firefox-main/js/src/vm
Name Description Size Coverage
Activation-inl.h static 4065 97 %
Activation.cpp 1023 100 %
Activation.h 22474 97 %
ArgumentsObject-inl.h namespace js 1673 100 %
ArgumentsObject.cpp static 38396 94 %
ArgumentsObject.h This array holds either the current argument value or the magic forwarding value. The latter means that the function has both a CallObject and an ArgumentsObject AND the particular formal variable is aliased by the CallObject. In such cases, the CallObject holds the canonical value so any element access to the arguments object should load the value out of the CallObject (which is pointed to by MAYBE_CALL_SLOT). 20612 98 %
ArrayBufferObject-inl.h 2342 100 %
ArrayBufferObject.cpp 138596 84 %
ArrayBufferObject.h 41132 98 %
ArrayBufferObjectMaybeShared.cpp 3270 75 %
ArrayBufferViewObject.cpp static 22487 86 %
ArrayBufferViewObject.h ArrayBufferViewObject Common base class for all array buffer views (DataViewObject and TypedArrayObject). 9976 94 %
ArrayObject-inl.h static 2854 95 %
ArrayObject.h 3195 100 %
AsyncFunction.cpp ES2022 draft rev d03c1ec6e235a5180fa772b6178727c17974cb14 Await in async function https://tc39.es/ecma262/#await Unified implementation of Step 3. fulfilledClosure Abstract Closure. Step 5. rejectedClosure Abstract Closure. 13061 92 %
AsyncFunction.h 12493 100 %
AsyncIteration.cpp static 67113 77 %
AsyncIteration.h 21005 100 %
AtomsTable.h Implementation details of the atoms table. 5905 100 %
BigIntType.cpp 125450 88 %
BigIntType.h 22000 98 %
BindingKind.h 3014 100 %
BooleanObject-inl.h = nullptr 785 86 %
BooleanObject.h Stores this Boolean object's [[PrimitiveValue]]. 1304 100 %
BoundFunctionObject.cpp 17108 93 %
BoundFunctionObject.h 6108 100 %
BuildId.cpp SpiderMonkey buildId-related functionality. 1006 100 %
BuiltinObjectKind.cpp 4080 69 %
BuiltinObjectKind.h Built-in objects used by the GetBuiltinConstructor and GetBuiltinPrototype self-hosted intrinsics. 1873 -
BytecodeFormatFlags.h [SMDOC] Bytecode Format flags (JOF_*) 2919 -
BytecodeIterator-inl.h 1070 100 %
BytecodeIterator.h 2305 100 %
BytecodeLocation-inl.h 3820 100 %
BytecodeLocation.cpp 925 -
BytecodeLocation.h 10772 100 %
BytecodeUtil-inl.h Add an extra pushed value for Or/And opcodes, so that they are included in the pushed array of stack values for type inference. 7987 97 %
BytecodeUtil.cpp JS bytecode descriptors, disassemblers, and (expression) decompilers. 85120 88 %
BytecodeUtil.h JS bytecode definitions. 19774 99 %
Caches.h 20941 94 %
CallAndConstruct.cpp 5855 67 %
CallNonGenericMethod.cpp 1146 100 %
CharacterEncoding.cpp nbytes sets 1 length since this is surrogate pair. 29425 79 %
CheckIsObjectKind.h vm_CheckIsObjectKind_h 735 -
CodeCoverage.cpp 19143 91 %
CodeCoverage.h 5274 100 %
CommonPropertyNames.h A higher-order macro for enumerating all cached property names. 46180 -
Compartment-inl.h Only GC things have to be wrapped or copied. 12099 94 %
Compartment.cpp Directly allocate the copy in the destination compartment, rather than first flattening it (and possibly allocating in source compartment), because we don't know whether the flattening will pay off later. 19414 92 %
Compartment.h 17534 98 %
CompilationAndEvaluation.cpp Same-thread compilation and evaluation APIs. 22798 68 %
CompletionKind.h 817 -
Compression.cpp 8561 95 %
Compression.h Compress some of the input. Return true if it should be called again. 4482 100 %
ConcurrentDelazification.cpp 9840 0 %
ConcurrentDelazification.h 6267 0 %
ConstantCompareOperand.h Simple struct for encoding comparison operations with parse-time constant values, presently used with the |StrictConstantEq| and |StrictConstantNe| opcodes. The operand encodes the type of the constant and its payload. The type is encoded in the high-byte and the payload in the low-byte of a 16-bit word. TODO (Bug 1958722): Investigate if larger payloads can be supported in the empty bits of the type. 2846 100 %
