x, y: x or y[1] == '*mut JSContext'), arguments, False) methods = [] for name, arguments, rettype in members(): arguments = list(arguments) methods.append(CGGeneric("%sfn %s(&self%s) -> %s;\n" % ( 'unsafe ' if contains_unsafe_arg(arguments) else '', name, fmt(arguments), rettype)) ) if methods: self.cgRoot = CGWrapper(CGIndenter(CGList(methods, "")), pre="pub trait %sMethods {\n" % descriptor.interface.identifier.name, post="}") else: self.cgRoot = CGGeneric("") self.empty = not methods def define(self): return self.cgRoot.define() class CGWeakReferenceableTrait(CGThing): def __init__(self, descriptor): CGThing.__init__(self) assert descriptor.weakReferenceable self.code = "impl WeakReferenceable for %s {}" % descriptor.interface.identifier.name def define(self): return self.code def generate_imports(config, cgthings, descriptors, callbacks=None, dictionaries=None, enums=None, typedefs=None): if not callbacks: callbacks = [] if not dictionaries: dictionaries = [] if not enums: enums = [] if not typedefs: typedefs = [] return CGImports(cgthings, descriptors, callbacks, dictionaries, enums, typedefs, [ 'js', 'js::JSCLASS_GLOBAL_SLOT_COUNT', 'js::JSCLASS_IS_DOMJSCLASS', 'js::JSCLASS_IS_GLOBAL', 'js::JSCLASS_RESERVED_SLOTS_MASK', 'js::JS_CALLEE', 'js::error::throw_type_error', 'js::error::throw_internal_error', 'js::jsapi::AutoIdVector', 'js::rust::wrappers::Call', 'js::jsapi::CallArgs', 'js::jsapi::CurrentGlobalOrNull', 'js::jsapi::FreeOp', 'js::rust::wrappers::GetPropertyKeys', 'js::jsapi::GetWellKnownSymbol', 'js::rust::Handle', 'js::jsapi::Handle as RawHandle', 'js::rust::HandleId', 'js::jsapi::HandleId as RawHandleId', 'js::rust::HandleObject', 'js::jsapi::HandleObject as RawHandleObject', 'js::rust::HandleValue', 'js::jsapi::HandleValue as RawHandleValue', 'js::jsapi::HandleValueArray', 'js::jsapi::Heap', 'js::jsapi::INTERNED_STRING_TO_JSID', 'js::jsapi::IsCallable', 'js::jsapi::JSAutoRealm', 'js::jsapi::JSCLASS_FOREGROUND_FINALIZE', 'js::jsapi::JSCLASS_RESERVED_SLOTS_SHIFT', 'js::jsapi::JSClass', 'js::jsapi::JSContext', 'js::jsapi::JSFreeOp', 'js::jsapi::JSFunctionSpec', 'js::jsapi::JSITER_HIDDEN', 'js::jsapi::JSITER_OWNONLY', 'js::jsapi::JSITER_SYMBOLS', 'js::jsapi::JSJitGetterCallArgs', 'js::jsapi::JSJitInfo', 'js::jsapi::JSJitInfo_AliasSet', 'js::jsapi::JSJitInfo_ArgType', 'js::jsapi::JSJitInfo_OpType', 'js::jsapi::JSJitMethodCallArgs', 'js::jsapi::JSJitSetterCallArgs', 'js::jsapi::JSNative', 'js::jsapi::JSNativeWrapper', 'js::jsapi::JSObject', 'js::jsapi::JSPROP_ENUMERATE', 'js::jsapi::JSPROP_PERMANENT', 'js::jsapi::JSPROP_READONLY', 'js::jsapi::JSPropertySpec', 'js::jsapi::JSPropertySpec__bindgen_ty_1', 'js::jsapi::JSPropertySpec__bindgen_ty_1__bindgen_ty_1', 'js::jsapi::JSPropertySpec__bindgen_ty_1__bindgen_ty_1__bindgen_ty_1', 'js::jsapi::JSPropertySpec__bindgen_ty_1__bindgen_ty_1__bindgen_ty_2', 'js::jsapi::JSString', 'js::jsapi::JSTracer', 'js::jsapi::JSType', 'js::jsapi::JSTypedMethodJitInfo', 'js::jsapi::JSValueType', 'js::jsapi::JS_AtomizeAndPinString', 'js::rust::wrappers::JS_CallFunctionValue', 'js::rust::wrappers::JS_CopyPropertiesFrom', 'js::rust::wrappers::JS_DefineProperty', 'js::rust::wrappers::JS_DefinePropertyById2', 'js::jsapi::JS_ForwardGetPropertyTo', 'js::jsapi::GetRealmErrorPrototype', 'js::jsapi::GetRealmFunctionPrototype', 'js::jsapi::GetRealmIteratorPrototype', 'js::jsapi::GetRealmObjectPrototype', 'js::rust::wrappers::JS_GetProperty', 'js::jsapi::JS_GetPropertyById', 'js::jsapi::JS_GetPropertyDescriptorById', 'js::glue::JS_GetReservedSlot', 'js::jsapi::JS_HasProperty', 'js::jsapi::JS_HasPropertyById', 'js::rust::wrappers::JS_InitializePropertiesFromCompatibleNativeObject', 'js::jsapi::JS_NewObject', 'js::rust::wrappers::JS_NewObjectWithGivenProto', 'js::rust::wrappers::JS_NewObjectWithoutMetadata', 