DateObject.h Cached slots holding local properties of the date. These are undefined until the first actual lookup occurs and are reset to undefined whenever the date's time is modified. - LOCAL_TIME_SLOT is either a Double or Undefined. - The remaining slots store either Int32, NaN, or Undefined values. 5295 100 %
DateTime.cpp !defined(XP_WIN) 28280 80 %
DateTime.h 21.4.1.2 Time-related Constants ES2025 draft rev 76814cbd5d7842c2a99d28e6e8c7833f1de5bee0 17222 100 %
DisposableRecord-inl.h static 1205 83 %
DisposableRecord.cpp static 1347 82 %
DisposableRecord.h Explicit Resource Management Proposal DisposableResource Records https://arai-a.github.io/ecma262-compare/?pr=3000&id=sec-disposableresource-records 1576 -
DOMEventDispatch.cpp 2028 16 %
EnvironmentObject-inl.h namespace js 2858 94 %
EnvironmentObject.cpp / /* Return a shape representing the static scope containing the variable accessed by the ALIASEDVAR op at 'pc'. 157050 87 %
EnvironmentObject.h Environment objects *************************************************** 66934 99 %
EqualityOperations.cpp 10358 98 %
EqualityOperations.h The equality comparisons of js/Equality.h, but with extra efficiency for SpiderMonkey-internal callers. These functions, assuming they're passed C++-valid arguments, are identical to the same-named JS::-namespaced functions -- just with hidden linkage (so they're more efficient to call), and without various external-caller-focused JSAPI-usage assertions performed that SpiderMonkey users never come close to failing. 2409 100 %
ErrorMessages.cpp SpiderMonkey-internal error-reporting formatting functionality. 1003 80 %
ErrorObject-inl.h vm_ErrorObject_inl_h 1812 96 %
ErrorObject.cpp 63669 86 %
ErrorObject.h Assign the initial error shape to the empty object. (This shape does *not* include .message, which must be added separately if needed; see ErrorObject::init.) 10984 98 %
ErrorReporting.cpp 21327 79 %
ErrorReporting.h Use this type instead of JSContext when the object is only used for its ability to allocate memory (via its MallocProvider methods). 8435 100 %
Exception.cpp 1879 93 %
Float16.h 11445 100 %
ForOfIterator.cpp 4648 99 %
FrameIter-inl.h 1934 78 %
FrameIter.cpp 28478 87 %
FrameIter.h 17666 99 %
FunctionFlags.cpp 688 -
FunctionFlags.h 16262 100 %
FunctionPrefixKind.h vm_FunctionPrefixKind_h 553 -
GeckoProfiler-inl.h This class is used to suppress profiler sampling during critical sections where stack state is not valid. 4273 100 %
GeckoProfiler.cpp Ensure all future generated code will be instrumented, or that all currently instrumented code is discarded 25994 90 %
GeckoProfiler.h 12434 80 %
GeneratorAndAsyncKind.h namespace js 601 -
GeneratorObject.cpp 18089 91 %
GeneratorObject.h 8995 100 %
GeneratorResumeKind.h vm_GeneratorResumeKind_h 562 -
GetterSetter.cpp 1239 86 %
GetterSetter.h 4226 100 %
GlobalObject-inl.h static 1011 100 %
GlobalObject.cpp static 37019 88 %
GlobalObject.h 43514 92 %
GuardFuse.h 3931 84 %
HelperThreads.cpp 67990 73 %
HelperThreads.h API for managing off-thread work. 10782 92 %
HelperThreadState.h Definitions for managing off-thread work using a process wide list of worklist items and pool of threads. Worklist items are engine internal, and are distinct from e.g. web workers. 26558 77 %
HelperThreadTask.h vm_HelperThreadTask_h 2604 100 %
Id.cpp static 3250 58 %
Initialization.cpp SpiderMonkey initialization and shutdown code. 9737 95 %
Int128.cpp 6894 86 %
Int128.h Unsigned 128-bit integer, implemented as a pair of unsigned 64-bit integers. Supports all basic arithmetic operators. 21530 59 %
InternalThreadPool.cpp The profiling thread for this helper thread, which can be used to push and pop label frames. This field being non-null indicates that this thread has been registered and needs to be unregistered at shutdown. 9913 83 %
InternalThreadPool.h An internal thread pool, used for the shell and when JS::SetHelperThreadTaskCallback not called. 2218 100 %