'js::rust::wrappers::ObjectIsDate', 'js::rust::wrappers::JS_SetImmutablePrototype', 'js::rust::wrappers::JS_SetProperty', 'js::rust::wrappers::JS_SetPrototype', 'js::jsapi::JS_SetReservedSlot', 'js::rust::wrappers::JS_SplicePrototype', 'js::rust::wrappers::JS_WrapValue', 'js::rust::wrappers::JS_WrapObject', 'js::rust::MutableHandle', 'js::jsapi::MutableHandle as RawMutableHandle', 'js::rust::MutableHandleObject', 'js::jsapi::MutableHandleObject as RawMutableHandleObject', 'js::rust::MutableHandleValue', 'js::jsapi::MutableHandleValue as RawMutableHandleValue', 'js::jsapi::ObjectOpResult', 'js::jsapi::PropertyDescriptor', 'js::jsapi::Rooted', 'js::jsapi::RootedId', 'js::jsapi::RootedObject', 'js::jsapi::RootedString', 'js::jsapi::SymbolCode', 'js::jsapi::jsid', 'js::jsval::JSVal', 'js::jsval::NullValue', 'js::jsval::ObjectValue', 'js::jsval::ObjectOrNullValue', 'js::jsval::PrivateValue', 'js::jsval::UndefinedValue', 'js::jsapi::UndefinedHandleValue', 'js::glue::AppendToAutoIdVector', 'js::glue::CallJitGetterOp', 'js::glue::CallJitMethodOp', 'js::glue::CallJitSetterOp', 'js::glue::CreateProxyHandler', 'js::glue::GetProxyReservedSlot', 'js::glue::SetProxyReservedSlot', 'js::rust::wrappers::NewProxyObject', 'js::glue::ProxyTraps', 'js::glue::RUST_JSID_IS_INT', 'js::glue::RUST_JSID_IS_STRING', 'js::glue::RUST_SYMBOL_TO_JSID', 'js::glue::int_to_jsid', 'js::glue::UnwrapObjectDynamic', 'js::panic::maybe_resume_unwind', 'js::panic::wrap_panic', 'js::rust::GCMethods', 'js::rust::CustomAutoRooterGuard', 'js::rust::define_methods', 'js::rust::define_properties', 'js::rust::get_object_class', 'js::typedarray', 'crate::dom', 'crate::dom::bindings', 'crate::dom::bindings::codegen::InterfaceObjectMap', 'crate::dom::bindings::constant::ConstantSpec', 'crate::dom::bindings::constant::ConstantVal', 'crate::dom::bindings::interface::ConstructorClassHook', 'crate::dom::bindings::interface::InterfaceConstructorBehavior', 'crate::dom::bindings::interface::NonCallbackInterfaceObjectClass', 'crate::dom::bindings::interface::create_global_object', 'crate::dom::bindings::interface::create_callback_interface_object', 'crate::dom::bindings::interface::create_interface_prototype_object', 'crate::dom::bindings::interface::create_named_constructors', 'crate::dom::bindings::interface::create_noncallback_interface_object', 'crate::dom::bindings::interface::define_guarded_constants', 'crate::dom::bindings::interface::define_guarded_methods', 'crate::dom::bindings::interface::define_guarded_properties', 'crate::dom::bindings::htmlconstructor::html_constructor', 'crate::dom::bindings::interface::is_exposed_in', 'crate::dom::bindings::htmlconstructor::pop_current_element_queue', 'crate::dom::bindings::htmlconstructor::push_new_element_queue', 'crate::dom::bindings::iterable::Iterable', 'crate::dom::bindings::iterable::IteratorType', 'crate::dom::bindings::namespace::NamespaceObjectClass', 'crate::dom::bindings::namespace::create_namespace_object', 'crate::dom::bindings::reflector::MutDomObject', 'crate::dom::bindings::reflector::DomObject', 'crate::dom::bindings::root::Dom', 'crate::dom::bindings::root::DomRoot', 'crate::dom::bindings::root::OptionalHeapSetter', 'crate::dom::bindings::root::DomSlice', 'crate::dom::bindings::utils::AsVoidPtr', 'crate::dom::bindings::utils::DOMClass', 'crate::dom::bindings::utils::DOMJSClass', 'crate::dom::bindings::utils::DOM_PROTO_UNFORGEABLE_HOLDER_SLOT', 'crate::dom::bindings::utils::JSCLASS_DOM_GLOBAL', 'crate::dom::bindings::utils::ProtoOrIfaceArray', 'crate::dom::bindings::utils::enumerate_global', 'crate::dom::bindings::utils::finalize_global', 'crate::dom::bindings::utils::find_enum_value', 'crate::dom::bindings::utils::generic_getter', 'crate::dom::bindings::utils::generic_lenient_getter', 'crate::dom::bindings::utils::generic_lenient_setter', 'crate::dom::bindings::utils::generic_method', 'crate::dom::bindings::utils::generic_setter', 'crate::dom::bindings::utils::get_array_index_from_id', 'crate::dom::bindings::utils::get_dictionary_property', 'crate::dom::bindings::utils::get_property_on_prototype', 'crate::dom::bindings::utils::get_proto_or_iface_array', 'crate::dom::bindings::utils::has_property_on_prototype', 'crate::dom::bindings::utils::is_platform_object', 'crate::dom::bindings::utils::resolve_global', 'crate::dom::bindings::utils::set_dictionary_property', 'crate::dom::bindings::utils::trace_global', 'crate::dom::bindings::trace::JSTraceable', 'crate::dom::bindings::trace::RootedTraceable', 'crate::dom::bindings::trace::RootedTraceableBox', 'crate::dom::bindings::callback::CallSetup', 'crate::dom::bindings::callback::CallbackContainer', 'crate::dom::bindings::callback::CallbackInterface', 'crate::dom::bindings::callback::CallbackFunction', 'crate::dom::bindings::callback::CallbackObject', 'crate::dom::bindings::callback::ExceptionHandling', 'crate::dom::bindings::callback::wrap_call_this_object', 'crate::dom::bindings::conversions::ConversionBehavior', 'crate::dom::bindings::conversions::ConversionResult', 'crate::dom::bindings::conversions::DOM_OBJECT_SLOT', 'crate::dom::bindings::conversions::FromJSValConvertible', 'crate::dom::bindings::conversions::IDLInterface', 'crate::dom::bindings::conversions::StringificationBehavior', 'crate::dom::bindings::conversions::ToJSValConvertible', 'crate::dom::bindings::conversions::is_array_like', 'crate::dom::bindings::conversions::native_from_handlevalue', 'crate::dom::bindings::conversions::native_from_object', 'crate::dom::bindings::conversions::native_from_object_static', 'crate::dom::bindings::conversions::private_from_object', 'crate::dom::bindings::conversions::root_from_handleobject', 'crate::dom::bindings::conversions::root_from_handlevalue', 'crate::dom::bindings::conversions::root_from_object', 'crate::dom::bindings::conversions::jsid_to_string', 'crate::dom::bindings::codegen::PrototypeList', 'crate::dom::bindings::codegen::RegisterBindings', 'crate::dom::bindings::codegen::UnionTypes', 'crate::dom::bindings::error::Error', 'crate::dom::bindings::error::ErrorResult', 'crate::dom::bindings::error::Fallible', 'crate::dom::bindings::error::Error::JSFailed', 'crate::dom::bindings::error::throw_dom_exception', 'crate::dom::bindings::guard::Condition', 'crate::dom::bindings::guard::Guard', 'crate::dom::bindings::inheritance::Castable', 'crate::dom::bindings::proxyhandler', 'crate::dom::bindings::proxyhandler::ensure_expando_object', 'crate::dom::bindings::proxyhandler::fill_property_descriptor', 'crate::dom::bindings::proxyhandler::get_expando_object', 'crate::dom::bindings::mozmap::MozMap', 'std::ptr::NonNull', 'crate::dom::bindings::num::Finite', 'crate::dom::bindings::str::ByteString', 'crate::dom::bindings::str::DOMString', 'crate::dom::bindings::str::USVString', 'crate::dom::bindings::weakref::DOM_WEAK_SLOT', 'crate::dom::bindings::weakref::WeakBox', 'crate::dom::bindings::weakref::WeakReferenceable', 'crate::dom::windowproxy::WindowProxy', 'crate::dom::globalscope::GlobalScope', 'crate::mem::malloc_size_of_including_raw_self', 'crate::compartments::InCompartment', 'crate::compartments::AlreadyInCompartment', 'libc', 'servo_config::pref', 'servo_config::prefs', 'std::borrow::ToOwned', 'std::cmp', 'std::mem', 'std::num', 'std::os', 'std::panic', 'std::ptr', 'std::str', 'std::rc', 'std::rc::Rc', 'std::default::Default', 'std::ffi::CString', ], config) class CGDescriptor(CGThing): def __init__(self, descriptor, config, soleDescriptor): CGThing.