Interpreter-inl.h Per ES6, lexical declarations may not be accessed in any fashion until they are initialized (i.e., until the actual declaring statement is executed). The various LEXICAL opcodes need to check if the slot is an uninitialized let declaration, represented by the magic value JS_UNINITIALIZED_LEXICAL. 30387 97 %
Interpreter.cpp JavaScript bytecode interpreter. 169352 94 %
Interpreter.h JS interpreter interface. 28330 100 %
InvalidatingFuse.cpp 4602 95 %
InvalidatingFuse.h 2967 100 %
IsGivenTypeObject-inl.h 949 88 %
Iteration.cpp JavaScript iterators. 78733 91 %
Iteration.h JavaScript iterators. 28851 100 %
Iterator.cpp 3396 96 %
JitActivation.cpp 9900 94 %
JitActivation.h 10804 100 %
JSAtomState.h Various built-in or commonly-used names pinned on first context. 2139 100 %
JSAtomUtils-inl.h vm_JSAtomUtils_inl_h 3829 87 %
JSAtomUtils.cpp JS atom table. 33350 88 %
JSAtomUtils.h Return a printable, lossless char[] representation of a string-type atom. The returned string is guaranteed to contain only ASCII characters. 3529 100 %
JSContext-inl.h Set a breakpoint here (break js::ContextChecks::fail) to debug realm/compartment/zone mismatches. 10672 92 %
JSContext.cpp JS execution context. 50312 84 %
JSContext.h JS execution context. 44502 96 %
JSFunction-inl.h namespace js 4785 95 %
JSFunction.cpp JS function support. 65521 90 %
JSFunction.h JS function definitions. 35913 99 %
JSObject-inl.h static 21654 100 %
JSObject.cpp JS object implementation. 110461 90 %
JSObject.h / class GlobalObject; class NativeObject; class WithEnvironmentObject; enum class IntegrityLevel { Sealed, Frozen }; /* The NewObjectKind allows an allocation site to specify the lifetime requirements that must be fixed at allocation time. 40286 99 %
JSONParser.cpp 47095 87 %
JSONParser.h 22570 81 %
JSONPrinter.cpp 6126 52 %
JSONPrinter.h vm_JSONPrinter_h 2795 100 %
jsopcode.py 10593 -
JSScript-inl.h A JSScript always marks its realm's global so we can assert it's non-null here. We don't need a read barrier here for the same reason JSObject::nonCCWGlobal doesn't need one. 7917 98 %
JSScript.cpp JS script operations. 126164 80 %
JSScript.h JS script descriptor. 85823 88 %
List-inl.h static 1597 96 %
List.cpp 426 -
List.h The List specification type, ECMA-262 6.2.1. <https://tc39.github.io/ecma262/#sec-list-and-record-specification-type> Lists are simple mutable sequences of values. Many standards use them. Abstractly, they're not objects; they don't have properties or prototypes; they're for internal specification use only. ListObject is our most direct implementation of a List: store the values in the slots of a JSObject. We often implement Lists in other ways. For example, builtin/Utilities.js contains a completely unrelated List constructor that's used in self-hosted code. And AsyncGeneratorObject optimizes away the ListObject in the common case where its internal queue never holds more than one element. ListObjects must not be exposed to content scripts. 2276 100 %
Logging.cpp static 648 100 %
Logging.h A predefined log module for casual debugging 5068 87 %
make_opcode_doc.py Usage: python make_opcode_doc.py This script generates SpiderMonkey bytecode documentation from js/src/vm/Opcodes.h. Output is written to stdout and should be pasted into the following MDN page: https://developer.mozilla.org/en-US/docs/SpiderMonkey/Internals/Bytecode 5288 -
MallocProvider.h Hierarchy of SpiderMonkey system memory allocators: - System {m,c,re}alloc/new/free: Overridden by jemalloc in most environments. Do not use these functions directly. - js_{m,c,re}alloc/new/free: Wraps the system allocators and adds a failure injection framework for use by the fuzzers as well as templated, typesafe variants. See js/public/Utility.h. - AllocPolicy: An interface for the js allocators, for use with templates. These allocators are for system memory whose lifetime is not associated with a GC thing. See js/public/AllocPolicy.h. - SystemAllocPolicy: No extra functionality over bare allocators. - TempAllocPolicy: Adds automatic error reporting to the provided JSContext when allocations fail. - ZoneAllocPolicy: Forwards to the Zone MallocProvider. - MallocProvider. A mixin base class that handles automatically updating the GC's state in response to allocations that are tied to a GC lifetime or are for a particular GC purpose. These allocators must only be used for memory that will be freed when a GC thing is swept. - gc::Zone: Automatically triggers zone GC. - JSRuntime: Automatically triggers full GC. - JSContext: Dispatches directly to the runtime. 8098 61 %