__init__(self) assert not descriptor.concrete or not descriptor.interface.isCallback() reexports = [] def reexportedName(name): if name.startswith(descriptor.name): return name if not soleDescriptor: return '%s as %s%s' % (name, descriptor.name, name) return name cgThings = [] unscopableNames = [] for m in descriptor.interface.members: if (m.isMethod() and (not m.isIdentifierLess() or m == descriptor.operations["Stringifier"])): if m.getExtendedAttribute("Unscopable"): assert not m.isStatic() unscopableNames.append(m.identifier.name) if m.isStatic(): assert descriptor.interface.hasInterfaceObject() cgThings.append(CGStaticMethod(descriptor, m)) elif not descriptor.interface.isCallback(): cgThings.append(CGSpecializedMethod(descriptor, m)) cgThings.append(CGMemberJITInfo(descriptor, m)) elif m.isAttr(): if m.stringifier: raise TypeError("Stringifier attributes not supported yet. " "See https://github.com/servo/servo/issues/7590\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 not descriptor.interface.isCallback(): cgThings.append(CGSpecializedGetter(descriptor, m)) if not m.readonly: if m.isStatic(): assert descriptor.interface.hasInterfaceObject() cgThings.append(CGStaticSetter(descriptor, m)) elif not descriptor.interface.isCallback(): cgThings.append(CGSpecializedSetter(descriptor, m)) elif m.getExtendedAttribute("PutForwards"): cgThings.append(CGSpecializedForwardingSetter(descriptor, m)) elif m.getExtendedAttribute("Replaceable"): cgThings.append(CGSpecializedReplaceableSetter(descriptor, m)) if (not m.isStatic() and not descriptor.interface.isCallback()): cgThings.append(CGMemberJITInfo(descriptor, m)) if descriptor.concrete: cgThings.append(CGClassFinalizeHook(descriptor)) cgThings.append(CGClassTraceHook(descriptor)) # If there are no constant members, don't make a module for constants constMembers = [CGConstant(m) for m in descriptor.interface.members if m.isConst()] if constMembers: cgThings.append(CGNamespace.build([descriptor.name + "Constants"], CGIndenter(CGList(constMembers)), public=True)) reexports.append(descriptor.name + 'Constants') if descriptor.proxy: cgThings.append(CGDefineProxyHandler(descriptor)) properties = PropertyArrays(descriptor) if descriptor.concrete: if descriptor.proxy: # cgThings.append(CGProxyIsProxy(descriptor)) cgThings.append(CGProxyUnwrap(descriptor)) cgThings.append(CGDOMJSProxyHandlerDOMClass(descriptor)) cgThings.append(CGDOMJSProxyHandler_ownPropertyKeys(descriptor)) if descriptor.interface.getExtendedAttribute("LegacyUnenumerableNamedProperties"): cgThings.append(CGDOMJSProxyHandler_getOwnEnumerablePropertyKeys(descriptor)) cgThings.append(CGDOMJSProxyHandler_getOwnPropertyDescriptor(descriptor)) cgThings.append(CGDOMJSProxyHandler_className(descriptor)) cgThings.append(CGDOMJSProxyHandler_get(descriptor)) cgThings.append(CGDOMJSProxyHandler_hasOwn(descriptor)) if descriptor.operations['IndexedSetter'] or descriptor.operations['NamedSetter']: cgThings.append(CGDOMJSProxyHandler_defineProperty(descriptor)) # We want to prevent indexed deleters from compiling at all. assert not descriptor.operations['IndexedDeleter'] if descriptor.operations['NamedDeleter']: cgThings.append(CGDOMJSProxyHandler_delete(descriptor)) # cgThings.append(CGDOMJSProxyHandler(descriptor)) # cgThings.append(CGIsMethod(descriptor)) pass else: cgThings.append(CGDOMJSClass(descriptor)) if not descriptor.interface.isIteratorInterface(): cgThings.append(CGAssertInheritance(descriptor)) pass if descriptor.isGlobal(): cgThings.append(CGWrapGlobalMethod(descriptor, properties)) else: cgThings.append(CGWrapMethod(descriptor)) reexports.append('Wrap') haveUnscopables = False if not descriptor.interface.isCallback() and not descriptor.interface.isNamespace(): if unscopableNames: haveUnscopables = True cgThings.append( CGList([CGGeneric("const unscopable_names: &'static [&'static [u8]] = &["), CGIndenter(CGList([CGGeneric(str_to_const_array(name)) for name in unscopableNames], ",\n")), CGGeneric("];\n")], "\n")) if descriptor.concrete or descriptor.hasDescendants(): cgThings.append(CGIDLInterface(descriptor)) interfaceTrait = CGInterfaceTrait(descriptor) cgThings.append(interfaceTrait) if not interfaceTrait.empty: reexports.append('%sMethods' % descriptor.name) if descriptor.weakReferenceable: cgThings.append(CGWeakReferenceableTrait(descriptor)) cgThings.append(CGGeneric(str(properties))) if not descriptor.interface.getExtendedAttribute("Inline"): if not descriptor.interface.isCallback() and not descriptor.interface.isNamespace(): cgThings.append(CGGetProtoObjectMethod(descriptor)) reexports.append('GetProtoObject') cgThings.append(CGPrototypeJSClass(descriptor)) if descriptor.interface.hasInterfaceObject(): if descriptor.interface.ctor(): cgThings.append(CGClassConstructHook(descriptor)) for ctor in descriptor.interface.namedConstructors: cgThings.append(CGClassConstructHook(descriptor, ctor)) if not descriptor.interface.isCallback(): cgThings.append(CGInterfaceObjectJSClass(descriptor)) if descriptor.shouldHaveGetConstructorObjectMethod(): cgThings.append(CGGetConstructorObjectMethod(descriptor)) reexports.append('GetConstructorObject') if descriptor.register: cgThings.append(CGDefineDOMInterfaceMethod(descriptor)) reexports.append('DefineDOMInterface') cgThings.append(CGConstructorEnabled(descriptor)) cgThings.append(CGCreateInterfaceObjectsMethod(descriptor, properties, haveUnscopables)) cgThings = generate_imports(config, CGList(cgThings, '\n'), [descriptor]) cgThings = CGWrapper(CGNamespace(toBindingNamespace(descriptor.name), cgThings, public=True), post='\n') if reexports: reexports = ', '.join(map(lambda name: reexportedName(name), reexports)) cgThings = CGList([CGGeneric('pub use self::%s::{%s};' % (toBindingNamespace(descriptor.name), reexports)), cgThings], '\n') self.cgRoot = cgThings def define(self): return self.cgRoot.define() class CGNonNamespacedEnum(CGThing): def __init__(self, enumName, names, first, comment="", deriving="", repr=""): # Account for first value entries = ["%s = %s" % (names[0], first)] + names[1:] # Append a Last. entries.append('#[allow(dead_code)] Last = ' + str(first + len(entries))) # Indent. entries = [' ' + e for e in entries] # Build the enum body. enumstr = comment + 'pub enum %s {\n%s\n}\n' % (enumName, ',\n'.join(entries)) if repr: enumstr = ('#[repr(%s)]\n' % repr) + enumstr if deriving: enumstr = ('#[derive(%s)]\n' % deriving) + enumstr curr = CGGeneric(enumstr) # Add some whitespace padding. curr = CGWrapper(curr, pre='\n', post='\n') # Add the typedef # typedef = '\ntypedef %s::%s %s;\n\n' % (namespace, enumName, enumName) # curr = CGList([curr, CGGeneric(typedef)]) # Save the result. self.node = curr def define(self): return self.node.define() class CGDictionary(CGThing): def __init__(self, dictionary, descriptorProvider): self.dictionary = dictionary if all(CGDictionary(d, descriptorProvider).generatable for d in CGDictionary.getDictionaryDependencies(dictionary)): self.generatable = True else: self.generatable = False # Nothing else to do here return self.memberInfo = [ (member, getJSToNativeConversionInfo(member.type, descriptorProvider, isMember="Dictionary", defaultValue=member.defaultValue, exceptionCode="return Err(());\n")) for member in dictionary.members] def define(self): if not self.generatable: return "" return self.struct() + "\n" + self.impl() def struct(self): d = self.dictionary if d.parent: inheritance = " pub parent: %s::%s,\n" % (self.makeModuleName(d.parent), self.makeClassName(d.parent)) else: inheritance = "" memberDecls = [" pub %s: %s," % (self.makeMemberName(m[0].identifier.name), self.getMemberType(m)) for m in self.memberInfo] derive = ["JSTraceable"] mustRoot = "" if self.membersNeedTracing(): mustRoot = "#[must_root]\n" derive += ["Default"] return (string.Template( "#[derive(${derive})]\n" "${mustRoot}" + "pub struct ${selfName} {\n" + "${inheritance}" + "\n".join(memberDecls) + "\n" + "}").substitute({"selfName": self.makeClassName(d), "inheritance": inheritance, "mustRoot": mustRoot, "derive": ', '.join(derive)})) def impl(self): d = self.dictionary if d.parent: initParent = ("{\n" " match r#try!