MatchPairs.h RegExp match results are succinctly represented by pairs of integer indices delimiting (start, limit] segments of the input string. The pair count for a given RegExp match is the capturing parentheses count plus one for the "0 capturing paren" whole text match. 3789 100 %
MemoryMetrics.cpp static 28895 87 %
ModuleBuilder.h 4793 100 %
Modules.cpp JavaScript modules (as in, the syntactic construct) implementation. 112731 86 %
Modules.h 2717 100 %
Monitor.h vm_Monitor_h 1556 100 %
moz.build 4484 -
MutexIDs.h 3084 -
NativeObject-inl.h 28485 98 %
NativeObject.cpp Objects with no elements share one empty set of elements. 102587 94 %
NativeObject.h To really poison a set of values, using 'magic' or 'undefined' isn't good enough since often these will just be ignored by buggy code (see bug 629974) in debug builds and crash in release builds. Instead, we use a safe-for-crash pointer. 75053 99 %
NumberObject-inl.h = nullptr 816 86 %
NumberObject.h Stores this Number object's [[PrimitiveValue]]. 1283 100 %
ObjectFlags-inl.h vm_ObjectFlags_inl_h 3321 84 %
ObjectFlags.h vm_ObjectFlags_h 4598 -
ObjectFuse.cpp 7582 93 %
ObjectFuse.h 10844 99 %
ObjectOperations-inl.h Fundamental operations on objects. 13568 98 %
ObjectOperations.h Fundamental operations on objects. 13185 100 %
ObjectWithStashedPointer.cpp 2418 0 %
OffThreadPromiseRuntimeState.cpp 21118 87 %
OffThreadPromiseRuntimeState.h 17706 76 %
Opcodes.h 145962 -
PlainObject-inl.h static 3379 100 %
PlainObject.cpp JS object implementation. 10708 94 %
PlainObject.h Return the allocKind we would use if we were to tenure this object. 4358 100 %
PortableBaselineInterpret.cpp JavaScript "portable baseline interpreter": an interpreter that is capable of running ICs, but without any native code. See the [SMDOC] in vm/PortableBaselineInterpret.h for a high-level overview. 330072 -
PortableBaselineInterpret.h 16973 -
Prefs.cpp 823 -
Printer.cpp 19957 84 %
Probes-inl.h Many probe handlers are implemented inline for minimal performance impact, especially important when no backends are enabled. 1275 93 %
Probes.cpp 407 -
Probes.h Static probes The probe points defined in this file are scattered around the SpiderMonkey source tree. The presence of probes::SomeEvent() means that someEvent is about to happen or has happened. To the extent possible, probes should be inserted in all paths associated with a given event, regardless of the active runmode (interpreter/traceJIT/methodJIT/ionJIT). When a probe fires, it is handled by any probe handling backends that have been compiled in. By default, most probes do nothing or at least do nothing expensive, so the presence of the probe should have negligible effect on running time. (Probes in slow paths may do something by default, as long as there is no noticeable slowdown.) For some probes, the mere existence of the probe is too expensive even if it does nothing when called. For example, just having consistent information available for a function call entry/exit probe causes the JITs to de-optimize function calls. In those cases, the JITs may query at compile time whether a probe is desired, and omit the probe invocation if not. If a probe is runtime-disabled at compilation time, it is not guaranteed to fire within a compiled function if it is later enabled. Not all backends handle all of the probes listed here. 2626 100 %
ProfilingStack.cpp 1613 100 %
PromiseObject.h 9878 100 %
PropertyAndElement.cpp 38888 67 %
PropertyDescriptor.cpp 3352 56 %