(%s::%s::new(cx, val)) {\n" " ConversionResult::Success(v) => v,\n" " ConversionResult::Failure(error) => {\n" " throw_type_error(cx, &error);\n" " return Err(());\n" " }\n" " }\n" "}" % (self.makeModuleName(d.parent), self.makeClassName(d.parent))) else: initParent = "" def memberInit(memberInfo, isInitial): member, _ = memberInfo name = self.makeMemberName(member.identifier.name) conversion = self.getMemberConversion(memberInfo, member.type) if isInitial: return CGGeneric("%s: %s,\n" % (name, conversion.define())) return CGGeneric("dictionary.%s = %s;\n" % (name, conversion.define())) def varInsert(varName, dictionaryName): insertion = ("rooted!(in(cx) let mut %s_js = UndefinedValue());\n" "%s.to_jsval(cx, %s_js.handle_mut());\n" "set_dictionary_property(cx, obj.handle(), \"%s\", %s_js.handle()).unwrap();" % (varName, varName, varName, dictionaryName, varName)) return CGGeneric(insertion) def memberInsert(memberInfo): member, _ = memberInfo name = self.makeMemberName(member.identifier.name) if member.optional and not member.defaultValue: insertion = CGIfWrapper("let Some(ref %s) = self.%s" % (name, name), varInsert(name, member.identifier.name)) else: insertion = CGGeneric("let %s = &self.%s;\n%s" % (name, name, varInsert(name, member.identifier.name).define())) return CGGeneric("%s\n" % insertion.define()) memberInserts = CGList([memberInsert(m) for m in self.memberInfo]) selfName = self.makeClassName(d) if self.membersNeedTracing(): actualType = "RootedTraceableBox<%s>" % selfName preInitial = "let mut dictionary = RootedTraceableBox::new(%s::default());\n" % selfName initParent = initParent = ("dictionary.parent = %s;\n" % initParent) if initParent else "" memberInits = CGList([memberInit(m, False) for m in self.memberInfo]) postInitial = "" else: actualType = selfName preInitial = "let dictionary = %s {\n" % selfName postInitial = "};\n" initParent = ("parent: %s,\n" % initParent) if initParent else "" memberInits = CGList([memberInit(m, True) for m in self.memberInfo]) return string.Template( "impl ${selfName} {\n" "${empty}\n" " pub unsafe fn new(cx: *mut JSContext, val: HandleValue) \n" " -> Result, ()> {\n" " let object = if val.get().is_null_or_undefined() {\n" " ptr::null_mut()\n" " } else if val.get().is_object() {\n" " val.get().to_object()\n" " } else {\n" " return Ok(ConversionResult::Failure(\"Value is not an object.\".into()));\n" " };\n" " rooted!(in(cx) let object = object);\n" "${preInitial}" "${initParent}" "${initMembers}" "${postInitial}" " Ok(ConversionResult::Success(dictionary))\n" " }\n" "}\n" "\n" "impl FromJSValConvertible for ${actualType} {\n" " type Config = ();\n" " unsafe fn from_jsval(cx: *mut JSContext, value: HandleValue, _option: ())\n" " -> Result, ()> {\n" " ${selfName}::new(cx, value)\n" " }\n" "}\n" "\n" "impl ToJSValConvertible for ${selfName} {\n" " unsafe fn to_jsval(&self, cx: *mut JSContext, mut rval: MutableHandleValue) {\n" " rooted!