PropertyInfo.h Limit on the number of slotful properties in an object. 7272 100 %
PropertyKey.h vm_PropertyKey_h 2069 96 %
PropertyResult.h vm_PropertyResult_h 3198 100 %
PropMap-inl.h 7507 98 %
PropMap.cpp prev = 43214 95 %
PropMap.h 43145 99 %
ProxyObject.cpp static 6908 98 %
ProxyObject.h This is the base class for the various kinds of proxy objects. It's never instantiated. Proxy objects use their shape primarily to record flags. Property information, &c. is all dynamically computed. There is no class_ member to force specialization of JSObject::is<T>(). The implementation in JSObject is incorrect for proxies since it doesn't take account of the handler type. 5764 100 %
Realm-inl.h static 3373 100 %
Realm.cpp As a hack, we clear our timezone cache every time we create a new realm. This ensures that the cache is always relatively fresh, but shouldn't interfere with benchmarks that create tons of date objects (unless they also create tons of iframes, which seems unlikely). 27468 89 %
Realm.h A single-entry cache for some base-10 double-to-string conversions. This helps date-format-xparb.js. It also avoids skewing the results for v8-splay.js when measured by the SunSpider harness, where the splay tree initialization (which includes many repeated double-to-string conversions) is erroneously included in the measurement; see bug 562553. 34809 99 %
RealmFuses.cpp 22704 86 %
RealmFuses.h 16477 21 %
RecordTupleShared.h 1102 -
RegExpObject.cpp RegExpAlloc ( newTarget ) https://github.com/tc39/proposal-regexp-legacy-features?tab=readme-ov-file 41662 77 %
RegExpObject.h JavaScript RegExp objects. 9409 99 %
RegExpShared.h The compiled representation of a RegExp, potentially shared among RegExp instances created during separate evaluations of a single RegExp literal in source code. 15789 98 %
RegExpStatics.cpp Retrieve or create the RegExpShared in this zone. 1746 92 %
RegExpStatics.h The latest RegExp output, set after execution. 9794 77 %
Runtime.cpp static 27341 92 %
Runtime.h namespace js 40452 97 %
RuntimeFuses.cpp 2518 61 %
RuntimeFuses.h 3356 71 %
SavedFrame.h 10681 41 %
SavedStacks-inl.h 1271 100 %
SavedStacks.cpp Maximum number of saved frames returned for an async stack. 74434 91 %
SavedStacks.h 15192 100 %
Scope.cpp 60478 80 %
Scope.h 60558 96 %
ScopeKind.h 889 -
SelfHosting.cpp 86313 85 %
SelfHosting.h 10964 -
Shape-inl.h static 3337 92 %
Shape.cpp static 57338 89 %
Shape.h 32734 100 %
ShapeZone.cpp JS symbol tables. 4736 100 %
ShapeZone.h 8993 100 %
SharedArrayObject.cpp 37385 79 %
SharedArrayObject.h SharedArrayRawBuffer A bookkeeping object always stored before the raw buffer. The buffer itself is refcounted. SharedArrayBufferObjects and structured clone objects may hold references. WasmSharedArrayRawBuffer is a derived class that's used for Wasm buffers. - Non-Wasm buffers are allocated with a single calloc allocation, like this: |<------ sizeof ------>|<- length ->| | SharedArrayRawBuffer | data array | - Wasm buffers are allocated with MapBufferMemory (mmap), like this: |<-------- sizeof -------->|<- length ->| | waste | WasmSharedArrayRawBuffer | data array | waste | Observe that if we want to map the data array on a specific address, such as absolute zero (bug 1056027), then the {Wasm}SharedArrayRawBuffer cannot be prefixed to the data array, it has to be a separate object, also in shared memory. (That would get rid of ~4KB of waste, as well.) Very little else would have to change throughout the engine, the SARB would point to the data array using a constant pointer, instead of computing its address. For Wasm buffers, length_ can change following initialization; it may grow toward sourceMaxPages_. See extensive comments above WasmArrayRawBuffer in ArrayBufferObject.cpp. length_ only grows when the lock is held. 17074 92 %
SharedImmutableStringsCache-inl.h 2667 90 %
SharedImmutableStringsCache.cpp static 4119 80 %