(in(cx) let obj = JS_NewObject(cx, ptr::null()));\n" "${insertMembers}" " rval.set(ObjectOrNullValue(obj.get()))\n" " }\n" "}\n").substitute({ "selfName": selfName, "actualType": actualType, "empty": CGIndenter(CGGeneric(self.makeEmpty()), indentLevel=4).define(), "initParent": CGIndenter(CGGeneric(initParent), indentLevel=12).define(), "initMembers": CGIndenter(memberInits, indentLevel=12).define(), "insertMembers": CGIndenter(memberInserts, indentLevel=8).define(), "preInitial": CGIndenter(CGGeneric(preInitial), indentLevel=12).define(), "postInitial": CGIndenter(CGGeneric(postInitial), indentLevel=12).define(), }) def membersNeedTracing(self): for member, _ in self.memberInfo: if type_needs_tracing(member.type): return True return False @staticmethod def makeDictionaryName(dictionary): return dictionary.identifier.name def makeClassName(self, dictionary): return self.makeDictionaryName(dictionary) @staticmethod def makeModuleName(dictionary): return getModuleFromObject(dictionary) def getMemberType(self, memberInfo): member, info = memberInfo declType = info.declType if member.optional and not member.defaultValue: declType = CGWrapper(info.declType, pre="Option<", post=">") return declType.define() def getMemberConversion(self, memberInfo, memberType): def indent(s): return CGIndenter(CGGeneric(s), 12).define() member, info = memberInfo templateBody = info.template default = info.default replacements = {"val": "rval.handle()"} conversion = string.Template(templateBody).substitute(replacements) assert (member.defaultValue is None) == (default is None) if not member.optional: assert default is None default = ("throw_type_error(cx, \"Missing required member \\\"%s\\\".\");\n" "return Err(());") % member.identifier.name elif not default: default = "None" conversion = "Some(%s)" % conversion conversion = ( "{\n" " rooted!(in(cx) let mut rval = UndefinedValue());\n" " if r#try!(get_dictionary_property(cx, object.handle(), \"%s\", rval.handle_mut())) {\n" "%s\n" " } else {\n" "%s\n" " }\n" "}") % (member.identifier.name, indent(conversion), indent(default)) return CGGeneric(conversion) def makeEmpty(self): if self.hasRequiredFields(self.dictionary): return "" parentTemplate = "parent: %s::%s::empty(),\n" fieldTemplate = "%s: %s,\n" functionTemplate = ( "pub fn empty() -> Self {\n" " Self {\n" "%s" " }\n" "}" ) if self.membersNeedTracing(): parentTemplate = "dictionary.parent = %s::%s::empty();\n" fieldTemplate = "dictionary.%s = %s;\n" functionTemplate = ( "pub fn empty() -> RootedTraceableBox {\n" " let mut dictionary = RootedTraceableBox::new(Self::default());\n" "%s" " dictionary\n" "}" ) s = "" if self.dictionary.parent: s += parentTemplate % (self.makeModuleName(self.dictionary.parent), self.makeClassName(self.dictionary.parent)) for member, info in self.memberInfo: if not member.optional: return "" default = info.default if not default: default = "None" s += fieldTemplate % (self.makeMemberName(member.identifier.name), default) return functionTemplate % CGIndenter(CGGeneric(s), 12).define() def hasRequiredFields(self, dictionary): if dictionary.parent: if self.hasRequiredFields(dictionary.parent): return True for member in dictionary.members: if not member.optional: return True return False @staticmethod def makeMemberName(name): # Can't use Rust keywords as member names. if name in RUST_KEYWORDS: return name + "_" return name @staticmethod def getDictionaryDependencies(dictionary): deps = set() if dictionary.parent: deps.add(dictionary.parent) for member in dictionary.members: if member.type.isDictionary(): deps.add(member.type.unroll().inner) return deps class CGRegisterProxyHandlersMethod(CGAbstractMethod): def __init__(self, descriptors): docs = "Create the global vtables used by the generated DOM bindings to implement JS proxies." CGAbstractMethod.__init__(self, None, 'RegisterProxyHandlers', 'void', [], unsafe=True, pub=True, docs=docs) self.descriptors = descriptors def definition_body(self): return CGList([ CGGeneric("PROXY_HANDLERS[Proxies::%s as usize] = Bindings::%s::DefineProxyHandler();" % (desc.name, '::'.join([desc.name + 'Binding'] * 2))) for desc in self.descriptors ], "\n") class CGRegisterProxyHandlers(CGThing): def __init__(self, config): descriptors = config.getDescriptors(proxy=True) length = len(descriptors) self.root = CGList([ CGGeneric("pub static mut PROXY_HANDLERS: [*const libc::c_void; %d] = [0 as *const libc::c_void; %d];" % (length, length)), CGRegisterProxyHandlersMethod(descriptors), ], "\n") def define(self): return self.root.define() class CGBindingRoot(CGThing): """ DomRoot 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): descriptors = config.getDescriptors(webIDLFile=webIDLFile, hasInterfaceObject=True) # We also want descriptors that have an interface prototype object # (isCallback=False), but we don't want to include a second copy # of descriptors that we also matched in the previous line # (hence hasInterfaceObject=False). descriptors.extend(config.getDescriptors(webIDLFile=webIDLFile, hasInterfaceObject=False, isCallback=False, register=True)) dictionaries = config.getDictionaries(webIDLFile=webIDLFile) mainCallbacks = config.getCallbacks(webIDLFile=webIDLFile) callbackDescriptors = config.getDescriptors(webIDLFile=webIDLFile, isCallback=True) enums = config.getEnums(webIDLFile) typedefs = config.getTypedefs(webIDLFile) if not (descriptors or dictionaries or mainCallbacks or callbackDescriptors or enums): self.root = None return # Do codegen for all the enums. cgthings = [CGEnum(e) for e in enums] # Do codegen for all the typedefs for t in typedefs: typeName = getRetvalDeclarationForType(t.innerType, config.getDescriptorProvider()) substs = { "name": t.identifier.name, "type": typeName.define(), } if t.innerType.isUnion() and not t.innerType.nullable(): # Allow using the typedef's name for accessing variants. template = "pub use self::%(type)s as %(name)s;" else: template = "pub type %(name)s = %(type)s;" cgthings.append(CGGeneric(template % substs)) # Do codegen for all the dictionaries. cgthings.extend([CGDictionary(d, config.getDescriptorProvider()) for d in dictionaries]) # Do codegen for all the callbacks. cgthings.extend(CGList([CGCallbackFunction(c, config.getDescriptorProvider()), CGCallbackFunctionImpl(c)], "\n") for c in mainCallbacks) # Do codegen for all the descriptors cgthings.extend([CGDescriptor(x, config, len(descriptors) == 1) for x in descriptors]) # Do codegen for all the callback interfaces. cgthings.extend(CGList([CGCallbackInterface(x), CGCallbackFunctionImpl(x.interface)], "\n") for x in callbackDescriptors) # And make sure we have the right number of newlines at the end curr = CGWrapper(CGList(cgthings, "\n\n"), post="\n\n") # Add imports curr = generate_imports(config, curr, callbackDescriptors, mainCallbacks, dictionaries, enums, typedefs) # Add the auto-generated comment. curr = CGWrapper(curr, pre=AUTOGENERATED_WARNING_COMMENT) # Store the final result. self.root = curr def define(self): if not self.root: return None return stripTrailingWhitespace(self.root.define()) def type_needs_tracing(t): assert isinstance(t, IDLObject), (t, type(t)) if t.isType(): if isinstance(t, IDLWrapperType): return type_needs_tracing(t.inner) if t.nullable(): return type_needs_tracing(t.inner) if t.isAny(): return True if t.isObject(): return True if t.isSequence(): return type_needs_tracing(t.inner) if t.isUnion(): return any(type_needs_tracing(member) for member in t.flatMemberTypes) if is_typed_array(t): return True return False if t.isDictionary(): if t.parent and type_needs_tracing(t.parent): return True if any(type_needs_tracing(member.type) for member in t.members): return True return False if t.isInterface(): return False if t.isEnum(): return False assert False, (t, type(t)) def is_typed_array(t): assert isinstance(t, IDLObject), (t, type(t)) return t.isTypedArray() or t.isArrayBuffer() or t.isArrayBufferView() or t.isSharedArrayBuffer() def type_needs_auto_root(t): """ Certain IDL types, such as `sequence` or `sequence