SharedImmutableStringsCache.h The `SharedImmutableStringsCache` allows safely sharing and deduplicating immutable strings (either `const char*` [any encoding, not restricted to only Latin-1 or only UTF-8] or `const char16_t*`) between threads. The locking mechanism is dead-simple and coarse grained: a single lock guards all of the internal table itself, the table's entries, and the entries' reference counts. It is only safe to perform any mutation on the cache or any data stored within the cache when this lock is acquired. 13761 100 %
SharedMem.h 5122 100 %
SharedScriptDataTableHolder.cpp 751 100 %
SharedScriptDataTableHolder.h namespace js 2753 100 %
SharedStencil.h Exception handling record. 34717 99 %
SourceHook.cpp 903 100 %
Stack-inl.h Initialize stack frame members. 25124 98 %
Stack.cpp 25351 97 %
Stack.h / namespace js { namespace jit { class BaselineFrame; class RematerializedFrame; } // namespace jit /** Pointer to a live JS or WASM stack frame. 33654 99 %
StaticStrings.cpp 2803 93 %
StaticStrings.h We keep these public for the JITs. 8733 92 %
StencilEnums.h 13149 -
StencilObject.cpp static 4950 91 %
StencilObject.h namespace js 2013 -
StringObject-inl.h static 1629 84 %
StringObject.h Creates a new String object boxing the given string. The object's [[Prototype]] is determined from context. 2231 100 %
StringType-inl.h Don't bother trying to find a static atom; measurement shows that not many get here (for one, Atomize is catching them). 29179 94 %
StringType.cpp 108771 77 %
StringType.h The buffer length required to contain any unsigned 32-bit integer. 95728 96 %
StructuredClone.cpp This file implements the structured data algorithms of https://html.spec.whatwg.org/multipage/structured-data.html The spec is in two parts: - StructuredSerialize examines a JS value and produces a graph of Records. - StructuredDeserialize walks the Records and produces a new JS value. The differences between our implementation and the spec are minor: - We call the two phases "write" and "read". - Our algorithms use an explicit work stack, rather than recursion. - Serialized data is a flat array of bytes, not a (possibly cyclic) graph of "Records". - As a consequence, we handle non-treelike object graphs differently. We serialize objects that appear in multiple places in the input as backreferences, using sequential integer indexes. See `JSStructuredCloneReader::allObjs`, our take on the "memory" map in the spec's StructuredDeserialize. 143491 83 %
SymbolType.cpp 5793 86 %
SymbolType.h namespace js 5579 100 %
TaggedProto.cpp static 1235 54 %
TaggedProto.h Skip nullptr and LazyProto. 5214 97 %
ThrowMsgKind.cpp 1471 86 %
ThrowMsgKind.h vm_ThrowMsgKind_h 1035 -
Time.cpp PR time code. 6656 100 %
Time.h Broken down form of 64 bit time value. 5043 100 %
ToSource.cpp Convert a JSString to its source expression; returns null after reporting an error, otherwise returns a new string reference. No Handle needed since the input is dead after the GC. 6960 86 %
ToSource.h 817 -
TypedArrayObject-inl.h Utilities and common inline code for TypedArray 24485 93 %
TypedArrayObject.cpp TypedArrayObject The non-templated base class for the specific typed implementations. This class holds all the member variables that are used by the subclasses. 247470 89 %
TypedArrayObject.h TypedArrayObject The non-templated base class for the specific typed implementations. This class holds all the member variables that are used by the subclasses. 16697 94 %
TypeofEqOperand.h 1422 100 %
UbiNode.cpp 15964 84 %
UbiNodeCensus.cpp Count Types *********************************************************** 41227 88 %
UbiNodeShortestPaths.cpp = 10 2538 83 %
Uint8Clamped.h std::log10(2) 4974 100 %
UsageStatistics.cpp 798 100 %
UsingHint.h vm_UsingHint_h 731 -
Value.cpp 7484 0 %
Warnings.cpp 3187 61 %
Warnings.h vm_Warnings_h 839 -
Watchtower.cpp 27327 93 %
Watchtower.h 7264 100 %
WellKnownAtom.cpp 1015 -
WellKnownAtom.h namespace js 1579 100 %
WindowProxy.cpp WindowProxy and Window implementation, for the web browser embedding. 2266 100 %
WrapperObject.h vm_WrapperObject_h 1075 100 %
Xdr.cpp 5353 85 %
Xdr.h 12252 79 %